CN114590423B - Food outsourcing intermittent type rotates automatic packaging machine - Google Patents

Abstract

The invention discloses an intermittent rotation automatic packaging machine for food, which comprises a feeding substrate, wherein the feeding substrate is provided with a barrel-shaped structure, a first feeding pipe is arranged on the bottom surface of the feeding substrate, the first feeding pipe penetrates through the bottom surface of the feeding substrate, a first fixed shaft is arranged in the middle of the feeding substrate, the first fixed shaft and the feeding substrate are coaxially arranged, a swinging disc is coaxially arranged above the bottom surface of the feeding substrate and fixedly connected to the first fixed shaft, the swinging disc can rotate relative to the feeding substrate, a rotating disc is arranged below the feeding substrate, a fixed disc is arranged below the rotating disc, a packaging disc is arranged below the fixed disc, the swinging disc is of a cone-shaped structure, a swinging plate body is arranged on the swinging disc, and meanwhile, the swinging substrate in the swinging assembly is connected through an elastic substrate, so that when meat materials around the swinging assembly extrude the swinging substrate, the effect of compacting the meat materials can be achieved, and air between the meat materials is discharged, and bacteria are prevented from breeding.

Description

Food outsourcing intermittent type rotates automatic packaging machine

Technical Field

The invention relates to the technical field of packaging devices, in particular to an intermittent rotation automatic packaging machine for food outsourcing.

Background

At present, along with the rising of labor cost and the continuous increase of staff mobility and the continuous increase of demands on packaging efficiency, the demand of an automatic packaging machine is also rising, the automatic packaging machine is a mechanical device specially applied to the packaging field, the automatic packaging machine can realize the full automation of the whole process from material conveying, film rolling and bagging, material canning and material packaging to finished product conveying without manual intervention, in addition, the automatic packaging machine has the characteristics of stable packaging quality, convenient management, safe and nontoxic food-grade materials, convenient cleaning, long service life, durability and the like, so the automatic packaging machine is more and more popular with enterprises, and is widely applied to the food industry, the medicine industry, the hardware industry, the chemical industry and the like at present because the automatic packaging machine faces the problems of industrial upgrading, rising labor cost, low packaging efficiency and difficult personnel management.

According to the multi-head scale combined packaging machine (CN 109335035B) disclosed in the prior art, meat blocks are packaged through mechanical automation, so that the labor cost is saved, the production efficiency is effectively improved, the multi-head scale combined packaging machine is flexible to use, the dynamic weighing precision is accurate, the problem that the existing meat packages are packaged after being manually weighed, the efficiency is low, the problem of insanitation is solved, the packaging speed is improved, the working efficiency is greatly improved, and certain convenience is brought to the meat packaging, but the multi-head scale combined packaging machine cannot realize the compact filling, disinfection and sterilization of the meat.

Disclosure of Invention

The invention aims to provide an intermittent rotation automatic packaging machine for food wrapping so as to solve the problem that meat cannot be tightly filled and sterilized.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides an automatic packagine machine of intermittent type rotation is outsourced to food, including, feeding base member has the drum form structure, feeding base member's bottom surface is equipped with first pan feeding pipe, first pan feeding pipe runs through feeding base member's bottom surface, feeding base member's middle part is equipped with first fixed axle, first fixed axle and feeding base member coaxial arrangement, feeding base member's bottom surface top coaxial arrangement has the swing disc, swing disc fixed connection is on first fixed axle, swing disc can rotate relative feeding base member, feeding base member's below is equipped with the rotation disc, rotation disc's below is equipped with fixed disc, fixed disc's below is equipped with the packing disc, packing disc and the coaxial fixed connection of lower extreme of second fixed axle, the packing disc has the plectane form structure, packing disc side is equipped with a plurality of packing couples, swing disc has the circular cone form structure, be equipped with the swing plate body on the swing disc, swing plate body has the trapezoid form structure, swing plate body's one side and swing disc fixed connection, square through-shaped through hole inside is equipped with the swing subassembly, swing subassembly comprises two swing base members relatively arranged on the swing base member, swing base member has the trapezoid form structure, swing base member, swing guard is equipped with the fixed edge of elasticity member is connected with the swing guard;

there is certain space between the bottom surface of swing disc and feeding base member to the motion of swing disc self, the swing plate body that is equipped with on the swing disc, the swing plate body can realize the motion of self along with the swing of swing disc, constantly with the meat material propelling movement on the swing disc first pan feeding hole inside, and the swing subassembly that is equipped with on the square through-hole of swing plate body, can produce inertia along with the motion of swing plate body, then make oneself produce the reciprocating motion opposite with the swing direction of swing disc and swing plate body, the swing subassembly in the motion process can drive the swinging member and the swing spheroid that are equipped with in its below again and move, promote the meat material of swing plate below to remove, avoid the meat material to stop in the below of swing plate, and simultaneously, because the swing base member in the swing subassembly is through the elastic matrix connection, so when the meat material on the swing assembly forms the extrusion to the swing base member, can make the swing base member deform and the in-process of recovering, can play certain extrusion and the effect of pushing the meat material on its periphery, promote the meat material to get into first pan feeding pipe, also can drive the meat material to the swing plate, can avoid the rotten air to cause the rotten meat material to the clearance to the back, the meat material of the vibration plate is prevented from growing, the rotten material is produced to the meat material, the clearance is avoided to the meat material is produced to the vibration plate.

The outer part of the feeding substrate is provided with a shell, the inner wall surface of the shell is fixedly connected with the outer wall surface of the feeding substrate through a connecting part, a first motor seat is arranged on the inner wall of the shell, a first motor is arranged on the first motor seat and provided with a first output shaft, the end part of the first output shaft is coaxially and fixedly connected with a first rotary table, a first rotary column body is arranged on the first rotary table, a spur gear is fixedly connected on a first fixed shaft, one side of the spur gear is meshed with one side of a strip-shaped rack, the strip-shaped rack is provided with a double-sided rack structure, the other side of the strip-shaped rack is meshed with a sector gear, two ends of the strip-shaped rack penetrate through the shell, the strip-shaped rack can slide relative to the shell, a first connecting rod is fixedly connected with the circle center of the sector gear, and a through groove is formed in the first connecting rod and is in sliding fit with the first rotary column body;

the casing can form the protection to the feeding base member to and form fixed action to first motor and second motor, the inside first carousel below of casing drives the continuous rotation of first output shaft through first motor, and then drive first carousel and the first cylinder rotation that rotates that is equipped with on it, then through the circular motion of first cylinder of rotating into sector gear's reciprocating motion with first connecting rod, sector gear can drive the double-sided rack motion rather than the meshing, make double-sided rack form reciprocal rectilinear motion, the opposite side of double-sided gear then drives the straight gear rather than the meshing and form swing motion, and then control whole swing disc and form swing motion.

The second feeding pipe is arranged on the rotating disc in a surrounding manner, the second fixing shaft penetrates through the central axis of the rotating disc, the lower end of the second fixing shaft is fixedly connected with the second rotary table, a plurality of second rotating plate bodies are arranged on the edge of the second rotary table in a surrounding manner, the two sides of each second rotating plate body are provided with concave arc surfaces, the inner wall of the shell is also provided with a second motor seat, the second motor seat is provided with a second motor, the second motor is provided with a second output shaft, the second output shaft is fixedly connected with a rotating rod body, the rotating rod body is fixedly connected with a second rotating cylinder, the two second rotating cylinders are symmetrically arranged at the two ends of the rotating rod body, the upper end face of each second motor is fixedly connected with a second connecting rod, and the other end of each second connecting rod is rotationally connected with the second fixing shaft;

the quantity of second pan feeding pipe is 2 times of first pan feeding pipe to the cooperation first pan feeding pipe forms incessant blanking, and the inside second carousel of casing drives the second output shaft through the second motor that its below was equipped with and continues to rotate, thereby drives rather than fixed connection's the pivoted lever body and rotate, and the pivoted lever body drives the second pivoted cylinder that its top symmetry set up again simultaneously and rotates, and then makes the second pivoted cylinder drive the second and rotate the plate body and rotate same distance in same interval, thereby makes the second rotate the plate body and drives second carousel intermittent type rotation, thereby makes the second carousel drive the pivoted disc and realized intermittent type rotation.

The fixed disc has the plectane-shaped structure, is equipped with the third pan feeding pipe on the fixed disc, and the third pan feeding pipe runs through the fixed disc, and a plurality of air inlets have been seted up around the side of fixed disc, and the air inlet runs through the inside one end that is close to the air inlet of third pan feeding pipe and is equipped with first solenoid valve, and the inside other end of third pan feeding pipe is equipped with the second solenoid valve, is equipped with the counter on the third pan feeding pipe inner wall, and the counter can detect packing quantity.

The air inlet is connected with an air inlet pipe, an adjusting piece is arranged in the air inlet pipe, a flow blocking plate is arranged in the middle of the adjusting piece, the flow blocking plate is of a circular plate structure, a flow blocking annular sleeve is arranged outside the adjusting piece, the flow blocking annular sleeve is of a circular ring structure, a plurality of flow dividing plates are arranged between the flow blocking annular sleeve and the flow blocking plate in a surrounding mode, and two ends of the flow dividing plates are fixedly connected with the flow blocking annular sleeve and the flow blocking plate respectively;

the air inlet pipe is internally provided with sterilizing and disinfecting air, the outlet end of the air inlet pipe is clamped with an adjusting piece, the aim of adjusting the air flow rate of the outlet end of the air inlet pipe is to prevent the air from impacting meat materials due to the fact that the air inlet pipe is excessively large in the moment, the meat materials are adhered to the inner wall of the third feeding pipe or an electromagnetic valve, the air inlet air flow can be split through a splitter plate in the adjusting piece, the air inlet air flow is discharged outwards from all directions in the air inlet pipe along the splitter plate, part of the air inlet air flow can be blocked through the baffle plate, the air inlet air flow is prevented from being intensively discharged from the middle of the air inlet pipe to the third feeding pipe, and then the adjusting piece can enable the air inlet air flow to form softer and uniformly distributed air, the meat materials falling from the second feeding pipe above are prevented from being directly dispersed when the air inlet air flow enters, uniform sterilizing effect can be achieved on the meat materials, and the air pressure above the third feeding pipe is increased along with the continuous feeding of the air, the meat materials below the inside of the third feeding pipe can be promoted to continuously move downwards, and the gap between the meat materials is further reduced under the continuously increased air pressure effect, so that the meat materials are more compact; after the regulating part regulates and shunts the air inflow, the impact vibration influence of the air inflow on the third feeding pipe and the air inlet pipe can be reduced, so that the possibility of loosening of the parts inside the air inlet pipe or the parts inside the third feeding pipe is reduced, the effect of reducing noise is achieved, the arrangement of the air inlet pipe can also prevent meat materials from adhering to the inner wall of the third feeding pipe, and the cleaning effect is achieved on the inner wall of the third feeding pipe.

The same position in the first feeding pipe and the second feeding pipe is provided with an electromagnetic valve which is the same as that of the third feeding pipe, and the first feeding pipe is internally provided with a weight sensor;

the solenoid valve is convenient for control the business turn over of first pan feeding pipe, second pan feeding pipe and third pan feeding pipe meat material to through set up the weight inductor at first pan feeding intraductal, realize quantitative package.

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

1. according to the food outsourcing intermittent rotation automatic packaging machine, meat materials below the swinging plate are promoted to move through combined application of the swinging plate body and the swinging assembly arranged on the swinging disc, so that the meat materials are prevented from staying below the swinging plate;

2. according to the food outsourcing intermittent rotation automatic packaging machine, due to the design of the elastic substrates among the swinging substrates, a certain extrusion and pushing effect can be achieved on the meat materials around the elastic substrates, the meat materials are promoted to enter the first feeding pipe, an effect of compacting the meat materials can be achieved, air among the meat materials is discharged, bacteria are prevented from breeding, the meat materials can be prevented from entering the gap between the swinging assembly and the swinging disc or the swinging plate body by the protective cover, and the meat materials are prevented from accumulating for a long time, so that mildewing and deterioration are caused;

3. according to the intermittent rotation automatic packaging machine for the food, the air inlet pipe and the regulating piece are arranged, so that air inlet flows are discharged from the outside of the air inlet pipe along all directions in the air inlet pipe, part of air inlet flows can be blocked through the flow blocking plate, the air inlet flows are prevented from being discharged from the middle of the air inlet pipe to the third feeding pipe in a concentrated mode, and then the regulating piece can enable the air inlet flows to form soft and uniformly distributed air, meat materials falling from the second feeding pipe above the air inlet flows are prevented from being directly scattered when the air inlet flows enter the air inlet pipes, uniform sterilization effect can be achieved on the meat materials, and the air pressure above the inside of the third feeding pipe is increased along with continuous feeding of the air, the meat materials below the inside of the third feeding pipe can be caused to continuously move downwards, and gaps in the middle of the meat materials are further reduced under the continuously increased air pressure effect, so that the meat materials are more compact;

4. this automatic packaging machine is rotated to food outsourcing intermittent type, through the regulation reposition of redundant personnel of regulating part to the air current that admits air, can also reduce the impact vibration influence of air current to third pan feeding pipe and intake pipe self to reduce the inside or inside part of third pan feeding pipe of intake pipe and become flexible possibility and play the effect of noise reduction.

Drawings

FIG. 1 is a schematic view of a preferred embodiment of an intermittent rotary automatic packaging machine for food wrapping according to the present invention;

FIG. 2 is a schematic view showing an internal structure of the automatic packaging machine for food wrapping and intermittent rotation shown in FIG. 1;

FIG. 3 is a partial cross-sectional view of an intermittent rotary automatic packaging machine for food products of the type shown in FIG. 1;

FIG. 4 is a schematic view of the structure of I-I shown in FIG. 3;

FIG. 5 is a schematic view of the wobble plate of FIG. 2;

FIG. 6 is a schematic diagram of the drive structure of the wobble plate;

FIG. 7 is a schematic view of the structure II-II shown in FIG. 3;

FIG. 8 is a schematic view of the structure of the intermittently rotating disc of FIG. 2;

FIG. 9 is a schematic diagram of a drive configuration for intermittently rotating disks;

fig. 10 is a schematic structural view of an intake pipe;

FIG. 11 is a schematic view of the adjuster shown in FIG. 10;

FIG. 12 is a schematic view of the structure of the third feeding tube;

FIG. 13 is a schematic view of a swing assembly;

fig. 14 is a schematic structural diagram of a buffer device.

In the figure: 1. a feed substrate; 11. a first motor; 12. a first turntable; 13. a first rotating cylinder; 14. a first link; 15. a sector gear; 16. a bar rack; 17. spur gears; 18. a first fixed shaft; 19. the first feeding pipe; 110. a first output shaft; 111. a through groove; 112. a housing; 113. a connection part; 114. a first motor base; 115. the second motor base; 2. swinging the disc; 21. swinging the plate body; 22. square through holes; 23. a swing assembly; 24. swinging the substrate; 25. an elastic matrix; 26. swinging the rod piece; 27. swinging the sphere; 28. a shield sleeve; 3. rotating the disc; 31. a second feeding pipe; 32. a second motor; 33. a second turntable; 34. a second fixed shaft; 35. a second rotary plate body; 36. a second link; 37. a second output shaft; 38. rotating the rod body; 39. a second rotary cylinder; 4. a fixed disc; 41. a third feeding pipe; 42. packaging the disc; 43. packaging hooks; 44. an air inlet; 45. an air inlet pipe; 46. an adjusting member; 47. a flow baffle; 48. a flow blocking ring sleeve; 49. a diverter plate; 410. a shunt through hole; 411. a first electromagnetic valve; 412. a second electromagnetic valve; 413. a counter; 5. a buffer device; 51. a cache frame body; 52. the first buffer bearing plate; 53. the second buffer bearing plate; 54. a sterilizing lamp; 55. a hydraulic control lever.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 2-6 and 13, one embodiment of the present invention provides: the food outsourcing intermittent rotating automatic packaging machine comprises a food outsourcing intermittent rotating automatic packaging machine, wherein the food outsourcing intermittent rotating automatic packaging machine comprises a feeding substrate 1, the feeding substrate 1 is provided with a barrel-shaped structure, the bottom surface of the feeding substrate 1 is provided with a first feeding pipe 19, the first feeding pipe 19 penetrates through the bottom surface of the feeding substrate 1, the middle part of the feeding substrate 1 is provided with a first fixed shaft 18, the first fixed shaft 18 and the feeding substrate 1 are coaxially arranged, a swinging disc 2 is coaxially arranged above the bottom surface of the feeding substrate 1, the swinging disc 2 is fixedly connected to the first fixed shaft 18, the swinging disc 2 can rotate relative to the feeding substrate 1, a rotating disc 3 is arranged below the feeding substrate 1, a fixed disc 4 is arranged below the rotating disc 3, a packaging disc 42 is arranged below the fixed disc 4, the packaging disc 42 is coaxially and fixedly connected with the lower end of a second fixed shaft 34, the packaging disc 42 is provided with a circular plate-shaped structure, the side surface of the packaging disc 42 is provided with a plurality of packaging hooks 43, the swinging disc 2 is provided with a table-shaped structure, the swinging disc 2 is provided with a swinging plate 21, one side surface of the swinging plate 21 is fixedly connected with the swinging plate 21, the swinging plate 21 is fixedly with the swinging plate 2, the swinging plate 21 is provided with the swinging rod member 23, the swinging rod member 24 is fixedly connected with the other end of the swinging rod member 24 and the swinging rod member 24 is provided with the swinging sleeve 24 and the swinging rod member 24 and the other end of the swinging plate member 24 is fixedly connected with the spherical member 24 and the spherical member 24 is fixedly and is provided with the swinging sleeve 25, and the swinging member is fixedly connected with the other end 24 through the elastic member 24 is provided with the two elastic member 25 and the base body is provided with the two elastic member 23 and the base body is connected with the base body 25;

there is certain space between the swing disc 2 and the bottom surface of the feeding substrate 1, so that the swing disc 2 moves, the swing plate 21 arranged on the swing disc 2 can move along with the swing of the swing disc 2, the swing plate 21 can continuously push meat materials on the swing disc 2 into the first feeding pipe 19, and the swing assembly 23 arranged on the square through hole 22 of the swing plate 21 can generate inertia along with the movement of the swing plate 21, then the swing assembly 23 in the movement process can drive the swing rod 26 and the swing sphere 27 arranged below the swing plate 2 to move, so that meat materials below the swing plate 21 are prevented from staying below the swing plate 21, meanwhile, the swing substrate 24 in the swing assembly 23 is connected through the elastic substrate 25, when the meat materials around the swing assembly 23 squeeze the swing substrate 24, the swing substrate 24 is deformed, the swing substrate 24 and the restored meat materials can also have a certain extrusion effect on the swing rod 26 and the swing sphere 27, and the air gap between the swing substrate and the swing substrate 21 can be avoided, and the meat materials can be prevented from entering the first feeding pipe 19, and the bacteria can be prevented from entering the gap between the swing substrate and the swing substrate 21.

Referring to fig. 1 to 6, a housing 112 is provided outside the feeding substrate 1, and an inner wall surface of the housing 112 is fixedly connected with an outer wall surface of the feeding substrate 1 through a connecting portion 113; the inner wall of the shell 112 is provided with a first motor seat 114, the first motor seat 114 is provided with a first motor 11, the first motor 11 is provided with a first output shaft 110, the end part of the first output shaft 110 is coaxially and fixedly connected with a first rotary table 12, the first rotary table 12 is provided with a first rotary column 13, a spur gear 17 is fixedly connected with a first fixed shaft 18, one side of the spur gear 17 is meshed with one side of a bar rack 16, the bar rack 16 is provided with a double-sided rack structure, the other side of the bar rack 16 is meshed with a sector gear 15, two ends of the bar rack 16 penetrate through the shell 112, the bar rack 16 can slide relative to the shell 112, the circle center of the sector gear 15 is fixedly connected with a first connecting rod 14, the first connecting rod 14 is provided with a through groove 111, and the inside of the through groove 111 is in sliding fit with the first rotary column 13;

the casing 112 can protect the feeding substrate 1, and form a fixed action to the first motor 11 and the second motor 32, the lower part of the first rotating disc 12 in the casing 112 drives the first output shaft 110 to continuously rotate through the first motor 11, so as to drive the first rotating disc 12 and the first rotating cylinder 13 arranged on the first rotating disc 12 to rotate, then the circular motion of the first rotating cylinder 13 is converted into the reciprocating motion of the sector gear 15 through the first connecting rod 14, the sector gear 15 can drive the bar rack 16 meshed with the sector gear to move, the bar rack 16 forms the reciprocating linear motion, the other side of the bar rack 16 drives the spur gear 17 meshed with the bar rack to form the swinging motion, and the whole swinging disc 2 is controlled to form the swinging motion.

Referring to fig. 7-9, a second feeding pipe 31 is arranged on the rotating disc 3 in a surrounding manner, a second fixing shaft 34 is arranged at the central axis of the rotating disc 3 in a penetrating manner, a second rotary table 33 is fixedly connected to the lower end of the second fixing shaft 34, a plurality of second rotating plate bodies 35 are arranged on the edge of the second rotary table 33 in a surrounding manner, concave arc surfaces are arranged on two sides of the second rotating plate bodies 35, a second motor seat 115 is also arranged on the inner wall of the shell 112, a second motor 32 is arranged on the second motor seat 115, a second output shaft 37 is arranged on the second motor 32, a rotating rod body 38 is fixedly connected to the second output shaft 37, a second rotating cylinder 39 is fixedly connected to the rotating rod body 38, two second rotating cylinders 39 are symmetrically arranged at two ends of the rotating rod body 38, a second connecting rod 36 is fixedly connected to the upper end face of the second motor 32, and the other end of the second connecting rod 36 is in rotating connection with the second fixing shaft 34;

the number of the second feeding pipes 31 is 2 times that of the first feeding pipes 19, so that the first feeding pipes 19 are matched to form uninterrupted blanking, the second rotary table 33 in the shell 112 drives the second output shaft 37 to continuously rotate through the second motor 32 arranged below the second rotary table 33, so that the rotary rod 38 fixedly connected with the second rotary table is driven to rotate, the rotary rod 38 drives the second rotary columns 39 symmetrically arranged above the rotary rod 38 to rotate, the second rotary columns 39 drive the second rotary plate 35 to rotate for the same distance in the same time interval, and the second rotary plate 35 drives the second rotary table 33 to intermittently rotate, so that the second rotary table 33 drives the rotary disc 3 to intermittently rotate.

Referring to fig. 2, 3 and 12, the fixed disc 4 has a circular plate structure, a third feeding pipe 41 is disposed on the fixed disc 4, the third feeding pipe 41 penetrates through the fixed disc 4, a plurality of air inlets 44 are formed around the side surface of the fixed disc 4, the air inlets 44 penetrate through one side surface of the third feeding pipe 41, a first electromagnetic valve 411 is disposed at one end, close to the air inlets 44, of the inside of the third feeding pipe 41, a second electromagnetic valve 412 is disposed at the other end of the inside of the third feeding pipe 41, a counter 413 is disposed on the inner wall of the third feeding pipe 41, and the counter 413 can detect the package quantity.

Referring to fig. 2, 10 and 11, an air inlet pipe 45 is connected to an air inlet 44, an adjusting member 46 is arranged in the air inlet pipe 45, a flow blocking plate 47 is arranged in the middle of the adjusting member 46, the flow blocking plate 47 has a circular plate structure, a flow blocking ring sleeve 48 is arranged outside the adjusting member 46, the flow blocking ring sleeve 48 has a circular ring structure, a plurality of flow dividing plates 49 are arranged between the flow blocking ring sleeve 48 and the flow blocking plate 47 in a surrounding manner, two ends of the flow dividing plates 49 are fixedly connected with the flow blocking ring sleeve 48 and the flow blocking plate 47 respectively, and flow dividing through holes 410 are formed in the flow blocking ring sleeve 48 in a surrounding manner;

the sterilizing and disinfecting gas is introduced into the air inlet pipe 45, and an adjusting piece 46 is clamped at the outlet end of the air inlet pipe 45, so that the aim of adjusting the gas flow rate at the outlet end of the air inlet pipe 45 is to prevent the meat from being impacted by the air pressure which is excessively large in the moment of inflation, so that the meat is adhered to the inner wall of the third feeding pipe 41 or an electromagnetic valve, the air inlet flow can be split through a splitter plate 49 in the adjusting piece 46, the air inlet flow can be discharged from the outside of all directions in the air inlet pipe 45 along the splitter plate 49, part of the air inlet flow can be blocked through the baffle plate 47, the air inlet flow is prevented from being intensively discharged from the middle part of the air inlet pipe 45 to the third feeding pipe 41, and further, the adjusting piece 46 can enable the air inlet flow to form softer and uniformly distributed gas, prevent the meat which falls down from the second feeding pipe 31 above from being directly dispersed when the air inlet flow enters, so that a uniform sterilizing effect can be realized on the meat, and the air pressure above the inside of the third feeding pipe 41 can be increased along with the continuous feeding of the gas, the meat below the inside of the meat can be continuously moved downwards, and under the continuously increased air pressure, the gap between the meat can be further contracted and compacted; after the adjusting piece 46 adjusts and shunts the air inflow, the impact vibration influence of the air inflow on the third feeding pipe 41 and the air inlet pipe 45 can be reduced, so that the possibility of loosening of the inner part of the air inlet pipe 45 or the inner part of the third feeding pipe 41 is reduced, the noise is reduced, the meat material is prevented from adhering to the inner wall of the third feeding pipe 41, and the inner wall of the third feeding pipe is cleaned.

Referring to fig. 2 and 12, the same solenoid valve as the third feeding pipe 41 is disposed at the same position inside the first feeding pipe 19 and the second feeding pipe 31, and a weight sensor is disposed inside the first feeding pipe 19;

the solenoid valve is convenient for control the business turn over of first pan feeding pipe 19, second pan feeding pipe 31 and third pan feeding pipe 41 meat material to through set up weight sensor in first pan feeding pipe 19 inside, realize quantitative package.

Embodiment two:

referring to fig. 14, an automatic packaging machine for food wrapping intermittent rotation further includes a buffer device 5, a buffer frame 51 is arranged at the periphery of the buffer device 5, the buffer frame 51 is composed of a plurality of angle irons, the buffer frame 51 is provided with a sterilizing lamp 54, a first buffer bearing plate 52 and a second buffer bearing plate 53 are arranged in the buffer frame 51, and the first buffer bearing plate 52 and the second buffer bearing plate 53 are connected with the buffer frame 51 through a hydraulic control rod 55;

the purpose of buffer memory device 5 design is that avoid the regional meat material of swing disc 2 too much, lead to the work efficiency of swing disc 2 to lead to the pan feeding time extension of first pan feeding pipe 19, easily cause the jam of first pan feeding pipe 19, buffer memory device 5's design can also be used for reducing the meat material and reach the regional impact force of swing disc 2, the too fast whereabouts speed of meat material very easily leads to partial meat material to spill swing disc 2 regional, still can be through the unloading interval of control buffer memory device 5, thereby avoid sending into swing disc 2 regional with meat material concentrate, buffer memory device 5 is to meat material buffering, its sterilamp 54 that has can disinfect to meat material.

Working principle:

meat materials are put into the upper part of the food outsourcing intermittent rotation automatic packaging machine by a conveyor or other meat material conveying equipment, the meat materials firstly reach the buffer device 5, the opening and closing of the first buffer bearing plate 52 and the second buffer bearing plate 53 are realized by controlling the hydraulic control rod 55 on the buffer device 5, the meat materials fall into the area of the swinging disc 2 below, meanwhile, the first motor 11 and the second motor 32 are opened, the first motor 11 controls the swinging disc 2, the meat materials are promoted to fall into the first feeding pipes 19 rapidly, and when the meat materials in each first feeding pipe 19 reach the set packaging amount, the electromagnetic valve above the inside of the meat materials is closed, so that the continuous feeding is prevented; after all the first feeding pipes 19 are filled, simultaneously opening the electromagnetic valve below the inner part of the first feeding pipe 19 to enable meat materials to fall down to the second feeding pipes 31, and simultaneously opening the electromagnetic valve below the inner part of the second feeding pipes 31 to enable the third feeding pipes 41 to be blanked after half of the second feeding pipes 31 receive blanking due to the fact that the number of the second feeding pipes 31 is 2 times that of the first feeding pipes 19, and simultaneously intermittently rotating the rotating disc 3 for a certain distance under the control of the second motor 32 so as to be ready for receiving upper feeding materials simultaneously; the third feeding pipe 41 receives blanking and simultaneously the air inlet pipe 45 is used for introducing sterilizing gas into the third feeding pipe 41, after a certain time, the electromagnetic valve below the inner part of the third feeding pipe 41 is opened, so that meat materials are blanked to the packaging bag position on the packaging hook 43, and the outer packaging of products is completed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (3)

1. The utility model provides an automatic packagine machine of food outsourcing intermittent type rotation, includes feeding base member (1), feeding base member (1) has the cask column structure, the bottom surface of feeding base member (1) is equipped with first pan feeding pipe (19), first pan feeding pipe (19) run through the bottom surface of feeding base member (1), the middle part of feeding base member (1) is equipped with first fixed axle (18), first fixed axle (18) with feeding base member (1) coaxial setting, the bottom surface top of feeding base member (1) is equipped with swing disc (2) coaxially, swing disc (2) fixed connection in on first fixed axle (18), swing disc (2) can rotate relative feeding base member (1), the below of feeding base member (1) is equipped with rotating disc (3), the below of rotating disc (3) is equipped with fixed disc (4), the below of fixed disc (4) is equipped with packing disc (42),

the method is characterized in that: the swinging disc (2) is provided with a cone frustum-shaped structure, the swinging disc (2) is provided with a swinging plate body (21), the swinging plate body (21) is provided with a trapezoid plate-shaped structure, one side surface of the swinging plate body (21) is fixedly connected with the swinging disc (2), a square through hole (22) is formed in the swinging plate body (21), a swinging assembly (23) is arranged in the square through hole (22), the swinging assembly (23) consists of two oppositely arranged swinging matrixes (24), the swinging matrixes (24) are provided with a trapezoid structure, the two swinging matrixes (24) are fixedly connected through an elastic matrix (25), a swinging rod piece (26) is arranged below the elastic matrix (25), the other end of the swinging rod piece (26) is fixedly connected with a swinging sphere (27), and a blocking sleeve (28) is arranged at the edge of the swinging assembly (23).

The outer part of the feeding substrate (1) is provided with a shell (112), and the inner wall surface of the shell (112) is fixedly connected with the outer wall surface of the feeding substrate (1) through a connecting part (113);

the novel electric motor is characterized in that a first motor seat (114) is arranged on the inner wall of the shell (112), a first motor (11) is arranged on the first motor seat (114), the first motor (11) is provided with a first output shaft (110), the end part of the first output shaft (110) is coaxially and fixedly connected with a first rotary table (12), a first rotary column (13) is arranged on the first rotary table (12), a spur gear (17) is fixedly connected onto a first fixed shaft (18), one side of the spur gear (17) is meshed with one side of a strip rack (16), the strip rack (16) is provided with a double-sided rack structure, the other side of the strip rack (16) is meshed with a sector gear (15), two ends of the strip rack (16) penetrate through the shell (112), the strip rack (16) can slide relative to the shell (112), a first connecting rod (14) is fixedly connected with a circle center of the sector gear (15), a through groove (111) is formed in the first connecting rod (14), and the inside of the through groove (111) is in sliding fit with the first rotary column (13).

The rotary disc (3) is provided with a second feeding pipe (31) in a surrounding mode, a second fixed shaft (34) penetrates through the central axis of the rotary disc (3), a second rotary disc (33) is fixedly connected to the second fixed shaft (34), a plurality of second rotary plate bodies (35) are arranged on the edge of the second rotary disc (33) in a surrounding mode, and concave arc-shaped surfaces are arranged on two sides of the second rotary plate bodies (35);

the fixed disc (4) is provided with a circular plate-shaped structure, a third feeding pipe (41) is arranged on the fixed disc (4), the third feeding pipe (41) penetrates through the fixed disc (4), a plurality of air inlets (44) are formed in a surrounding mode on the side face of the fixed disc (4), the air inlets (44) penetrate through one side face of the third feeding pipe (41), a first electromagnetic valve (411) is arranged at one end, close to the air inlets (44), of the inside of the third feeding pipe (41), a second electromagnetic valve (412) is arranged at the other end of the inside of the third feeding pipe (41), and a counter (413) is arranged on the inner wall of the third feeding pipe (41);

the lower end of the second fixed shaft (34) is coaxially and fixedly connected with a packing disc (42), the packing disc (42) is of a circular plate-shaped structure, and a plurality of packing hooks (43) are arranged on the side face of the packing disc (42).

2. The automatic packaging machine for food packaging according to claim 1, wherein: still be equipped with second motor cabinet (115) on the inner wall of casing (112), be equipped with second motor (32) on second motor cabinet (115), second motor (32) have second output shaft (37), fixedly connected with rotates body of rod (38) on second output shaft (37), fixedly connected with second rotation cylinder (39) on rotating body of rod (38), two second rotation cylinder (39) set up at the both ends symmetry of rotating body of rod (38), the up end fixedly connected with second connecting rod (36) of second motor (32), the other end of second connecting rod (36) with second fixed axle (34) rotate and are connected.

3. The automatic packaging machine for food packaging according to claim 1, wherein: the novel air inlet device is characterized in that an air inlet pipe (45) is connected to the air inlet (44), an adjusting piece (46) is arranged in the air inlet pipe (45), a flow blocking plate (47) is arranged in the middle of the adjusting piece (46), the flow blocking plate (47) is of a circular plate-shaped structure, a flow blocking ring sleeve (48) is arranged outside the adjusting piece (46), the flow blocking ring sleeve (48) is of a circular ring-shaped structure, a plurality of flow dividing plates (49) are arranged between the flow blocking ring sleeve (48) and the flow blocking plate (47) in a surrounding mode, two ends of the flow dividing plates (49) are fixedly connected with the flow blocking ring sleeve (48) and the flow blocking plate (47) respectively, and a flow dividing through hole (410) is formed in the flow blocking ring sleeve (48) in a surrounding mode.

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