CN114082656A - Equipment is allocated to cold chain logistics object intelligence - Google Patents

Abstract

The invention relates to the technical field of cold-chain logistics, in particular to cold-chain logistics object intelligent distribution equipment, which comprises an equipment frame, wherein the equipment frame is sequentially provided with: the top frame is erected at the top end of the equipment frame; the material leading-in component is obliquely erected on the top frame; the material shifting assembly is arranged on the top frame, and the material shifting end of the material shifting assembly faces to the material carrying surface of the material guiding assembly; the first-stage distribution machine case is arranged on the equipment frame and is positioned at the tail end of the material introducing component, and the outer wall of the first-stage distribution machine case is provided with a plurality of first-stage distribution ports by taking the height of the material as a reference; the second-stage distribution cabinet is arranged on the equipment frame and is arranged on the periphery of the first-stage distribution cabinet along the first-stage distribution port, and a plurality of second-stage distribution grooves are formed in the second-stage distribution cabinet by taking the width of the material as a reference; and the cooling component is arranged on the upper edge of the second-stage turnover track and used for ensuring the temperature of the material. The invention carries out refined distribution treatment on the materials, thereby being convenient for boxing and packaging the cold-chain logistics according to the same volume.

Description

Equipment is allocated to cold chain logistics object intelligence

Technical Field

The invention relates to the technical field of cold-chain logistics, in particular to cold-chain logistics object intelligent distribution equipment.

Background

Cold chain logistics generally refers to a system project of producing, storing, transporting and selling refrigerated and frozen foods, and always keeping the refrigerated and frozen foods in a specified low-temperature environment in all links before consumption so as to ensure the quality of the foods and reduce the loss of the foods; it is established with the progress of science and technology and the development of refrigeration technology, and is a low-temperature logistics process based on refrigeration technology and by means of refrigeration technology.

Traditional cold chain commodity circulation generally adopts the manual work to unload the goods long distance and carry to the goods conveying mechanism in the storehouse, artifical unloading is wasted time and energy, labour is with high costs, and still need be according to the size of commodity circulation goods, artifical manual work operation to the initial minute of commodity circulation goods, and some existing discharge mechanism only are the discharge platform, lack the elevating system that can move away to avoid possible earthquakes, also lack the transfer function and the initial minute function of reducible manpower, for this reason need design a commodity circulation and allocate with the automatic discharge mechanism in storehouse, be used for solving above-mentioned problem.

Chinese patent (publication No. CN 111547537A) discloses an automatic unloading mechanism for a cargo compartment for logistics distribution, which designs a cargo conveying mechanism that the larger packed cargo blocked in front of an adjustable baffle is pushed away from a conveyor belt through an opening, so that the larger packed cargo slides to another cargo compartment through a distribution slide way at the opening; however, the method has certain defects, the equipment allocation operation efficiency is low, the material objects cannot be classified more finely and effectively, and the actual practicability is low.

Disclosure of Invention

The invention aims to provide cold-chain logistics object intelligent distribution equipment to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a cold chain logistics object intelligence divides equipment of allocating, includes the equipment rack, equipment rack top-down has set gradually:

the top frame is erected at the top end of the equipment frame;

the material leading-in component is obliquely erected on the top frame;

the material shifting assembly is arranged on the top frame, and the material shifting end of the material shifting assembly faces to the material carrying surface of the material guiding assembly;

the first-stage distribution machine case is arranged on the equipment frame and is positioned at the tail end of the material introducing component, and the outer wall of the first-stage distribution machine case is provided with a plurality of first-stage distribution ports by taking the height of the material as a reference;

the second-stage distribution cabinet is arranged on the equipment frame and is arranged on the periphery of the first-stage distribution cabinet along the first-stage distribution port, and a plurality of second-stage distribution grooves are formed in the second-stage distribution cabinet by taking the width of the material as a reference;

the first-stage transfer track is arranged at the corresponding first-stage distribution port and is used for connecting the first-stage distribution port and the corresponding inner space of the second-stage distribution case;

the second-stage transfer track is arranged at the discharge end of the second-stage distribution case and is respectively matched with the corresponding second-stage distribution grooves one by one;

and the cooling component is arranged on the upper edge of the second-stage turnover track and used for ensuring the temperature of the material.

As a further scheme of the invention: the leading-in subassembly of material is including setting up the pan feeding frame plate of roof-rack to and the guide rail who is connected with the pan feeding frame plate, dial the material subassembly including installing fixing base on the roof-rack, installing the swing axle on the fixing base and installing the swing arm on the swing axle, the arm end of swing arm is installed and is stirred the baffle, the side of fixing base still is provided with the locating plate, be provided with reset spring between locating plate and the swing arm.

As a further scheme of the invention: the one-level distribution machine case is circular structural design, the one-level distribution machine case includes the box, installs in the interior axle that drives of box central line position and installs in a plurality of centrifugal push pedal of interior axle outlying, centrifugal push pedal is the arc structure and the rotation direction of driving the axle in towards is crooked.

As a further scheme of the invention: the first-stage distribution ports are equidistantly arranged on the periphery of the first-stage distribution case, and the height limit heights of the first-stage distribution ports are sequentially increased along the steering direction of the inner drive shaft;

as a further scheme of the invention: the first-stage distributing port is externally connected with a connecting plate connected with a first-stage turnover track, and the first-stage turnover track is arc-shaped and bent along the tangential direction of the corresponding first-stage distributing port.

As a further scheme of the invention: the second grade divides the quick-witted case of dialling to include a plurality of division boards and set up the frame plate on the interior edge of division board, the second grade divides the groove to set up between adjacent frame plate, is provided with the direction slope between corresponding division board and the frame plate, the height of division board is cascaded reduction to the notch bore in second grade divides the groove is and increases in proper order.

As a further scheme of the invention: the first-stage distribution port and the second-stage distribution groove are respectively provided with a first scanner and a second scanner, and the first scanner and the second scanner are respectively arranged on the connecting plate and the frame plate.

As a further scheme of the invention: the second grade turnover track includes a plurality of output guide rails that divide the groove butt joint with the second grade, output guide rail divides the groove linking region with the second grade to be provided with angle diversion frame, angle diversion frame department is provided with a plurality of buffer pads.

As a further scheme of the invention: the outer side of the secondary distribution groove at the tail end is provided with a supporting base block and a protective baffle arranged on the supporting base block, the protective baffle is arranged on the supporting base block through a supporting rotating shaft, and a supporting spring is arranged between the supporting base block and the protective baffle.

As a still further scheme of the invention: the cooling assembly comprises a cold air conveying branch pipe, a flow distribution frame erected on the upper edge of the second-stage turnover track and an airflow spray head facing the inner cavity of the output guide rail.

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

the invention designs a primary distribution cabinet to distribute materials, wherein the outer wall of the primary distribution cabinet is provided with a plurality of primary distribution ports by taking the height of the materials as a reference, and the volume of the materials is distributed by taking the height of the materials as a reference; the materials at the distribution position are respectively guided into a second-stage distribution case through a first-stage turnover track, and the second-stage distribution case carries out secondary distribution treatment on the materials by taking the width of the materials as a reference; the materials are subsequently output along the second-stage turnover track and finely distributed, so that the cold-chain logistics are conveniently boxed and packed according to the same volume; the whole operation is automatically completed without manual operation, and the operation efficiency is effectively improved.

In the whole operation structure, only one driving motor is arranged at the bottom of the first-stage distribution case, compared with the prior art, a plurality of groups of motors or related driving mechanisms such as a hydraulic cylinder, a pneumatic pipeline, an inflation assembly and the like are not needed, so that the problem of heating caused by working of a large amount of equipment is avoided, and the problem that the heating of electrical equipment affects the operation quality of cold-chain logistics is effectively avoided; meanwhile, a sufficient loading space is provided for the cooling assembly, and the cooling assembly can be used for freezing and cooling after materials are distributed, so that the quality of cold-chain logistics is ensured.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application. Also, the drawings and the description are not intended to limit the scope of the present concepts in any way, but rather to illustrate the concepts of the present disclosure to those skilled in the art by reference to specific embodiments.

Fig. 1 is a schematic overall structure diagram of the cold-chain logistics object intelligent allocation device provided in the embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a material introducing assembly according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a first-level allocating chassis according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a secondary distribution chassis according to an embodiment of the present invention.

FIG. 5 is a schematic structural diagram of the area A in FIG. 4 according to the present invention.

Fig. 6 is a schematic structural diagram of a cooling assembly according to an embodiment of the present invention.

In the figure: 11. an equipment rack; 12. a top frame; 13. a material introduction assembly; 14. a material poking component; 15. a first-stage allocating machine case; 16. a second-stage distribution cabinet; 17. a first-stage turnover track; 18. a second-stage transfer track; 19. a cooling assembly; 21. feeding a frame plate; 22. a guide rail; 23. a fixed seat; 24. a swing shaft; 25. a swing arm; 26. shifting the baffle; 27. positioning a plate; 28. a return spring; 31. a box body; 32. an inner drive shaft; 33. a centrifugal push plate; 34. a first-stage distribution port; 35. a connector tile; 36. a first scanner; 41. a partition plate; 42. a guide ramp; 43. a frame plate; 44. a second-stage diversion tank; 45. a second scanner; 51. an angle changing frame; 52. a cushion pad; 53. an output guide rail; 61. a protective baffle; 62. a support shaft; 63. supporting a base block; 64. a support spring; 71. a cold air delivery branch pipe; 72. a flow distribution frame; 73. an air flow nozzle.

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, examples of which are shown in the drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements, unless otherwise indicated.

It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

In one embodiment;

referring to fig. 1, an intelligent cold-chain logistics object allocation device is provided, which includes a device rack 11, wherein the device rack 11 is sequentially provided with, from top to bottom:

the top frame 12 is erected at the top end of the equipment frame 11;

the material guiding component 13 is obliquely arranged on the top frame 12;

the material shifting assembly 14 is arranged on the top frame 12, and the material shifting end of the material shifting assembly faces to the material carrying surface of the material introducing assembly 13;

the primary distribution cabinet 15 is arranged on the equipment frame 11 and is positioned at the tail end of the material introducing component 13, and a plurality of primary distribution ports 34 are formed in the outer wall of the primary distribution cabinet 15 by taking the height of the material as a reference;

the second-stage distribution cabinet 16 is arranged on the equipment frame 11 and is arranged at the periphery of the first-stage distribution cabinet 15 along the first-stage distribution port 34, and a plurality of second-stage distribution grooves 44 are formed in the second-stage distribution cabinet 16 by taking the width of the material as a reference;

the first-stage transfer rails 17 are arranged at the corresponding first-stage distribution ports 34 and are used for connecting the first-stage distribution ports 34 and the inner space of the corresponding second-stage distribution case 16;

the second-stage transfer rails 18 are mounted at the discharge end of the second-stage distribution case 16 and are respectively matched with the corresponding second-stage distribution grooves 44 one by one;

and the cooling component 19 is arranged on the upper edge of the second-stage turnover track 18 and used for ensuring the temperature of the materials.

In this embodiment, the material introducing component 13 is externally connected with a material input channel of cold chain logistics and used for introducing materials into the equipment rack 11, the material shifting component 14 is arranged on the upper edge of the material carrying surface of the material introducing component 13, and the material shifting component 14 achieves the effect of blocking the materials, so that the problem of material accumulation is avoided, or the standing materials are blocked to be in a transverse state, thereby facilitating subsequent material distribution processing; the primary distribution cabinet 15 distributes materials, the outer wall of the primary distribution cabinet 15 is provided with a plurality of primary distribution openings 34 by taking the height of the materials as a reference, and the volume of the materials is distributed by taking the height of the materials as a reference; the materials at the distribution position are respectively guided into a second-stage distribution case 16 through a first-stage turnover track 17, and the second-stage distribution case 16 carries out secondary distribution treatment on the materials by taking the width of the materials as a reference; and subsequently out along the secondary epicyclic track 18,

in the embodiment, the height of the material is taken as a reference, and the width of the material is taken as a reference, so that the material is finely distributed, and the cold-chain logistics are conveniently boxed and packed according to the same volume; the whole operation is automatically completed without manual operation, and the operation efficiency is effectively improved.

Preferably, this embodiment still is provided with cooling module 19, carries out freezing cooling after the material is allocated, guarantees the quality of cold chain commodity circulation.

In one embodiment;

referring to fig. 2, the material guiding assembly 13 includes a feeding frame plate 21 erected on the top frame 12, and a guiding rail 22 connected to the feeding frame plate 21 and connected to the material shifting assembly 14, the material shifting assembly 14 includes a fixed seat 23 mounted on the top frame 12, a swing shaft 24 mounted on the fixed seat 23, and a swing arm 25 mounted on the swing shaft 24, a shifting baffle 26 is mounted at an arm end of the swing arm 25, and the shifting baffle 26 is slightly arc-shaped and has a certain distance from a bearing surface of the guiding rail 22. A positioning plate 27 is further disposed on a side of the fixed seat 23, and a return spring 28 is disposed between the positioning plate 27 and the swing arm 25.

This embodiment design material is verified pan feeding frame plate 21 and is located leading-in to along the regional slip of guide rail 22 towards one-level minute dial quick-witted case 15, stir baffle 26 and be the installation of rotatable formula, the material of whereabouts is pushed away and is stirred baffle 26 and thus can fall into to one-level minute dial quick-witted case 15 in, but reset spring 28 provides spring tension to stirring baffle 26 simultaneously, thereby can effectually block the material that piles up for looping through, or will stand the material and block for horizontal state, be convenient for subsequent minute and dial the processing.

In one embodiment;

for the first-level allocation case 15 allocation mode, the following implementation structure is designed in this embodiment:

referring to fig. 3, the first-stage distribution box 15 is a circular structure, the first-stage distribution box 15 includes a box 31, an inner driving shaft 32 installed at a central line position of the box 31, and a plurality of centrifugal push plates 33 installed at a periphery of the inner driving shaft 32, and the centrifugal push plates 33 are arc-shaped and are bent toward a rotation direction of the inner driving shaft 32. The first-level distribution port 34 is equidistantly arranged on the periphery of the first-level distribution case 15, and the height limit height of the first-level distribution port 34 is sequentially increased along the rotation direction of the inner drive shaft 32.

In this embodiment, a driving motor is disposed at a bottom plate of the first-stage distribution cabinet 15, the driving motor at the bottom drives the inner driving shaft 32 to move, so as to drive the centrifugal push plate 33 to move, the centrifugal push plate 33 is of an arc structure and is bent towards a rotation direction of the inner driving shaft 32, and further, the material is pushed to move towards an inner wall area of the first-stage distribution cabinet 15;

the opening height that mouthful 34 was allocated to every one-level is different, and the limit for height of mouthful 34 is ascending in proper order along the turning to of internal drive axle 32 is allocated to the one-level to the material when being promoted again and turning to, can allocate mouthful 34 department output from the first suitable one-level of opening height, then use the height of material as the benchmark, allocate the processing to the material.

As an example, the first-level distribution cabinet 15 is provided with four first-level distribution ports 34, so that the materials can be divided into four types of logistics based on the height of the materials.

In one case of the present embodiment,

referring to fig. 1 and 3, the first-stage tap holes 34 are externally connected with connecting plates 35 connected with the first-stage circulation rails 17, and the first-stage circulation rails 17 are curved in an arc shape along a tangential direction of the corresponding first-stage tap holes 34.

Because the material is pushed out along the tangential direction of the first-stage distributing opening 34, the first-stage turnover track 17 is designed to be arc-shaped and bent along the corresponding tangential direction in the embodiment, so that the material is smoothly guided into the second-stage distributing case 16, and the problem that the track wall is seriously impacted is avoided.

In one embodiment;

referring to fig. 4, the second-stage distribution box 16 includes a plurality of partition plates 41 and frame plates 43 disposed at inner edges of the partition plates 41, the second-stage distribution grooves 44 are disposed between adjacent frame plates 43, guide slopes 42 are disposed between the corresponding partition plates 41 and the frame plates 43, heights of the partition plates 41 are reduced in a stepwise manner, and aperture diameters of the second-stage distribution grooves 44 are sequentially increased.

The material slides into second grade distributor box 16 along first grade turnover track 17, rolls along the left side right side in the drawing of the division board 41 of cascaded arrangement from the figure, and the notch bore of second grade dials groove 44 is the increase in proper order, and then the material can be dialled groove 44 along the second grade of first suitable opening width and fall to and the width of material is the benchmark and is allocated the processing to the material.

As an example, in the present embodiment, the second-level diverter box 16 is provided with four second-level diverter grooves 44, and on the basis of dividing the material into four types of material flows by taking the height of the material as a reference, the material is divided into 16 types of material flows by taking the width of the material as a reference; thereby completing refined distribution processing of the materials.

In one case of the present embodiment,

the second-stage turnover track 18 comprises a plurality of output guide rails 53 in butt joint with the second-stage distribution groove 44, an angle turning frame 51 is arranged in the joint area of the output guide rails 53 and the second-stage distribution groove 44, and a plurality of buffer gaskets 52 are arranged at the position of the angle turning frame 51. When the material is exported along second grade turnover track 18, second grade turnover track 18 reduces the slope of slope that slides, and buffer shim 52 plays the effect of buffering.

In one case of the present embodiment,

referring to fig. 5, a supporting base block 63 and a protective baffle 61 mounted on the supporting base block 63 are disposed outside the secondary distributing groove 44 located at the tail end, the protective baffle 61 is mounted on the supporting base block 63 through a supporting rotating shaft 62, and a supporting spring 64 is mounted between the supporting base block 63 and the protective baffle 61. Guard flap 61 plays the effect of limit for height, prevents that bulky material from jumping out in the second grade divides the quick-witted case 16 space of allocating to cushion the impact that guard flap 61 received through supporting spring 64, with the material bounce-back of bulky to terminal second grade divide the groove 44 in.

In one embodiment;

the first level distributing port 34 and the second level distributing groove 44 are respectively provided with a first scanner 36 and a second scanner 45, and the first scanner 36 and the second scanner 45 are respectively arranged on the connecting plate 35 and the frame plate 43. Can be when allocating the processing at every turn like this, scan the record to the material, and then intelligent record can the quick record go out the material and enter into the classification of which specification.

In one embodiment;

referring to fig. 6, the cooling assembly 19 includes a cold air delivery branch pipe 71, a flow dividing frame 72 mounted on the upper edge of the secondary revolving rail 18, and an air flow nozzle 73 facing the inner cavity of the output guide rail 53.

In the integral operation structure of the embodiment, only one driving motor is needed to be arranged at the bottom of the first-stage distribution cabinet 15, and a plurality of groups of motors or related driving mechanisms such as hydraulic cylinders, pneumatic pipelines, inflation assemblies and the like are not needed, so that the problem of heating caused by working of a large amount of equipment is avoided, and the problem that the heating of electrical equipment affects the operation quality of cold-chain logistics is effectively avoided; and meanwhile, the cooling assembly 19 is provided with enough loading space, so that the materials can be cooled after being distributed, and the quality of cold-chain logistics is ensured.

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 attributes 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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides an equipment is allocated to cold chain logistics object intelligence, includes the equipment rack, its characterized in that, equipment rack top-down has set gradually:

the top frame is erected at the top end of the equipment frame;

the material leading-in component is obliquely erected on the top frame;

the material shifting assembly is arranged on the top frame, and the material shifting end of the material shifting assembly faces to the material carrying surface of the material guiding assembly;

the first-stage distribution machine case is arranged on the equipment frame and is positioned at the tail end of the material introducing component, and the outer wall of the first-stage distribution machine case is provided with a plurality of first-stage distribution ports by taking the height of the material as a reference;

the second-stage distribution cabinet is arranged on the equipment frame and is arranged on the periphery of the first-stage distribution cabinet along the first-stage distribution port, and a plurality of second-stage distribution grooves are formed in the second-stage distribution cabinet by taking the width of the material as a reference;

the first-stage transfer track is arranged at the corresponding first-stage distribution port and is used for connecting the first-stage distribution port and the corresponding inner space of the second-stage distribution case;

the second-stage transfer track is arranged at the discharge end of the second-stage distribution case and is respectively matched with the corresponding second-stage distribution grooves one by one;

and the cooling assembly is arranged on the upper edge of the second-stage turnover track and used for ensuring the temperature of the material.

2. The cold-chain logistics object intelligent distribution equipment according to claim 1, wherein the material guiding assembly comprises a feeding frame plate erected on the top frame and a guide rail connected with the feeding frame plate, the material distribution assembly comprises a fixed seat installed on the top frame, a swing shaft installed on the fixed seat and a swing arm installed on the swing shaft, a shifting baffle is installed at an arm end of the swing arm, a positioning plate is further arranged on a side edge of the fixed seat, and a return spring is arranged between the positioning plate and the swing arm.

3. The cold-chain logistics object intelligent distribution equipment as claimed in claim 2, wherein the first-stage distribution cabinet is of a circular structural design, and comprises a cabinet body, an inner driving shaft installed at the central line position of the cabinet body, and a plurality of centrifugal push plates installed at the periphery of the inner driving shaft, wherein the centrifugal push plates are of an arc structure and are bent towards the rotation direction of the inner driving shaft.

4. The cold-chain logistics object intelligent distribution equipment of claim 3, wherein the primary distribution ports are equidistantly arranged on the periphery of the primary distribution case, and the height limit of the primary distribution ports sequentially rises along the rotation direction of the inner drive shaft.

5. The cold-chain logistics object intelligent distribution equipment according to claim 4, wherein the first-stage distribution port is externally connected with a connecting plate connected with a first-stage turnover track, and the first-stage turnover track is curved in an arc shape along the tangential direction of the corresponding first-stage distribution port.

6. The cold-chain logistics object intelligent distribution equipment of claim 5, wherein the second-stage distribution case comprises a plurality of partition plates and frame plates arranged on inner edges of the partition plates, the second-stage distribution grooves are arranged between adjacent frame plates, guide slopes are arranged between the corresponding partition plates and the frame plates, the height of the partition plates is reduced in a step-like manner, and the caliber of the groove openings of the second-stage distribution grooves is increased in sequence.

7. The cold-chain logistics object intelligent distribution equipment according to claim 6, wherein a first scanner and a second scanner are respectively arranged at the primary distribution port and the secondary distribution groove, and the first scanner and the second scanner are respectively arranged on the connecting plate and the frame plate.

8. The cold-chain logistics object intelligent distribution equipment according to claim 6, wherein a supporting base block and a protective baffle installed on the supporting base block are arranged on the outer side of the secondary distribution groove located at the tail end, the protective baffle is installed on the supporting base block through a supporting rotating shaft, and a supporting spring is installed between the supporting base block and the protective baffle.

Images