CN213727858U - Single feeding and sorting mechanism for refrigerator car - Google Patents

Abstract

The utility model relates to a field of refrigerator car, concretely relates to single pay-off sorting mechanism for refrigerator car, include: the material receiving box is suitable for being installed on the inner bottom wall of the carriage, the material moving parts are correspondingly erected above the material receiving boxes, the material selecting parts are correspondingly arranged above the material moving parts, and the material feeding parts are positioned above the material selecting parts, and can contain materials and transversely convey the materials; after the materials fall onto the material selecting part, the material selecting part can transversely convey the materials and screen the materials; after the screened materials fall onto the material moving part, the material moving part can longitudinally convey the materials and throw the materials into the corresponding material receiving boxes; the output end of the feeding part is elastically provided with two barrier strips, and the two barrier strips are arranged in a mirror image manner; the two barrier strips are close to each other towards the output direction; wherein after two blend stop pay-offs of a material expansion before pay-off portion promotes, the blend stop kick-backs and blocks a back material pay-off, and then only single material can carry out the pay-off behind two blend stops, avoids a plurality of materials pay-off jamming simultaneously and can't go on smoothly to the material letter sorting in the material selecting portion, has guaranteed the letter sorting operation.

Description

Single feeding and sorting mechanism for refrigerator car

Technical Field

The utility model relates to a field of refrigerator car, concretely relates to single pay-off sorting mechanism for refrigerator car.

Background

Traditional refrigerator car carries out the cold chain pay-off in-process in it, because a plurality of materials pay-off simultaneously blocks up at the pay-off mouth easily, thereby cause the unable processing of follow-up procedure department or the big problem of processing deviation, specifically, in the transportation onion in-process, because the volatile onion essence of onion can peppery get people's lacrimation, and the diffusion of onion is slower under the lower environment of temperature, not because of amazing people's eyes, so can carry out the transportation letter sorting of onion with practical refrigerator car, but the letter sorting in-process, if a plurality of onions pay-off simultaneously blocks easily and influence subsequent sorting operation.

Therefore, it is necessary to design a single feed sorting mechanism for a refrigerator car.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: a plurality of materials pay-off simultaneously causes the problem of jam easily, the utility model provides a single pay-off sorting mechanism solves above-mentioned problem for refrigerator car.

The utility model provides a technical scheme that its technical problem adopted is: a single feed sorting mechanism for a refrigerated vehicle comprising: the material receiving box is suitable for being installed on the inner bottom wall of the carriage, the material moving parts are correspondingly erected above the material receiving boxes, the material selecting parts are correspondingly arranged above the material moving parts, and the material feeding parts are positioned above the material selecting parts, and can contain materials and transversely convey the materials; after the materials fall onto the material selecting part, the material selecting part can transversely convey the materials and screen the materials; after the screened materials fall onto the material moving part, the material moving part can longitudinally convey the materials and throw the materials into corresponding material receiving boxes; the output end of the feeding part is elastically provided with two barrier strips, and the two barrier strips are arranged in a mirror image manner; the two barrier strips are close to each other towards the output direction; after the feeding part pushes the front material to spread the two barrier strips for feeding, the barrier strips rebound to block the feeding of the rear material.

Furthermore, the feeding part comprises a feeding support, a plurality of feeding shafts which are rotatably connected to the feeding support, a feeding conveyer belt which surrounds each feeding shaft, and a feeding motor which is connected with any one feeding shaft; the barrier strips are hinged to two sides of the feeding bracket; after the materials fall onto the feeding conveying belt, the feeding motor can drive the feeding conveying belt to rotate and drive the materials to be transversely conveyed.

Furthermore, a torsion spring is arranged between the feeding bracket and the barrier strip; when the previous material is fed, the material can push the barrier strip to compress the torsion spring; after the previous material is fed, the torsional spring drives the barrier strip to rebound to block the next material from being discharged.

Furthermore, the inner sides of the ends, close to each other, of the two barrier strips are respectively provided with an adaptive groove, and the two adaptive grooves enclose to form an arc line; the arc line is matched with the shape of the material; wherein after the previous material is fed, the latter material can be blocked in the adapting groove.

Furthermore, a plurality of limiting edges are uniformly distributed on the feeding conveying belt, and the barrier strip pushes a plurality of materials between two adjacent limiting edges to cross the limiting edges.

Furthermore, a groove is formed in the middle of the limiting edge, and materials can pass through the limiting edge through the groove.

Furthermore, a material receiving plate suitable for receiving materials falling into the material receiving box is arranged in the material receiving box in a lifting mode and can be turned over; the inner bottom wall of the material receiving box is provided with a poking block; the inner walls of two opposite sides of the material receiving box are respectively provided with a sliding groove; after the materials fall onto the material receiving plate, the material receiving plate descends along the sliding groove to be stirred, turned and discharged by the stirring block.

Furthermore, a rotating shaft is arranged on the central axis of the material receiving plate, and two ends of the rotating shaft are respectively inserted into the two sliding grooves; after the material receiving plate is contacted with the poking block, the poking block can push the material receiving plate to overturn around the rotating shaft for blanking.

Furthermore, a lifting spring is arranged in the sliding groove, and two ends of the lifting spring are fixedly connected with the rotating shaft and the inner bottom wall of the material receiving box respectively; when the material receiving plate descends, the rotating shaft can compress the lifting spring; after the materials slide from the material receiving plate, the lifting spring can jack the material receiving plate to an initial position.

Further, a poking cylinder is arranged at the bottom of the poking block and can drive the poking block to lift.

The beneficial effects of the utility model are that, the utility model provides a refrigerator car is with single pay-off sorting mechanism has following advantage:

1. after the materials are manually placed on the feeding part, the materials are stored in the material receiving box after the three steps of feeding by the feeding part, material selecting by the material selecting part and material transferring by the material transferring part, so that the materials are sorted, the sorting effect can be realized in the cold chain transportation process, and convenience is brought to material screening;

2. the pay-off portion promotes two blend stop pay-offs of preceding material expansion back, and the blend stop kick-backs and blocks a back material pay-off, and then only single material can carry out the pay-off behind two blend stops, avoids a plurality of materials pay-off jamming simultaneously in the material selection portion can't be to the condition of material letter sorting, has guaranteed going on smoothly of letter sorting operation.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic structural view of a preferred embodiment of a single feed sorting mechanism for a refrigerated vehicle according to the present invention;

FIG. 2 is a partial enlarged view of portion B of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the material receiving box of the present invention;

FIG. 4 is a schematic structural view of the material receiving plate of the present invention;

FIG. 5 is a schematic structural view of the receiving plate of the present invention;

fig. 6 is a partially enlarged view of a portion a in fig. 1.

In the drawings

The material receiving box 1, a sliding groove 11 and a lifting spring 12;

the material moving part 2, a material moving bracket 21, a material moving shaft 22, a material moving conveyer belt 23 and a material moving motor 24;

the material selecting part 3, a material selecting bracket 31, a material selecting area 32, a material selecting shaft 33, a driving gear 34, a connecting gear 35, an intermediate gear 36 and a material selecting motor 37;

the feeding part 4, the feeding bracket 41, the feeding shaft 42, the feeding conveyer belt 43, the feeding motor 44, the limiting edge 45 and the groove 451;

material receiving plate 5, rotating shaft 51 and gap 52;

a toggle block 6 and a toggle cylinder 61;

barrier strip 7, torsion spring 71, adaptation groove 72.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used only for convenience in describing and simplifying the present invention, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and the scope of the preferred embodiments of the present invention includes other implementations in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the embodiments of the present invention.

As shown in fig. 1 to 6, the utility model provides a refrigerator car is with single pay-off sorting mechanism, include: the material receiving box comprises a plurality of material receiving boxes 1 suitable for being installed on the inner bottom wall of a carriage, material moving parts 2 correspondingly erected above the material receiving boxes 1, material selecting parts 3 correspondingly arranged above the material moving parts 2, and feeding parts 4 located above the material selecting parts 3, wherein the feeding parts 4 can contain materials and convey the materials transversely; after the materials fall onto the material selecting part 3, the material selecting part 3 can transversely convey the materials and screen the materials; after the screened materials fall onto the material moving part 2, the material moving part 2 can longitudinally convey the materials and throw the materials into the corresponding material receiving box 1, specifically, after the materials are manually placed on the material conveying part 4, the materials are conveyed by the material conveying part 4, selected by the material selecting part 3 and transferred by the material moving part 2 and then stored in the material receiving box 1, so that the sorting of the materials is realized, the sorting effect can be realized in the cold chain conveying process, and convenience is provided for screening the materials; the output end of the feeding part 4 is elastically provided with two blocking strips 7, and the two blocking strips 7 are arranged in a mirror image manner; the two barrier strips 7 are close to each other towards the output direction; wherein pay-off portion 4 promotes two blend stop 7 pay-offs of preceding material expansion, and blend stop 7 kick-backs and block the pay-off of back material, and then only single material can carry out the pay-off behind two blend stop 7, avoids a plurality of materials pay-off jamming simultaneously in the condition that the material was sorted in material selection portion 3, has guaranteed going on smoothly of letter sorting operation.

Optionally, the feeding part 4 includes a feeding bracket 41, a plurality of feeding shafts 42 rotatably connected to the feeding bracket 41, a feeding conveyer belt 43 surrounding each feeding shaft 42, and a feeding motor 44 connected to any one of the feeding shafts 42, and the barrier strips 7 are hinged to both sides of the feeding bracket 41, so that the two barrier strips 7 have a good gathering force on the material, i.e., the material can be well blocked and fed at the same time; wherein fall extremely at the material back on the pay-off conveyer belt 43, pay-off motor 44 can drive pay-off conveyer belt 43 gyration and drive the material lateral transportation can be pushed each material in proper order through such design and falls on the selection material portion 3 to guarantee that single material sieves on selection material portion 3, guaranteed the accuracy of material screening, the condition of blockking up when avoiding a plurality of materials to sieve simultaneously.

Optionally, a torsion spring 71 is arranged between the feeding bracket and the barrier strip 7; when the previous material is fed, the material can push the barrier strip 7 to compress the torsion spring 71; after the previous material is fed, the torsion spring 71 drives the barrier strip 7 to rebound to block the next material from being discharged, so that the previous material can be fed, and the next material is blocked for feeding, so that only a single material is fed.

Optionally, the inner sides of the ends, close to each other, of the two barrier strips 7 are respectively provided with an adapting groove 72, and the two adapting grooves 72 enclose to form an arc line; the arc line is matched with the shape of the material; wherein after the former material pay-off, the latter material can be kept off in the adaptation groove 72, specifically, the latter material still has certain thrust to the blend stop, if thrust is too big, the latter material still can be sent out, consequently, through the design of adaptation groove 72, can provide certain cushioning effect of material, offset the impact of material to blend stop 7.

Optionally, a plurality of limiting edges 45 are uniformly distributed on the feeding conveyor belt 43, wherein the barrier strip pushes a plurality of materials between two adjacent limiting edges 45 to cross the limiting edges 45, specifically, after one material penetrates out between the two limiting edges 45, the redundant material can be pushed back, and then the feeding of a single material in an area between the two limiting edges 45 is realized, so as to ensure the stable operation of the subsequent sorting.

Optionally, a groove 451 is formed in the middle of the limiting rib 45, wherein the material can pass through the groove 451 to pass over the limiting rib 45, so that convenience is provided for the excess material to pass over the limiting rib 45.

Optionally, a receiving plate 5 is arranged in the receiving box 1 in a lifting manner, specifically, the receiving plate 5 can lift along the length direction of the receiving box 1, the receiving plate 5 is suitable for containing materials transferred by the material moving part 2, after the receiving plate 5 contains the materials, the receiving plate 5 can fall along the receiving box 1 under the action of gravity, and after the materials slide down from the receiving plate 5 and are discharged, the receiving plate 5 can rise along the receiving box 1, the receiving plate 5 can turn over, when no materials are on the receiving plate 5, the receiving plate 5 is kept in a horizontal state, and the materials can be discharged through the turning inclination of the receiving plate 5; specifically, the manner of turning over the material receiving plate 5 can be realized by the following scheme that a stirring block 6 is arranged on the inner bottom wall of the material receiving box 1; after the material landing to connect flitch 5, flitch 5 descends to contacting with stirring block 6 under the effect of gravity, connect flitch 5 to continue to descend and stir the upset slope by stirring block 6, specifically, connect flitch 5 and one side of stirring block 6 contact last, the opposite side downward sloping, thereby the material can roll the unloading from the flitch 5 that connects of slope, and connect flitch 5 to rise to initial position after losing the gravity of material, with treating to connect next material greatly, through such a mode, the material can fall to on connecing flitch 5 earlier, roll the unloading under the direction that connects flitch 5, reduce the impact force that the material directly falls into and connect workbin 1 bottom, thereby protect the material, can be applicable to the sorting unloading of some fragile articles.

In this embodiment, the material is the onion, through the design of this embodiment, reduces the onion and pound into the impact force that connects workbin 1 to reduce the onion plain and fill amazing people's eyes in the air, simultaneously, under the colder environment in the refrigerator car of onion, onion plain is difficult to the diffusion, can reduce the stimulation to people's eyes.

Optionally, the inner walls of two opposite sides of the material receiving box 1 are respectively provided with a sliding groove 11, wherein the material receiving plate 5 can ascend and descend along the sliding groove 11, and the design of the sliding groove 11 plays a role in guiding the ascending and descending of the material receiving plate 5, so that the linearity that materials can descend along with the material receiving plate 5 is ensured.

Optionally, a rotating shaft 51 is disposed on the central axis of the material receiving plate 5, and two ends of the rotating shaft 51 are respectively inserted into the two sliding grooves 11; after the material receiving plate 5 is in contact with the toggle block 6, the toggle block 6 can push the material receiving plate 5 to overturn around the rotating shaft 51 for blanking, specifically, a mounting hole is formed on the central axis of the material receiving plate 5, the rotating shaft 51 is in interference fit outside the rotating shaft 51, and the rotating shaft 51 can rotate in the two sliding grooves 11, so as to drive the material receiving plate 5 to overturn for blanking.

Optionally, a lifting spring 12 is arranged in the sliding groove 11, and two ends of the lifting spring 12 are respectively fixedly connected with the rotating shaft 51 and the inner bottom wall of the material receiving box 1; when the receiving plate 5 descends, the rotating shaft 51 can compress the lifting spring 12; after the materials slide from the material receiving plate 5, the lifting spring 12 can jack the material receiving plate 5 to the initial position, and the material receiving plate 5 is lifted after the materials are discharged in such a way, so that the material receiving plate 5 waits for the next material discharging, the continuity of the material discharging is ensured, the chance of manual operation is reduced, and the chance of stimulation to eyes of people is reduced.

It should be pointed out, pile up behind the material receiving box 1 bottom at a lot of materials, stir in the piece 6 can submerge the material to connect flitch 5 to descend the in-process unable and stir 6 contacts of piece, thereby unable upset unloading, in order to solve above-mentioned problem, need design following scheme, the bottom of stirring piece 6 is provided with stirs cylinder 61, stir cylinder 61 can drive stir 6 lifting in order to guarantee to stir 6 can with the contact of material receiving plate 5 of piece, and guarantee simultaneously that the material can roll down after the upset of material receiving plate 5, after the material in material receiving box 1 is empty, stir cylinder 61 and also can put down stir piece 6.

Optionally, the area of the material receiving plate 5 occupies the hollow area of the cross section of the material receiving box 1, preferably 19/24, and of course, 3/4 or 4/5 is also possible; a gap 52 is formed between the material receiving plate 5 and the inner wall of the material receiving box 1; after the material receiving plate 5 is shifted and turned over by the shifting block 6, the material can slide down from the gap 52 for blanking.

Optionally, the sorting mechanism further includes a sorting support 31 located at the output end of the feeding and conveying belt 43, and the sorting portion 3 is disposed on the sorting support 31; a material selecting area 32 is arranged between two adjacent material selecting parts 3, and the area of each material selecting area 32 is gradually increased along the conveying direction; wherein the materials falling onto the material selecting part 3 can respectively pass through the corresponding material selecting areas 32 for blanking, specifically, the materials with different sizes can be blanked through the material selecting areas 32 with different sizes, and then the screening of the materials is realized.

Optionally, the material selecting part 3 includes a plurality of material selecting shafts 33 rotatably connected in the material selecting bracket 31, and driving gears 34 disposed at two sides of the material selecting shafts 33; all the driving gears 34 of the same material selecting part 3 are meshed through a connecting gear 35; the driving gears 34 between the adjacent material selecting parts 3 are meshed through an intermediate gear 36; a material selecting motor 37 is arranged on any material selecting shaft 33; wherein the material selecting motor 37 can drive each material selecting shaft 33 to rotate so as to convey the materials transversely.

Optionally, the material moving part 2 includes material moving supports 21 correspondingly disposed below the material selecting area 32, material moving shafts 22 sequentially passing through the material moving supports 21, material moving conveyor belts 23 surrounding the material moving shafts 22, and a material moving motor 24 adapted to drive any one of the material moving shafts 22 to rotate; a material moving area is arranged between the material moving conveying belt 23 and the material moving bracket; the material receiving box 1 is correspondingly arranged below the material moving area; the material moving conveying belt 23 can longitudinally convey materials and pass through the material moving area to fall into the material receiving box 1.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, a schematic representation of the term does not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A single feed sorting mechanism for a refrigerated vehicle, comprising:

a plurality of material receiving boxes suitable for being arranged on the inner bottom wall of the carriage, a material moving part correspondingly erected above each material receiving box, a material selecting part correspondingly arranged above each material moving part, and a material feeding part positioned above each material selecting part,

the feeding part can contain materials and convey the materials transversely;

after the materials fall onto the material selecting part, the material selecting part can transversely convey the materials and screen the materials;

after the screened materials fall onto the material moving part, the material moving part can longitudinally convey the materials and throw the materials into corresponding material receiving boxes;

the output end of the feeding part is elastically provided with two barrier strips, and the two barrier strips are arranged in a mirror image manner;

the two barrier strips are close to each other towards the output direction; wherein

After the feeding part pushes the front material to spread the two barrier strips for feeding, the barrier strips rebound to block the feeding of the next material.

2. The single feed sorting mechanism for refrigerated vehicles of claim 1,

the feeding part comprises a feeding support, a plurality of feeding shafts rotationally connected to the feeding support, a feeding conveyer belt surrounding each feeding shaft, and a feeding motor connected with any one feeding shaft; wherein

The barrier strips are hinged to two sides of the feeding bracket;

after the materials fall onto the feeding conveying belt, the feeding motor can drive the feeding conveying belt to rotate and drive the materials to be transversely conveyed.

3. The single feed sorting mechanism for refrigerated vehicles of claim 2,

a torsion spring is arranged between the feeding bracket and the barrier strip; wherein

When the previous material is fed, the material can push the barrier strip to compress the torsion spring;

after the previous material is fed, the torsional spring drives the barrier strip to rebound to block the next material from being discharged.

4. The single feed sorting mechanism for refrigerated vehicles of claim 3,

the inner sides of the ends, close to the two barrier strips, of the two barrier strips are respectively provided with an adaptive groove, and the two adaptive grooves are enclosed to form an arc line;

the arc line is matched with the shape of the material; wherein

After the former material is fed, the latter material can be blocked in the adaptive groove.

5. The single feed sorting mechanism for refrigerated vehicles of claim 4,

a plurality of limiting edges are uniformly distributed on the feeding conveying belt, wherein

The barrier strip pushes a plurality of materials between two adjacent limiting edges to cross the limiting edges.

6. The single feed sorting mechanism for refrigerated vehicles of claim 5,

a groove is arranged in the middle of the limiting edge, wherein

The material can cross the limiting edge through the groove.

7. The single feed sorting mechanism for refrigerated vehicles of claim 1,

a material receiving plate suitable for receiving materials falling into the material receiving box is arranged in the material receiving box in a lifting mode and can be turned over; and

the inner bottom wall of the material receiving box is provided with a poking block;

the inner walls of two opposite sides of the material receiving box are respectively provided with a sliding groove; wherein

After the materials fall onto the material receiving plate, the material receiving plate descends along the sliding groove to be stirred, turned and discharged by the stirring block.

8. The single feed sorting mechanism for refrigerated vehicles of claim 7,

a rotating shaft is arranged on the central axis of the material receiving plate, and two ends of the rotating shaft are respectively inserted into the two sliding grooves; wherein

After the material receiving plate is contacted with the poking block, the poking block can push the material receiving plate to overturn around the rotating shaft for blanking.

9. The single feed sorting mechanism for refrigerated vehicles of claim 8,

a lifting spring is arranged in the sliding groove, and two ends of the lifting spring are fixedly connected with the rotating shaft and the inner bottom wall of the material receiving box respectively; wherein

When the material receiving plate descends, the rotating shaft can compress the lifting spring;

after the materials slide from the material receiving plate, the lifting spring can jack the material receiving plate to an initial position.

10. The single feed sorting mechanism for refrigerated vehicles of claim 9,

a poking cylinder is arranged at the bottom of the poking block, wherein

The poking cylinder can drive the poking block to lift.

Images