CN112170156B

CN112170156B - A food sorting device for cold chain commodity circulation

Info

Publication number: CN112170156B
Application number: CN202010931969.6A
Authority: CN
Inventors: 李顺兰
Original assignee: Hunan Xiang Jia Husbandry Ltd By Share Ltd
Current assignee: Hunan Xiang Jia husbandry Limited by Share Ltd.
Priority date: 2020-09-08
Filing date: 2020-09-08
Publication date: 2021-11-09
Anticipated expiration: 2040-09-08
Also published as: CN112170156A

Abstract

The invention relates to a food sorting device for cold-chain logistics, which comprises a feeding frame, a bearing and pulling mechanism, a belt pulling mechanism and a material turning mechanism, wherein a belt running type feeding hopper is fixed at the top of the feeding frame; the gear box foot rest outer end is installed and is used for driving the transmission motor that sorts the frame, goes up work or material rest and the work of row's work or material rest, consequently can roll to the material friction formula of letter sorting frame conveying when the tilting mechanism is rotatory, and the material that the material was in the same place the adhesion after rolling separates the material of letter sorting in-process, and the material can spill downwards in sorting and outside data send process on the frame from this to can effectively reduce the outside exhaust possibility of little granular material, improved structural rationality.

Description

A food sorting device for cold chain commodity circulation

Technical Field

The invention relates to the technical field of sorting devices before food packaging, in particular to a food sorting device for cold-chain logistics.

Background

Cold chain logistics generally refers to a system project of producing, storing, transporting and selling refrigerated and frozen foods, and 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. The method is established along with the progress of scientific technology and the development of refrigeration technology, and is a low-temperature logistics process based on refrigeration technology and taking refrigeration technology as a means, wherein food needs to be classified before a cold chain, and then the food needs to be packaged and then subjected to cold chain treatment.

The sorting machine of conveying rope formula needs to be utilized before ball food classification packaging to classify and select, when food is conveyed between the conveying ropes, the ball food with smaller size is leaked downwards from the gap between two adjacent conveying ropes, the ball food with larger size is directly sent out from two adjacent conveying ropes, and the purpose of classification selection is achieved.

Disclosure of Invention

Based on this, it is necessary to provide a more reasonable food sorting device for cold chain commodity circulation, is provided with rotation type stirring mechanism at the sorting machine top, can make the sorting machine when the granular food of letter sorting variation in size, can effectively reduce the adhesion between the food, prevents during the letter sorting that the granular food from discharging along with the granular food in the lump, and the quality of letter sorting can improve from this.

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

a food sorting device for cold-chain logistics comprises a feeding frame, a bearing and pulling mechanism, a belt pulling mechanism and a material turning mechanism, wherein a belt running type feeding hopper is fixed at the top of the feeding frame, a conveying rope type sorting frame for receiving materials discharged by the feeding hopper is fixed on the discharging side of the feeding frame, a discharging frame for discharging smaller particle materials during sorting is arranged at the bottom of the sorting frame, larger particle materials are discharged forwards through a transmission rope on the sorting frame, the small particle materials are discharged towards two sides by the discharging frame, a gear box foot rest is arranged on the right side of the feeding frame, and a gear box is mounted at the top of the gear box foot rest; the outer end of the foot stand of the gear box is provided with a transmission motor for driving the sorting rack, the feeding rack and the discharging rack to work;

the top of the sorting frame is provided with a left bearing seat and a right bearing seat, a synchronizing shaft is arranged between the two bearing seats, the synchronizing shaft is in transmission connection with a transmission wheel belt in a gear box foot rest, a gear shaft in the gear box foot rest rotates to drive the synchronizing shaft to rotate, a synchronous rotating adjusting mechanism and a solid roller are arranged on the synchronizing shaft, the adjusting mechanism is arranged at two positions and is symmetrical to two sides of the solid roller, a circle of material turning mechanism is arranged on the solid roller, and the material turning mechanism synchronously rotates along with the solid roller to turn materials falling in the sorting frame in a rolling mode;

the utility model discloses a take-up mechanism, including the pull-up mechanism, take-up mechanism is including inlaying the side paneling of letter sorting frame left and right sides, set up the groove that moves of leading on the side paneling, lead the front side welding in groove and have the extension spring, the rear end of extension spring is connected with the displacement roller jointly, the extension spring stretches into the guide that the terminal surface was seted up in the paneling of both sides and moves in the groove, and the guide that the terminal surface was seted up in the paneling of both sides moves and still installs the arm-tie in the groove, the arm-tie with it has stretching strap mechanism to detain jointly between the displacement roller, the outer end of synchronizing shaft is installed the function board of displacement around the drive arm-tie, the function board follows during synchronizing shaft is rotatory, still can drive the arm-tie and drive mechanism and do flexible action around.

Preferably, the method comprises the following steps: the material turning mechanism comprises material turning plates which are arranged on the solid rollers in a friction mode and turn materials falling on the sorting frame and T-shaped assembling plates which are connected to the arc-shaped bottom surfaces of the material turning plates through three springs, and left and right L-shaped turning plates are further mounted on the bottom surfaces of the material turning plates.

Preferably, the method comprises the following steps: five assembling grooves are uniformly distributed on the solid roller, the material turning plate is assembled on the solid roller in a damping mode through the T-shaped assembling plates and the assembling grooves, and when the solid roller rotates, the material turning plate is driven to rotate at the top of the sorting frame, so that materials falling on the sorting frame and conveyed forwards through the conveying ropes roll in a friction mode.

Preferably, the method comprises the following steps: the adjusting mechanism comprises a threaded sleeve connected to the synchronizing shaft and an extrusion ring fixed to the periphery of the threaded sleeve through a connecting rod.

Preferably, the method comprises the following steps: the inner ring of the extrusion ring is pressed on the turning plate, and the turning plate is a spring plate with an outer downward inclined design.

Preferably, the method comprises the following steps: the outer end of the synchronizing shaft is provided with a function board which rotates synchronously with the synchronizing shaft, a circle of pawls are arranged on the periphery of the function board, the outer end of the pull roll is provided with a stop rod extending outwards, and the stop rod is intermittently pulled through the pawls when the synchronizing shaft rotates so as to drive the pull roll to drive the pull belt mechanism to stretch and retract back and forth.

Preferably, the method comprises the following steps: the belt stretching mechanism comprises a rubber belt and spring plate fasteners fixed at two ends of the rubber belt and used for being buckled on the displacement roller and the pull roller, and a row of rubber strips are glued on the bottom surface of the rubber belt.

Preferably, the method comprises the following steps: the rubber belt is positioned in the top range of the material conveying belt of the material discharging frame, and the rubber strip is an adhesive tape with a triangular section.

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

1. install the stirring mechanism through the bearing frame at the top of current letter sorting mechanism, this stirring mechanism realizes the transmission through the gear shaft of belt drive mode in with the gear box and is connected, in the during operation, the gear shaft not only drives letter sorting frame and the work of the inside defeated material of last work or material rest, but also can drive the rotatory action of stirring mechanism, because stirring mechanism is located the top of letter sorting frame, consequently can roll to the material friction formula of conveying on the letter sorting frame when stirring mechanism is rotatory, the material that the in-process adhesion was in the same place will sort after the material rolls, from this the material is in the letter sorting and outside transfer process on the letter sorting frame, the material can spill downwards, thereby can effectively reduce the outside exhaust possibility of little graininess material, the structural rationality has been improved.

2. The stirring mechanism is installed on the solid roller, and the stirring mechanism adopts the spring and the solid roller of the mode installation of adjustment mechanism, in the in-service use process, stirring mechanism accessible adjustment mechanism height-adjusting, through adjusting the height of stirring mechanism on the solid roller, can change the distance between the conveying rope on stirring board and the letter sorting mechanism, this kind of adjustment mode of accessible when this kind of stirring board rolls to the material friction formula on the conveying rope, in order to satisfy the material use of many sizes, nimble practicality has obtained the improvement.

3. Still be provided with stretching strap mechanism again in stirring mechanism front side through the mode of linkage, stretching strap mechanism bottom is provided with triangular rubber strip, passes through ratchet formula structural connection with the transfer roller at this stretching strap mechanism and stirring mechanism place together, has constituted the stirring structure of pulling still another formula of conveying rope top region, and during the linkage action, will further stimulate material large tracts of land probably to bond together, further effectively reduce the outside discharged possibility of little granular material, further improved structural rationality.

Drawings

FIG. 1 is a schematic structural view of the present invention with the tensile mechanism removed;

FIG. 2 is a schematic structural view of the installed tensile mechanism of the present invention;

FIG. 3 is an enlarged view of part A of the present invention;

FIG. 4 is an enlarged view of the portion B of the present invention;

FIG. 5 is a bottom view structural schematic diagram of the present invention;

FIG. 6 is a schematic structural view of the drawtape mechanism of the present invention;

FIG. 7 is a bottom, perspective view of the drawstring mechanism shown in FIG. 6;

FIG. 8 is a schematic structural diagram of a front view of the present invention;

fig. 9 is a schematic view of the structure of the front view plane of the invention.

Description of the main reference numerals:

1. a feeding frame; 2. feeding a hopper; 3. a sorting rack; 4. a discharging frame; 6. a gear box foot rest; 7. a drive motor; 8. a tensile mechanism; 801. a side panel; 802. a guide moving groove; 803. a displacement roller; 804. a tension spring; 9. a belt pulling mechanism; 901. a rubber belt; 902. a spring plate fastener; 903. a rubber strip; 10. pulling the roller; 1001. a bearing and blocking rod; 11. a synchronizing shaft; 12. a function board; 1201. a pawl; 13. a bearing seat; 14. an adjustment mechanism; 1401. a threaded sleeve; 1402. an extrusion ring; 15. a solid roll; 1501. assembling a groove; 16. a material turning mechanism; 1601. a material turning plate; 1602. a spring; 1603. assembling a plate; 1604. a crutch panel.

Detailed Description

Referring to fig. 1 to 9, a food sorting apparatus for cold chain logistics comprises a feeding frame 1, a supporting and pulling mechanism 8, a belt pulling mechanism 9 and a material turning mechanism 16, wherein a belt type feeding hopper 2 is fixed on the top of the feeding frame 1, a conveying rope type sorting frame 3 for receiving materials discharged from the feeding hopper 2 is fixed on the discharging side of the feeding frame 1, a discharging frame 4 for discharging smaller particulate materials during sorting is arranged at the bottom of the sorting frame 3, larger particulate materials are discharged forwards through a conveying rope on the sorting frame 3, the small particulate materials received by the discharging frame 4 are discharged towards two sides, a gear box foot rest 6 is arranged on the right side of the feeding frame 1, a gear box is arranged at the top of the gear box foot rest 6, a driving motor 7 for driving the sorting frame 3, the feeding frame 1 and the discharging frame 4 to work is arranged at the outer end of the gear box foot rest 6, the feeding frame 1 and the discharging frame 4 both adopt a belt type conveying mechanism during actual use, the sorting frame 3 adopts a material conveying mechanism formed by a plurality of conveying ropes which are arranged in parallel, the material conveying mechanism is the prior art, a transmission mode that a transmission motor 7 drives the sorting frame 3, the material feeding frame 1 and the material discharging frame 4 is connected together by a belt wheel and other transmission shafts, the transmission is realized, the prior art is not described, when in actual use, ball food is firstly put into the material feeding hopper 2, the material conveying belt in the material feeding hopper 2 conveys the material to the sorting frame 3 and then the material is conveyed outwards by the existing conveying ropes on the sorting frame 3, the material with smaller particles is downwards leaked from a gap between the two adjacent conveying ropes and then enters the material conveying belt where the material discharging frame 4 is positioned to be outwards discharged, the material with larger particles cannot be leaked downwards, but is directly discharged outwards by the two adjacent conveying ropes and falls onto the external existing packaging flow line, and the brief description is given here, and are not described in detail in order to facilitate clarity of the description below.

As shown in fig. 1, a left bearing seat 13 and a right bearing seat 13 are installed at the top of the sorting frame 3, a synchronizing shaft 11 is installed between the two bearing seats 13, the synchronizing shaft 11 is in transmission connection with a transmission belt in a gear box foot rest 6, a gear shaft in the gear box foot rest 6 rotates to drive the synchronizing shaft 11 to rotate, a synchronous rotating adjusting mechanism 14 and a solid roller 15 are installed on the synchronizing shaft 11, the adjusting mechanism 14 is provided with two positions and is symmetrical to two sides of the solid roller 15, a circle of material turning mechanism 16 is installed on the solid roller 15, the material turning mechanism 16 rotates synchronously with the solid roller 15 to turn over materials falling in the sorting frame 3 in a rolling manner, as shown in fig. 5, the material turning mechanism 16 comprises five material turning plates 1601 which are arranged on the solid roller 15 in a uniform manner, the material turning mechanism 16 comprises a material turning plate 1603 which is used for frictionally turning the materials falling on the sorting frame 3 and a T-shaped plate 1603 which is connected to the arc-shaped bottom surface of the material turning plate 1601 through three springs 1602, consequently, when solid roller 15 is rotatory, can make material turning plate 1601 synchronous revolution to can carry out the roll formula friction with conveying the material on letter sorting frame 3 at rotatory in-process, make the material roll action, can make the material that the adhesion is in the same place from this and part because of rolling, so can make and spill downwards through the less granule material in the outside discharged material of conveying rope, make the great material of granule directly outwards discharge by conveying rope simultaneously, the setting of material turning mechanism 16 has improved the functionality, it is more reasonable during the material letter sorting.

As shown in fig. 2 and 4, the two supporting mechanisms 8 are provided at two locations, the two supporting mechanisms 8 include side panels 801 embedded at the left and right sides of the sorting rack 3, guide slots 802 formed on the side panels 801, tension springs 804 are welded at the front sides of the guide slots 802, the rear ends of the tension springs 804 are commonly connected with displacement rollers 803, the tension springs 804 extend into the guide slots 802 formed on the inner end surfaces of the side panels 801, pull rollers 10 are further installed in the guide slots 802 formed on the inner end surfaces of the side panels 801, a belt pulling mechanism 9 is commonly fastened between the pull rollers 10 and the displacement rollers 803, a functional plate 12 for driving the pull rollers 10 to move back and forth is installed at the outer end of the synchronizing shaft 11, and when the functional plate 12 rotates along with the synchronizing shaft 11, the pull rollers 10 are also driven to drive the belt pulling mechanism 9 to move back and forth, as shown in fig. 7 and 6, the belt pulling mechanism 9 includes a rubber belt 901 and spring plate fasteners 902 fixed at two ends of the rubber belt 901 for fastening to the displacement rollers 10 and the pull rollers 10, a row of rubber strips 903 is glued to the bottom surface of the rubber belt 901, and the rubber belt 901 is located in the top range of the material conveying belt of the material discharging frame 4.

Specifically, the method comprises the following steps: five assembly grooves 1501 have been seted up to the equipartition on solid roller 15, material turning plate 1601 is the damping formula through T shape assembly plate 1603 and joins in marriage by assembly groove 1501 and join in marriage on solid roller 15, consequently material turning plate 1601 damages the back and is convenient for change again, the nimble practicality has been improved, when solid roller 15 is rotatory, it is rotatory at the top of letter sorting frame 3 to drive material turning plate 1601, so that fall on letter sorting frame 3 through the material friction formula roll of conveying rope in the forward data send process, and because material turning plate 1601 is connected on solid roller 15 through three spring 1602, consequently material turning plate 1601 is rotatory along with solid roller 15, will be better roll to the material friction, spring 1602 can not cause the damage to the material down.

As shown in fig. 3, the adjusting mechanism 14 includes a threaded sleeve 1401 connected to the synchronizing shaft 11 and an extrusion ring 1402 fixed to the periphery of the threaded sleeve 1401 by a connecting rod, the inner ring of the extrusion ring 1402 presses on a turning plate 1604, and the turning plate 1604 is a spring plate with an outward and downward inclined design, the threaded sleeve 1401 is adjusted inward to make the extrusion ring 1402 contract the inside of the turning plate 1604, so that the material turning plate 1601 where the turning plate 1604 is located contracts inward toward the spindle of the synchronizing shaft 11 under the action of the spring 1602, the diameter of the range where the five material turning plates 1601 are located is reduced, when the material turning plate 1601 rolls frictionally on the conveying rope of the sorting rack 3, the use of materials with multiple sizes can be satisfied by this adjusting method, the flexible practicability is improved, that when the material conveyed on the conveying rope is a larger particle type, the five material turning plates 1601 can be adjusted inward to just rub on the material by this adjusting method, on the contrary, when the materials conveyed by the conveying rope are small particles, the five material turning plates 1601 can be adjusted outwards in the adjusting mode, and the materials can be rubbed on the materials.

As shown in fig. 1, a function board 12 is installed at an outer end of a synchronizing shaft 11, the function board 12 rotates synchronously with the synchronizing shaft 11, a circle of pawls 1201 is arranged on the periphery of the function board 12, a catch rod 1001 extending outwards is arranged at an outer end of a pull roll 10, when the synchronizing shaft 11 rotates, the catch rod 1001 is intermittently pulled through the pawls 1201, so that the pull roll 10 is driven to drive the pull belt mechanism 9 to stretch back and forth, a rubber strip 903 is a rubber strip with a triangular cross section, and when the rubber strip 901 is pulled in actual use, the rubber strip 903 at the bottom of the rubber strip 901 moves to one side to turn over the material conveyed on the sorting frame 3 again, so that the material still bonded together can be further separated, the possibility of discharging small granular materials outwards is further effectively reduced, and the structural rationality is further improved.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims

1. The utility model provides a food sorting device for cold chain commodity circulation, includes material loading frame (1), holds and draws mechanism (8) and stirring mechanism (16), its characterized in that: a belt pulling mechanism (9) is arranged on the front side of the material turning mechanism (16) in a linkage mode, and the belt pulling mechanism (9) is connected with a conveying roller where the material turning mechanism (16) is located through a ratchet wheel type structure;

a belt running type feeding hopper (2) is fixed at the top of the feeding frame (1), a conveying rope type sorting frame (3) used for receiving materials discharged by the feeding hopper (2) is fixed at the discharging side of the feeding frame (1), a discharging frame (4) used for discharging smaller particle materials leaked during sorting is arranged at the bottom of the sorting frame (3), larger particle materials are discharged forwards through a transmission rope on the sorting frame (3), the received small particle materials are discharged towards two sides by the discharging frame (4), a gear box foot rest (6) is arranged at the right side of the feeding frame (1), a gear box is installed at the top of the gear box foot rest (6), and a transmission motor (7) used for driving the sorting frame (3), the feeding frame (1) and the discharging frame (4) to work is installed at the outer end of the gear box foot rest (6);

the top of the sorting frame (3) is provided with a left bearing seat and a right bearing seat (13), a synchronizing shaft (11) is arranged between the two bearing seats (13), the synchronizing shaft (11) is in transmission connection with a transmission wheel belt in a gear box foot rest (6), a gear shaft in the gear box foot rest (6) rotates to drive the synchronizing shaft (11) to rotate, the synchronizing shaft (11) is provided with a regulating mechanism (14) and a solid roller (15) which rotate synchronously, the regulating mechanism (14) is arranged at two positions and is symmetrical to two sides of the solid roller (15), the solid roller (15) is provided with a circle of material turning mechanism (16), and the material turning mechanism (16) synchronously rotates along with the solid roller (15) to turn materials falling in the sorting frame (3) in a rolling manner;

the bearing mechanisms (8) are arranged at the left and the right, the bearing mechanisms (8) at the two positions comprise side paneling (801) embedded at the left and the right sides of the sorting rack (3) and a guide and shift groove (802) arranged on the side paneling (801), a tension spring (804) is welded at the front side of the guide and shift groove (802), the rear end of the tension spring (804) is commonly connected with a shift roller (803), the tension spring (804) extends into the guide and shift groove (802) arranged on the inner end surface of the two side paneling (801), pulling rollers (10) are further installed in guiding and moving grooves (802) formed in inner end faces of the panels (801) on the two sides, a pulling belt mechanism (9) is jointly buckled between the pulling rollers (10) and the moving rollers (803), a function board (12) for driving the pulling rollers (10) to move back and forth is installed on the outer end of the synchronous shaft (11), when the function board (12) rotates along with the synchronous shaft (11), the pull roll (10) is also driven to drive the pull belt mechanism (9) to do front and back telescopic action;

the material turning mechanism (16) is provided with five parts which are uniformly arranged on the solid roller (15), the material turning mechanism (16) comprises a material turning plate (1601) which is used for turning over materials falling on the sorting frame (3) in a friction mode and a T-shaped assembling plate (1603) which is connected to the arc-shaped bottom surface of the material turning plate (1601) through three springs (1602), the bottom surface of the material turning plate (1601) is also provided with a left L-shaped turning plate (1604) and a right L-shaped turning plate (1604), five assembling grooves (1501) are uniformly formed in the solid roller (15), the material turning plate (1601) is in a damping mode and assembled on the solid roller (15) through the assembling grooves (1501) through the T-shaped assembling plate (1603), when the solid roller (15) rotates, the material turning plate (1601) is driven to rotate at the top of the sorting frame (3) so that the materials falling on the sorting frame (3) in the forward conveying process through the conveying rope roll in a friction mode, and the adjusting mechanism (14) comprises a thread bushing (1401) connected to the synchronous shaft (11) and an extrusion ring (1401) fixed at the periphery of the thread bushing (1401) through a connecting rod 1402) The inner ring of the extrusion ring (1402) is pressed on the turning plate (1604), the turning plate (1604) is a spring plate with an outer downward inclined design, the pulling belt mechanism (9) comprises a rubber belt (901) and a spring plate fastener (902) fixed at two ends of the rubber belt (901) and used for being buckled on a displacement roller (803) and a pulling roller (10), the bottom surface of the rubber belt (901) is glued with a row of rubber strips (903), the rubber belt (901) is located in the top range of the material conveying belt of the material discharging frame (4), and the rubber strips (903) are adhesive tapes with triangular sections.