CN212550383U

CN212550383U - Inner auger type fruit grading sorting machine

Info

Publication number: CN212550383U
Application number: CN202021299453.6U
Authority: CN
Inventors: 王可意; 沈志东; 赵朝辉; 江鹤群; 张文雪
Original assignee: University of Shanghai for Science and Technology
Current assignee: University of Shanghai for Science and Technology
Priority date: 2020-07-06
Filing date: 2020-07-06
Publication date: 2021-02-19
Anticipated expiration: 2030-07-06

Abstract

The utility model relates to a letter sorting equipment field discloses an interior auger formula fruit sorting machine in grades for classify to the fruit of equidimension not, include: the feeding bin is used for conveying fruits; the screening cylinder assembly is arranged at the tail end of the feeding bin, screening holes distributed from small to large are formed in the surface of the screening cylinder assembly, and the screening holes are distributed in a spiral shape; the spiral blade is arranged in the screening drum assembly and positioned between two adjacent rows of screening holes and is used for guiding the fruits to move; the driving mechanism is used for rotating the screening drum; the charging tray subassembly is located screening section of thick bamboo subassembly below for accomodate the fruit that drops from the screening section of thick bamboo, and the support body, be used for supporting feeding storehouse and screening section of thick bamboo subassembly. The utility model provides an interior auger formula fruit sorting machine in grades has structure exquisiteness, low in manufacturing cost, can prevent advantages such as fruit damage.

Description

Inner auger type fruit grading sorting machine

Technical Field

The utility model relates to a letter sorting equipment field, concretely relates to interior auger formula fruit sorting machine in grades.

Background

For some fruits, the different sizes differ in their price, so that the size of the fruit generally needs to be sorted before being transported. A common fruit sorting machine on the market mainly has a plurality of sorting rollers to operate on the same platform, so that fruit classification and transmission are realized. The fruit is moved by completely depending on the rotation of the sorting roller and the vibration of the object guide plate, so that the fruit is easily extruded, damaged and stacked, and the mechanism is huge and has higher cost.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a solve above-mentioned problem and go on, aim at provides an interior auger type fruit sorting machine in grades, has that the structure is exquisite, low in manufacturing cost, prevents the advantage that fruit harmd when the letter sorting.

The utility model provides an interior auger formula fruit sorting machine in grades for fruit to equidimension not is categorised, include: the feeding bin is used for conveying fruits; the screening cylinder assembly is arranged at the tail end of the feeding bin, screening holes distributed from small to large are formed in the surface of the screening cylinder assembly, and the screening holes are distributed in a spiral shape; the spiral blade is arranged in the screening drum assembly and positioned between two adjacent rows of screening holes and is used for guiding the fruits to move; the driving mechanism is used for rotating the screening drum; the charging tray subassembly is located screening section of thick bamboo subassembly below for accomodate the fruit that drops from the screening section of thick bamboo, and the support body, be used for supporting feeding storehouse and screening section of thick bamboo subassembly.

The utility model provides an in the hierarchical sorting machine of interior auger formula fruit, can also have such characteristic, wherein, actuating mechanism includes: the driving shaft is arranged on the screening drum; and the driving motor is arranged on the frame body and is connected with the driving shaft in a belt transmission mode.

The internal auger type fruit grading sorting machine provided by the utility model can also have the characteristics that the screening drum component comprises a first-stage drum body, a second-stage drum body and a third-stage drum body, wherein the shapes of the first-stage drum body, the second-stage drum body and the third-stage drum body are cylindrical; one end of the second-stage cylinder is connected with the first-stage cylinder, and the other end of the second-stage cylinder is connected with the third-stage cylinder; the peripheral surface of the primary cylinder body is provided with a plurality of primary through holes which are distributed in an equal spiral way; the peripheral surface of the secondary cylinder body is provided with a plurality of secondary through holes which are distributed in an equal spiral way; the peripheral surface of the three-stage cylinder body is provided with a plurality of three-stage through holes which are distributed in an equal spiral way; the primary through hole is smaller than the secondary through hole, and the secondary through hole is smaller than the tertiary through hole.

The utility model provides an in the hierarchical sorting machine of internal auger formula fruit, can also have such characteristic, wherein, the pitch that a plurality of one-level through holes distribute is less than the pitch that a plurality of second grade through holes distribute, and the pitch that a plurality of second grade through holes distribute is less than the pitch that a plurality of tertiary through holes distribute.

The utility model provides an in the hierarchical sorting machine of interior auger formula fruit, can also have such characteristic, wherein, helical blade includes: the primary blades are positioned between two adjacent rows of primary through holes; the secondary blades are positioned between two adjacent rows of secondary through holes; and the three-stage blades are positioned between two adjacent rows of three-stage through holes.

The utility model provides an in the hierarchical sorting machine of interior auger formula fruit, can also have such characteristic, wherein, the charging tray subassembly includes: the primary material tray is positioned below the primary barrel and used for containing fruits falling from the primary barrel; the secondary tray is positioned below the secondary barrel and used for accommodating fruits falling from the secondary barrel; and the third-level material tray is positioned below the third-level barrel and used for accommodating fruits falling from the third-level barrel.

The utility model provides an in the hierarchical sorting machine of interior auger formula fruit, can also have such characteristic, still include: the primary guide piece is positioned between the primary barrel and the primary material tray; the secondary guide piece is positioned between the secondary cylinder and the secondary material tray; and the third-stage guide piece is positioned between the third-stage cylinder and the third-stage material tray.

The utility model provides an in the hierarchical sorting machine of interior auger formula fruit, can also have such characteristic, still include: and the three counters are respectively arranged on the first-stage material tray, the second-stage material tray and the third-stage material tray.

The utility model provides an in the hierarchical sorting machine of interior auger formula fruit, can also have such characteristic, still include: and the adjusting mechanism is arranged on the frame body, is connected with the screening cylinder and is used for adjusting the inclination angle of the screening cylinder.

The utility model provides an in the hierarchical sorting machine of interior auger formula fruit, can also have such characteristic: wherein, adjustment mechanism includes: the supporting shaft is rotatably connected with one end of the screening drum; the scissor type hand-operated jack is arranged on the frame body and is hinged with the other end of the screening cylinder.

Action and effect of the utility model

According to the utility model relates to an interior hank dragon formula fruit sorting machine in grades, when sorting the fruit of equidimension not, fruit in the feeding storehouse constantly gets into screening section of thick bamboo subassembly, actuating mechanism drive screening section of thick bamboo subassembly rotates, helical blade rotates along with drive screening section of thick bamboo subassembly, helical blade's pitch increases along with the increase in screening hole, helical blade delivers fruit to big screening hole from little screening hole at the pivoted in-process, make fruit drop corresponding charging tray subassembly from the screening hole of suitable size at the in-process that removes, thereby accomplish the letter sorting operation. In the sorting process, the fruits advance spirally, so that the rotation of the sorting roller and the vibration of the object guide plate are avoided, and the fruits are prevented from being damaged in the sorting process.

According to the utility model relates to an interior auger formula fruit sorting machine sieves a subassembly and is located the inside spiral blade of screening a subassembly and cooperate through the screening hole that has a plurality of variation in size, can filter the fruit of equidimension not, consequently the utility model provides an interior auger formula fruit sorting machine has the advantage that the structure is exquisite, low in manufacturing cost.

Drawings

Fig. 1 is an overall schematic view of an internal auger type fruit sorting machine according to an embodiment of the present invention;

FIG. 2 is a schematic view of the interior of an internal auger type fruit sorting machine according to an embodiment of the present invention;

fig. 3 is a schematic view of a frame body according to an embodiment of the present invention;

figure 4 is a schematic view of a screen cartridge assembly in an embodiment of the present invention;

fig. 5 is a schematic view of a three-stage cartridge in an embodiment of the present invention;

figure 6 is a cross-sectional view of a screen cartridge assembly in an embodiment of the present invention;

fig. 7 is a schematic view of a secondary guide in an embodiment of the invention; and

fig. 8 is a schematic diagram of an adjusting mechanism in an embodiment of the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and effects of the present invention easy to understand, the present invention is specifically described below with reference to the embodiments and the accompanying drawings.

< example >

Fig. 1 is an overall schematic view of an inner auger type fruit sorting machine according to an embodiment of the present invention. Fig. 2 is a schematic view of the inside of the inner auger type fruit sorting machine according to the embodiment of the present invention.

As shown in fig. 1 and 2, the present embodiment provides an inner auger type fruit sorting machine 100 including: the device comprises a frame body 1, a feeding bin 2, a screening drum assembly 3, a spiral blade 4, a first-stage guide piece 5, a second-stage guide piece 6, a third-stage guide piece 7, a material tray assembly 8, a counter (not shown), an adjusting mechanism 9 and a driving mechanism 10.

Fig. 3 is a schematic view of a frame body according to an embodiment of the present invention.

As shown in fig. 3, the frame body 1 in this embodiment includes a support base and a cover hinged to the support base. The support base is provided with a screening chamber and a guide chamber. The guide chamber is located below the screening chamber and is in communication with the screening chamber.

The feeding bin 2 is installed on the left side of the frame body 1 in a bolt connection mode.

Fig. 4 is a schematic view of a screen cartridge assembly in an embodiment of the present disclosure. Fig. 5 is a schematic view of a three-stage cartridge in an embodiment of the present invention.

As shown in fig. 4 and 5, screening cartridge assembly 3 in the present embodiment includes a primary cylinder 301, a secondary cylinder 302, and a tertiary cylinder 303. One-level barrel 301, second grade barrel 302 and tertiary barrel 303 all are located the screening chamber, and one-level barrel 301 and feeding storehouse 2 intercommunication.

The first-stage cylinder 301, the second-stage cylinder 302, and the third-stage cylinder 303 are cylindrical in shape. The circumferential surface of the primary cylinder 301 has a plurality of primary through holes distributed in an equi-spiral manner. The circumferential surface of the secondary cylinder 302 has a plurality of secondary through holes distributed in an equal spiral. The peripheral surface of the tertiary cylinder 303 has a plurality of equally spirally distributed tertiary through holes.

Wherein the primary through hole is smaller than the secondary through hole, and the secondary through hole is smaller than the tertiary through hole. The pitch of the distributed primary through holes is smaller than that of the distributed secondary through holes, and the pitch of the distributed secondary through holes is smaller than that of the distributed tertiary through holes.

The both ends of one-level barrel 301's end, second grade barrel 302 and the head end of tertiary barrel 303 have annular connection boss, connect the mounting hole that has 4 annular evenly distributed on the boss, and this mounting hole is used for wearing to establish bolt assembly to realize that one-level barrel 301, second grade barrel 302 and tertiary barrel 303 can dismantle the connection.

Figure 6 is a cross-sectional view of a screen cartridge assembly in an embodiment of the present invention.

As shown in fig. 6, the spiral blade 4 in the present embodiment includes a primary blade 401, a secondary blade 402, and a tertiary blade 403. The primary blades 401 are mounted on the inner side surface of the primary cylinder 301 in a welding manner and are located between two adjacent rows of primary through holes. The secondary blade 402 is installed on the inner side surface of the secondary cylinder 302 in a welding manner and is located between two adjacent rows of secondary through holes. The third-stage blades 403 are installed on the inner side surface of the third-stage cylinder 303 in a welding manner and are located between two adjacent rows of third-stage through holes.

The primary guide 5, the secondary guide 6 and the tertiary guide 7 are located in the guide chamber.

Fig. 7 is a schematic view of a secondary guide in an embodiment of the invention.

As shown in fig. 7, the secondary guide members 6 in this embodiment are each shaped like a rectangular parallelepiped, and have a semi-cylindrical groove on the top surface thereof. The two ends of the groove are provided with a baffle plate for preventing the fruit from entering into the adjacent guide pieces. The guide piece is also provided with a flow guide channel, the upper end of the flow guide channel is communicated with the groove, and the other end of the flow guide channel is communicated with the outside.

The primary guide 5 and the tertiary guide 7 are identical in structure to the secondary guide 6. And will not be described in detail herein.

The tray assembly 8 includes a primary tray 801, a secondary tray 802, and a tertiary tray 803. The primary tray 801 is located at the lower end of the flow guide channel of the primary guide 5. The secondary tray 802 is located at the lower end of the flow guide channel of the secondary guide part 6. The tertiary material tray 803 is positioned at the lower end of the flow guide channel of the tertiary guide member 7.

The number of the counters is 3, the counters are respectively arranged in the flow guide channels of the first-stage guide piece 5, the second-stage guide piece 6 and the third-stage guide piece 7 and are used for counting the fruits passing through the corresponding flow guide channels.

As shown in fig. 8, the present embodiment provides an adjusting mechanism 9 comprising a support shaft 901 and a scissor hand jack.

The supporting shaft 901 is installed at the left end of the frame body 1 through two ball bearings, and the supporting shaft 901 is provided with a supporting seat.

The scissor hand jack includes a mounting base 902, a first articulating arm 903, a second articulating arm 904, an articulating base 905, and a lead screw 906. The mounting seat 902 is mounted at the right end of the frame body 1 in a bolt connection manner. One end of the first hinge arm 903 is rotatably connected to the mounting seat 902, and the other end is hinged to the hinge seat 905. One end of the second hinge arm 904 is pivotally connected to the mounting seat 902, and the other end is hinged to the hinge seat 905. The lead screw 906 has a left end rotatably connected to the first hinge arm 903 and the other end threadedly connected to the second hinge arm 904.

When the lead screw 906 rotates clockwise, the first hinge arm 903 and the second hinge arm 904 approach each other, so that the hinge seat 905 moves upward, and conversely, the hinge seat 905 moves downward.

The drive mechanism 10 includes a drive shaft and a drive motor. The driving motor is installed on the rear side surface of the frame body 1 in a bolt connection mode and is close to the left end of the frame body 1. The left end of the driving shaft is rotatably connected with the supporting seat and is connected with the driving motor in a belt transmission mode. The right end of the driving shaft sequentially penetrates through the first-stage cylinder 301, the second-stage cylinder 302 and the third-stage cylinder 303 and is rotatably connected with a hinge seat 905 on the scissor type hand jack through a support shaft 901 bearing. Two threaded rods are arranged on the driving shaft, and the number of each threaded rod is 3. One threaded rod is connected with the head end of the first-stage cylinder 301, and the other threaded rod is connected with the tail end of the third-stage cylinder 303.

In other embodiments, the driving mechanism 10 may also drive the rotation of the screening cartridge assembly 3 by means of a gear transmission or a friction wheel.

The process of screening fruits by the internal auger type fruit sorting machine 100 provided by the embodiment is as follows: place fruit in feeding storehouse 2, fruit falls into one-level barrel 301 under the effect of gravity in, driving motor rotates screening section of thick bamboo subassembly 3, and helical blade 4 rotates along with screening section of thick bamboo subassembly 3. The helical blades 4 push the fruit to the secondary drum 302 and the tertiary drum 303 in sequence during rotation. Wherein, the smaller fruit drops to the primary guide 5 from the primary through hole of the primary barrel 301 and is received by the primary tray 801. The medium fruit drops from the secondary through hole of the secondary barrel 302 to the secondary guide 6 and is received by the secondary tray 802. The larger fruits fall from the tertiary through holes of the tertiary cylinder 303 to the tertiary guide 7 and are stored in the tertiary tray 803.

It should be noted that, in the fruit screening process, the screening drum assembly 3 is inclined upwards from the feeding bin 2, so that the fruit is pushed by the helical blade 4 to sequentially pass through the first-stage drum 301, the second-stage drum 302 and the third-stage drum 303, and the sorting accuracy is improved.

Effects and effects of the embodiments

In the graded sorting machine of internal auger type fruit that this embodiment provided, because the section of thick bamboo in the screening section of thick bamboo subassembly is for dismantling the connection, so the barrel of the change looks adaptation is in order to screen the fruit of different grade type. Thereby improving the range of screening the fruits by the inner auger type fruit grading sorting machine.

In the hierarchical sorting machine of interior auger formula fruit that this embodiment provided, because have adjustment mechanism, so can adjust the contained angle between screening section of thick bamboo subassembly and the support body according to the type of fruit before the letter sorting fruit to improve the screening effect.

The above embodiments are preferred examples of the present invention, and are not intended to limit the scope of the present invention.

Claims

1. The utility model provides an interior auger formula fruit sorting machine in grades for classify to the fruit of equidimension not, its characterized in that includes:

a feeding bin for conveying the fruit;

the screening cylinder assembly is arranged at the tail end of the feeding bin, screening holes distributed from small to large are formed in the surface of the screening cylinder assembly, and the screening holes are distributed in a spiral shape;

the spiral blade is arranged inside the screening drum assembly and positioned between two adjacent rows of screening holes, and is used for guiding the fruit to move;

the driving mechanism is used for rotating the screening drum;

a tray assembly located below the screening drum assembly for receiving fruit dropped from the screening drum, and

the frame body is used for supporting the feeding bin and the screening cylinder assembly.

2. The internally-auger fruit grading sorter according to claim 1, characterized in that:

wherein the drive mechanism comprises:

a drive shaft mounted on the screen cylinder;

and the driving motor is arranged on the frame body and is connected with the driving shaft in a belt transmission mode.

3. The internally-auger fruit grading sorter according to claim 1, characterized in that:

the screening cylinder assembly comprises a first-stage cylinder body, a second-stage cylinder body and a third-stage cylinder body, wherein the shapes of the first-stage cylinder body, the second-stage cylinder body and the third-stage cylinder body are cylindrical;

one end of the secondary cylinder is connected with the primary cylinder, and the other end of the secondary cylinder is connected with the tertiary cylinder;

the peripheral surface of the primary cylinder body is provided with a plurality of primary through holes which are distributed in an equal spiral manner;

the peripheral surface of the secondary cylinder body is provided with a plurality of secondary through holes which are distributed in an equal spiral manner;

the peripheral surface of the three-stage cylinder is provided with a plurality of three-stage through holes which are distributed in an equal spiral manner;

the primary through hole is smaller than the secondary through hole, and the secondary through hole is smaller than the tertiary through hole.

4. The internally-auger fruit grading sorter according to claim 3, characterized in that:

the pitch of the primary through holes is smaller than that of the secondary through holes, and the pitch of the secondary through holes is smaller than that of the tertiary through holes.

5. The internally-auger fruit grading sorter according to claim 3, characterized in that:

wherein the helical blade includes:

the primary blades are positioned between two adjacent rows of the primary through holes;

the secondary blades are positioned between two adjacent rows of the secondary through holes;

and the three-stage blades are positioned between two adjacent rows of the three-stage through holes.

6. The internally-auger fruit grading sorter according to claim 3, characterized in that:

wherein, the charging tray subassembly includes:

the primary material tray is positioned below the primary barrel and used for containing fruits falling from the primary barrel;

the secondary material tray is positioned below the secondary cylinder and used for containing fruits falling from the secondary cylinder;

and the three-level material tray is positioned below the three-level barrel and used for accommodating fruits falling from the three-level barrel.

7. The internally-auger fruit grading sorter of claim 6 further comprising:

the primary guide piece is positioned between the primary barrel and the primary material tray;

the secondary guide piece is positioned between the secondary cylinder and the secondary material tray;

and the third-stage guide piece is positioned between the third-stage cylinder and the third-stage material tray.

8. The internally-auger fruit grading sorter of claim 6 further comprising:

and the three counters are respectively arranged on the first-stage material tray, the second-stage material tray and the third-stage material tray.

9. The internally-auger fruit grading sorter of claim 1 further comprising:

and the adjusting mechanism is arranged on the frame body, connected with the screening cylinder and used for adjusting the inclination angle of the screening cylinder.

10. The internally-auger fruit grading sorter according to claim 9, characterized in that:

wherein the adjustment mechanism comprises:

the supporting shaft is rotatably connected with one end of the screening cylinder;

the scissor type hand-operated jack is arranged on the frame body and is hinged with the other end of the screening cylinder.