CN108499834B - Flexible mesh belt type airflow suspension tea sorting equipment - Google Patents

Abstract

The invention relates to the field of agricultural machinery, in particular to a flexible mesh belt type air suspension tea leaf sorting device, which comprises: the device comprises a lifting component, an air suspension component, a flexible mesh belt sorting component and an output component; the air suspension component comprises a falling channel, an air suspension air channel and an air suspension fan, the falling channel is vertically arranged, the flexible mesh belt sorting component is arranged below the falling channel, the air outlet of the air suspension air channel is arranged on the side wall of the falling channel, and the air inlet of the air suspension air channel is connected with the air suspension fan; the flexible mesh belt sorting component comprises a flexible mesh belt and a rotating shaft, wherein the flexible mesh belt is annular, screening holes are formed in the surface of the flexible mesh belt, the rotating shaft is arranged in the ring of the flexible mesh belt, the flexible mesh belt is driven to operate through the rotating shaft, the whole flexible mesh belt is divided into a screening mesh surface and a separating mesh surface, and the screening mesh surface is horizontally arranged; the output components include a coarse output belt and a fine output belt.

Description

Flexible mesh belt type airflow suspension tea sorting equipment

Technical Field

The invention relates to the field of agricultural machinery, in particular to flexible mesh belt type air suspension tea sorting equipment.

Background

With the development of national economy, labor force is accelerated to transfer to industry and towns, labor force for picking tea leaves is increasingly short, cost is increased, the continuous healthy development of the tea industry is influenced, mechanical picking and subsequent processing of fresh tea leaves are inevitable trends, the subsequent processing of the mechanically picked fresh tea leaves is always a difficult point in the industry, and the problems of large specification difference, irregular defective times, old and tender and the like of the mechanically picked fresh tea leaves are caused mainly because the existing tea picking machine can only carry out undifferentiated reciprocating cutting on fresh tea tree shoots, so that the subsequent processing technology is different, the product quality is unstable, and the economic benefit cannot be fully exerted. The design of the machine-picked fresh tea leaf sorting equipment capable of screening old stems, old leaves and bud leaves has great value.

Disclosure of Invention

The invention aims to solve the problems in the background art and provides flexible mesh belt type air suspension tea sorting equipment.

The technical purpose of the invention is realized by the following technical scheme:

a flexible mesh belt type air-suspending tea leaf sorting device comprises: the device comprises a lifting component, an air suspension component, a flexible mesh belt sorting component and an output component; the air suspension component comprises a falling channel, an air suspension air channel and an air suspension fan, the falling channel is vertically arranged, the flexible mesh belt sorting component is arranged below the falling channel, the air outlet of the air suspension air channel is arranged on the side wall of the falling channel, and the air inlet of the air suspension air channel is connected with the air suspension fan; the flexible mesh belt sorting component comprises a flexible mesh belt and a rotating shaft, wherein the flexible mesh belt is annular, screening holes are formed in the surface of the flexible mesh belt, the rotating shaft is arranged in the ring of the flexible mesh belt, the flexible mesh belt is driven to operate through the rotating shaft, the whole flexible mesh belt is divided into a screening mesh surface and a separating mesh surface, and the screening mesh surface is horizontally arranged; the output component comprises a coarse leaf output belt and a fine leaf output belt, the coarse leaf output belt is arranged below the flexible mesh belt sorting component, and the fine leaf output belt penetrates through the annular inner ring of the flexible mesh belt and is arranged below the screening mesh surface in parallel.

Preferably, the air suspension air duct comprises a speed-reducing air duct and a dispersing air duct, and the dispersing air duct is arranged above the speed-reducing air duct; the retarding air duct is obliquely and upwards arranged, and the bottom of the retarding air duct is hinged with an air pipe output by the air suspension fan, so that the blowing angle of the retarding air duct is adjustable; the dispersion wind channel is divided into two groups which are arranged oppositely, each group is provided with a plurality of air blowing openings, and the positions of the opposite air blowing openings are staggered mutually.

Preferably, the flexible mesh belt comprises a screening mesh surface and two separation mesh surfaces, the screening mesh surface and the separation mesh surfaces are equal in length, so that the whole flexible mesh belt forms a regular triangular ring, and the screening mesh surface is arranged at the topmost part of the whole ring.

Tea passes through the in-process of flexible guipure screening, and the biggest problem is exactly the hanging wire phenomenon of tea, because tea is at the hanging wire phenomenon of mesh, can lead to the screening diameter of mesh reality to diminish to lead to originally can see through the unable passing through of blade of mesh, caused the loss of tea and the decline of screening accuracy. Through the inverted-triangular annular flexible mesh belt structure, tea leaves hanging on the two separation mesh surfaces below can automatically fall into the coarse tea output belt under the action of gravity, the net hanging rate of the coarse tea is greatly reduced, the running speed of the whole device can be increased, and the screening efficiency is improved.

Preferably, the flexible mesh belt sorting component is fixed below the falling channel through a vibration seat, the vibration seat comprises a base, a vibration support and a vibrator, a rebound spring is arranged between the base and the vibration support, and the flexible mesh belt sorting component is fixed on the vibration support through a rotating shaft.

Preferably, the vibrator comprises a vibration motor and an eccentric wheel, the eccentric wheel abuts against the bottom of the vibration support, and the eccentric wheel is driven by the vibration motor to rotate.

Through the vibration effect, firstly can play the screening efficiency that improves the screening wire side, the second can strengthen hanging the free of net tealeaves from the separation wire side and drop to improve the screening effect.

Preferably, the pivot is connected with interval slewing mechanism, and do intermittent type nature rotation under the interval slewing mechanism drive, interval slewing mechanism includes carousel and sheave, the carousel links to each other with driving motor, the sheave with the pivot links to each other, the carousel includes, disk body and bull stick, the bull stick is kept away from disk body one end and is provided with the pin rod, be provided with on the sheave with pin rod assorted notch.

Preferably, an external blowing pipe is arranged in the flexible mesh belt ring, an opening of the external blowing pipe faces the separation mesh surface, the separation effect of the tea leaves hanging on the mesh and the separation mesh surface is further enhanced, and the screening effect is guaranteed.

Preferably, the external blowing pipe is connected with the air suspension fan.

Preferably, a conical collecting hopper is arranged between the bottom of the screening net surface and the fine leaf output belt.

Preferably, the flexible mesh belt is a flexible rope-woven mesh, a steel wire mesh or a plastic mesh net.

Preferably, the lifting component is a conveying belt arranged obliquely upwards, a baffle is arranged on the surface of the conveying belt, and feeding plates are arranged on the surfaces of the coarse leaf output belt and the fine leaf output belt.

Preferably, the flexible guipure includes a screening wire side and three separation wire side, the screening wire side with the separation wire side is isometric for whole flexible guipure forms a square ring, the screening wire side sets up at whole annular top, and square flexible guipure makes the intra-annular space ratio of flexible guipure bigger, thereby is convenient for outer blast pipe and leaflet output belt to have the bigger space of putting.

In conclusion, the invention has the beneficial effects that:

the flexible mesh belt type air suspension tea leaf sorting equipment can continuously screen fresh tea leaves, and coarse leaves and fine leaves are separately output and have small impurities.

The flexible mesh belt type air suspension tea leaf sorting equipment adopts an air floatation mode, so that the speed of the leaves reaching the flexible mesh belt is low and the leaves are almost in a static state, the damage to tea leaves in the screening process is reduced, the air floatation angle is adjustable, and the equipment can adapt to different tea leaf varieties.

The flexible mesh belt type air suspension tea leaf sorting equipment has the advantages that the number of meshes hung on the flexible mesh belt is small, and the screening loss caused by hanging the tea leaves on the flexible mesh belt can be reduced to the greatest extent.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the dispersion duct of the present invention;

FIG. 3 is a schematic view of the structure of the retarding duct of the present invention;

fig. 4 is a schematic representation of the construction of a flexible web of the present invention;

FIG. 5 is a schematic view of the spacing rotation mechanism according to the present invention;

fig. 6 is a schematic structural view of embodiment 2 of the present invention.

Detailed Description

The following specific examples are given by way of illustration only and not by way of limitation, and it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made in the examples without inventive faculty, and yet still be protected by the scope of the claims.

The present invention will be described in detail below by way of examples with reference to the accompanying drawings.

Example 1:

as shown in fig. 1 to 5, a flexible mesh belt type air-suspending tea sorting device comprises: lifting component 1, air suspension component 2, flexible mesh belt sorting component 3 and output component 4.

According to fig. 2 and 3, the air suspension component 2 comprises a falling channel 21, an air suspension air duct 22 and an air suspension fan 23, the falling channel 21 is vertically arranged, the flexible mesh belt sorting component 3 is arranged below the falling channel 21, an air outlet of the air suspension air duct 22 is arranged on the side wall of the falling channel 21, and an air inlet of the air suspension air duct 22 is connected with the air suspension fan 23.

The air suspension air duct 22 comprises a retarding air duct 221 and a dispersing air duct 222, and the dispersing air duct 222 is arranged above the retarding air duct 221; the retarding air duct 221 is obliquely arranged upwards, and the bottom of the retarding air duct is hinged with an air pipe output by the air suspension fan 23, so that the air blowing angle of the retarding air duct is adjustable; the dispersing air duct 222 is divided into two sets arranged in opposite directions, each set is provided with a plurality of air blowing openings, and the positions of the opposite air blowing openings are staggered with each other.

The flexible mesh belt sorting component 3 comprises a flexible mesh belt 31 and a rotating shaft 32, wherein the flexible mesh belt 31 is annular, the surface of the flexible mesh belt 31 is provided with screening holes, the rotating shaft 32 is arranged in the ring of the flexible mesh belt 31 and divides the whole flexible mesh belt 31 into a screening mesh surface 311 and a separation mesh surface 312, and the screening mesh surface 311 is horizontally arranged.

The flexible mesh belt 31 is a flexible rope woven mesh, a steel wire mesh or a plastic mesh net, the flexible mesh belt 31 comprises a screening mesh surface 311 and two separating mesh surfaces 312, the screening mesh surface 311 is equal to the separating mesh surfaces 312 in length, so that the whole flexible mesh belt 31 forms a regular triangular ring, and the screening mesh surface 311 is arranged at the topmost part of the whole ring.

The output part 4 comprises a coarse leaf output belt 41 and a fine leaf output belt 42, the coarse leaf output belt 41 is arranged below the flexible mesh belt sorting part 3, the fine leaf output belt 42 penetrates through an annular inner ring of the flexible mesh belt 31 and is arranged below the screening mesh surface 311 in parallel, a conical collecting hopper 24 is arranged between the bottom of the screening mesh surface 311 and the fine leaf output belt 42, the lifting part 1 is a conveying belt arranged obliquely upwards, a baffle 101 is arranged on the surface of the lifting part, and feeding plates 401 are arranged on the surfaces of the coarse leaf output belt 41 and the fine leaf output belt 42.

According to fig. 4, the flexible mesh belt sorting component 3 is fixed below the falling channel 21 through a vibration seat 5, the vibration seat 5 comprises a base 51, a vibration support 52 and a vibrator 53, a rebound spring 54 is arranged between the base 51 and the vibration support 52, the flexible mesh belt sorting component 3 is fixed on the vibration support 52 through a rotating shaft 32, the vibrator 53 comprises a vibration motor 531 and an eccentric wheel 532, the eccentric wheel 532 abuts against the bottom of the vibration support 52, the eccentric wheel 532 rotates under the driving of the vibration motor 531, an external blowing pipe 7 is arranged in the flexible mesh belt 31, the opening of the external blowing pipe 7 is arranged towards the separation mesh surface 312, and the external blowing pipe 7 is connected with an air suspension fan 23.

According to fig. 5, the rotating shaft 32 is connected with the interval rotating mechanism 6 and intermittently rotates under the driving of the interval rotating mechanism 6, the interval rotating mechanism 6 comprises a rotating disc 61 and a grooved pulley 62, the rotating disc 61 is connected with the driving motor 63, the grooved pulley 62 is connected with the rotating shaft 32, the rotating disc 61 comprises a disc body 611 and a rotating rod 612, one end of the rotating rod 612, far away from the disc body 611, is provided with a pin rod 613, and the grooved pulley 62 is provided with a notch 621 matched with the pin rod 613.

The use of equipment does, carry falling passageway 21 top through hoisting part 1 with fresh tea, and fresh tea is at falling passageway 21 free fall afterwards, because fresh tea is through the transport of bar baffle 101, so the initial condition when fresh tea falls in falling passageway 21 is also rectangular shape, can effectually blow away tealeaves through dispersion wind channel 222 at this moment, simultaneously under the effect of slow wind channel 221, the falling speed of control tealeaves, the speed of assurance tealeaves when falling flexible mesh belt 31 surface is less. The tea leaves are screened by the screen mesh surface 311 of the flexible mesh belt 31, the coarse leaves remain on the upper surface of the screen mesh surface 311, and the fine leaves fall into the fine leaf output belt 42 through the screen mesh surface 311. The screen mesh surface 311 and the separating mesh surface 312 are continuously replaced by the rotation of the rotating shaft 32, and the tea leaves hung on the flexible mesh belt 31 fall into the coarse leaf output belt 41 under the action of gravity and the external blowing pipe 7.

Example 2:

the difference from the above embodiment 1 is that, as shown in fig. 6, the flexible mesh belt 31 includes one screening mesh surface 311 and three separating mesh surfaces 312, the screening mesh surface 311 is as long as the separating mesh surfaces 312, so that the whole flexible mesh belt 31 forms a square ring, the screening mesh surface 311 is disposed at the topmost part of the whole ring, and the square flexible mesh belt 31 makes the space inside the ring of the flexible mesh belt 31 larger, so that the external blowing pipe 7 and the fine leaf output belt 42 have a larger space for placing.

Claims (8)

1. The utility model provides a flexible guipure formula air suspension tealeaves sorting facilities which characterized in that includes: the device comprises a lifting component (1), an air suspension component (2), a flexible mesh belt sorting component (3) and an output component (4);

the air suspension component (2) comprises a falling channel (21), an air suspension air channel (22) and an air suspension fan (23), the falling channel (21) is vertically arranged, the flexible mesh belt sorting component (3) is arranged below the falling channel (21), an air outlet of the air suspension air channel (22) is arranged on the side wall of the falling channel (21), and an air inlet of the air suspension air channel (22) is connected with the air suspension fan (23);

the flexible mesh belt sorting component (3) comprises a flexible mesh belt (31) and a rotating shaft (32), wherein the flexible mesh belt (31) is annular, screening holes are formed in the surface of the flexible mesh belt, the rotating shaft (32) is arranged in the ring of the flexible mesh belt (31) and divides the whole flexible mesh belt (31) into a screening mesh surface (311) and a separation mesh surface (312), and the screening mesh surface (311) is horizontally arranged;

the output component (4) comprises a coarse leaf output belt (41) and a fine leaf output belt (42), the coarse leaf output belt (41) is arranged below the flexible mesh belt sorting component (3), and the fine leaf output belt (42) penetrates through an annular inner ring of the flexible mesh belt (31) and is arranged below the screening mesh surface (311) in parallel;

the air suspension air duct (22) comprises a speed-reducing air duct (221) and a dispersing air duct (222), and the dispersing air duct (222) is arranged above the speed-reducing air duct (221); the retarding air duct (221) is obliquely and upwards arranged, and the bottom of the retarding air duct is hinged with an air pipe output by the air suspension fan (23); the dispersing air ducts (222) are divided into two groups which are arranged oppositely, each group is provided with a plurality of air blowing openings, and the positions of the opposite air blowing openings are staggered;

the flexible mesh belt (31) comprises a screening mesh surface (311) and two separation mesh surfaces (312), wherein the screening mesh surface (311) is equal to the separation mesh surfaces (312) in length, so that the whole flexible mesh belt (31) forms a regular triangular ring, and the screening mesh surface (311) is arranged at the topmost part of the whole ring.

2. The flexible mesh belt type air-suspending tea leaf sorting equipment according to claim 1, wherein the flexible mesh belt sorting component (3) is fixed below the falling channel (21) through a vibration seat (5), the vibration seat (5) comprises a base (51), a vibration bracket (52) and a vibrator (53), a rebound spring (54) is arranged between the base (51) and the vibration bracket (52), and the flexible mesh belt sorting component (3) is fixed on the vibration bracket (52) through a rotating shaft (32).

3. The flexible mesh belt type air suspension tea sorting device as claimed in claim 2, wherein the vibrator (53) comprises a vibration motor (531) and an eccentric wheel (532), the eccentric wheel (532) is abutted against the bottom of the vibration bracket (52), and the eccentric wheel (532) is driven by the vibration motor (531) to rotate.

4. The flexible mesh belt type air-suspending tea leaf sorting device as claimed in claim 1, wherein the rotating shaft (32) is connected with a spacing rotating mechanism (6) and driven by the spacing rotating mechanism (6) to intermittently rotate, the spacing rotating mechanism (6) comprises a rotating disc (61) and a grooved pulley (62), the rotating disc (61) is connected with a driving motor (63), the grooved pulley (62) is connected with the rotating shaft (32), the rotating disc (61) comprises a disc body (611) and a rotating rod (612), a pin (613) is arranged at one end of the rotating rod (612) far away from the disc body (611), and a notch (621) matched with the pin (613) is arranged on the grooved pulley (62).

5. A flexible mesh belt type air-suspending tea leaf sorting device according to claim 1, characterized in that an external blowing pipe (7) is arranged in the loop of the flexible mesh belt (31), and the opening of the external blowing pipe (7) is arranged towards the separation mesh surface (312).

6. A flexible mesh belt type air-suspension tea leaf sorting device according to claim 1, characterized in that a conical collection hopper (24) is arranged between the bottom of the screen surface (311) and the fine leaf output belt (42).

7. The flexible mesh belt type air-suspending tea leaf sorting equipment as claimed in claim 1, wherein the lifting part (1) is an obliquely upward conveying belt, the surface of the conveying belt is provided with a baffle (101), and the surfaces of the coarse leaf output belt (41) and the fine leaf output belt (42) are provided with feed plates (401).

8. A flexible mesh belt type air-suspension tea leaf sorting device according to claim 1, characterized in that the flexible mesh belt (31) comprises a screen mesh surface (311) and three separation mesh surfaces (312), the screen mesh surface (311) is equal in length to the separation mesh surfaces (312) so that the whole flexible mesh belt (31) forms a square ring, and the screen mesh surface (311) is arranged at the top of the whole ring.

Images