CN113560163A - A fully automatic disc sorting and screening mechanism - Google Patents

Abstract

The invention discloses a full-automatic disc sorting and screening mechanism, which relates to the field of sorting equipment and comprises a sorting mechanism, wherein the sorting mechanism comprises a sorting screen and a driving mechanism, the sorting screen comprises a plurality of rotating shafts, the rotating shafts are arranged and distributed at equal intervals, the rotating shafts are mutually parallel, a plurality of discs are arranged on each rotating shaft, the discs on each rotating shaft are arranged and distributed at equal intervals, the driving mechanism is used for driving each rotating shaft to rotate in the same direction, the rotating shafts drive the discs to rotate in the same direction, and the edges of the discs are arranged in a concave-convex structure. The full-automatic disc sorting and screening mechanism can well sort materials.

Description

Full-automatic disc sorting screen mechanism

Technical Field

The invention relates to the field of material distribution equipment, in particular to a full-automatic disc sorting and screening mechanism.

Background

Waste recycling is the collection process of waste generated during human activities for disposal and reuse. The classification and recovery can be carried out according to the nature of the waste, or the nature of the industry. Such as industrial and mining wastes, mainly waste metals; the types of domestic waste are complex, and there are organic matter, inorganic product, metal product, etc. In order to improve the efficiency and the benefit of recycling and treating wastes, the urban domestic wastes should be classified and recycled, and special containers for loading paper, metals, glass, plastic products and inorganic sundries are arranged on urban streets to provide conditions for fully treating and utilizing the wastes. Waste is processed to become a product for reuse, however, a batch of waste generally contains a plurality of substances, and in this case, useful substances need to be separated from the waste, and equipment for efficiently separating the materials is lacked.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a full-automatic disc sorting and screening mechanism which can well sort materials.

The invention is realized by adopting the following technical scheme:

the utility model provides a full-automatic dish separation sieve mechanism, includes feed mechanism, feed mechanism includes separation sieve and first actuating mechanism, separation sieve includes a plurality of pivots, and the pivot equidistance is arranged and is distributed, and is parallel to each other between the pivot, is provided with a plurality of dish in every pivot, and every epaxial dish equidistance is arranged and is distributed, first actuating mechanism is used for driving every pivot equidirectional rotation, and the pivot drives the dish equidirectional rotation, and the edge of dish is the setting of concavo-convex structure.

Preferably, the disc is provided with a through hole, the disc is sleeved on the rotating shaft through the through hole, and the disc is fixedly connected with the rotating shaft.

Preferably, the rotating shaft is provided with a welding strip, the welding strip is provided with edges and corners, the through hole is provided with a notch matched with the welding strip, and the notch and the welding strip are clamped after the rotating shaft is sleeved with the disc.

Preferably, the edge of the disc is arranged in a wave-like structure.

Preferably, the material separating and screening device further comprises a material conveying mechanism, wherein the material conveying mechanism comprises a conveyor belt and a second driving mechanism, the second driving mechanism is used for driving the conveyor belt to move, and the conveyor belt is located below the separating and screening screen.

Preferably, the material distribution mechanism comprises a shell, and a feed inlet and a first discharge outlet are arranged on the shell; the feed inlet is located the top of one end wherein of the classifying screen, and first discharge gate is located the other end of classifying screen and slope downwardly setting.

Preferably, one side that the casing is inside to be close to the feed inlet is provided with the striker plate, the striker plate includes first board end and second board end, the striker plate sets up for the slope, first board end highly is greater than the height of second board end apart from the inside apart from ground, first board end and shells inner wall are connected, second board end is located the separation sieve top.

Preferably, the striker plate is arranged in a step shape.

Preferably, a second discharge hole is formed in one end, located in the transmission direction of the conveyor belt, of the material conveying mechanism.

Preferably, the separation sieve is arranged horizontally or obliquely.

Compared with the prior art, the invention has the beneficial effects that: after the materials reach the sorting screen, due to the fact that intervals exist between the disc sheets and intervals also exist between the rotating shafts, a plurality of screen holes are formed under the combination of the disc sheets and the rotating shafts, the materials smaller than the screen holes can fall from the screen holes, and due to the fact that the disc sheets are of the concave-convex structure, the materials larger than the screen holes can continuously bounce to one side under the effect of the disc sheets to move, and therefore the material sorting effect is achieved.

Drawings

Fig. 1 is a perspective view of a full-automatic disc sorting and screening mechanism in an embodiment of the present invention.

FIG. 2 is a schematic structural diagram of a full-automatic disc sorting and screening mechanism according to an embodiment of the present invention.

FIG. 3 is a perspective view of a disc according to an embodiment of the present invention.

FIG. 4 is a schematic diagram of a disc mounted on a spindle according to an embodiment of the present invention.

Reference numerals: 1. a material distributing mechanism; 2. a material conveying mechanism; 3. a housing; 4. sorting and screening; 5. a first drive mechanism; 6. a rotating shaft; 7. a disc; 8. a feed inlet; 9. a first discharge port; 10. a through hole; 11. welding the strips; 12. a notch; 13. a second drive mechanism; 14. a conveyor belt; 15. a striker plate; 16. and a second discharge hole.

Detailed Description

The technical solution provided by the invention is explained in more detail below with reference to fig. 1-4.

As shown in fig. 1-4, an embodiment of the present invention provides a full-automatic disc sorting and screening mechanism, which includes the following reference numerals: 1 and material conveying mechanism 2, material conveying mechanism 2 sets up at feed mechanism reference numeral: 1 below.

The reference numbers of the material distributing mechanism are as follows: 1 includes casing 3, separation sieve 4 and first actuating mechanism 5, separation sieve 4 sets up inside casing 3, first actuating mechanism 5 is installed on casing 3, separation sieve 4 includes a plurality of pivot 6, pivot 6 equidistance is arranged and is distributed, be parallel to each other between the pivot 6, be provided with a plurality of video disc 7 on every pivot 6, video disc 7 equidistance on every pivot 6 is arranged and is distributed, be equivalent to video disc 7 and pivot 6 constitute a plurality of sieve mesh jointly, the less material will fall from the sieve mesh department on the separation sieve 4, can set up the interval between the video disc 7 and the interval between the pivot 6 according to actual demand, thereby make the size of sieve mesh accord with actual needs. The first driving mechanism 5 is used for driving each rotating shaft 6 to rotate in the same direction, and the rotating shaft 6 drives the disc 7 to rotate in the same direction. A feed inlet 8 and a first discharge outlet 9 are arranged on the shell 3; the feeding hole 8 is positioned above one end of the separating screen 4, and the first discharging hole 9 is positioned at the other end of the separating screen 4 and is arranged obliquely downwards. The first driving mechanism 5 comprises a first motor and a first transmission mechanism, the first motor is in transmission connection with the first transmission mechanism, the first transmission mechanism is in transmission connection with the rotating shafts 6, the first motor drives the first transmission mechanism to move, the first transmission mechanism drives the rotating shafts 6 to rotate in the same direction, and finally the rotating shafts 6 drive the discs 7 to rotate in the same direction.

The edge of the disc 7 is arranged in a concave-convex structure, and specifically, the edge of the disc 7 is arranged in a wavy structure. The disc 7 is provided with a through hole 10, the disc 7 is sleeved on the rotating shaft 6 through the through hole 10, the disc 7 is fixedly connected with the rotating shaft 6, and the disc 7 is welded with the rotating shaft 6.

The rotating shaft 6 is provided with a welding strip 11, the welding strip 11 is provided with edges, the through hole 10 is provided with a notch 12 matched with the welding strip 11, and after the disc 7 is sleeved on the rotating shaft 6, the notch 12 is clamped with the welding strip 11. The welding strip 11 is rectangular, the length of the welding strip 11 is the same as that of the rotating shaft 6, when the disc is installed and manufactured, the welding strip 11 is welded on the rotating shaft 6, the through hole 10 of the disc 7 is aligned to the side face of the rotating shaft 6, the notch 12 is aligned to the side face of the welding strip 11, the disc 7 is sleeved on the rotating shaft 6, and the disc 7 is welded on the welding strip 11 and the rotating shaft 6 to be fixed. The welding strip 11 is arranged, so that a clamping structure is formed between the disc 7 and the welding strip 11, and then the disc 7 is welded on the welding strip 11 and the rotating shaft 6, so that the disc 7 is fixed more stably.

The material conveying mechanism 2 comprises a conveyor belt 14 and a second driving mechanism 13, the second driving mechanism 13 is used for driving the conveyor belt 14 to move, and the conveyor belt 14 is positioned below the separation screen 4. By providing the material conveying mechanism 2, the material falling from the separating screen 4 falls onto the conveyor belt 14, and the function of automatically conveying the material is achieved. The second driving mechanism 13 includes a second motor and a second transmission mechanism, the second motor is in transmission connection with the second transmission mechanism, the second transmission mechanism is in transmission connection with the conveyor belt 14, the second motor drives the second transmission mechanism to move, and the second transmission mechanism drives the conveyor belt 14 to move.

One side that the feed inlet 8 is close to in 3 insides of casing is provided with striker plate 15, and striker plate 15 includes first board end and second board end, and striker plate 15 sets up for the slope, and first board end highly is greater than the height of second board end apart from the inside apart from ground, and first board end and 3 inner wall connections of casing, second board end are located the separation sieve 4 tops. Because there is great clearance between the inner wall of separation sieve 4 and casing 3, the material that gets into from feed inlet 8 passes the material conveying mechanism 2 that drops to the below in this clearance easily for on the material conveying mechanism 2 also drops to the material that originally can not pass through the sieve mesh, influence the sorting effect of material, through being provided with striker plate 15, can guide the material to separation sieve 4 on, thereby solve above-mentioned problem.

The striker plate 15 is arranged in a step shape, so that the striker plate 15 has the function of buffering material sliding.

The material conveying mechanism 2 is provided with a second discharge hole 16 at one end in the transmission direction of the conveyor belt 14, the second discharge hole 16 is arranged downwards, a plurality of anti-slip strips are arranged on the conveyor belt 14, and the anti-slip strips are arranged in a V shape. After the material reaches the surface of the conveyor belt 14, the conveyor belt 14 will convey the material to the second discharge port 16, and finally the material will be discharged from the second discharge port 16.

The separating screen 4 is arranged horizontally or obliquely. When the separating screen 4 is horizontally arranged, the materials can be separated into two types, smaller materials can fall into the material conveying mechanism 2 after passing through the screen holes, larger materials can bounce and move towards one end of the first discharge hole 9 under the action of the disc 7, and finally are discharged from the first discharge hole 9. When the separating screen 4 is obliquely arranged, the materials can be separated into three types, smaller materials can fall into the material conveying mechanism 2 from the screen holes, the larger materials are divided into heavier materials and lighter materials, because the separating screen 4 is obliquely arranged, particularly, one end of the separating screen 4 close to the first discharge hole 9 is higher than the ground, one end of the separating screen 4 far away from the first discharge hole 9 is lower than the ground, under the action of the disc 7, the heavier materials and the lighter materials can bounce, the lighter materials can always bounce and move towards one end of the first discharge hole 9 and are finally discharged from the first discharge hole 9, the heavier materials can stay on the separating screen 4 under the action of gravity, in addition, a third discharge hole can be arranged on the shell 3 according to the work requirement, the third discharge hole is positioned at one side of the separating screen 4 lower than the ground, so that the heavier materials can bounce to the third discharge hole, and finally, the material is discharged from a third discharge port. According to the working requirement, the height of one end of the separating screen 4 close to the first discharge hole 9 from the ground is smaller than that of one end of the separating screen far from the first discharge hole 9 from the ground, at the moment, the disc 7 rotates in the opposite direction, and the heavier materials are discharged from the first discharge hole 9.

The working process of the full-automatic disc sorting and screening mechanism of the embodiment is as follows: the materials enter from the feed inlet 8 and then fall onto the separating screen 4, because the matching arrangement of the disc 7 and the rotating shaft 6 on the separating screen 4 forms a plurality of screen holes, the materials with the particle size smaller than the aperture of the screen holes can fall onto the conveyor belt 14 in the material conveying mechanism 2 from the screen holes, the conveyor belt 14 conveys the partial materials to the second discharge hole 16 and finally discharges from the second discharge hole 16, the materials with the particle size larger than the aperture of the screen holes do not pass through the screen holes, because the disc 7 with the wavy structure at the edge rotates, the rotating direction of the disc 7 faces to the first discharge hole 9, the materials which do not pass through the screen holes can continuously bounce and move towards the first discharge hole 9 under the action of the disc 7 and finally discharge from the first discharge hole 9.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. A full-automatic disc sorting and screening mechanism is characterized in that: the automatic disc separating and feeding device comprises a separating mechanism, wherein the separating mechanism comprises a separating screen and a first driving mechanism, the separating screen comprises a plurality of rotating shafts, the rotating shafts are arranged and distributed at equal intervals, the rotating shafts are parallel to each other, a plurality of discs are arranged on each rotating shaft, the discs on each rotating shaft are arranged and distributed at equal intervals, the first driving mechanism is used for driving each rotating shaft to rotate in the same direction, the rotating shafts drive the discs to rotate in the same direction, and the edges of the discs are arranged in a concave-convex structure.

2. The full automatic disc sorting mechanism of claim 1, wherein: the disc is provided with a through hole, the disc is sleeved on the rotating shaft through the through hole, and the disc is fixedly connected with the rotating shaft.

3. The full automatic disc sorting mechanism of claim 2, wherein: the rotating shaft is provided with a welding strip which is provided with edges and corners, the through hole is provided with a notch matched with the welding strip, and the notch and the welding strip are clamped after the disc is sleeved on the rotating shaft.

4. The full automatic disc sorting mechanism of claim 1, wherein: the edge of the disc is arranged in a wave-shaped structure.

5. The full automatic disc sorting mechanism of claim 1, wherein: still include material conveying mechanism, material conveying mechanism includes conveyer belt and second actuating mechanism, second actuating mechanism is used for driving the conveyer belt motion, the conveyer belt is located the below of separating sieve.

6. The full automatic disc sorting mechanism of claim 1, wherein: the material distribution mechanism comprises a shell, and a feeding hole and a first discharging hole are formed in the shell; the feed inlet is located the top of one end wherein of the classifying screen, and first discharge gate is located the other end of classifying screen and slope downwardly setting.

7. The full automatic disc sorting mechanism of claim 6, wherein: the utility model discloses a separation sieve, including casing, feed inlet, striker plate, baffle, the inside one side that is close to the feed inlet of casing is provided with the striker plate, the striker plate includes first board end and second board end, the striker plate sets up for the slope, first board end highly is greater than the height of second board end apart from the inside apart from ground, first board end is connected with shells inner wall, the second board end is located the separation sieve top.

8. The full automatic disc sorting mechanism of claim 7, wherein: the striker plate is arranged in a step shape.

9. The full automatic disc sorting mechanism of claim 5, wherein: and a second discharge hole is formed in one end, located in the transmission direction of the conveyor belt, of the material conveying mechanism.

10. The full automatic disc sorting mechanism of claim 1, wherein: the separating screen is horizontally arranged or obliquely arranged.

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