CN218609773U - High-efficiency crusher - Google Patents

Abstract

A high efficiency crusher comprising: the device comprises a case, a first crushing mechanism, a conveying assembly and a reprocessing mechanism; the input end of the magnetic suction conveyor belt is positioned below the first crushing mechanism; the scraping piece is arranged in the accommodating cavity and is positioned below the magnetic suction conveying belt, and the scraping piece is contacted with the lower surface of the magnetic suction conveying belt; the rotation adjusting plate is arranged in the accommodating cavity and extends obliquely; the first end of the rotating adjusting plate is close to the output end of the magnetic suction conveying belt; the accommodating cavity is provided with a reprocessing area below the second end of the rotation adjusting plate, and the reprocessing mechanism is arranged in the reprocessing area. This scheme provides a high-efficient breaker, and it receives the crushed aggregates from first broken mechanism output through the conveying subassembly, and the metal object in the crushed aggregates is followed magnetism and is inhaled the conveyer belt and shift to the metal recovery district, and other parts of crushed aggregates shift to the reprocessing area from rotating the regulating plate, have realized the classification after the material is broken from this, have saved the material and have treated time again after broken, have solved the step loaded down with trivial details and the chronic problem that leads to inefficiency of crushed aggregates reprocessing.

Description

High-efficiency crusher

Technical Field

The utility model relates to a breaker technical field especially relates to a high-efficient breaker.

Background

The crusher is used for crushing the materials so as to disperse the materials into crushed materials; metal parts may be doped in the crushed materials, and after the materials in part of processes are crushed and processed, the materials are classified, crushed again and reprocessed; and current breaker is mainly crushing treatment, and the crushed aggregates after final breakage need shift to the sorting mechanism, shifts to the breaker again, shifts the crushed aggregates of breaker to retreatment mechanism again, and material loading and unloading in the transfer need the longer time, the time cost of increase on the one hand, and on the other hand has increased the cost and the human cost of equipment, leads to broken efficient of processing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient breaker, it receives the crushed aggregates from first broken mechanism output through the conveying subassembly, and the metal object in the crushed aggregates is inhaled the conveyer belt from magnetism and is shifted to the metal recovery district, and the other parts of crushed aggregates shift to the reprocessing district from rotating the regulating plate, have saved reprocessing time after the material breakage from this.

To achieve the purpose, the utility model adopts the following technical proposal:

a high efficiency crusher comprising: the device comprises a case, a first crushing mechanism, a conveying assembly and a reprocessing mechanism;

the case is provided with an accommodating cavity; the accommodating cavity is provided with a box body notch; the first crushing mechanism is arranged on a notch of the box body; the conveying assembly is mounted in the accommodating cavity;

the transfer assembly includes: the conveying driving wheel, the conveying driven wheel, the magnetic suction conveying belt, the scraping part and the rotation adjusting plate are arranged on the conveying belt;

the transmission driving wheel and the transmission driven wheel are rotatably arranged in the accommodating cavity; the magnetic suction conveying belt synchronously and rotationally connects the conveying driving wheel with the conveying driven wheel; the input end of the magnetic suction conveyor belt is positioned below the first crushing mechanism; the scraping part is arranged in the accommodating cavity and is positioned below the magnetic suction conveying belt, and the scraping part is contacted with the lower surface of the magnetic suction conveying belt; the rotation adjusting plate is arranged in the accommodating cavity and extends obliquely; the first end of the rotating adjusting plate is close to the output end of the magnetic suction conveying belt;

the accommodating cavity is provided with a metal recovery area below the magnetic suction conveying belt; the accommodating cavity is provided with a reprocessing area below the second end of the rotation adjusting plate, and the reprocessing mechanism is arranged in the reprocessing area.

Preferably, a material receiving opening is formed between the first end of the rotation adjusting plate and the output end of the magnetic suction conveying belt; the containing cavity is arranged below the material receiving opening and is provided with a crushing recovery area.

Preferably, the rotation regulating plate is rotatably and adjustably mounted to the accommodating cavity, and rotation of the rotation regulating plate is used for regulating the size of the material receiving opening.

Preferably, the method further comprises the following steps: an air draft device;

the air draft device is communicated with the crushing recovery area.

Preferably, the chassis is provided with a metal recovery opening at the bottom of the metal recovery area, and the metal recovery opening is provided with a movably-adjusted metal recovery switch plate;

the machine case is provided with a crushed material recovery opening at the bottom of the crushing recovery area, and a movably adjusted crushed material recovery switch board is arranged at the crushed material recovery opening.

Preferably, the case is provided with a reprocessing discharge port at the bottom of the reprocessing region, and the reprocessing discharge port is provided with a reprocessing switch plate movably adjusted.

Preferably, the scraper includes: the rotating seat is mounted on the inner wall of the accommodating cavity; the scraping roller is rotatably arranged on the rotating seat, and the roller surface of the scraping roller is contacted with the magnetic suction conveying belt.

Preferably, the transfer assembly comprises: a transfer driver;

the output end of the transmission driver is connected with the transmission driving wheel and used for driving the transmission driving wheel to rotate so as to drive the magnetic belt conveyor to rotate.

Preferably, the rework mechanism includes: a second crushing mechanism;

the first crushing mechanism and/or the second crushing mechanism comprises: a crushing roller and a rotary drive;

at least two crushing rollers are symmetrically arranged; the output end of the rotary driver is connected with the crushing roller and is used for driving the crushing roller to rotate.

The utility model provides a technical scheme can include following beneficial effect:

this scheme provides a high-efficient breaker, and it receives the crushed aggregates from first broken mechanism output through the conveying subassembly, and the metal object in the crushed aggregates is followed magnetism and is inhaled the conveyer belt and shift to the metal recovery district, and other parts of crushed aggregates shift to the reprocessing area from rotating the regulating plate, have realized the classification after the material is broken from this, have saved the material and have treated time again after broken, have solved the step loaded down with trivial details and the chronic problem that leads to inefficiency of crushed aggregates reprocessing.

Drawings

FIG. 1 is a schematic structural view of one embodiment of a high-efficiency crusher;

FIG. 2 is a schematic cross-sectional view of one embodiment of a high efficiency crusher;

fig. 3 is a schematic structural diagram of one embodiment of the high-efficiency crusher.

Wherein:

the machine box comprises a machine box 1, a first crushing mechanism 2, a conveying assembly 3 and a reprocessing mechanism 4; an air draft device 5;

the device comprises an accommodating cavity 11, a box body notch 12, a metal recovery port 13 and a metal recovery switch plate 14; a scrap recovery opening 15 and a scrap recovery switch plate 16; the discharge port 17 is processed again; reprocessing the switch plate 18;

a metal recovery zone 111, a reprocessing zone 112, a pulverization recovery zone 113;

a transmission driving wheel 31, a transmission driven wheel 32, a magnetic suction transmission belt 33, a scraping piece 34 and a rotation adjusting plate 35; a transfer driver 36;

a rotating base 341, a scraping roller 342, a material receiving opening 351;

the second crushing mechanism 41; a crushing roller 411, a rotation driver 412.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The technical solution of the present solution is further explained by the following embodiments with reference to the accompanying drawings.

A high efficiency crusher comprising: the machine box comprises a machine box 1, a first crushing mechanism 2, a conveying assembly 3 and a reprocessing mechanism 4;

the case 1 is provided with an accommodating cavity 11; the accommodating cavity 11 is provided with a box body notch 12; the first crushing mechanism 2 is arranged on the tank body notch 12; the conveying assembly 3 is arranged in the accommodating cavity 11;

the transfer assembly 3 comprises: a transmission driving wheel 31, a transmission driven wheel 32, a magnetic suction transmission belt 33, a scraping piece 34 and a rotation adjusting plate 35;

the transmission driving wheel 31 and the transmission driven wheel 32 are rotatably arranged in the accommodating cavity 11; the magnetic suction conveyor belt 33 connects the transmission driving wheel 31 and the transmission driven wheel 32 in a synchronous rotation manner; the input end of the magnetic suction conveyor belt 33 is positioned below the first crushing mechanism 2; the scraping part 34 is installed in the accommodating cavity 11 and is located below the magnetic suction conveyor belt 33, and the scraping part 34 contacts with the lower surface of the magnetic suction conveyor belt 33; the rotation adjusting plate 35 is installed in the accommodating cavity 11 and extends obliquely; a first end of the rotation adjusting plate 35 is close to the output end of the magnetic suction conveying belt 33;

a metal recovery area 111 is arranged below the magnetic suction conveyor belt 33 in the accommodating cavity 11; a reprocessing region 112 is disposed below the second end of the rotation adjusting plate 35 of the accommodating chamber 11, and the reprocessing mechanism 4 is disposed in the reprocessing region 112.

This scheme provides a high-efficient breaker, it receives the crushed aggregates from the output of first broken mechanism 2 through transfer assembly 3, and the metal object in the crushed aggregates is inhaled conveyer belt 33 from magnetism and is shifted to metal recovery district 111, and the other parts of crushed aggregates shift to reprocessing region 112 from rotating regulating plate 35, has realized the classification after the material breakage from this, has saved reprocessing time after the material breakage, has solved the step loaded down with trivial details and the chronic problem that leads to inefficiency of crushed aggregates reprocessing.

Specifically, materials enter from a box body notch 12 of the accommodating cavity 11, the first crushing mechanism 2 crushes the materials, and the materials are crushed into a plurality of pieces and then fall to the magnetic suction conveyor belt 33; the magnetic attraction conveying belt 33 has magnetic force, and the metal pieces in the material stay on the magnetic attraction conveying belt 33 under the action of the magnetic force; the fragments in the material can fall to the rotating adjusting plate 35 under the action of gravity, or extend to the rotating adjusting plate 35 under the output end of the magnetic conveyor belt 33; the rotation of the transmission driving wheel 31 drives the transmission driven wheel 32 to rotate through the magnetic attraction conveying belt 33, so that the material of the magnetic attraction conveying belt 33 is transferred from the input end to the output end, the metal piece continues to move to the lower surface of the magnetic attraction conveying belt 33 after passing through the output end of the magnetic attraction conveying belt 33, and finally the metal piece abuts against the material scraping piece 34; the scraping piece 34 limits the metal piece to move continuously, so that the metal piece stays above the metal recovery area 111; the contact between the metal pieces, or the contact between the metal pieces and the scraping piece 34, combined with the gravity of the metal pieces, causes the metal pieces to finally fall to the metal recovery zone 111 to realize the recovery of the metal pieces; for the crushed materials, the crushed materials cross the rotating adjusting plate 35 from the output end of the magnetic suction conveying belt 33, and the rotating adjusting plate 35 is obliquely arranged and can guide the crushed materials to fall to the reprocessing area 112; the reprocessing region 112 can be correspondingly provided with any reprocessing mechanism 4, such as a drying device, a chopping device, a humidifying device and the like, according to the needs, further reprocessing can be carried out after the materials are crushed, the time for transferring, classifying, retransferring and reprocessing the crushed materials is greatly shortened, the reprocessing time after the materials are crushed is saved, and the problem of low efficiency caused by complicated steps and long time for reprocessing the crushed materials is solved.

Preferably, a material receiving opening 351 is formed between the first end of the rotation adjusting plate 35 and the output end of the magnetic suction conveying belt 33; the accommodating cavity 11 is provided with a crushing recovery area 113 below the material receiving opening 351.

A gap is formed between the rotating adjusting plate 35 and the output end of the magnetic suction conveying belt 33, and the gap is a material receiving opening 351; the crushed material part is too small in size and can fall to the lower crushing recovery area 113 through the material receiving opening 351; for small pieces of a size larger than the material receiving opening 351, the small pieces can be transferred across the material receiving opening 351 to the rotating regulating plate 35 and then transferred from the rotating regulating plate 35 to the reprocessing region 112; thus, the material-receiving opening 351 may further sort the scrap according to its size, with enhanced sorting capabilities that may prevent undersized scrap from entering the reprocessing region 112.

Preferably, the rotary regulating plate 35 is rotatably and adjustably mounted to the accommodating cavity 11, and the rotation of the rotary regulating plate 35 is used for adjusting the size of the material receiving opening 351.

The rotating adjusting plate 35 is rotatably installed in the accommodating cavity 11, and when the rotating adjusting plate 35 rotates, the rotating adjusting plate can adjust the relative position between the first end of the rotating adjusting plate 35 and the output end of the magnetic suction conveyor belt 33; when the first end of the rotary adjusting plate 35 and the output end of the magnetic suction conveying belt 33 approach to each other, the material receiving opening 351 is reduced; when the first end of the rotary adjusting plate 35 and the output end of the magnetic suction conveying belt 33 are away from each other, the material receiving opening 351 is enlarged; the material receiving opening 351 reduces and increases, can be convenient for adjust the condition of passing through of small-size crushed aggregates, and then sets for the size range of small-size crushed aggregates as required.

The rotation adjusting plate 35 can be driven to rotate manually or driven to rotate by a mechanical device; for manual driving, the rotation angle of the rotation adjusting plate 35 can be controlled through the handle, and then the position of the handle is fixed, so that the angle of the rotation adjusting plate 35 can be controlled; for the mechanical device driving, it can be realized by a known mechanism having a function of driving rotation, such as a motor, and an output end of the motor is connected to the rotation adjusting plate 35 to drive the rotation adjusting plate 35 to perform angle adjustment.

Preferably, the method further comprises the following steps: an air draft device 5;

the air draft device 5 is communicated with the crushing recovery area 113.

The air draft device 5 can draft air to the crushing recovery area 113, so that the crushing recovery area 113 forms negative pressure, and then the crushed aggregates with small sizes are sucked into the crushing recovery area 113, and the crushed aggregates fall to the crushing recovery area 113 at an accelerated speed.

Preferably, the chassis 1 is provided with a metal recycling port 13 at the bottom of the metal recycling region 111, and the metal recycling port 13 is provided with a movably adjusted metal recycling switch board 14;

the bottom of the crushing recovery area 113 of the case 1 is provided with a crushed material recovery opening 15, and the crushed material recovery opening 15 is provided with a movably adjusted crushed material recovery switch plate 16.

The metal recovery switch board 14 and the scrap recovery switch board 16 can be respectively movably adjusted, and when the metal recovery area 111 needs to be recovered, the metal recovery switch board 14 can be opened to discharge metal out of the case 1; similarly, the scrap recycling switch 16 may be turned on to recycle the scrap in the scrap recycling area 113.

Preferably, the cabinet 1 is provided with a reprocessing discharge port 17 at the bottom of the reprocessing region 112, and the reprocessing discharge port 17 is provided with a movably adjustable reprocessing switch plate 18.

The reprocessing discharge port 17 can discharge the crushed aggregates processed by the reprocessing mechanism 4, and when the crushed aggregates need to be discharged, the reprocessing switch plate 18 can be directly opened, and the crushed aggregates can fall under the action of gravity to be separated from the case 1.

Preferably, the scraping member 34 includes: a rotating base 341 and a scraping roller 342, wherein the rotating base 341 is mounted on the inner wall of the accommodating cavity 11; the scraping roller 342 is rotatably mounted on the rotating base 341, and a roller surface of the scraping roller 342 contacts with the magnetic belt 33.

The scraping roller 342 is rotatably arranged on the rotating seat 341, and the rotation of the magnetic suction conveyor belt 33 drives the scraping roller 342 to rotate, so that the abrasion of the scraping roller 342 can be reduced; the transverse span of the scraping roller 342 is large, so that the metal piece can be effectively prevented from passing through the scraping piece 34; under the rotation action of the scraping roller 342, the impact of the scraping roller 342 when the metal part is abutted against the scraping roller 342 is reduced, the stability of the scraping roller 342 is better, and the rotation of the scraping roller 342 enables the metal part to fall from the magnetic suction conveyor belt 33 to the metal recovery area 111 more easily.

Preferably, the transfer assembly 3 comprises: a transfer driver 36;

the output end of the transmission driver 36 is connected to the transmission driving wheel 31, and is used for driving the transmission driving wheel 31 to rotate, so as to drive the magnetic belt 33 to rotate.

The transmission driver 36 can automatically drive the magnetic attraction conveying belt 33 to rotate, and further, the magnetic attraction conveying belt 33 can rotate circularly.

Preferably, the rework mechanism 4 includes: the second crushing mechanism 41;

the first crushing mechanism 2 and/or the second crushing mechanism 41 includes: a crushing roller 411 and a rotary drive 412;

at least two of the crushing rollers 411 are symmetrically arranged; the output end of the rotation driver 412 is connected to the crushing roller 411 for driving the crushing roller 411 to rotate.

The rotation driver 412 drives the crushing roller 411 to rotate, so that the crushing roller 411 presses the material in the protrusion of the roller surface, and the effect of crushing the material is realized. The rotation driver 412 is a mechanism known to have a function of driving rotation, such as a motor.

The technical principles of the present solution have been described above with reference to specific embodiments. These descriptions are only used to explain the principles of the present solution and should not be interpreted in any way as limiting the scope of the present solution. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present solution without any inventive effort, which would fall within the scope of the present solution.

Claims (9)

1. A high efficiency crusher, comprising: the device comprises a case, a first crushing mechanism, a conveying assembly and a reprocessing mechanism;

the case is provided with an accommodating cavity; the accommodating cavity is provided with a box body notch; the first crushing mechanism is arranged on a notch of the box body; the conveying assembly is arranged in the accommodating cavity;

the transfer assembly includes: the conveying driving wheel, the conveying driven wheel, the magnetic suction conveying belt, the material scraping part and the rotation adjusting plate are arranged on the conveying belt;

the transmission driving wheel and the transmission driven wheel are rotatably arranged in the accommodating cavity; the magnetic suction conveying belt synchronously and rotationally connects the conveying driving wheel with the conveying driven wheel; the input end of the magnetic suction conveyor belt is positioned below the first crushing mechanism; the scraping part is arranged in the accommodating cavity and is positioned below the magnetic suction conveying belt, and the scraping part is contacted with the lower surface of the magnetic suction conveying belt; the rotation adjusting plate is arranged in the accommodating cavity and extends obliquely; the first end of the rotating adjusting plate is close to the output end of the magnetic suction conveying belt;

the accommodating cavity is provided with a metal recovery area below the magnetic suction conveying belt; the accommodating cavity is provided with a reprocessing area below the second end of the rotation adjusting plate, and the reprocessing mechanism is arranged in the reprocessing area.

2. The efficient crusher of claim 1 wherein a material receiving opening is formed between the first end of the rotating adjustment plate and the output end of the magnetically attracted conveyor belt; the containing cavity is arranged below the material receiving opening and is provided with a crushing recovery area.

3. A high efficiency crusher as claimed in claim 2, wherein said rotating adjustment plate is rotatably adjustably mounted to said receiving chamber, rotation of said rotating adjustment plate being effective to adjust the size of said material receiving opening.

4. A high efficiency crusher as claimed in claim 2, further comprising: an air draft device;

the air draft device is communicated with the crushing recovery area.

5. The efficient crusher of claim 2 wherein the casing has a metal recovery opening at the bottom of the metal recovery area and a movably adjustable metal recovery switch plate at the metal recovery opening;

the machine case is provided with a crushed material recovery opening at the bottom of the crushing recovery area, and a movably adjusted crushed material recovery switch board is arranged at the crushed material recovery opening.

6. A high efficiency crusher as claimed in claim 1 wherein said housing has a reprocessing discharge port at the bottom of said reprocessing region and a movably adjustable reprocessing switch plate at said reprocessing discharge port.

7. A high efficiency crusher as claimed in claim 1, wherein said scraping member comprises: the rotating seat is mounted on the inner wall of the accommodating cavity; the scraping roller is rotatably arranged on the rotating seat, and the roller surface of the scraping roller is contacted with the magnetic suction conveying belt.

8. A high efficiency crusher as claimed in claim 1, wherein said conveyor assembly comprises: a transfer driver;

the output end of the transmission driver is connected with the transmission driving wheel and used for driving the transmission driving wheel to rotate so as to drive the magnetic suction conveyor belt to rotate.

9. A high efficiency crusher as claimed in any one of claims 1 to 8, wherein the rework mechanism comprises: a second crushing mechanism;

the first crushing mechanism and/or the second crushing mechanism comprises: a crushing roller and a rotary drive;

at least two crushing rollers are symmetrically arranged; the output end of the rotary driver is connected with the crushing roller and is used for driving the crushing roller to rotate.

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