CN217229192U - Novel automatic recovery of conveyer belt sizing device - Google Patents

Abstract

The utility model provides a novel automatic recovery of conveyer belt sizing device, include: the conveying device comprises a rotary carrier roller, a conveying belt rotationally connected with the rotary carrier roller, a supporting carrier roller for supporting the conveying belt, a guide recovery device arranged below the rotary carrier roller and the conveying belt, and a rotating mechanism arranged on one side of the guide recovery device; the supporting carrier rollers are arranged on the inner side of the conveying belt; the guide recovery device and the rotating mechanism are fixedly arranged below the conveying belt; a roller cleaner is arranged in the guide recovery device; the rotating mechanism is respectively connected with the supporting carrier roller and the guiding and recovering device; a first-stage transmission mechanism is formed by a conveying belt, a supporting carrier roller, a rotating carrier roller and a rotating mechanism; the second-stage transmission mechanism is composed of the rotating mechanism and the roller cleaner. The dust and material loss can be effectively avoided, and the labor intensity of manual material collection is reduced.

Description

Novel automatic recovery of conveyer belt sizing device

Technical Field

The utility model relates to an automatic technical field of the ore dressing feed, concretely relates to novel automatic recovery of conveyer belt sizing device.

Background

The material conveyor has the advantages of low use cost, simple structure, large conveying capacity and the like, and is increasingly widely applied to various industries such as metallurgy, machinery, coal, mines and the like. With the development of science and technology, a plurality of conveyors with special structures and arrangement forms appear, and as important auxiliary equipment of the material conveying belt conveyor, the sticky material recoverer is indispensable in the use process of the whole conveyor and plays a key role. But the moisture material that the granularity is thinner and the back is unloaded to the belt in use to the iron-containing dirt mud, partial material adhesion is on the transportation belt, the material that the conveyer belt was carried has the stickness material, one of them part can glue on the conveyer belt working face, can glue on the bearing roller along with the belt operation, can cause the conveyer belt damage with higher speed for a long time, cause the conveyer belt off tracking, can cause the damage of conveyer belt glue and cylinder rubber coating layer, the material can spill along the belt frame all the way and cause the waste of material and the pollution of environment, the degree of difficulty and the intensity of labour of artifical clearance belt feeder site health have been increased simultaneously.

In summary, the following problems exist in the prior art: part of materials (such as mineral powder) of the existing belt conveyor can be adhered to a conveying belt, is difficult to clean and can cause accelerated equipment loss.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem how solve current belt feeder part material can the adhesion on the transportation belt, be difficult to the clearance and can cause the problem of accelerating the equipment loss.

In order to achieve the above object, the utility model provides a novel automatic recovery of conveyer belt sizing device, include:

the device comprises a rotary carrier roller, a conveying belt rotationally connected with the rotary carrier roller, a supporting carrier roller for supporting the conveying belt, a guide recovery device arranged below the rotary carrier roller and the conveying belt, and a rotating mechanism arranged on one side of the guide recovery device;

the supporting carrier rollers are arranged on the inner side of the conveying belt;

the guide recovery device and the rotating mechanism are fixedly arranged below the conveying belt;

a roller sweeper is arranged in the guide recovery device;

the rotating mechanism is respectively connected with the supporting carrier roller and the guiding and recovering device;

a first-stage transmission mechanism is formed by a conveying belt, a supporting carrier roller, a rotating carrier roller and a rotating mechanism;

the second-stage transmission mechanism is composed of the rotating mechanism and the roller cleaner.

Specifically, the guiding and recycling device is wide in upper part and narrow in lower part, the upper part and the lower part of the guiding and recycling device are both of an open structure, and the lower part of the guiding and recycling device is provided with an ash receiving hopper.

Specifically, the rotating mechanism includes: a first rotating wheel and a second rotating wheel which are coaxially arranged.

Specifically, the diameter of the first rotating wheel is smaller than the diameter of the second rotating wheel.

Specifically, the first rotating wheel is connected with the supporting carrier roller through a first belt.

Specifically, the second rotating wheel is connected with the roller sweeper through a second belt.

Specifically, the diameter of the support idler is smaller than that of the rotating idler.

Specifically, novel automatic recovery unit of conveyer belt sizing still includes: a showering water system and a material collecting barrel.

Specifically, the sprinkling system is arranged on the inner side of the ash receiving hopper, and the material receiving barrel is arranged below the guide recovery device and corresponds to the ash receiving hopper.

Specifically, the first belt is a V-belt.

The utility model has the advantages that: the problem of spill of conveyer belt sizing with the difficult problem of artifical clearance material is solved, novel conveyer belt sizing automatic recovery device realizes separation and automatic recovery to conveyer belt sizing, can effectively avoid raise dust and material loss, reduces artifical intensity of labour who receives the material. The adhesive material of the conveyor belt is automatically cleaned, and the recovered material enters the feeding stirring barrel through the small ash receiving hopper by utilizing production water to flush. The method specifically comprises the following steps: the conveying belt conveys materials, sinks under gravity and is in close static friction contact with the supporting carrier roller. Driving the supporting carrier roller to rotate; the belt pulley on the supporting carrier roller is linked with the rotating mechanism through a belt, and the rotating mechanism is also linked with the roller cleaner through the belt. The rotary mechanism adopts a belt to connect the small-diameter rotating wheel of the rotary mechanism, the small-diameter rotating wheel is connected with the large-diameter rotating wheel in parallel, the output of the large-diameter rotating wheel is connected with the belt and the roller cleaner to form a second-stage transmission mechanism, the effects of rotating speed regulation and the like are realized, the integration level of the automatic recoverer equipment is high, the occupied area is small, the working state of the recoverer is autonomously controlled by a conveying belt, the production is continuous, external energy starting is not needed, and the equipment maintenance is simple. The utility model discloses can reduce the problem of powdered ore at the junction plate in the hopper unloading in-process, avoid the unloading in-process to break off to realize that the powdered ore can be continuous, even feed.

Drawings

Fig. 1 is the embodiment of the utility model provides a novel automatic recovery of conveyer belt sizing device schematic structure.

The reference numbers illustrate:

1. a conveyor belt; 2. supporting the carrier roller; 3. a first belt; 4. a rotation mechanism; 5. a guiding and recovering device; 6. a roller sweeper; 7. rotating the carrier roller; 8. a shower system; 9. a material receiving barrel; 10. an ash receiving hopper.

Detailed Description

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

The embodiment of the utility model provides an in, like fig. 1, provide a novel automatic recovery unit of conveyer belt sizing, include:

the conveying device comprises a rotating carrier roller 7, a conveying belt 1 rotationally connected with the rotating carrier roller 7, a supporting carrier roller 2 supporting the conveying belt 1, a guiding recovery device 5 arranged below the rotating carrier roller 7 and the conveying belt 1, and a rotating mechanism 4 arranged on one side of the guiding recovery device 5;

the supporting carrier rollers 2 are arranged on the inner side of the conveying belt 1; the conveying belt conveys materials, sinks under gravity, is in close static friction contact with the supporting carrier roller and drives the supporting carrier roller to rotate.

The guiding and recovering device 5 and the rotating mechanism 4 are fixedly arranged below the conveying belt 1; the guiding and recovering device 5 is used for recovering materials and can adopt the form or structure of a hopper;

a roller sweeper 6 is arranged in the guide recovery device 5; realize automatic cleaning, retrieve the material. The adhesive material of the conveyor belt is automatically cleaned by the roller cleaner 6 to recover the material.

The rotating mechanism 4 is respectively connected with the supporting carrier roller 2 and the guiding recovery device 5, and respectively realizes the transmission of rotation.

The guiding and recycling device 5 is wide at the top and narrow at the bottom, and the upper part and the lower part of the guiding and recycling device 5 are both open structures. The lower part of the guiding and recovering device 5 is provided with an ash receiving hopper. The roller cleaner 6 is provided above the guide recovery device 5.

The rotating mechanism 4 includes: the first rotating wheel and the second rotating wheel are coaxially arranged. The supporting carrier roller 2 and the roller sweeper 6 can be linked simultaneously.

The diameter of the first rotating wheel is smaller than the diameter of the second rotating wheel.

The first rotating wheel is connected with the supporting carrier roller 2 through a first belt 3.

The second rotating wheel is connected with the roller sweeper 6 through a second belt. The belt pulley on the supporting roller is linked with the rotating mechanism through a first belt, and the rotating mechanism is also linked with the roller cleaner through a second belt. The first rotating wheel with the small diameter is connected with the second rotating wheel with the large diameter in parallel, and the output of the second rotating wheel is connected with the second belt and the roller cleaner to form a second-stage transmission mechanism, so that the effects of rotating speed regulation and the like are realized.

The diameter of the support idler 2 is smaller than the diameter of the rotary idler 7.

Novel automatic recovery of conveyer belt sizing device still includes: a water flushing system 8 and a material receiving barrel 9.

The sprinkling system 8 is arranged at the inner side of the ash receiving hopper 10, and the material receiving barrel 9 is arranged below the guiding and recovering device 5 and corresponds to the ash receiving hopper 10. The recovered materials are flushed by the production water through the ash receiving hopper and enter the feeding and receiving barrel 9.

The first belt 3 is a v-belt. The second belt is also a v-belt.

The utility model provides a spill of conveyer belt sizing with the difficult problem of artifical clearance material, novel conveyer belt sizing automatic recovery device realizes separating and automatic recovery to conveyer belt sizing, can effectively avoid raise dust and material loss, reduces artifical intensity of labour who receives the material. The adhesive material of the conveyor belt is automatically cleaned, and the recovered material enters the feeding stirring barrel through the small ash receiving hopper by utilizing production water to flush. The method specifically comprises the following steps: the conveying belt conveys materials, sinks under gravity and is in close static friction contact with the supporting carrier roller. Driving the supporting carrier roller to rotate; the belt pulley on the supporting carrier roller is linked with the rotating mechanism through a belt, and the rotating mechanism is also linked with the roller cleaner through the belt. The rotary mechanism adopts a belt to connect the small-diameter rotating wheel of the rotary mechanism, the small-diameter rotating wheel is connected with the large-diameter rotating wheel in parallel, the output of the large-diameter rotating wheel is connected with the belt and the roller cleaner to form a second-stage transmission mechanism, the effects of rotating speed regulation and the like are realized, the integration level of the automatic recoverer equipment is high, the occupied area is small, the working state of the recoverer is autonomously controlled by a conveying belt, the production is continuous, external energy starting is not needed, and the equipment maintenance is simple.

Example (b):

the utility model discloses a novel automatic recovery unit of conveyer belt sizing, as shown in fig. 1, constitute first order drive mechanism by parts such as conveyor belt, support roller, rotatory bearing roller, V-belt, rotary mechanism. Constitute second level drive mechanism by parts such as rotary mechanism, cylinder sweeper, still include: a material receiving hopper and a water flushing system. The recovered materials are flushed by the production water through a small ash receiving hopper and enter a feeding stirring barrel (a material receiving barrel).

The utility model has the advantages that:

1. realize that the sizing separates and retrieves, avoid raise dust and material loss, the water and the material that adhere to the conveyer belt surface clean up basically, the phenomenon of deposition also appears in the cylinder rear very seldom.

2. The conveyer belt binder recoverer has high equipment integration level and small occupied area.

3. The working state of the recoverer is autonomously controlled by the conveying belt, the production is continuous, the starting of external energy is not needed, and the equipment maintenance is simple.

4. And (4) recovering all the scraped adhesive materials to a small hopper of the belt machine head, and feeding the collected adhesive materials into a feeding stirring barrel by utilizing the power of flushing water.

5. The probability of adhering materials on the roller is reduced, and the probability of belt deviation is correspondingly reduced.

The above description is only exemplary of the present invention, and is not intended to limit the scope of the present invention. For the utility model discloses a each component can make up each other under the condition of conflict not, and any technical personnel in the field do not deviate from the utility model discloses an equal change and the modification made under the prerequisite of the design and principle all should belong to the scope of the protection of the utility model.

Claims (7)

1. The utility model provides a novel automatic recovery of conveyer belt sizing device which characterized in that includes:

the conveying device comprises a rotary carrier roller (7), a conveying belt (1) rotationally connected with the rotary carrier roller (7), a supporting carrier roller (2) supporting the conveying belt (1), a guiding recovery device (5) arranged below the rotary carrier roller (7) and the conveying belt (1), and a rotating mechanism (4) arranged on one side of the guiding recovery device (5);

the supporting carrier rollers (2) are arranged on the inner side of the conveying belt (1);

the guide recovery device (5) and the rotating mechanism (4) are fixedly arranged below the conveying belt (1);

a roller sweeper (6) is arranged in the guide recovery device (5);

the rotating mechanism (4) is respectively connected with the supporting carrier roller (2) and the guiding and recovering device (5);

a first-stage transmission mechanism is formed by a conveying belt (1), a supporting carrier roller (2), a rotating carrier roller (7) and a rotating mechanism (4);

a second-stage transmission mechanism is formed by the rotating mechanism (4) and the roller sweeper (6);

the guide recovery device (5) is wide at the top and narrow at the bottom, the upper part and the lower part of the guide recovery device (5) are both open structures, and the lower part of the guide recovery device (5) is provided with an ash receiving hopper (10);

novel automatic recovery of conveyer belt sizing device still includes: a water flushing system (8) and a material receiving barrel (9);

the water flushing system (8) is arranged on the inner side of the ash receiving hopper (10), and the material receiving barrel (9) is arranged below the guide recovery device (5) and corresponds to the ash receiving hopper (10);

the collected sticky materials enter a feeding stirring barrel by utilizing the power of flushing water.

2. The novel automatic recovery device for the belt adhesive of the conveyor as claimed in claim 1, wherein the rotating mechanism (4) comprises: a first rotating wheel and a second rotating wheel which are coaxially arranged.

3. The novel automatic recovery device for conveyor belt binder as claimed in claim 2, wherein the diameter of the first rotating wheel is smaller than the diameter of the second rotating wheel.

4. The novel automatic recovery device for the belt binder of the conveyor as claimed in claim 3, wherein the first rotating wheel is connected with the supporting roller (2) through a first belt (3).

5. The novel automatic recovery device for the conveyor belt binder as claimed in claim 3, wherein the second rotating wheel is connected with the roller sweeper (6) through a second belt.

6. The novel automatic recovery device for the belt binder of the conveyor as claimed in claim 1, wherein the diameter of the supporting roller (2) is smaller than that of the rotating roller (7).

7. The novel automatic recovery device for the conveyor belt adhesive material as claimed in claim 4, wherein the first belt (3) is a V-belt.

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