CN219702210U - Circulation refining system - Google Patents

Abstract

The utility model relates to the technical field of material crushing and discloses a circulating refining system which comprises a separation sieve, a crusher, a conveying assembly, a lifter and a recycling assembly, wherein the separation sieve is used for screening materials and is provided with a feed inlet, a large material outlet and a small material outlet; the crusher is used for crushing materials; the conveying assembly comprises a frame and a conveying belt connected with the frame, wherein the feeding end of the conveying belt is communicated with the large material outlet, and the discharging end of the conveying belt is communicated with the feeding end of the crusher; the feeding end of the elevator is communicated with the discharging port of the crusher, and the discharging end of the elevator is communicated with the feeding port of the separation sieve; the recovery assembly comprises at least two collection frames, the at least two collection frames are arranged below the conveying belt in parallel and are detachably connected with the frame, and a collection groove for collecting materials is formed on one side, facing the conveying belt, of the collection frames. The utility model can effectively carry out circulating refinement on materials, and can effectively avoid powder on the conveyer belt from being scattered randomly.

Description

Circulation refining system

Technical Field

The utility model relates to the technical field of material crushing, in particular to a circulating refining system.

Background

In the process of producing the powder with the particle size required by the mortar, the powder needs to be circularly crushed to meet the preset particle size requirement.

The publication number CN208427194U discloses a circulating refined pulverizing device, which comprises a bin, a conveying belt, a composite crusher, a hoister and a feeder, wherein the bin comprises a bin body, a main blanking pipe, a branch circulation joint, a first blanking pipe and a second branch blanking pipe, and the feeding end of the main blanking pipe is communicated with the bin body; the split-flow adapter is provided with a feed inlet, a first discharge port and a second discharge port, the feed inlet is communicated with the discharge end of the main blanking pipe, and the first discharge port and the second discharge port are symmetrically arranged along the plane where the axis of the feed inlet is positioned; the feeding ends of the first blanking pipe and the second blanking pipe are respectively communicated with the first discharging hole and the second discharging hole; one end of the conveying belt is arranged below the discharging end of the first blanking pipe, the other end of the conveying belt is arranged above the feeding end of the composite crusher, and the feeding end of the elevator is communicated with the discharging end of the composite crusher; the feeding end of the feeder is communicated with the discharging end of the hoister, and the discharging end of the feeder is communicated with the feeding end of the stock bin body.

When the powder is conveyed by the conveying belt, part of the powder can move along with the conveying belt, and when the powder moves to the lower side of the conveying belt, part of the powder can fall off under the action of gravity, so that the lower side of the conveying belt continuously forms the falling powder, and the cleaning is inconvenient.

Disclosure of Invention

In view of the above, it is necessary to provide a circulating and refining system, which solves the technical problem that the powder falls off from the lower part of the conveying belt and is inconvenient to clean when the powder is crushed in a circulating way in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model provides a circulating refining system, which comprises the following components:

the separation sieve is used for sieving materials and is provided with a feed inlet, a large material outlet and a small material outlet;

the crusher is used for crushing materials;

the conveying assembly comprises a frame and a conveying belt connected with the frame, wherein the feeding end of the conveying belt is communicated with the large material outlet, and the discharging end of the conveying belt is communicated with the feeding end of the crusher;

the feeding end of the lifting machine is communicated with the discharging port of the crusher, and the discharging end of the lifting machine is communicated with the feeding port of the separation sieve;

the recycling assembly comprises at least two collecting frames, wherein at least two collecting frames are arranged below the conveying belt in parallel and are detachably connected with the frame, and a collecting groove for collecting materials is formed on one side, facing the conveying belt, of each collecting frame.

In one embodiment, the collection frame is inclined downwardly in a direction approaching the feed end of the conveyor belt.

In one embodiment, the rack is formed with a mounting position arranged obliquely, and the collecting frame is inserted in the mounting position in a sliding manner.

In one embodiment, the recycling assembly further comprises a plurality of connectors, wherein the connectors are respectively connected with at least two collecting frames, and the connectors are detachably connected with the frame and used for limiting the collecting frames to slide relative to the frame.

In one embodiment, the connector is hooked to the frame.

In one embodiment, the connecting piece comprises a first hook, a connecting part and a second hook which are sequentially connected, wherein the first hook is in hooked connection with the rack, and the second hook is in hooked connection with the collecting frame.

In one embodiment, the collecting frame is provided with at least one bar-shaped groove, and the second hook is meshed with the bar-shaped groove.

In one embodiment, the recycling assembly comprises a blocking member arranged at one side of the collecting frame facing the conveying belt and at the joint of two adjacent collecting frames, and the blocking member is used for guiding materials falling to the joint to slide to the collecting frames.

In one embodiment, the blocking piece comprises an inserting strip and two blocking pieces, the inserting strip is slidably inserted between two adjacent collecting frames, the two blocking pieces are arranged on one side, close to the conveying belt, of the blocking pieces, the two blocking pieces are arranged in an included angle, and the distance between the two blocking pieces along the direction away from the conveying belt is gradually increased.

In one embodiment, the recycling assembly further comprises at least two handles, wherein the handles are respectively arranged at the end parts of the collecting frame in the length direction and are connected with the collecting frame.

Compared with the prior art, the utility model has the beneficial effects that:

in the process of circularly crushing the materials, the materials are fed into a separation sieve, the separation sieve can separate the fed materials, the separated materials with the particle size meeting the requirements are discharged from a small material outlet, the materials with the larger particle size are conveyed onto a conveying belt from a large material outlet of the separation sieve, the materials are conveyed into a crusher through the conveying belt, and the materials are crushed again through the crusher; the materials crushed by the crusher are returned to the separation sieve by the hoister, and are screened by the separation sieve, and the materials are circulated continuously until the particle sizes of all the materials meet the requirements;

when the conveyor belt moves to the bottom of the conveyor belt in the working process, if the dust slides downwards under the action of gravity, the sliding powder can be collected by a collecting groove of a collecting frame, so that random scattering of the dust is avoided, when the collecting frame collects a certain amount of dust, the collecting frame is detached from a frame, and the powder in the collecting frame is recovered, so that the problem that the powder is scattered randomly and inconvenient to clean in the working process of the conveyor belt is avoided;

by providing at least two collection frames instead of one, the weight of a single collection frame can be reduced, avoiding the inconvenience of carrying the single collection frame over-weight.

Drawings

FIG. 1 is a schematic view of a cyclic refinement system according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the structure of the conveying assembly and the recycling assembly in the circulating and refining system according to an embodiment of the present utility model;

FIG. 3 is an enlarged partial schematic view at A in FIG. 2;

FIG. 4 is an enlarged partial schematic view at B in FIG. 2;

fig. 5 is a schematic structural view of a conveying component and a recycling component in the circulation thinning system according to an embodiment of the present utility model.

Reference numerals illustrate:

a separation sieve 1;

a crusher 2;

a conveying assembly 3;

a frame 31;

a conveyor belt 32;

a hoist 4;

a recovery assembly 5;

a collection frame 51;

a connecting member 52;

a first hook 521;

a connecting portion 522;

a second hook 523;

a blocking member 53;

a cutting 531;

a blocking piece 532;

a handle 54.

Detailed Description

The following detailed description of preferred embodiments of the utility model is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the utility model, are used to explain the principles of the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1 to 5, the utility model provides a circulating refining system, which comprises a separation sieve 1, a crusher 2, a conveying assembly 3, a lifting machine 4 and a recovery assembly 5, wherein the separation sieve 1 is used for screening materials and is provided with a feed inlet, a large material outlet and a small material outlet; the crusher 2 is used for crushing materials; the conveying assembly 3 comprises a frame 31 and a conveying belt 32 connected with the frame 31, wherein the feeding end of the conveying belt 32 is communicated with a large material outlet, and the discharging end of the conveying belt is communicated with the feeding end of the crusher 2; the feeding end of the lifting machine 4 is communicated with the discharging port of the crusher 2, and the discharging end is communicated with the feeding port of the separation sieve 1; the recovery assembly 5 comprises at least two collection frames 51, the at least two collection frames 51 are arranged below the conveying belt 32 in parallel and are detachably connected with the frame 31, and a collection groove for collecting materials is formed on one side, facing the conveying belt 32, of the collection frames 51. It should be understood that the number of the collecting frames 51 may be one, two, three, etc.; the separation sieve 1 can be a vibrating sieve, a cyclone sieve and the like; the crusher 2 may be a hammer stone crusher 2, a jaw crusher 2, an impact crusher 2, etc.; the hoisting machine 4 can be a bucket hoisting machine, a plate hoisting machine and the like; the materials can slide into the feed inlet of the separation sieve 1 from the discharge end of the lifting machine 4 under the action of gravity, and can also be fed into the feed inlet of the separation sieve 1 by a screw conveyor; it should be understood that the above-mentioned links requiring conveying may be such that the material is conveyed through a pipe by the action of weight, or may be conveyed by a screw conveyor or the like.

In the process of circularly crushing the materials, the materials are fed into a separation sieve 1, the separation sieve 1 can separate the fed materials, the separated materials with the particle size meeting the requirements are discharged from a small material outlet, the materials with the larger particle size are conveyed onto a conveying belt 32 from a large material outlet of the separation sieve 1, the materials are conveyed into a crusher 2 through the conveying belt 32, and the materials are crushed again through the crusher 2; the materials crushed by the crusher 2 are returned to the separation sieve 1 through the elevator 4, and are screened by the separation sieve 1, and the materials are continuously circulated until the particle sizes of all the materials meet the requirements.

It should be understood that the material entering the screen 1 may be material passing from a silo, which may be part of the present utility model or may be independent of the present utility model, or may be material being conveyed by a conveyor.

When the conveying belt 32 moves to the bottom of the conveying belt 32 in the working process, if the dust slides downwards under the action of gravity, the sliding powder can be collected by the collecting groove of the collecting frame 51, so that random scattering of the dust is avoided, when the collecting frame 51 collects a certain amount of dust, the collecting frame 51 is detached from the rack 31, and the powder in the collecting frame 51 is recycled, so that the problem that the powder is scattered randomly and inconvenient to clean in the working process of the conveying belt 32 is avoided; by providing at least two collection frames 51 instead of one, the weight of a single collection frame 51 can be reduced, avoiding the inconvenience of carrying the single collection frame 51 excessively heavy.

In one embodiment, the collection frame 51 is inclined downwardly in a direction approaching the feed end of the conveyor belt 32.

Through the above arrangement, the material falling into the collecting tank of the collecting frame 51 can spontaneously slide toward the lower side, so that the amount of the powder collected in the collecting tank can be observed.

In one embodiment, the frame 31 is formed with a mounting position disposed obliquely, and the collecting frame 51 is slidably inserted into the mounting position. It should be understood that the mounting locations may be inclined support beams formed by overlapping frames of the frame 31 or may be inclined mounting slots formed in the frame 31.

Through forming the installation position of slope on frame 31, will collect frame 51 and install in the installation position after, realized collecting the slope installation of frame 51, through inserting collection frame 51 sliding and locating the installation position, be convenient for collect frame 51 and frame 31 be connected, when need take off or install collection frame 51, along the incline direction slip collect frame 51 can, collect frame 51 sliding in addition and set up in the installation position and realized collecting frame 51 and frame 31's detachable connection.

In one embodiment, the recovery assembly 5 further includes a plurality of connectors 52, wherein the plurality of connectors 52 are respectively connected to the at least two collection frames 51, and the connectors 52 are detachably connected to the frame 31 for restricting the collection frames 51 from sliding relative to the frame 31. It should be appreciated that the connector 52 may be a bolt, a snap, etc.

By providing the connecting piece 52, the detachable connection of the frame 31 and the collecting frame 51 can be realized by the connecting piece 52; moreover, the connection 52 can limit the sliding of the collection frame 51 with respect to the frame 31.

In one embodiment, the connector 52 is hooked with the frame 31. It should be understood that the connection 52 may be hinged, pivotally connected, fixedly connected, etc. to the connection frame.

Through the above arrangement, the hook-type manner facilitates the quick connection of the connector 52 to the frame 31.

In one embodiment, the connecting member 52 includes a first hook 521, a connecting portion 522, and a second hook 523, which are sequentially connected, where the first hook 521 is hooked to the frame 31, and the second hook 523 is hooked to the collecting frame 51.

Through the arrangement, the connecting piece 52 is hooked with the rack 31 and the collecting frame 51, so that the connecting piece 52 is convenient to be installed on the collecting frame 51, and the connecting piece 52 is convenient to be connected with the rack 31.

In one embodiment, the collecting frame 51 is provided with at least one bar-shaped groove along the length direction, and the second hook 523 is engaged with the bar-shaped groove. It should be understood that a slot may be formed in the frame 31 so that the first hook 521 may engage with the slot, where engagement means that the hook portion of the hook is hung on the slot.

By providing a plurality of bar grooves on the collecting frame 51, when the hooking connection between the connecting piece 52 and the collecting frame 51 is required, the second hook 523 is inserted into the bar groove to engage with the bar groove.

In one embodiment, the number of the collecting frames 51 is two, the two collecting frames 51 are arranged in parallel, the number of the strip-shaped grooves formed in the collecting frames 51 is two, the two strip-shaped grooves are formed in one side, far away from the other collecting frame 51, of the collecting frames 51, and the two strip-shaped grooves are arranged at intervals.

In one embodiment, the recycling assembly 5 further includes a blocking member 53, where the blocking member 53 is disposed on a side of the collecting frame 51 facing the conveyor belt 32 and is disposed at a joint between two adjacent collecting frames 51, for guiding the material falling toward the joint to slide toward the collecting frame 51. It should be understood that the blocking member 53 may be one or more blocking tabs disposed obliquely, may be an oval or other shaped plate block, etc.

Since at least two collecting frames 51 are arranged in parallel, adjacent collecting frames 51 are abutted against each other, powder may slide down through the gap between adjacent collecting frames 51, in this embodiment, by providing the blocking member 53, the blocking member 53 provided at the gap between collecting frames 51 can block powder from sliding down through the gap between adjacent collecting frames 51, and the blocking member 53 can guide dust falling to the gap into the adjacent two collecting frames 51.

In one embodiment, the blocking member 53 includes an insert 531 and two blocking pieces 532, the insert 531 is slidably inserted between two adjacent collecting frames 51, the two blocking pieces 532 are disposed on one side of the blocking piece 532 near the conveyor belt 32, the two blocking pieces 532 are disposed at an included angle, and the spacing between the two blocking pieces 532 increases gradually along a direction away from the conveyor belt 32.

By arranging the cutting 531, the cutting 531 is inserted between the adjacent two collecting frames 51, and the connection of the blocking piece 53 and the adjacent two collecting frames 51 is realized; by providing two inclined blocking pieces 532, when the powder falls onto the blocking pieces 532, the powder slides along the inclined surfaces of the blocking pieces 532 to the adjacent two collecting frames 51, and the powder is prevented from accumulating on the blocking pieces 532.

In one embodiment, the recovery assembly 5 further includes at least one handle 54, and the handle 54 is disposed at a longitudinal end of the collection frame 51 and is connected to the collection frame 51. It should be understood that the number of handles 54 provided on each collection frame 51 may be one, two, three, etc., and in one embodiment, the number of handles 54 provided on each collection frame 51 is one, and the handles 54 are provided at the lower end of the collection frame 51.

By providing the handle 54, the collection frame 51 is conveniently dragged to slide relative to the frame 31, and the collection frame 51 is conveniently removed from the frame 31.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. A cyclic refinement system, comprising:

the separation sieve is used for sieving materials and is provided with a feed inlet, a large material outlet and a small material outlet;

the crusher is used for crushing materials;

the conveying assembly comprises a frame and a conveying belt connected with the frame, wherein the feeding end of the conveying belt is communicated with the large material outlet, and the discharging end of the conveying belt is communicated with the feeding end of the crusher;

the feeding end of the lifting machine is communicated with the discharging port of the crusher, and the discharging end of the lifting machine is communicated with the feeding port of the separation sieve;

the recycling assembly comprises at least two collecting frames, wherein at least two collecting frames are arranged below the conveying belt in parallel and are detachably connected with the frame, and a collecting groove for collecting materials is formed on one side, facing the conveying belt, of each collecting frame.

2. The circulating refining system of claim 1, wherein the collection frame is gradually sloped downwardly in a direction toward the feed end of the conveyor belt.

3. The circulating refining system of claim 2, wherein the frame is formed with a mounting location arranged obliquely, and the collecting frame is slidably inserted into the mounting location.

4. A cycle refinement system according to claim 3 wherein the recovery assembly further comprises a plurality of connectors, a plurality of said connectors respectively connecting at least two of said collection frames, said connectors being detachably connected to the frame for limiting sliding movement of the collection frames relative to the frame.

5. The cycle refinement system of claim 4, wherein said connection is hooked to said frame.

6. The circulating refining system of claim 5, wherein the connecting member comprises a first hook, a connecting portion and a second hook connected in sequence, the first hook is hooked with the frame, and the second hook is hooked with the collecting frame.

7. The circulating refining system of claim 6, wherein the collection frame is provided with at least one bar-shaped groove, and the second hook is engaged with the bar-shaped groove.

8. The circulating refinement system of claim 1, wherein the recovery assembly further comprises a blocking member disposed on a side of the collection frame facing the conveyor belt and disposed at a seam of two adjacent collection frames for guiding material falling to the seam to slide toward the collection frames.

9. The circulating refining system of claim 8, wherein the blocking member comprises an insert and two blocking pieces, the insert is slidably inserted between two adjacent collecting frames, the two blocking pieces are disposed on one side of the blocking pieces near the conveyor belt, the two blocking pieces are disposed at an included angle, and the distance between the two blocking pieces along a direction away from the conveyor belt is gradually increased.

10. The recycling refinement system according to claim 1, wherein the recycling assembly further comprises at least two handles which are respectively provided at ends of the collecting frame in a length direction and connected to the collecting frame.