CN114950656A - Crushing process for processing raw materials of wave wall panel - Google Patents

Abstract

The invention relates to a crushing process for processing raw materials of a wave wall panel, which comprises a collecting frame, a supporting frame and a crushing device, wherein the collecting frame is of a cylindrical structure, the section of the collecting frame is of a U-shaped structure, the supporting frame is uniformly arranged at the lower end of the collecting frame, and the crushing device is arranged at the upper end of the collecting frame through screws. The crushing cutter can continuously crush the raw materials, further realize the function of crushing the raw materials, and can sieve and filter the cut and crushed raw materials, so that the raw materials are prevented from being accumulated on the surface of the screen, and the processing efficiency of the raw materials is improved.

Description

Crushing process for processing raw materials of wave wall panel

Technical Field

The invention relates to the field of wallboard processing, in particular to a crushing process for processing a wave wallboard raw material.

Background

The wall panel is very common in daily life, has the advantages of light weight, high strength, good impact resistance, good water resistance, good durability and the like, saves raw materials, has simple forming process, can be used for manufacturing various external wall panels, internal wall decorative panels, household partition wall panels, roof panels, movable house components, permanent templates, ceilings, balcony breast boards, simple houses and other products with complex shapes, and has increasingly depended on the wall panel in the life of people.

In the existing crushing equipment for wave wall panel raw materials, for example, chinese patent with publication number CN211514675U, it discloses an integrated wall panel raw material crushing device, specifically, integrated wall panel raw materials are coarsely crushed by two coarse crushing rollers, the crushed materials after coarse crushing will enter into the inside of a "U" shaped groove, and are finely crushed by the rotation of the fine crushing roller, the crushed materials after fine crushing enter into the gap between a conical groove and a conical grinding rod, the rotating shaft is driven to rotate by a driving motor, so as to drive the conical grinding rod to rotate, the crushed materials are ground, the crushed materials after grinding fall onto a filter plate, the qualified crushed materials will fall through a filter hole, and then come out from a discharge port, the unqualified crushed materials will be gathered at a impurity outlet, the unqualified crushed materials are conveyed to the top end by a material conveying device, and then slide down to the inside of the feed port from a connecting plate, pulverizing again until qualified.

In the prior art, the raw materials are firstly crushed and then collected in a filtering mode, but on the first hand, the crushing device in the prior art is used for conveying the raw materials from top to bottom, and the coarse crushing roller and the fine crushing roller can only crush the raw materials once and then move downwards, so that the raw materials cannot be fully crushed, and even if the material conveying device is arranged in the prior art, the working efficiency of the equipment can be greatly reduced; in the second aspect, the raw materials after the aforesaid prior art breakage is directly on the filter that the slope set up, and qualified crushed aggregates will fall through the filtration pore, but the accumulational phenomenon of raw materials is not considered in above-mentioned prior art, works for a long time when the crushing roller, and the raw materials may be piled up on the filter, influences the follow-up result of use of filter, based on this, on current crushing apparatus's technique, also can improve the space.

Disclosure of Invention

In order to realize the shredding process to wave dado raw materials, guarantee that the raw materials after smashing accord with the user demand, this application provides a shredding process is used in wave dado raw materials processing.

The application provides a crushing technology for processing wave dado raw materials adopts following technical scheme.

The utility model provides a wave dado raw materials processing is with smashing technology, this wave dado raw materials processing is with smashing technology adopts following processing equipment, and this processing equipment is including collecting frame, support frame and reducing mechanism, collection frame be the tubular structure, collect the frame cross-section and be U type structure, collect the frame lower extreme and evenly install the support frame, collect the frame upper end and have reducing mechanism through the screw installation.

The reducing mechanism include casing frame, drive unit, feed unit, broken unit and selection material unit, the casing frame be round platform shape structure, casing frame middle part is equipped with drive unit, the drive unit lower extreme is installed and is being collected inside the frame, feed unit is installed to casing frame upper end, the feed unit middle part is connected with the drive unit upper end, casing frame mid-mounting has broken unit, the broken unit middle part is connected with drive unit, the selection material unit is installed to the inside lower extreme of casing frame, selection material unit middle part is connected with drive unit.

The crushing unit comprises a rotating frame, a material turning plate, an arc-shaped frame and a crushing cutter, wherein the rotating frame is arranged in the middle of the shell frame and is of a conical structure, the material turning plate is uniformly arranged on the outer side surface of the rotating frame and is of a rectangular structure, the arc-shaped frame is arranged on the inner wall of the shell frame through screws, the cross section of the arc-shaped frame is of a U-shaped structure, and the crushing cutter is uniformly arranged on the inner side surface of the arc-shaped frame.

The selecting unit include baffle, screening module, connecting rod and rotating turret, the inside lower extreme of casing frame install the baffle, evenly be provided with the arc wall on the baffle, install the screening module in the arc wall, the baffle lower extreme evenly is provided with the connecting rod, the connecting rod inboard is connected with drive unit through the connecting seat, the rotating turret is installed in the connecting rod outside.

The crushing process for processing the raw materials of the wave wall panel comprises the following steps:

s1, removing impurities from wood fibers: removing impurities such as broken stones, scrap iron and the like in the wood fiber raw material in a winnowing filtering mode;

s2, collecting raw materials: bagging and collecting the wood fiber raw material subjected to air separation in the step S1;

s3, crushing: the raw materials in the step S2 are filled into the shell frame through the feeding unit, the driving unit uniformly crushes the raw materials through the crushing unit, and the material turning plate can drive the raw materials to turn upwards, so that the material selecting unit can perform vibration screening on the crushed raw materials;

s4, cooling: and (4) cooling the crushed raw material in the step (S3) in an air cooling mode, and bagging and collecting the cooled raw material.

Preferably, the drive unit comprises a drive motor and a rotating shaft, the drive motor is installed in the collection frame through a motor base, the rotating shaft is installed on an output shaft of the drive motor, and the upper end of the rotating shaft is located in the middle of the shell frame.

Preferably, the feeding unit comprises a feeding frame and a feeding plate, the feeding frame is installed at the upper end of the shell frame, a feeding groove is formed in the middle of the upper end of the feeding frame, the feeding plate is evenly arranged in the middle of the feeding groove, the feeding plate is installed at the upper end of the driving unit, and the feeding plate is of an inclined structure.

Preferably, the screening module include screen frame, guide arm and expanding spring, the inside screen frame that is provided with of arc wall, screen frame middle part is provided with the filter screen, the guide arm is installed to screen frame lower extreme symmetry, the guide arm is connected with the baffle through sliding fit's mode, is equipped with expanding spring on the guide arm, the guide arm lower extreme is glossy arcwall face.

Preferably, the distance between the material turning plate and the arc-shaped frame is gradually reduced from top to bottom, and the material turning plate is uniformly provided with cutting knife grooves matched with the crushing tools, so that the crushing tools can accurately crush the raw materials, and the follow-up processing of the wall panel is facilitated.

Preferably, the rotating turret be the arc structure, the symmetry is provided with the guide way on the rotating turret, the guide way middle part is the protruding structure that makes progress, the guide way surface is the smooth surface, the guide way can drive the reciprocal vibration of screening module, improves the screening efficiency of screening module.

Preferably, the middle part of the rotating frame is uniformly provided with the cleaning brush, the surface of the cleaning brush is provided with the bristles, and the bristles can play a role in dredging and prevent impurities from blocking meshes of the screen.

(III) advantageous effects

1. In order to ensure that the raw materials can be cut and crushed uniformly, the distance between the material turning plate and the arc-shaped frame from top to bottom is gradually reduced, the material turning plate is uniformly provided with cutting knife grooves matched with the crushing knife, when the material turning plate drives the raw materials to turn, the raw materials at the positions of the cutting knife grooves can be accurately contacted with the crushing knife, and when the raw materials move downwards gradually, the crushing knife can continuously crush the raw materials, so that the function of crushing the raw materials can be realized;

2. in order to prevent the crushed raw materials from being accumulated on the screen frame, the rotating frame is arranged to be of an arc-shaped structure, the rotating frame is symmetrically provided with guide grooves, the middle parts of the guide grooves are of an upward convex structure, the surfaces of the guide grooves are smooth surfaces, when the guide rods slide in the guide grooves, the convex structures can drive the screen frame to move upwards through the guide rods, the guide grooves can drive the screening module to vibrate in a reciprocating mode, the telescopic springs play a role in resetting, and the screening efficiency of the screening module is improved;

3. in order to prevent the raw materials from blocking meshes on the screen frame in the screening process, the cleaning brushes are uniformly arranged in the middle of the rotating frame and are detachably mounted, so that the cleaning brushes can be conveniently detached and replaced, the brush bristles are arranged on the surfaces of the cleaning brushes and are made of elastic materials, the brush bristles can play a role in dredging, and when the brush bristles rotate, the brush bristles can effectively dredge the blocked screen frame.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is a schematic sectional view of the crushing apparatus according to the present invention;

figure 5 is a schematic view of the cross-section between the partition and the screening module according to the invention;

FIG. 6 is a schematic cross-sectional view of the housing frame and the turret of the present invention;

fig. 7 is a schematic view of the structure between the rotating frames of the present invention.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a crushing process for processing wave panel raw materials, which can accurately realize the accurate cutting and crushing functions of the wave panel raw materials.

The first embodiment is as follows:

as shown in fig. 1, for the crushing process for wave dado raw material processing that this embodiment discloses, this crushing process for wave dado raw material processing adopts following processing equipment, and this processing equipment is including collecting frame 1, support frame 2 and reducing mechanism 3, collection frame 1 be the cylindrical structure, collect 1 cross-section of frame and be U type structure, collect 1 lower extreme of frame and evenly install support frame 2, collect 1 upper end of frame and have reducing mechanism 3 through the screw installation.

For the convenience of the raw materials after smashing collect, collect 1 inside baffles that are provided with of frame in this embodiment, the baffle upper end evenly is provided with the surge drum, and the surge drum evenly arranges on the baffle, and the raw materials after smashing evenly drops at the surge drum middle part.

As shown in fig. 3, the crushing device 3 includes a housing frame 31, a driving unit 32, a feeding unit 33, a crushing unit 34 and a material selecting unit 35, the housing frame 31 is in a truncated cone shape, the driving unit 32 is arranged in the middle of the housing frame 31, the lower end of the driving unit 32 is installed inside the collecting frame 1, the feeding unit 33 is installed at the upper end of the housing frame 31, the middle of the feeding unit 33 is connected with the upper end of the driving unit 32, the crushing unit 34 is installed in the middle of the housing frame 31, the middle of the crushing unit 34 is connected with the driving unit 32, the material selecting unit 35 is installed at the lower end inside the housing frame 31, and the middle of the material selecting unit 35 is connected with the driving unit 32.

In the in-service use process, the manual work sends into the casing frame 31 through the feed unit 33 with the wood fibre raw materials of treating processing inside, and drive unit 32 evenly smashes the raw materials through crushing unit 34, and the unit 35 of selecting materials can sieve the raw materials after smashing effectively, guarantees that the raw materials after smashing accords with the user demand.

As shown in fig. 3, the driving unit 32 includes a driving motor 321 and a rotating shaft 322, the collecting frame 1 is internally provided with the driving motor 321 through a motor base, the rotating shaft 322 is mounted on an output shaft of the driving motor 321, the upper end of the rotating shaft 322 is located in the middle of the housing frame 31, and the driving motor 321 drives the feeding unit 33, the crushing unit 34 and the material selecting unit 35 to synchronously rotate through the rotating shaft 322, so as to facilitate the crushing of the raw materials.

In order to prevent raw materials from being accumulated in the feeding hole at the upper end of the shell frame 31, the feeding unit 33 is arranged in the embodiment, the feeding unit 33 comprises a feeding frame 331 and a feeding plate 332, the feeding frame 331 is arranged at the upper end of the shell frame 31, a feeding groove is formed in the middle of the upper end of the feeding frame 331, the feeding plate 332 is uniformly arranged in the middle of the feeding groove, the feeding plate 332 is arranged at the upper end of the driving unit 32, the feeding plate 332 is of an inclined structure, and the feeding plate 332 can drive the raw materials to be dispersed to prevent the raw materials from being accumulated.

As shown in fig. 4, in order to crush and cut the raw material, the crushing unit 34 is provided in this embodiment, the crushing unit 34 includes a rotating frame 341, a material turning plate 342, an arc-shaped frame 343 and crushing cutters 344, the rotating frame 341 is provided in the middle of the housing frame 31, the rotating frame 341 is in a conical structure, the material turning plate 342 is uniformly installed on the outer side surface of the rotating frame 341, the material turning plate 342 is in a rectangular structure, the arc-shaped frame 343 is installed on the inner wall of the housing frame 31 through screws, the cross section of the arc-shaped frame 343 is in a U-shaped structure, and the crushing cutters 344 are uniformly installed on the inner side surface of the arc-shaped frame 343.

In the in-service use process, when the rotating turret 341 rotates, the rotating turret 341 can drive the material turning plate 342 to rotate synchronously, the material turning plate 342 can upwards turn over the incompletely-crushed raw materials, and the material turning plate 342 can drive the raw materials to rotate simultaneously, so that the raw materials can effectively contact with the crushing cutter 344, the crushing cutter 344 can effectively crush the raw materials, and the crushing effect of the raw materials is ensured.

In order to ensure that the raw material can be cut and crushed uniformly, the distance between the material turning plate 342 from top to bottom and the arc-shaped frame 343 in the embodiment is gradually reduced, the material turning plate 342 is uniformly provided with cutting knife grooves matched with the crushing knives 344, when the material turning plate 342 drives the raw material to turn, the raw material at the position of the cutting knife groove can be accurately contacted with the crushing knives 344, and when the raw material moves downwards gradually, the crushing knives 344 can continuously crush the raw material, thereby realizing the function of crushing the raw material.

The material turning plate 342 can drive the unfiltered raw materials to turn upwards, so that the raw materials are prevented from being accumulated above the material selecting unit 35, and the crushed raw materials are screened.

Example two:

referring to fig. 4 to 7, in addition to the first embodiment, in order to filter and collect the cut and crushed raw materials and prevent the raw materials from being accumulated, a corresponding material selecting unit 35 is provided in the second embodiment.

As shown in fig. 4, the sorting unit 35 includes a partition 351, a screening module 352, a connecting rod 353 and a rotating frame 354, the partition 351 is installed at the lower end of the inside of the casing frame 31, an arc-shaped groove is uniformly formed on the partition 351, the screening module 352 is installed in the arc-shaped groove, the connecting rod 353 is uniformly arranged at the lower end of the partition 351, the inner side of the connecting rod 353 is connected with the driving unit 32 through a connecting seat, and the rotating frame 354 is installed at the outer side of the connecting rod 353.

In the actual use process, when the rotating frame 354 rotates, the guide groove 3541 on the rotating frame 354 can drive the screening module 352 to vibrate up and down in a reciprocating manner, so that the raw materials stacked on the screening module 352 can vibrate up and down, and the raw materials can be sufficiently filtered.

As shown in fig. 4, in order to accurately improve the screening effect of the pulverized raw material, a screening module 352 is provided in this embodiment, the screening module 352 includes a screen frame 3521, a guide rod 3522 and a telescopic spring 3523, the screen frame 3521 is provided inside the arc-shaped groove, a filter screen is provided in the middle of the screen frame 3521, the guide rod 3522 is symmetrically installed at the lower end of the screen frame 3521, the guide rod 3522 is connected with the partition 351 in a sliding fit manner, the telescopic spring 3523 is provided on the guide rod 3522, and the lower end of the guide rod 3522 is a smooth arc-shaped surface.

In the in-service use process, rotating turret 354 can drive guide arm 3522 up-and-down motion, and expanding spring 3523 plays the effect that resets for screen frame 3521 can be through guide arm 3522 reciprocating vibration, does benefit to the raw materials on screen frame 3521 and carries out vibratory screening, improves screen frame 3521's screening efficiency.

It should be noted that, the screen frame 3521 is detachably connected, and a screen with a corresponding size is selected according to the fineness required by the raw material processing, so that the raw material can be accurately filtered by the vertical vibration of the screen.

As shown in fig. 7, in order to prevent the crushed raw material from being accumulated on the screen frame 3521, the rotating frame 354 is configured to have an arc-shaped structure in the present embodiment, the rotating frame 354 is symmetrically provided with guide grooves 3541, the middle portions of the guide grooves 3541 are formed to be convex upward, and the surfaces of the guide grooves 3541 are smooth surfaces.

In the actual use process, when guide rod 3522 slides in guide way 3541, protruding structure can drive screen frame 3521 upward movement through guide rod 3522, and guide way 3541 can drive screening module 352 reciprocating vibration, and expanding spring 3523 plays the effect that resets, improves screening module 352's screening efficiency.

It should be noted that when the screen frame 3521 moves up and down, the screen frame 3521 does not interfere with the material turning plate 342, and since the material turning plate 342 and the rotating frame 354 are driven coaxially, when the screen frame 3521 moves up, the screen frame 3521 is always located between the adjacent material turning plates 342.

Be provided with the elastic washer between screen frame 3521 outer end and the arc wall, when screen frame 3521 up-and-down motion, tiny raw materials can not drop in the gap between screen frame 3521 and the arc wall, avoid impurity to pile up the effect that resets that influences screen frame 3521.

In order to prevent the mesh on the screen frame 3521 from being blocked by the raw materials in the screening process, the middle of the rotating frame 354 in the embodiment is uniformly provided with a cleaning brush 3542, the cleaning brush 3542 is detachably mounted, the cleaning brush 3542 is convenient to detach and replace, the surface of the cleaning brush 3542 is provided with bristles, the bristles are made of elastic materials and can play a role in dredging, and when the bristles rotate, the bristles can effectively dredge the blocked screen frame 3521.

The crushing process for processing the raw materials of the wave wall panel comprises the following steps:

s1, removing impurities from wood fibers: removing impurities such as broken stones, scrap iron and the like in the wood fiber raw material in a winnowing filtering mode;

s2, collecting raw materials: bagging and collecting the wood fiber raw material subjected to air separation in the step S1;

s3, crushing: the raw material in the step S2 enters the inside of the shell frame 31 through the feeding unit 33, the driving unit 32 uniformly crushes the raw material through the crushing unit 34, the material turning plate can drive the raw material to turn upwards, and the material selecting unit 35 can perform vibratory screening on the crushed raw material;

s4, cooling: and (4) cooling the crushed raw material in the step (S3) in an air cooling mode, and bagging and collecting the cooled raw material.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a wave dado raw materials processing is with smashing technology, this wave dado raw materials processing is with smashing technology adopts following processing equipment, and this processing equipment is including collecting frame (1), support frame (2) and reducing mechanism (3), its characterized in that: the collecting frame (1) is of a cylindrical structure, the section of the collecting frame (1) is of a U-shaped structure, the lower end of the collecting frame (1) is uniformly provided with a supporting frame (2), and the upper end of the collecting frame (1) is provided with a crushing device (3) through a screw; wherein:

the crushing device (3) comprises a shell frame (31), a driving unit (32), a feeding unit (33), a crushing unit (34) and a material selecting unit (35), wherein the shell frame (31) is of a round table structure, the driving unit (32) is arranged in the middle of the shell frame (31), the lower end of the driving unit (32) is installed inside the collecting frame (1), the feeding unit (33) is installed at the upper end of the shell frame (31), the middle of the feeding unit (33) is connected with the upper end of the driving unit (32), the crushing unit (34) is installed in the middle of the shell frame (31), the middle of the crushing unit (34) is connected with the driving unit (32), the material selecting unit (35) is installed at the lower end inside the shell frame (31), and the middle of the material selecting unit (35) is connected with the driving unit (32);

the crushing unit (34) comprises a rotating frame (341), a material turning plate (342), an arc-shaped frame (343) and crushing cutters (344), wherein the rotating frame (341) is arranged in the middle of the shell frame (31), the rotating frame (341) is of a conical structure, the material turning plate (342) is uniformly arranged on the outer side surface of the rotating frame (341), the material turning plate (342) is of a rectangular structure, the arc-shaped frame (343) is arranged on the inner wall of the shell frame (31) through screws, the cross section of the arc-shaped frame (343) is of a U-shaped structure, and the crushing cutters (344) are uniformly arranged on the inner side surface of the arc-shaped frame (343);

the sorting unit (35) comprises a partition plate (351), a screening module (352), a connecting rod (353) and a rotating frame (354), the partition plate (351) is installed at the lower end inside the shell frame (31), arc-shaped grooves are uniformly formed in the partition plate (351), the screening module (352) is installed in the arc-shaped grooves, the connecting rod (353) is uniformly arranged at the lower end of the partition plate (351), the inner side of the connecting rod (353) is connected with the driving unit (32) through a connecting seat, and the rotating frame (354) is installed on the outer side of the connecting rod (353);

the crushing process for processing the raw materials of the wave wall panel comprises the following steps:

s1, removing impurities from wood fibers: removing impurities such as broken stones, scrap iron and the like in the wood fiber raw material in a winnowing filtering mode;

s2, collecting raw materials: bagging and collecting the wood fiber raw material subjected to air separation in the step S1;

s3, crushing: the raw materials in the step S2 enter the shell frame (31) through the feeding unit (33), the driving unit (32) uniformly crushes the raw materials through the crushing unit (34), the material turning plate can drive the raw materials to turn upwards, and the material selecting unit (35) can perform vibration screening on the crushed raw materials;

s4, cooling: and (4) cooling the crushed raw material in the step (S3) in an air cooling mode, and bagging and collecting the cooled raw material.

2. The crushing process for processing the wave wall panel raw material according to claim 1, wherein the crushing process comprises the following steps: drive unit (32) include driving motor (321) and axis of rotation (322), collection frame (1) inside install driving motor (321) through the motor cabinet, install axis of rotation (322) on the output shaft of driving motor (321), axis of rotation (322) upper end is located casing frame (31) middle part.

3. The crushing process for processing the wave wall panel raw material according to claim 1, wherein the crushing process comprises the following steps: the feeding unit (33) comprises a feeding frame (331) and a feeding plate (332), the feeding frame (331) is installed at the upper end of the shell frame (31), a feeding groove is formed in the middle of the upper end of the feeding frame (331), the feeding plate (332) is evenly arranged in the middle of the feeding groove, the feeding plate (332) is installed at the upper end of the driving unit (32), and the feeding plate (332) is of an inclined structure.

4. The crushing process for processing the wave wall panel raw material according to claim 1, wherein the crushing process comprises the following steps: screening module (352) include screen frame (3521), guide arm (3522) and expanding spring (3523), arc wall inside be provided with screen frame (3521), screen frame (3521) middle part is provided with the filter screen, guide arm (3522) are installed to screen frame (3521) lower extreme symmetry, guide arm (3522) are connected with baffle (351) through sliding fit's mode, be equipped with expanding spring (3523) on guide arm (3522), guide arm (3522) lower extreme is glossy arcwall face.

5. The crushing process for processing the wave wall panel raw material according to claim 1, wherein the crushing process comprises the following steps: the space between the material turning plate (342) and the arc-shaped frame (343) is gradually reduced from top to bottom, and cutting knife grooves matched with the crushing knife (344) are uniformly arranged on the material turning plate (342).

6. The crushing process for processing the wave wall panel raw material according to claim 1, wherein the crushing process comprises the following steps: the rotating frame (354) is of an arc-shaped structure, guide grooves (3541) are symmetrically arranged on the rotating frame (354), the middle of each guide groove (3541) is of an upward protruding structure, and the surface of each guide groove (3541) is a smooth surface.

7. The crushing process for processing the wave wall panel raw material according to claim 1, wherein the crushing process comprises the following steps: the middle part of the rotating frame (354) is uniformly provided with a cleaning brush (3542), and the surface of the cleaning brush (3542) is provided with bristles.

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