CN218609599U - Efficient crushing device for powder coating - Google Patents

Abstract

The utility model discloses a powder coating uses high-efficient breaker, powder coating uses high-efficient breaker includes frame, first box, second box, filtering mechanism and recovery mechanism, be equipped with the crushing roller in the second box for carry out the breakage to the preforming, filtering mechanism locates in the first box, recovery mechanism is including retrieving frame, hoisting assembly and upset subassembly, retrieve the frame install in the upset subassembly, hoisting assembly drive connect in the upset subassembly, through under the drive of hoisting assembly, drive the upset subassembly with retrieve the frame and remove in upper and lower direction, retrieve the frame and be in under the drive of upset subassembly, carry the insufficient preforming of breakage in the second box, carry out crushing treatment again. The utility model discloses technical scheme's high-efficient breaker is used to powder coating can carry out the secondary crushing grinding with broken incomplete powder piece for the coating raw materials can more even breakage, has improved the broken working effect of powder coating preforming.

Description

Efficient crushing device for powder coating

Technical Field

The utility model relates to a powder coating processing equipment technical field, in particular to powder coating uses high-efficient breaker.

Background

In the production process of powder coating, generally, raw materials in a molten state are tabletted by a tabletting mechanism to form continuous tabletting, and then are conveyed by a crawler mechanism to enter a crushing mechanism for crushing.

Current powder coating preforming breaker simple structure causes the preforming breakage inadequately easily, leads to some difficult powder of size or powder pieces to appear, is carrying out secondary crushing processing to powder or powder piece, generally utilizes the manual work to fall broken incomplete preforming into in the box, so, not only comparatively dangerous to influenced people's work efficiency, can't satisfy people's user demand.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high-efficient breaker is used to powder coating aims at using through the cooperation of retrieving mechanism and filter mechanism, can carry out the secondary crushing grinding with broken incomplete powder piece for paint raw materials can more even breakage, has improved the broken working effect of powder coating preforming.

In order to achieve the above object, the utility model provides a high-efficient breaker for powder coating includes:

a frame;

the first box body is arranged on the rack;

the second box body is internally provided with a crushing roller for crushing the pressing sheet, and at least part of the second box body is inserted into the first box body and is communicated with the first box body so that the crushed pressing sheet enters the first box body;

the filtering mechanism is arranged in the first box body and positioned below the crushing roller, and is used for performing vibration filtering on the crushed tablets and discharging the tablets which are not crushed sufficiently out of the first box body; and

retrieve the mechanism, retrieve the mechanism and locate one side of first box, retrieve the mechanism including retrieving frame, lifting means and upset subassembly, retrieve the frame install in the upset subassembly, the lifting means drive connect in the upset subassembly, retrieve the frame and be used for retrieving the not enough preforming of breakage after filtering, and pass through under the drive of lifting means, drive the upset subassembly with retrieve the frame and remove in the upper and lower direction, retrieve the frame and be in under the drive of upset subassembly, carry the not enough preforming of breakage in the second box, carry out crushing treatment again.

In an optional embodiment, the efficient crushing device for powder coating further comprises a feed hopper, and the feed hopper is arranged on the side surface of the second box body;

when the turnover component and the recovery frame are driven by the lifting component, the recovery frame rises to the position above the feed hopper, the turnover component drives the recovery frame to turn over into the feed hopper, so that the insufficiently crushed tablets in the recovery frame enter the second box body and are crushed.

In an optional embodiment, the overturning assembly comprises an installation frame, an overturning frame and an overturning driving piece, wherein two overturning upright columns which are arranged oppositely are installed on the installation frame; the turnover frame is provided with two oppositely arranged turnover legs, the two turnover legs are respectively hinged to the two turnover upright posts, and the recovery frame is fixedly arranged on one side of the turnover frame, which is far away from the turnover legs; one end of the overturning driving piece is connected to the mounting frame, and the other end of the overturning driving piece is movably connected to one side, deviating from the recycling frame, of the overturning frame so as to drive the overturning frame to overturn around the overturning stand column.

In an optional embodiment, the mounting frame is further provided with two fixing upright columns which are arranged oppositely, the two fixing upright columns are arranged on one sides of the two overturning upright columns, the overturning frame is further provided with two fixing feet which are arranged oppositely, and the two fixing feet are arranged on one sides of the two overturning feet;

the turnover assembly further comprises a movable locking part, one end of the movable locking part is fixed on the fixed stand column, and the other end of the movable locking part is locked on the fixed foot to fix the turnover frame on the mounting rack.

In an alternative embodiment, the movable locking member includes a locking driving member and an extension rod connected to the locking driving member, a locking hook is connected to one end of the extension rod away from the locking driving member, one end of the locking hook away from the extension rod is hinged to the fixed upright post, a locking hook hanging plate is installed on the fixed foot, and the locking hook is driven by the locking driving member to be locked or separated from the locking hook hanging plate.

In an alternative embodiment, the lifting assembly comprises:

the lifting frame is arranged on one side of the rack;

the sliding rail piece is mounted on the side face, facing the rack, of the lifting frame;

the connecting frame is movably connected to the sliding rail piece and used for placing the overturning assembly and the recovery frame; and

and the driving part is arranged on the lifting frame and is in driving connection with the connecting frame so as to drive the overturning assembly and the recovery frame to move in the up-down direction.

In an alternative embodiment, the filter mechanism comprises:

the support frame is arranged in the first box body and is arranged on the rack;

a filter element mounted on the support frame,

the vibrating piece is arranged on the filtering piece and used for driving the filtering piece to vibrate on the supporting frame so as to enable the crushed tabletting to finish the filtering operation; and

the elastic component, the one end of elastic component connect in the support frame, the other end connect in filter the piece, be used for making filter the piece and can carry out the position removal of minim.

In an alternative embodiment, the filter element comprises a filter box and a filter screen arranged in the filter box, the filter box is provided with an opening for the incompletely crushed tablets to be discharged out of the filter box, and a guide plate is arranged at the opening and used for guiding the tablets to enter the recovery frame.

In an optional embodiment, the first box further comprises a discharge bin, and the discharge bin is communicated with the filtering box to collect tablets which are screened by the filtering piece and completely crushed.

The utility model discloses a high-efficient breaker for powder coating of technical scheme includes frame, first box, second box, filtering mechanism and recovery mechanism, and the first box is installed in the frame, is equipped with the crushing roller in the second box for carrying out the breakage to the preforming, and at least part of the second box is pegged graft in the first box, and is communicated with the first box to make the preforming after the breakage enter into the first box; the filtering mechanism is arranged in the first box body and is positioned below the crushing roller so as to be used for carrying out vibration filtering on the crushed pressing sheets and discharging the pressing sheets which are not crushed fully out of the first box body; retrieve the mechanism and locate one side of first box, retrieve the mechanism including retrieving the frame, lifting unit and upset subassembly, retrieve the frame and install in the upset subassembly, lifting unit drive is connected in the upset subassembly, retrieve the frame and be used for retrieving the broken insufficient preforming after filtering, and under the drive through the lifting unit, drive upset subassembly and retrieve the frame and move in the upper and lower direction, retrieve the frame under the drive of upset subassembly, carry the second box with broken insufficient preforming in, carry out crushing treatment again. Through the cooperation of retrieving mechanism and filter mechanism and using, can carry out the secondary crushing grinding with broken incomplete powder piece for coating raw materials can more even breakage, improved the broken working effect of powder coating preforming.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the efficient crushing device for powder coating according to the present invention;

FIG. 2 is a schematic view of the efficient crushing apparatus for powder coating shown in FIG. 1 from another perspective;

FIG. 3 is a schematic view showing the construction of an inverting assembly of the high-efficiency crushing apparatus for powder coating material shown in FIG. 1;

FIG. 4 is an enlarged view at A of FIG. 3;

FIG. 5 is a schematic diagram of the inverted construction of the inversion assembly shown in FIG. 3;

FIG. 6 is a schematic view showing a structure of a lifting assembly of the high-efficiency crushing apparatus for powder coating material shown in FIG. 1;

fig. 7 is a schematic view showing an installation structure of a filter mechanism and a first tank in the high-efficiency crushing apparatus for powder coating shown in fig. 1.

The reference numbers indicate:

the realization, the functional characteristics and the advantages of the utility model are further explained by combining the embodiment and referring to the attached drawings.

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 only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, back, 8230; \8230;) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a powder coating uses high-efficient breaker aims at using through the cooperation of retrieving mechanism and filtering mechanism, can carry out the secondary crushing grinding with broken incomplete powder piece for paint raw materials can more even breakage, has improved the broken working effect of powder coating preforming.

Referring to fig. 1 to fig. 7, a specific structure of the high-efficiency crushing device for powder coating provided by the present invention will be described in the following embodiments, and in one embodiment of the present invention, the high-efficiency crushing device 100 for powder coating provided by the present invention includes:

a frame 10;

a first case 20, the first case 20 being mounted on the frame 10;

a crushing roller is arranged in the second box body 30 and is used for crushing the pressed sheet, at least part of the second box body 30 is inserted in the first box body 20 and is communicated with the first box body 20, so that the crushed pressed sheet enters the first box body 20;

the filtering mechanism 40 is arranged in the first box body 20 and is positioned below the crushing roller, so as to carry out vibration filtering on the crushed tablets and discharge the insufficiently crushed tablets out of the first box body 20; and

retrieve mechanism 50, retrieve mechanism 50 and locate one side of first box 20, retrieve mechanism 50 including retrieving frame 501, lifting means 502 and upset subassembly 503, retrieve frame 501 and install in upset subassembly 503, lifting means 502 drive connection is in upset subassembly 503, retrieve frame 501 and be used for retrieving the not enough preforming of breakage after filtering, and under the drive through lifting means 502, drive upset subassembly 503 and retrieve frame 501 and move in the upper and lower direction, retrieve frame 501 under the drive of upset subassembly 503, carry the not enough preforming of breakage in the second box 30, carry out crushing treatment again, cooperation through retrieving mechanism 50 and filter mechanism 40 is used, can carry out the secondary crushing grinding with the incomplete powder piece of breakage, make the more even breakage of coating raw materials, the broken working effect of powder coating preforming has been improved.

Known, in powder coating production process, generally be with the raw materials of molten state behind the preforming mechanism preforming, form continuous preforming, pass through the crawler and transmit the broken mechanism of entering again and carry out the breakage. Powder coating breaker accomplishes the breakage to the preforming mainly through the crushing roller, can be provided with two with the crushing roller to interlock each other between two crushing rollers, and rotate through two crushing rollers of motor drive, so that broken rail will the preforming breakage at rotatory in-process.

Specifically, the first box 20 is arranged on the rack 10, at least part of the second box 30 is inserted into the first box 20, the second box 30 is communicated with the first box 20, so that crushed tablets enter the first box 20, in order to screen the crushed tablets, the filtering mechanism 40 is arranged in the first box 20, the filtering mechanism 40 is arranged below the crushing roller, so that the crushed tablets are filtered by the filtering mechanism 40, the crushed tablets are filtered by the filtering mechanism 40 and discharged out of the first box 20, the tablets which are not crushed sufficiently are discharged out of the first box 20, and the next step is carried out.

Further, in order to facilitate the secondary crushing of the tablets which are incompletely crushed, the recovery mechanism 50 is arranged on one side of the first box 20, the recovery mechanism 50 comprises a recovery frame 501, a lifting assembly 502 and a turnover assembly 503, the recovery frame 501 is mounted on the turnover assembly 503, the lifting assembly 502 is connected to the turnover assembly 503 in a driving mode, the recovery frame 501 is used for recovering the tablets which are insufficiently crushed after filtration, when the tablets which are incompletely crushed pass through the filtering mechanism 40 and enter the recovery frame 501, the turnover assembly 503 and the recovery frame 501 are driven by the lifting assembly 502 to move in the up-and-down direction, the recovery frame 501 is driven by the turnover assembly 503 to convey the tablets which are insufficiently crushed into the second box 30, and then crushing is performed, so that the tablets are crushed fully and uniformly, and the working efficiency is improved.

It should be noted that the tablets to be crushed or the tablets that are not crushed can be introduced into the second housing 30 through the lifting assembly 502 and the flipper.

Referring to fig. 1 and 2, in an alternative embodiment, the efficient crushing device for powder coating further includes a feeding hopper 60, and the feeding hopper 60 is disposed on a side surface of the second box 30, so as to facilitate feeding of tablets;

when the turnover component 503 and the recovery frame 501 are driven by the lifting component 502, and the recovery frame 501 rises above the feed hopper 60, the turnover component drives the recovery frame to turn over into the feed hopper, so that the insufficiently crushed tablets in the recovery frame 501 enter the second box body 30 and are crushed. The feed hopper 60 is provided on the side of the second casing 30, and both the tablets to be crushed and the tablets which are not crushed can enter the second casing 30 through the feed hopper 60 and be crushed by the crushing roller.

Referring to fig. 3 and 4, in an alternative embodiment, the turning assembly 503 includes a mounting bracket 5031, a turning bracket 5033 and a turning driving member 5037, and two opposite turning columns 5032 are mounted on the mounting bracket 5031; the roll-over stand 5033 is provided with two roll-over legs 5034 which are arranged oppositely, the two roll-over legs 5034 are respectively hinged to the two roll-over upright posts 5032, and the recovery frame 501 is fixedly arranged at one side of the roll-over stand 5033 away from the roll-over legs 5034; one end of the turning driving member 5037 is connected to the mounting frame 5031, and the other end of the turning driving member 5037 is movably connected to a side of the turning frame 5033 away from the recovery frame 501, so as to drive the turning frame 5033 to turn around the turning column 5032, drive the turning member to turn over through the turning driving member 5037, and turn over the recovery frame 501 arranged on the turning frame 5033, so that the pressed sheets in the recovery frame 501 are sent into the second box body 30 again to be crushed for the second time, which is convenient for use.

Specifically, when the recycling bin 501 is lifted to the feeding hopper 60 by the lifting assembly 502, in order to pour the materials in the recycling bin 501 into the second box 30, the lifting assembly 502 is provided with the turning assembly 503, the turning assembly 503 comprises a mounting frame 5031, a turning frame 5033 and a turning driving member 5037, and the connection between the turning foot 5034 and the turning upright 5032 is hinged, so that when the turning driving member 5037 drives the turning member, the turning member can be turned around the turning upright 5032, and the turning of the recycling bin 501 can be realized. It will be appreciated that the number of the swivel feet 5034 is the same as the number of the swivel posts 5032, and that each swivel foot 5034 is hingedly connected to each swivel post 5032.

The tumble drive 5037 may be a drive motor or a drive cylinder, as desired. Similarly, the recycling frame 501 can be fixedly mounted on the roll-over stand 5033 by welding or the like.

Referring to fig. 3 and 4, in an alternative embodiment, the mounting bracket 5031 further has two opposite fixing posts 5038, the two fixing posts 5038 are disposed on one side of the two turning posts 5032, the turning bracket 5033 further has two opposite fixing legs 5035, and the two fixing legs 5035 are disposed on one side of the two turning legs 5034; the turning assembly 503 further comprises a movable locking member 5039, one end of the movable locking member 5039 is fixed on the fixed upright 5038, and the other end of the movable locking member 5039 is locked on the fixed leg 5035 to fix the roll-over stand 5033 on the mounting bracket 5031, so that the roll-over stand 5033 can be stably locked on the mounting bracket 5031 when the roll-over stand 5033 does not need to be turned over by installing the movable locking member 5039 on the fixed upright 5038, thereby ensuring that the recycling frame 501 can be stably mounted on the mounting bracket 5031.

Specifically, in order to realize stable connection between the mounting bracket 5031 and the roll-over stand 5033, a movable locking piece 5039 is arranged on the fixed upright 5038, when the roll-over stand 5033 returns to the original position, the fixed leg 5035 abuts against the fixed upright 5038, and one end of the movable locking piece 5039 far away from the fixed upright 5038 is locked on the fixed leg 5035, so as to ensure that the placement stability of the recycling frame 501 can be ensured when the roll-over stand 5033 does not need to be turned over. It will be appreciated that the number of fixed legs 5038 is the same as the number of fixed legs 5035, and each fixed leg 5035 is secured to the fixed leg 5038 by a respective movable locking member 5039, thereby providing a stable connection between the mounting bracket 5031 and the roll-over bracket 5033.

Referring to fig. 3 and 5, in an alternative embodiment, the movable locking member 5039 includes a locking driving member 5039a and an extending rod 5039b connected to the locking driving member 5039a, the extending rod 5039b is connected to a locking hook 5039c at an end away from the locking driving member 5039a, the locking hook 5039c is hinged to the fixing post 5038 at an end away from the extending rod 5039b, a locking hook hanging plate 5036 is mounted on the fixing pin 5035, and the locking hook 5039c is driven by the locking driving member 5039a to be locked to or separated from the locking hook hanging plate 5036, so as to achieve stable connection between the mounting frame 5031 and the flip-over frame 5033.

Specifically, when the roll-over stand 5033 is not turned over any more and returns to the original position, the fixing leg 5035 on the roll-over stand 5033 abuts against the fixing upright 5038 on the mounting rack 5031, and at this time, the locking driving piece 5039a drives the extending rod 5039b to extend, because one end of the locking hook 5039c is hinged to the fixing upright 5038, the locking hook 5039c is driven by the locking driving piece 5039a to approach in the direction of the locking hook hanging plate 5036, so that the locking hook 5039c is locked on the locking hook hanging plate 5036 on the fixing leg, when the roll-over stand 5033 needs to be turned over, the locking driving piece 5039a drives the extending rod 5039b to retract, because one end of the locking hook 5039c is hinged to the fixing upright 5038, the locking hook 5039c is driven by the locking driving piece 5039a to turn over in the direction away from the locking hook hanging plate 5036, so that the locking hook 5039c can be separated from the locking hook hanging plate 5036. It should be noted that the locking driving member 5039a can be a driving motor or a driving cylinder.

Referring to fig. 6, in an alternative embodiment, the lifting assembly 502 includes a lifting frame 5021, a sliding rail piece 5022, a connecting frame 5023 and a driving piece 5024, wherein the lifting frame 5021 is disposed on one side of the rack 10; the sliding rail piece 5022 is mounted on the side of the lifting frame 5021 facing the rack 10; the connecting frame 5023 is movably connected with the sliding rail piece 5022 and used for placing the turnover assembly 503 and the recovery frame 501; the driving component 5024 is installed on the lifting frame 5021 and is connected to the connecting frame 5023 in a driving manner so as to drive the turning component 503 and the recycling frame 501 to move in the up-and-down direction, the driving component 5024 drives the connecting frame 5023 to move on the sliding rail piece 5022 and drive the turning component 503 and the recycling frame 501 to move on the sliding rail piece 5022, so that the pressed sheets in the recycling frame 501 can rise above the feeding hopper 60, and the pressed sheets in the recycling frame 501 can be smoothly poured onto the feeding hopper 60 in the turning process of the turning frame 5033. It can be understood that a transmission screw is further disposed on the lifting frame 5021, the conveying end of the driving part 5024 is drivingly connected to the transmission screw, and the connecting frame 5023 is mounted on the transmission screw, so that when the driving part 5024 drives the transmission screw, the connecting frame 5023 can be driven to move on the sliding rail piece 5022.

Referring to fig. 7, in an alternative embodiment, the filtering mechanism 40 includes a supporting frame 401, a filtering member 402, a vibrating member and an elastic member 405, the supporting frame 401 is disposed in the first box 20 and is mounted on the frame 10; the filter element 402 is arranged on the support frame 401, and the vibrating element is arranged on the filter element 402 and is used for driving the filter element 402 to vibrate on the support frame 401, so that the crushed tabletting can complete the filtering operation; the elastic member 405 has one end connected to the support frame 401 and the other end connected to the filter member 402 for allowing the filter member 402 to perform a small range of positional movement. Through the vibrating part, can conveniently drive and filter piece 402 and vibrate from top to bottom, and then conveniently filter the preforming after the breakage to accomplish filtering operation, facilitate the use.

Specifically, filter piece 402 passes through the support piece and installs in frame 10, and broken pressure drops on filtering piece 402 through second box 30, and filter piece 402 filters broken preforming through the vibrating piece, and, filter piece 402 is the slope form, and when broken incomplete preforming in-process of filtering piece 402 vibration, move to the lower one end of filtering piece 402 to discharge on setting up the recovery frame 501 outside first box 20.

With continued reference to fig. 7, in an alternative embodiment, the filter element 402 includes a filter housing 4021 and a filter screen 4023 installed in the filter housing 4021, the filter housing 4021 has an opening 4022 for the incompletely crushed tablets to exit the filter housing 4021, a baffle 403 is disposed at the opening 4022, the baffle 403 is used for guiding the tablets to enter the recycling frame 501, and the incompletely crushed tablets move to an end near the baffle 403 during the vibration of the filter element 402 and enter the recycling frame 501 through the baffle 403.

Referring to fig. 1 and fig. 2, in an alternative embodiment, the first box further includes a discharging bin 70, the discharging bin 70 is communicated with the filtering box 4021 to collect tablets that are completely crushed after being filtered, and the discharging bin 70 is provided to facilitate collection of the crushed tablets and to facilitate use.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (9)

1. A high-efficiency crushing device for powder coating is characterized by comprising:

a frame;

the first box body is arranged on the rack;

the crushing roller is arranged in the second box body and is used for crushing the pressing sheet, and at least part of the second box body is inserted into the first box body and is communicated with the first box body so that the crushed pressing sheet enters the first box body;

the filtering mechanism is arranged in the first box body and is positioned below the crushing roller, so that the filtering mechanism is used for performing vibration filtering on the crushed tabletting and discharging the insufficiently crushed tabletting out of the first box body; and

retrieve the mechanism, retrieve the mechanism and locate one side of first box, retrieve the mechanism including retrieving frame, lifting means and upset subassembly, retrieve the frame install in the upset subassembly, the lifting means drive connect in the upset subassembly, retrieve the frame and be used for retrieving the not enough preforming of breakage after filtering, and pass through under the drive of lifting means, drive the upset subassembly with retrieve the frame and remove in the upper and lower direction, retrieve the frame and be in under the drive of upset subassembly, carry the not enough preforming of breakage in the second box, carry out crushing treatment again.

2. The efficient crushing device for powder coating of claim 1, further comprising a feed hopper provided at a side of the second casing;

when the turnover component and the recovery frame are driven by the lifting component, the recovery frame rises to the position above the feed hopper, the turnover component drives the recovery frame to turn over into the feed hopper, so that the insufficiently crushed tablets in the recovery frame enter the second box body and are crushed.

3. The efficient crushing device for the powder coating of claim 2, wherein the overturning assembly comprises a mounting frame, an overturning frame and an overturning driving piece, and two overturning upright columns which are oppositely arranged are mounted on the mounting frame; the turnover frame is provided with two oppositely arranged turnover legs, the two turnover legs are respectively hinged to the two turnover upright posts, and the recovery frame is fixedly arranged on one side of the turnover frame, which is far away from the turnover legs; one end of the overturning driving piece is connected to the mounting frame, and the other end of the overturning driving piece is movably connected to one side, deviating from the recycling frame, of the overturning frame so as to drive the overturning frame to overturn around the overturning stand column.

4. The efficient crushing device for the powder coating of claim 3, wherein the mounting frame is further provided with two fixing upright columns which are oppositely arranged and arranged on one side of the two overturning upright columns, the overturning frame is further provided with two fixing feet which are oppositely arranged and arranged on one side of the two overturning feet;

the turnover assembly further comprises a movable locking piece, one end of the movable locking piece is fixed on the fixed stand column, and the other end of the movable locking piece is locked on the fixed foot to fix the turnover frame on the mounting frame.

5. A high-efficiency crushing device for powder coating as claimed in claim 4, wherein the movable locking member comprises a locking driving member and an extension rod connected to the locking driving member, the extension rod is connected with a locking hook at one end far away from the locking driving member, the locking hook is hinged to the fixed upright at one end far away from the extension rod, a locking hook hanging plate is installed on the fixed foot, and the locking hook is driven by the locking driving member to be locked or separated from the locking hook hanging plate.

6. A high efficiency breaking apparatus for powder coating material as claimed in any one of claims 1 to 5, wherein the lifting assembly comprises:

the lifting frame is arranged on one side of the rack;

the sliding rail piece is mounted on the side face, facing the rack, of the lifting frame;

the connecting frame is movably connected to the sliding rail piece and used for placing the overturning assembly and the recovery frame; and

the driving piece is installed on the lifting frame and is in driving connection with the connecting frame so as to drive the overturning assembly and the recovery frame to move in the up-down direction.

7. A high efficiency breaking apparatus for powder coating material as claimed in any one of claims 1 to 4, wherein said filtering means comprises:

the support frame is arranged in the first box body and is arranged on the rack;

a filter element mounted on the support frame,

the vibrating piece is arranged on the filtering piece and used for driving the filtering piece to vibrate on the supporting frame so as to enable the crushed tabletting to finish the filtering operation; and

the elastic piece, the one end of elastic piece connect in the support frame, the other end connect in filter the piece, be used for making filter the piece and can carry out the position of minim and remove.

8. A high-efficiency crushing device for powder coating material as claimed in claim 7, wherein the filter member comprises a filter housing and a filter net installed in the filter housing, the filter housing has an opening for the incompletely crushed tablets to exit the filter housing, and a guide plate is provided at the opening for guiding the tablets into the recycling frame.

9. A high efficiency crusher for powder coating material as claimed in claim 8, wherein said first housing further comprises a discharge bin, said discharge bin communicating with said filter housing for collecting the tablets after being filtered by said filter element and completely crushed.

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