CN108581707B - Microcrystal plate edge sweeping device - Google Patents

Abstract

The invention discloses a microcrystalline plate edge sweeping device, which comprises: the frame is provided with an edge sweeping conveying platform which is used for conveying the microcrystalline plates; the first edge sweeping assembly is arranged on the frame and is arranged above the conveying platform; the first edge sweeping component comprises first edge sweeping pieces and second edge sweeping pieces which are arranged at intervals in the direction perpendicular to the conveying direction of the microcrystalline board, and the first edge sweeping pieces and the second edge sweeping pieces are used for sweeping edges of the first side edge and the second side edge of the microcrystalline board; the second edge sweeping assembly is arranged on the frame and is arranged above the conveying platform; the second edge sweeping component comprises a third edge sweeping piece and a fourth edge sweeping piece which are arranged at intervals in the conveying direction of the microcrystalline board and can do reciprocating motion in the direction perpendicular to the conveying direction of the microcrystalline board, and the third edge sweeping piece and the fourth edge sweeping piece are respectively used for sweeping edges of the third side edge and the fourth side edge of the microcrystalline board. Therefore, the four sides of the microcrystalline plate can be scanned at one time, so that the processing efficiency of the microcrystalline plate can be greatly improved.

Description

Microcrystal plate edge sweeping device

Technical Field

The invention relates to the technical field of microcrystalline plate processing, in particular to a microcrystalline plate edge sweeping device.

Background

At present, in the processing process of the microcrystalline plate, the redundant rim charge of the microcrystalline plate needs to be subjected to rim sweeping, but most of the existing microcrystalline rim sweeping devices can only sweep the two sides of the miniature plate at one time and cannot sweep the four sides; therefore, the problem of different quality of the scanned edges can be caused, and the processing efficiency of the microcrystalline plate can be greatly influenced.

Disclosure of Invention

The invention mainly aims to provide a microcrystalline plate edge sweeping device, which aims to solve the technical problem that the conventional microcrystalline plate edge sweeping device cannot sweep edges of four sides of a microcrystalline plate at one time.

In order to achieve the above object, the present invention provides a microcrystalline plate edge sweeping device, which includes:

the frame is provided with an edge sweeping conveying platform, the edge sweeping conveying platform is used for conveying the microcrystalline board, the conveying direction of the microcrystalline board is taken as a first direction, and the direction perpendicular to the conveying direction of the microcrystalline board is taken as a second direction;

the first edge sweeping assembly is arranged on the frame and is arranged above the conveying platform; the first edge sweeping component comprises a first edge sweeping piece and a second edge sweeping piece which are arranged at intervals in the second direction, and the first edge sweeping piece and the second edge sweeping piece are respectively used for sweeping edges of a first side edge and a second side edge of the microcrystalline plate, which are positioned in the second direction; and

the second edge sweeping assembly is arranged on the frame and is arranged above the conveying platform; the second edge sweeping component comprises a third edge sweeping piece and a fourth edge sweeping piece which are arranged at intervals in the first direction, the third edge sweeping piece and the fourth hairbrush can do reciprocating motion in the second direction, and the third edge sweeping piece and the fourth edge sweeping piece are respectively used for sweeping edges of the microcrystalline board on a third side edge and a fourth side edge which are positioned in the first direction.

Preferably, in the first direction, the first edge sweeping component is arranged close to the input end of the conveying platform, and the second edge sweeping component is arranged at the rear side of the first edge sweeping component; or alternatively

In the first direction, the first edge sweeping component is close to the output end of the conveying platform, and the second edge sweeping component is arranged on the front side of the first edge sweeping component.

Preferably, the first edge sweeping component further comprises a fixing frame installed on the frame, the fixing frame comprises a fixing beam arranged above the conveying platform and extending along the second direction, and the first edge sweeping piece and the second edge sweeping piece are suspended below the fixing beam.

Preferably, the second edge sweeping assembly further comprises a first driving device and a movable beam extending along the first direction, and the third edge sweeping piece and the fourth edge sweeping piece are suspended below the movable beam; the first driving device is arranged on the frame, the movable beam is arranged at the output end of the first driving device, and the first driving device drives the movable beam to reciprocate above the conveying platform in the second direction.

Preferably, the first driving device comprises a power device and a transmission assembly connected with the output end of the power device, and the fixed beam is arranged at the output end of the transmission assembly; the transmission assembly is a belt transmission assembly, a chain transmission device, a gear-rack transmission device or a screw rod transmission assembly; or alternatively

The first driving device is arranged as a cylinder, a hydraulic cylinder or a linear motor.

Preferably, the second edge sweeping assembly further comprises a guide frame mounted on the frame, the guide frame comprises a guide piece arranged above the conveying platform and extending along the second direction, and the movable beam is slidably mounted on the guide piece.

Preferably, the microcrystalline plate edge sweeping device further comprises a positioning assembly, wherein the positioning assembly is installed on the frame and arranged at the input end of the conveying platform, and the positioning assembly is used for positioning microcrystalline plates conveyed to the conveying platform.

Preferably, the positioning assembly comprises a first positioning piece and a second positioning piece which are arranged at intervals in the second direction, and a positioning space for positioning the microcrystalline plate is defined between the first positioning piece and the second positioning piece;

the side surface of the first positioning piece facing the second positioning piece is provided with a first guide section, and the first guide section is obliquely arranged towards the second positioning piece in the first direction; and/or the side surface of the second positioning piece facing the first positioning piece is provided with a second guiding section, and the second guiding section is obliquely arranged towards the first positioning piece in the first direction.

Preferably, the positions of the first positioning member and the second positioning member in the second direction are adjustable; or alternatively

The first guide section is arranged as an inclined plane or cambered surface, and/or the second guide section is arranged as an inclined plane or cambered surface.

Preferably, the microcrystalline plate edge sweeping device further comprises a collecting hopper, the collecting hopper is mounted on the frame, the collecting hopper is arranged below the conveying platform, and an inlet of the collecting hopper corresponds to an output end of the conveying platform, so that microcrystalline residue after edge sweeping is collected. Optionally, the method further comprises the step of.

According to the microcrystalline plate edge sweeping device, the first edge sweeping piece and the second edge sweeping piece are arranged at intervals in the direction perpendicular to the conveying direction of the microcrystalline plate, so that edge sweeping treatment can be carried out on the first side edge and the second side edge of the microcrystalline plate respectively; meanwhile, a third edge sweeping piece and a fourth edge sweeping piece which can do reciprocating motion in the direction perpendicular to the conveying direction of the microcrystalline plate are arranged at intervals in the conveying direction of the microcrystalline plate, and edge sweeping treatment can be respectively carried out on the third side edge and the fourth side edge of the microcrystalline plate. Therefore, the microcrystalline plate edge sweeping device can sweep four sides of the microcrystalline plate at one time, so that the processing efficiency of the microcrystalline plate can be greatly improved; and because the microcrystalline plate is conveyed in the same conveying system, the microcrystalline plate edge sweeping device is easy to control edge sweeping feed quantity of four sides of the microcrystalline plate, so that the quality of the microcrystalline plate is ensured, and the problem that the microcrystalline plate is different in size due to different edge sweeping of the microcrystalline plate in the conventional edge sweeping equipment can be solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of an embodiment of a trimming apparatus for microcrystalline sheet material according to the present invention;

FIG. 2 is a schematic view of a partial structure of the microcrystalline plate material input end of the microcrystalline plate material edge sweeping device in FIG. 1;

FIG. 3 is a schematic view of a partial structure of a middle part of the microcrystalline plate edge sweeping device in FIG. 1;

FIG. 4 is a schematic view of a partial structure of the microcrystalline plate output end of the microcrystalline plate edge sweeping device in FIG. 1;

FIG. 5 is a schematic view of the frame of FIG. 1;

FIG. 6 is a schematic view of the first edge sweeping assembly of FIG. 1;

fig. 7 is a schematic structural diagram of the second edge sweeping assembly in fig. 1.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				100	Microcrystal plate edge sweeping device	351	Guide piece
10	Rack	36	Third pressing plate
				11	Edge sweeping conveying platform	37	Fourth pressing plate
111	Second belt	40	Positioning assembly
				112	Second motor	41	First positioning piece
20	First edge sweeping assembly	411	First guide section
				21	First edge sweeping piece	42	Second positioning piece
22	Second edge sweeping piece	421	Second guide section
				23	Fixing frame	43	Positioning space
231	Fixed beam	44	First adjusting screw
				24	First pressing plate	45	Second adjusting screw
25	Second pressing plate	50	Collecting hopper
				30	Second edge sweeping assembly	60	First roller
31	Third edge sweeping piece	70	Second roller
				32	Fourth edge sweeping piece	80	Baffle plate
33	First driving device	200	Microcrystal plate
				331	First motor	201	First side edge
332	First belt	202	Second side edge
				34	Movable beam	203	Third side edge
35	Guide frame	204	Fourth side edge

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present invention, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

The invention provides a microcrystalline plate edge sweeping device which is used for carrying out edge sweeping treatment on redundant edge materials of microcrystalline plates.

In an embodiment of the present invention, as shown in fig. 1 to 7, the microcrystalline plate edge sweeping device 100 includes:

the frame 10 is provided with an edge sweeping and conveying platform 11, wherein the edge sweeping and conveying platform 11 is used for conveying the microcrystalline board 200, the conveying direction of the microcrystalline board 200 is taken as a first direction, and the direction perpendicular to the conveying direction of the microcrystalline board 200 is taken as a second direction;

the first edge sweeping assembly 20 is arranged on the frame 10 and is arranged above the conveying platform; the first edge sweeping component 20 comprises a first edge sweeping piece 21 and a second edge sweeping piece 22 which are arranged at intervals in a second direction, and the first edge sweeping piece 21 and the second edge sweeping piece 22 are respectively used for sweeping edges of a first side edge 201 and a second side edge 202 of the microcrystalline board 200, which are positioned in the second direction; and

the second edge sweeping assembly 30 is arranged on the frame 10 and is arranged above the conveying platform; the second edge sweeping component 30 comprises a third edge sweeping piece 31 and a fourth edge sweeping piece 32 which are arranged at intervals in the first direction, the third edge sweeping piece 31 and the fourth brush can do reciprocating motion in the second direction, and the third edge sweeping piece 31 and the fourth edge sweeping piece 32 are respectively used for sweeping edges of a third side 203 and a fourth side 204 of the microcrystalline board 200, which are positioned in the first direction.

Specifically, the extending direction of the first side 201 and the extending direction of the second side 202 of the microcrystalline board 200 are both consistent with the first direction, so that the first edge-sweeping member 21 and the second edge-sweeping member 22 respectively sweep the first side 201 and the second side 202 of the microcrystalline board 200. During operation, the microcrystalline sheet 200 is fixed on the conveying platform, and moves in the first direction under the driving of the conveying platform, in this process, the first edge sweeping piece 21 sweeps the first side edge 201 of the microcrystalline sheet 200, and meanwhile, the second edge sweeping piece 22 sweeps the second side edge 202 of the microcrystalline sheet 200.

Specifically, the extending direction of the third side 203 and the extending direction of the fourth side 204 of the microcrystalline board 200 are both consistent with the second direction, so that the third edge-sweeping member 31 and the fourth edge-sweeping member 32 respectively sweep the third side 203 and the fourth side 204 of the microcrystalline board 200.

In particular, the edge-sweeping member is generally configured as a soft sweep, such as a hair sweep or the like. In this embodiment, the first edge-sweeping member 21 is configured as a first hair-sweeping member, the second edge-sweeping member 22 is configured as a second hair-sweeping member, the third edge-sweeping member 31 is configured as a third hair-sweeping member, and the fourth edge-sweeping member 32 is configured as a fourth hair-sweeping member.

When the microcrystalline board 200 is fixed on the conveying platform, the conveying platform stops moving when the microcrystalline board 200 is conveyed to a preset position by the conveying platform, the microcrystalline board 200 is also fixed, and the third edge sweeping piece 31 moves from one side (such as the first side) to the other side (such as the second side) of the first side (the side where the first side 201 of the microcrystalline board 200 is located) and the second side (the side where the second side 202 of the microcrystalline board 200 is located) of the microcrystalline board 200, so as to sweep the third side 203 of the microcrystalline board 200; when the next micro sheet 200 is being scanned, the third scan edge member 31 moves from the second side to the first side of the micro sheet 200 to continue scanning the third side 203 of the next micro sheet 200. Of course, after the third edge-sweeping member 31 sweeps the third side edge 203 of the microcrystalline sheet 200, it can be directly reset, and the previous process is repeated when the next microcrystalline sheet 200 is swept.

The movement pattern of the fourth edge sweeping piece 32 is the same as or opposite to the movement pattern of the third edge sweeping piece 31. For example, when the micro sheet 200 is stationary, the fourth edge-sweeping member 32 moves from one side (e.g., the first side) to the other side (i.e., the second side) of the first side (the side where the first side 201 of the micro sheet 200 is located) of the micro sheet 200 and the second side (the side where the second side 202 of the micro sheet 200 is located) of the micro sheet 200 to sweep the fourth side 204 of the micro sheet 200; when the next micro sheet 200 is being scanned, the fourth scan edge member 32 moves from the second side of the micro sheet 200 to the first side to continue scanning the fourth side 204 of the next micro sheet 200.

For another example, when the micro sheet 200 is stationary, the fourth edge-sweeping member 32 moves from one of the first side (the side on which the first side 201 of the micro sheet 200 is located) and the second side (the side on which the second side 202 of the micro sheet 200 is located) of the micro sheet 200 (e.g., the second side) to the other side (i.e., the first side) to sweep the fourth side 204 of the micro sheet 200; when the next micro sheet 200 is being scanned, the fourth scan edge member 32 moves from the first side to the second side of the micro sheet 200 to continue scanning the fourth side 204 of the next micro sheet 200.

Similarly, after the fourth edge-sweeping member 32 sweeps the fourth side 204 of one micro-crystal plate 200, the micro-crystal plate 200 can be directly reset, and the previous process is repeated when the next micro-crystal plate 200 is swept.

It can be appreciated that the microcrystalline sheet edge sweeping device 100 of the present invention can respectively sweep the first side 201 and the second side 202 of the microcrystalline sheet 200 by arranging the first edge sweeping member 21 and the second edge sweeping member 22 at intervals in the direction perpendicular to the conveying direction of the microcrystalline sheet 200; meanwhile, the third edge sweeping piece 31 and the fourth edge sweeping piece 32 which can do reciprocating motion in the direction perpendicular to the conveying direction of the microcrystalline plate 200 are arranged at intervals in the conveying direction of the microcrystalline plate 200, and the third side edge 203 and the fourth side edge 204 of the microcrystalline plate 200 can be respectively subjected to edge sweeping treatment. Therefore, the microcrystalline plate edge sweeping device 100 can sweep four side edges of the microcrystalline plate 200 at one time, so that the processing efficiency of the microcrystalline plate 200 can be greatly improved; moreover, as the microcrystalline plate 200 is conveyed in the same conveying system, the microcrystalline plate edge sweeping device 100 is easy to control the edge sweeping feeding amount of the four sides of the microcrystalline plate 200, so that the quality of the microcrystalline plate 200 can be ensured, and the problem that the microcrystalline plate 200 is different in size due to the fact that the microcrystalline plate 200 is not swept by the existing edge sweeping equipment can be solved.

It will be appreciated that, in order to avoid the second edge-sweeping component 30 from affecting or breaking the microcrystalline sheet 200 before the edge-sweeping process is performed on the third side 203 and the fourth side 204 of the microcrystalline sheet 200, the third edge-sweeping member 31 is disposed outside the first side 201 of the microcrystalline sheet 200 or outside the second side 202 of the microcrystalline sheet 200 so as to avoid the microcrystalline sheet 200; meanwhile, the fourth edge-sweeping member 32 is disposed outside the first side 201 of the microcrystalline sheet 200 or outside the second side 202 of the microcrystalline sheet 200, so as to avoid the microcrystalline sheet 200.

Further, as shown in fig. 1 to 7, on the frame 10, in the first direction, the first edge sweeping component 20 is disposed near the input end of the conveying platform, and the second edge sweeping component 30 is disposed at the rear side of the first edge sweeping component 20. In this way, the first side 201 and the second side 202 of the microcrystalline sheet 200 may be subjected to edge-sweeping treatment, and then the third side 203 and the fourth side 204 of the microcrystalline sheet 200 may be subjected to edge-sweeping treatment. Meanwhile, the first edge sweeping component 20 is arranged on the frame 10 and close to the input end of the conveying platform, so that the conveying stroke of the microcrystalline plate 200 in the first direction can be shortened, and the microcrystalline plate edge sweeping device 100 is compact and reasonable in processing of the microcrystalline plate 200, and the processing efficiency can be improved.

Specifically, as shown in fig. 1 to 7, in the first direction, the rear end of the second edge scanning assembly 30 is disposed near the first edge scanning assembly 20, and/or the front end of the second edge scanning assembly 30 is disposed near the output end of the conveying platform. In this way, the conveying stroke of the microcrystalline plate 200 in the first direction can be further shortened, so that the microcrystalline plate edge sweeping device 100 can further compact and reasonably process the microcrystalline plate 200, and the processing efficiency of the microcrystalline plate can be further improved.

Of course, the positions of the first edge scanning assembly 20 and the second edge scanning assembly 30 may be set in other forms. For example, in other embodiments of the present invention, the first edge-sweeping assembly 20 is disposed near the output end of the conveying platform in the first direction on the frame 10, and the second edge-sweeping assembly 30 is disposed on the front side of the first edge-sweeping assembly 20; in this way, the third side 203 and the fourth side 204 of the microcrystalline sheet 200 may be subjected to the edge-sweeping process, and then the first side 201 and the second side 202 of the microcrystalline sheet 200 may be subjected to the edge-sweeping process. Meanwhile, the first edge sweeping component 20 is arranged on the frame 10 and close to the output end of the conveying platform, so that the conveying stroke of the microcrystalline plate 200 in the first direction can be shortened, and the microcrystalline plate edge sweeping device 100 is compact and reasonable in processing of the microcrystalline plate 200, and the processing efficiency can be improved. Similarly, in this embodiment, specifically, in the first direction, the rear end of the second edge-sweeping component 30 is disposed near the input end of the conveying platform, and/or the front end of the second edge-sweeping component 30 is disposed near the first edge-sweeping component 20, so as to further shorten the conveying stroke of the microcrystalline board 200 in the first direction.

For example, in other embodiments of the present invention, the first edge-sweeping component 20 and the second edge-sweeping component 30 may be staggered, specifically, the first edge-sweeping component 20 may be disposed between the third edge-sweeping piece 31 and the fourth edge-sweeping piece 32 of the second edge-sweeping component 30, or the first edge-sweeping piece 21 of the first edge-sweeping component 20 is disposed on the front side of the second edge-sweeping component 30, the second edge-sweeping piece 22 is disposed on the rear side of the second edge-sweeping component 30, and so on; as long as the edge sweeping process of the four sides of the microcrystalline sheet 200 can be completed at one time.

Further, as shown in fig. 1 to 7, in order to further shorten the conveying stroke of the microcrystalline sheet 200 in the first direction, the first edge-sweeping piece 21 and the second edge-sweeping piece 22 may be located in the same plane perpendicular to the first direction, so that the first edge-sweeping piece 21 and the second edge-sweeping piece 22 synchronously and respectively sweep the first side 201 and the second side of the microcrystalline sheet 200, so as to improve the processing efficiency thereof. Of course, the first edge-sweeping piece 21 and the second edge-sweeping piece 22 may not be in the same plane; for example, the first and second edge-sweeping members 21 and 22 are closer in the first direction, etc.

Further, as shown in fig. 1 to 7, the first edge sweeping assembly 20 further includes a fixing frame 23 mounted on the frame 10, the fixing frame 23 includes a fixing beam 231 disposed above the conveying platform and extending in the second direction, and the first and second edge sweeping members 21 and 22 are suspended below the fixing beam 231. In this way, the first and second edge-sweeping members 21 and 22 can be disposed above the conveying platform.

Specifically, the number of the fixing beams 231 may be set to one, and the first edge-sweeping member 21 and the second edge-sweeping member 22 are mounted on the same fixing beam 231, so that not only the mounting efficiency of the first edge-sweeping assembly 20 can be improved, but also the structure of the microcrystalline board edge-sweeping device 100 can be simplified conveniently. Of course, the number of the fixing beams 231 may be two, and the first and second edge-sweeping members 21 and 22 are respectively mounted on the two fixing beams 231. In this embodiment, the number of the fixing beams 231 is set to one, and the first edge-sweeping member 21 and the second edge-sweeping member 22 are suspended below the fixing beams 231.

In a further embodiment of the present invention, the first edge-sweeping member 21 and the second edge-sweeping member 22 may be slidably mounted on the fixed beam 231 in the second direction, so that the positions of the first edge-sweeping member 21 and the second edge-sweeping member 22 in the second direction may be adjustable, that is, the distance between the first edge-sweeping member 21 and the second edge-sweeping member 22 may be adjustable, so that the first edge-sweeping assembly 20 may process the microcrystalline sheet 200 with different sizes in the second direction, and the application range of the microcrystalline sheet edge-sweeping device 100 may be improved.

Specifically, the fixing beam 231 may be provided in a plate shape, a column shape, etc., which is not limited in the present invention. In the present embodiment, the fixing beam 231 is provided in a plate shape.

In a specific embodiment, as shown in fig. 1 to 7, the first edge sweeping component 20 further includes a first pressing plate 24 and a second pressing plate 25, the first pressing plate 24 is mounted on the fixed beam 231, the second pressing plate 25 is detachably mounted on the first pressing plate 24, and the first edge sweeping piece 21 and the second edge sweeping piece 22 are clamped between the first pressing plate 24 and the second pressing plate 25. In this way, not only the first and second edge-scanning members 21 and 22 can be fixed to the fixed beam 231, but also the positions of the first and second edge-scanning members 21 and 22 in the second direction can be adjusted by attaching and detaching the first and second pressing plates 24 and 25. At the same time, the first edge sweeping piece 21 and the second edge sweeping piece 22 can be cleaned or replaced conveniently.

In the present embodiment, as shown in fig. 1 to 7, the first pressing plate 24 and the second pressing plate 25 are detachably connected by a screw locking structure. That is, the first edge sweeping assembly 20 further includes a first locking screw (not shown), and the second pressing plate 25 is mounted to the first pressing plate 24 through the first locking screw. Of course, the second pressing plate 25 may also be detachably mounted on the first pressing plate 24 through the first fastening structure.

Of course, the first edge-sweeping member 21 and the second edge-sweeping member 22 may be fixed by other structures, and need not be described in detail herein.

It will be appreciated that the round trip of third sweep 31 may be the same as the round trip of fourth sweep 32 or may be opposite to the round trip of fourth sweep 32. In this embodiment, in order to simplify the structure of the microcrystalline sheet material edge-sweeping device 100, the round trip of the third edge-sweeping member 31 is preferably the same as that of the fourth edge-sweeping member 32.

Further, the second edge sweeping assembly 30 further includes a first driving device 33 and a movable beam 34 extending along a first direction, and the third edge sweeping piece 31 and the fourth edge sweeping piece 32 are suspended below the movable beam 34; the first driving device 33 is mounted on the frame 10, the movable beam 34 is mounted at the output end of the first driving device 33, and the first driving device 33 drives the movable beam 34 to reciprocate above the conveying platform in the second direction.

It will be appreciated that by mounting the movable beam 34 at the output end of the first driving device 33 and suspending the third and fourth edge-sweeping members 31 and 32 below the movable beam 34, the third and fourth edge-sweeping members 31 and 32 can be disposed above the conveying platform. Meanwhile, the first driving device 33 can drive the third edge sweeping piece 31 and the fourth edge sweeping piece 32 to reciprocate in the second direction, so that the processing of the third side edge 203 and the fourth side edge 204 of the microcrystalline sheet 200 is realized. In this way, the degree of automation and mechanization of the microcrystalline sheet material edge cleaning device 100 can be improved, and the processing efficiency of the microcrystalline sheet material 200 can be improved.

In the specific embodiment, the first driving device 33, the movable beam 34, the third edge-sweeping piece 31 and the fourth edge-sweeping piece 32 have different combinations, so that the third edge-sweeping piece 31 and the fourth edge-sweeping piece 32 can reciprocate in the second direction. For example, the number of the first driving means 33 and the movable beams 34 may be set to one, the movable beams 34 are mounted on the output end of the first driving means 33, and the third edge-sweeping member 31 and the fourth edge-sweeping member 32 are mounted on the same movable beam 34; thus, not only the installation efficiency of the second edge scanning assembly 30 can be improved, but also the structure of the microcrystalline plate edge scanning device 100 can be simplified. For another example, the number of the first driving devices 33 and the number of the movable beams 34 may be two, each movable beam 34 is correspondingly installed at the output end of one first driving device 33, the third edge sweeping piece 31 and the fourth edge sweeping piece 32 are respectively installed on the two movable beams 34, and the two first driving devices 33 respectively drive the third edge sweeping piece 31 and the fourth edge sweeping piece 32 to move, so that the third edge sweeping piece 31 and the fourth edge sweeping piece 32 can also reciprocate in the second direction. For another example, the number of the first driving devices 33 may be set to one, the number of the movable beams 34 may be set to two, both the movable beams 34 are mounted on the output end of the first driving device 33, and the third edge-sweeping piece 31 and the fourth edge-sweeping piece 32 are mounted on both the movable beams 34, respectively. In particular, the movable beam 34 may be provided in a plate shape, a column shape, a rod shape, or even a block shape, etc., which is not limited in the present invention.

In this embodiment, as shown in fig. 1 to 7, the number of the first driving device 33 and the number of the movable beams 34 are set to one, the movable beams 34 are mounted at the output end of the first driving device 33, and the third edge-sweeping member 31 and the fourth edge-sweeping member 32 are suspended below the movable beams 34. The movable beam 34 is provided in a long plate shape.

In a specific embodiment, the first driving device 33 may be configured as a simple power device, for example, the first driving device 33 may be configured as an air cylinder, a hydraulic cylinder, a linear motor, or the like. The first drive means 33 may also be provided as a combination of a power means and a transmission assembly, wherein the power means may be provided as a motor or the like; the transmission assembly is a belt transmission assembly, a chain transmission device, a gear-rack transmission device or a screw transmission assembly and the like.

In this embodiment, the first driving device 33 includes a first motor 331 and a first belt 332 connected to an output shaft of the first motor 331, and the movable beam 34 is mounted on the first belt 332; the first belt 332 drives the movable beam 34 and the third and fourth edge sweeping pieces 31 and 32 mounted on the movable beam 34 to reciprocate in the second direction. Adopts belt transmission, has simple structure and stable transmission.

Further, as shown in fig. 1 to 7, the second edge sweeping assembly 30 further includes a guide frame 35 mounted on the frame 10, the fixing frame 23 includes a guide 351 disposed above the conveying platform and extending in the second direction, and the movable beam 34 is slidably mounted on the guide 351. In this way, the stability of the movement of the movable beam 34 and the third and fourth edge-sweeping members 31 and 32 mounted on the movable beam 34 in the second direction can be improved, so that the processing effect of the second edge-sweeping assembly 30 on the third and fourth sides 203 and 204 of the microcrystalline plate 200 can be improved.

Specifically, the guide 351 is provided in plurality, and the plurality of guide 351 are spaced apart in the first direction to further improve the movement stability. In this embodiment, as shown in fig. 1 to 7, the guide 351 is provided with two, and both ends of the movable beam 34 are slidably mounted on the two guides 351, respectively.

In a specific embodiment, the guide 351 is configured as a guide slide bar, and may also be configured as a guide slide rail. In this embodiment, as shown in fig. 1 to 7, the guide 351 is configured as a guide slide bar, and both ends of the movable beam 34 are slidably sleeved on the two guide slide bars.

In a further embodiment of the present invention, the third edge-sweeping member 31 and the fourth edge-sweeping member 32 are slidably mounted on the movable beam 34 in the first direction, so that the positions of the third edge-sweeping member 31 and the fourth edge-sweeping member 32 in the first direction can be adjusted, that is, the distance between the third edge-sweeping member 31 and the fourth edge-sweeping member 32 can be adjusted, so that the second edge-sweeping assembly 30 can process the microcrystalline sheet materials 200 with different sizes in the first direction, and the application range of the microcrystalline sheet material edge-sweeping device 100 can be further improved.

In a specific embodiment, as shown in fig. 1 to 7, the second edge sweeping assembly 30 further includes a third pressing plate 36 and a fourth pressing plate 37, the third pressing plate 36 is mounted on the movable beam 34, the fourth pressing plate 37 is detachably mounted on the third pressing plate 36, and the third edge sweeping member 31 and the fourth edge sweeping member 32 are clamped between the third pressing plate 36 and the fourth pressing plate 37. In this way, not only the third and fourth edge-scanning members 31 and 32 can be fixed to the movable beam 34, but also the positions of the third and fourth edge-scanning members 31 and 32 in the second direction can be adjusted by attaching and detaching the third and fourth pressing plates 36 and 37. At the same time, the third and fourth edge-sweeping pieces 31 and 32 can be cleaned or replaced conveniently.

In the present embodiment, as shown in fig. 1 to 7, the fourth pressing plate 37 is detachably mounted on the third pressing plate 36 by a screw locking structure. That is, the second edge scanning assembly 30 further includes a second locking screw (not shown), and the fourth pressing plate 37 is mounted to the third pressing plate 36 by the second locking screw. Of course, the fourth pressing plate 37 may also be detachably mounted on the third pressing plate 36 through the second fastening structure.

Of course, the third edge-sweeping member 31 and the fourth edge-sweeping member 32 may be fixed by other structures, and need not be described in detail herein.

Further, as shown in fig. 1 to 7, the microcrystalline plate edge sweeping device 100 further includes a positioning assembly 40, where the positioning assembly 40 is installed on the frame 10 and is disposed at an input end of the conveying platform, and the positioning assembly 40 is used for positioning the microcrystalline plate 200 conveyed onto the conveying platform.

Specifically, in the first direction, the positioning assembly 40 is disposed on the front sides of the first edge scanning assembly 20 and the second edge scanning assembly 30; when the microcrystalline sheet 200 is conveyed to the conveying platform, the positioning assembly 40 positions the microcrystalline sheet, and after positioning, edge sweeping is performed on the microcrystalline sheet. In this way, by locating each microcrystalline plate 200 entering the conveying platform, the position of each microcrystalline plate 200 on the conveying platform can be unified, so that the edge sweeping position of each microcrystalline plate 200 by the microcrystalline plate edge sweeping device 100 can be unified, the size of each microcrystalline plate 200 processed by the microcrystalline plate edge sweeping device 100 can be unified, and the quality and quality of the microcrystalline plates 200 can be improved.

Further, as shown in fig. 1 to 7, the positioning assembly 40 includes a first positioning member 41 and a second positioning member 42 that are disposed at intervals in the second direction, and a positioning space 43 for positioning the microcrystalline board 200 is defined between the first positioning member 41 and the second positioning member 42. In this way, by providing the first positioning pieces 41 and the second positioning pieces 42 that are spaced apart in the second direction, the positioning space 43 for positioning the microcrystalline sheet material 200 can be formed, and thus positioning of the microcrystalline sheet material 200 can be achieved.

Specifically, as shown in fig. 1 to 7, the side of the first positioning member 41 facing the second positioning member 42 has a first guide section 411 formed thereon, and the first guide section 411 is disposed obliquely in a first direction toward the second positioning member 42; and/or the side of the second positioning member 42 facing the first positioning member 41 has a second guide section 421 formed thereon, and the second guide section 421 is disposed obliquely in the first direction toward the first positioning member 41. In this way, by providing the first guide section 411 and/or the second guide section 421, the microcrystalline sheet 200 can conveniently enter the positioning space 43, so that not only can the microcrystalline sheet 200 be conveniently positioned, but also the positioning efficiency of the microcrystalline sheet 200 can be improved.

In this embodiment, the structure of the first positioning member 41 is consistent with the structure of the second positioning member 42, the first positioning member 41 is formed with a first guiding section 411, the second positioning member 42 is formed with a second guiding section 421, and the first guiding section 411 and the second guiding section 421 are disposed opposite to each other. Thus, the positioning effect on the microcrystalline sheet 200 can be improved; the accessories can be used commonly, so that the stock quantity of the accessories can be reduced, and the fund backlog can be reduced.

In a specific embodiment, the first guiding section 411 may be configured as an inclined plane, or may be configured as an arc surface; similarly, the second guide section 421 may be provided as an inclined plane; or may be provided as a cambered surface.

In this embodiment, the first guiding section 411 is configured as an arc surface, and the second guiding section 421 is correspondingly configured as an arc surface.

In a further embodiment of the invention, the positions of the first positioning member 41 and the second positioning member 42 in the second direction are adjustable. In this way, the width of the positioning space 43 in the second direction can be adjusted, so that the positioning component 40 can adjust the positioning space 43 according to the microcrystalline plates 200 with different sizes, that is, the positioning component 40 can position the microcrystalline plates 200 with different sizes, and the application range of the microcrystalline plate edge sweeping device 100 can be improved.

Specifically, the first positioning member 41 is slidably mounted on the frame 10 in the second direction, so that the position of the first positioning member 41 in the second direction is adjustable; the second positioning member 42 is slidably mounted on the frame 10 in a second direction such that the position of the second positioning member 42 in the second direction is adjustable.

Further, the positioning assembly 40 further includes a first adjusting screw 44, the first adjusting screw 44 is rotatably mounted on the frame 10, and the first adjusting screw 44 is screwed to the first positioning member 41 along the second direction. In this way, the first positioning member 41 can be driven to slide on the frame 10 by rotating the adjusting screw, so that the position of the first positioning member 41 in the second direction is adjustable.

Specifically, a first screw hole (not shown) extending along the second direction may be formed in the first positioning member 41 to be screwed with the first adjusting screw 44; a first adjusting nut (not shown) having an axis extending in the second direction may also be provided on the first positioning member 41 to be screwed with the first adjusting screw 44.

Specifically, a first adjustment handle/first adjustment hand wheel may be provided at the outer end of the first adjustment screw 44 to facilitate rotation of the first adjustment screw 44. The first adjusting screw 44 may also be automatically driven to rotate by providing a power unit.

Specifically, the first positioning member 41 may be provided in a plate shape.

Similarly, the positioning assembly 40 further includes a second adjusting screw 45, the first adjusting screw 44 is rotatably mounted on the frame 10, and the second adjusting screw 45 is screwed to the second positioning member 42 along the second direction. In this way, the second positioning member 42 can be driven to slide on the frame 10 by rotating the adjusting screw, so that the position of the second positioning member 42 in the second direction is adjustable.

Specifically, a second screw hole (not shown) extending along the second direction may be formed in the second positioning member 42, so as to be screwed with the first adjusting screw 44; a second adjustment nut (not shown) having an axis extending in a second direction may also be provided on the second positioning member 42 to be screwed with the second adjustment screw 45.

Specifically, a second adjustment handle/second adjustment hand wheel may be provided at the outer end of the second adjustment screw 45 to facilitate rotation of the second adjustment screw 45. The second adjusting screw 45 may also be automatically driven to rotate by providing a power unit.

In particular, the second positioning member 42 may be provided in a plate shape.

In particular, the conveying platform is generally configured as a belt conveyor, and includes a second belt 111 driven in a first direction and a second motor 112 for driving the second belt 111 to drive, and the specific structure of the conveying platform may refer to the prior art and fig. 5, and need not be described in detail herein.

Further, the microcrystalline plate edge sweeping device 100 further comprises a collecting hopper 50, the collecting hopper 50 is mounted on the frame 10, the collecting hopper 50 is arranged below the conveying platform, and an inlet of the collecting hopper 50 is arranged corresponding to an output end of the conveying platform so as to be used for collecting microcrystalline residue after edge sweeping.

So, through setting up the collecting hopper 50 at conveying platform's output, can collect the microcrystalline clout that scatters on conveying platform after sweeping the limit to can avoid microcrystalline clout to drift everywhere after outputting from conveying platform, thereby can be convenient for carry out recovery processing to microcrystalline clout.

Specifically, as shown in fig. 1 to 7, a first roller 60 is further disposed on the frame 10 at the input end of the conveying platform, so as to guide the microcrystalline sheet 200 to the conveying platform; a second roller 70 is also provided at the output end of the conveyor platform to facilitate guiding the microcrystalline sheet 200 out of the conveyor platform.

Specifically, as shown in fig. 1 to 7, on the frame 10, two baffles 80 are further disposed on two sides of the conveying platform in the second direction, so as to primarily collect the microcrystalline residues and prevent the microcrystalline residues from scattering on the conveying platform.

In this embodiment, the working process of the microcrystalline plate edge sweeping device 100 is as follows: the microcrystalline sheet 200 is conveyed to the conveying platform under the guide of the first roller 60, then moves in the first direction on the conveying platform, then enters the positioning space 43, and is positioned to a preset position under the action of the first positioning member 41 and the second positioning member 42; then, the first side edge 201 and the second side edge 202 of the microcrystalline plate 200 are subjected to edge sweeping treatment under the action of the first edge sweeping component 20, after the edge sweeping treatment is finished, the microcrystalline plate 200 enters a preset position, at the moment, the conveying platform stops conveying, the microcrystalline plate 200 is fixed, the second edge sweeping component 30 carries out edge sweeping treatment on the third side edge 203 and the fourth side edge 204 of the microcrystalline plate 200, after the edge sweeping treatment is finished, the conveying platform continues conveying, and the microcrystalline plate 200 is guided out of the conveying platform under the action of the second rolling roller 70; the conveyor table is configured to carry the microcrystalline sheet 200 during transport, and the microcrystalline residue on the conveyor table is carried off the conveyor table output and rolls into the collection hopper 50.

It should be noted that the microcrystalline sheet material edge sweeping device 100 of the present invention has at least the following advantages:

1) By arranging the first edge sweeping component 20 and the second edge sweeping component 30, the four sides of the microcrystalline board 200 can be subjected to edge sweeping treatment at one time.

2) By providing a positioning assembly 40 at the input end of the conveyor table, each microcrystalline sheet 200 entering the conveyor table may be positioned.

3) By providing the collection hopper 50 at the output end of the conveying platform, microcrystalline remainder scattered on the conveying platform after edge sweeping can be collected.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the description of the present invention and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the invention.

Claims (5)

1. The utility model provides a microcrystalline panel sweeps limit device which characterized in that includes:

the frame is provided with an edge sweeping conveying platform, the edge sweeping conveying platform is used for conveying the microcrystalline board, the conveying direction of the microcrystalline board is taken as a first direction, and the direction perpendicular to the conveying direction of the microcrystalline board is taken as a second direction;

the first edge sweeping assembly is arranged on the frame and is arranged above the conveying platform; the first edge sweeping component comprises a first edge sweeping piece and a second edge sweeping piece which are arranged at intervals in the second direction, and the first edge sweeping piece and the second edge sweeping piece are respectively used for sweeping edges of a first side edge and a second side edge of the microcrystalline plate, which are positioned in the second direction; and

the second edge sweeping assembly is arranged on the frame and is arranged above the conveying platform; the second edge sweeping component comprises a third edge sweeping piece and a fourth edge sweeping piece which are arranged at intervals in the first direction, the third edge sweeping piece and the fourth edge sweeping piece can do reciprocating motion in the second direction, and the third edge sweeping piece and the fourth edge sweeping piece are respectively used for sweeping edges of a third side edge and a fourth side edge of the microcrystalline board, which are positioned in the first direction;

in the first direction, the first edge sweeping component is arranged close to the input end of the conveying platform, and the second edge sweeping component is arranged on the rear side of the first edge sweeping component; or in the first direction, the first edge sweeping component is arranged close to the output end of the conveying platform, and the second edge sweeping component is arranged on the front side of the first edge sweeping component;

the first edge sweeping component further comprises a fixing frame arranged on the frame, the fixing frame comprises a fixing beam which is arranged above the conveying platform and extends along the second direction, and the first edge sweeping piece and the second edge sweeping piece are suspended below the fixing beam;

the second edge sweeping assembly further comprises a first driving device and a movable beam extending along the first direction, and the third edge sweeping piece and the fourth edge sweeping piece are suspended below the movable beam; the first driving device is arranged on the frame, the movable beam is arranged at the output end of the first driving device, and the first driving device drives the movable beam to reciprocate above the conveying platform in the second direction;

the first driving device comprises a power device and a transmission assembly connected with the output end of the power device, and the movable beam is arranged at the output end of the transmission assembly; the transmission assembly is a belt transmission assembly, a chain transmission device, a gear-rack transmission device or a screw rod transmission assembly; or the first driving device is arranged as an air cylinder, a hydraulic cylinder or a linear motor;

the microcrystalline plate edge sweeping device further comprises a positioning assembly, wherein the positioning assembly is installed on the frame and arranged at the input end of the conveying platform, and the positioning assembly is used for positioning microcrystalline plates conveyed onto the conveying platform.

2. The microcrystalline sheet material edge sweeping device of claim 1, wherein the second edge sweeping assembly further includes a guide mounted on the frame, the guide including a guide member disposed above the conveying platform and extending in the second direction, the movable beam being slidably mounted on the guide member.

3. The edge scanning device for microcrystalline sheet material according to any one of claims 1 to 2, wherein the positioning assembly comprises a first positioning member and a second positioning member which are arranged at intervals in the second direction, and a positioning space for positioning the microcrystalline sheet material is defined between the first positioning member and the second positioning member;

a first guide section is formed on the side surface of the first positioning piece, which faces the second positioning piece, and the first guide section is obliquely arranged towards the second positioning piece in the first direction; and/or a second guide section is formed on the side surface of the second positioning piece, which faces the first positioning piece, and the second guide section is obliquely arranged towards the first positioning piece in the first direction.

4. A microcrystalline sheet material edge sweeping device according to claim 3, wherein the positions of the first locating piece and the second locating piece in the second direction are adjustable; or alternatively

The first guide section is arranged as an inclined plane or cambered surface, and/or the second guide section is arranged as an inclined plane or cambered surface.

5. The microcrystalline sheet material edge sweeping device according to any one of claims 1 to 2, further comprising a collecting hopper, wherein the collecting hopper is mounted on the frame, the collecting hopper is arranged below the conveying platform, and an inlet of the collecting hopper is arranged corresponding to an output end of the conveying platform, so as to collect microcrystalline remainder after edge sweeping.