CN116638351A - Magnetic type workbench and plate edge processing equipment - Google Patents

Abstract

The invention provides a magnetic type workbench and plate edge processing equipment, and relates to the technical field of processing equipment. The invention effectively improves the processing quality of the magnetic plate.

Description

Magnetic type workbench and plate edge processing equipment

Technical Field

The invention relates to the technical field of processing equipment, in particular to a magnetic type workbench and plate edge processing equipment.

Background

At present, before magnetic plates such as steel plates and the like are welded, the edges of the plates are required to be processed by plate edge processing equipment so as to process straight edges and bevel edges on the plates; or grooves, chamfers or fillets are formed on the plate.

The workbench is used as an important component part of the plate edge processing equipment and mainly plays a role in supporting and fixing the plate, the existing workbench is unreasonable in design, and often causes the defect of processing quality of the plate, for example, the existing workbench is fixed in size, the two ends of the plate to be processed in the width direction sometimes extend out of the workbench too much because of the difference of the widths of the plate to be processed, and when the plate is processed, the part of the plate extending out of the workbench too much is easy to deform, so that the processing quality is reduced; or, the workbench fixes the plate through the jacking device, so that the contact part of the jacking device and the plate cannot be processed, and the processing quality is reduced.

Disclosure of Invention

The invention solves the problem of how to improve the processing quality of the magnetic plate.

In one aspect, the invention provides a magnetic type workbench, which comprises a mounting seat, a supporting platform and a magnetic attraction device arranged at the supporting platform, wherein the magnetic attraction device is used for fixing a magnetic plate, the supporting platform comprises a first moving platform and a second moving platform, the magnetic attraction device is respectively arranged at the top ends of the first moving platform and the second moving platform, the first moving platform and the second moving platform are arranged in parallel and are respectively connected with the mounting seat in a sliding manner, and the first moving platform and/or the second moving platform are/is used for moving relative to the mounting seat so as to adjust the distance between the first moving platform and the second moving platform.

Optionally, this workstation is inhaled to magnetism still includes drive assembly and supports and walk the subassembly, be equipped with first track groove and second track groove on the mount pad, be equipped with first guide rail in the first track groove, be equipped with the second guide rail in the second track groove, first moving platform with the bottom of second moving platform all is equipped with drive assembly with support and walk the subassembly, drive assembly includes first driving motor and walking wheel, first driving motor is used for the drive walk the walking wheel and walk on the first guide rail, support and walk the subassembly including mounting bracket and supporting roller, the mounting bracket with first moving platform or the second moving platform is connected, supporting roller with the mounting bracket rotates to be connected, supporting roller support in on the second guide rail.

Optionally, the magnetic workbench further comprises a clamping device, the bottoms of the first moving platform and the second moving platform are respectively provided with the clamping device, the clamping device comprises a telescopic cylinder and clamping jaws, and the telescopic cylinder is used for driving the clamping jaws to loosen or clamp the second guide rail.

Optionally, a third guide rail is further arranged in the first track groove, the bottoms of the first moving platform and the second moving platform are further provided with guide groove structures respectively, and the guide groove structures are slidably arranged on the third guide rail.

Optionally, the magnetic workbench further comprises an intermediate support assembly, wherein the intermediate support assembly is installed on the installation seat and located between the first moving platform and the second moving platform, and the intermediate support assembly is used for supporting the magnetic plate.

Optionally, the intermediate support assembly includes chassis, first installing frame, connecting plate, panel bearing structure and supporting seat, the supporting seat with the supporting seat dismantles formula and is connected, the chassis support in on the supporting seat, a plurality of first installing frame interval install in on the chassis, adjacent two be equipped with between the first installing frame the connecting plate, first installing frame with the top of connecting plate is equipped with panel bearing structure, panel bearing structure includes pedestal and rolling element, the pedestal with first installing frame or the connecting plate is connected, the rolling element with the pedestal rotates to be connected, the rolling element be used for with magnetism panel contact.

Optionally, the magnetic attraction workbench further comprises an alignment device, the magnetic attraction devices on the first moving platform and the second moving platform are respectively provided with the alignment device, and when the magnetic attraction devices are not fixed with the magnetic plates, the alignment devices on the first moving platform and the second moving platform are used for adjusting the positions of the magnetic plates relative to the first moving platform and the second moving platform.

Optionally, the alignment device include the telescoping member and with the fender piece that the telescoping member drive is connected, the telescoping member install in on the magnetism is inhaled the device, keep off the piece be located first moving platform with the one side that the second moving platform deviates from each other, keep off the piece be used for with the edge contact of magnetism panel.

Optionally, the magnetic attraction device comprises a second installation frame and an electric permanent magnet chuck, the second installation frame is installed on the first moving platform or the second moving platform, the electric permanent magnet chuck is installed on the second installation frame, and the electric permanent magnet chuck is used for adsorbing the magnetic plate.

In a second aspect, the invention provides a panel edge processing apparatus comprising a magnetically attractable workbench as described above.

Compared with the prior art, the invention has the beneficial effects that:

the supporting platform of the magnetic type workbench comprises a first moving platform and a second moving platform, wherein the top ends of the first moving platform and the second moving platform are respectively provided with a magnetic attraction device, the first moving platform and the second moving platform are arranged in parallel and are respectively in sliding connection with the mounting seat, and the first moving platform and/or the second moving platform are/is used for moving relative to the mounting seat to adjust the distance between the first moving platform and the second moving platform. Therefore, before the plate is placed on the magnetic type workbench, the distance between the first moving platform and the second moving platform is adjusted according to the width of the plate to be processed, so that the probability that the two ends of the plate in the width direction extend out of the workbench and are easy to deform is reduced, then after the distance between the first moving platform and the second moving platform meets the requirements, the plate is lifted to the first moving platform and the second moving platform, and finally after the magnetic device is started, the plate is fixed through the magnetic device, and therefore the plate is limited to move relative to the first moving platform and the second moving platform. In conclusion, the magnetic type workbench effectively improves the processing quality of the magnetic plate.

Drawings

FIG. 1 is a schematic diagram of a magnetic table according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a partial enlarged view at B in FIG. 2;

fig. 4 is a schematic structural diagram of a magnetic table according to an embodiment of the present invention;

FIG. 5 is a schematic view of a portion of a support running assembly and a third rail according to an embodiment of the invention;

FIG. 6 is a schematic view of the structure of the magnetic attraction device and the alignment device according to the embodiment of the invention;

fig. 7 is a partial schematic view of an intermediate support assembly according to an embodiment of the present invention.

Reference numerals illustrate:

100. a mounting base; 101. a first track groove; 1011. a first guide rail; 1012. a third guide rail; 102. a second track groove; 1021. a second guide rail; 200. a support platform; 201. a first mobile platform; 202. a second mobile platform; 300. a magnetic attraction device; 301. a second mounting frame; 302. an electro-permanent magnetic chuck; 303. an auxiliary supporting frame; 400. a drive assembly; 401. a first driving motor; 402. a running wheel; 500. supporting the walking assembly; 501. a mounting frame; 502. a supporting roller; 600. a clamping device; 601. a telescopic cylinder; 602. a clamping jaw; 700. a guide groove structure; 800. a middle support assembly; 801. a chassis; 802. a first mounting frame; 803. a connecting plate; 804. a sheet material support structure; 8041. a base; 8042. a rolling member; 805. a support base; 900. an alignment device; 901. a telescoping member; 902. a baffle.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present invention and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein.

Moreover, in the drawings, the Z axis represents vertical, i.e., up and down, and the positive direction of the Z axis (i.e., the arrow of the Z axis points) represents up, and the negative direction of the Z axis (i.e., the direction opposite to the positive direction of the Z axis) represents down; the X-axis in the drawing represents the lateral direction, i.e., the left-right position, and the positive direction of the X-axis (i.e., the arrow of the X-axis points) represents the left, and the negative direction of the X-axis (i.e., the direction opposite to the positive direction of the X-axis) represents the right; the Y-axis in the drawing shows the longitudinal direction, i.e., the front-to-back position, and the positive direction of the Y-axis (i.e., the arrow pointing in the Y-axis) shows the front, and the negative direction of the Y-axis (i.e., the direction opposite to the positive direction of the Y-axis) shows the back.

It should also be noted that the foregoing Z-axis, X-axis, and Y-axis are meant to be illustrative only and to simplify the description of the present invention, and are not meant to indicate or imply that the devices or elements referred to must be in a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

As shown in fig. 1, the magnetic-type workbench according to the embodiment of the invention comprises a mounting seat 100, a supporting platform 200 and a magnetic-type device 300 mounted at the supporting platform 200, wherein the magnetic-type device 300 is used for fixing a magnetic plate, the supporting platform 200 comprises a first moving platform 201 and a second moving platform 202, the magnetic-type device 300 is mounted at the top ends of the first moving platform 201 and the second moving platform 202 respectively, the first moving platform 201 and the second moving platform 202 are arranged in parallel and are respectively connected with the mounting seat 100 in a sliding manner, and the first moving platform 201 and/or the second moving platform 202 are/is used for moving relative to the mounting seat 100 so as to adjust the distance between the first moving platform 201 and the second moving platform 202.

In this embodiment, as shown in fig. 1, the mounting base 100 is in a cuboid structure, the top of the mounting base is provided with a supporting platform 200, the supporting platform 200 comprises a first moving platform 201 and a second moving platform 202, the first moving platform 201 and the second moving platform 202 have the same structure, the first moving platform 201 and the second moving platform 202 are respectively in a square frame structure, the top ends of the first moving platform 201 and the second moving platform 202 are respectively provided with a magnetic attraction device 300, the first moving platform 201 and the second moving platform 202 are spaced along the X-axis direction, are arranged in parallel and are respectively in sliding connection with the mounting base 100, and the first moving platform 201 and the second moving platform 202 can move relative to the mounting base 100 to adjust the distance between the first moving platform 201 and the second moving platform 202.

In this way, before the plate is placed on the magnetic type workbench, the distance between the first moving platform 201 and the second moving platform 202 is adjusted according to the width of the plate to be processed, so that the probability that the two ends of the plate in the width direction extend out of the workbench and are easy to deform is reduced, then after the distance between the first moving platform 201 and the second moving platform 202 meets the requirements, the plate is lifted to the first moving platform 201 and the second moving platform 202, and finally after the magnetic device 300 is started, the plate is fixed through the magnetic device 300, so that the plate is limited to move relative to the first moving platform 201 and the second moving platform 202, and the magnetic device 300 is positioned below the plate, so that the magnetic device cannot interfere with the plate during processing. In conclusion, the magnetic type workbench effectively improves the processing quality of the magnetic plate.

In this embodiment, the mounting base 100 may have other shapes, such as a circle, a square, or other irregular shapes. The method is not limited herein, and depends on the actual requirements.

Optionally, the magnetic workbench further includes a driving assembly 400 and a supporting running assembly 500, the mounting base 100 is provided with a first track groove 101 and a second track groove 102, a first guide rail 1011 is arranged in the first track groove 101, a second guide rail 1021 is arranged in the second track groove 102, the bottoms of the first moving platform 201 and the second moving platform 202 are both provided with the driving assembly 400 and the supporting running assembly 500, the driving assembly 400 includes a first driving motor 401 and a running wheel 402, the first driving motor 401 is used for driving the running wheel 402 to run on the first guide rail 1011, the supporting running assembly 500 includes a mounting frame 501 and a supporting roller 502, the mounting frame 501 is connected with the first moving platform 201 or the second moving platform 202, the supporting roller 502 is rotationally connected with the mounting frame 501, and the supporting roller 502 is supported on the second guide rail 1021.

As shown in fig. 1, 2 and 5, the upper end surface of the mounting base 100 is provided with a first rail groove 101 and a second rail groove 102 which are spaced apart and parallel, and a first guide 1011 and a second guide 1021 which are provided along the X-axis direction are provided in the first rail groove 101 and the second rail groove 102, respectively. The bottoms of the first moving platform 201 and the second moving platform 202 are respectively provided with a driving assembly 400 and a supporting running assembly 500, wherein the driving assembly 400 comprises a first driving motor 401 and a running wheel 402, the first driving motor 401 is arranged at the bottom of the first moving platform 201 or the second moving platform 202 through a motor bracket, an output shaft of the first driving motor 401 is in driving connection with the running wheel 402, the running wheel 402 is in contact with the side end surface of a first guide rail 1011, and the first driving motor 401 can drive the running wheel 402 to run on the first guide rail 1011; the supporting running assembly 500 comprises a mounting frame 501 and a supporting roller 502, the mounting frame 501 is connected with the first moving platform 201 or the second moving platform 202, the supporting roller 502 is rotatably connected with the mounting frame 501 through a pin shaft, and the supporting roller 502 is supported on the top end surface of the second guide rail 1021.

In this way, the first moving platform 201 and the second moving platform 202 are supported on the second guide rail 1021 through the supporting roller 502, when the distance between the first moving platform 201 and the second moving platform 202 needs to be adjusted, the first driving motor 401 of the first moving platform 201 and the first driving motor 401 of the second moving platform 202 are started, the first driving motor 401 drives the running wheel 402 to run on the first guide rail 1011, and then the first moving platform 201 and the second moving platform 202 are driven to move on the mounting seat 100 along the X-axis direction.

In the present embodiment, the number of the driving assemblies 400 and the supporting walking assemblies 500 of the first moving platform 201 and the second moving platform 202 is not limited, and depends on the actual requirements.

Further, the first guide 1011 is provided with a latch, and the circumferential side wall of the running wheel 402 is also provided with a latch, and the first guide 1011 and the running wheel 402 are engaged and driven by the latch. Thus, when the running wheel 402 runs on the first guide rail 1011, friction force can be increased by the latch teeth, so that the running wheel 402 can run on the first rail conveniently.

Optionally, the magnetic table further includes a clamping device 600, the bottoms of the first moving platform 201 and the second moving platform 202 are further provided with clamping devices 600, the clamping devices 600 include a telescopic cylinder 601 and a clamping jaw 602, and the telescopic cylinder 601 is used for driving the clamping jaw 602 to loosen or clamp the second guide rail 1021.

As shown in fig. 3, the bottoms of the first moving platform 201 and the second moving platform 202 are further provided with a clamping device 600, the clamping device 600 includes a telescopic cylinder 601 and a clamping jaw 602, the telescopic cylinder 601 is fixed on the bottom of the first moving platform 201 or the second moving platform 202 through a telescopic cylinder frame, and the telescopic cylinder 601 drives the two clamping jaws 602 to open or close through a link mechanism, and the specific structure is similar to that of a cylinder clamping jaw 602 on the market, and is not specifically described herein.

In this way, when the movement of the first moving platform 201 or the second moving platform 202 relative to the mounting seat 100 needs to be limited, the telescopic cylinder 601 is started, the telescopic rod of the telescopic cylinder 601 moves upwards, the two clamping jaws 602 are driven to shrink by the link mechanism, the two clamping jaws 602 can clamp the second guide rail 1021, and at the moment, the first moving platform 201 or the second moving platform 202 is limited on the mounting seat 100; when the first moving platform 201 or the second moving platform 202 needs to move relative to the mounting seat 100, the telescopic cylinder 601 is started, the telescopic rod of the telescopic cylinder 601 moves downwards, the two clamping jaws 602 are driven to open by the connecting rod mechanism, the two clamping jaws 602 can release the second guide rail 1021, and at the moment, the first moving platform 201 or the second moving platform 202 can move relative to the mounting seat 100.

Optionally, a third guide rail 1012 is further disposed in the first track groove 101, and the bottoms of the first moving platform 201 and the second moving platform 202 are further provided with a guide groove structure 700, where the guide groove structure 700 is slidably disposed on the third guide rail 1012.

As shown in fig. 2, a third guide rail 1012 is further disposed in the first track groove 101 along the X-axis direction, the two third guide rails 1012 are respectively located at two sides of the first guide rail 1011 along the Y-axis direction, and the bottoms of the first moving platform 201 and the second moving platform 202 are provided with guide groove structures 700 matched with the two third guide rails 1012.

In this way, when the first moving platform 201 and the second moving platform 202 move relative to the mounting base 100, the cooperation of the third guide rail 1012 and the guide groove structure 700 can ensure that the first guide rail 1011 and the running wheel 402 are always in contact, and thus the first moving platform 201 and the second moving platform 202 stably run on the mounting base 100.

In the present embodiment, the number of the third guide rail 1012 and the guide groove structure 700 may be one, three, four, or the like, which is not limited herein, and is determined according to practical requirements.

Further, a clamping groove is formed in the side end face of the third guide rail 1012, a clamping block matched with the clamping groove is arranged on the inner wall of the guide groove structure 700, or a clamping block is arranged on the side end face of the third guide rail 1012, and a clamping groove matched with the clamping block is formed in the inner wall of the guide groove structure 700. In this way, when the first moving platform 201 and the second moving platform 202 move relative to the mounting base 100, since the third guide rail 1012 and the guide groove structure 700 are matched together through the clamping groove and the clamping block, the degrees of freedom of the first moving platform 201 and the second moving platform 202 in the Z-axis direction and the Y-axis direction are effectively limited, and at this time, the first moving platform 201 and the second moving platform 202 can only move relative to the mounting base 100 along the X-axis direction, so that the stability is strong.

Optionally, the magnetic table further includes an intermediate support assembly 800, where the intermediate support assembly 800 is mounted on the mounting base 100 and located between the first moving platform 201 and the second moving platform 202, and the intermediate support assembly 800 is used to support the magnetic sheet material.

As shown in fig. 1, 4 and 7, an intermediate support assembly 800 is further disposed between the first moving platform 201 and the second moving platform 202, that is, the first moving platform 201, the intermediate support assembly 800 and the second moving platform 202 are sequentially disposed along the X-axis direction. Thus, when the width of the plate is excessively large, the intermediate support assembly 800 can support the intermediate portion of the plate, effectively preventing the plate from being deformed.

Optionally, the middle support assembly 800 includes a chassis 801, a first mounting frame 802, a connecting plate 803, a plate support structure 804 and a support seat 805, the support seat 805 is detachably connected with the mounting seat 100, the chassis 801 is supported on the support seat 805, a plurality of first mounting frames 802 are mounted on the chassis 801 at intervals, the connecting plate 803 is disposed between two adjacent first mounting frames 802, the top ends of the first mounting frames 802 and the connecting plate 803 are provided with the plate support structure 804, the plate support structure 804 includes a seat 8041 and a rolling member 8042, the seat 8041 is connected with the first mounting frames 802 or the connecting plate 803, the rolling member 8042 is rotatably connected with the seat 8041, and the rolling member 8042 is used for contacting with a magnetic plate.

As shown in fig. 7, the bottom end of the chassis 801 is provided with a plurality of supporting seats 805 spaced along the Y-axis direction, and the distance between two adjacent supporting seats 805 is determined according to practical situations, for example, the distance between two adjacent supporting seats 805 may be between 50cm and 80 cm. In this way, the intermediate support assembly is facilitated to be secured to the mounting block 100 by the support block 805. In the present embodiment, the connection manner between the support base 805 and the chassis 801 includes, but is not limited to, bonding, welding or bolting, which is not limited herein, and depends on the actual requirements.

In this embodiment, a plurality of first mounting frames 802 are disposed at intervals along the Y-axis direction on the top end of the bottom frame 801, and the connection plates 803 are located on one side of the first mounting frames 802 away from the bottom frame 801, and each connection plate 803 is respectively connected with two adjacent first mounting frames 802.

As shown in fig. 7, the first mounting frame 802 is provided with a plate supporting structure, and the connecting plate 803 is provided with two plate supporting structures; the board supporting structure comprises two parts, namely a base 8041 and a rolling element 8042, wherein the base 8041 is connected with a first mounting frame 802 or a connecting plate 803, a mounting groove with an inner wall being an arc surface is formed in the top end surface of the base 8041, the rolling element 8042 is a round ball, one part of the ball is located in the mounting groove and can rotate relatively, and the other part of the ball is located outside the mounting groove and is used for supporting a board.

Thus, when a sheet is placed on the intermediate support assembly 800, the rolling members 8042 of the sheet support structure on the first mounting frame 802 and the connection plate 803 support the sheet; when the plate is moved, the plate applies force to the rolling element 8042, the rolling element 8042 can rotate relative to the seat 8041, and at this time, rolling friction force is generated between the rolling element 8042 and the plate, compared with sliding friction force between the existing middle supporting assembly 800 and the plate, the plate supporting structure adopted in the embodiment is convenient for moving the plate.

In this embodiment, the structure of the seat 8041 is not limited, and may be square, round or other irregular shapes, which are not limited herein, and are determined according to practical requirements. The connection manner of the seat 8041 to the first mounting frame 802 or the connection plate 803 includes, but is not limited to, bonding, welding, or bolting.

In other embodiments, the plate supporting structure may include only the rolling members 8042, where the rolling members 8042 are balls, and in this case, the mounting grooves for mounting the rolling members 8042 are directly formed on the first mounting frame 802 or the connecting plate 803.

Optionally, the magnetic table further includes an alignment device 900, where the magnetic devices 300 on the first moving platform 201 and the second moving platform 202 are respectively provided with the alignment device 900, and when the magnetic devices 300 do not fix the magnetic plate, the alignment devices 900 on the first moving platform 201 and the second moving platform 202 are used for adjusting the positions of the magnetic plate relative to the first moving platform 201 and the second moving platform 202.

As shown in fig. 1 and 6, at least part of the magnetic attraction devices 300 on the first moving platform 201 and the second moving platform 202 are provided with an alignment device 900, wherein at least one alignment device 900 is provided at two ends of the first moving platform 201 and the second moving platform 202 in the Y-axis direction. Thus, when the magnetic attraction device 300 does not fix the magnetic sheet, the alignment device 900 on the first moving platform 201 and the second moving platform 202 is used to adjust the positions of the magnetic sheet relative to the first moving platform 201 and the second moving platform 202.

Optionally, the alignment device 900 includes a telescopic member 901 and a blocking member 902 drivingly connected to the telescopic member 901, where the telescopic member 901 is mounted on the magnetic attraction device 300, and the blocking member 902 is located on a side of the first moving platform 201 and the second moving platform 202 facing away from each other, and the blocking member 902 is used to contact an edge of the magnetic plate.

As shown in fig. 1 and 6, the telescopic member 901 is an electric cylinder, an air cylinder or a hydraulic cylinder, the fixed end of the telescopic member 901 is fixed on the second mounting frame 301 (described later) of the magnetic attraction device 300, the telescopic end of the telescopic member 901 is connected with the blocking member 902, and the blocking member 902 is located at one side of the first moving platform 201 and the second moving platform 202 facing away from each other. Thus, when the alignment devices on the first moving platform 201 and the second moving platform 202 work, the telescopic piece 901 drives the plate to move to a proper position through the blocking piece 902.

Optionally, the magnetic attraction device 300 includes a second mounting frame 301 and an electro-permanent magnetic chuck 302, the second mounting frame 301 is mounted on the first moving platform 201 or the second moving platform 202, the electro-permanent magnetic chuck 302 is mounted on the second mounting frame 301, and the electro-permanent magnetic chuck 302 is used for attracting the magnetic board.

As shown in fig. 1 and 6, the second mounting frame 301 is mounted on top of the first moving platform 201 or the second moving platform 202, the electro-permanent magnetic chuck 302 is mounted on top of the second mounting frame 301, and the electro-permanent magnetic chuck 302 is flush with the top end surface of the second mounting frame 301. Thus, when the plate is supported on the second mounting frame 301, the electro-permanent magnetic chuck 302 is activated, and the electro-permanent magnetic chuck 302 can attract the magnetic plate.

Optionally, as shown in fig. 6, an auxiliary supporting frame 303 is disposed at an end of the second mounting frame 301 facing the middle supporting assembly 800, and the auxiliary supporting frame 303 on the first moving platform 201 and the auxiliary supporting frame 303 on the second moving platform 202 are disposed in a staggered manner in the Y-axis direction. In this way, the sheet material can be better supported by the auxiliary supporting frame 303.

Another embodiment of the invention is a sheet edge processing apparatus comprising a magnetically attractable table as described above.

The plate edge processing device of the embodiment has the same beneficial effects as the magnetic type workbench compared with the prior art, so that the description is omitted here.

The reader will appreciate that in the description of this specification, a description of terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Although the invention is disclosed above, the scope of the invention is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention, and these changes and modifications will fall within the scope of the invention.

Claims (10)

1. The utility model provides a workstation is inhaled to magnetism, its characterized in that, including mount pad (100), supporting platform (200) and install in magnetism of supporting platform (200) department is inhaled device (300), magnetism is inhaled device (300) and is used for fixed magnetism panel, supporting platform (200) include first moving platform (201) and second moving platform (202), first moving platform (201) with install respectively on the top of second moving platform (202) magnetism is inhaled device (300), first moving platform (201) with second moving platform (202) parallel arrangement and respectively with mount pad (100) sliding connection, first moving platform (201) and/or second moving platform (202) are used for the mount pad (100) motion with adjust first moving platform (201) with the interval of second moving platform (202).

2. The magnetically attractable workbench according to claim 1, further comprising a driving assembly (400) and a supporting running assembly (500), wherein the mounting base (100) is provided with a first track groove (101) and a second track groove (102), the first track groove (101) is provided with a first guide rail (1011), the second track groove (102) is provided with a second guide rail (1021), bottoms of the first moving platform (201) and the second moving platform (202) are respectively provided with the driving assembly (400) and the supporting running assembly (500), the driving assembly (400) comprises a first driving motor (401) and a running wheel (402), the first driving motor (401) is used for driving the running wheel (402) to run on the first guide rail (1011), the supporting running assembly (500) comprises a mounting frame (501) and a supporting roller (502), the mounting frame (501) is connected with the first moving platform (201) or the second moving platform (202), and the mounting frame (401) is connected with the supporting roller (502) to the supporting roller (1021), and the supporting roller (502) is connected with the supporting roller (1021).

3. The magnetically attractable workbench according to claim 2, further comprising a clamping device (600), wherein the bottoms of the first moving platform (201) and the second moving platform (202) are further provided with the clamping device (600), respectively, the clamping device (600) comprises a telescopic cylinder (601) and a clamping jaw (602), and the telescopic cylinder (601) is used for driving the clamping jaw (602) to loosen or clamp the second guide rail (1021).

4. The magnetically attractable workbench according to claim 2, wherein a third guide rail (1012) is further arranged in the first track groove (101), guide groove structures (700) are further arranged at the bottoms of the first moving platform (201) and the second moving platform (202) respectively, and the guide groove structures (700) are slidably arranged on the third guide rail (1012).

5. The magnetically attractable workbench of claim 1, further comprising an intermediate support assembly (800), the intermediate support assembly (800) mounted on the mount (100) and located between the first moving platform (201) and the second moving platform (202), the intermediate support assembly (800) for supporting the magnetic sheet material.

6. The magnetic table according to claim 5, wherein the middle support assembly (800) comprises a bottom frame (801), a first mounting frame (802), a connecting plate (803), a plate support structure (804) and a support seat (805), the support seat (805) is detachably connected with the mounting seat (100), the bottom frame (801) is supported on the support seat (805), a plurality of the first mounting frames (802) are mounted on the bottom frame (801) at intervals, the connecting plate (803) is arranged between two adjacent first mounting frames (802), the top ends of the first mounting frames (802) and the connecting plate (803) are provided with the plate support structure (804), the plate support structure (804) comprises a base (8041) and a rolling member (8042), the base (8041) is connected with the first mounting frame (802) or the connecting plate (803), the rolling member (8042) is rotatably connected with the base (8041), and the rolling member (8042) is used for contacting the magnetic plate.

7. The magnetically attractable workbench according to claim 1, further comprising an alignment device (900), wherein the magnetic attraction devices (300) on the first mobile platform (201) and the second mobile platform (202) are respectively provided with the alignment device (900), and the alignment devices (900) on the first mobile platform (201) and the second mobile platform (202) are used for adjusting the positions of the magnetic boards relative to the first mobile platform (201) and the second mobile platform (202) when the magnetic attraction devices (300) do not fix the magnetic boards.

8. The magnetically attractable workbench according to claim 7, wherein the alignment device (900) comprises a telescopic member (901) and a blocking member (902) in driving connection with the telescopic member (901), the telescopic member (901) is mounted on the magnetically attractable device (300), the blocking member (902) is located on one side of the first moving platform (201) and the second moving platform (202) facing away from each other, and the blocking member (902) is used for contacting with the edge of the magnetic plate.

9. The magnetically attractable workbench according to claim 1, wherein the magnetically attractable device (300) comprises a second mounting frame (301) and an electric permanent magnet chuck (302), the second mounting frame (301) is mounted on the first moving platform (201) or the second moving platform (202), the electric permanent magnet chuck (302) is mounted on the second mounting frame (301), and the electric permanent magnet chuck (302) is used for adsorbing the magnetic plate.

10. A sheet edge processing apparatus comprising a magnetically attractable table as claimed in any one of claims 1 to 9.