CN214564238U - High-adaptability engraving workbench - Google Patents

Abstract

The utility model relates to a high adaptability sculpture workstation belongs to engraver workstation field, which comprises a frame, frame top fixedly connected with mounting panel, a plurality of installation cell bodies of mounting panel fixedly connected with, equal sliding connection has first double-screw bolt in all the mounting grooves, first double-screw bolt slides along mounting groove length direction, all first double-screw bolts all are provided with first clamp plate, logical groove has all been seted up to all first clamp plates corresponding first double-screw bolt position department, first double-screw bolt passes logical groove setting, first double-screw bolt is close to first clamp plate position department threaded connection and has gland nut, gland nut is located first clamp plate and keeps away from installation cell body one side, gland nut is close to installation cell body one side and can butt in first clamp plate, first clamp plate is kept away from and is waited to process panel position department threaded connection and has the second double-screw bolt, the second double-screw bolt is close to mounting panel one end and can butt in the mounting panel. This application has the easy effect that takes place to slide that promotes by the cutter of the panel of improving the processing, improves the machining precision of engraver.

Description

High-adaptability engraving workbench

Technical Field

The application relates to the field of engraving machine workbenches, in particular to a high-adaptability engraving workbench.

Background

At present, the engraving machine is used as important automatic production engraving equipment and widely applied to various fields, before the engraving machine works, a plate to be processed is placed on an engraving worktable, a cutter of the engraving machine moves to an engraving position along with a portal frame, and the cutter gradually engraves the plate along with the movement of the portal frame.

In view of the above-mentioned related technologies, the inventor thinks that the tool of the engraving machine is easy to push the plate to be processed to slide on the surface of the worktable in the process of moving and engraving along with the portal frame, and the plate sliding reduces the engraving precision of the engraving machine, and is not beneficial to improving the production efficiency and the production quality.

SUMMERY OF THE UTILITY MODEL

Easy the condition of taking place to slide in order to improve the panel of being processed is promoted by the cutter, this application provides a high adaptability sculpture workstation.

The application provides a high adaptability sculpture workstation adopts following technical scheme:

the utility model provides a high adaptability sculpture workstation, which comprises a frame, frame top fixedly connected with mounting panel, a plurality of installation cell bodies of mounting panel fixedly connected with, all internal equal sliding connection of mounting groove has first double-screw bolt, first double-screw bolt slides along mounting groove length direction, all first double-screw bolts all are provided with first clamp plate, logical groove has all been seted up to all first clamp plates corresponding first double-screw bolt position department, first double-screw bolt passes logical groove setting, first double-screw bolt is close to first clamp plate position department threaded connection and has gland nut, gland nut is located first clamp plate and keeps away from installation cell body one side, gland nut is close to installation cell body one side and can the butt in first clamp plate, panel position department threaded connection to be processed is kept away from to first clamp plate has the second double-screw bolt, the second double-screw bolt is close to mounting panel one end and can the butt in the mounting panel.

By adopting the above scheme, after the panel of treating processing is placed on the mounting panel, adjust sliding connection in the first double-screw bolt of installation cell body, make the first clamp plate on the first double-screw bolt be in the position of suitable extrusion fixed panel, rotatory gland nut makes first clamp plate be close to panel one end butt in panel. The second stud is rotated to enable one end, close to the mounting plate, of the second stud to be abutted to the mounting plate, the second stud gives a force for the first pressing plate to keep away from the mounting plate when one end, close to the mounting plate, of the first pressing plate is far away from the mounting plate, the force for extruding the plate is applied to the position, close to the plate, of the first pressing plate through the compression nut by utilizing the lever principle, the disturbance of the movement of the cutter to the plate is reduced, the probability of the plate sliding on the surface of the mounting plate is reduced, and the machining precision of the engraving machine is improved.

Preferably, a plurality of mounting grooves are formed in the position, close to the plate to be processed, of the upper side of the mounting plate, the mounting groove bodies are fixedly connected to the positions, corresponding to the mounting grooves, of the mounting plate, and the tops of the mounting groove bodies and the mounting plate are located on the same horizontal plane.

By adopting the scheme, the installation groove body is installed in the installation groove of the installation plate, the top of the installation groove body and the installation plate are located on the same horizontal plane, the connection mode reduces the influence of the installation groove body on the flatness of the installation plate, and reduces the interference of the installation groove body on the plate placement.

Preferably, all first double-screw bolts are close to the equal fixedly connected with spacing piece of installation cell body one end, and all installation cell bodies are kept away from the equal fixedly connected with spacing flange of frame one side, and spacing piece is close to first double-screw bolt one side and can the butt in corresponding spacing flange and be close to mounting panel one side.

By adopting the scheme, the limiting sheet is abutted to one side, close to the mounting plate, of the corresponding limiting flange, the movement of the first stud in the vertical direction is limited, and the situation that the first stud is separated from the mounting groove body to enable the first pressing plate to lose the fixing effect on the plate is reduced.

Preferably, the mounting grooves are longer than the mounting groove bodies, and the two ends of each mounting groove body and the corresponding extended parts of the mounting grooves are formed with the dismounting grooves together.

Through adopting above-mentioned scheme, when the too big panel of area processed or dead weight can maintain stable panel, utilize the space of dismantling the groove, with first double-screw bolt and spacing piece from the internal roll-off of mounting groove, dismantle first double-screw bolt, first clamp plate and the second double-screw bolt of mounting panel, give way the place space for panel.

Preferably, the position, close to the limit flange, of each first stud is connected with a limit nut in a threaded manner, and one side, close to the limit flange, of each limit nut can abut against the limit flange.

By adopting the above scheme, after the first stud is adjusted to a proper position, the limiting nut is rotated to enable the limiting nut to abut against the limiting flange, the limiting flange is clamped by the limiting nut and the limiting sheet, the probability of sliding of the first stud in the working process of the engraving machine is reduced, and the stability of the first stud is improved.

Preferably, all through grooves are arranged along the length direction of the first pressing plate, the first studs are connected in the through grooves in a sliding mode, and the first studs slide along the length direction of the sliding grooves.

Through adopting above-mentioned scheme, first clamp plate utilizes to lead to the angle and the position that can be according to the size of panel and the nimble adjustment of thickness self, and further through the cooperation with the second double-screw bolt improve with the frictional force of panel, reduce panel and take place gliding probability.

Preferably, one end, close to the mounting plate, of the second stud is fixedly connected with an elastic gasket, and one side, far away from the second stud, of the gasket can abut against the mounting plate.

By adopting the scheme, the elastic gasket increases the friction force between the second stud and the mounting plate, improves the stability of the second stud in the process of extruding the plate by the first pressing plate, and reduces the probability of the second stud slipping to make the first pressing plate invalid.

Preferably, the first pressing plate is in an arc shape, and the middle part of the first pressing plate is bent towards the direction away from the mounting plate.

By adopting the above scheme, rotating gland nut and applying decurrent power for being arcuate first clamp plate, make arcuate first clamp plate take place obvious deformation, first clamp plate utilizes the deformation of self and gland nut to produce the extrusion force that lasts, reduces gland nut and takes place not hard up probability in equipment work, also increases the extrusion force of first clamp plate to panel.

Preferably, all the first pressing plates are fixedly connected with suckers on one sides, close to the mounting plate, of the positions, far away from the second studs, of the first pressing plates.

Through adopting above-mentioned scheme, when equipment fixed surface is more smooth panel, the sucking disc of first clamp plate adsorbs on the surface of panel, reduces panel and first clamp plate and takes place relative slip's probability, improves the stability of panel.

In summary, the present application has the following beneficial effects:

1. the second stud applies force to one end, far away from the plate, of the first pressing plate and far away from the mounting plate, and the force for extruding the plate is applied to the position, close to the plate, of the first pressing plate through the compression nut by utilizing the lever principle, so that the disturbance of the movement of the cutter to the plate is reduced, the probability of the plate sliding on the surface of the mounting plate is reduced, and the processing precision of the engraving machine is improved;

2. the first pressing plate can flexibly adjust the angle and the position of the first pressing plate according to the size and the thickness of the plate by using the through groove, the friction force between the first pressing plate and the plate is further improved by matching with the second stud, and the sliding probability of the plate is reduced;

3. the sucking disc of first clamp plate adsorbs on the surface of panel, reduces panel and first clamp plate and takes place relative slip's probability, improves the stability of panel.

Drawings

Fig. 1 is a schematic structural view of a high-adaptability engraving table according to embodiment 1 of the present application;

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

fig. 3 is a sectional view of a highly adaptable engraving table of embodiment 1 of the present application;

FIG. 4 is an enlarged view of portion B of FIG. 3;

FIG. 5 is a schematic structural view of a high-adaptability engraving table according to embodiment 2 of the present application;

FIG. 6 is an enlarged view of portion C of FIG. 5;

fig. 7 is a sectional view of a highly adaptable engraving table of embodiment 2 of the present application;

fig. 8 is an enlarged view of a portion D in fig. 7.

Description of reference numerals: 1. a frame; 2. mounting a plate; 21. installing a groove; 22. disassembling the groove; 23. installing a groove body; 231. a limiting flange; 3. a first stud; 31. a limiting sheet; 32. a compression nut; 33. a first platen; 331. a through groove; 332. a suction cup; 34. a limit nut; 4. a second stud; 41. and (7) a gasket.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses high adaptability sculpture workstation.

Example 1

Referring to fig. 1, a high adaptability sculpture workstation includes frame 1, and frame 1 top fixedly connected with mounting panel 2, mounting panel 2 sets up along frame 1 length direction.

Referring to fig. 1 and 2, 2 upside of mounting panel are close to and treat that processing panel position department has seted up a plurality of mounting groove 21, and all mounting groove 21 all set up along 1 length direction of frame, and mounting panel 2 corresponds the equal fixedly connected with installation cell body 23 of mounting groove 21 position department, and installation cell body 23 top is in same horizontal plane with mounting panel 2, and installation cell body 23 setting is good at to installation groove 21, and all installation cell body 23 both ends all are formed with dismantlement groove 22 with the installation groove 21 partial length jointly. The installation groove body 23 is installed in the installation groove 21 of the installation plate 2, the top of the installation groove body 23 is located on the same horizontal plane with the installation plate 2, the connection mode reduces the influence of the installation groove body 23 on the flatness of the installation plate 2, and the interference of the installation groove body 23 on the plate placing is reduced.

Referring to fig. 3 and 4, all the installation groove bodies 23 are internally and slidably connected with first studs 3, the first studs 3 slide along the length direction of the installation groove bodies 23, all the first studs 3 are vertically arranged, all the first studs 3 are close to one ends of the installation groove bodies 23 and fixedly connected with limiting pieces 31, all the installation groove bodies 23 are far away from one side of the rack 1 and fixedly connected with limiting flanges 231, and one side of each limiting piece 31 close to the first stud 3 can abut against one side of the corresponding limiting flange 231 close to one side of the installation plate 2. The limiting sheet 31 abuts against one side of the corresponding limiting flange 231 close to the mounting plate 2, so that the movement of the first stud 3 in the vertical direction is limited, and the situation that the first stud 3 is separated from the mounting groove body 23 to enable the first pressing plate 33 to lose the fixing effect on the plate is reduced.

Referring to fig. 2 and 4, all first studs 3 are provided with first pressing plates 33, through grooves 331 are formed in positions, corresponding to the first studs, of all the first pressing plates 33, all the through grooves 331 are arranged along the length direction of the first pressing plates 33, the first studs 3 are slidably connected in the through grooves 331, the first studs 3 slide along the length direction of the through grooves, the positions, close to the first pressing plates 33, of the first studs 3 are in threaded connection with compression nuts 32, the compression nuts 32 are located on one sides, far away from the installation groove body 23, of the first pressing plates 33, and one sides, close to the installation groove body 23, of the compression nuts 32 can abut against the first pressing plates 33. The first stud 3 slidably connected in the installation groove 23 is adjusted, so that the first pressing plate 33 on the first stud 3 is at a position suitable for extruding and fixing the plate, and the pressing nut 32 is rotated to enable one end, close to the plate, of the first pressing plate 33 to abut against the plate.

Referring to fig. 2 and 4, a second stud 4 is connected to the position, far away from the plate to be processed, of the first pressing plate 33 through threads, the second stud is vertically arranged, a gasket 41 with elasticity is fixedly connected to one end, close to the mounting plate 2, of the second stud 4, and one side, far away from the second stud 4, of the gasket 41 can abut against the mounting plate 2. The second stud 4 is rotated to enable one end, close to the mounting plate 2, of the second stud 4 to abut against the mounting plate 2, the second stud 4 gives a force for the first pressing plate 33 to keep away from the mounting plate 2, one end, close to the plate, of the first pressing plate 33 is far away from the force for the mounting plate 2, the force for extruding the plate is applied to the position, close to the plate, of the first pressing plate 33 through the compression nut 32 by utilizing the lever principle, the disturbance of the movement of a cutter to the plate is reduced, the probability of the plate sliding on the surface of the mounting plate 2 is reduced, and the machining precision of the engraving machine is improved.

The implementation principle of the embodiment 1 is as follows: after the plate to be processed is placed on the mounting plate 2, the first stud 3 slidably connected in the mounting groove 23 is adjusted, so that the first pressing plate 33 on the first stud 3 is located at a position suitable for extruding and fixing the plate, and the pressing nut 32 is rotated to enable one end, close to the plate, of the first pressing plate 33 to abut against the plate.

The second stud 4 is rotated to enable one end, close to the mounting plate 2, of the second stud 4 to abut against the mounting plate 2, the second stud 4 gives a force for the first pressing plate 33 to keep away from the mounting plate 2, one end, close to the plate, of the first pressing plate 33 is far away from the force for the mounting plate 2, the force for extruding the plate is applied to the position, close to the plate, of the first pressing plate 33 through the compression nut 32 by utilizing the lever principle, the disturbance of the movement of a cutter to the plate is reduced, the probability of the plate sliding on the surface of the mounting plate 2 is reduced, and the machining precision of the engraving machine is improved.

Example 2

Referring to fig. 5 and 6, the present embodiment is different from embodiment 1 in that the first presser plate 33 has an arcuate shape, and the middle portion of the first presser plate 33 is curved away from the mounting plate 2. The compression nut 32 is rotated to apply downward force to the first arched pressure plate 33, so that the first arched pressure plate 33 is obviously deformed, the first pressure plate 33 generates continuous extrusion force with the compression nut 32 by utilizing self deformation, the probability of looseness of the compression nut 32 in the operation of equipment is reduced, and the extrusion force of the first pressure plate 33 to the plate is also increased.

Referring to fig. 7 and 8, a suction cup 332 is fixedly connected to one side of the first pressing plate 33, which is close to the mounting plate 2 and is far away from the second stud 4. When the equipment fixes a smooth plate, the suction cups 332 of the first pressing plate 33 are adsorbed on the surface of the plate, so that the probability of relative sliding between the plate and the first pressing plate 33 is reduced, and the stability of the plate is improved.

Referring to fig. 6 and 8, a limit nut 34 is screwed to all the first studs 3 at a position close to the limit flange 231, and the limit nut 34 can abut against the limit flange 231 at a side close to the limit flange 231. After the first stud 3 is adjusted to a proper position, the limiting nut 34 is rotated to enable the limiting nut 34 to abut against the limiting flange 231, the limiting nut 34 and the limiting sheet 31 clamp the limiting flange 231 tightly, the probability of sliding of the first stud 3 in the working process of the engraving machine is reduced, and the stability of the first stud 3 is improved.

The implementation principle of the embodiment 2 is as follows: after a plate to be processed is placed on the mounting plate 2, the first stud 3 connected in the mounting groove body 23 in a sliding mode is adjusted, the first pressing plate 33 on the first stud 3 is located at a position suitable for extruding and fixing the plate, after the first stud 3 is adjusted to the suitable position, the limiting nut 34 is rotated to enable the limiting nut 34 to abut against the limiting flange 231, the limiting nut 34 and the limiting sheet 31 clamp the limiting flange 231 tightly, the probability that the first stud 3 slides in the working process of the engraving machine is reduced, and the stability of the first stud 3 is improved.

The compression nut 32 is rotated to enable one end, close to the plate, of the first pressing plate 33 to abut against the plate, the first arched pressing plate 33 is obviously deformed, the first pressing plate 33 utilizes self deformation and the compression nut 32 to generate continuous extrusion force, the probability of looseness of the compression nut 32 in the working process of equipment is reduced, and the extrusion force of the first pressing plate 33 on the plate is also increased.

The second stud 4 is rotated to enable one end, close to the mounting plate 2, of the second stud 4 to abut against the mounting plate 2, the second stud 4 gives a force for the first pressing plate 33 to keep away from the mounting plate 2, one end, close to the plate, of the first pressing plate 33 is far away from the force for the mounting plate 2, the force for extruding the plate is applied to the position, close to the plate, of the first pressing plate 33 through the compression nut 32 by utilizing the lever principle, the disturbance of the movement of a cutter to the plate is reduced, the probability of the plate sliding on the surface of the mounting plate 2 is reduced, and the machining precision of the engraving machine is improved.

When the equipment fixes a smooth plate, the suction cups 332 of the first pressing plate 33 are adsorbed on the surface of the plate, so that the probability of relative sliding between the plate and the first pressing plate 33 is reduced, and the stability of the plate is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a high adaptability sculpture workstation, includes frame (1), its characterized in that: the top of the rack (1) is fixedly connected with a mounting plate (2), the mounting plate (2) is fixedly connected with a plurality of mounting groove bodies (23), all the mounting groove bodies (23) are internally and slidably connected with first studs (3), the first studs (3) slide along the length direction of the mounting groove bodies (23), all the first studs (3) are provided with first pressing plates (33), all the first pressing plates (33) are provided with through grooves (331) corresponding to the positions of the first studs (3), the first studs (3) pass through the through grooves (331), the positions of the first studs (3) close to the first pressing plates (33) are in threaded connection with gland nuts (32), the gland nuts (32) are positioned on one sides of the first pressing plates (33) far away from the mounting groove bodies (23), one sides of the gland nuts (32) close to the mounting groove bodies (23) can be abutted to the first pressing plates (33), the positions of the first pressing plates (33) far away from the plates to be processed are in threaded connection with second studs (4), one end of the second stud (4) close to the mounting plate (2) can be abutted against the mounting plate (2).

2. The high-adaptability engraving work table according to claim 1, wherein: a plurality of mounting grooves (21) are opened to the mounting panel (2) upside near the position of the plate to be processed, the mounting groove bodies (23) are fixedly connected to the mounting panel (2) corresponding to the position of the mounting grooves (21), and the tops of the mounting groove bodies (23) and the mounting panel (2) are located on the same horizontal plane.

3. The high-adaptability engraving work table according to claim 2, wherein: all first double-screw bolts (3) are close to the equal fixedly connected with spacing piece (31) of installation cell body (23) one end, and all installation cell bodies (23) are kept away from the equal fixedly connected with spacing flange (231) of frame (1) one side, and spacing piece (31) are close to first double-screw bolts (3) one side and can butt in corresponding spacing flange (231) and be close to mounting panel (2) one side.

4. The high-adaptability engraving work table according to claim 3, wherein: mounting groove (21) are longer than mounting groove body (23) and set up, and all mounting groove body (23) both ends all are formed with dismantlement groove (22) jointly with mounting groove (21) that correspond and grow partly.

5. The high-adaptability engraving work table according to claim 3, wherein: and the position, close to the limiting flange (231), of each first stud (3) is in threaded connection with a limiting nut (34), and one side, close to the limiting flange (231), of each limiting nut (34) can abut against the limiting flange (231).

6. The high-adaptability engraving work table according to claim 1, wherein: all through grooves (331) are arranged along the length direction of the first pressing plate (33), the first studs (3) are connected in the through grooves (331) in a sliding mode, and the first studs (3) slide along the length direction of the sliding grooves.

7. The high-adaptability engraving work table according to claim 1, wherein: one end, close to the mounting plate (2), of the second stud (4) is fixedly connected with a gasket (41) with elasticity, and one side, far away from the second stud (4), of the gasket (41) can abut against the mounting plate (2).

8. The high-adaptability engraving work table according to claim 1, wherein: the first pressing plate (33) is arched, and the middle part of the first pressing plate (33) is bent towards the direction far away from the mounting plate (2).

9. The high-adaptability engraving work table according to claim 1, wherein: and suction cups (332) are fixedly connected to one sides, close to the mounting plate (2), of the positions, far away from the second studs (4), of all the first pressing plates (33).

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