CN212886331U - Tool structure for multi-axis machining device - Google Patents
Tool structure for multi-axis machining device Download PDFInfo
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- CN212886331U CN212886331U CN202021600396.0U CN202021600396U CN212886331U CN 212886331 U CN212886331 U CN 212886331U CN 202021600396 U CN202021600396 U CN 202021600396U CN 212886331 U CN212886331 U CN 212886331U
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Abstract
The application discloses a frock structure for multiaxis processingequipment, including base, regulation structure and reinforced structure, base top threaded connection has the bolt, adjusts the structure and includes the head rod, and the base bottom mounting has the head rod, and head rod surface cover is equipped with the connecting block, and the connecting block both sides are fixed with the second connecting rod, and the second connecting rod surface all overlaps and is equipped with the fixed plate. Through the cooperation of first connecting rod and connecting block, make base self can rotate, through the cooperation of second connecting rod and fixed plate, make the base can rotate in the fixed plate outside, and through turning block and movable block cooperation, make the base can fix after rotating, the unable multi-angle pivoted problem of current frock structure when using has been solved, and can fix after guaranteeing the base rotation, the practicality of frock structure has been improved, avoid the machined part add man-hour with the frock structure between fixed firm inadequately, stability when the frock structure uses has been improved.
Description
Technical Field
The application relates to a tool structure, in particular to a tool structure for a multi-axis machining device.
Background
The multiaxis processingequipment adds man-hour, for more accurate processing to the machined part, generally all need fix the machined part through the frock structure, because the multiaxis processing is adding man-hour, in order to carry out multiaspect processing to the machined part, need carry out a plurality of angular rotations with the machined part, however, the turned angle of present frock is limited, may influence processingequipment's normal processing, has reduced the practicality of frock structure.
Generally all through the bolt fastening between current frock structure and the machined part, but because the machined part needs the multi-angle to rotate man-hour, and man-hour, machined part self also can produce to rock, and long-time back of using may lead to becoming flexible between bolt and the machined part for it is firm inadequately fixed between frock and the machined part, and current frock structure does not set up reinforced structure, has reduced the stability when the use of frock structure. Therefore, a tooling structure for a multi-axis machining device is provided to solve the above problems.
Disclosure of Invention
A tool structure for a multi-axis machining device comprises a base, an adjusting structure and a reinforcing structure, wherein a bolt is connected to the top end of the base in a threaded manner;
the adjusting structure comprises a first connecting rod, the bottom end of the base is fixedly provided with the first connecting rod, the outer surface of the first connecting rod is sleeved with a connecting block, the two sides of the connecting block are fixedly provided with second connecting rods, the outer surfaces of the second connecting rods are sleeved with fixing plates, the outer surfaces of the first connecting rod and the second connecting rod are equally fixed with rotating blocks, moving blocks matched with the rotating blocks are arranged inside the connecting block and the fixing plates, moving grooves matched with the moving blocks are formed inside the connecting block and the fixing plates, and springs are fixed between the moving blocks and the moving grooves;
the reinforced structure includes the fixed block, and the base top of bolt side is fixed with the bracing piece, and is fixed with the fixed block on the bracing piece, and the fixed block cup joints in the bolt outside, and the bolt is kept away from the inside clamp splice that is provided with of fixed block of bracing piece one side, and one side that the bracing piece was kept away from to the clamp splice is connected with the threaded rod through the bearing, and the threaded rod extends to the fixed block outside.
Furthermore, the first connecting rod is arranged to be inverted T-shaped, and the top end of the connecting block is provided with a rotating groove matched with the first connecting rod.
Further, the second connecting rod all sets up to transversely placing "T" shape, and the fixed plate all sets up to "U" shape with second connecting rod complex.
Furthermore, the rotating block and the moving block are both arranged to be trapezoidal and matched with each other, and the height of the moving groove is larger than that of the moving block.
Furthermore, the fixing block and the clamping block are glued with protective pads on one sides close to the bolts, and the fixing block and the clamping block are both arranged into arc shapes matched with the bolts.
Further, the length of the threaded rod is greater than the length from the inner side of the fixing block to the bolt, and the diameter of the inner side of the fixing block is greater than that of the bolt.
The application has the advantages that:
1. this application is rational in infrastructure, through the cooperation of head rod 3 and connecting block 4, make base 1 self can rotate, through the cooperation of second connecting rod 5 and fixed plate 6, make base 1 can rotate in the 6 outsides of fixed plate, and through the cooperation of turning block 7 and movable block 8, make base 1 to rotate the back and can fix, solved current frock structure unable multi-angle pivoted problem when using, and guarantee that base 1 can fix after rotating, improved the practicality of frock structure.
2. This application is rational in infrastructure, drives clamp splice 14 through threaded rod 15 and presss from both sides tightly fixed to bolt 2 to it is more firm to make to fix between bolt 2 and the machined part, has solved current frock structure when using the fixed firm problem inadequately of bolt 2, avoids the machined part add man-hour and fix firmly inadequately between the frock structure, has improved the stability when frock structure uses.
Drawings
Fig. 1 is a schematic front sectional view of a structure according to an embodiment of the present application.
Fig. 2 is an enlarged schematic view of a structure at a in fig. 1 according to an embodiment of the present application.
FIG. 3 is a schematic side sectional view of a portion of an embodiment of the present application.
Fig. 4 is an enlarged schematic view of a structure at B in fig. 1 according to an embodiment of the present application.
In the figure: 1. the base, 2, the bolt, 3, the head rod, 4, the connecting block, 5, the second connecting rod, 6, the fixed plate, 7, the turning block, 8, the movable block, 9, the shifting chute, 10, the spring, 11, the bracing piece, 12, the fixed block, 13, the protection pad, 14, the clamp splice, 15, the threaded rod.
Detailed Description
The technical solutions of the present application will be described in detail below with reference to the accompanying drawings and embodiments.
Referring to fig. 1-4, a tooling structure for a multi-axis machining device comprises a base 1, an adjusting structure and a reinforcing structure, wherein a bolt 2 is connected to the top end of the base 1 in a threaded manner.
The adjusting structure comprises a first connecting rod 3, the bottom end of the base 1 is fixedly provided with the first connecting rod 3, the outer surface of the first connecting rod 3 is sleeved with a connecting block 4, the two sides of the connecting block 4 are fixedly provided with second connecting rods 5, the outer surfaces of the second connecting rods 5 are sleeved with fixing plates 6, the outer surfaces of the first connecting rod 3 and the second connecting rods 5 are equally fixedly provided with rotating blocks 7, moving blocks 8 matched with the rotating blocks 7 are arranged inside the connecting block 4 and the fixing plates 6, moving grooves 9 matched with the moving blocks 8 are arranged inside the connecting block 4 and the fixing plates 6, and springs 10 are fixed between the moving blocks 8 and the moving grooves 9;
the reinforced structure includes fixed block 12, and 1 top of the base of 2 sides of bolt is fixed with bracing piece 11, and is fixed with fixed block 12 on the bracing piece 11, and fixed block 12 cup joints in the 2 outsides of bolt, and bolt 2 keeps away from the inside clamp splice 14 that is provided with of fixed block 12 of bracing piece 11 one side, and clamp splice 14 keeps away from one side of bracing piece 11 and is connected with threaded rod 15 through the bearing, and threaded rod 15 extends to the fixed block 12 outside.
The first connecting rod 3 is arranged in an inverted T shape, the top end of the connecting block 4 is provided with a rotating groove matched with the first connecting rod 3, and the rotating groove has the function of ensuring that the first connecting rod 3 cannot be separated from the connecting block 4, and meanwhile, the first connecting rod 3 can normally rotate in the connecting block 4, so that the base 1 can be conveniently adjusted; the second connecting rods 5 are all arranged in a transverse T shape, the fixing plates 6 are all arranged in a U shape matched with the second connecting rods 5, and the fixing plates are used for ensuring that the base 1 can rotate on the fixing plates 6 through the first connecting rods 3, so that the base 1 can rotate in multiple directions, and the practicability of the base 1 is improved; the rotating block 7 and the moving block 8 are both in a trapezoidal shape and matched with each other, the height of the moving groove 9 is larger than that of the moving block 8, the base 1 can drive the rotating block 7 to extrude the moving block 8 when rotating, the moving block 8 can be enabled to move into the moving groove 9 by compressing the spring 10, and the rotating block 7 can be enabled to cross over the moving block 8 to rotate; protective pads 13 are glued on one sides of the fixed block 12 and the clamping block 14 close to the bolt 2, the fixed block 12 and the clamping block 14 are both arranged in an arc shape matched with the bolt 2, and the protective pads 13 are used for increasing the friction force between the fixed block 12 and the clamping block 14 and the bolt 2, so that the clamping block 14 can fix the bolt 2 more firmly; the length of threaded rod 15 is greater than the inboard length to bolt 2 of fixed block 12, and the inboard diameter of fixed block 12 is greater than the diameter of bolt 2, and its effect is for guaranteeing that threaded rod 15 can drive clamp splice 14 and press from both sides tightly fixed to bolt 2, and guarantees that bolt 2 can normally rotate in fixed block 12 inside.
When the angle of the base 1 needs to be adjusted, firstly, the base 1 is rotated to drive the first connecting rod 3 to rotate in the connecting block 4, so that the first connecting rod 3 drives the rotating block 7 on the outer surface of the first connecting rod to rotate, the rotating block 7 extrudes the moving block 8, the moving block 8 compresses the spring 10 to move into the moving groove 9, the rotating block 7 can continuously rotate to cross the moving block 8, the angle of the base 1 can be adjusted, when the rotating block 7 crosses the moving block 8, the extrusion force applied to the moving block 8 is relieved, the moving block moves out of the moving groove 9 under the pushing of the spring 10, the rotating block 7 can be continuously limited by the moving block 8, when the rotating block rotates under the matching of the first connecting rod 3 and the connecting block 4, when a workpiece and the base 1 are fixed through the bolt 2, and then the threaded rod 15 is rotated, the clamping block 14 is driven to move towards the bolt 2 side under the matching of the threads, so that the bolt 2 is clamped and fixed through the matching of the clamping block 14 and the fixed block 12, and the bolt 2 can be reinforced.
Claims (6)
1. The utility model provides a frock structure for multiaxis processingequipment which characterized in that: the device comprises a base (1), an adjusting structure and a reinforcing structure, wherein a bolt (2) is connected to the top end of the base (1) in a threaded manner;
the adjusting structure comprises a first connecting rod (3), the bottom end of a base (1) is fixedly provided with the first connecting rod (3), the outer surface of the first connecting rod (3) is sleeved with a connecting block (4), two sides of the connecting block (4) are fixedly provided with second connecting rods (5), the outer surfaces of the second connecting rods (5) are sleeved with fixing plates (6), the outer surfaces of the first connecting rod (3) and the second connecting rods (5) are equally fixed with rotating blocks (7), moving blocks (8) matched with the rotating blocks (7) are arranged inside the connecting block (4) and the fixing plates (6), moving grooves (9) matched with the moving blocks (8) are formed inside the connecting block (4) and the fixing plates (6), and springs (10) are fixed between the moving blocks (8) and the moving grooves (9);
the reinforced structure includes fixed block (12), base (1) top of bolt (2) side is fixed with bracing piece (11), and be fixed with fixed block (12) on bracing piece (11), fixed block (12) cup joint in the bolt (2) outside, fixed block (12) inside of keeping away from bracing piece (11) one side in bolt (2) is provided with clamp splice (14), and one side of keeping away from bracing piece (11) in clamp splice (14) is connected with threaded rod (15) through the bearing, threaded rod (15) extend to the fixed block (12) outside.
2. The tooling structure for multi-axis machining devices according to claim 1, wherein: the first connecting rod (3) is arranged to be inverted T-shaped, and a rotating groove matched with the first connecting rod (3) is formed in the top end of the connecting block (4).
3. A tool structure for a multi-axis machining device according to claim 2, characterized in that: the second connecting rods (5) are all arranged to be T-shaped and transversely placed, and the fixing plates (6) are all arranged to be U-shaped and matched with the second connecting rods (5).
4. The tooling structure for multi-axis machining devices according to claim 1, wherein: the rotating block (7) and the moving block (8) are both set to be trapezoidal and matched with each other, and the height of the moving groove (9) is larger than that of the moving block (8).
5. The tooling structure for multi-axis machining devices according to claim 1, wherein: one side of the fixing block (12) and one side of the clamping block (14) close to the bolt (2) are both glued with protective pads (13), and the fixing block (12) and the clamping block (14) are both arranged into an arc shape matched with the bolt (2).
6. The tooling structure for multi-axis machining devices according to claim 1, wherein: the length of the threaded rod (15) is greater than the length from the inner side of the fixing block (12) to the bolt (2), and the diameter of the inner side of the fixing block (12) is greater than the diameter of the bolt (2).
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CN202021600396.0U CN212886331U (en) | 2020-08-05 | 2020-08-05 | Tool structure for multi-axis machining device |
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CN202021600396.0U CN212886331U (en) | 2020-08-05 | 2020-08-05 | Tool structure for multi-axis machining device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113334157A (en) * | 2021-04-27 | 2021-09-03 | 潘建芸 | Cut-in type precise cylindrical grinding machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113334157A (en) * | 2021-04-27 | 2021-09-03 | 潘建芸 | Cut-in type precise cylindrical grinding machine |
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