CN212046632U - Intelligent three-axis multifunctional engraving machine - Google Patents
Intelligent three-axis multifunctional engraving machine Download PDFInfo
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- CN212046632U CN212046632U CN201922241874.7U CN201922241874U CN212046632U CN 212046632 U CN212046632 U CN 212046632U CN 201922241874 U CN201922241874 U CN 201922241874U CN 212046632 U CN212046632 U CN 212046632U
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Abstract
The utility model discloses a multi-functional engraver of intelligence triaxial, belong to engraver technical field, adopt the motor to drive the removal of three degree of freedom about the ball screw realization, the lectotype of motor is gone on through the load of engraver and the stability of whole system, the precision grade can reach 0.01mm, the scope of vibrations is smaller, can realize the letter basically, the discernment of digit with write, it is whole respond well, the lead screw adopts the ball formula, the reason can reduce the frictional force among the sculpture process greatly, and can improve the position precision of engraver, realize the sculpture of exquisite pattern, the main shaft of engraver adopts electric main shaft, it is simple to be the driving chain, the complexity of transmission driving chain has been simplified greatly.
Description
Technical Field
The utility model relates to an engraver especially relates to a multi-functional engraver of intelligence triaxial belongs to engraver technical field.
Background
In the last 90 s to today's development, mechanical engravers have also become technically fairly mature domestically. From a carving machine to a three-dimensional carving machine, the carving process can be called as dragon tiger, the living needs of people are met, the application range is as large as the whole world, and the water cup is as small as the water cup of people has the carving trace of the carving machine. The carving machine is developed in China, the existence of the carving machine is not enough in industry, and the carving machine has non-negligible influence on the life of people.
The engraver load and holistic stability of prior art are not good, and secondly at the in-process frictional force of triaxial motion too big, and the too complicated whole volume of engraver that leads to of driving chain is difficult to reduce, and the in-process frictional force of a triaxial motion is little for this reason, and the simple good intelligent triaxial multi-functional engraver of stability of driving chain optimizes above-mentioned problem.
Disclosure of Invention
The utility model mainly aims at providing a multi-functional engraver of basic intelligence triaxial adopts the motor to drive ball screw and realizes the removal of controlling the three degree of freedom around from top to bottom, and the driving chain is simple, frictional force is little and positioning accuracy is high.
The purpose of the utility model can be achieved by adopting the following technical scheme:
an intelligent three-axis multifunctional engraving machine comprises a base and side plates installed at one end of two side portions of the base through screws, wherein a Y-axis motor is installed at the top of the outer side of one group of side plates through a Y-axis motor frame, a Y-axis lead screw extending to the inner wall of the other group of side plates is installed at the output end of the Y-axis motor, a C-shaped sliding frame is installed at one side of the Y-axis lead screw through a Y-axis lead screw nut pair, a Z-axis motor is installed at the top of the sliding frame through a Z-axis motor frame, a Z-axis lead screw extending to the other end of the inner side of the sliding frame is installed at the output end of the Z-axis motor, Z-axis lead screws are sleeved on the outer sides of the Z-axis lead screws and are meshed with Z-axis lead screw nuts, electric spindle bases are installed on the side portions of the Z-axis lead screw nuts, position sensors are arranged on top plates, an X-axis screw rod extending to the inner wall of the base and far away from one side of the side plate is mounted at the output end of the X-axis motor, an X-axis screw rod nut pair meshed with the X-axis screw rod is sleeved on the outer side of the X-axis screw rod, a clamp is arranged at the position, far away from the side plate, of the top of the base through a second slide block guide rail, an X-axis polished rod is fixed to one side of the bottom in the base through a screw rod and is parallel to the X-axis screw rod, an X-axis light rod slide block is sleeved on the outer side of the X-axis polished rod, the X-axis polished rod slide block and the X-axis screw rod nut pair are both fixed with the same group of moving plates through the screw rod, and the; the inboard top of curb plate and bottom just keep away from anchor clamps department welding have with the parallel Y axle polished rod of Y axle lead screw, the outside cover of Y axle polished rod is equipped with Y axle polished rod slider, Y axle polished rod slider passes through the screw rod to be fixed on the carriage of C type structure, the carriage inboard of C type structure install with the parallel Z axle polished rod of Z axle lead screw, just the outside cover of Z axle polished rod is equipped with Z axle polished rod slider, this Z axle polished rod slider with the welding of Z axle lead screw nut.
Preferably, the side plate is inboard to be kept away from anchor clamps department welding has the Y axle baffle, Y axle baffle middle part is rectangle plate body top and bottom outwards extends the certain distance to both sides slope, extend the certain distance with parallel rectangle plate body side again after with the inboard welding of curb plate.
Preferably, the nominal diameter d0 of the X-axis screw rod, the Y-axis screw rod and the Z-axis screw rod is 12mm, the maximum pressed length l of the screw rod is 5m, the diameter Dw of the ball is 3.381mm, and the maximum working load F of the axial force fed by the screw rod ism≤337.5925。
Preferably, the top of base is on a parallel with Y axle polished rod and be close to Y axle polished rod department installs first slider guide rail, the outside cover of first slider guide rail is equipped with Y axle limiting slide block, Y axle limiting slide block is kept away from one side welding of Y axle polished rod has the side limiting plate, just the side limiting plate perpendicular with Y axle polished rod.
Preferably, the second slider guide rail is provided with two groups, is parallel to each other and is installed at a position far away from the Y-axis polished rod.
Preferably, anchor clamps are established including the cover the X axle limit slide in the second slider guide rail outside, L type support frame is installed through the screw rod in X axle limit slide's top, the diaphragm is installed through the screw rod in the inboard top of L type support frame, it has two sets of screw rods to run through perpendicularly on the diaphragm, the top of diaphragm just is located the outside cover of screw rod is equipped with adjusting nut, the screw rod is kept away from the tip welding of diaphragm has the pressure to hold the board, the both sides welding of pressing the board bottom has the side spacing piece.
Preferably, a Z-axis clamp support is welded on one side, facing the clamp, of the electric spindle base, and multiple groups of through holes are symmetrically formed in the Z-axis clamp support.
Preferably, Z axle motor frame, Y axle motor frame and X axle motor frame connect for U type structure, the carriage, curb plate, Y axle baffle, side limiting plate, the Z axle fixture support of base, C type structure all adopt the aluminum alloy material.
Preferably, a coupling is installed at the output end of the Z-axis motor, and the coupling is located on the inner side of the Y-axis motor frame and installed at the top of the sliding frame of the C-shaped structure.
The utility model has the advantages of:
the utility model provides an intelligent three-axis multifunctional engraving machine, which adopts a motor to drive a ball screw to realize the movement of three degrees of freedom up, down, left, right, front and back, the screw adopts a ball type, the reason is that the friction force in the engraving process can be greatly reduced, the main shaft of the engraving machine adopts an electric main shaft, the transmission chain is simple, the complexity of the transmission chain is greatly simplified, the movement of a main shaft base for placing an engraving head is respectively realized through the matching of a Y-axis motor and a Y-axis screw, a Y-axis screw nut pair, a Z-axis motor and a Z-axis screw, and the matching of the Z-axis screw nut pair, so as to drive the engraving head to move in the Y-axis and Z-axis directions, the movement of a top plate of a fixed clamp is driven through the matching of an X-axis motor, the X-axis screw and the X-axis screw nut pair, so as to drive a movable plate to move, the movement of a clamping, such design is favorable to the location, and the horizontal positioning accuracy that reaches is higher, and Y axle polished rod slider passes through the screw rod to be fixed simultaneously on the carriage of C type structure, the carriage of C type structure is convenient to be dismantled and is reduced frictional force.
Drawings
Fig. 1 is a schematic view of a first perspective three-dimensional structure of a preferred embodiment of an intelligent three-axis multifunctional engraving machine according to the present invention;
fig. 2 is a schematic view of a second perspective three-dimensional structure of a preferred embodiment of an intelligent three-axis multifunctional engraving machine according to the present invention;
fig. 3 is a side view of a Y-axis moving axis mechanism of a preferred embodiment of an intelligent three-axis multifunctional engraving machine according to the present invention;
fig. 4 is a schematic perspective view of a polish rod slider according to a preferred embodiment of the intelligent three-axis multifunctional engraving machine of the present invention;
fig. 5 is a schematic perspective view of a lead screw nut slider according to a preferred embodiment of the intelligent three-axis multifunctional engraving machine of the present invention;
fig. 6 is a schematic perspective view of a clamping device according to a preferred embodiment of the intelligent three-axis multifunctional engraving machine of the present invention;
fig. 7 is a side view of a side plate of a preferred embodiment of an intelligent three-axis multifunctional engraving machine according to the present invention;
fig. 8 is a side view of a Z-axis clamp holder according to a preferred embodiment of the present invention.
In the figure: 1-Y axis polished rod, 2-Y axis baffle, 3-position sensor, 4-Y axis motor, 5-side plate, 6-first slide block guide rail, 7-Z axis motor, 8-coupling, 9-Z axis screw, 10-Z axis screw nut, 11-electric spindle base, 12-base, 13-clamp, 14-X axis screw, 15-X axis polished rod, 16-X axis screw nut pair, 17-X axis screw rod slide block, 18-X axis motor, 19-Z axis polished rod, 20-Y axis screw rod nut pair, 21-Z axis motor rack, 22-Y axis screw rod slide block, 24-L type support rack, 25-screw rod, 26-transverse plate, 27-side limit block, 28-pressure plate, 29-Z axis clamp rack, 30-a second slide block guide rail, 31-an X-axis limiting slide block, 32-a side limiting plate and 33-a Y-axis limiting slide block.
Detailed Description
In order to make the technical solutions of the present invention clearer and clearer for those skilled in the art, the present invention will be described in further detail with reference to the following embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.
As shown in fig. 1-8, the intelligent three-axis multifunctional engraving machine provided by this embodiment includes a base 12 and side plates 5 installed at one end of two side portions of the base 12 through screws, a Y-axis motor 4 is installed at the top of the outer side of one group of side plates 5 through a Y-axis motor frame, a Y-axis screw rod extending to the inner wall of the other group of side plates 5 is installed at the output end of the Y-axis motor 4, a C-shaped sliding frame is installed at one side of the Y-axis screw rod through a Y-axis screw rod nut pair 20, a Z-axis motor 7 is installed at the top of the sliding frame through a Z-axis motor frame 21, a Z-axis screw rod 9 extending to the other end of the inner side of the sliding frame is installed at the output end of the Z-axis motor 7, a Z-axis screw rod nut 10 engaged with the Z-axis screw rod nut is sleeved at the outer side of the Z-, the roof of base 12 just is located equidistant being equipped with position sensor 3 between the curb plate 5, base 12 is close to the lateral part intermediate position department of curb plate 5 department and installs X axle motor 18 through X axle motor frame, X axle motor 18's output is installed and is extended to the X axle lead screw 14 that 5 one side of curb plate 5 was kept away from to base 12 inner wall, X axle lead screw 14's outside cover is equipped with the X axle lead screw nut pair 16 with X axle lead screw 14 intermeshing, base 12 top is kept away from curb plate 5 department and is equipped with anchor clamps 13 through second slider guide rail 30.
The Y-axis motor 4 is started to drive the Y-axis screw rod to rotate so as to drive the Y-axis screw rod nut pair 20 to move, the Y-axis screw rod nut pair 20 is fixed with a sliding frame screw rod with a C-type structure so as to drive a sliding frame with the C-type structure to slide in the Y-axis direction, the Z-axis motor 7 is started to drive the Z-axis screw rod 9 to rotate so as to drive the Z-axis screw rod nut 10 to move, the electric spindle base 11 is driven to move on the Z axis through the Z-axis screw rod nut 10, the X-axis motor 18 is started to drive the X-axis screw rod to rotate so as to drive the X-axis screw rod nut pair 16 to move, the movable plate is driven to move through the X-axis screw rod nut pair 16, and the workpiece is.
In this embodiment, the top and the bottom of the inner side of the side plate 5 and the place far away from the fixture 13 are welded with a Y-axis polished rod 1 parallel to a Y-axis polished rod, the outer side of the Y-axis polished rod 1 is sleeved with a Y-axis polished rod slider 22, the Y-axis polished rod slider 22 is fixed on the sliding frame of the C-type structure through a screw, a Z-axis polished rod 19 parallel to a Z-axis polished rod 9 is installed on the inner side of the sliding frame of the C-type structure, the outer side of the Z-axis polished rod 19 is sleeved with a Z-axis polished rod slider, and the Z-axis polished rod slider is welded with a.
Two Y axle polished rods 1 and a Y axle lead screw, such design is favorable to the location, and the horizontal positioning precision that reaches is higher, and Y axle lead screw is mainly by Y axle motor 4 drive, and the middle coupling joint that passes through is favorable to the work of Y axle lead screw, and Y axle lead screw and the vice 20 cooperation movements of Y axle lead screw nut, the precision that reaches also is very high, and secondly just curb plate 5 all adopts 5mm centimetre thick aluminum plate to do the support, and is firm and use.
The motor is adopted to drive the ball screw to realize the movement of three degrees of freedom up, down, left, right, front and back, the screw adopts a ball type, the friction force in the engraving process can be greatly reduced, the main shaft of the engraving machine adopts an electric main shaft, the transmission chain is simple, the complexity of the transmission chain is greatly simplified, the movement of a main shaft base for placing the engraving head is respectively realized through the matching of a Y-axis motor and a Y-axis screw rod, a Y-axis screw rod nut pair, the matching of a Z-axis motor and a Z-axis screw rod, and a Z-axis screw rod nut pair, so as to drive the engraving head to move in the Y-axis and Z-axis directions, the movement of a movable plate is driven through the matching of an X-axis motor, an X-axis screw rod and an X-axis screw rod nut pair, so as to drive the top plate of the fixed clamp to move, the movement of a clamped object in, the horizontal positioning precision that reaches is higher, and Y axle polished rod slider passes through the screw rod to be fixed simultaneously on the carriage of C type structure, the carriage of C type structure is convenient to be dismantled and is reduced frictional force.
In this embodiment, the X-axis screw, the Y-axis screw, and the Z-axis screw satisfy the following conditions: the nominal diameter d0 of the screw rod is 12mm, the maximum pressed length 1 of the screw rod is 5m, the diameter Dw of the ball is 3.381mm, FmWhen the size is less than or equal to 337.5925, the screw rod can be arranged by adopting the sizeThe operation is relatively stable; the specific analysis is as follows:
when the thin and long screw rod in the whole mechanical equipment is compressed under load, the thin and long screw rod is the critical of the maximum compression load without instability, the formula is shown as the following (1),
d2=d0-1.2Dw (2)
in the formula: fKThe capacity of the actual screw rod for bearing the compressive load is as follows: n;
fKin order to maintain the stable support coefficient of the compression bar, since the application adopts a double-bar mode, f is takenK=4;
E is the modulus of elasticity of steel, E is 2.1X 105MPa;
k-maintaining the stable safety coefficient of the compression bar, generally taking 2.5-4, and taking the minimum value K as 4 when vertically installing;
l-maximum pressed length of screw, unit: m;
d0nominal diameter of the screw, unit: m;
Dwball diameter, unit: m;
substituting data to obtain: d2=d0-1.2dw=12-1.2×3.381=9.14mm;
The stability safety coefficient nk of the pressure lever is maintained,
when nk is more than or equal to [ nk ], the pressure lever is stable, and [ nk ] is a permissible stability safety factor, and generally [ nk ] is 2.5-4.
Wherein FmThe screw rod feeds the working load with the maximum axial force; the calculation is disclosed as follows:
Fm=KFx+F(Fz+2×FY+G) (3)
in the formula: k is an experimental coefficient considering the influence of the pad-attaching moment, and is 1.4;
f is the friction coefficient of the slide rail, the coefficient of the joint guide rail is generally 0.03-0.05, and F is 0.03; fx FY FzRespectively the feed resistance of the x-axis, the feed resistance of the Y-axis and the feed resistance of the z-axis,
g-the weight of the main part of the frame,
then:
In this relationship, the lead screw is stable.
In this embodiment, the welding of the inboard 13 department of keeping away from anchor clamps of curb plate 5 has Y axle baffle 2, and 2 middle parts of Y axle baffle are the outside certain distance that extends of rectangular plate body top and bottom to both sides slope, and the inboard welding of curb plate 5 is extended the certain distance with parallel rectangular plate body side again.
The stability is further improved by mounting the Y-axis baffle 2 inside the side plates 5.
In this embodiment, an X-axis light rod 15 is fixed on one side of the bottom of the base 12 through a screw, the X-axis light rod 15 is parallel to the X-axis screw 14, an X-axis light rod slider 17 is sleeved on the outer side of the X-axis light rod 15, the X-axis light rod slider 17 and the X-axis screw nut pair 16 are both fixed with a same set of moving plates through screws, and the moving plates are fixed with the top plate of the base (12).
The X-axis light bar 15 and the X-axis lead screw 14 also play a role in positioning, the X-axis lead screw 14 is mainly driven by the X-axis motor 18, the middle part of the X-axis lead screw is connected through the coupler, the work of the X-axis lead screw 14 is facilitated, the X-axis lead screw 14 and the X-axis lead screw nut pair 16 move in a matched mode, and the achieved precision is very high.
In this embodiment, the top of the base 12 is parallel to the Y-axis polished rod 1 and is close to the Y-axis polished rod 1 and is provided with a first slider guide rail 6, the outer side of the first slider guide rail 6 is sleeved with a Y-axis limiting slider 33, one side of the Y-axis limiting slider 33 away from the Y-axis polished rod 1 is welded with a side limiting plate 32, and the side limiting plate 32 is perpendicular to the Y-axis polished rod 1.
The first slider guide rail 6 is provided so that the Y-axis limit slider 33 thereof can slide on the first slider guide rail 6 to realize a limit function by the side limit plate 32.
In the present embodiment, the second slider rails 30 are provided in two sets and are parallel to each other and installed at a position distant from the Y-axis polished rod 1.
In this embodiment, anchor clamps 13 establish the X axle limit slider 31 in the second slider guide rail 30 outside including the cover, L type support frame 24 is installed through the screw rod in X axle limit slider 31's top, diaphragm 26 is installed through the screw rod in the inboard top of L type support frame 24, it has two sets of screw rods 25 to run through perpendicularly on diaphragm 26, the top of diaphragm 26 just is located the outside cover of screw rod 25 and is equipped with adjusting nut, the tip welding that diaphragm 26 was kept away from to screw rod 25 has the pressure board 28, the both sides welding of pressure board 28 bottom has side stopper 27.
The distance between the pressing plate 28 and the base 12 is changed by the mutual matching of the adjusting nut and the screw 25, so that the pressing of different workpieces is realized, and the X-axis limiting slide block 31 drives the clamp 13 to move on the second slide block guide rail 30, so that the pressing of different workpieces is further realized.
In this embodiment, a Z-axis clamp bracket 29 is welded to a side of the electric spindle base 11 facing the clamp 13, and a plurality of sets of through holes are symmetrically formed in the Z-axis clamp bracket 29.
In the embodiment, the Z-axis motor frame 21, the Y-axis motor frame and the X-axis motor frame are connected to form a U-shaped structure, and the base 12, the sliding frame of the C-shaped structure, the side plate 5, the Y-axis baffle 2, the side limiting plate 32 and the Z-axis clamp bracket 29 are made of aluminum alloy.
The engraver fuselage adopts the preparation of aluminium sheet material, can cross and bear heavier blank and carve, has also guaranteed that the engraver can not produce in the middle of the course of the work and rock and the precision that influences engraver processing such as vibration. The front aluminum plate and the side edge are connected with the aluminum plate through bolts, so that the purpose of design can ensure that the objective table bears a blank which is heavy enough, the external pressure and the thrust generated by carving of the carving machine can be resisted, and the cost of manufacture can be effectively reduced.
In this embodiment, the output end of the Z-axis motor 7 is mounted with the coupling 8, and the coupling 8 is located inside the Y-axis motor frame and mounted on top of the sliding frame of the C-shaped structure.
The above description is only a further embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, and any person skilled in the art can replace or change the technical solution and the concept of the present invention within the scope of the present invention.
Claims (9)
1. The utility model provides a multi-functional engraver of intelligence triaxial, includes base (12) and installs through the screw rod curb plate (5) of base (12) both sides portion one end, its characterized in that: y axle motor (4) are installed through Y axle motor frame in the top in a set of curb plate (5) outside, the output of Y axle motor (4) is installed and is extended to the Y axle lead screw on another set of curb plate (5) inner wall, the carriage of C type structure is installed through Y axle screw nut pair (20) to one side of Y axle lead screw, and Z axle motor (7) are installed through Z axle motor frame (21) in the top of this carriage, Z axle screw (9) that extend to the inboard other end of this carriage are installed to the output of Z axle motor (7), the outside cover of Z axle screw (9) is equipped with Z axle screw nut (10) rather than intermeshing, electric main shaft base (11) are installed to Z axle screw nut (10) lateral part, base (12) top just is located equidistant position sensor (3) that are equipped with between curb plate (5), base (12) are close to the lateral part intermediate position department that curb plate (5) were located installs through X axle motor frame An X-axis motor (18) is installed, an output end of the X-axis motor (18) is installed with an X-axis screw rod (14) extending to the inner wall of the base (12) and far away from one side of the side plate (5), an X-axis screw rod nut pair (16) meshed with the X-axis screw rod (14) is sleeved on the outer side of the X-axis screw rod (14), a clamp (13) is arranged on a top plate of the base (12) and far away from the side plate (5) through a second slider guide rail (30), an X-axis polished rod (15) is fixed on one side of the bottom in the base (12) through a screw rod, the X-axis polished rod (15) and the X-axis screw rod (14) are parallel to each other, an X-axis polished rod slider (17) is sleeved on the outer side of the X-axis polished rod (15), and the X-axis polished rod slider (17) and the X-axis screw rod nut pair (16), the moving plate is fixed with the top plate of the base (12);
the top and the bottom of curb plate (5) inboard just keep away from anchor clamps (13) department welding have with Y axle polished rod (1) that the Y axle lead screw is parallel, the outside cover of Y axle polished rod (1) is equipped with Y axle polished rod slider (22), Y axle polished rod slider (22) are fixed through the screw rod on the carriage of C type structure, the carriage inboard of C type structure install with Z axle polished rod (19) that Z axle lead screw (9) are parallel, just the outside cover of Z axle polished rod (19) is equipped with Z axle polished rod slider, this Z axle polished rod slider with Z axle lead screw nut (10) welding.
2. The intelligent three-axis multifunctional engraving machine of claim 1, wherein: curb plate (5) inboard is kept away from anchor clamps (13) department welding has Y axle baffle (2), Y axle baffle (2) middle part is rectangular plate body top and bottom outwards extends the certain distance to both sides slope, extend the certain distance with parallel rectangular plate body side again after with curb plate (5) inboard welding.
3. The intelligent three-axis multifunctional engraving machine of claim 1, wherein: the nominal diameter d0 of the X-axis screw rod, the Y-axis screw rod and the Z-axis screw rod is 12mm, the maximum pressed length l of the screw rod is 5m, the diameter Dw of the ball is 3.381mm, and the maximum working load F of the screw rod for feeding axial forcem≤337.5925。
4. The intelligent three-axis multifunctional engraving machine of claim 1, wherein: the top of base (12) is on a parallel with Y axle polished rod (1) and is close to Y axle polished rod (1) department installs first slider guide rail (6), the outside cover of first slider guide rail (6) is equipped with Y axle limit slider (33), Y axle limit slider (33) are kept away from one side welding of Y axle polished rod (1) has side limiting plate (32), just side limiting plate (32) perpendicular with Y axle polished rod (1).
5. The intelligent three-axis multifunctional engraving machine of claim 4, wherein: the second sliding block guide rails (30) are arranged in two groups, are parallel to each other and are arranged at the positions far away from the Y-axis polished rod (1).
6. The intelligent three-axis multifunctional engraving machine of claim 1, wherein: anchor clamps (13) establish including the cover X axle limit slider (31) in the second slider guide rail (30) outside, L type support frame (24) are installed through the screw rod in the top of X axle limit slider (31), diaphragm (26) are installed through the screw rod in the top of L type support frame (24) inboard, it has two sets of screw rods (25) to run through perpendicularly on diaphragm (26), the top of diaphragm (26) just is located the outside cover of screw rod (25) is equipped with adjusting nut, screw rod (25) are kept away from the tip welding of diaphragm (26) has the pressure to hold board (28), the both sides welding of pressing to hold board (28) bottom has side spacing piece (27).
7. The intelligent three-axis multifunctional engraving machine of claim 1, wherein: one side of the electric spindle base (11) facing the clamp (13) is welded with a Z-axis clamp support (29), and multiple groups of through holes are symmetrically formed in the Z-axis clamp support (29).
8. The intelligent three-axis multifunctional engraving machine of claim 7, wherein: z axle motor frame (21), Y axle motor frame and X axle motor frame connect for U type structure, base (12), C type structure's carriage, curb plate (5), Y axle baffle (2), side limiting plate (32), Z axle fixture support (29) all adopt the aluminum alloy material.
9. The intelligent three-axis multifunctional engraving machine of claim 1, wherein: coupling (8) are installed to the output of Z axle motor (7), just coupling (8) are located the inboard of Y axle motor frame is installed the top of the carriage of C type structure.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113733796A (en) * | 2021-09-22 | 2021-12-03 | 龙港市鑫鑫印刷机械有限公司 | Embossing machine fixed mounting system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113733796A (en) * | 2021-09-22 | 2021-12-03 | 龙港市鑫鑫印刷机械有限公司 | Embossing machine fixed mounting system |
CN113733796B (en) * | 2021-09-22 | 2024-06-04 | 龙港市鑫鑫印刷机械有限公司 | Embossing machine fixed mounting system |
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