CN115847125A - Five rotatory CNC machining centers - Google Patents

Abstract

The invention provides a five-axis rotary CNC machining center, which relates to the technical field of security doors and comprises an installation supporting part; the mounting support part is provided with a transverse displacement part; a grinding part is arranged on the transverse displacement part; the mounting support part is fixedly connected with a rotation output part; the rotation output part is provided with a workpiece protection part; the workpiece protection part is in threaded connection with a processing stabilizing part; the mounting support part is provided with a driving adjusting part; a waste cleaning part is arranged on the mounting and supporting part; when can realize assisting sending garbage collection, work piece tool function is more comprehensive, can realize assisting fast switch over processing axial simultaneously, increases the processing flexibility, has solved present five rotatory CNC machining centers of axle that exist at present, and the tool is unsuitable rectangular cutting process, does not set up quick increase axle construction, the problem of the recovery material of being not convenient for simultaneously.

Description

Five rotatory CNC machining centers

Technical Field

The invention relates to the technical field of security doors, in particular to a five-axis rotating CNC machining center.

Background

The CNC processing generally refers to computer digital control precision machining, CNC processing lathes, CNC processing milling machines, CNC processing boring and milling machines and the like, and the processing center is a processing machine integrating a plurality of processing modes, the CNC processing has wide application in a plurality of fields, wherein, in the component shell of the communication industry, the processing of special-shaped workpieces such as mobile phone communication equipment parts and the like depends on the CNC processing, and a good CNC processing center is particularly important.

For example, application No.: CN201810339972.1 relates to a CNC machining center, which comprises a machine tool, a chip removal module and a classification module; the chip removal module is arranged below the chuck of the machine tool and is used for receiving cutting chips of the machine tool; the classification module is arranged below the chip removal module; the classification module is used for classifying and recycling the cutting chips pushed by the chip removal module. The cutting bits that the piece pushes away that the chip removal case was received of the material pushing block of chip removal module are pushed to the categorised incasement that the categorised module set up of lower part, through a plurality of categorised case gyrations, realize the recovery of different grade type cutting bits, improve resource utilization. The chip removal module is particularly suitable for enterprises needing to frequently replace processed products, and the chip removal module is matched with the classification module, so that the cutting waste can be classified and recovered, and the resource utilization rate is improved; meanwhile, the classification module can separate liquid contained in the cutting scraps, so that the generation of large peculiar smell is avoided, and the convenience of cutting scrap recovery is improved.

Based on prior art discovery, with present five rotatory CNC machining centers of existing, overall structure manufacturing cost is high, and the tool is unsuitable rectangular cutting process simultaneously, causes useless easily, does not set up and increases axle construction fast, cuts not nimble enough, is not convenient for retrieve the material simultaneously, can not realize board-like tool centre gripping simultaneously when causing the waste, problem of function singleness.

Disclosure of Invention

In view of the above, the invention provides a five-axis rotation CNC machining center, which has a driving adjustment part, can realize rapid increase of a machining shaft, effectively improve machining flexibility, simultaneously ensure machining precision, avoid tool collision, more comprehensively position a workpiece by an overall structure, and avoid the problem that machining precision is affected because a long workpiece is easy to shake under a centrifugal effect.

The invention provides a purpose and an effect of a five-axis rotating CNC machining center, which particularly comprises an installation supporting part; the mounting support part is provided with a transverse displacement part; a grinding part is arranged on the transverse displacement part; the mounting support part is fixedly connected with a rotation output part; the rotation output part is provided with a workpiece protection part; the workpiece protection part is in threaded connection with a processing stabilizing part; the mounting support part is provided with a driving adjusting part; a waste cleaning part is arranged on the mounting and supporting part; the mounting support portion includes: the device comprises an installation supporting plate, flow guide grooves and a flow guide box, wherein the installation supporting plate is provided with two rows of flow guide grooves; the bottom of the mounting support plate is fixedly connected with a flow guide box; the diversion boxes are positioned at the bottoms of the two rows of diversion grooves; the rotation output portion includes: the shaft changing mechanism comprises a rotary mounting frame, a rotary mounting block and a shaft changing gear, wherein the rotary mounting frame is fixedly connected to a mounting support plate; the rotary mounting frame is rotatably connected with a rotary mounting block; and a shaft replacing gear is fixedly connected to the side shaft end of the rotating mounting block.

Further, the grinding portion includes: the milling machine comprises a grinding lifting frame, a machining slide block, an electric milling machine head main body, a milling screw rod and a milling driving motor, wherein the grinding lifting frame is connected to a transverse moving frame in a sliding manner; the grinding lifting frame is in threaded connection with a vertical driving screw rod; the grinding lifting frame is connected with a machining sliding block in a sliding mode, and the bottom of the machining sliding block is fixedly connected with an electric milling machine head main body; the milling screw rod is rotatably connected to the grinding lifting frame; the milling screw rod is in threaded connection with a machining sliding block; the milling driving motor is fixedly connected with the side surface of the grinding lifting frame; and an output shaft of the milling driving motor is fixedly connected with a milling screw rod.

Further, the rotation output portion further includes: the clamping chuck comprises a self-rotation driving motor and a clamping chuck body, wherein the self-rotation driving motor is fixedly connected to a rotation mounting block; and the output shaft of the autorotation driving motor is fixedly connected with a clamping chuck main body, and the clamping chuck main body is rotatably connected onto the rotating installation block.

Further, the work guard includes: the protective sliding frame is connected to the rotary mounting block in a sliding mode; a threaded connecting plate is fixedly connected to the protective sliding frame; the threaded connecting plate is in threaded connection with a clamping driving screw rod, and the clamping driving screw rod is rotatably connected with a rotating mounting seat; the rotary mounting seat is fixedly connected to the rotary mounting block; the protection sliding frame is of a U-shaped structure.

Further, the mounting support further includes: the transverse threaded rod is rotatably connected to the mounting support plate; and a transverse motor is fixedly connected to the mounting support plate, and a transverse threaded rod is fixedly connected to an output shaft of the transverse motor.

Further, the processing stabilizing portion includes: the machining clamping screw rod, the attaching spring, the attaching extrusion shaft and the attaching pressure plate are machined, and the machining clamping screw rod is in threaded connection with the protection sliding frame; the processing clamping screw rod is internally sleeved with a fitting spring; the processing clamping screw rod is connected with a laminating extrusion shaft in a sliding manner; the shaft end of the laminating extrusion shaft is rotatably connected with a laminating pressure plate.

Further, the driving adjustment portion includes: the adjusting electric threaded rod is arranged on the mounting support plate; the adjusting electric threaded rod is in threaded connection with a driving rack plate, and the driving rack plate is connected to the mounting support plate in a sliding manner; the driving rack plate is meshed with the shaft changing gear.

Further, the lateral shifter portion includes: the device comprises a transverse moving frame, a vertical driving screw rod and a vertical driving motor, wherein the transverse moving frame is rotatably connected with the vertical driving screw rod; the transverse moving frame is connected to the mounting support plate in a sliding manner; a transverse threaded rod is connected to the transverse moving frame in a threaded manner; the top of the transverse moving frame is fixedly connected with a vertical driving motor, and an output shaft of the vertical driving motor is fixedly connected with a vertical driving screw rod.

Further, the waste cleaning part further comprises: the two plate-type clamping screw rods are respectively in threaded connection with two sides of the cleaning sliding block; the plate-type clamping screw rod is rotatably connected with a clamping plate.

Further, the scrap disposal section includes: the waste cleaning electric threaded rod is arranged on the mounting support plate; the waste cleaning electric threaded rod is in threaded connection with a cleaning sliding block, and the cleaning sliding block is connected to the mounting support plate in a sliding manner; the bottom of the cleaning sliding block is pasted with an installation supporting plate.

Advantageous effects

The processing center can realize auxiliary waste material collection, meanwhile, the workpiece jig has more comprehensive functions, and meanwhile, the processing axial direction can be quickly switched in an auxiliary mode, so that the processing flexibility is increased.

In addition, adopt the processing stabilizing part that sets up, the work piece protection part that the cooperation set up, can effectual improvement equipment tool commonality and stability, can effectually avoid simply when the rectangular structure of chuck centre gripping is passed through, the operation rotates the problem that the rectangular work piece other end is stable inadequately in-process, overall structure is simple and practical more, can realize assisting improvement overall structure operating stability, the processing stabilizing part that sets up simultaneously is when the centre gripping work piece, can guarantee stable spacing simultaneously, self can not rotate when can not influencing work piece pivoted, can avoid hitting the sword accident, overall structure is reasonable more high-efficient, can realize the fast migration through adopting work piece protection part and adjust the centre gripping scope of processing stabilizing part, easy operation is nimble, through rotating processing centre gripping lead screw, can realize the continuous application of force of the laminating work piece of fast propulsion laminating pressure disk, through the mode of compression laminating spring, elasticity is provided, guarantee the centre gripping effect, overall machining precision is higher, the work piece tool is more perfect, can improve the machining center processing effect.

In addition, through adopting and setting up grinding processing portion, can realize supplementary milling process, the grinding processing portion cooperation lateral displacement spare portion that sets up simultaneously, moreover, the steam generator is simple in structure, the flexible operation, when can realizing many meticulous refinements, constitute standard triaxial milling direction, can be applicable to the processing demand of plate class work piece, overall structure is simpler, the whole low in manufacturing cost, be applicable to the personal processing use more, can guarantee a good processingquality simultaneously again, the installation supporting part that sets up then can realize milling the location benchmark through simple structure, can realize cutting oil's independent drainage simultaneously, avoid silting up stifled, electric milling head main part on the processing slider can go up and down, control and the removal regulation of front and back, overall structure is simpler, guarantee basic processing flexibility simultaneously.

In addition, the driving adjusting part is adopted, the rotation angle of the rotation output part can be adjusted in an auxiliary mode, the rotation output part is a rotation shaft, after the rotation output part is driven by the driving adjusting part to rotate, a machining shaft is added again, and the three-shaft adjustment of the grinding machining part is matched, so that five-shaft positioning machining is realized, the flexible machining of more complex workpieces can be realized, the workpiece and conflict probability is effectively reduced, and the whole machining is more flexible and more practical; through adopting and setting up waste material clearance portion, can realize assisting and carry out the waste residue clearance to equipment, can improve machining center's clean and tidy when, it is extravagant to assist to carry out the waste residue clearance and can avoid the waste residue, especially the communication trade relates to precious metal, can effectual improve equipment practicability, another effect of the waste material clearance portion that sets up simultaneously lies in, can realize supplementary grip block formula work piece, can effectually avoid adopting the problem that the centre gripping chuck main part is not convenient for the centre gripping, overall function is more comprehensive, through under the drive of adjusting electric threaded rod, can drive the removal of drive rack plate, realize meshing drive shaft changing gear, it rotates the installation piece to drive, realize driving the work piece rotation machined surface in the chuck main part, easy operation is nimble, overall operation is simple and flexible, when can improve processingquality, the waste of material has also been avoided to very big degree.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic view of the overall structure of a machining center according to an embodiment of the present invention.

Fig. 2 is a schematic view of a rear side structure of a machining center according to an embodiment of the present invention.

Fig. 3 is a sectional view of the internal structure of the machining center according to the embodiment of the present invention.

Fig. 4 is a schematic view of an overall mounting structure of the rotation output portion of the embodiment of the present invention.

Fig. 5 is a schematic structural view of a mounting support portion of an embodiment of the present invention.

FIG. 6 is a schematic view of a lateral displacement member portion of an embodiment of the present invention.

Fig. 7 is a schematic view of a grinding work portion according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of a rotation output portion of the embodiment of the present invention.

Fig. 9 is a schematic structural view of a work guard according to an embodiment of the present invention.

Fig. 10 is a schematic view of a processing stabilizer according to an embodiment of the present invention.

Fig. 11 is a schematic structural view of a drive adjusting portion of the embodiment of the present invention.

Fig. 12 is a schematic view of a waste cleaning section according to an embodiment of the present invention.

List of reference numerals

1. Mounting a support part; 101. installing a support plate; 1011. a diversion trench; 102. a flow guiding box; 103. a transverse threaded rod; 104. a transverse motor; 2. a lateral displacement member portion; 201. a transverse moving frame; 202. a vertical driving screw rod; 203. a vertical drive motor; 3. grinding the processing part; 301. grinding the lifting frame; 302. processing a sliding block; 303. an electric milling head body; 304. milling a screw rod; 305. milling a driving motor; 4. a rotation output section; 401. rotating the mounting rack; 402. rotating the mounting block; 403. a shaft changing gear; 404. a rotation driving motor; 405. a clamping chuck body; 5. a work guard; 501. a protective sliding frame; 5011. a threaded connection plate; 502. clamping a driving screw rod; 503. rotating the mounting seat; 6. processing a stabilizing part; 601. processing a clamping screw rod; 602. fitting a spring; 603. fitting an extrusion shaft; 604. bonding a pressure plate; 7. a drive adjusting section; 701. adjusting the electric threaded rod; 702. driving the rack plate; 8. a waste cleaning section; 801. waste cleaning electric threaded rod; 802. cleaning the sliding block; 803. a plate-type clamping screw rod; 804. and (4) clamping the plate.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to fig. 12:

the invention provides a five-axis rotary CNC machining center, which comprises an installation supporting part 1; the installation supporting part 1 is provided with a transverse displacement part 2; the transverse displacement part 2 is provided with a grinding part 3; the mounting support part 1 is fixedly connected with a rotation output part 4; the rotation output part 4 is provided with a workpiece protection part 5; the workpiece protection part 5 is in threaded connection with a processing stabilizing part 6; the mounting support part 1 is provided with a driving adjusting part 7; the installation supporting part 1 is provided with a waste cleaning part 8; the mounting support portion 1 includes: the mounting support plate 101, the guide grooves 1011 and the guide box 102 are arranged, and two rows of guide grooves 1011 are formed in the mounting support plate 101; the bottom of the mounting support plate 101 is fixedly connected with a flow guide box 102; the diversion boxes 102 are positioned at the bottoms of the two rows of diversion grooves 1011; the rotation output portion 4 includes: the shaft changing device comprises a rotary mounting frame 401, a rotary mounting block 402 and a shaft changing gear 403, wherein the rotary mounting frame 401 is fixedly connected to a mounting support plate 101; a rotary mounting block 402 is rotatably connected to the rotary mounting frame 401; the shaft end of the side surface of the rotary mounting block 402 is fixedly connected with a shaft changing gear 403.

Wherein, the installation support part 1 further includes: the transverse threaded rod 103 is rotatably connected to the mounting support plate 101; a transverse motor 104 is fixedly connected to the mounting support plate 101, and a transverse threaded rod 103 is fixedly connected to an output shaft of the transverse motor 104;

the lateral displacer portion 2 includes: the device comprises a transverse moving frame 201, a vertical driving screw rod 202 and a vertical driving motor 203, wherein the transverse moving frame 201 is rotatably connected with the vertical driving screw rod 202; the transverse moving frame 201 is connected on the installation supporting plate 101 in a sliding way; a transverse threaded rod 103 is connected to the transverse moving frame 201 through threads; the top of the transverse moving frame 201 is fixedly connected with a vertical driving motor 203, and an output shaft of the vertical driving motor 203 is fixedly connected with a vertical driving screw 202;

the grinding section 3 includes: the device comprises a grinding lifting frame 301, a machining slide block 302, an electric milling machine head main body 303, a milling screw 304 and a milling driving motor 305, wherein the grinding lifting frame 301 is connected to a transverse moving frame 201 in a sliding mode; the grinding lifting frame 301 is in threaded connection with a vertical driving screw rod 202; the grinding lifting frame 301 is connected with a machining slide block 302 in a sliding mode, and the bottom of the machining slide block 302 is fixedly connected with an electric milling machine head main body 303; the milling screw rod 304 is rotationally connected to the grinding lifting frame 301; a machining sliding block 302 is connected to the milling screw rod 304 through threads; the milling driving motor 305 is fixedly connected with the side surface of the grinding lifting frame 301; milling driving motor 305's output shaft fixedly connected with mills lead screw 304, through adopting and setting up grinding processing portion 3, can realize supplementary milling process, the grinding processing portion 3 cooperation lateral displacement spare portion 2 that sets up simultaneously, moreover, the steam generator is simple in structure, the flexible operation, when can realizing many meticulous craftsmanship, constitute standard triaxial milling process direction, can be applicable to the processing demand of board class work piece, overall structure is simpler, the whole low in manufacturing cost, be applicable to more that the personal processing is used, can guarantee a good processingquality simultaneously again, the installation supporting part 1 of setting then can realize milling the location benchmark through simple structure, can realize cutting oil's independent drainage simultaneously, avoid silting up, electric milling head main part 303 on the processing slider 302 can go up and down, control and fore-and-aft movement regulation, overall structure is simpler, guarantee basic processing flexibility simultaneously.

Wherein, the rotation output part 4 further includes: a rotation driving motor 404 and a clamping chuck main body 405, wherein the rotation driving motor 404 is fixedly connected to the rotation mounting block 402; an output shaft of the rotation driving motor 404 is fixedly connected with a clamping chuck main body 405, and the clamping chuck main body 405 is rotatably connected to the rotation mounting block 402;

the work guard 5 includes: the device comprises a protection sliding frame 501, a threaded connection plate 5011, a clamping driving screw rod 502 and a rotary mounting seat 503, wherein the protection sliding frame 501 is connected to a rotary mounting block 402 in a sliding manner; a threaded connecting plate 5011 is fixedly connected to the protective sliding frame 501; the threaded connection plate 5011 is in threaded connection with a clamping driving screw rod 502, and the clamping driving screw rod 502 is rotatably connected with a rotating mounting seat 503; the rotary mounting base 503 is fixedly connected to the rotary mounting block 402; the protective sliding frame 501 is of a U-shaped structure;

the processing stabilizer 6 includes: the machining clamping screw rod 601, the attaching spring 602, the attaching extrusion shaft 603 and the attaching pressing disc 604 are connected to the protective sliding frame 501 through threads; a fitting spring 602 is sleeved in the processing clamping screw 601; a joint extrusion shaft 603 is connected on the processing clamping screw rod 601 in a sliding manner; laminating extrusion shaft 603 axle head rotates and is connected with laminating pressure disk 604, adopt the processing stabilization part 6 that sets up, the work piece protection part 5 that the cooperation set up, can effectual improvement equipment tool commonality and stability, can effectually avoid simply when passing through the rectangular structure of chuck centre gripping, the operation rotates the problem that the rectangular work piece other end is stable inadequately in-process, overall structure is simple and practical more, can realize assisting improvement overall structure operating stability, supplementary improvement work piece centre gripping stability, the processing stabilization part 6 that sets up simultaneously is when the centre gripping work piece, can guarantee stable spacing simultaneously, can not influence work piece pivoted self can not rotate simultaneously, can avoid hitting the sword accident, overall structure is reasonable more high-efficient, can realize the clamping range of quick travel regulation processing stabilization part 6 through adopting work piece protection part 5, easy operation is nimble, through rotating processing centre gripping lead screw 601, can realize the continuous application of force of propelling laminating pressure disk laminating work piece fast, through the perfect mode of compression laminating spring 602, provide the elasticity extrusion force, guarantee the centre gripping effect, overall machining precision is higher, the work piece is more, can improve the machining center machining effect.

Wherein, drive regulation portion 7 includes: an adjusting electric threaded rod 701 and a driving rack plate 702, wherein the adjusting electric threaded rod 701 is installed on the installation support plate 101; a driving rack plate 702 is connected to the adjusting electric threaded rod 701 through threads, and the driving rack plate 702 is connected to the mounting support plate 101 in a sliding manner; the driving rack plate 702 is engaged with the shaft changing gear 403;

the waste cleaning portion 8 includes: the waste cleaning electric threaded rod 801 and the cleaning sliding block 802 are arranged on the installation supporting plate 101; a cleaning sliding block 802 is connected to the waste cleaning electric threaded rod 801 in a threaded manner, and the cleaning sliding block 802 is connected to the mounting support plate 101 in a sliding manner; cleaning the bottom of the sliding block 802 and attaching and installing the supporting plate 101;

the waste cleaning portion 8 further includes: two plate-type clamping screw rods 803 and two clamping plates 804 are arranged, and the two plate-type clamping screw rods 803 are respectively in threaded connection with two sides of the cleaning sliding block 802; the plate-type clamping screw rod 803 is rotatably connected with the clamping plate 804, the rotation angle of the rotation output part 4 can be adjusted in an auxiliary mode by adopting the driving adjusting part 7, the rotation output part 4 is a rotation shaft, after the rotation is driven by the driving adjusting part 7 to rotate, a machining shaft is added again, and the three-shaft adjustment of the grinding machining part 3 is matched, so that the five-shaft positioning machining is realized, the flexible machining of more complex workpieces can be realized, the workpiece and conflict probability is effectively reduced, the overall machining is more flexible and more practical; through adopting and setting up waste material clearance portion 8, can realize assisting the equipment and carry out the waste residue clearance, can improve machining center's clean and tidy when, the supplementary waste residue clearance of carrying out can avoid the waste residue extravagant, especially the communication trade relates to precious metal, can effectual improvement equipment practicality, another effect of waste material clearance portion 8 that sets up simultaneously lies in, can realize supplementary grip block formula work piece, can effectually avoid adopting the problem of centre gripping chuck main part 405 centre gripping not convenient for, overall function is more comprehensive, through under the drive of adjusting electric threaded rod 701, can drive rack plate 702 and remove, realize meshing drive shaft changing gear 403, it rotates installation piece 402 to drive, realize driving the work piece rotation machined surface on the chuck main part 405, and easy operation is nimble, and the bulk operation is simple and flexible, when can improve processingquality, the waste of material has also been avoided to very big degree.

The specific use mode and function of the embodiment are as follows: according to the invention, when a workpiece is clamped, the chuck main body 405 clamps the workpiece, end face cutting can be carried out firstly, then reinforcing clamping is carried out, the protective sliding frame 501 can be driven to move under the driving of the clamping driving screw rod 502, the workpiece is attached through the attaching pressure plate 604, the attaching pressure plate 604 can be rapidly pushed to attach the workpiece for continuous force application through rotating the clamping screw rod 601, elastic extrusion force is provided in a mode of compressing the attaching spring 602, the rotating plate type clamping screw rod 803 pushes the clamping plate 804 to move, positioning of the clamping plate type workpiece can be realized, three-axis movement can be realized under the driving of respective corresponding motors through the transverse threaded rod 103, the vertical driving screw rod 202 and the milling screw rod 304, the lifting, left-right and front-back movement regulation of the electric milling machine head main body 303 on the machining sliding block 302 can be controlled, cutting fluid can be discharged through the two rows of guide grooves 1011, when the clamping chuck main body is driven to rotate by the rotation driving motor, the cutting of the electric milling machine head main body 303 is matched, the rack plate 702 can be driven to move under the driving, the driving gear 403 of the rotating mounting block 402 to rotate, the clamping chuck main body 405 can be driven, and the waste slag can be conveniently collected in the whole machining process, and the waste slag can be conveniently collected by the clamping screw rod 804.

The above description is intended to be illustrative of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (10)

1. A five-axis rotary CNC machining center is characterized by comprising a mounting and supporting part (1); the mounting and supporting part (1) is provided with a transverse displacement part (2); a grinding part (3) is arranged on the transverse displacement part (2); a rotation output part (4) is fixedly connected to the mounting and supporting part (1); the rotation output part (4) is provided with a workpiece protection part (5); the workpiece protection part (5) is in threaded connection with a processing stabilizing part (6); the mounting and supporting part (1) is provided with a driving and adjusting part (7); a waste cleaning part (8) is arranged on the mounting and supporting part (1); the mounting support (1) includes: the device comprises an installation supporting plate (101), flow guide grooves (1011) and a flow guide box (102), wherein two rows of flow guide grooves (1011) are formed in the installation supporting plate (101); the bottom of the mounting support plate (101) is fixedly connected with a flow guide box (102); the diversion boxes (102) are positioned at the bottoms of the two rows of diversion grooves (1011); the rotation output section (4) includes: the rotary mounting rack (401), the rotary mounting block (402) and the shaft changing gear (403), wherein the rotary mounting rack (401) is fixedly connected to the mounting support plate (101); the rotary mounting frame (401) is rotatably connected with a rotary mounting block (402); and a shaft-changing gear (403) is fixedly connected to the side surface shaft end of the rotating installation block (402).

2. The five-axis rotational CNC machining center of claim 1, wherein: the mounting support (1) further comprises: the device comprises a transverse threaded rod (103) and a transverse motor (104), wherein the transverse threaded rod (103) is rotatably connected to a mounting support plate (101); the mounting support plate (101) is fixedly connected with a transverse motor (104), and an output shaft of the transverse motor (104) is fixedly connected with a transverse threaded rod (103).

3. The five-axis rotational CNC machining center of claim 2, wherein: the lateral displacer part (2) comprises: the device comprises a transverse moving frame (201), a vertical driving screw rod (202) and a vertical driving motor (203), wherein the transverse moving frame (201) is rotatably connected with the vertical driving screw rod (202); the transverse moving frame (201) is connected to the mounting support plate (101) in a sliding manner; a transverse threaded rod (103) is connected to the transverse moving frame (201) in a threaded manner; the top of the transverse moving frame (201) is fixedly connected with a vertical driving motor (203), and an output shaft of the vertical driving motor (203) is fixedly connected with a vertical driving screw rod (202).

4. The five-axis rotational CNC machining center of claim 3, wherein: the grinding section (3) includes: the device comprises a grinding lifting frame (301), a machining sliding block (302), an electric milling machine head main body (303), a milling screw rod (304) and a milling driving motor (305), wherein the grinding lifting frame (301) is connected to a transverse moving frame (201) in a sliding mode; the grinding lifting frame (301) is in threaded connection with a vertical driving screw rod (202); the grinding lifting frame (301) is connected with a machining sliding block (302) in a sliding mode, and the bottom of the machining sliding block (302) is fixedly connected with an electric milling machine head main body (303); the milling screw rod (304) is rotatably connected to the grinding lifting frame (301); a machining sliding block (302) is connected to the milling screw rod (304) in a threaded manner; the milling driving motor (305) is fixedly connected with the side surface of the grinding lifting frame (301); and an output shaft of the milling driving motor (305) is fixedly connected with a milling screw rod (304).

5. The five-axis rotational CNC machining center of claim 1, wherein: the rotation output portion (4) further includes: the clamping chuck comprises a rotation driving motor (404) and a clamping chuck body (405), wherein the rotation driving motor (404) is fixedly connected to a rotation mounting block (402); and an output shaft of the rotation driving motor (404) is fixedly connected with a clamping chuck body (405), and the clamping chuck body (405) is rotatably connected to the rotation mounting block (402).

6. The five-axis rotational CNC machining center of claim 1, wherein: the work guard (5) includes: the device comprises a protection sliding frame (501), a threaded connecting plate (5011), a clamping driving screw rod (502) and a rotary mounting seat (503), wherein the protection sliding frame (501) is connected to a rotary mounting block (402) in a sliding manner; a threaded connecting plate (5011) is fixedly connected to the protection sliding frame (501); the thread connecting plate (5011) is in threaded connection with a clamping driving screw rod (502), and the clamping driving screw rod (502) is rotatably connected with a rotating mounting seat (503); the rotary mounting seat (503) is fixedly connected to the rotary mounting block (402); the protection sliding frame (501) is of a U-shaped structure.

7. The five-axis rotational CNC machining center of claim 6, wherein: the processing stabilizer (6) includes: the device comprises a machining clamping screw rod (601), an attaching spring (602), an attaching extrusion shaft (603) and an attaching pressing disc (604), wherein the machining clamping screw rod (601) is in threaded connection with a protection sliding frame (501); an attaching spring (602) is sleeved in the processing clamping screw rod (601); the processing clamping screw rod (601) is connected with a joint extrusion shaft (603) in a sliding manner; and the shaft end of the laminating extrusion shaft (603) is rotatably connected with a laminating pressing plate (604).

8. The five-axis rotational CNC machining center of claim 1, wherein: the drive adjustment section (7) includes: an adjusting electric threaded rod (701) and a driving rack plate (702), wherein the adjusting electric threaded rod (701) is installed on the installation support plate (101); a driving rack plate (702) is connected to the adjusting electric threaded rod (701) in a threaded manner, and the driving rack plate (702) is connected to the mounting support plate (101) in a sliding manner; the driving rack plate (702) is meshed with the shaft changing gear (403).

9. The five-axis rotational CNC machining center of claim 1, wherein: the scrap cleaning section (8) includes: the waste cleaning electric threaded rod (801) and the cleaning sliding block (802), wherein the waste cleaning electric threaded rod (801) is installed on the installation supporting plate (101); the waste cleaning electric threaded rod (801) is in threaded connection with a cleaning sliding block (802), and the cleaning sliding block (802) is connected to the mounting support plate (101) in a sliding mode; the bottom of the cleaning sliding block (802) is attached to the mounting support plate (101).

10. The five-axis rotational CNC machining center of claim 9, wherein: the scrap cleaning section (8) further comprises: the device comprises plate-type clamping screw rods (803) and two clamping plates (804), wherein the two plate-type clamping screw rods (803) are respectively in threaded connection with two sides of a cleaning sliding block (802); the plate type clamping screw rod (803) is connected with a clamping plate (804) in a rotating way.

Images