CN219444387U - CNC milling and machining integrated machine - Google Patents

Abstract

The utility model discloses a CNC milling integrated machine which comprises a CNC milling machine body, wherein the side surface of the CNC milling machine body is rotationally connected with one end of an equipment box through a connecting shaft, a first servo motor is fixed at the bottom of the side surface of the CNC milling machine body, a top threaded rod is mounted on an output shaft at the top of the first servo motor, the top threaded rod penetrates through a movable plate, one side of the movable plate is attached to the inner wall of a limit groove, the limit groove is formed in the side surface of the CNC milling machine body, a supporting rod is rotationally mounted at the other side of the movable plate, the top end of the supporting rod is rotationally connected with the other end of the outer wall of the equipment box, and a conveying roller is rotationally mounted at the top of the inner side of a mounting frame at equal intervals. This CNC milling machine all-in-one adopts novel structural design, through high and inclination adjustable last unloading mechanism, realizes carrying the quick stability of not unidimensional spare part, no longer needs manual operation or uses other transfer machines, and the operation is more convenient, and production efficiency is also higher.

Description

CNC milling and machining integrated machine

Technical Field

The utility model relates to the technical field of CNC milling integrated machines, in particular to a CNC milling integrated machine.

Background

The CNC milling integrated machine is an automatic processing device with a milling function and controlled by digital signals of an electronic meter, and has the advantages of strong adaptability, high processing precision, stable processing quality, high production efficiency and the like compared with the traditional numerical control machine.

When the CNC milling integrated machine is used, the production steps of clamping, milling, tool changing, cooling and the like of the existing CNC milling integrated machine are fully automated, but during feeding, the operation of workers is still needed, the CNC milling integrated machine can continuously process some large-size parts, and the feeding is needed by means of other carrying machines when the large-size parts are processed, so that the operation is complex. It is desirable to design a CNC milling machine in response to the above-described problems.

Disclosure of Invention

The utility model aims to provide a CNC milling and machining integrated machine, which solves the problems that in the prior art, when feeding is proposed, the operation of workers is still needed, the CNC milling and machining integrated machine can continuously machine some large-size parts, and feeding is needed by means of other carrying machines when the large-size parts are machined, so that the operation is complicated.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a CNC mills processing all-in-one, includes CNC milling machine body, CNC milling machine body side passes through connecting axle and equipment box one end swivelling joint, CNC milling machine body side bottom is fixed with first servo motor, install a threaded rod on the output shaft of first servo motor top, a threaded rod runs through the fly leaf, fly leaf one side and spacing groove inner wall laminating, the spacing groove is offered at CNC milling machine body side, the bracing piece is installed in the fly leaf opposite side swivelling joint, bracing piece top and equipment box outer wall other end swivelling joint, equipment box top is provided with the mounting bracket, the equidistant rotatory conveying roller that installs in inside top of mounting bracket.

Preferably, the end fixed mounting of equipment box bottom surface has the second servo motor, install the driving gear on the output shaft of second servo motor top, the driving gear is connected with driven gear meshing, driven gear installs on vertical lifting mechanism, vertical lifting mechanism runs through and installs at equipment box bottom surface end, the vertical lifting mechanism top runs through the roof window, the roof window runs through and sets up at equipment box top surface end, vertical lifting mechanism top is connected with mounting bracket bottom surface middle part.

Preferably, the top threaded rod is symmetrically distributed about the center of the movable plate, the top threaded rod is in threaded connection with the movable plate, and the movable plate is in sliding connection with the limiting groove.

Preferably, the supporting rods are obliquely arranged, and the supporting rods are symmetrically distributed at two ends of the outer side surface of the movable plate relative to the center of the movable plate.

Preferably, the vertical lifting mechanism comprises a vertical sleeve and a vertical threaded rod, the vertical sleeve is rotatably installed on the bottom surface of the equipment box through a bearing seat in a penetrating mode, the top of the outer wall of the vertical sleeve is fixedly connected with the inner side of the driven gear, the vertical threaded rod is installed on the inner side of the vertical sleeve in a penetrating mode, the vertical threaded rod penetrates through a top window, and the top end of the vertical threaded rod is fixedly connected with the bottom surface of the installation frame.

Preferably, the driven gear, the vertical sleeve and the vertical threaded rod are horizontally and symmetrically distributed about the center of the driving gear, the vertical sleeve is in threaded connection with the vertical threaded rod, the diameter of the driving gear is larger than that of the driven gear, and the driving gear is horizontally and symmetrically distributed about the center of the equipment box.

Compared with the prior art, the utility model has the beneficial effects that: according to the CNC milling integrated machine, a novel structural design is adopted, a first servo motor is used for driving a top threaded rod to rotate, a movable plate is driven to vertically move and pull a supporting rod to rotate, automatic adjustment of the use angle of a conveying roller is achieved, a second servo motor is matched, the driving gear is driven to rotate, a driven gear and a vertical sleeve are driven to push the vertical threaded rod to vertically move with a mounting rack and the conveying roller by means of a threaded connection relationship when rotating, automatic adjustment of the use height of the conveying roller is achieved, rapid and stable conveying of parts with different sizes is achieved, all adjustment steps and feeding and discharging steps are achieved through electric control, manual whole-course conveying or manual operation of other conveying machines is not needed, operation is more convenient, and production efficiency is higher;

1. the first servo motor drives the top threaded rod to rotate, the movable plate is driven to vertically move, the supporting rod is pulled to perform rotary motion, the equipment box can perform rotary motion with the mounting frame and the conveying roller taking the connecting shaft as the center, the inclination angle of the conveying roller is adjusted, the mounting frame and the conveying roller are stably supported, and the conveying roller can stably convey larger parts;

2. the driving gear is driven to rotate through the second servo motor, symmetrically distributed driven gears are driven to synchronously rotate, the vertical sleeve provided with the driven gears drives the vertical threaded rod to vertically move with the mounting frame and the conveying roller through the threaded connection relation when rotating, and the vertical threaded rod, the mounting frame and the conveying roller can be locked in height through the threaded self-locking when the vertical sleeve does not rotate, so that parts with different sizes on the conveying roller can be aligned with the clamp arranged in the CNC milling machine body rapidly, and the milling operation is convenient to rapidly carry out.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic view of the front cross-sectional structure of the equipment box and the movable plate of the present utility model;

FIG. 3 is a schematic side view of the top threaded rod, movable plate and support rod of the present utility model;

FIG. 4 is a schematic top view of the equipment cabinet of the present utility model.

In the figure: 1. CNC milling machine body; 2. a connecting shaft; 3. an equipment box; 4. a first servo motor; 5. pushing a threaded rod; 6. a movable plate; 7. a limit groove; 8. a support rod; 9. a second servo motor; 10. a drive gear; 11. a driven gear; 12. a vertical lifting mechanism; 1201. a vertical sleeve; 1202. a vertical threaded rod; 13. a roof window; 14. a mounting frame; 15. and a conveying roller.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a CNC mills processing all-in-one, including CNC milling machine body 1, the connecting axle 2, equipment box 3, first servo motor 4, top threaded rod 5, fly leaf 6, spacing groove 7, bracing piece 8, second servo motor 9, driving gear 10, driven gear 11, vertical lifting mechanism 12, vertical sleeve 1201, vertical threaded rod 1202, roof window 13, mounting bracket 14 and conveying roller 15, CNC mills body 1 side-mounting and has connecting axle 2, connecting axle 2 and equipment box 3 one end swivelling joint, CNC mills body 1 side bottom and installs first servo motor 4, first servo motor 4 top is provided with top threaded rod 5, top threaded rod 5 and fly leaf 6 are connected, fly leaf 6 one side is laminated with spacing groove 7 inner wall, top threaded rod 5 is distributed about fly leaf 6 central symmetry, top threaded rod 5 and fly leaf 6 are threaded connection, fly leaf 6 and spacing groove 7 are sliding connection, above-mentioned structural design makes top threaded rod 5 when rotatory, can utilize stable drive fly leaf 6 of threaded connection to carry out vertical sliding displacement along spacing groove 7, spacing groove 7 sets up in CNC 1 side, fly leaf 6 is equipped with 3, the bracing piece 8 is equipped with the bracing piece, 8 and the bracing piece is rotated and is set up at the other end at 3, the outside the bracing piece is 8 and the rotation angle is set up at the 3 with the 3 other end of the tip, the bracing piece is 8 is rotated and is 8, the 3 is rotated and the axial displacement is set up at the 3.

The equipment box 3 bottom surface is fixed with second servo motor 9, the driving gear 10 is installed at the rotation of second servo motor 9 top, driving gear 10 and driven gear 11 meshing are connected, driven gear 11 sets up on vertical lift mechanism 12, vertical lift mechanism 12 runs through the setting at equipment box 3 bottom surface end, vertical lift mechanism 12 top runs through roof window 13, roof window 13 is seted up at equipment box 3 top surface end, vertical lift mechanism 12 top is connected with mounting bracket 14 bottom surface middle part, the equidistant rotatory conveying roller 15 of installing in mounting bracket 14 inboard top, foretell structural design guarantees that mounting bracket 14 and conveying roller 15 can carry out stable vertical lift.

The vertical lifting mechanism 12 comprises a vertical sleeve 1201 and a vertical threaded rod 1202, the vertical sleeve 1201 is rotatably installed on the bottom surface of the equipment box 3 through a bearing seat, the top of the outer wall of the vertical sleeve 1201 is fixedly connected with the inner side of the driven gear 11, the vertical threaded rod 1202 is rotatably installed on the inner side of the vertical sleeve 1201, the top end of the vertical threaded rod 1202 is fixedly connected with the bottom surface of the mounting frame 14, the vertical threaded rod 1202 is fixedly connected with the bottom surface of the mounting frame 14 through the structural design, the vertical sleeve 1201 can be driven to rotate through the driven gear 11 when the driving gear 10 rotates, the vertical threaded rod 1202 carries out stable vertical movement with the mounting frame 14 and the conveying roller 15, the driven gear 11, the vertical sleeve 1201 and the vertical threaded rod 1202 are horizontally and symmetrically distributed with respect to the center of the driving gear 10, the diameter of the driving gear 10 is larger than the diameter of the driven gear 11, the driving gear 10 is horizontally and symmetrically distributed with respect to the center of the equipment box 3, and the driving gear 10 can drive the symmetrically distributed driven gear 11 and the vertical sleeve 1201 to perform rapid rotational movement, and the vertical sleeve 1201 can push the vertical threaded rod 1202 to carry out stable vertical movement with the driving gear 14 and the conveying roller 15 through a threaded connection when rotating.

Working principle: when the device is used, the first servo motor 4 in fig. 2 is firstly powered, the first servo motor 4 is controlled to drive the top threaded rod 5 to rotate forwards, the movable plate 6 is driven to slide vertically and downwards along the limit groove 7 by means of the threaded connection, the movable plate 6 pulls the support rod 8 to rotate in the downward moving process, the support rod 8 pulls the equipment box 3 to rotate anticlockwise with the installation frame 14 taking the connecting shaft 2 in fig. 1 as the center until the left end of the installation frame 14 descends to a proper height, the power supply for the first servo motor 4 is stopped, the top threaded rod 5 is static and the inclined angle of the movable plate 6, the support rod 8, the equipment box 3 and the installation frame 14 is fixed by means of threaded self-locking. Then, moving the parts to be processed to a conveying roller 15 arranged on an inclined mounting frame 14, and starting the conveying roller 15 to convey the parts obliquely upwards;

until the parts to be processed are completely transferred to the conveying roller 15, controlling the conveying roller 15 to stop working, continuously supplying power to the first servo motor 4, controlling the first servo motor 4 to drive the top threaded rod 5 to reversely rotate, enabling the movable plate 6 to slide upwards along the limit groove 7 to reset and push the supporting rod 8, pushing the equipment box 3 to rotate clockwise by taking the connecting shaft 2 as a center until the equipment box 3 and the mounting frame 14 rotate to be in a horizontal state, stopping supplying power to the first servo motor 4, fixing the positions of the movable plate 6 and the supporting rod 8 by thread self-locking again, and fixedly supporting the equipment box 3 and the mounting frame 14;

then, the second servo motor 9 in fig. 2 is powered, the second servo motor 9 drives the driving gear 10 to rotate positively through the output shaft, the driving gear 10 drives the driven gear 11 and the vertical sleeve 1201 which are symmetrically distributed on two sides to rotate rapidly in the same direction, the vertical sleeve 1201 rotates to push the vertical threaded rod 1202 to vertically jack up the mounting frame 14 and the conveying roller 15 until the mounting frame 14, the conveying roller 15 and the height of the part to be processed placed on the conveying roller 15 are proper, the part to be processed is horizontally aligned with the clamp in the CNC milling machine body 1, the second servo motor 9 is controlled to stop working, the driving gear 10 clamps the driven gear 11, the vertical sleeve 1201 also utilizes thread self-locking to fix the heights of the vertical threaded rod 1202, the mounting frame 14 and the conveying roller 15, the conveying roller 15 is started again, the part to be processed is horizontally conveyed into the CNC milling machine body 1, the part to be processed is fixed through the clamp in the CNC milling machine body 1, and the CNC milling machine body 1 can be started to perform normal milling, and the working principle of the CNC milling machine is that is the working principle of the CNC milling machine.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. CNC milling machine, including CNC milling machine body (1), its characterized in that: CNC mills organism (1) side and equipment box (3) one end swivelling joint through connecting axle (2), CNC mills organism (1) side bottom and is fixed with first servo motor (4), install on the output shaft of first servo motor (4) top threaded rod (5), top threaded rod (5) run through fly leaf (6), fly leaf (6) one side and spacing groove (7) inner wall laminating, spacing groove (7) are seted up and are milled organism (1) side, fly leaf (6) opposite side swivelling joint has bracing piece (8), bracing piece (8) top and equipment box (3) outer wall other end swivelling joint, equipment box (3) top is provided with mounting bracket (14), equidistant swivelling mounting in inside top of mounting bracket (14) has conveying roller (15).

2. The CNC milling machine of claim 1, wherein: the utility model discloses a device box, including equipment box (3), driving gear (10), driven gear (11), driving gear (10), perpendicular elevating system (12), roof window (13) are run through at equipment box (3) bottom surface end to equipment box (3) bottom surface end fixed mounting, install driving gear (10) on second servo motor (9) top output shaft, driving gear (10) and driven gear (11) meshing are connected, driven gear (11) are installed on perpendicular elevating system (12), perpendicular elevating system (12) run through and are installed at equipment box (3) bottom surface end, roof window (13) run through and are seted up at equipment box (3) top surface end, perpendicular elevating system (12) top and mounting bracket (14) bottom surface middle part are connected.

3. The CNC milling machine of claim 1, wherein: the top threaded rod (5) is symmetrically distributed about the center of the movable plate (6), the top threaded rod (5) is in threaded connection with the movable plate (6), and the movable plate (6) is in sliding connection with the limit groove (7).

4. The CNC milling machine of claim 1, wherein: the support rods (8) are obliquely arranged, and the support rods (8) are symmetrically distributed at two ends of the outer side surface of the movable plate (6) with respect to the center of the movable plate (6).

5. The CNC milling machine of claim 2, wherein: the vertical lifting mechanism (12) comprises a vertical sleeve (1201) and a vertical threaded rod (1202), the vertical sleeve (1201) is installed on the bottom surface of the equipment box (3) in a penetrating and rotating mode through a bearing seat, the top of the outer wall of the vertical sleeve (1201) is fixedly connected with the inner side of the driven gear (11), the vertical threaded rod (1202) is installed on the inner side of the vertical sleeve (1201) in a penetrating mode, the vertical threaded rod (1202) penetrates through the top window (13), and the top end of the vertical threaded rod (1202) is fixedly connected with the bottom surface of the installation frame (14).

6. The CNC milling machine of claim 5, wherein: the driven gear (11), the vertical sleeve (1201) and the vertical threaded rod (1202) are horizontally and symmetrically distributed about the center of the driving gear (10), the vertical sleeve (1201) is in threaded connection with the vertical threaded rod (1202), the diameter of the driving gear (10) is larger than that of the driven gear (11), and the driving gear (10) is horizontally and symmetrically distributed about the center of the equipment box (3).