CN217570966U - Shell large-aperture machining device - Google Patents

Abstract

A shell large-aperture processing device comprises a processing mechanism and a driving mechanism, wherein the driving mechanism is connected to the processing mechanism and used for driving the processing mechanism to perform circular motion and processing a large-aperture hole in a shell through the processing mechanism; the processing agency includes the framework, support piece is installed at four angles of framework, two pairs of fixing bases are installed to the upper end of framework, every is every all to be equipped with the king-rod between the fixing base that is located the homonymy, all the cover is equipped with the sliding block on the every king-rod, be equipped with the connecting plate between the sliding block, all install a pair of cover of wearing on every sliding block, every of locating the homonymy is all equipped with the movable rod to wearing to overlap the upper end, the both ends of movable rod all are equipped with the end plate, the intermediate position department of movable rod installs the processing seat, install the processing motor on the processing seat, the output shaft of processing motor has the processing drill bit. This device conveniently carries out the processing operation of major diameter hole on the automatically controlled cabinet shell, and can adjust according to the diameter of hole, enlarges the range of work.

Description

Shell large-aperture machining device

Technical Field

The utility model relates to an automatically controlled cabinet processing correlation technique field especially relates to a casing large aperture processingequipment.

Background

The lower extreme of automatically controlled cabinet is for improving the radiating effect of automatically controlled cabinet, often processes out the mounting hole that corresponds on the shell lower extreme, and the processing of current hole often processes through the mode of blanking, and this kind of processing mode is efficiency is higher, but adds the inconvenient regulation of processing diameter of man-hour to the processing of giving automatically controlled cabinet has brought certain limitation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a casing large aperture processingequipment to solve above-mentioned prior art not enough, conveniently carry out the processing operation of major diameter hole on the automatically controlled cabinet shell, and can adjust according to the diameter of hole, enlarge the range of working, have stronger practicality.

In order to realize the purpose of the utility model, the following technologies are adopted:

a shell large-aperture processing device comprises a processing mechanism and a driving mechanism, wherein the driving mechanism is connected to the processing mechanism and used for driving the processing mechanism to perform circular motion and processing a large-aperture hole in a shell through the processing mechanism;

the processing agency includes the framework, support piece is installed at four angles of framework, two pairs of fixing bases are installed to the upper end of framework, every is equipped with the king-rod between every fixing base that is located the homonymy, all the cover is equipped with the sliding block on every king-rod, be equipped with the connecting plate between the sliding block, all install a pair of cover of wearing on every sliding block, every that is located the homonymy is all equipped with the movable rod to wearing to overlap the upper end, the both ends of movable rod all are equipped with the end plate, the intermediate position department of movable rod installs the processing seat, install the processing motor on the processing seat, the output shaft of processing motor has the processing drill bit.

Further, the driving mechanism comprises a bottom plate, a driving seat is installed on the bottom plate, a driving motor is installed on the driving seat, an output shaft of the driving motor is connected with a driving wheel, a driving belt is sleeved outside the driving wheel, the other end of the driving belt is provided with a driven wheel, a connector is installed at the upper end of the driven wheel, a fixed shaft is arranged in the driven wheel and installed on the bottom plate, a concave part is arranged at the upper end of the connector, the upper end of the fixed shaft penetrates through the concave part, first conical teeth are installed at the lower end of the concave part and meshed with second conical teeth, a spline rod is arranged in the second conical teeth and penetrates through the concave part, an inner penetrating column penetrates through the upper end of the concave part, a first adjusting mechanism is arranged on the inner penetrating column, a vertical concave part is installed at one end of the inner penetrating column, a rotating shaft penetrates through the inner side end of the vertical concave part, a third conical teeth is arranged at the lower end of the rotating shaft and meshed with a fourth conical teeth, the fourth conical teeth is connected to the other end of the spline rod, a connecting seat is arranged at the upper end of the rotating shaft, a second adjusting mechanism is arranged at one end plate in a rotating manner.

Further, first adjustment mechanism is including installing and extending even seat on interior post, and the upper end that extends even seat is equipped with accommodate the lead screw, and accommodate the lead screw's both ends all are equipped with the regulation end socket, and the regulation end socket is all installed in the upper end of concave part.

Furthermore, the second adjusting mechanism comprises an adjusting plate which is rotatably arranged on the rotating head, a rectangular hole is formed in the adjusting plate, adjusting bearing seats are installed at two ends of the lower wall of the adjusting plate, an adjusting screw rod is arranged between the adjusting bearing seats, an I-shaped moving seat is arranged on the adjusting screw rod, and the I-shaped moving seat penetrates through the rectangular hole.

The technical scheme has the advantages that:

the utility model discloses a processing agency and actuating mechanism's setting realizes carrying on automatically controlled cabinet man-hour, conveniently carry out the processing operation of major diameter hole on the shell, and add man-hour, can adjust according to the diameter of hole, thereby the range of work is enlarged, wherein, processing agency provides movable support for the processing of hole, can carry out the brill of hole simultaneously and get the operation steadily, actuating mechanism can drive the drill bit on the processing agency and carry out predetermined orbital rotation, thereby conveniently carry out the brill of hole through the drill bit and get the operation, and has strong practicality.

Drawings

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 shows a perspective structure of one embodiment.

Fig. 2 shows an enlarged view at a.

Detailed Description

As shown in fig. 1 to 2, a device for processing a large aperture of a housing includes a processing mechanism 1 and a driving mechanism 2, wherein the driving mechanism 2 is connected to the processing mechanism 1 for driving the processing mechanism 1 to perform circular motion, and a large aperture hole is processed on the housing through the processing mechanism 1. During operation, the shell to be processed is clamped and fixed through the clamping tool, then the driving mechanism 2 is adjusted, and after the adjustment is completed, the driving mechanism 2 drives the processing mechanism 1 to move and the processing of the hole is completed in the movement.

Processing agency 1 includes framework 11, support piece 10 is installed at four angles of framework 11, two pairs of fixing base 12 are installed to framework 11's upper end, every is to all being equipped with king-rod 13 between the fixing base 12 that is located the homonymy, all the cover is equipped with sliding block 14 on every king-rod 13, be equipped with connecting plate 15 between the sliding block 14, all install a pair of cover 16 of wearing on every sliding block 14, every wearing 16 upper end that is located the homonymy all is equipped with movable rod 17, movable rod 17's both ends all are equipped with end plate 18, processing seat 19 is installed to movable rod 17's intermediate position department, install processing motor 190 on the processing seat 19, processing motor 190's output shaft has the processing drill bit. When processing, the device has adopted less processing drill bit to carry out the processing of shell major diameter hole, can improve the precision of processing through this kind of mode, and when processing, processing agency 1 moves under actuating mechanism 2's drive to processing drill bit is carrying out the motion of circular orbit under actuating mechanism 2's drive, and well pole 13 and movable rod 17 wherein can play the motion of direction to the circular orbit motion of processing drill bit.

The driving mechanism 2 comprises a bottom plate 20, a driving seat 21 is installed on the bottom plate 20, a driving motor 22 is installed on the driving seat 21, an output shaft of the driving motor 22 is connected with a driving wheel 23, a driving belt 24 is sleeved outside the driving wheel 23, the other end of the driving belt 24 is provided with a driven wheel 25, a connecting head 27 is installed at the upper end of the driven wheel 25, a fixed shaft 26 is arranged in the driven wheel 25, the fixed shaft 26 is installed on the bottom plate 20, a concave part 28 is arranged at the upper end of the connecting head 27, the upper end of the fixed shaft 26 penetrates through the concave part 28, a first conical tooth 29 is installed at the lower end of the concave part 28, a second conical tooth 290 is meshed with the first conical tooth 29, a spline rod 291 is arranged in the second conical tooth 290, the spline rod 291 penetrates through the concave part 28, an inner penetrating column 292 is penetrated at the upper end of the concave part 28, a first adjusting mechanism is arranged on the inner penetrating column 292, a vertical concave part 295 is installed at one end of the inner penetrating column 292, a third conical tooth 297 is penetrated through the inner side of the spline rod 296, a fourth conical tooth 298 is meshed with a connecting shaft 296, a second conical tooth 298 is meshed with the upper end of the connecting seat 296, a second connecting head 298 is arranged at the upper end of the connecting seat 295, and a second head 298 is arranged at the upper end of the connecting seat 298 and a second connecting seat 299 rotating adjusting mechanism 30 which is arranged on the connecting seat 298 and is arranged. The first adjusting mechanism includes an upper extending seat 293 mounted on the inner through column 292, an adjusting screw 37 is disposed at the upper end of the upper extending seat 293, adjusting end seats 294 are disposed at both ends of the adjusting screw 37, and the adjusting end seats 294 are mounted at the upper end of the concave part 28. The second adjusting mechanism comprises an adjusting plate 31 rotatably arranged on the rotating head 30, a rectangular hole 32 is formed in the adjusting plate 31, adjusting bearing seats 33 are installed at two ends of the lower wall of the adjusting plate 31, an adjusting screw rod is arranged between the adjusting bearing seats 33, an H-shaped moving seat 34 is arranged on the adjusting screw rod, and the H-shaped moving seat 34 penetrates through the rectangular hole 32.

When the driving mechanism drives the processing drill bit on the processing mechanism 1 to move along a circular track, the driving motor 22 is started, the driving wheel 23 is driven by the driving motor 22 to rotate, the rotation of the driving wheel 23 drives the driven wheel 25 to rotate through the transmission belt 24, the rotation of the driven wheel 25 drives the concave part 28 to rotate around the fixed shaft 26, meanwhile, the first bevel tooth 29 also rotates along with the driving wheel, when the first bevel tooth 29 rotates, the second bevel tooth 290 drives the spline rod 291 to rotate, the rotation of the spline rod 291 drives the third bevel tooth 297 at the other end to rotate, the third bevel tooth 297 drives the fourth bevel tooth 298 to rotate when rotating, the rotation of the fourth bevel tooth 298 drives the rotating shaft 296 to rotate, the rotation of the rotating shaft 296 drives the second adjusting mechanism to rotate, and when the second adjusting mechanism rotates, the processing drill bit on the processing mechanism 1 at the other end is driven to move along a circular track.

When the diameter of the circular motion track of the machining drill bit is adjusted, the upper extension connecting seat 293 is driven to move through the adjusting screw 37, the inner penetrating column 292 is driven to move by the movement of the upper extension connecting seat 293, the distance between the vertical concave part 295 and the fixed shaft 26 is changed, and the adjustment of the diameter of the circular motion track of the machining drill bit is finally realized.

When the outline structure of the processed hole is adjusted, for example, when the outline structure of the processed hole is adjusted from a circular structure to an elliptical structure, the I-shaped moving seat 34 is far away from or close to the outer side end of the rotating head 30 by rotating the adjusting screw rod, and then the adjustment of the motion track of the processed drill bit is realized by adjusting the distance between the I-shaped moving seat and the rotating head.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it is obvious that those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the present invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (4)

1. The device for machining the large-aperture hole of the shell is characterized by comprising a machining mechanism (1) and a driving mechanism (2), wherein the driving mechanism (2) is connected to the machining mechanism (1) and used for driving the machining mechanism (1) to perform circular motion, and the machining mechanism (1) is used for machining the large-aperture hole in the shell;

processing agency (1) includes framework (11), support piece (10) are installed at four angles of framework (11), two pairs of fixing base (12) are installed to the upper end of framework (11), every is all equipped with king-rod (13) between every fixing base (12) that are located the homonymy, all the cover is equipped with sliding block (14) on every king-rod (13), be equipped with connecting plate (15) between sliding block (14), all install a pair of cover (16) of wearing on every sliding block (14), every wearing cover (16) upper end that is located the homonymy all is equipped with movable rod (17), the both ends of movable rod (17) all are equipped with end plate (18), processing seat (19) are installed to the intermediate position department of movable rod (17), install processing motor (190) on processing seat (19), the output shaft of processing motor (190) has the processing drill bit.

2. The machining device for the large aperture of the shell according to claim 1, characterized in that the driving mechanism (2) comprises a bottom plate (20), a driving seat (21) is installed on the bottom plate (20), a driving motor (22) is installed on the driving seat (21), an output shaft of the driving motor (22) is connected with a driving wheel (23), a driving belt (24) is sleeved outside the driving wheel (23), a driven wheel (25) is arranged at the other end of the driving belt (24), a connecting head (27) is installed at the upper end of the driven wheel (25), a fixed shaft (26) is arranged in the driven wheel (25), the fixed shaft (26) is installed on the bottom plate (20), a concave part (28) is arranged at the upper end of the connecting head (27), a first conical tooth (29) is installed at the lower end of the concave part (28), a first conical tooth (29) is meshed with the first conical tooth (29), a second conical tooth (290) is arranged in the second conical tooth (290), a spline rod (291) is arranged in the second conical tooth (290), the spline rod (291) penetrates through the concave part (28), an inner through column (292) is arranged at the upper end of the concave part (28), a first column (292) is arranged on the inner column (296), a first adjusting mechanism (292) is arranged at one end of the inner column (296), a vertical column (296) and a third column (295) is arranged at the inner side (295) of the concave part (295) which penetrates through (295), third awl tooth (297) has engaged with fourth awl tooth (298), and fourth awl tooth (298) is connected in the other end of spline pole (291), and the upper end of axis of rotation (296) is equipped with connecting seat (299), and the upper end of connecting seat (299) is equipped with second adjustment mechanism, and the one end of second adjustment mechanism is equipped with head (30) rotatoryly, and head (30) is installed in one of them end plate (18).

3. The machining device for the large aperture of the shell according to claim 2, characterized in that the first adjusting mechanism comprises an upper extending connecting seat (293) installed on the inner through column (292), an adjusting screw rod (37) is arranged at the upper end of the upper extending connecting seat (293), adjusting end seats (294) are arranged at two ends of the adjusting screw rod (37), and the adjusting end seats (294) are installed at the upper end of the concave part (28).

4. The device for machining the large aperture of the shell according to claim 2, wherein the second adjusting mechanism comprises an adjusting plate (31) rotatably arranged on the rotating head (30), a rectangular hole (32) is formed in the adjusting plate (31), adjusting bearing seats (33) are installed at two ends of the lower wall of the adjusting plate (31), an adjusting screw rod is arranged between the adjusting bearing seats (33), an I-shaped moving seat (34) is arranged on the adjusting screw rod, and the I-shaped moving seat (34) penetrates through the rectangular hole (32).

Images