CN105618797B - Numerically controlled lathe depth of parallelism linkage adjustment mechanism - Google Patents

Abstract

The invention discloses a kind of numerically controlled lathe depth of parallelism linkage adjustment mechanism easy to adjust, including：Frame and the support feet for being arranged on frame lower end, the clamping mechanism of frame side is slidably arranged in by slide rail, the turning head and controller of frame opposite side are arranged on, adjustable support chassis is respectively arranged with the lower end both sides of the support feet, the structure of the support chassis includes：Shell, first rotating shaft is provided with by first bearing seat vertical rotating on one end of the shell, the upper end of the first rotating shaft is stretched out shell and is connected with regulating block, adjustment hole is provided with the regulating block, the lower end of the first rotating shaft is stretched into be connected in shell with the first angular wheel, the second rotating shaft is provided with by second bearing seat lateral rotation inside the side of the shell, the second angular wheel cooperated with the first angular wheel is provided with one end of second rotating shaft.

Description

Numerically controlled lathe depth of parallelism linkage adjustment mechanism

Technical field

The present invention relates to a kind of numerically controlled lathe, more particularly to a kind of numerically controlled lathe depth of parallelism linkage adjustment mechanism.

Background technology

In mechanical processing industry, numerically controlled lathe is one of the most widely used plant equipment, and numerical control when initially installing Lathe was typically all to be placed on the ground after directly adjusting the depth of parallelism by plain cushion originally, once numerically controlled lathe in use The depth of parallelism change, need many people to lift numerically controlled lathe and plain cushion thickness changed, regulation is bothered, degree of regulation also reaches Less than requiring, lose time and manpower.

The content of the invention

The technical problems to be solved by the invention are：A kind of numerically controlled lathe depth of parallelism linkage regulation machine easy to adjust is provided Structure.

In order to solve the above-mentioned technical problem, the technical solution adopted by the present invention is：Numerically controlled lathe depth of parallelism linkage regulation machine Structure, including：Frame and two support feets for being arranged on frame lower end, the clamping mechanism of frame side is slidably arranged in by slide rail, The turning head and controller of frame opposite side are arranged on, servo deceleration motor is provided with the ground of the support feet side, Drive sprocket is provided with the motor shaft of the servo deceleration motor, is set respectively on four angles of the support feet lower end There is adjustable support base apparatus, the structure of the adjustable support base apparatus includes：Shell, on the side of the shell End is provided with first rotating shaft by first bearing seat vertical rotating, and shell and driven sprocket phase are stretched out in the upper end of the first rotating shaft Connection, is connected between the drive sprocket and driven sprocket by chain, the lower end of the first rotating shaft stretch into shell with Upper terminal pad is connected, and is evenly arranged with some connecting holes in terminal pad on described, the shell of terminal pad lower end on described It is upper that second rotating shaft is provided with by second bearing seat vertical rotating, the upper end of second rotating shaft is provided with guide rod, in institute The upper end for stating guide rod is slided and is provided with lower terminal pad, is evenly arranged with the lower terminal pad some with connecting hole phase interworking The connecting pole of conjunction, keyway is provided with the side of the lower terminal pad, is provided with and keyway in the upper end side of the guide rod The key of mutual cooperation, the jacking ring cooperated with it, the lower end of the jacking ring are provided with the lower end of the lower terminal pad It is connected with threaded sleeve, male thread is provided with the inside of the threaded sleeve, is set on the outside of the guide rod of the key lower end The box thread cooperated with male thread is equipped with, the lower end of second rotating shaft first bevel gear is provided with, described first The 3rd rotating shaft is provided with by 3rd bearing seat lateral rotation on the shell of bevel gear side, on one end of the 3rd rotating shaft The second angular wheel cooperated with the first angular wheel is provided with, the 3rd is provided with the other end of the 3rd rotating shaft Angular wheel, by fourth bearing seat vertical rotating is provided with the 4th rotating shaft, described the in another side bottom of the shell The 4th angular wheel cooperated with triconic gear is provided with four rotating shafts, in the upper end of the 4th angular wheel Screw rod is provided with, the screw sleeve cooperated with it is provided with the screw rod, support bottom is provided with the screw sleeve Disk, the support chassis is slidably arranged in shell, and the upper end of the support chassis is stretched out shell and offseted with support feet, and described the The diameter of one angular wheel is less than the second angular wheel, and second angular wheel is identical with the diameter of triconic gear, institute The diameter for stating triconic gear is less than the 4th angular wheel.

It is an advantage of the invention that：Above-mentioned numerically controlled lathe depth of parallelism linkage adjustment mechanism, can be right at any time according to measurement data The depth of parallelism of numerically controlled lathe is adjusted, and one man operation is easy to adjust, time saving and energy saving, while can be as needed to lathe The depth of parallelism at each angle is individually adjusted, can also whole lathe depth of parallelism progress Coupled motion regulation, degree of regulation height, The crudy of product is effectively ensured.

Brief description of the drawings

Fig. 1 is the structural representation of numerically controlled lathe depth of parallelism linkage adjustment mechanism of the present invention.

Fig. 2 is Fig. 1 side structure schematic view.

Fig. 3 is the mplifying structure schematic diagram at A in Fig. 2.

Fig. 4 is the mplifying structure schematic diagram at B in Fig. 3.

In figure：1st, frame, 2, support feet, 3, slide rail, 4, clamping mechanism, 5, turning head, 6, controller, 7, servo deceleration electricity Machine, 8, motor shaft, 9, drive sprocket, 10, adjustable support base apparatus, 11, shell, 12, first bearing seat, 13, first turn Axle, 14, driven sprocket, 15, chain, 16, upper terminal pad, 17, connecting hole, 18, second bearing seat, the 19, second rotating shaft, 20, lead To bar, 21, lower terminal pad, 22, connecting pole, 23, keyway, 24, key, 25, jacking ring, 26, threaded sleeve, 27, male thread, 28, Box thread, the 29, first angular wheel, 30,3rd bearing seat, the 31, the 3rd rotating shaft, the 32, second angular wheel, 33, triconic Gear, 34, fourth bearing seat, the 35, the 4th rotating shaft, the 36, the 4th angular wheel, 37, screw rod, 38, screw sleeve, 39, support bottom Disk.

Embodiment

The particular content of the present invention is described in detail with specific embodiment below in conjunction with the accompanying drawings.

As shown in Figure 1, Figure 2, Figure 3, Figure 4, numerically controlled lathe depth of parallelism linkage adjustment mechanism, including：Frame 1 and it is arranged on machine Two support feets 2 of the lower end of frame 1, the clamping mechanism 4 of the side of frame 1 is slidably arranged in by slide rail 3, is arranged on the opposite side of frame 1 Turning first 5 and controller 6, be provided with servo deceleration motor 7 on the ground of the side of support feet 2, subtract in the servo Drive sprocket 9 is provided with the motor shaft 8 of speed motor 7, is respectively arranged with four angles of the lower end of support feet 2 adjustable Support chassis device 10, the structure of the adjustable support base apparatus 10 includes：Shell 11, on the side of the shell 11 End is provided with first rotating shaft 13 by the vertical rotating of first bearing seat 12, the upper end of the first rotating shaft 13 stretch out shell 11 and from Movable sprocket 14 is connected, and is connected between the drive sprocket 9 and driven sprocket 14 by chain 15, the first rotating shaft 13 Lower end stretch into shell 11 and be connected with upper terminal pad 16, some connecting holes are evenly arranged with terminal pad 16 on described 17, second rotating shaft 19 is provided with by the vertical rotating of second bearing seat 18 on the shell 11 of the lower end of terminal pad 16 on described, The upper end of second rotating shaft 19 is provided with guide rod 20, is slided in the upper end of the guide rod 20 and is provided with lower terminal pad 21, Some connecting poles 22 cooperated with connecting hole 17 are evenly arranged with the lower terminal pad 21, in the lower terminal pad 21 side is provided with keyway 23, and the key 24 cooperated with keyway 23 is provided with the upper end side of the guide rod 20, The lower end of the lower terminal pad 21 is provided with the jacking ring 25 cooperated with it, the lower end of the jacking ring 25 and threaded sleeve 26 are connected, and the inner side of the threaded sleeve 26 is provided with male thread 27, are set in the outside of the lower end guide rod 20 of key 24 The box thread 28 cooperated with male thread 27 is equipped with, the lower end of second rotating shaft 19 is provided with the first angular wheel 29, 3rd bearing 30 lateral rotations of seat are provided with the 3rd rotating shaft 31 on the shell 11 of the side of the first angular wheel 29, The second angular wheel 32 cooperated with the first angular wheel 29 is provided with one end of 3rd rotating shaft 31, described the Triconic gear 33 is provided with the other end of three rotating shafts 31, fourth bearing seat is passed through in another side bottom of the shell 11 34 vertical rotatings are provided with the 4th rotating shaft 35, are provided with what is cooperated with triconic gear 33 in the 4th rotating shaft 35 4th angular wheel 36, screw rod 37 is provided with the upper end of the 4th angular wheel 36, is provided with the screw rod 37 The screw sleeve 38 cooperated with it, is provided with support chassis 39 on the screw sleeve 38, and the support chassis 39 is slided and set Put in shell 11, the upper end of the support chassis 39 is stretched out shell 11 and offseted with support feet 2, first angular wheel 29 Diameter is less than the second angular wheel 32, and second angular wheel 32 is identical with the diameter of triconic gear 33, and the described 3rd The diameter of angular wheel 33 is less than the 4th angular wheel 36.

When above-mentioned numerically controlled lathe depth of parallelism linkage adjustment mechanism carries out Coupled motion regulation, each adjustable branch is rotated successively The threaded sleeve 26 on base apparatus 10 is supportted, threaded sleeve 26 is cooperated by male thread 27 with the box thread 28 on guide rod Motion is so as to drive the motion upwards of jacking ring 25 upwards, and jacking ring 25 drives lower terminal pad 21 to be moved upwards on guide rod 20, Terminal pad 21 does not rotate on guide rod 20 under now relative motion is kept in keyway 23 on key 24, the lower band of terminal pad 21 Motion is until connecting pole 22 is inserted into the connecting hole 17 in terminal pad 16 dynamic connecting pole 22 upwards, and now threaded sleeve 26 stops Spin-ended turn, start servo deceleration motor 7, servo deceleration motor 7 drives drive sprocket 9 to rotate by motor shaft 8, drive sprocket 9 Each driven sprocket 14 is driven to rotate by chain 15, driven sprocket 14 drives first rotating shaft 13 to rotate, and first rotating shaft 13 drives Upper terminal pad 16 is rotated, and is inserted into due to the connecting pole 22 in lower terminal pad 21 in the connecting hole 17 in upper terminal pad 16, upper company Connecing disk 16 drives lower terminal pad 21 to rotate, and lower terminal pad 21 drives guide rod 20 to rotate in the presence of key 24, the band of guide rod 20 Dynamic second rotating shaft 19 is rotated in second bearing seat 18, and the second rotating shaft 19 drives the first angular wheel 29 to rotate, the first conical tooth Wheel 29 drives the second angular wheel 32 to rotate, and the second angular wheel 32 drives the 3rd rotating shaft 31 to be rotated in 3rd bearing seat 30, So as to drive triconic gear 33 to rotate, triconic gear 33 drives the 4th angular wheel 36 to rotate, the 4th conical tooth Wheel 36 drives the 4th rotating shaft 35 to be rotated in fourth bearing seat 34, so as to drive screw rod 37 to rotate, and screw rod 37, which is rotated, drives screw rod Set 38 is moved upwards, and motion drives support chassis 39 to move upwards so as to adjust the height of support feet 2 to screw sleeve 38 upwards, in order to Regulation can be more laborsaving, and the diameter of first angular wheel 29 is less than the second angular wheel 32, second angular wheel 32 is identical with the diameter of triconic gear 33, and the diameter of the triconic gear 33 is less than the 4th angular wheel 36.

When above-mentioned numerically controlled lathe depth of parallelism linkage adjustment mechanism is individually adjusted, if detect numerically controlled lathe some There is parallelism error in angle, need to only rotate up the threaded sleeve 26 at that corresponding angle, make the connection in lower terminal pad 21 Post 22 is connected with the connecting hole 17 in upper terminal pad 16, and independent height can be carried out to some pin by starting servo deceleration motor 7 Degree regulation.

Above-mentioned numerically controlled lathe depth of parallelism linkage adjustment mechanism, the depth of parallelism that can at any time to numerically controlled lathe according to measurement data It is adjusted, one man operation is easy to adjust, time saving and energy saving, while the depth of parallelism that can be as needed to each angle of lathe is entered Row individually regulation, can also the depth of parallelism of whole lathe carry out Coupled motion regulation, degree of regulation is high, and adding for product is effectively ensured Working medium amount.

Claims (1)

1. numerically controlled lathe depth of parallelism linkage adjustment mechanism, it is characterised in that：Including：Frame (1) and it is arranged on frame (1) lower end Two support feets (2), the clamping mechanism (4) of frame (1) side is slidably arranged in by slide rail (3), is arranged on frame (1) opposite side Turning head (5) and controller (6), servo deceleration motor (7) is provided with the ground of the support feet (2) side, in institute State and drive sprocket (9) is provided with the motor shaft (8) of servo deceleration motor (7), on four angles of the support feet (2) lower end Adjustable support base apparatus (10) is respectively arranged with, the structure of the adjustable support base apparatus (10) includes：Shell (11) first rotating shaft (13), institute, are provided with by first bearing seat (12) vertical rotating in the side upper end of the shell (11) The upper end stretching shell (11) for stating first rotating shaft (13) is connected with driven sprocket (14), the drive sprocket (9) and driven chain It is connected between wheel (14) by chain (15), the lower end of the first rotating shaft (13) is stretched into shell (11) and upper terminal pad (16) it is connected, is evenly arranged with some connecting holes (17) in terminal pad (16) on described, on described under terminal pad (16) The second rotating shaft (19) is provided with by second bearing seat (18) vertical rotating on the shell (11) at end, in second rotating shaft (19) Upper end be provided with guide rod (20), the guide rod (20) upper end slide be provided with lower terminal pad (21), under described Some connecting poles (22) cooperated with connecting hole (17) are evenly arranged with terminal pad (21), in the lower terminal pad (21) Side be provided with keyway (23), be provided with the upper end side of the guide rod (20) with keyway (23) cooperate key (24) the jacking ring (25) cooperated with it, is provided with the lower end of the lower terminal pad (21), the jacking ring (25) Lower end is connected with threaded sleeve (26), male thread (27) is provided with the inside of the threaded sleeve (26), in the key (24) box thread (28) cooperated with male thread (27) is provided with the outside of lower end guide rod (20), in second rotating shaft (19) lower end is provided with the first angular wheel (29), passes through on the shell (11) of the first angular wheel (29) side Three bearing blocks (30) lateral rotation is provided with the 3rd rotating shaft (31), is provided with one end of the 3rd rotating shaft (31) and first The second angular wheel (32) that angular wheel (29) cooperates, the 3rd is provided with the other end of the 3rd rotating shaft (31) Angular wheel (33), the shell (11) another side bottom by fourth bearing seat (34) vertical rotating be provided with the 4th turn Axle (35), is provided with the 4th angular wheel cooperated with triconic gear (33) on the 4th rotating shaft (35) (36) upper end of the 4th angular wheel (36), is provided with screw rod (37), is provided with and its phase on the screw rod (37) The screw sleeve (38) mutually coordinated, is provided with support chassis (39) on the screw sleeve (38), and the support chassis (39) is slided It is arranged in shell (11), the upper end of the support chassis (39) is stretched out shell (11) and offseted with support feet (2), first cone The diameter of shape gear (29) is less than the second angular wheel (32), second angular wheel (32) and triconic gear (33) Diameter is identical, and the diameter of the triconic gear (33) is less than the 4th angular wheel (36).