CN105665756A - Adjustable supporting base plate structure of numerical control lathe - Google Patents

Abstract

The invention discloses an adjustable supporting base plate structure of a numerical control lathe. The adjustable supporting base plate structure comprises a rack, supporting legs arranged at the lower end of the rack, a clamping mechanism, a turning head and a controller, wherein the clamping mechanism is arranged on one side of the rack through a sliding rail in a sliding manner, and the turning head and the controller are arranged on the other side of the rack. Adjustable supporting base plates are arranged on the two sides of the lower end of each supporting leg. Each supporting base plate structurally comprises a shell, wherein a first rotating shaft is rotationally arranged at one end of the shell through a first bearing block in the vertical direction, the upper end of the first rotating shaft stretches out of the shell and is connected with an adjusting block, the adjusting block is provided with an adjusting hole, and the lower end of the first rotating shaft stretches into the shell and is connected with a first bevel gear; and a second rotating shaft is rotationally arranged inside one side of the shell through a second bearing block in the transverse direction, and a second bevel gear matched with the first bevel gear is arranged at one end of the second rotating shaft.

Description

Numerically controlled lathe adjustable support chassis structure

Technical field

The present invention relates to a kind of numerically controlled lathe, particularly relate to a kind of numerically controlled lathe adjustable support chassis structure.

Background technology

At mechanical processing industry, numerically controlled lathe is one of the most widely used plant equipment, and numerically controlled lathe was typically all either directly through placing on the ground after the plain cushion adjustment depth of parallelism originally when initially installing, in use once the depth of parallelism of numerically controlled lathe changes, need many people to be lifted by numerically controlled lathe plain cushion thickness is replaced, regulate trouble, lose time and manpower.

Summary of the invention

The technical problem to be solved is: provide a kind of numerically controlled lathe adjustable support chassis structure easy to adjust.

In order to solve above-mentioned technical problem, the technical solution used in the present invention is: numerically controlled lathe adjustable support chassis structure, including: frame and the spike being arranged on frame lower end, the clamping mechanism of frame side it is slidably arranged in by slide rail, it is arranged on turning head and the controller of frame opposite side, it is respectively arranged with adjustable support chassis in the both sides, lower end of described spike, the structure of described support chassis includes: shell, one end of described shell is provided with the first rotating shaft by clutch shaft bearing seat vertical rotating, the upper end of described first rotating shaft is stretched out shell and is connected with regulating block, described regulating block is provided with adjustment hole, the lower end of described first rotating shaft is stretched in shell and is connected with the first angular wheel, inside the side of described shell, the second bearing block lateral rotation is provided with the second rotating shaft, one end of described second rotating shaft is provided with the second angular wheel cooperated with the first angular wheel, the other end of described second rotating shaft is provided with triconic gear, bottom the opposite side of described shell, the 3rd bearing block vertical rotating is provided with the 3rd rotating shaft, described 3rd rotating shaft is provided with the 4th angular wheel cooperated with triconic gear, the upper end of described 4th angular wheel is provided with screw rod, described screw rod is provided with the screw sleeve cooperated with screw rod, described screw sleeve is provided with support chassis, described support chassis is stretched out shell and is offseted with bracing frame, the diameter of described first angular wheel is less than the second angular wheel, the diameter of described second angular wheel and triconic gear is identical, the diameter of described triconic gear is less than the 4th angular wheel.

The invention have the advantage that above-mentioned numerically controlled lathe adjustable support chassis structure, can at any time the depth of parallelism of numerically controlled lathe be adjusted according to measurement data, one man operation, easy to adjust, time saving and energy saving.

Accompanying drawing explanation

Fig. 1 is the structural representation of numerically controlled lathe adjustable support chassis structure of the present invention.

Fig. 2 is the structure for amplifying schematic diagram at A place in Fig. 1.

In figure: 1, frame, 2, spike, 3, slide rail, 4, clamping mechanism, 5, turning head, 6, controller, 7, adjustable support chassis, 8, shell, 9, clutch shaft bearing seat, the 10, first rotating shaft, 11, regulating block, 12, adjustment hole, 13, the first angular wheel, the 14, second bearing block, the 15, second rotating shaft, the 16, second angular wheel, 17, triconic gear, the 18, the 3rd bearing block, the 19, the 3rd rotating shaft, the 20, the 4th angular wheel, 21, screw rod, 22, screw sleeve, 23, support chassis.

Detailed description of the invention

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

Such as Fig. 1, shown in Fig. 2, numerically controlled lathe adjustable support chassis structure, including: frame 1 and the spike 2 being arranged on frame 1 lower end, the clamping mechanism 4 of frame 1 side it is slidably arranged in by slide rail 3, it is arranged on turning 5 and the controller 6 of frame 1 opposite side, it is respectively arranged with adjustable support chassis 7 in the both sides, lower end of described spike 2, the structure of described support chassis 7 includes: shell 8, one end of described shell 8 is provided with the first rotating shaft 10 by clutch shaft bearing seat 9 vertical rotating, the upper end of described first rotating shaft 10 is stretched out shell 8 and is connected with regulating block 11, described regulating block 11 is provided with adjustment hole 12, the lower end of described first rotating shaft 10 is stretched in shell 8 and is connected with the first angular wheel 13, inside the side of described shell 8, second bearing block 14 lateral rotation is provided with the second rotating shaft 15, one end of described second rotating shaft 15 is provided with the second angular wheel 16 cooperated with the first angular wheel 13, the other end of described second rotating shaft 15 is provided with triconic gear 17, bottom the opposite side of described shell 8, the 3rd bearing block 18 vertical rotating is provided with the 3rd rotating shaft 19, described 3rd rotating shaft 19 is provided with the 4th angular wheel 20 cooperated with triconic gear 17, the upper end of described 4th angular wheel 20 is provided with screw rod 21, described screw rod 21 is provided with the screw sleeve 22 cooperated with screw rod 21, described screw sleeve 22 is provided with support chassis 23, described support chassis 23 is stretched out shell 8 and is offseted with bracing frame 2, the diameter of described first angular wheel 13 is less than the second angular wheel 16, described second angular wheel 16 is identical with the diameter of triconic gear 17, the diameter of described triconic gear 17 is less than the 4th angular wheel 20.

When above-mentioned numerically controlled lathe adjustable support chassis structure is adjusted, being inserted into long adjusting rod in the adjustment hole 12 on regulating block 11 to rotate drives the first rotating shaft 10 to rotate in clutch shaft bearing seat 9, first rotating shaft 10 drives the first bevel gear 13 to rotate, first bevel gear 13 drives the second bevel gear 16 to rotate, second bevel gear 16 drives the second rotating shaft 15 to rotate in the second bearing block 14, thus driving third hand tap gear 17 to rotate, third hand tap gear 17 drives the 4th bevel gear 20 to rotate, 4th bevel gear 20 drives the 3rd rotating shaft 19 to rotate in the 3rd bearing block 18, thus driving screw rod 21 to rotate, screw rod 21 rotates band movable snail sleeve 22 and moves upward, swivel nut 22 move upward drive support chassis 23 move upward regulate support chassis 23 bearing height, can be more laborsaving in order to regulate, the diameter of described first angular wheel 13 is less than the second angular wheel 16, described second angular wheel 16 is identical with the diameter of triconic gear 17, the diameter of described triconic gear 17 is less than the 4th angular wheel 20.

Above-mentioned numerically controlled lathe adjustable support chassis structure, can be adjusted the depth of parallelism of numerically controlled lathe at any time according to measurement data, one man operation, easy to adjust, time saving and energy saving.

Claims (1)

1. numerically controlled lathe adjustable support chassis structure, it is characterized in that: including: frame (1) and be arranged on spike (2) of frame (1) lower end, the clamping mechanism (4) of frame (1) side it is slidably arranged in by slide rail (3), it is arranged on turning head (5) and the controller (6) of frame (1) opposite side, it is respectively arranged with adjustable support chassis (7) in the both sides, lower end of described spike (2), the structure of described support chassis (7) including: shell (8), one end of described shell (8) is provided with the first rotating shaft (10) by clutch shaft bearing seat (9) vertical rotating, the upper end of described first rotating shaft (10) is stretched out shell (8) and is connected with regulating block (11), described regulating block (11) is provided with adjustment hole (12), the lower end of described first rotating shaft (10) is stretched in shell (8) and is connected with the first angular wheel (13), in inside, the side of described shell (8), the second bearing block (14) lateral rotation is provided with the second rotating shaft (15), one end of described second rotating shaft (15) is provided with the second angular wheel (16) cooperated with the first angular wheel (13), the other end of described second rotating shaft (15) is provided with triconic gear (17), bottom the opposite side of described shell (8), the 3rd bearing block (18) vertical rotating is provided with the 3rd rotating shaft (19), described 3rd rotating shaft (19) is provided with the 4th angular wheel (20) cooperated with triconic gear (17), the upper end of described 4th angular wheel (20) is provided with screw rod (21), described screw rod (21) is provided with the screw sleeve (22) cooperated with screw rod (21), described screw sleeve (22) is provided with support chassis (23), described support chassis (23) is stretched out shell (8) and is offseted with bracing frame (2), the diameter of described first angular wheel (13) is less than the second angular wheel (16), described second angular wheel (16) is identical with the diameter of triconic gear (17), the diameter of described triconic gear (17) is less than the 4th angular wheel (20).