CN209937157U - Rotatable main shaft mechanism of numerical control slot milling machine - Google Patents

Abstract

The utility model discloses a rotatable main shaft mechanism of numerical control slot milling machine, it includes: cantilever, rotation axis servo motor, the RV speed reducer, motor base and spindle motor, wherein, rotation axis servo motor's output is connected with the input of RV speed reducer, the output of RV speed reducer is connected with motor base's one end, motor base's the other end passes through bearing structure and is connected with the front end of cantilever, motor base is parallel with the cantilever and is located the below of the first half section of cantilever, motor base can autogiration under rotation axis servo motor's drive, motor base is the cuboid form, spindle motor has a plurality ofly, these spindle motor install on motor base's different faces. The utility model discloses an useful part lies in: install on numerical control slot milling machine the utility model provides an after the automatic rotation main shaft mechanism, can realize the rotation processing of main shaft, both increased the functionality of numerical control slot milling machine, improved numerical control slot milling machine's practicality again.

Description

Rotatable main shaft mechanism of numerical control slot milling machine

Technical Field

The utility model relates to a main shaft mechanism of numerical control slot milling machine, concretely relates to rotatable main shaft mechanism of numerical control slot milling machine belongs to mechanical technical field.

Background

The conventional numerical control mortising machine is generally provided with one to two rows of main shafts, and more cutters and swing angles cannot be switched due to the fact that the main shafts cannot rotate, so that the conventional numerical control mortising machine needs to clamp materials for multiple times if special-shaped wood is to be machined (namely when planes of a plurality of mortises are not perpendicular to a tool face), and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model aims to provide a rotatable spindle mechanism which is arranged on a numerical control slot milling machine and can switch more cutters and swing angles.

In order to achieve the above object, the utility model adopts the following technical scheme:

rotatable main shaft mechanism of numerical control slot milling machine, its characterized in that includes: cantilever, rotation axis servo motor, RV speed reducer, motor base and spindle motor, wherein:

the output end of the rotary shaft servo motor is connected with the input end of an RV speed reducer, the output end of the RV speed reducer is connected with one end of a motor base, the other end of the motor base is connected with the front end of a cantilever through a bearing structure, the motor base is parallel to the cantilever and is positioned below the front half section of the cantilever, and the motor base can automatically rotate under the driving of the rotary shaft servo motor;

a sliding rail and a sliding block are arranged on the rear half section of the cantilever, and the sliding rail is parallel to the motor base;

the motor base is cuboid, the spindle motors are arranged on different surfaces of the motor base, and the spindle motors are arranged on the spindle motors.

The rotatable spindle mechanism of the numerical control slot milling machine is characterized in that the output end of the rotating shaft servo motor is connected with the input end of the RV reducer through a flange.

The rotatable spindle mechanism of the numerical control slot milling machine is characterized in that the output end of the RV reducer is connected with one end of the motor base through a flange.

The rotatable spindle mechanism of the numerical control slot milling machine is characterized in that the RV reducer is fixedly arranged below the cantilever through the reducer base.

The rotatable spindle mechanism of the numerical control slot milling machine is characterized in that a bearing structure arranged at one end of the motor base comprises: the motor base comprises a bearing sleeve, a bearing and a bearing seat, wherein the bearing sleeve, the bearing and the bearing seat are sequentially sleeved together from inside to outside, the bearing sleeve is sleeved at the front end of the motor base, and the bearing seat is fixedly installed on a cantilever.

The utility model discloses an useful part lies in: install on the numerical control slot milling machine the utility model provides a behind the rotatable main shaft mechanism, the numerical control slot milling machine can switch more cutters and pivot angle to only need a clamping just can process out the timber of various dysmorphism, improved machining efficiency greatly.

Drawings

Fig. 1 is a schematic perspective view of a specific embodiment of a rotatable spindle mechanism according to the present invention;

FIG. 2 is a rear view of the rotatable spindle mechanism of FIG. 1;

fig. 3 is a front view of the rotatable spindle mechanism of fig. 1.

The meaning of the reference symbols in the figures: the device comprises a cantilever 1, a rotary shaft 2, a servo motor 3, a motor base 4, a spindle motor 5, a bearing seat 6, a bearing sleeve 7, a bearing 8, a first flange 9, a second flange 10, an RV reducer 11, a reducer base 12, a third flange 12, a slide rail 13 and a slide block 14.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, 2 and 3, the rotatable spindle mechanism of the numerical control slot milling machine of the present invention comprises: cantilever 1, rotation axis servo motor 2, speed reducer 10, motor base 3 and spindle motor 4.

The cantilever 1 is divided into a front half section and a rear half section, wherein the front half section is used for mounting the RV reducer 10 and the motor base 3, the rear half section is used for mounting the sliding rail 13, the sliding rail 13 is parallel to the cantilever 1, the sliding rail 13 is provided with the sliding block 14, and the cantilever 1 can move on the numerical control slot milling machine under the action of the sliding block 14 and the sliding rail 13.

The output end of the rotary shaft servo motor 2 is connected with the input end of the RV speed reducer 10 through a flange, specifically, a first flange 8 is installed at the output end of the rotary shaft servo motor 2, a second flange 9 is installed at the input end of the speed reducer 10, the first flange 8 is fixedly connected with the second flange 9, and the rotary shaft servo motor 2 is connected with the RV speed reducer 10 immediately.

The output end of the RV reducer 10 is connected with one end of the motor base 3 through a flange, specifically, a third flange 12 is mounted at the output end of the RV reducer 10, one end of the motor base 3 is fixedly connected with the third flange 12, and the RV reducer 10 is connected with the motor base 3 immediately.

RV speed reducer 10 passes through speed reducer seat 11 fixed mounting in the below of cantilever 1, RV speed reducer seat 11 and cantilever 1 fixed connection.

The other end of motor base 3 passes through bearing arrangement and is connected with cantilever 1's front end, and bearing arrangement includes: bearing housing 6, bearing 7 and bearing frame 5, the three overlaps from inside to outside in proper order together, and wherein, bearing housing 6 overlaps the front end at motor base 3, and bearing frame 5 fixed mounting is on cantilever 1.

After the motor base 3 is installed, the motor base 3 is parallel to the cantilever 1 and is located below the front half section of the cantilever 1, and the motor base 3 can rotate under the driving of the rotary shaft servo motor 2.

Motor base 3 is the cuboid form, and spindle motor 4 has a plurality ofly, and these spindle motor 4 are installed on motor base 3's different faces, and the cutter is installed on spindle motor 4's output shaft, and spindle motor 4 starts and can drive the cutter rotation to mill timber.

The utility model discloses a rotatable main shaft mechanism of numerical control slot milling machine, its working process as follows:

start rotation axis servo motor 2, under rotation axis servo motor 2's drive, RV speed reducer 10's pivot is rotated, under the drive of RV speed reducer 10's pivot, motor base 3 rotates, install spindle motor 4 on motor base 3 and rotate along with motor base 3, install the cutter on spindle motor 4 and rotate along with spindle motor 4, thereby realize the switching of cutter and the adjustment of pivot angle, the cutter switches over to finish or the pivot angle adjustment finishes the back, start spindle motor 4, spindle motor 4 drives the cutter rotatory, thereby mill timber.

It is visible, install on the numerical control groove cutting machine the utility model provides a behind the rotatable main shaft mechanism, the numerical control groove cutting machine can switch more cutters and pivot angle to only need a clamping just can process out the timber of various dysmorphism, improved machining efficiency greatly.

It should be noted that the above-mentioned embodiments do not limit the present invention in any way, and all technical solutions obtained by adopting equivalent replacement or equivalent transformation fall within the protection scope of the present invention.

Claims (5)

1. Rotatable main shaft mechanism of numerical control slot milling machine, its characterized in that includes: cantilever (1), rotation axis servo motor (2), RV speed reducer (10), motor base (3) and spindle motor (4), wherein:

the output end of the rotary shaft servo motor (2) is connected with the input end of an RV speed reducer (10), the output end of the RV speed reducer (10) is connected with one end of a motor base (3), the other end of the motor base (3) is connected with the front end of a cantilever (1) through a bearing structure, the motor base (3) is parallel to the cantilever (1) and is positioned below the front half section of the cantilever (1), and the motor base (3) can automatically rotate under the driving of the rotary shaft servo motor (2);

a sliding rail (13) and a sliding block (14) are arranged on the rear half section of the cantilever (1), and the sliding rail (13) is parallel to the motor base (3);

the motor base (3) is cuboid, the spindle motors (4) are multiple, and the spindle motors (4) are installed on different surfaces of the motor base (3).

2. The rotatable spindle mechanism of the numerical control slot milling machine according to claim 1, wherein the output end of the rotating shaft servo motor (2) is connected with the input end of the RV reducer (10) through a flange.

3. The rotatable spindle mechanism of the numerical control slot milling machine as claimed in claim 1, wherein the output end of the RV reducer (10) is connected with one end of the motor base (3) through a flange.

4. The rotatable spindle mechanism of a numerically controlled slot milling machine according to claim 1, wherein the RV reducer (10) is fixedly mounted below the boom (1) by a reducer base (11).

5. The rotatable spindle mechanism of a numerically controlled slot milling machine according to claim 1, wherein the bearing structure provided at one end of the motor base (3) comprises: bearing housing (6), bearing (7) and bearing frame (5), the three from inside to outside overlaps in proper order and is in the same place, and wherein, bearing housing (6) cover is at the front end of motor base (3), and bearing frame (5) fixed mounting is on cantilever (1).

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