CN119260420A - A machine tool turning device for heavy shaft parts and its use method - Google Patents

Abstract

The invention relates to the field of machine tools, in particular to a machine tool turning device for heavy shaft parts and a use method thereof, wherein the machine tool turning device comprises a base, and a supporting mechanism is arranged on the base; the machine tool turning device disclosed by the invention can be integrated and fixed with an original machine tool sliding rail of a machine tool, is convenient for actual installation and arrangement, facilitates placement of a part to be machined on the machine tool turning device through the arrangement of the supporting mechanism, and can change the height and the orientation of the supporting mechanism during subsequent use through the arrangement of the adjusting mechanism, so that the machining position of the part to be machined is changed.

Description

Machine tool turning device for heavy shaft parts and use method thereof

Technical Field

The invention relates to the field of machine tools, in particular to a machine tool turning device for heavy shaft parts and a use method thereof.

Background

For processing of a single heavy shaft part with the general weight of more than or equal to 200kg, when one end of the axle is required to be turned around and the other end of the axle is required to be processed, a crane is adopted to manually lift the axle to the mid-air and manually rotate the axle to turn around, and a hanging strip is required to be sleeved and detached for the second time, so that the work is laborious and the efficiency is low.

The prior patent 21410445206.5-discloses a turning machine for a shaft, which can drive a shifting block by using an air cylinder to turn the shaft, but cannot be suitable for turning operation of heavy shaft parts and cannot be installed and used based on the prior machine tool structure.

Therefore, in order to improve or solve at least one of the above problems, a turning device is needed to assist in turning around the parts on the machine tool.

Disclosure of Invention

The invention aims to provide a turning device which can be applied to a machine tool and can be used for turning operation of heavy shaft parts.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

The machine tool turning device for the heavy shaft parts comprises a base, wherein a supporting mechanism is arranged on the base, and the supporting mechanism is connected with the base through an adjusting mechanism;

the supporting mechanism comprises a supporting seat;

the adjusting mechanism comprises a mounting plate arranged on the base, wherein the mounting plate is provided with a mounting seat;

the support base is rotatable about the mounting base.

The support seat is connected with the mounting seat through a rotating mechanism, the rotating mechanism comprises a mounting rotating hole arranged on the support seat and a rotating shaft arranged in the mounting rotating hole, and the support seat is inserted into the mounting rotating hole of the mounting seat through the rotating shaft.

The base is connected to the machine tool slide rail through a fixing mechanism;

the fixing mechanism comprises a front end fixing part and a rear end fixing part which are arranged on the base;

The front end fixing part comprises a front end plate arranged on the base, the rear end fixing part comprises a rear end plate arranged on the base, and the rear end plate and the front end plate are distributed on two opposite sides of the machine tool slide rail relatively.

The support base comprises a support bottom plate, wherein support parts are arranged on the support bottom plate, each support part comprises two support blocks which are oppositely arranged at intervals, and each support block is provided with a support inclined plane.

The support base plate is provided with two support parts oppositely, the two support parts are distributed at intervals, and the support inclined plane is provided with a support cushion block.

The mounting seat is connected with a pushing mechanism, and the pushing mechanism comprises a rocker arm and a plug hole arranged on the mounting seat;

The pushing mechanism comprises a plurality of inserting holes arranged on the mounting seat, the inserting holes are distributed on the mounting seat in an annular mode at intervals, and the rocker arm is connected with the mounting seat through one inserting hole.

The mounting seat comprises a seat body, and the mounting rotating hole is arranged on the seat body in a penetrating manner;

The mounting and rotating hole comprises an upper hole body and a lower hole body;

The horizontal projection area of the upper hole body is larger than that of the lower hole body;

the rotating shaft comprises an upper shaft body and a lower shaft body connected to the upper shaft body, and the horizontal projection area of the upper shaft body is larger than that of the lower shaft body;

the vertical section of the rotating shaft is T-shaped, and the rotating shaft is inserted into the installation rotating hole.

The rotating shaft is arranged on the seat body through the thrust bearing;

The seat body comprises an upper seat body and a lower seat body connected to the upper seat body;

one end of the upper shaft body, which is close to the lower shaft body, is provided with an embedded ring groove;

One end of the upper hole body, which is close to the lower hole body, is provided with a bearing groove;

the thrust bearing is arranged in the upper hole body through a bearing groove, and is connected to the upper shaft body through an embedded ring groove;

the horizontal projection area of the upper seat body is larger than that of the lower seat body, and the vertical section of the seat body is T-shaped.

The base comprises a base plate, two base support plates are arranged on the base plate at intervals, the two base support plates are arranged oppositely, a support plane is arranged on each base support plate, and the mounting plates are arranged on the base support plates.

The application method of the machine tool turning device for the heavy shaft parts comprises the following steps:

Step 1, installing a machine tool turning device on a machine tool slide rail of a machine tool;

Step 2, placing a part to be processed on a supporting seat of a machine tool turning device by using a travelling crane;

Step3, adjusting the height of the support seat by rotating the position of the mounting seat on the mounting plate, and then fixing the mounting seat;

Step 4, controlling the travelling crane to separate from the part to be processed, processing one end of the part to be processed, enabling the part to be processed to fall on a machine tool turning device after one end of the part to be processed is processed, pushing the part to be processed to rotate until the part to be processed rotates 180 degrees, finishing turning the part to be processed, and processing the other end of the part to be processed;

And 5, after the step 4 is finished, finishing the processing of the two ends of the part to be processed, and hoisting and transferring the part to be processed by using a crane.

The invention has the advantages that:

The invention discloses a machine tool turning device for heavy shaft parts and a use method thereof.

The machine tool turning device disclosed by the invention can be engaged with and fixed on the original machine tool sliding rail of the machine tool, and is convenient to install and arrange in practice.

The device is characterized in that the support mechanism is arranged on the machine tool turning device, the height and the direction of the support mechanism can be changed during subsequent use through the arrangement of the adjustment mechanism, the processing position of the part to be processed can be changed, the turning operation of the part to be processed can be realized during actual processing, and the processing operation of two ends of the part is facilitated.

Drawings

The contents of the drawings and the marks in the drawings of the present specification are briefly described as follows:

fig. 1 is a schematic structural view of the present invention when connected to a slide rail of a machine tool.

Fig. 2 is a side view of the present invention attached to a machine tool slide.

Fig. 3 is a cross-sectional view of a mount according to the present invention.

Fig. 4 is a cross-sectional view of the turn device of the present invention.

Fig. 5 is a schematic view of the structure of the present invention in use.

The labels in the above figures are:

1-axle, 2-machine tool slide rail, 3-turning device, 4-supporting seat, 5-base, 6-mounting plate, 7-rocker arm, 8-front end fastening bolt, 9-fixing buckle, 10-rear end fastening bolt, 11-thrust bearing, 12-rotating shaft, 13-mounting seat, 14-locking fastening bolt, 15-bearing groove, 16-inserting hole and 17-external screw thread.

Detailed Description

The following detailed description of the invention refers to the accompanying drawings, which illustrate preferred embodiments of the invention in further detail.

The invention discloses a machine tool turning device 3 for heavy shaft parts, which comprises a base 5, wherein a supporting mechanism is arranged on the base 5 and is connected with the base 5 through an adjusting mechanism, and the machine tool turning device 3 disclosed by the invention can be matched and fixed with an original machine tool slide rail 2 of a machine tool, so that the machine tool turning device is convenient to install and arrange in practice.

The support mechanism is arranged to facilitate the placement of the part to be machined on the machine tool turning device 3, the height and the direction of the support mechanism can be changed during subsequent use through the arrangement of the adjusting mechanism, and then the machining position of the part to be machined can be changed.

The machine tool turning device 3 is mainly used for being matched with a machine tool slide rail 2 on a machine tool, and in the invention, the machine tool turning device 3 is fixed on the machine tool slide rail 2, and the machine tool turning device 3 is mainly used for supporting shaft parts, and further, the machining operation of two ends of the shaft parts is realized by turning and turning.

In addition, the supporting mechanism comprises a supporting seat 4, and the supporting seat 4 is mainly used for supporting and placing a part to be processed.

The adjusting mechanism comprises a mounting plate 6 arranged on a base 5, wherein a mounting seat 13 is arranged on the mounting plate 6, the mounting seat 13 is connected with the mounting plate 6 through threads, the mounting plate 6 is fixed on the base 5, the mounting plate 6 plays a role in bottom supporting, the mounting plate 6 is provided with the mounting seat 13, the mounting seat 13 serves as a middle supporting piece and a follow-up rotating piece, the mounting seat 13 is connected to the base 5 through the mounting plate 6, and the height of the follow-up machine tool turning device 3 is changed through relative movement of the mounting seat 13 and the mounting plate 6.

The support seat 4 can rotate around the mounting seat 13, and the arrangement orientation of the shaft parts is convenient to control in subsequent use based on the arrangement.

Further, in the invention, the supporting seat 4 is connected with the mounting seat 13 through the rotating mechanism, and the rotating mechanism is arranged to enable the supporting seat 4 and the mounting seat 13 to rotate relatively, so that the friction force between the supporting seat 4 and the mounting seat 13 is reduced.

The rotating mechanism comprises a mounting rotating hole 101 arranged on a supporting seat 4 and a rotating shaft 12 arranged in the mounting rotating hole 101, the supporting seat 4 is inserted into the mounting rotating hole 101 of a mounting seat 13 through the rotating shaft 12, the supporting seat 4 is fixedly connected to the end part of the rotating shaft 12, one rotating shaft 12 serves as a rotating shaft, the other rotating shaft serves as a longitudinal supporting frame, the supporting seat 4 can be connected to the rotating shaft 12 through bolts or screws, and the mounting rotating hole 101 facilitates the insertion and installation of the rotating shaft 12.

In addition, in the invention, the mounting seat 13 is connected with the mounting plate 6 through threads, the mounting plate 6 is provided with a mounting hole, the mounting hole is internally provided with internal threads, the outer side surface of the mounting seat 13 is provided with external threads 17, and the mounting seat 13 is in threaded connection in the mounting hole through the external threads 17.

Furthermore, in the invention, the base 5 is connected to the machine tool slide rail 2 through the fixing mechanism, and the fixing mechanism mainly plays a role in fixing, so that the base 5 is convenient to fixedly mount on the machine tool slide rail 2.

The fixing mechanism comprises a front end fixing part and a rear end fixing part which are arranged on the base 5, and the front end fixing part and the rear end fixing part are matched for use and can squeeze two sides of the machine tool slide rail 2, so that the base 5 is fixedly arranged on the machine tool slide rail 2.

The front end fixing part comprises a front end plate 53 arranged on the base 5, the rear end fixing part comprises a rear end plate 54 arranged on the base 5, the rear end plate 54 and the front end plate 53 are distributed on two opposite sides of the machine tool slide rail 2 in a relative mode, the front end plate 53 and the rear end plate 54 are generally arranged in the total longitudinal direction and are generally parallel to the side face of the machine tool slide rail 2, the lower end face of the base 5 is attached to the upper end face of the machine tool slide rail 2, the contact area of the machine tool slide rail 2 and the base 5 is well guaranteed based on the arrangement, and therefore stability of the base 5 placed on the machine tool slide rail 2 is guaranteed.

Meanwhile, the rear end plate is clamped in the side groove of the machine tool slide rail 2 through the fixing buckle 9, so that the fixed installation of the base 5 on the machine tool slide rail 2 is better ensured.

Further, the supporting seat 4 includes a supporting base plate 43, the supporting base plate 43 is provided with a supporting component 401, the supporting base plate 43 is of a transverse plate structure to play a role of bottom supporting, the subsequent placement and arrangement of the supporting component 401 are facilitated, each supporting component 401 includes two supporting blocks 41 which are oppositely arranged at intervals, each supporting block 41 is provided with a supporting inclined surface 44, and a space gap is formed between the two supporting blocks 41 based on the arrangement, so that the supporting and limiting of shaft parts are facilitated, and the shaft parts are prevented from falling off the supporting seat 4.

Meanwhile, two supporting parts 401 are oppositely arranged on the supporting bottom plate 43, the two supporting parts 401 are distributed at intervals, and on the basis of the arrangement, the four corners of the supporting bottom plate 43 are correspondingly provided with one supporting block 41 respectively, so that one supporting seat 4 can support shaft parts at two positions, and the stability of the supporting seat 4 for supporting the shaft parts is better ensured.

Meanwhile, the support inclined surface 44 is provided with the support cushion block 42, the support cushion block 42 can be fastened on the support inclined surface 44 through bolts, the support cushion block 42 can be of a block-shaped structure such as a nylon block, a rubber block and the like, and can support and protect parts and avoid rigid collision between the parts and the support block 41.

Further, the mounting seat 13 is connected with a pushing mechanism, the pushing mechanism comprises the rocker arm 7 and the inserting hole 16 arranged on the mounting seat 13, the rocker arm 7 is connected with the mounting seat 13 through the inserting hole 16, the rocker arm 7 serves as a holding rod, when the device is used later conveniently, the rocker arm 7 is pushed manually, the rocker arm 7 drives the mounting seat 13 to rotate on the mounting plate 6, the longitudinal height of the supporting seat 4 is changed, the position of the shaft part is changed, and the machining position of the shaft part is changed.

Meanwhile, the pushing mechanism comprises a plurality of inserting holes 16 arranged on the mounting seat 13, the inserting holes 16 are distributed on the mounting seat 13 in a ring shape at intervals, and the inserting holes 16 are arranged in a plurality of positions, so that the rocker arm 7 can select the inserting holes 16 at different positions according to requirements in actual use, the arrangement is convenient for connection between the rocker arm 7 and the mounting seat 13, and operators can avoid moving along the circumferential direction of the mounting seat 13 along with the rocker arm 7 when the rocker arm 7 rotates, and reciprocating movement of the operators can be reduced.

Meanwhile, in the invention, the plug hole 16 can be provided with internal threads, and the end part of the rocker arm 7 can be provided with external threads, in other words, the rocker arm 7 can be connected to the mounting seat 13 through threads, so that the mounting connection of the rocker arm 7 on the mounting seat 13 is facilitated.

Further, the mounting base 13 in the invention comprises a base body, the mounting rotating hole 101 is arranged on the base body in a penetrating way, the base body is a main body structure of the mounting base 13, the mounting rotating hole 101 is convenient for inserting the follow-up rotating shaft 12, the mounting rotating hole 101 comprises an upper hole body 1011 and a lower hole body 1012, the upper hole body 1011 and the lower hole body 1012 are communicated with each other, meanwhile, the horizontal projection area of the upper hole body 1011 is required to be larger than that of the lower hole body 1012, and a step platform is formed at the joint of the upper hole body 1011 and the lower hole body 1012 in the base body, and can support the rotating shaft 12, so that the longitudinal position of the rotating shaft 12 can be controlled conveniently.

In the invention, the rotating shaft 12 comprises an upper shaft body and a lower shaft body connected with the upper shaft body, the horizontal projection area of the upper shaft body is larger than that of the lower shaft body, the vertical section of the rotating shaft 12 is T-shaped, the arrangement is such that the rotating shaft 12 forms a step at the joint of the upper shaft body and the lower shaft body, and subsequently when the rotating shaft 12 is inserted into the installation rotating hole 101, the rotating shaft 12 and the installation rotating hole 101 can be mutually limited, so that the longitudinal insertion position of the rotating shaft 12 on the installation seat 13 is ensured.

Meanwhile, in the invention, a thrust bearing 11 is arranged in the mounting and rotating hole 101, the rotating shaft 12 is arranged on the seat body through the thrust bearing 11, one function of the thrust bearing 11 is to play a good supporting role, the other function is to facilitate the rotating shaft 12 to rotate around the mounting seat 13 subsequently and the supporting seat 4 to rotate, so that the turning operation of shaft parts is realized.

Further, the base body in the invention comprises an upper base body 131 and a lower base body 132 connected to the upper base body 131, wherein the horizontal projection area of the upper base body 131 is larger than that of the lower base body 132, the vertical section of the base body is T-shaped, and a step table is formed at the joint of the upper base body 131 and the lower base body 132, so that the base body has a protection function and can avoid excessive downward movement of the mounting base 13 due to overlarge stress.

Meanwhile, an embedded annular groove is formed in one end, close to the lower shaft body, of the upper shaft body, an annular groove 15 is formed in one end, close to the lower shaft body 1012, of the upper hole body 1011, a bearing groove 15 is formed in one end, close to the lower hole body 1012, of the upper shaft body, the thrust bearing 11 is arranged in the upper hole body 1011 through the bearing groove 15, the thrust bearing 11 is connected to the upper shaft body through the embedded annular groove, the thrust bearing 11 is conveniently arranged in the upper hole body 1011 through the arrangement of the bearing groove 15, the connection of the thrust bearing 11 to the upper shaft body is facilitated, and on the basis of the arrangement, the thrust bearing 11, the mounting seat 13 and the rotating shaft 12 are connected, so that movement of the thrust bearing 11 can be avoided, and rotation of the rotating shaft 12 relative to the mounting seat 13 can be facilitated.

Further, in the invention, the base 5 comprises a base plate 51, the base plate 51 plays a role of supporting the bottom, the base plate 51 can be arranged obliquely or horizontally, the subsequent base plate 51 is matched with a fixing mechanism to realize the installation and fixing of the base 5 on the machine tool slide rail 2, the base plate 51 is provided with two base support plates 52 which are distributed at intervals, the two base support plates 52 are arranged oppositely, the two base support plates 52 play a role of supporting the top, and the subsequent base plate can also serve as a connecting piece to facilitate the installation and connection of the installation plate 6.

In addition, in the invention, each base support plate 52 is provided with a support plane 55, the mounting plates 6 are arranged on the base support plates 52, and the arrangement of the support planes 55 is equivalent to forming a horizontal plane structure on the base support plates 52, so that the horizontal arrangement of the mounting plates 6 can be facilitated, and further the horizontal arrangement of mechanisms such as the support seats 4 and the like can be realized, thereby ensuring the horizontal arrangement of shaft parts and facilitating the subsequent respective processing operations of the two ends of the shaft parts.

Meanwhile, the side surface of the mounting plate 6 is provided with the extrusion mechanism, the extrusion mechanism comprises a lateral threaded hole arranged on the mounting plate 6, a locking fastening bolt 14 is arranged in the lateral threaded hole, the lateral threaded hole is communicated with the mounting hole on the mounting plate 6, and the lateral extrusion of the locking fastening bolt 14 to the mounting seat 13 can be realized by rotating the locking fastening bolt 14, so that the fixing locking of the mounting seat 13 can be realized.

The application method of the machine tool turning device 3 for the heavy shaft parts comprises the following steps:

step 1, installing a machine tool turning device 3 on a machine tool slide rail 2 of a machine tool;

Step 2, placing a part to be processed on a supporting seat 4 of a machine tool turning device 3 by using a travelling crane;

Step 3, adjusting the height of the supporting seat 4 by rotating the position of the mounting seat 13 on the mounting plate 6, and then fixing the mounting seat 13;

Step 4, controlling the travelling crane to separate from the part to be processed, processing one end of the part to be processed, enabling the part to be processed to fall on the machine tool turning device 3 after one end of the part to be processed is processed, pushing the part to be processed to rotate until the part to be processed rotates 180 degrees, completing turning of the part to be processed, and then processing the other end of the part to be processed;

And 5, after the step 4 is finished, finishing the processing of the two ends of the part to be processed, and hoisting and transferring the part to be processed by using a crane.

Through the disclosure of the using method, the invention can realize the turning operation of the shaft parts during the processing of the two end parts, and avoid the trouble of repeated lifting and turning.

Specifically:

the invention discloses a machine tool turning device 3 for heavy shaft parts.

The invention discloses a machine tool turning device 3 which mainly comprises a base 5, wherein a supporting mechanism is arranged on the base 5, the supporting mechanism is connected with the base 5 through an adjusting mechanism, and the base 5 can be matched with an original machine tool slide rail 2 and fixed by a locking block, so that the whole machine tool turning device 3 is fixed on a machine tool guide rail.

The base 5 is provided with a mounting plate 6, the mounting plate 6 is provided with a mounting seat 13, and the mounting seat 13 is connected with a supporting seat 4 through a rotating shaft 12.

In the invention, the rotating shaft 12 and the mounting seat 13 are both of T-shaped structures, the inside of the mounting seat 13 is provided with a stepped mounting rotating hole 101 which is used for mounting the thrust bearing 11 and the rotating shaft 12 of the whole device, and the lower end of the mounting seat 13 is of a threaded structure, so that the height adjustment of the whole structure can be realized and the mounting seat is applicable to different shaft parts, and the application range of the invention can be improved to a certain extent.

The top of the rotating shaft 12 is provided with the supporting seat 4, the supporting component 401 on the supporting seat 4 forms a V-shaped supporting structure for supporting the axle 1, and when the axle 1 finishes processing one end, the axle 1 is directly pushed to rotate to complete turning.

As shown in fig. 1-4, the machine tool turning device 3 for machining heavy shaft parts of a machine tool comprises a supporting seat 4, a base 5, a mounting plate 6, a mounting seat 13, a rocker arm 7, a front end fastening bolt 8, a fixing buckle 9, a rear end fastening bolt 10, a thrust bearing 11, a rotating shaft 12 and a locking fastening bolt 14, wherein a supporting part 401 on the supporting seat 4 forms a V-shaped supporting structure.

In the invention, a base 5 is clamped into a machine tool slide rail 2, the rear part is fastened and fixed by using a fixing buckle 9 and a rear end fastening bolt 10, the front end is fastened and fixed by using a front end fastening bolt 8, so that a base 55 is completely fixed on the machine tool slide rail 2, a mounting plate 6 is mounted on the base 5 and fixed, a mounting seat 13 is mounted on the mounting plate 6 through threads, four inserting holes 16 are uniformly designed on the side edges, a rocker arm 7 can be inserted into the inserting holes 16 to lift through rotation of the mounting seat 13, a thrust bearing 11 is mounted in a bearing groove 15 of the mounting seat 13, and meanwhile, the bottom of a rotating shaft 12 is mounted on the thrust bearing 11 in an interference manner, so that the rotating shaft 12 can be smoothly and easily rotated, and a supporting seat 4 is connected to the upper part of the rotating shaft 12.

When the device is used, the front end fastening bolt 8 and the rear end fastening bolt 10 are locked at first, the whole turning device is completely fixed on the machine tool slide rail 2, the axle 1 is placed on the supporting seat 4 by the travelling crane, the rocker 7 is inserted into the inserting hole 16 of the mounting seat 13, the rocker 7 is manually pulled to finely adjust the height to a proper height, the rocker 7 is taken out, meanwhile, the fastening bolt 14 is locked to a fixed height, one end of the axle 1 can be machined according to normal technological requirements after the hanging belt is disassembled, and after one end is machined, the axle 1 is directly pushed to rotate to finish turning and the other end is machined, and the axle 1 is not required to be lifted by the travelling crane to turn.

The bottom of the machine tool turning device 3 disclosed by the invention can be matched and fixed with the original machine tool slide rail 2.

Then through the use of the adjusting mechanism, the rotation of the supporting seat 4 and the lifting of the height of the supporting seat 4 can be realized, so that the machine tool turning device 3 disclosed by the invention can be suitable for shaft parts with different sizes and types, can directly push the axle 1 to rotate to finish turning after the axle 1 finishes one end, and is simple and convenient.

It is obvious that the specific implementation of the present invention is not limited by the above-mentioned modes, and that it is within the scope of protection of the present invention only to adopt various insubstantial modifications made by the method conception and technical scheme of the present invention.

Claims (10)

1. The machine tool turning device for the heavy shaft parts is characterized by comprising a base, wherein the base is provided with a supporting mechanism, and the supporting mechanism is connected with the base through an adjusting mechanism;

the supporting mechanism comprises a supporting seat;

the adjusting mechanism comprises a mounting plate arranged on the base, wherein the mounting plate is provided with a mounting seat;

the support base is rotatable about the mounting base.

2. The turning device of the machine tool for the heavy shaft parts, which is disclosed in claim 1, is characterized in that the supporting seat is connected with the mounting seat through a rotating mechanism, the rotating mechanism comprises a mounting rotating hole arranged on the supporting seat and a rotating shaft arranged in the mounting rotating hole, and the supporting seat is inserted into the mounting rotating hole of the mounting seat through the rotating shaft.

3. The turning device for the machine tool for heavy shaft parts according to claim 1, wherein the base is connected to a slide rail of the machine tool through a fixing mechanism;

the fixing mechanism comprises a front end fixing part and a rear end fixing part which are arranged on the base;

The front end fixing part comprises a front end plate arranged on the base, the rear end fixing part comprises a rear end plate arranged on the base, and the rear end plate and the front end plate are distributed on two opposite sides of the machine tool slide rail relatively.

4. The machine tool turning device for the heavy shaft parts, according to claim 1, is characterized in that the supporting seat comprises a supporting bottom plate, supporting parts are arranged on the supporting bottom plate, each supporting part comprises two supporting blocks which are oppositely arranged at intervals, and each supporting block is provided with a supporting inclined surface.

5. The turning device of the machine tool for the heavy shaft parts, which is disclosed in claim 4, is characterized in that two supporting parts are oppositely arranged on the supporting bottom plate, the two supporting parts are distributed at intervals, and a supporting cushion block is arranged on the supporting inclined plane.

6. The turning device of the machine tool for the heavy shaft parts according to claim 1, wherein the installation seat is connected with a pushing mechanism, and the pushing mechanism comprises a rocker arm and a plug hole arranged on the installation seat;

The pushing mechanism comprises a plurality of inserting holes arranged on the mounting seat, the inserting holes are distributed on the mounting seat in an annular mode at intervals, and the rocker arm is connected with the mounting seat through one inserting hole.

7. The turning device for the machine tool for heavy shaft parts according to claim 1, wherein the mounting seat comprises a seat body, and the mounting rotation hole is arranged on the seat body in a penetrating manner;

The mounting and rotating hole comprises an upper hole body and a lower hole body;

The horizontal projection area of the upper hole body is larger than that of the lower hole body;

the rotating shaft comprises an upper shaft body and a lower shaft body connected to the upper shaft body, and the horizontal projection area of the upper shaft body is larger than that of the lower shaft body;

the vertical section of the rotating shaft is T-shaped, and the rotating shaft is inserted into the installation rotating hole.

8. The turning device for the machine tool for the heavy shaft parts, which is disclosed in claim 7, is characterized in that a thrust bearing is arranged in the installation rotating hole;

The seat body comprises an upper seat body and a lower seat body connected to the upper seat body;

one end of the upper shaft body, which is close to the lower shaft body, is provided with an embedded ring groove;

One end of the upper hole body, which is close to the lower hole body, is provided with a bearing groove;

the thrust bearing is arranged in the upper hole body through a bearing groove, and is connected to the upper shaft body through an embedded ring groove;

the horizontal projection area of the upper seat body is larger than that of the lower seat body, and the vertical section of the seat body is T-shaped.

9. The machine tool turning device for the heavy shaft parts, which is disclosed in claim 1, is characterized in that the base comprises a base plate, two base support plates are arranged on the base plate at intervals, the two base support plates are arranged oppositely, a support plane is arranged on each base support plate, and the mounting plate is arranged on the base support plates.

10. A method of using the machine tool turning device for heavy shaft parts according to any one of claims 1 to 9, characterized in that the method of using comprises the steps of:

Step 1, installing a machine tool turning device on a machine tool slide rail of a machine tool;

Step 2, placing a part to be processed on a supporting seat of a machine tool turning device by using a travelling crane;

Step3, adjusting the height of the support seat by rotating the position of the mounting seat on the mounting plate, and then fixing the mounting seat;

Step 4, controlling the travelling crane to separate from the part to be processed, processing one end of the part to be processed, enabling the part to be processed to fall on a machine tool turning device after one end of the part to be processed is processed, pushing the part to be processed to rotate until the part to be processed rotates 180 degrees, finishing turning the part to be processed, and processing the other end of the part to be processed;

And 5, after the step 4 is finished, finishing the processing of the two ends of the part to be processed, and hoisting and transferring the part to be processed by using a crane.