CN223557982U - A fixture for placing a straight edge on a milling and turning composite slant bed. - Google Patents

Abstract

A turning and milling composite inclined lathe bed flat ruler placing tool relates to the technical field of numerical control lathe detection. The machine tool comprises an inclined lathe bed body, a guide rail sliding block, a flat ruler bracket, equal-height blocks, a height adjusting device and a flat ruler. The inclined lathe bed comprises a lathe bed body, a guide rail sliding block, a leveling rod support, leveling rod supports, a height adjusting device, a leveling rod support, a leveling rod, a height adjusting device and a height adjusting device, wherein the guide rail is arranged on the inclined lathe bed body, the guide rail sliding block is assembled on the guide rail in a sliding mode, the leveling rod support is arranged on the inclined lathe bed body and located on the same side with the guide rail, the leveling rod supports are arranged in parallel and at intervals, the leveling rod support is arranged on one leveling rod support, the height adjusting device is arranged on the other leveling rod support, one end of the leveling rod is arranged on the top surface of the leveling rod, and the other end of the leveling rod is arranged on the top surface of the height adjusting device. By adopting the technical scheme, the tool has the advantages of convenience in installation, simplicity in adjustment of the leveling rod and simplicity and reliability in data acquisition.

Description

Turning and milling composite inclined lathe bed flat ruler placing tool

Technical Field

The utility model relates to the technical field of numerical control lathe detection, in particular to a turning and milling composite inclined lathe bed flat ruler placing tool.

Background

The straightness and parallel errors of the machine tool guide rail in a vertical plane are detected by a comparison measurement method of a precision level meter. This method is to replace the actual shape of the rail with the closest fold line in the vertical plane and compare these straight line segments to the ideal rail to determine the deviation of the rail fold line shape from the ideal rail shape. The numerical value generated by the level meter in the motion process is always the change generated relative to the absolute level, and the level is the reference of the change of the level meter. However, for the guide rail of the integral oblique lathe numerical control lathe, the plane of the guide rail is angled with the horizontal plane, so that the problem that the level gauge cannot be placed on the plane (bridge plate) of the guide rail in a natural state exists, and the straightness detection of the guide rail of the lathe cannot be completed.

Disclosure of utility model

The utility model aims to overcome the defects and shortcomings of the prior art, and provides a turning and milling composite inclined lathe bed flat ruler placing tool, which at least solves one of the technical problems, and has the advantages of convenience in installation of the tool, simplicity in adjustment of the flat ruler and simplicity and reliability in data acquisition.

In order to achieve the purpose, the technical scheme adopted by the utility model is that the flat ruler placing tool for the turning and milling composite inclined lathe bed comprises the following components:

The inclined lathe bed comprises an inclined lathe bed body, wherein a guide rail is arranged on the inclined lathe bed body;

The guide rail sliding block is assembled on the guide rail in a sliding way;

The leveling rod brackets are arranged on the inclined lathe bed body and positioned on the same side with the guide rail, and the leveling rod brackets are arranged in parallel and at intervals;

The equal-height block is arranged on one of the flat ruler brackets;

a height adjusting device arranged on the other flat ruler bracket, and

And one end of the leveling ruler is arranged on the top surface of the equal-height block, and the other end of the leveling ruler is arranged on the top surface of the height adjusting device.

The utility model further provides that the height adjustment device comprises:

the top surface of the block body is provided with an open structure;

The bottom surface of the first inclined block is abutted against the inner bottom surface of the block body, and the top surface of the first inclined block is provided with a first inclined surface;

The second inclined block is arranged in the cavity at one end and arranged between the open structure and the cavity at the other end, the top surface of the second inclined block is a plane, the bottom surface of the second inclined block is a second inclined surface, the second inclined surface is abutted with the first inclined surface, and

One end of the adjusting piece is connected to the side wall of the first inclined block, and the other end of the adjusting piece is exposed out of the side wall of the block;

Under the drive effect of regulating part, first sloping block moves towards both sides, first inclined plane with the butt of second inclined plane, so that the second sloping block exposes in the height of open structure increases or reduces.

The utility model further provides two adjusting parts which are symmetrically arranged.

The utility model further provides that a travel space for the first inclined block to move is arranged in the cavity.

The height adjusting device is further provided with a fastener, one end of the fastener is abutted against the second inclined block, and the other end of the fastener is exposed out of the side wall of the block, and the fastener is used for fixing the second inclined block at a set position.

The utility model further provides that the second inclined block is provided with a travel hole, and the travel hole is matched with the fastening piece to fix the second inclined block at a set position.

The utility model further provides that the leveling rod bracket comprises a fixing part which is arranged on the inclined lathe bed body and is positioned on the same side with the guide rail, and an extending part with one end vertically arranged on the top surface of the fixing part and the other end extending upwards.

The utility model further provides that one side of the extending part, which is abutted against the flat ruler, is provided with a side surface adjusting piece, one end of the side surface adjusting piece penetrates through one side of the extending part, which is abutted against the flat ruler, and is exposed out of one surface of the extending part, which is opposite to the flat ruler, and the other end of the side surface adjusting piece is arranged between one surface of the extending part, which is abutted against the flat ruler, and one surface of the flat ruler, which faces the extending part.

The utility model further provides that the side adjusting piece is provided with two side adjusting pieces.

The tool for placing the milling composite inclined lathe bed flat ruler further comprises a magnetic gauge seat and a lever dial gauge, wherein the magnetic gauge seat is detachably assembled on the guide rail sliding block, and the lever dial gauge is assembled on the magnetic gauge seat.

After the technical scheme is adopted, the guide rail is assembled on the inclined lathe bed body, the guide rail is slidably assembled with the guide rail sliding blocks, the leveling ruler is arranged on two parallel and spaced leveling ruler supports, the equal-height blocks are arranged between one end of the leveling ruler and one of the leveling ruler supports, the height adjusting device is arranged between the other end of the leveling ruler and the other leveling ruler support, the whole tool is simple and convenient to install, the leveling ruler is adjusted through the matching of the equal-height blocks and the height adjusting device, the adjusting mode is relatively simple, and the data obtaining mode is simple and reliable through moving the sliding blocks and the leveling ruler.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the right side view of the present utility model;

FIG. 3 is a schematic view of the structure of the leveling rod and the height adjusting device in a sectional state;

FIG. 4 is a schematic view of the structure of the flat rule, flat rule support, equal height block and height adjusting device in cooperation;

FIG. 5 is a schematic view of the structure of the height adjusting device;

FIG. 6 is a schematic exploded view of the height adjustment device;

FIG. 7 is a schematic view of the height adjustment device from another perspective;

FIG. 8 is a cross-sectional view corresponding to the direction A-A of FIG. 7;

FIG. 9 is a schematic view of the structure of the upper surface marking table of the flat ruler of the utility model;

FIG. 10 is a schematic view of the structure of a flat ruler upper surface marking table corresponding to the hidden portion assembly of FIG. 9;

Fig. 11 is a schematic diagram of the structure of the flat rule side marking table of the present utility model.

The reference numerals are 100, a slant lathe body, 200, a guide rail, 300, a guide rail sliding block, 400, a flat ruler bracket, 410, a fixing part, 420, an extending part, 500, an equal height block, 600, a height adjusting device, 610, a block body, 611, a cavity, 612, a stroke space, 613, an open structure, 620, a first slant block, 621, a first slant, 630, a second slant block, 631, a second slant, 632, a stroke hole, 640, an adjusting part, 650, a fastening part, 700, a flat ruler, 800, a side surface adjusting part, 910, a magnetic meter seat, 920 and a lever micrometer.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and those skilled in the art can make modifications to the present embodiment which do not contribute to the utility model as required after reading the present specification, but are protected by the patent laws within the scope of the appended claims.

The embodiment relates to a turning and milling composite inclined lathe bed flat ruler placing tool, which comprises an inclined lathe bed body 100, a guide rail sliding block 300, a flat ruler bracket 400, an equal-height block 500, a height adjusting device 600 and a flat ruler 700, and is characterized in that referring to fig. 1-2. The inclined lathe bed body 100 is provided with a guide rail 200, a guide rail sliding block 300 is assembled on the guide rail 200 in a sliding mode, a flat ruler support 400 is arranged on the inclined lathe bed body 100 and located on the same side of the guide rail 200, and two flat ruler supports 400 are arranged in parallel and at intervals and are convenient for supporting a flat ruler 700. The equal-height block 500 is arranged on one of the leveling rod brackets 400, the height adjusting device 600 is arranged on the other leveling rod bracket 400, and the height adjusting device 600 is used for adjusting the height of one end of the leveling rod 700 to align the leveling rod 700. One end of the flat bar 700 is disposed on the top surface of the contour block 500, and the other end is disposed on the top surface of the height adjusting device 600. Specifically, the guide rail 200 is assembled on the slant lathe body 100, the guide rail 200 is slidably assembled with the guide rail sliding blocks 300, the flat ruler 700 is arranged on two parallel and spaced flat ruler supports 400, the equal-height blocks 500 are arranged between one end of the flat ruler 700 and one of the flat ruler supports 400, and the height adjusting device 600 is arranged between the other end of the flat ruler 700 and the other flat ruler support 400. And the leveling rod 700 is adjusted by the cooperation of the equal-height block 500 and the height adjusting device 600, the adjustment mode is relatively simple, and the method for acquiring data by moving the guide rail slide block 300 and the leveling rod 700 is simple and reliable. In the present embodiment, the rail slider 300 is provided with two, which functions to ensure the displacement accuracy of the rail slider 300, provide better supporting and guiding actions, and mitigate the influence of lateral forces on the rail 200. In this embodiment, two guide rails 200 are provided and are disposed in parallel. In some embodiments, the rail 200 may be provided with one strip. In the present embodiment, the flat rule bracket 400 is connected to the diagonal lathe body 100 by screws. In some embodiments, the connection arrangement may also be made by screws.

In this embodiment, referring to fig. 2, the flat ruler holder 400 includes a fixing portion 410 and an extending portion 420, wherein the fixing portion 410 is disposed on the slant bed body 100 and located on the same side as the guide rail 200, and one end of the extending portion 420 is vertically disposed on the top surface of the fixing portion 410 and the other end extends upward. In the assembly process, the side surface of the equal-height block 500 is abutted against the side surface of the extension part 420, and the bottom surface of the equal-height block 500 is abutted against the top surface of the fixing part 410, specifically, one side surface of the equal-height block 500 is abutted against the side surface of the extension part 420, and the bottom surface of the equal-height block 500 is abutted against the top surface of the fixing part 410, so that the equal-height block 500 does not slide down. The side surface of the height adjusting device 600 abuts against the side surface of the extension part 420, and the bottom surface of the height adjusting device 600 abuts against the top surface of the fixing part 410, specifically, one side surface of the height adjusting device 600 abuts against the side surface of the extension part 420, and the bottom surface of the height adjusting device 600 abuts against the top surface of the fixing part 410, so that the height adjusting device 600 does not slide down. One side of the flat rule 700 is closely attached to the side of the extension 420, the bottom surface of one flat rule 700 is closely attached to the top surface of the contour block 500, and the bottom surface of the other flat rule 700 is closely attached to the top surface of the height adjusting device 600 so as to prevent the flat rule 700 from sliding down. In this embodiment, the flat rule support 400 is T-shaped to facilitate supporting the equal-height blocks 500, the height adjusting device 600, and the flat rule 700. In other embodiments, the flat scale bracket 400 may take other shapes.

In this embodiment, referring to fig. 2 and 10, a side surface adjuster 800 is provided on one side of the extension portion 420 that abuts against the flat bar 700, one end of the side surface adjuster 800 is provided to penetrate through the extension portion 420 to abut against one side of the flat bar 700 and to be exposed on a surface of the extension portion 420 that faces away from the flat bar 700, and the other end is interposed between the surface of the extension portion 420 that abuts against the flat bar 700 and the surface of the flat bar 700 that faces the extension portion 420. The side adjustment member 800 facilitates adjustment of the side axes of the two ends of the flat bar 700 parallel to the axis of the guide rail 200. In this embodiment, two side adjusting members 800 are provided and are respectively disposed on the two extending portions 420, so as to be adjusted correspondingly from two ends of the flat ruler 700. In this embodiment, the side adjuster 800 is a screw.

When the lateral axis of the two ends of the flat bar 700 needs to be adjusted, only one end of the lateral adjustment member 800 exposed out of the extending portion 420 and facing away from the flat bar 700 is required to be screwed or screwed, so that one end of the lateral adjustment member 800 disposed between the surface of the extending portion 420 abutting against the flat bar 700 and the surface of the flat bar 700 facing the extending portion 420 moves away from the flat bar 700 or moves towards the flat bar 700, so that one end of the flat bar 700 moves towards the extending portion 420 or moves towards the end facing away from the extending portion 420, and finally the lateral axis of the two ends of the flat bar 700 is parallel to the axis of the guide rail 200.

In some embodiments, the side adjuster 800 may also be provided with four. In some embodiments, the side adjuster 800 may also be a screw or the like.

In this embodiment, referring to fig. 5 to 8, the height adjusting apparatus 600 includes a block 610, a first inclined block 620, a second inclined block 630, and an adjusting member 640. The block 610 is provided with a cavity 611, the top surface of the block 610 is provided with an open structure 613, a first inclined block 620 is arranged in the cavity 611, the bottom surface of the first inclined block 620 is abutted against the inner bottom surface of the block 610, the top surface of the first inclined block 620 is provided with a first inclined surface 621, one end of a second inclined block 630 is arranged in the cavity 611, the other end of the second inclined block 630 is arranged between the open structure 613 and the cavity 611, the top surface of the second inclined block 630 is a plane, the bottom surface of the second inclined block 630 is provided with a second inclined surface 631, the second inclined surface 631 of the second inclined block 630 is abutted against the first inclined surface 621, one end of an adjusting piece 640 is connected to the side wall of the first inclined block 620, and the other end of the adjusting piece 640 is exposed out of the side wall of the block 610. Under the driving action of the adjusting element 640, the first inclined block 620 moves towards two sides, and the first inclined surface 621 abuts against the second inclined surface 631, so that the height of the second inclined block 630 exposed out of the open structure 613 is increased or decreased. Referring to fig. 3 and 8, in the present embodiment, the cross sections of the first inclined block 620 and the second inclined block 630 are right trapezoid, the right edge line of the first inclined surface 621 of the first inclined block 620 is higher than the left edge line, the first inclined surface 621 is in an upward climbing trend from left to right, the second inclined surface 631 of the second inclined block 630 faces the first inclined surface 621 of the first inclined block 620, the right edge line of the second inclined surface 631 is higher than the left edge line, the second inclined surface 631 is in an upward climbing trend from left to right, and the top surface of the second inclined block 630 is a plane. In this embodiment, the adjusting members 640 are provided with two adjusting members, and are symmetrically arranged, so that the second inclined blocks 630 are conveniently adjusted from two sides to be exposed out of the height of the open structure 613, which is convenient and fast, and meanwhile, the limiting effect on the first inclined blocks 620 is also achieved, and the first inclined blocks 620 are prevented from being shifted.

In this embodiment, referring to fig. 2-4 and fig. 8, when one end of the flat bar 700 contacting with the height adjusting device 600 needs to be lifted, the adjusting piece 640 located on the left side of the first inclined piece 620 is withdrawn in a direction away from the first inclined piece 620 until the adjusting piece is withdrawn from the first inclined piece 620, one end of the adjusting piece 640 located on the right side of the first inclined piece 620 is connected to the side wall of the first inclined piece 620, the first inclined piece 620 moves towards the left side under the pushing action of the adjusting piece 640 on the right side, and because the first inclined surface 621 and the second inclined surface 631 are both in a climbing trend from left to right, the second inclined piece 630 is pushed up by the first inclined piece 620 under the action of the inclined surfaces so that the height of the second inclined piece 630 exposed out of the opening structure 613 is increased, at this time, the whole height of the height adjusting device 600 is increased, after the height of the second inclined piece 630 exposed out of the opening structure is increased to the set position, the adjusting piece 640 on the right side of the first inclined piece 620 is fixed on the right side, the adjusting piece 640 is located on the left side of the first inclined piece 620, and the first inclined piece 620 is not connected to the first inclined piece 640 on the right side until the left side of the adjusting piece 640 is exposed to the first inclined piece 620, and the first inclined piece 640 is not connected to the left side of the first inclined piece 620. When one end of the flat bar 700 contacting with the height adjusting device 600 needs to be lowered, the adjusting piece 640 located on the right side of the first inclined block 620 is withdrawn in a direction away from the first inclined block 620 until the adjusting piece 640 located on the left side of the first inclined block 620 is withdrawn from the first inclined block 620, one end of the adjusting piece 640 on the left side is connected to the side wall of the first inclined block 620, the first inclined block 620 moves towards the right side under the pushing action of the adjusting piece 640 on the left side, and because the first inclined surface 621 and the second inclined surface 631 are in ascending trend from left to right, under the action of the inclined surfaces of the first inclined block 620 and the second inclined block, the height of the second inclined block 630 is lowered to enable the height of the second inclined block 630 exposed out of the opening structure 613 to be lowered, at this time, the whole height of the height adjusting device 600 is lowered, the position of the adjusting piece 640 on the left side of the first inclined block 620 is lowered to the set position after the height of the second inclined block 630 is lowered to the set position, the position of the adjusting piece 640 on the left side of the first inclined block 620 is fixed, the position of the adjusting piece 640 on the left side of the first inclined block 620 is located on the left side of the first inclined block 620 is not exposed to the right side of the first inclined block 640, and the first inclined block 640 is connected to the first inclined block 640 at the right side of the first inclined block 620 until the height is not matched with the first inclined piece 613, and the height of the adjusting piece 640 is lowered to the left side at the right side, and the first inclined piece is located at the position side of the position of the adjusting piece 640 is located at the left side, and is left side and the left side and is left exposed.

In some embodiments, the cross sections of the first inclined block 620 and the second inclined block 630 may be in other shapes, and only the contact surface of the two is required to be an inclined surface, the bottom surface of the first inclined block 620 and the top surface of the second inclined block 630 are required to be plane surfaces. In some embodiments, the first inclined surface 621 and the second inclined surface 631 may also have an upward climbing trend from right to left.

In this embodiment, the adjusting member 640 is a screw, which not only can rotate inwards and outwards to adjust the position of the first inclined block 620, but also can fix the position of the first inclined block 620 after adjusting the position, so as to avoid displacement thereof. In some embodiments, the adjustment member 640 may also be other components. In this embodiment, the block 610 is formed by splicing a plurality of plates, so that the size of the cavity 611 and the size of the open structure 613 can be conveniently adjusted according to the sizes of the first inclined block 620 and the second inclined block 630.

Further, referring to fig. 3 and fig. 5-8, a travel space 612 for moving the first inclined block 620 is provided in the cavity 611, so as to ensure that the first inclined block 620 can reciprocate in the cavity 611. The height adjusting device 600 further comprises a fastening piece 650, wherein one end of the fastening piece 650 abuts against the second inclined block 630, and the other end of the fastening piece 650 is exposed out of the side wall of the block 610, and the fastening piece 650 is used for fixing the second inclined block 630 at a set position. One end of the fastener 650 is abutted against the second inclined block 630, and the other end of the fastener passes through the block 610 to be exposed out of the side wall of the block 610, so that when the height of the second inclined block 630 exposed out of the open structure 613 reaches a set height, the second inclined block 630 is fixed on the block 610, and displacement of the second inclined block 630 is avoided, so that the height exposed out of the open structure 613 is influenced. Further, the second inclined block 630 is provided with a travel hole 632, and the travel hole 632 cooperates with the fastener 650 to fix the second inclined block 630 at a set position. The travel holes 632 also limit the fastener 650.

In this embodiment, referring to fig. 9-11, the tool for placing the flat ruler with the turning and milling composite slant lathe bed further comprises a magnetic gauge stand 910 and a lever dial gauge 920, wherein the magnetic gauge stand 910 is detachably assembled on the guide rail sliding block 300, and the lever dial gauge 920 is assembled on the magnetic gauge stand 910. Specifically, the magnetometer mount 910 is attached to the rail slider 300, and the lever dial indicator 920 is mounted and connected to the magnetometer mount 910.

The working principle and the flow of the utility model are approximately as follows:

1. The flat rule support 400 is installed with the flat rule 700, namely, two flat rule supports 400 are arranged on the inclined lathe bed body 100 in parallel at intervals (specifically, the inclined lathe bed body 100 is arranged on a platform of a screw rod clicking bearing seat), a height adjusting device 600 and an equal-height block 500 are respectively arranged on the two flat rule supports 400, the height adjusting device 600 and the equal-height block 500 are respectively attached to the side surfaces of the flat rule supports 400, the height adjusting device 600 and the equal-height block 500 are prevented from sliding downwards, and then the flat rule 700 is arranged on the top surfaces of the height adjusting device 600 and the equal-height block 500, and is attached to the side surfaces of the two flat rule supports 400 to prevent the sliding downwards.

2. The leveling rule 700 is that a magnetic gauge seat 910 is adsorbed on a guide rail sliding block 300, a lever micrometer 920 is installed and connected on the magnetic gauge seat 910, the upper surface of the leveling rule 700 is aligned, a pointer of the lever micrometer 920 is lightly pressed on the upper surface of the leveling rule 700, the lever micrometer 920 on the guide rail sliding block 300 is moved back and forth through a height adjusting device 600, and the reading is observed, so that the values of the lever micrometer 920 at two ends of the leveling rule 700 are the same, namely the upper surface of the leveling rule 700 is aligned, the side surface of the leveling rule 700 is aligned, the pointer of the lever micrometer 920 is lightly pressed on the side surface of the leveling rule 700, the two ends of the leveling rule 700 are abutted through side surface adjusting pieces 800 of two leveling rule brackets 400, the lever micrometer 920 on the guide rail sliding block 300 is moved back and forth, and the reading is observed, and the values of the lever micrometer 920 at two ends of the leveling rule 700 are the same, namely the side surface leveling rule 700 is aligned.

3. And (3) detecting the straightness of the guide rail 200:

(1) Detecting the straightness of the upper surface of the guide rail 200, namely aligning the upper surface of the guide rail 700, adsorbing the magnetic gauge stand 910 on the guide rail slide block 300, lightly pressing the gauge needle of the lever dial gauge 920 on the guide rail slide block 300, moving the lever dial gauge 920 on the guide rail slide block 300, and observing the reading. In the case of this connection, the difference between the maximum and minimum readings during the course of the watch is the straightness of the main rail 200.

(2) Detecting the straightness of the side surface of the guide rail 200, namely aligning the side surface of the guide rail 700, adsorbing the magnetic meter seat 910 on the guide rail slide block 300, lightly pressing the pointer of the lever dial indicator 920 on the side surface of the guide rail 700, moving the lever dial indicator 920 on the guide rail slide block 300, and observing the reading. In the case of this connection, the difference between the maximum and minimum readings during the course of the watch is the straightness of the main rail 200.

The turning and milling composite inclined lathe bed flat ruler placing tool is convenient to install, the flat ruler 700 is placed on the inclined lathe bed body 100 by taking the flat ruler 700 as a reference, the top surfaces and the side surfaces of the two ends of the flat ruler 700 are adjusted through the height adjusting device 600, the equal-height blocks 500 and the side surface adjusting piece 800, the upper surface and the side surfaces of the flat ruler 700 are aligned, the flat ruler 700 is easy to adjust, and data acquisition is simple and reliable.

The above description is only for the purpose of illustrating the technical solution of the present utility model and not for the purpose of limiting the same, and other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (10)

1. The utility model provides a frock is laid to compound oblique lathe bed square of turning and milling which characterized in that includes:

The inclined lathe body (100), wherein a guide rail (200) is arranged on the inclined lathe body (100);

a rail slider (300), the rail slider (300) being slidably mounted on the rail (200);

The leveling rod supports (400) are arranged on the inclined lathe bed body (100) and positioned on the same side with the guide rail (200), and the leveling rod supports (400) are arranged in parallel and at intervals;

The equal-height block (500) is arranged on one of the flat ruler brackets (400);

A height adjusting device (600) arranged on the other flat ruler bracket (400), and

And one end of the flat ruler (700) is arranged on the top surface of the equal-height block (500), and the other end of the flat ruler (700) is arranged on the top surface of the height adjusting device (600).

2. The turning and milling composite skewed bed flat placement tool of claim 1, wherein the height adjustment device (600) comprises:

The block body (610) is internally provided with a cavity (611), and the top surface of the block body (610) is provided with an open structure (613);

The bottom surface of the first inclined block (620) is abutted against the inner bottom surface of the block body (610), and the top surface of the first inclined block (620) is provided with a first inclined surface (621);

A second inclined block (630), one end of the second inclined block (630) is arranged in the cavity (611), the other end is arranged between the open structure (613) and the cavity (611), the top surface of the second inclined block (630) is a plane, the bottom surface of the second inclined block (630) is provided with a second inclined surface (631), the second inclined surface (631) is abutted with the first inclined surface (621), and

An adjusting member (640) having one end connected to a side wall of the first inclined block (620) and the other end exposed to a side wall of the block (610);

Under the driving action of the adjusting piece (640), the first inclined block (620) moves towards two sides, and the first inclined surface (621) is abutted with the second inclined surface (631), so that the height of the second inclined block (630) exposed out of the open structure (613) is increased or reduced.

3. The turning and milling composite diagonal bed flat ruler mounting tool according to claim 2, wherein two adjusting parts (640) are symmetrically arranged.

4. The turning and milling composite diagonal bed flat ruler mounting tool according to claim 2, wherein a travel space (612) for moving the first diagonal block (620) is arranged in the cavity (611).

5. The turning and milling composite diagonal bed leveling rod placement tool according to claim 2, wherein the height adjusting device (600) further comprises a fastener (650) with one end abutting against the second diagonal block (630) and the other end exposed out of the side wall of the block (610), and the fastener (650) is used for fixing the second diagonal block (630) at a set position.

6. The turning and milling composite skewed bed flat scale placement tool of claim 5, wherein the second skewed block (630) is provided with a travel hole (632), the travel hole (632) is matched with the fastener (650) to fix the second skewed block (630) in a set position.

7. The turning and milling composite diagonal bed flat rule mounting tool according to any one of claims 1-6, wherein the flat rule support (400) comprises a fixing portion (410) arranged on the diagonal bed body (100) and located on the same side with the guide rail (200), and an extending portion (420) with one end vertically arranged on the top surface of the fixing portion (410) and the other end extending upwards.

8. The turning and milling composite diagonal lathe bed flat rule mounting tool according to claim 7 is characterized in that a side surface adjusting piece (800) is arranged on one side, abutting against the flat rule (700), of the extension portion (420), one end of the side surface adjusting piece (800) penetrates through one side, abutting against the flat rule (700), of the extension portion (420) and is exposed on the surface, opposite to the flat rule (700), of the extension portion (420), and the other end of the side surface adjusting piece is arranged between one surface, abutting against the flat rule (700), of the extension portion (420) and one surface, facing towards the extension portion (420), of the flat rule (700).

9. The turning and milling composite diagonal bed flat rule placement tool according to claim 8, characterized in that the side adjustment (800) is provided with two.

10. The turning and milling composite diagonal bed flat ruler mounting tool according to claim 1, further comprising a magnetic gauge stand (910) and a lever dial gauge (920), wherein the magnetic gauge stand (910) is detachably mounted on the guide rail sliding block (300), and the lever dial gauge (920) is mounted on the magnetic gauge stand (910).