CN113059364A - Side bus adjusting device of machining tool - Google Patents

Abstract

The utility model provides a side generating line adjusting device of machine tooling, the machine tooling includes casing and base, go up the casing with the base passes through side generating line adjusting device portable connection, side generating line adjusting device is including fixed subassembly and adjusting part, fixed subassembly with go up the downside of casing with the side fixed connection that goes up of base, adjusting part sets up in the fixed subassembly, just adjusting part with fixed subassembly slides the laminating. This is disclosed through the removal of control adjusting part in fixed subassembly to drive the casing through fixed subassembly and remove on the base, realized the horizontal adjustment of offside generating line, the location is accurate, and it is convenient to adjust.

Description

Side bus adjusting device of machining tool

Technical Field

The disclosure relates to the field of machining, in particular to a side bus adjusting device of a machining machine tool.

Background

At present, in order to adjust a side bus of a tailstock, most machining equipment generally adopts the mode that the sliding position of an upper shell of the tailstock is arranged on a tailstock base, and then an adjusting screw rod is fixed on the tailstock base to drive the upper shell of the tailstock to slide back and forth to adjust the horizontal position of an upper tip of the tailstock.

Disclosure of Invention

In order to solve at least one of the above technical problems, the present disclosure provides a side bus bar adjusting device of a machining tool.

According to this disclosed side generating line adjusting device of machine tool, the machine tool includes casing and base, go up the casing with the base passes through side generating line adjusting device portable connection, side generating line adjusting device is including fixed subassembly and adjusting part, fixed subassembly with the downside of going up the casing with the side fixed connection that goes up of base, adjusting part sets up in the fixed subassembly, just adjusting part with fixed subassembly slides the laminating.

Specifically, fixed subassembly includes left side fixed deflector and right side fixed deflector, the left side fixed deflector with the equal vertical setting of right side fixed deflector, just the left side fixed deflector with the right side fixed deflector sets up go up the casing with between the base, the left side fixed deflector with the downside of going up the casing the side fixed connection that goes up of base, the right side fixed deflector with the side of going up of base the downside fixed connection of going up the casing.

Specifically, the adjusting part includes wedge subassembly and adjustment subassembly, the wedge subassembly sets up the fixed deflector in left side with between the fixed deflector in right side, the left surface/right flank of wedge subassembly is the inclined plane, the left surface of wedge subassembly with the right flank slidable laminating of the fixed deflector in left side, the right flank of wedge subassembly with the left surface slidable laminating of the fixed deflector in right side, the adjustment subassembly with the one end fixed connection of wedge subassembly.

Specifically, when the upper shell is set to move along the X-axis direction, the wedge-shaped assembly can slide along the Z-middle direction in the fixed assembly, and the adjusting assembly is arranged along the Z-axis;

the adjusting component is a telescopic device, and the telescopic end of the adjusting component can move along the Z-axis direction.

Specifically, the wedge subassembly includes wedge and guide rail, the left surface/the right flank of wedge is the inclined plane, two the medial surface of guide rail respectively with the left surface and the right flank laminating of wedge, just the guide rail with wedge fixed connection, two the lateral surface of guide rail respectively with the fixed deflector in left side with the fixed deflector in right side slidable laminates.

Furthermore, the adjusting assembly further comprises two low-friction assemblies, and the two low-friction assemblies are respectively arranged between the guide rail and the left side fixed guide plate/the right side fixed guide plate.

Preferably, the low friction subassembly is plate-type ball chain, plate-type ball chain respectively with the right flank of the fixed deflector in left side with the right flank fixed connection of the fixed deflector in right side, just plate-type ball chain with the lateral surface sliding fit of guide rail.

Furthermore, the side bus adjusting device further comprises two reset components, wherein the two reset components are respectively arranged at the left end and the right end of the machining machine and fixedly connected with the upper shell and/or the base.

Preferably, the reset assembly comprises spring plates, the spring plates are respectively arranged at the left end and the right end of the machining machine, and the spring plates are fixedly connected with the upper shell and/or the base.

Furthermore, the side bus adjusting device also comprises a limiting assembly, the limiting assembly comprises a limiting plate and a limiting nail, the limiting nail is fixedly connected with the base, the limiting nail is positioned at the other end of the wedge-shaped assembly, and the limiting nail is arranged corresponding to the adjusting assembly;

the limiting plate is vertically arranged along the X-axis direction, the limiting plate is fixedly connected with the upper shell or the base, and the limiting plate limits the upper shell to move in the Z-axis direction relative to the base.

According to this at least one embodiment of this disclosure, this disclosure is through the removal of control adjusting part in fixed subassembly to through fixed subassembly drive upper housing body and remove on the base, realized the horizontal adjustment of offside generating line, the location is accurate, it is convenient to adjust.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the disclosure and together with the description serve to explain the principles of the disclosure.

Fig. 1 is a cross-sectional view of a side bus bar adjustment device of a machine tool according to the present disclosure.

Fig. 2 is a longitudinal sectional view of a side bus bar adjusting device of a machining tool according to the present disclosure.

Reference numerals: 1-a reset component, 2-a low friction component, 3-a wedge block, 4-a limit nail, 5-an adjusting component, 6-a left fixed guide plate, 7-a guide rail, 8-a limit plate, 9-a right fixed guide plate, 10-an upper shell and 11-a base.

Detailed Description

The present disclosure will be described in further detail with reference to the drawings and embodiments. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations of the present disclosure. It should be further noted that, for the convenience of description, only the portions relevant to the present disclosure are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict. The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The utility model provides a side generating line adjusting device of machine tooling, machine tooling includes casing 10 and base 11, goes up casing 10 and base 11 and passes through side generating line adjusting device swing joint, and side generating line adjusting device includes fixed subassembly and adjusting part, and fixed subassembly and the downside of last casing 10 and the side fixed connection that goes up of base 11, adjusting part set up in fixed subassembly, and adjusting part and fixed subassembly slide the laminating.

The device can be used for adjusting the tailstock of the high-precision excircle grinding machine, so that the shell 10 on the tailstock slides forwards and backwards to realize the adjustment of the top on the tailstock on the horizontal position. Through the slip of adjusting part in fixed subassembly, the fixed subassembly of control drives casing 10 and slides, realizes the adjustment to casing 10.

Fixed subassembly includes left side fixed deflector 6 and right side fixed deflector 9, the equal vertical setting of left side fixed deflector 6 and right side fixed deflector 9, and left side fixed deflector 6 and right side fixed deflector 9 parallel arrangement between last casing 10 and base 11, the side fixed connection that goes up of the downside of left side fixed deflector 6 and last casing 10/base 11, the downside fixed connection of the side fixed deflector 9 of right side and base 11/last casing 10.

The fixing assembly is composed of at least two fixing guide plates, the left and right of which are the directions described with respect to the left and right shown in fig. 1, and in order for the adjusting assembly to drive the fixing guide plates to move, it is necessary to ensure that the left fixing guide plate 6 and the right fixing guide plate 9 are not fixedly connected with the upper housing 10 or the base 11 at the same time, two related embodiments are provided:

example one

The fixed deflector 6 in left side and the downside fixed connection of last casing 10, the fixed deflector 9 in right side and the side fixed connection that goes up of base 11 then can realize adjusting the distance between the fixed deflector 6 in left side and the fixed deflector 9 in right side through adjusting part to the removal to last casing 10 has been realized.

Example two

The fixed deflector 6 in left side and the last side fixed connection of base 11, the fixed deflector 9 in right side and the downside fixed connection of last casing 10 then can realize through adjusting part that the distance between fixed deflector 6 in left side and the fixed deflector 9 in right side is adjusted to the removal of last casing 10 has been realized.

The adjusting part comprises a wedge-shaped component and an adjusting component 5, the wedge-shaped component is arranged between a left fixed guide plate 6 and a right fixed guide plate 9, the left side face/right side face of the wedge-shaped component is an inclined face, the left side face of the wedge-shaped component is slidably attached to the right side face of the left fixed guide plate 6, the right side face of the wedge-shaped component is slidably attached to the left side face of the right fixed guide plate 9, and the adjusting component 5 is fixedly connected with one end of the wedge-shaped component.

Setting the upper shell 10 to move along the X-axis direction, so that the wedge-shaped component can slide along the Z-middle direction in the fixed component, and the adjusting component 5 is arranged along the Z-axis;

as shown in fig. 1, the X-axis direction is a horizontal direction in the drawing, the Z-axis direction is a vertical direction in the drawing, the inclined surface of the wedge-shaped component in the drawing can be in various structures, and can be arranged on the left side surface of the wedge-shaped component or the right side surface of the wedge-shaped component, and can be arranged such that the width of the lower part (the position in fig. 1) of the wedge-shaped component is smaller than that of the upper part (the position in the drawing) of the wedge-shaped component or the width of the upper part (the position in fig. 1) of the wedge-shaped component is smaller than that of the lower part (the position in fig. 1) of the wedge-shaped component:

EXAMPLE III

In this embodiment, the inclined surface is provided on the right side of the wedge assembly, and the lower portion (position in fig. 1) of the wedge assembly is smaller in width than the upper portion (position in fig. 1) of the wedge assembly.

By controlling the wedge assembly to move downwards (the position in fig. 1), the left fixed guide plate 6 and the right fixed guide plate 9 on both sides of the wedge assembly can be pushed to separate, that is, the distance between the left fixed guide plate 6 and the right fixed guide plate 9 is increased, so that the position of the upper shell 10 can be adjusted.

By controlling the wedge assembly to move upwards (the position in fig. 1), the left fixed guide plate 6 and the right fixed guide plate 9 on both sides of the wedge assembly can be pushed to be close, that is, the distance between the left fixed guide plate 6 and the right fixed guide plate 9 is reduced, so that the position of the upper shell 10 is adjusted.

Example four

In this embodiment, the inclined surface is provided on the right side of the wedge assembly, and the lower portion (position in fig. 1) of the wedge assembly is wider than the upper portion (position in fig. 1) of the wedge assembly.

By controlling the wedge assembly to move upwards (the position in fig. 1), the left fixed guide plate 6 and the right fixed guide plate 9 on both sides of the wedge assembly can be pushed to separate, that is, the distance between the left fixed guide plate 6 and the right fixed guide plate 9 is increased, so that the position of the upper shell 10 can be adjusted.

By controlling the wedge assembly to move downwards (the position in fig. 1), the left fixed guide plate 6 and the right fixed guide plate 9 on both sides of the wedge assembly can be pushed to be close, that is, the distance between the left fixed guide plate 6 and the right fixed guide plate 9 is reduced, so that the position of the upper shell 10 is adjusted.

Alternatively, the inclined surface may be provided on the left side of the wedge assembly, which operates in a similar manner to the two embodiments described above.

The adjusting component 5 is a telescopic device, and the telescopic end of the adjusting component 5 can move along the Z-axis direction.

The adjusting component 5 can be of various structures, and can be a hydraulic telescopic rod, a threaded screw rod telescopic rod, a straight rod and the like as long as the position of the wedge-shaped component can be moved.

The wedge subassembly includes wedge 3 and guide rail 7, and the left surface/the right flank of wedge 3 is the inclined plane, and the medial surface of two guide rails 7 respectively with the left surface and the right flank laminating of wedge 3, and guide rail 7 and wedge 3 fixed connection, the lateral surface of two guide rails 7 respectively with the fixed deflector 6 in left side and the fixed deflector 9 slidable laminating in right side.

Through the arrangement of the guide rail 7, the position relation between the wedge block 3 and the fixed guide plate can be controlled, so that the wedge block 3 and the fixed guide plate can only move relatively in the Z-axis direction and cannot move in the Z-axis direction (vertical direction in fig. 2).

The structure of the wedge-shaped block 3 can participate in the structure of the wedge assembly in the third embodiment and the fourth embodiment.

The adjusting assembly further comprises a low friction assembly 2, the low friction assembly 2 being arranged between the guide rail 7 and the left/right fixed guide plate 6, 9.

The low friction component 2 is a plate-type ball chain, the two plate-type ball chains are respectively fixedly connected with the right side surface of the left fixed guide plate 6 and the right side surface of the right fixed guide plate 9, and the plate-type ball chains are in sliding fit with the outer side surfaces of the guide rails 7.

Through set up low friction subassembly 2 between adjusting part and fixed subassembly, reduce the coefficient of friction between the two, relative movement conveniently takes place.

Two ends of the plate type ball chain are fixed on the left side fixed guide plate 6 and the right side fixed guide plate 9, so that the ball chain is prevented from moving, and the service life of the ball chain is shortened.

The side bus adjusting device further comprises a reset component 1, wherein the reset component 1 is arranged at the left end and the right end of the machining machine tool and is fixedly connected with the upper shell 10 and/or the base 11.

The reset component 1 comprises at least two spring plates which are respectively arranged at the left end and the right end of the machining machine tool and fixedly connected with the upper shell 10 and/or the base 11.

The reset component 1 can be a spring plate, and can also be a device with elasticity, such as a compression spring, a pneumatic telescopic rod and the like. A reset force is applied to the upper shell 10 through the reset assembly 1, and when the upper shell 10 needs to be reset, the position of the wedge assembly is changed, and the upper shell 10 is reset under the force of the reset assembly 1.

The side bus adjusting device also comprises a limiting component, the limiting component comprises a limiting plate 8 and a limiting nail 4, the limiting nail 4 is fixedly connected with the base 11, the limiting nail 4 is positioned at the other end of the wedge-shaped component, and the limiting nail 4 and the adjusting component 5 are correspondingly arranged;

limiting plate 8 is along the vertical setting of X axle direction, and limiting plate 8 and last casing 10 or base 11 fixed connection, and casing 10 removes on the limiting plate 8 restriction is for base 11 moves in Z axle direction.

The limiting screw is added to prevent the wedge-shaped sliding block from being too large in moving position and failing in precise adjustment. The limit plate 8 ensures that the tailstock upper shell 10 moves left and right in the horizontal direction shown in fig. 1.

In the description herein, reference to the description of the terms "one embodiment/mode," "some embodiments/modes," "example," "specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment/mode or example is included in at least one embodiment/mode or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to be the same embodiment/mode or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments/modes or examples. Furthermore, the various embodiments/aspects or examples and features of the various embodiments/aspects or examples described in this specification can be combined and combined by one skilled in the art without conflicting therewith.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

It will be understood by those skilled in the art that the foregoing embodiments are merely for clarity of illustration of the disclosure and are not intended to limit the scope of the disclosure. Other variations or modifications may occur to those skilled in the art, based on the foregoing disclosure, and are still within the scope of the present disclosure.

Claims (10)

1. The utility model provides a side generating line adjusting device of machine tooling, machine tooling includes casing and base, its characterized in that, go up the casing with the base passes through side generating line adjusting device portable connection, side generating line adjusting device is including fixed subassembly and adjusting part, fixed subassembly with the downside of going up the casing with the side fixed connection that goes up of base, adjusting part sets up in the fixed subassembly, just adjusting part with fixed subassembly slides the laminating.

2. The lateral bus bar adjusting device of a machine tool according to claim 1, wherein the fixing member includes a left fixing guide plate and a right fixing guide plate, the left fixing guide plate and the right fixing guide plate are vertically disposed, and the left fixing guide plate and the right fixing guide plate are disposed between the upper housing and the base, the left fixing guide plate is fixedly connected to the lower side of the upper housing/the upper side of the base, and the right fixing guide plate is fixedly connected to the upper side of the base/the lower side of the upper housing.

3. The lateral bus bar adjusting device of the machine tool according to claim 2, wherein the adjusting assembly comprises a wedge assembly and an adjusting assembly, the wedge assembly is disposed between the left fixed guide plate and the right fixed guide plate, a left side/right side of the wedge assembly is an inclined surface, a left side of the wedge assembly is slidably attached to a right side of the left fixed guide plate, a right side of the wedge assembly is slidably attached to a left side of the right fixed guide plate, and the adjusting assembly is fixedly connected to one end of the wedge assembly.

4. The lateral bus bar adjusting device of a machine tool according to claim 3, wherein the wedge member is slidable in a Z-center direction within the fixing member by setting the upper housing to move in an X-axis direction, and the adjusting member is disposed along a Z-axis;

the adjusting component is a telescopic device, and the telescopic end of the adjusting component can move along the Z-axis direction.

5. The device for adjusting the lateral bus bar of the machine tool according to claim 4, wherein the wedge assembly comprises a wedge block and a guide rail, the left/right side of the wedge block is an inclined surface, the inner side surfaces of the two guide rails are respectively attached to the left side surface and the right side surface of the wedge block, the guide rail is fixedly connected with the wedge block, and the outer side surfaces of the two guide rails are respectively attached to the left fixed guide plate and the right fixed guide plate in a sliding manner.

6. The lateral bus bar adjusting device of a machine tool according to claim 5, wherein the adjusting assembly further comprises two low friction assemblies respectively disposed between the guide rail and the left/right fixed guide plates.

7. The side bus bar adjusting device of the machine tool according to claim 6, wherein the low friction member is a plate type ball chain, two of the plate type ball chains are respectively fixedly connected to the right side surface of the left fixed guide plate and the left side surface of the right fixed guide plate, and the plate type ball chains are in sliding fit with the outer side surfaces of the guide rails.

8. The lateral bus bar adjusting device of the machine tool according to claim 7, further comprising two reset components respectively disposed at left and right ends of the machine tool and fixedly connected to the upper housing and/or the base.

9. The lateral bus bar adjustment device of a machine tool of claim 8, wherein the return assembly comprises a spring plate.

10. The lateral busbar adjusting device of claim 6, further comprising a limiting assembly, wherein the limiting assembly comprises a limiting plate and a limiting nail, the limiting nail is fixedly connected with the base, the limiting nail is located at the other end of the wedge assembly, and the limiting nail is arranged corresponding to the adjusting assembly;

the limiting plate is vertically arranged along the X-axis direction, the limiting plate is fixedly connected with the upper shell or the base, and the limiting plate limits the upper shell to move in the Z-axis direction relative to the base.

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