CN214264656U

CN214264656U - Stabilizing base of precision manufacturing machining center

Info

Publication number: CN214264656U
Application number: CN202022514701.0U
Authority: CN
Inventors: 文洁
Original assignee: Jiangsu Paiwei Intelligent Technology Co ltd
Current assignee: Jiangsu Paiwei Intelligent Technology Co ltd
Priority date: 2020-11-03
Filing date: 2020-11-03
Publication date: 2021-09-24
Anticipated expiration: 2030-11-03

Abstract

The utility model discloses a precision manufacturing machining center's stable base, the vibrations of a plurality of directions take place for the processing equipment to install in the course of working, drive on the horizontal direction of horizontal plane connection base is followed the long direction of horizontal direction slide rail slides, and receives the support of horizontal hydraulic stem drives on the vertical direction of horizontal plane the installation shell is followed the long direction of vertical direction slide rail slides, and receives the support of vertical hydraulic stem so makes the processing equipment receives horizontal and vertical shock attenuation of horizontal plane at irregular vibration in-process to reduce the vibration that the processing equipment produced in the course of working, make the machining precision higher.

Description

Stabilizing base of precision manufacturing machining center

Technical Field

The utility model relates to a machining center technical field especially relates to a stable base of precision manufacturing machining center.

Background

The existing vertical machining center is a machining center with a main shaft axis perpendicular to a workbench and is mainly suitable for machining complex parts such as plates, discs, dies and small shells. The vertical machining center can complete the procedures of milling, boring, drilling, tapping, using cutting threads and the like.

Because machining center needs carry out precision finishing to the work piece for the shaping quality of work piece can all be influenced to whole mechanical slight vibrations, but current machining center does not have stable base, thereby makes the in-process of processing produce vibrations.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stable base of precision manufacturing machining center aims at solving the machining center among the prior art and need carry out precision finishing to the work piece for the small vibrations of whole machinery can all influence the shaping quality of work piece, but current machining center does not have stable base, thereby makes the technical problem who produces vibrations in the course of working.

In order to achieve the purpose, the utility model discloses a stable base of a precision manufacturing machining center, which comprises a mounting seat, a machining device and a mounting device; the processing equipment is connected with the mounting seat in a sliding manner and is positioned on one side of the mounting seat; the mounting device comprises a connecting base, a transverse guiding slide rail, a vertical guiding slide rail, a transverse speed reducing assembly and a vertical speed reducing assembly, wherein the connecting base is connected with the processing equipment in a sliding manner, is connected with the mounting base in a sliding manner, is positioned between the processing equipment and the mounting base, is fixedly connected with the mounting base and is connected with the connecting base in a sliding manner, the vertical guiding slide rail is fixedly connected with the connecting base and is connected with the processing equipment in a sliding manner, is positioned on one side of the connecting base away from the mounting base, is fixedly connected with the mounting base and is abutted against the connecting base, and the vertical speed reducing assembly is fixedly connected with the connecting base and is abutted against the processing equipment; the transverse speed reducing assembly comprises a transverse supporting piece and a transverse hydraulic rod, the transverse supporting piece is fixedly connected with the connecting base, is connected with the mounting seat in a sliding mode and is located between the connecting base and the mounting seat; one end of the transverse hydraulic rod is fixedly connected with the mounting seat, the other end of the transverse hydraulic rod is fixedly connected with the transverse supporting piece and is positioned on one side, close to the transverse supporting piece, of the mounting seat; the vertical speed reducing assembly comprises a vertical supporting piece and a vertical hydraulic rod, the vertical supporting piece is fixedly connected with the processing equipment, is connected with the connecting base in a sliding mode, and is positioned on one side, close to the processing equipment, of the connecting base; one end of the vertical hydraulic rod is fixedly connected with the connecting base, the other end of the vertical hydraulic rod is fixedly connected with the vertical supporting piece, and the vertical hydraulic rod is positioned on one side, close to the vertical supporting piece, of the connecting base.

The vertical speed reducing assembly further comprises a vertical hydraulic cylinder, the vertical hydraulic cylinder is fixedly connected with the connecting base, fixedly connected with the vertical hydraulic rod and located on one side, close to the vertical hydraulic rod, of the connecting base.

The transverse speed reducing assembly further comprises a transverse hydraulic cylinder, the transverse hydraulic cylinder is fixedly connected with the mounting seat, fixedly connected with the transverse hydraulic rod and located on one side, close to the transverse hydraulic rod, of the mounting seat.

The mounting device further comprises a mounting shell, the mounting shell is fixedly connected with the processing equipment, fixedly connected with the vertical supporting piece and slidably connected with the vertical guide sliding rail, and the mounting shell is located between the vertical guide sliding rail and the processing equipment.

Wherein the mounting shell is provided with a placing groove, the placing groove is positioned on one side of the mounting shell close to the processing equipment, and the processing equipment is positioned in the placing groove.

The mounting shell is further provided with a limiting bulge, and the limiting bulge is located on one side, close to the vertical guide sliding rail, of the mounting shell and is abutted to the vertical guide sliding rail.

The utility model discloses a stable base of precision manufacturing machining center, the vibrations of a plurality of directions take place for the processing equipment to install in the course of working, drive on the horizontal direction of horizontal plane connection base is followed the long direction of horizontal direction slide rail slides, and receives the support of horizontal hydraulic stem drives on the vertical direction of horizontal plane the installation shell is followed the long direction of vertical direction slide rail slides, and receives the support of vertical hydraulic stem so makes the processing equipment receives horizontal and vertical shock attenuation of horizontal plane at irregular vibration in-process to reduce the vibration that the processing equipment produced in the course of working, make the machining precision higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the mounting device of the present invention.

Fig. 2 is a schematic structural diagram of the lateral deceleration assembly of the present invention.

Fig. 3 is a schematic structural view of the vertical speed reduction assembly of the present invention.

In the figure: the device comprises a mounting base 1, a processing device 2, a mounting device 3, a connecting base 31, a transverse guide sliding rail 32, a vertical guide sliding rail 33, a transverse speed reducing assembly 34, a vertical speed reducing assembly 35, a mounting shell 36, a stabilizing base of a 100-precision manufacturing machining center, a transverse supporting member 341, a transverse hydraulic rod 342, a transverse hydraulic cylinder 343, a vertical supporting member 351, a vertical hydraulic rod 352, a vertical hydraulic cylinder 353, a placement groove 361 and a limiting protrusion 362.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 3, the present invention provides a stable base 100 of a precision manufacturing machining center, a mounting base 1, a machining device 2 and a mounting apparatus 3; the processing equipment 2 is connected with the mounting base 1 in a sliding mode and is positioned on one side of the mounting base 1; the mounting device 3 comprises a connecting base 31, a transverse guide slide rail 32, a vertical guide slide rail 33, a transverse speed reducing assembly 34 and a vertical speed reducing assembly 35, wherein the connecting base 31 is connected with the processing equipment 2 in a sliding way, and is connected with the mounting seat 1 in a sliding way and is positioned between the processing equipment 2 and the mounting seat 1, the transverse guide slide rail 32 is fixedly connected with the mounting seat 1, and is connected with the connecting base 31 in a sliding way, the vertical guide sliding rail 33 is fixedly connected with the connecting base 31, and is connected with the processing equipment 2 in a sliding way and is positioned on one side of the connecting base 31 far away from the mounting seat 1, the transverse speed reducing component 34 is fixedly connected with the mounting seat 1, the vertical speed reducing assembly 35 is fixedly connected with the connecting base 31 and is abutted with the processing equipment 2; the lateral deceleration assembly 34 comprises a lateral support member 341 and a lateral hydraulic rod 342, wherein the lateral support member 341 is fixedly connected with the connection base 31, is slidably connected with the mounting base 1, and is located between the connection base 31 and the mounting base 1; one end of the transverse hydraulic rod 342 is fixedly connected with the mounting base 1, and the other end is fixedly connected with the transverse supporting member 341 and is located on one side of the mounting base 1 close to the transverse supporting member 341; the vertical speed reducing assembly 35 comprises a vertical support 351 and a vertical hydraulic rod 352, wherein the vertical support 351 is fixedly connected with the processing equipment 2, is slidably connected with the connecting base 31, and is positioned at one side of the connecting base 31 close to the processing equipment 2; one end of the vertical hydraulic rod 352 is fixedly connected to the connecting base 31, and the other end of the vertical hydraulic rod is fixedly connected to the vertical supporting member 351 and is located at one side of the connecting base 31 close to the vertical supporting member 351.

Further, referring to fig. 1, the mounting device 3 further includes a mounting housing 36, the mounting housing 36 is fixedly connected to the processing equipment 2, fixedly connected to the vertical support 351, and slidably connected to the vertical guide rail 33, and the mounting housing 36 is located between the vertical guide rail 33 and the processing equipment 2.

In this embodiment, the mounting base 1 is a rectangular body and is mounted on the ground through a bolt, the transverse guide slide rail 32 is fixed to the upper surface of the mounting base 1 through a thread, the connecting base 31 is slidably mounted on the transverse guide slide rail 32, the connecting base 31 is parallel to the mounting plane of the mounting base 1 and slides along the transverse guide slide rail 32, a vertical guide slide rail 33 is fixed to the top of the connecting base 31 through a thread, the mounting plane of the vertical guide slide rail 33 is parallel to the mounting plane of the transverse guide slide rail 32 and is perpendicular to the projection plane in the longitudinal direction, and the mounting housing 36 is slidably connected to the vertical guide slide rail 33 through a slide block with a ball, so that the mounting housing 36 horizontally slides along the vertical guide slide rail 33; the transverse supporting member 341 is screwed and fixed at the bottom of the connecting base 31, and two sides of the transverse supporting member are abutted by the transverse guiding slide rail 32 and supported by the transverse hydraulic rod 342, and the end of the transverse hydraulic rod 342 is screwed and fixed with the mounting base 1 through a support, so that the connecting base 31 is buffered by the transverse hydraulic rod 342 in the sliding process, and the sliding of the connecting base 31 is slowed down; the two lateral sides of the vertical supporting member 351 are respectively in sliding abutment with the inner sides of the vertical guiding sliding rails 33 and are supported by the vertical hydraulic rod 352, the end portion of the vertical hydraulic rod 352 is in threaded fixation with the connecting base 31 through a support, so that the mounting housing 36 is buffered by the vertical hydraulic rod 352 during sliding, and the sliding of the mounting housing 36 is slowed down, thus, the processing equipment 2 is mounted in a processing process and vibrates in multiple directions, the connecting base 31 is driven to slide along the long direction of the lateral guiding sliding rails 32 in the lateral direction of a horizontal plane and is supported by the lateral hydraulic rod 342, the mounting housing 36 is driven to slide along the long direction of the vertical guiding sliding rails 33 in the vertical direction of the horizontal plane and is supported by the vertical hydraulic rod 352, so that the processing equipment 2 is subjected to lateral and vertical shock absorption by the horizontal plane during irregular vibration, thereby reducing the vibration generated by the processing equipment 2 in the processing process and leading the processing precision to be higher.

Further, referring to fig. 3, the vertical deceleration assembly 35 further includes a vertical hydraulic cylinder 353, and the vertical hydraulic cylinder 353 is fixedly connected to the connection base 31, fixedly connected to the vertical hydraulic rod 352, and located on one side of the connection base 31 close to the vertical hydraulic rod 352.

In this embodiment, the vertical hydraulic cylinder 353 is fixed to the connection base 31 by a screw thread, and is fixed to the vertical hydraulic rod 352 by a screw thread, and the vertical hydraulic rod 352 extends into the vertical hydraulic cylinder 353, and is buffered by the hydraulic oil inside, so as to slow down the sliding of the vertical support 351.

Further, referring to fig. 2, the lateral deceleration assembly 34 further includes a lateral hydraulic cylinder 343, and the lateral hydraulic cylinder 343 is fixedly connected to the mounting base 1, fixedly connected to the lateral hydraulic rod 342, and located on a side of the mounting base 1 close to the lateral hydraulic rod 342.

In this embodiment, the transverse hydraulic cylinder 343 is screwed on the mounting base 1 and is screwed with the transverse hydraulic rod 342, and the transverse hydraulic rod 342 extends into the transverse hydraulic cylinder 343 and is buffered by the hydraulic oil inside, so as to slow down the sliding of the transverse support 341.

Further, referring to fig. 1, the mounting housing 36 has a placement groove 361, the placement groove 361 is located on a side of the mounting housing 36 close to the processing device 2, and the processing device 2 is located in the placement groove 361.

In the present embodiment, the placement groove 361 is located at the top of the mounting housing 36, and the processing device 2 is mounted in the placement groove 361, so that the processing device 2 is better connected with the mounting housing 36.

Further, referring to fig. 1, the mounting housing 36 further has a limiting protrusion 362, and the limiting protrusion 362 is located on one side of the mounting housing 36 close to the vertical guide rail 33 and abuts against the vertical guide rail 33.

In this embodiment, the two sides of the bottom of the mounting housing 36 are provided with the limiting protrusions 362, and the number of the limiting protrusions 362 is two, and the two limiting protrusions 362 are respectively located on the outer side surfaces of the two sides of the vertical guide sliding rail 33, so that the mounting housing 36 is limited by the limiting protrusions 362 when sliding vertically, and the sliding of the mounting housing 36 is more stable.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims

1. A stable base of a precision manufacturing machining center is characterized by comprising a mounting seat, machining equipment and a mounting device;

the processing equipment is connected with the mounting seat in a sliding manner and is positioned on one side of the mounting seat;

the mounting device comprises a connecting base, a transverse guiding slide rail, a vertical guiding slide rail, a transverse speed reducing assembly and a vertical speed reducing assembly, wherein the connecting base is connected with the processing equipment in a sliding manner, is connected with the mounting base in a sliding manner, is positioned between the processing equipment and the mounting base, is fixedly connected with the mounting base and is connected with the connecting base in a sliding manner, the vertical guiding slide rail is fixedly connected with the connecting base and is connected with the processing equipment in a sliding manner, is positioned on one side of the connecting base away from the mounting base, is fixedly connected with the mounting base and is abutted against the connecting base, and the vertical speed reducing assembly is fixedly connected with the connecting base and is abutted against the processing equipment;

the transverse speed reducing assembly comprises a transverse supporting piece and a transverse hydraulic rod, the transverse supporting piece is fixedly connected with the connecting base, is connected with the mounting seat in a sliding mode and is located between the connecting base and the mounting seat; one end of the transverse hydraulic rod is fixedly connected with the mounting seat, the other end of the transverse hydraulic rod is fixedly connected with the transverse supporting piece and is positioned on one side, close to the transverse supporting piece, of the mounting seat;

the vertical speed reducing assembly comprises a vertical supporting piece and a vertical hydraulic rod, the vertical supporting piece is fixedly connected with the processing equipment, is connected with the connecting base in a sliding mode, and is positioned on one side, close to the processing equipment, of the connecting base; one end of the vertical hydraulic rod is fixedly connected with the connecting base, the other end of the vertical hydraulic rod is fixedly connected with the vertical supporting piece, and the vertical hydraulic rod is positioned on one side, close to the vertical supporting piece, of the connecting base.

2. The stabilizing base for a precision manufacturing machining center of claim 1,

3. The stabilizing base for a precision manufacturing machining center of claim 1,

4. The stabilizing base for a precision manufacturing machining center of claim 1,

5. The stabilizing base for a precision manufacturing machining center of claim 4,

the mounting shell is provided with a placing groove, the placing groove is positioned on one side, close to the processing equipment, of the mounting shell, and the processing equipment is positioned in the placing groove.

6. The stabilizing base for a precision manufacturing machining center of claim 4,