CN211516910U - Multi-cutter three-axis machining device for precision structural part - Google Patents

Abstract

The utility model discloses a multi-cutter three-axis machining device for precision structural parts, wherein a processing machine table is provided with a circular charging tray which rotates on a vertical plane, the charging tray is connected with the processing machine table through a sliding mechanism which can drive the cutting tool tray to move up and down, the outer periphery of the charging tray is radially and outwardly provided with a plurality of charging heads, the charging tray is internally provided with a driving mechanism which drives the charging heads to axially rotate along the charging heads, and the charging heads are used for clamping blank materials to be processed; a processing platform is arranged below the charging tray, a cutter tray is arranged on the processing platform, a cutter groove is arranged on the cutter tray, and a cutter is clamped in the cutter groove; the cutter disc is connected with the processing platform through a transverse displacement mechanism; the processing platform is connected with the processing machine table through a push rod mechanism, and the push rod mechanism can pull the processing platform to be close to or far away from the processing machine table. The utility model discloses can make the clamping easy operation of precision structure blank effectively, the process velocity is fast, improves machining efficiency.

Description

Multi-cutter three-axis machining device for precision structural part

Technical Field

The utility model relates to a processing equipment especially relates to a precision structure spare multitool triaxial processingequipment.

Background

Nowadays, the structural members of electronic products are miniaturized more and more, and the structures thereof are diversified more and more, so that in order to meet the assembly requirements of small electronic products, processing enterprises are required to have more precise requirements on the processing of small structural members. For example, the whole structure of the product is small, and for the structural member of the key item in the structure of the intelligent earphone, the product belongs to a high-precision product, the appearance and the size of the product are high, such as the requirement of a grade A mirror surface of the product, the requirement of high-precision assembly size and the like, the conventional processing and development encounters great difficulty, the current processing technology mainly adopts a numerical control lathe to process, a main shaft and a back shaft of the numerical control lathe are required to be processed together, the processing technology can meet the requirement of the size of the product, but due to the particularity of the structure of the product, the product is in a non-complete revolution body structure, when the back shaft is subjected to material clamping and processing, the stress area of the product is uneven, the product is easy to clamp and deform, the size and the appearance are ultra-poor, and due to the limitation of the functions of machine equipment, only four power heads of the end milling devices, therefore, the cutter is fast in abrasion, easy to break and short in service life, the normal use of the cutter is guaranteed by personnel with high technical requirements, the processing time is long, the product yield is low, the product quality is improved in order to guarantee the requirements of products, and the development of the four-axis design processing technology of the precision structural part is particularly important and imperative.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a precision structure multitool triaxial processingequipment for precision structure hair blank's clamping easy operation, the process velocity is fast, improves machining efficiency.

The technical solution of the utility model is that:

a multi-cutter three-axis machining device for a precise structural part is provided with a machining machine table, wherein a circular charging tray which rotates on a plane in the vertical direction is mounted on the machining machine table, the charging tray is connected with the machining machine table through a sliding mechanism which can drive the charging tray to move up and down, a plurality of charging heads are arranged on the outer periphery of the charging tray along the radial direction, a driving mechanism which drives the charging heads to rotate along the axial direction of the charging heads is arranged in the charging tray, and the charging heads are used for clamping blank materials to be machined; a machining platform is arranged below the charging tray, a cutter tray is arranged on the machining platform, a cutter groove is formed in the cutter tray, and a cutter is clamped in the cutter groove; the cutter disc is connected with the processing platform through a transverse displacement mechanism; the processing platform is connected with the processing machine table through a push rod mechanism, and the push rod mechanism can pull the processing platform to be close to or far away from the processing machine table.

The multi-cutter three-axis machining device for the precise structural part is characterized in that at least two or more cutter grooves are arranged on the cutter disc, and the spacing distances between adjacent cutter grooves in the same row are equal.

The multi-cutter three-axis machining device for the precise structural member is characterized in that the cutter disc is provided with a rotary driving mechanism for driving the cutter in the cutter groove to rotate.

The multi-tool three-axis machining device for the precise structural member is characterized in that a turnover mechanism which rotates along the direction perpendicular to the moving direction of the transverse displacement mechanism is arranged between the tool disc and the transverse displacement mechanism.

The multi-cutter three-axis machining device for the precise structural part is characterized in that a horizontal rotating mechanism is arranged at the joint of the cutter disc and the turnover mechanism; two groups of cutter grooves are symmetrically arranged on two sides of the cutter disc.

The multi-cutter three-axis machining device for the precise structural part is characterized in that the cutter groove faces the side face of the cutter disc, a cutter turning groove is formed in the cutter groove, a cutter turning device is installed in the cutter groove, and the cutter can be turned on one side in the vertical direction to be in the horizontal direction.

From the above description, the present invention has the following advantages:

the utility model discloses a many cutters of precision structure spare triaxial processingequipment, be provided with the rotatory charging tray that can the clamping blank, make to be equipped with on the charging tray periphery and drive the high-speed rotatory dress stub bar of blank material, it rotates to move blank material through the charging head, and rather than the cutter cooperation that the below can remove, can accomplish the processing operation of blank material, the clamping degree of difficulty of blank material has not only been simplified, and can realize a plurality of blank material's one-time operation, the machining efficiency of blank material has greatly been improved, the cutter has also further been protected, and the production cost is reduced.

Drawings

Fig. 1 is a first schematic structural view of a multi-tool three-axis machining device for precision structural members according to the present invention;

FIG. 2 is a schematic structural view II of the multi-tool three-axis machining device for precision structural parts of the present invention;

fig. 3 is the utility model discloses a precision structure spare multitool triaxial processingequipment's structural schematic diagram three.

Main element number description:

the utility model discloses:

1: and (3) processing the machine table 2: the charging tray 3: charging head

4: blank 5: and (6) processing the platform: cutter disc

7: the cutter 8: push rod mechanism

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described with reference to the accompanying drawings.

The utility model discloses a precision structure spare multitool triaxial processingequipment, in its preferred embodiment, please refer to and show in fig. 1 to 3, the utility model discloses a precision structure spare multitool triaxial processingequipment is equipped with processing board 1, install the circular charging tray 2 that rotates on the vertical direction plane on the processing board 1, charging tray 2 with processing board 1 between via a glide mechanism that can drive charging tray 2 reciprocates, the outer peripheral edge of charging tray 2 is equipped with a plurality of loading head 3 along radial outside, be equipped with the drive mechanism that drives charging head 3 along charging head 3 axial rotation in the charging tray 2, charging head 3 is used for the blank 4 of centre gripping waiting to process; the loading tray 2 can be rotated in a vertical plane, whereby a position can be selected in which the specified stub bar 3 is directed directly downwards. A processing platform 5 is arranged below the charging tray 2, a cutter tray 6 is arranged on the processing platform 5, a cutter groove is formed in the cutter tray 6, and a cutter 7 is clamped in the cutter groove; the cutter disc 6 is connected with the processing platform 5 via a transverse displacement mechanism; the processing platform 5 is connected with the processing machine 1 through a push rod mechanism 8, and the push rod mechanism 8 can pull the processing platform 5 to be close to or far away from the processing machine 1. The transverse displacement mechanism can drive the cutter disc 6 to move left and right so as to select a proper cutter 7 for processing; the push rod mechanism 8 can be convenient to withdraw from the processing platform 5 when the cutter 7 or the blank 4 is clamped, so that the clamping is more convenient; during the processing, the transverse displacement mechanism and the push rod mechanism 8 can change the position of the cutter 7 within a small range to match the processing requirement so as to better finish the processing of the blank 4.

As described above, in the preferred embodiment of the multi-tool tri-axial machining apparatus for precision structural members of the present invention, at least two or more tool grooves are formed on the tool plate 6, and the spacing distance between adjacent tool grooves in the same row is equal. As shown in the figure, the cutter disc 6 can be provided with a plurality of cutter grooves for clamping cutters 7 with different specifications, so that the corresponding cutter 7 can be selected for machining in real time in the machining process of the blank 4, the cutter 7 is protected from being damaged easily, and the machining quality of the blank 4 can be improved.

As described above, in the preferred embodiment of the multi-tool tri-axial machining apparatus for precision structural members of the present invention, the cutter disk 6 is provided with a rotation driving mechanism for driving the rotation of the cutter in the cutter groove. Further, the machining speed can be increased by rotating the tools in the tool disk 6 together, and the machining efficiency can be improved particularly in a machining operation of piercing or cutting a single shape.

As described above, in the preferred embodiment of the multi-tool tri-axis machining apparatus for precision structural parts of the present invention, a turning mechanism is disposed between the tool disk 6 and the lateral displacement mechanism and is rotated in a direction perpendicular to the moving direction of the lateral displacement mechanism. The turnover mechanism can be a rotating shaft along the moving direction of the transverse displacement mechanism, and can also be a jacking push rod mechanism 8 arranged on two sides of the cutter disc 6, so that the cutter disc 6 can be turned over; by turning over the cutter disc 6, a method for changing the direction of the cutter can be added, so that more special structures can be machined in the machining process of the blank 4, and the machining process is simplified.

As described above, in the preferred embodiment of the multi-tool tri-axial machining apparatus for precision structural members of the present invention, a horizontal rotating mechanism is disposed at the joint between the tool disk 6 and the turnover mechanism; two groups of cutter grooves are symmetrically arranged on two sides of the cutter disc 6. Two groups of cutters 7 can be arranged on the cutter disc 6 and symmetrically arranged on two sides of the surface of the cutter disc 6, and the cutters 7 at the positions of the cutter disc 6 corresponding to the loading disc 2 can be changed through the rotation of the horizontal rotating mechanism; therefore, by arranging the standby cutter, the continuity of the machining process can be better ensured, the use of the two groups of cutters 7 can be switched intermittently, the damage condition of the cutters caused by continuous use is reduced, and the service life of the cutters is prolonged.

As described above the utility model discloses a precision structure spare multitool triaxial processingequipment, in the embodiment of its preferred, the cutter groove orientation cutter diversion groove has been seted up to the side of cutter dish 6, the cutter is installed to the cutter inslot and is turned to the device, cutter 7 can be turned on one's side by the vertical direction and be the horizontal direction. The cutter diversion groove is a containing groove which is connected with the cutter groove and the side face of the cutter disc 6, the cutter 7 is controlled by the cutter steering device, the cutter 7 can be changed into a horizontal and horizontal state from a vertical and upward state, the end part of the cutter 7 protrudes out of the side face of the cutter disc 6, the charging disc 2 is controlled to move to the position of the corresponding cutter 7, the processing of more shapes can be realized, the processing efficiency of blank materials is improved, the processing procedure is simplified, the cost is reduced, and the market competitiveness of products is improved.

The utility model discloses a many cutters of precision structure spare triaxial processingequipment, be provided with the rotatory charging tray that can the clamping blank, make to be equipped with on the charging tray periphery and drive the high-speed rotatory dress stub bar of blank material, it rotates to move blank material through the charging head, and rather than the cutter cooperation that the below can remove, can accomplish the processing operation of blank material, the clamping degree of difficulty of blank material has not only been simplified, and can realize a plurality of blank material's one-time operation, the machining efficiency of blank material has greatly been improved, the cutter has also further been protected, and the production cost is reduced.

The above description is only exemplary of the present invention, and is not intended to limit the scope of the present invention. Any person skilled in the art should also realize that such equivalent changes and modifications can be made without departing from the spirit and principles of the present invention.

Claims (6)

1. A multi-cutter three-axis machining device for a precise structural part is characterized by comprising a machining machine table, wherein a circular charging tray which rotates on a plane in the vertical direction is mounted on the machining machine table, the charging tray is connected with the machining machine table through a sliding mechanism capable of driving the charging tray to move up and down, a plurality of charging heads are arranged on the outer periphery of the charging tray along the radial direction, a driving mechanism for driving the charging heads to rotate along the axial direction of the charging heads is arranged in the charging tray, and the charging heads are used for clamping blank materials to be machined;

a machining platform is arranged below the charging tray, a cutter tray is arranged on the machining platform, a cutter groove is formed in the cutter tray, and a cutter is clamped in the cutter groove; the cutter disc is connected with the processing platform through a transverse displacement mechanism; the processing platform is connected with the processing machine table through a push rod mechanism, and the push rod mechanism can pull the processing platform to be close to or far away from the processing machine table.

2. The multi-tool, tri-axial machining apparatus for precision structural parts of claim 1, wherein the tool disk has at least two or more tool slots, and adjacent tool slots in a same row are equally spaced.

3. The multi-tool, tri-axial machining apparatus for precision structural parts of claim 2, wherein the tool disk is provided with a rotational driving mechanism for driving the tool in the tool groove to rotate.

4. The multi-tool, three-axis machining apparatus for precision structural parts as claimed in claim 2 or 3, wherein a turnover mechanism is provided between the tool disk and the lateral displacement mechanism for rotating in a direction perpendicular to the moving direction of the lateral displacement mechanism.

5. The multi-tool, three-axis machining device for precision structural parts of claim 4, wherein a horizontal rotating mechanism is arranged at the joint of the cutter disc and the turnover mechanism; two groups of cutter grooves are symmetrically arranged on two sides of the cutter disc.

6. The multi-tool three-axis machining device for the precision structural part as claimed in claim 5, wherein a tool turning groove is formed in the side surface of the tool groove facing the tool disk, a tool turning device is installed in the tool groove, and the tool can be turned from a vertical side to a horizontal side.

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