CN214024517U - Double-end that chip removal ability is strong mills workstation for smooth machine - Google Patents

Abstract

The utility model particularly provides a double-end milling machine workstation that chip removal ability is strong, including the base, install in the slide mechanism and the moving mechanism of base, install in the workstation of slide mechanism, install in the numerical control machining platform of workstation, install in the commentaries on classics board of numerical control machining platform, and install in the hold-down mechanism of workstation, hold-down mechanism with change the board and correspond the setting, moving mechanism with workstation fixed connection; the base is provided with two chip removal mechanisms, the workbench is positioned between the two chip removal mechanisms, and the base is provided with two chip removal grooves; each chip removal mechanism comprises a chip removal motor arranged on the base and a chip removal screw rod arranged on the chip removal motor, and the chip removal screw rods are positioned in the chip removal grooves; the chip removal mechanism who sets up is used for transporting away the sweeps that produces with the parts machining, prevents that the sweeps from piling up and influencing parts machining.

Description

Double-end that chip removal ability is strong mills workstation for smooth machine

Technical Field

The utility model relates to a mill smooth machine accessory application technical field, especially relate to a double-end that chip removal ability is strong mills workstation for smooth machine.

Background

The milling machine mainly refers to a machine tool for processing various surfaces of a workpiece by using a milling cutter. Typically the milling cutter is moved primarily in a rotary motion and the movement of the workpiece and the milling cutter is a feed motion. It can be used for processing plane, groove, various curved surfaces and gears. In a machining workshop, because a milling machine has the characteristic of high processing speed, a vertical milling machine is usually used for rough milling so as to rapidly mill the allowance of a blank to prepare for finish milling. The method comprises the following steps that (1) a blank before rough milling is generally subjected to heat treatment, scrap iron is generated in cutting during processing, the scrap iron flies out of the surface of the blank, the ground around a milling machine is full of scrap iron, and the production environment is influenced; scrap iron can also enter the workbench through the guide rail, and is not easy to carry out.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a carry out effective chip removal through the chip removal mechanism that sets up, prevent that the sweeps from piling up the strong double-end of chip removal ability that influences processing and mill for smooth machine workstation.

The utility model adopts the technical proposal that: a double-end milling machine workstation that chip removal ability is strong, including the base, install in slide mechanism and moving mechanism of the said base, install in the said slide mechanism's workstation, install in the said workstation numerical control machining table of the said workstation, install in the said numerical control machining table turn the board, and install in the said workstation hold-down mechanism, the said hold-down mechanism and turn the board to correspond to and set up, the said moving mechanism and said workstation fixed connection; the base is provided with two chip removal mechanisms, the workbench is positioned between the two chip removal mechanisms, and the base is provided with two chip removal grooves; each the chip removal mechanism including install in the chip removal motor of base, install in the chip removal screw rod of chip removal motor, the chip removal screw rod is located in the chip groove.

The further improvement of the technical scheme is that the chip grooves are arranged in a U shape.

The technical scheme is further improved in that the base is provided with a mounting groove, and the moving mechanism is mounted in the mounting groove.

The technical scheme is further improved in that the moving mechanism comprises a bearing seat and a moving motor seat which are arranged in the mounting groove, a screw rod arranged in the bearing seat and a moving motor arranged in the moving motor seat, the moving motor is connected with the screw rod, one end of the screw rod is arranged in the bearing seat, and the other end of the screw rod is arranged in the motor seat.

The further improvement of the technical scheme is that the workbench is provided with a connecting seat, the screw rod is provided with a nut seat, and the nut seat is fixedly arranged on the connecting seat.

The further improvement of the technical scheme is that the sliding mechanism comprises two sliding rails, a plurality of sliding seats and a plurality of line rail pressing blocks, the sliding seats are arranged on the sliding rails, the workbench is provided with a plurality of installation parts, and the sliding seats are arranged on the installation parts.

The further improvement of the technical scheme is that the base is provided with a limit groove close to the line rail, and the line rail pressing block is arranged in the limit groove.

The technical scheme is further improved in that the pressing mechanism comprises a pressing beam rear seat, a pressing beam front seat, a rear upright post, a cross beam, a pressing oil cylinder and a front upright post which are arranged on the cross beam, and a pressing head arranged on the pressing oil cylinder, wherein the pressing mechanism is arranged on the rear upright post of the rear seat, the cross beam is rotatably arranged on the rear upright post, one end of the front upright post is arranged on the cross beam, and the other end of the front upright post is movably connected with the pressing beam front seat.

The further improvement of the technical scheme is that the pressing beam front seat is provided with a positioning groove, one end of the front upright post is provided with a flange, and the flange is positioned in the positioning groove.

The further improvement of the technical scheme is that the base is provided with a protection mechanism, the protection mechanism comprises a support arranged on the base and a protection cover arranged on the sliding mechanism in a sliding manner, and one end of the protection cover is arranged on the support and the other end of the protection cover is arranged on the workbench.

The utility model has the advantages as follows: the sliding mechanism who sets up is used for the removal of workstation, and the moving mechanism who sets up is used for driving the workstation and removes at sliding mechanism, and the commentaries on classics board that sets up is used for the installation to be processed the part, and the hold-down mechanism that sets up is used for going on further fixed usefulness to the part on changeing the board, and the chip removal mechanism that sets up is used for transporting away the sweeps that the part adds man-hour production, prevents that the sweeps from piling up and influencing the parts machining.

Drawings

Fig. 1 is a schematic structural diagram of a workbench for a double-head milling and polishing machine with strong chip removal capability;

FIG. 2 is a schematic structural view of another angle of the workbench for the double-head milling and polishing machine with strong chip removal capability in FIG. 1;

FIG. 3 is a schematic structural diagram of a sliding mechanism in a workbench for the double-head milling and polishing machine with strong chip removal capability in FIG. 1;

fig. 4 is a schematic structural diagram of a moving mechanism in a workbench for the double-head milling and polishing machine with strong chip removal capability in fig. 1;

FIG. 5 is a schematic structural diagram of a pressing mechanism in a workbench of the double-head milling and polishing machine with high chip removal capability in FIG. 1;

fig. 6 is a schematic structural diagram of a chip removal mechanism in a workbench for the double-head milling and polishing machine with strong chip removal capability in fig. 1;

fig. 7 is a schematic structural diagram of a protection mechanism in a workbench for the double-head milling and polishing machine with the strong chip removal capability in fig. 1.

Description of reference numerals: 10-base, 11-chip removal groove, 20-sliding mechanism, 21-sliding rail, 22-sliding seat, 30-moving mechanism, 31-bearing seat, 32-moving motor seat, 33-screw rod, 33 a-nut seat, 34-moving motor, 40-workbench, 41-numerical control machining table, 42-rotating plate, 50-pressing mechanism, 51-pressing beam rear seat, 52-pressing beam front seat, 52 a-positioning groove, 53-rear upright column, 54-cross beam, 55-pressing oil cylinder, 56-front upright column, 56 a-flange, 57-pressing head, 60-chip removal mechanism, 61-chip removal motor, 62-chip removal screw rod, 70-protection mechanism, 71-bracket and 72-protection cover.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 7, the utility model provides a double-end milling and polishing machine workbench 40 with strong chip removal capability, which comprises a base 10, a sliding mechanism 20 and a moving mechanism 30 which are installed on the base 10, a workbench 40 which is installed on the sliding mechanism 20, and a pressing mechanism 50 which is installed on the workbench 40, wherein the moving mechanism 30 is fixedly connected with the workbench 40; the base 10 is provided with two chip discharging mechanisms 60, and the workbench 40 is positioned between the two chip discharging mechanisms 60; the base also has a guard mechanism 70; the sliding mechanism 20 is used for moving the workbench 40, the moving mechanism 30 is used for driving the workbench 40 to move on the sliding mechanism 20, the workbench 40 is used for mounting a part to be machined, the pressing mechanism 50 is used for further fixing the part on the workbench 40, and the chip removal mechanism 60 is used for transporting away scraps generated during part machining, so that the scraps are prevented from being accumulated to influence part machining.

As shown in fig. 1 and 2, the base 10 is provided with two chip removal grooves 11, the chip removal grooves 11 are arranged in a U shape, and the chip removal mechanism 60 is mounted on the chip removal grooves 11; the base 10 is provided with an installation groove (not shown), and the moving mechanism 30 is installed in the installation groove; a limiting groove (not shown) is disposed on the base 10 near the linear rail, and the limiting groove is used for limiting the sliding mechanism 20.

As shown in fig. 3, the slide mechanism 20 includes two slide rails 21, a plurality of slide bases 22 mounted on the slide rails 21, and a plurality of wire rail pressing blocks (not shown), the table 40 has a plurality of mounting portions (not shown) on which the slide bases 22 are mounted, and the wire rail pressing blocks are mounted on the stopper grooves.

As shown in fig. 4, the moving mechanism 30 includes a bearing seat 31 and a moving motor 34 seat 32 installed in the installation groove, a screw 33 installed in the bearing seat 31, and a moving motor 34 installed in the moving motor 34 seat 32, the moving motor 34 is connected with the screw 33, one end of the screw 33 is installed in the bearing seat 31, and the other end of the screw 33 is installed in the motor seat; the screw 33 has a nut seat 33a, and the nut seat 33a is fixedly attached to the table 40.

As shown in fig. 1 and 2, the table 40 has a nc machining table 41 attached to the table 40 and a rotating plate 42 attached to the nc machining table 41, and the pressing mechanism 50 is provided corresponding to the rotating plate 42, and in this embodiment, the rotating plate 42 is rotatably attached to the nc machining table 41, and the table 40 has a connecting base (not shown) to which the nut base 33a is fixedly attached.

As shown in fig. 5, the pressing mechanism 50 includes a pressing beam rear seat 51, a pressing beam front seat 52, a rear upright 53 mounted on the pressing beam rear seat 51, a cross beam 54, a pressing cylinder 55 and a front upright 56 mounted on the cross beam 54, and a pressing head 57 mounted on the pressing cylinder 55, wherein the cross beam 54 is rotatably mounted on the rear upright 53, one end of the front upright 56 is mounted on the cross beam 54, and the other end of the front upright 56 is movably connected with the pressing beam front seat 52; the front seat 52 of the compression beam is provided with a positioning groove 52a, one end of the front upright 56 is provided with a flange 56a, and the flange 56a is positioned in the positioning groove 52 a.

As shown in fig. 6, each of the chip discharging mechanisms 60 includes a chip discharging motor 61 mounted on the base 10, and a chip discharging screw 62 mounted on the chip discharging motor 61, and the chip discharging screw 62 is located in the chip discharging groove 11.

As shown in fig. 7, the guard mechanism 70 includes a holder 71 attached to the base 10 and a guard 72 slidably attached to the slide mechanism 20, one end of the guard 72 is attached to the holder 71, and the other end of the guard 72 is attached to the table 40.

The utility model discloses a theory of operation does: the sliding mechanism 20 is used for moving the workbench 40, the moving mechanism 30 is used for driving the workbench 40 to move on the sliding mechanism 20, the workbench 40 is used for mounting a part to be machined, the pressing mechanism 50 is used for further fixing the part on the workbench 40, and the chip removal mechanism 60 is used for transporting away scraps generated during part machining, so that the scraps are prevented from being accumulated to influence part machining.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A double-end milling machine workstation that chip removal ability is strong, its characterized in that, including the base, install in slide mechanism and moving mechanism of the said base, install in the said slide mechanism's workstation, install in the said workstation numerical control machining table of the said workstation, install in the said numerical control machining table changes the board, and install in the said workstation hold-down mechanism, the said hold-down mechanism with change the board and correspond to and set up, the said moving mechanism with the said workstation fixed connection; the base is provided with two chip removal mechanisms, the workbench is positioned between the two chip removal mechanisms, and the base is provided with two chip removal grooves; each the chip removal mechanism including install in the chip removal motor of base, install in the chip removal screw rod of chip removal motor, the chip removal screw rod is located in the chip groove.

2. The workbench for the double-ended milling and polishing machine with high chip removal capability according to claim 1, wherein the chip removal grooves are arranged in a U shape.

3. The workbench for the double-ended milling and polishing machine with high chip removal capability according to claim 1, wherein the base is provided with a mounting groove, and the moving mechanism is mounted on the mounting groove.

4. The workbench for the double-head milling and polishing machine with high chip removal capability according to claim 3, wherein the moving mechanism comprises a bearing seat and a moving motor seat which are arranged on the mounting groove, a screw rod which is arranged on the bearing seat, and a moving motor which is arranged on the moving motor seat, the moving motor is connected with the screw rod, one end of the screw rod is arranged on the bearing seat, and the other end of the screw rod is arranged on the motor seat.

5. The workbench for the double-ended milling and polishing machine with high chip removal capability according to claim 4, wherein the workbench comprises a connecting seat, the feed screw comprises a nut seat, and the nut seat is fixedly arranged on the connecting seat.

6. The workbench for the double-head milling and polishing machine with high chip removal capability according to claim 1, wherein the sliding mechanism comprises two sliding rails, a plurality of sliding seats mounted on the sliding rails, and a plurality of line rail pressing blocks, the workbench has a plurality of mounting parts, and the sliding seats are mounted on the mounting parts.

7. The workbench for the double-ended milling and polishing machine with high chip removal capability according to claim 6, wherein a limiting groove is arranged at a position of the base close to the linear rail, and the linear rail pressing block is mounted in the limiting groove.

8. The workbench for the double-head milling and polishing machine with strong chip removal capability according to claim 1, wherein the compressing mechanism comprises a back pressing beam seat and a front pressing beam seat, a rear upright post and a cross beam which are arranged on the back seat, a compressing oil cylinder and a front upright post which are arranged on the cross beam, and a compressing head which is arranged on the compressing oil cylinder, the cross beam is rotatably arranged on the back upright post, one end of the front upright post is arranged on the cross beam, and the other end of the front upright post is movably connected with the front pressing beam seat.

9. The workbench for the double-head milling and polishing machine with high chip removal capability according to claim 8, wherein the front seat of the pressing beam is provided with a position groove, one end of the front upright post is provided with a flange, and the flange is positioned in the position groove.

10. The workbench for the double-head milling and polishing machine with high chip removal capability according to claim 1, wherein the base is provided with a protection mechanism, the protection mechanism comprises a support installed on the base and a protection cover installed on the sliding mechanism in a sliding manner, and one end of the protection cover is installed on the support and the other end of the protection cover is installed on the workbench.

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