CN212735276U

CN212735276U - High-precision double-spindle double-tool tower machine tool

Info

Publication number: CN212735276U
Application number: CN202021773069.5U
Authority: CN
Inventors: 金永进
Original assignee: Hangzhou Chuanshang Machinery Technology Co ltd
Current assignee: Hangzhou Chuanshang Machinery Technology Co ltd
Priority date: 2020-08-24
Filing date: 2020-08-24
Publication date: 2021-03-19
Anticipated expiration: 2030-08-24

Abstract

The utility model discloses a high-precision double-spindle double-turret machine tool, which comprises a base and a feeding device arranged on the base; the tool is characterized in that a first main shaft, a second tool turret and a chip removal device are mounted on the base; and the feeding device is respectively provided with a second main shaft and a first tool turret. The utility model discloses can make the one-time processing of work piece accomplish, reduce the time of work piece and cutter dismouting, improve production efficiency, can also get rid of the lathe outside the iron fillings that produce are automatic, the clearance of being convenient for.

Description

High-precision double-spindle double-tool tower machine tool

[ technical field ] A method for producing a semiconductor device

The utility model relates to a digit control machine tool technical field specifically indicates a two main shaft double knives tower lathe of high accuracy.

[ background of the invention ]

Along with the development of social technique, current many work pieces can both adopt corresponding digit control machine tool to process out, and among the prior art, the digit control machine tool of processing in many mills is processing a complete work piece, need change many times cutter in the in-process of processing and process, or dismantles the work piece and process on different lathe to can reduce the efficiency of production, the time of extension production, and some lathe do not have corresponding chip removal device, need manual to clear up and take time and energy. Therefore, a high-precision double-spindle double-turret machine tool is provided.

[ summary of the invention ]

The utility model aims at solving the above problems and providing a high-precision double-spindle double-turret machine tool.

In order to achieve the above purpose, the utility model provides a following technical scheme: a high-precision double-spindle double-turret machine tool comprises a base and a feeding device arranged on the base; the tool is characterized in that a first main shaft, a second tool turret and a chip removal device are mounted on the base; and the feeding device is respectively provided with a second main shaft and a first tool turret.

Preferably, the chip removal device comprises a fixed frame, a driving roller, a driven roller and a chip removal motor, wherein the driving roller, the driven roller and the chip removal motor are arranged on the fixed frame; a conveying belt is arranged between the driving roller and the driven roller; the fixed frame is also provided with a baffle and a chip removal collection box.

Preferably, the first main shaft is in transmission connection with a servo motor through a synchronous belt; the servo motor is fixedly arranged on the base; the second cutter tower and the first cutter tower are both provided with motors; the feeding device comprises a transverse feeding device and a longitudinal feeding device.

Preferably, the transverse feeding device comprises a large supporting plate, a transverse motor and a transverse sliding rail, wherein the transverse motor and the transverse sliding rail are installed on the large supporting plate; a transverse screw rod is arranged on the transverse motor; a transverse screw nut seat is arranged on the transverse screw; the transverse sliding rail is matched with a transverse sliding block; the transverse Quikui is fixed on the longitudinal feeding device; the transverse lead screw nut seat is connected with the longitudinal feeding device.

Preferably, the longitudinal feeding device comprises a small supporting plate, a longitudinal motor and a longitudinal sliding rail, wherein the longitudinal motor and the longitudinal sliding rail are installed on the small supporting plate; a longitudinal screw rod is arranged on the longitudinal motor; a longitudinal screw nut seat is arranged on the longitudinal screw; a longitudinal sliding block is matched on the longitudinal sliding rail; the longitudinal sliding block is fixedly arranged on the sliding plate; the longitudinal lead screw nut seat is connected with the sliding plate.

The utility model has the advantages that: the machine tool can complete one-time processing of the workpiece, reduce the time for dismounting the workpiece and the cutter, improve the production efficiency, and can automatically remove the generated scrap iron to facilitate cleaning.

[ description of the drawings ]

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

Fig. 2 is a top view of the chip removal device of the present invention.

Fig. 3 is a side view of the chip removal device of the present invention.

Fig. 4 is a schematic structural view of the transverse feeding device of the present invention.

Fig. 5 is a schematic structural view of the longitudinal feeding device of the present invention.

Illustration of the drawings: 1, a base; 2 a feeding device; 21 a transverse feeding device; 2101 large pallets; 2102 a transverse motor; 2103 a transverse slide; 2104 a transverse screw; 2105 a transverse screw nut mount; 2106 a transverse slide; 22 longitudinal feeding means; 2201 small supporting plates; 2202 a longitudinal motor; 2203 longitudinal sliding rails; 2204 longitudinal screw; 2205 longitudinal screw nut seat; 2206 longitudinal slider; 2207 sliding plate; 3, a first main shaft; 4, a second tool turret; 5 a chip removal device; 501 fixing a frame; 502 a drive roller; 503 driven rollers; 504 a chip removal motor; 505 a conveyor belt; 506 a baffle plate; 507 chip removal collecting boxes; 6, a second main shaft; 7, a first tool turret; 8, a servo motor; 9 motor.

Detailed Description

The following will further describe a high-precision double-spindle double-turret machine tool according to the present invention with reference to the accompanying drawings.

Referring to fig. 1, the high-precision double-spindle double-turret machine tool in the embodiment includes a base 1 and a feeding device 2 installed on the base 1; the tool is characterized in that a first main shaft 3, a second tool turret 4 and a chip removal device 5 are mounted on the base 1; the feeding device 2 is provided with a second main shaft 6 and a first tool turret 7 respectively; the first main shaft 3 and the second tool turret 4 are arranged on the base 1, and the second main shaft 6 and the first tool turret 7 are arranged on the feeding device 2, so that a plurality of workpieces can be simultaneously machined, one-time machining can be completed, a cutter does not need to be replaced in the machining process, and the production efficiency is improved; through installing chip removal device 5 on base 1 to the workman of being convenient for is to the clearance of lathe, makes iron fillings unify to concentrate, and unified processing.

Referring to fig. 2 and 3, the chip discharging device 5 comprises a fixing frame 501, a driving roller 502, a driven roller 503 and a chip discharging motor 504 which are arranged on the fixing frame 501; a conveyer belt 505 is arranged between the driving roller 502 and the driven roller 503; the fixed frame 501 is also provided with a baffle 506 and a chip removal collection box 507; the scrap iron collecting box 507 is characterized in that a scrap iron discharging motor 504 drives a driving roller 502 to rotate, the driving roller 502 drives a driven roller 503 to rotate through a conveyer belt 505, and accordingly scrap iron generated by machining is conveyed out of a machine tool and enters the scrap iron collecting box 507; by installing the baffle 506 on the fixed frame 501, the scrap iron can be prevented from falling into the machine tool during the conveying process.

Referring to the attached figure 1, the main shaft I3 is connected with a servo motor 8 through a synchronous belt in a transmission way; the servo motor 8 is fixedly arranged on the base 1; the second cutter tower 4 and the first cutter tower 7 are both provided with motors 9; the feeding device 2 comprises a transverse feeding device 21 and a longitudinal feeding device 22; the motors 9 are arranged on the second cutter tower 4 and the first cutter tower 7, so that the second cutter tower 4 and the first cutter tower 7 are driven to replace tools in the machining process.

Referring to fig. 4, the transverse feeding device 21 includes a large support plate 2101, a transverse motor 2102 mounted on the large support plate 2101, and a transverse slide rail 2103; a transverse screw 2104 is mounted on the transverse motor 2102; a transverse screw nut seat 2105 is arranged on the transverse screw 2104; a transverse sliding block 2106 is adapted on the transverse sliding rail 2103; the transverse sliding block 2106 is fixed on the longitudinal feeding device 22; the transverse lead screw nut seat 2105 is connected with the longitudinal feeding device 22; the transverse motor 2102 drives the transverse screw 2104 to rotate, the transverse screw 2104 drives the transverse screw nut seat 2105 to move, and the transverse screw nut seat 2105 drives the longitudinal feeding device 22 to move along the transverse sliding rail 2103, so that the longitudinal feeding device 22 is driven to move transversely.

Referring to fig. 5, the longitudinal feeding device 22 includes a small support plate 2201, a longitudinal motor 2202 mounted on the small support plate 2201, and a longitudinal slide rail 2203; a longitudinal screw 2204 is arranged on the longitudinal motor 2202; a longitudinal screw nut seat 2205 is arranged on the longitudinal screw 2204; a longitudinal sliding block 2206 is adapted on the longitudinal sliding rail 2203; the longitudinal sliding block 2206 is fixedly arranged on the sliding plate 2207; the longitudinal lead screw nut seat 2205 is connected with a sliding plate 2207; the longitudinal motor 2202 drives the longitudinal lead screw 2204 to rotate, the longitudinal lead screw 2204 drives the longitudinal lead screw nut seat 2205 to rotate, and the longitudinal lead screw nut seat 2205 drives the sliding plate 2207 to move along the longitudinal sliding rail 2203, so that the main shaft II 6 and the tool turret I7 are driven to move in the longitudinal direction.

The working process of the utility model, the machine tool has two processing modes, mode one, install the work piece on the first main shaft 3, install the cutter that needs processing on the first turret 7, then servo motor 8 drives the first main shaft 3 to rotate through the synchronous belt drive, the transverse motor 2102 drives the transverse lead screw 2104 to rotate, the transverse lead screw 2104 drives the transverse lead screw nut seat 2105 to move, the transverse lead screw nut seat 2105 drives the longitudinal feeding device 22 to move along the transverse slide rail 2103, the longitudinal motor 2202 drives the longitudinal lead screw 2204 to rotate, the longitudinal lead screw 2204 drives the longitudinal lead screw nut seat 2205 to rotate, the longitudinal lead screw nut seat 2205 drives the sliding plate 220 to move along the longitudinal slide rail 2203, thereby driving the first turret to perform transverse and longitudinal motion to process the work piece, when one cutter is used, the motor 9 drives the first turret 7 to rotate to replace the cutter, then processing is carried out again;

a workpiece is clamped on a second spindle 6, a tool to be machined is installed on a second turret 4, then the second spindle rotates, a transverse motor 2102 drives a transverse lead screw 2104 to rotate, the transverse lead screw 2104 drives a transverse lead screw nut seat 2105 to move, the transverse lead screw nut seat 2105 drives a longitudinal feeding device 22 to move along a transverse sliding rail 2103, a longitudinal motor 2202 drives a longitudinal lead screw 2204 to rotate, the longitudinal lead screw 2204 drives a longitudinal lead screw nut seat 2205 to rotate, the longitudinal lead screw nut seat 2205 drives a sliding plate 220 to move along a longitudinal sliding rail 2203, so that the second spindle 6 and the workpiece installed on the second spindle 6 are driven to move transversely and longitudinally to be machined, and when one tool is used, a motor 9 drives the second turret 4 to rotate to replace the tool, and then machining is carried out again;

above two kinds of modes can single processing, also can process simultaneously, and at the in-process of processing, the produced iron fillings of processing drive initiative gyro wheel 502 through chip removal motor 504 and rotate, and initiative gyro wheel 502 drives driven gyro wheel 503 through conveyer belt 505 and goes on to carry out the produced iron fillings of processing out the lathe, get into chip removal collection box 507, concentrate and handle.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims

1. A high-precision double-spindle double-turret machine tool comprises a base (1) and a feeding device (2) arranged on the base (1); the tool is characterized in that a first main shaft (3), a second tool turret (4) and a chip removal device (5) are arranged on the base (1); and a second main shaft (6) and a first tool turret (7) are respectively arranged on the feeding device (2).

2. The high precision double spindle and double turret machine tool according to claim 1, wherein: the chip removal device (5) comprises a fixed frame (501), a driving roller (502), a driven roller (503) and a chip removal motor (504), wherein the driving roller (502), the driven roller (503) and the chip removal motor are arranged on the fixed frame (501); a conveyer belt (505) is arranged between the driving roller (502) and the driven roller (503); the fixing frame (501) is also provided with a baffle (506) and a chip removal collecting box (507).

3. The high precision double spindle and double turret machine tool according to claim 1, wherein: the first main shaft (3) is in transmission connection with a servo motor (8) through a synchronous belt; the servo motor (8) is fixedly arranged on the base (1); the second cutter tower (4) and the first cutter tower (7) are both provided with motors (9); the feeding device (2) comprises a transverse feeding device (21) and a longitudinal feeding device (22).

4. A high precision dual spindle dual turret machine tool according to claim 3 wherein: the transverse feeding device (21) comprises a large supporting plate (2101), a transverse motor (2102) and a transverse sliding rail (2103), wherein the transverse motor (2102) is installed on the large supporting plate (2101); a transverse screw (2104) is mounted on the transverse motor (2102); a transverse screw nut seat (2105) is arranged on the transverse screw (2104); a transverse sliding block (2106) is adapted on the transverse sliding rail (2103); the transverse sliding block (2106) is fixed on the longitudinal feeding device (22); the transverse lead screw nut seat (2105) is connected with a longitudinal feeding device (22).

5. The high-precision double-spindle double-turret machine tool of claim 4, wherein: the longitudinal feeding device (22) comprises a small supporting plate (2201), a longitudinal motor (2202) installed on the small supporting plate (2201) and a longitudinal sliding rail (2203); a longitudinal screw (2204) is arranged on the longitudinal motor (2202); a longitudinal screw nut seat (2205) is arranged on the longitudinal screw (2204); a longitudinal sliding block (2206) is adapted to the longitudinal sliding rail (2203); the longitudinal sliding block (2206) is fixedly arranged on the sliding plate (2207); the longitudinal lead screw nut seat (2205) is connected with a sliding plate (2207).