CN221336751U - Three cutter head coordinated type planer-type milling machines - Google Patents

Abstract

The utility model relates to the technical field of three-milling head linkage type planer, and particularly discloses a three-milling head linkage type planer, which comprises a planer base, wherein three work tables are arranged at the upper end part of the planer base, a transmission belt is arranged between each work table, and each transmission belt is arranged above the planer base; wherein, two installation sliding grooves are formed in the upper end part of the planer type milling machine base, each installation sliding groove is respectively formed in two sides of the workbench, and a sliding fixing rod is fixedly arranged in each installation sliding groove; the left end part and the right end part of the planer type milling machine base are respectively provided with a ruler strip, so that the pushing motor drives the pushing rod to move downwards, the machining milling cutter part is close to the part downwards, the second rotating motor and the first rotating motor are started simultaneously, and the position of the machining milling cutter is adjusted to machine the part while the machining milling cutter is used for machining the part, so that the part is machined in the same direction and at different positions.

Description

Three cutter head coordinated type planer-type milling machines

Technical Field

The utility model relates to the technical field of three-milling head linkage planer, in particular to a three-milling head linkage planer milling machine.

Background

The numerical control machine tool is a working machine of manufacturing equipment industry, is a basic stone for realizing advanced technology and equipment modernization, and is strategic equipment for ensuring the development of high and new technology entrepreneur industry and the modernization of national defense and military industry. The equipment manufacturing industry is a national industrial foundation stone, provides an important means for new technology, new product development and modern industrial production, and is an indispensable strategic industry. The machine tool is a symbol of the national manufacturing level, and the five-axis linkage numerical control machine tool system represents the highest boundary of the machine tool manufacturing.

Currently, three-milling-head linkage planer-type milling machines on the market mostly adopt milling cutters installed at different positions on a planer to simultaneously process parts at different positions, so that when some smaller parts with complex shapes are processed, three milling heads simultaneously process parts which are easy to collide with each other, and the device is large in volume, so that dead angles of processing easily occur during simultaneous processing, and the quality of produced parts is poor.

Disclosure of utility model

(One) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a three-milling-head linkage planer type milling machine, which solves the technical problem that the three-milling-head linkage planer type milling machine is easy to generate processing dead angles during simultaneous processing.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

The three-milling head linkage type planer type milling machine comprises a planer type milling machine base, wherein three work tables are arranged at the upper end part of the planer type milling machine base, a transmission belt is arranged between each work table, and each transmission belt is arranged above the planer type milling machine base; wherein, two installation sliding grooves are formed in the upper end part of the planer type milling machine base, each installation sliding groove is respectively formed in two sides of the workbench, and a sliding fixing rod is fixedly arranged in each installation sliding groove; wherein, the ruler strip is all installed to two side tip about planer-type milling machine base.

Preferably: three gantry frames are arranged at the upper end part of the pedestal of the planer type milling machine, and two supporting legs are arranged at the lower end part of each gantry frame; the lower end part of each supporting leg is provided with a limiting block, each gantry frame is arranged above the pedestal of the planer milling machine through a limiting block matched with a sliding chute and a sliding fixing rod which are arranged at the lower end of each supporting leg, and the lower end part of each supporting leg is provided with a second rotating motor; and the side end parts of the supporting legs are respectively provided with a rotating gear, and each rotating gear is communicated with a second rotating motor.

Preferably: each rotating gear is arranged above the ruler row bar and connected with the ruler row bar; wherein, each rotating gear rotates and is matched with the ruler strip to drive the gantry frame to move, and a first thread rotating rod is arranged in each gantry frame; the side end part of the first threaded rotating rod is provided with a first rotating motor, the first rotating motor is arranged in one supporting leg, the side end part of each gantry frame is provided with a pushing motor, and a pushing rod is slidably arranged in each pushing motor; the lower end part of each pushing rod is provided with a machining milling cutter, the side end part of each pushing motor is provided with a threaded connecting sleeve, and each pushing motor is matched with the first threaded rotating rod through the threaded connecting sleeve and is arranged at the side end part of the gantry frame.

(III) beneficial effects

1. After all processing on one side is finished, a user starts a workbench, the workbench pushes a part to the upper part of a conveying belt, the conveying belt pushes the part to go to the next workbench, the same operation is carried out, a pushing motor is simultaneously installed at the side ends of three gantry frame parts, processing milling cutters with different angles are additionally installed at the pushing rod positions below the pushing motor, the device is split into three parts for linkage, and each part only processes one part of the part, so that the beneficial effects of avoiding processing dead angles and device collision during processing are achieved.

2. The pushing motor drives the pushing rod to move downwards, so that the machining milling cutter part is close to the part downwards, the second rotating motor is started simultaneously, the first rotating motor is used for adjusting the position of the machining milling cutter to machine the part, and meanwhile, the machining milling cutter is adjusted to machine the part in the same direction and at different positions, the second rotating motor is started to drive the rotating gear to rotate, and the pushing motor is matched with the position of the gantry frame part above the device, so that the machining can be performed on different working tables and multiple surfaces on the same working table.

Drawings

The foregoing description is only an overview of the present utility model, and is intended to provide a better understanding of the present utility model, as it is embodied in the following description, with reference to the preferred embodiments of the present utility model and the accompanying drawings.

FIG. 1 is a view showing a construction of a planer type milling machine base of the present utility model;

FIG. 2 is a block diagram of a table according to the present utility model;

FIG. 3 is a gantry frame construction of the present utility model;

fig. 4 is a structural view of the push motor of the present utility model.

Legend description: 1. a planer type milling machine base; 11. a work table; 12. a transmission belt; 13. installing a chute; 14. a sliding fixing rod; 15. a ruler strip is arranged; 16. pushing the motor; 17. a push rod; 18. machining a milling cutter; 19. a thread connecting sleeve; 2. a gantry frame; 21. support legs; 22. a first rotating motor; 23. a first threaded rotating rod; 24. a second rotating motor; 25. rotating the gear; 26. and a limiting block.

Detailed Description

According to the three-milling head linkage planer type milling machine, the problem that machining dead angles are easy to occur in simultaneous machining of the three-milling head linkage planer type milling machine is effectively solved, after one side is completely machined, a user starts a workbench, the workbench pushes parts to the upper portion of a conveying belt, the conveying belt pushes the parts to the lower portion of the conveying belt to conduct the same operation, pushing motors are simultaneously arranged at the side ends of the three planer type frame portions, machining milling cutters with different angles are additionally arranged at the positions of pushing rods below the pushing motors, the device is split into three parts to be in linkage, and each part only processes one part of the parts, so that the beneficial effects of avoiding machining dead angles and mutual collision of the device during machining are achieved.

Examples

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the technical scheme in the embodiment of the application is to effectively solve the technical problem that the three-milling head linkage planer type milling machine is easy to process dead angles at the same time, and the general thought is as follows: the three-milling head linkage type planer type milling machine comprises a planer type milling machine base 1, wherein three work tables 11 are arranged at the upper end part of the planer type milling machine base 1, a transmission belt 12 is arranged between each work table 11, and each transmission belt 12 is arranged above the planer type milling machine base 1; wherein, the upper end of the planer type milling machine base 1 is provided with two mounting sliding grooves 13, each mounting sliding groove 13 is respectively arranged at two sides of the workbench 11, and a sliding fixing rod 14 is fixedly arranged in each mounting sliding groove 13; wherein, the ruler strip 15 is all installed to two side tip about planer-type milling machine base 1, realizes moving in gantry frame 2 part through installation spout 13 and slip dead lever 14 cooperation, carries out the spacing condition such as slope that prevents to appear in moving to it.

Aiming at the problems in the prior art, the utility model provides a three-milling head linkage planer type milling machine, wherein three planer frames 2 are arranged at the upper end part of a planer type milling machine base 1, and two supporting legs 21 are arranged at the lower end part of each planer frame 2; wherein, the lower end part of each supporting leg 21 is provided with a limiting block 26, each gantry frame 2 is arranged above the planer base 1 through the matching installation chute 13 of the limiting block 26 arranged at the lower end of the supporting leg 21 and the sliding fixing rod 14, and the lower end part of each supporting leg 21 is provided with a second rotating motor 24; wherein, the side end of each supporting leg 21 is provided with a rotary gear 25, each rotary gear 25 is communicated with a second rotary motor 24, and the second rotary motor 24 is started to drive the rotary gears 25 to cooperate with the ruler strips 15 to achieve the effect that the gantry frame 2 partially moves back and forth above the planer frame 1.

Each rotating gear 25 is arranged above the ruler strip 15 and is connected with the ruler strip 15; wherein, each rotating gear 25 rotates to drive the gantry frame 2 to move partially by being matched with the ruler strip 15, and a first thread rotating rod 23 is arranged in each gantry frame 2; the first rotating motor 22 is installed at the side end of the first screw rotating rod 23, the first rotating motor 22 is installed inside one of the supporting legs 21, and the first screw rotating rod 23 is driven by the first rotating motor 22, so that the left and right positions of the pushing motor 16 on the gantry frame 2 are adjusted to achieve multidirectional processing of parts.

A pushing motor 16 is arranged at the side end part of each gantry frame 2, and a pushing rod 17 is slidably arranged in each pushing motor 16; wherein, the lower tip of every push rod 17 all installs processing milling cutter 18, and the screw thread adapter sleeve 19 is all installed to the side tip of every push motor 16, and every push motor 16 all installs at gantry frame 2 side tip through screw thread adapter sleeve 19 and the cooperation of first screw thread bull stick 23, drives processing milling cutter 18 through push motor 16 promotion push rod 17 and descends, reaches the effect of adjusting the processing upper and lower height.

Working principle:

In the first step, when a user uses the planer type milling machine, the user places the planer type milling machine on a horizontal plane, the user picks up the planer type milling machine base 1, three work tables 11 are arranged above the planer type milling machine base 1, then the user picks up two conveying belts 12, the two conveying belts 12 are arranged at positions between the three work tables 11, after the conveying belts 12 are arranged, the user picks up two sliding fixing rods 14, the two sliding fixing rods 14 are respectively arranged in two installation sliding grooves 13 formed above the planer type milling machine base 1, then the user picks up two ruler discharging strips 15, the ruler discharging strips 15 are respectively arranged at opening positions of the side ends of the two installation sliding grooves 13, at the moment, the ruler discharging strips 15 are arranged at the side ends of the planer type milling machine base 1, namely, the planer type milling machine base 1 is arranged, then the user picks up the planer type milling machine 2, two supporting legs 21 are arranged at the lower ends of the planer type milling machine 2, then limiting blocks 26 are arranged at the lower ends of the two supporting legs 21, after the installation of the limiting block 26 is completed, a user picks up two second rotating motors 24, installs the two second rotating motors 24 inside the lower ends of the two supporting legs 21 respectively, then installs a rotating gear 25 at the side end positions of the two supporting legs 21, connects the rotating gear 25 with the second rotating motor 24 inside, then picks up the first threaded rotating rod 23, installs the first threaded rotating rod 23 at the grooving position of the lower end of the gantry frame 2, then picks up the first rotating motor 22, installs the first rotating motor 22 inside the supporting leg 21 at one side and connects one end of the first threaded rotating rod 23, picks up the pushing motor 16 again after the first rotating motor 22 is assembled, installs the Hamulberry pushing rod 17 inside the pushing motor 16, then installs the milling cutter 18 at the bottom end of the pushing rod 17, after the milling cutter 18 is installed, a user picks up the screw connecting sleeve 19, installs the screw connecting sleeve 19 on the side end part of the pushing motor 16, then picks up the assembled pushing motor 16 part to be installed on the circumferential surface of the first screw rotating rod 23 along the position of the screw connecting sleeve 19, installs the side end bulge part of the pushing motor 16 on the side end slotting position of the gantry frame 2, kills the pushing motor 16 to be partially assembled with the gantry frame 2, picks up the assembled gantry frame 2 part to be installed in the installation chute 13 along the position of the bottom limiting block 26, installs the limiting block 26 on the circumferential surface of the sliding fixed rod 14, and at the moment, the rotating gear 25 is connected with the ruler arranging strip 15, and the assembled three gantry frame 2 parts are assembled to correspond each gantry frame 2 with the workbench 11.

When the user needs to use the device, the user starts the two transmission belts 12 to place the parts to be machined on the workbench 11, then starts the second rotating motors 24 at the bottoms of the two supporting legs 21, the second rotating motors 24 drive the rotating gears 25 to rotate, at the moment, the rotating gears 25 are matched with the ruler strip 15 to drive the whole gantry frame 2 to move, the position of the pushing motor 16 is adjusted in the front-back direction, then starts the first rotating motor 22, the first rotating motor 22 drives the first thread rotating rod 23 to rotate, the first thread rotating rod 23 drives the whole pushing motor 16 to adjust left and right, so that the pushing motor 16 is right over the machined parts, then the user starts the pushing motor 16, the pushing motor 16 drives the pushing rod 17 to move downwards, so that the machined milling cutter 18 is partially close to the parts downwards, then simultaneously starts the second rotating motors 24, the first rotating motor 22 adjusts the positions of the machined milling cutter 18 to machine the parts in the same direction at the same time, after one side is completely machined, the whole pushing motor 16 is driven to move the whole pushing motor 16 to the left and right, the pushing motor 16 is driven by the whole pushing motor 16 to move the parts to the workbench 11 until the parts are conveyed to the same angle, and the parts can be machined by the user, and the user can move the milling cutter 11 forward on the workbench 11 to the workbench.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present utility model and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (6)

1. The three-milling head linkage type planer type milling machine comprises a planer type milling machine base (1) and is characterized in that three work tables (11) are arranged at the upper end part of the planer type milling machine base (1), a transmission belt (12) is arranged between each work table (11), and each transmission belt (12) is arranged above the planer type milling machine base (1);

Wherein, two installation sliding grooves (13) are formed in the upper end part of the planer type milling machine base (1), each installation sliding groove (13) is respectively formed in two sides of the workbench (11), and a sliding fixing rod (14) is fixedly arranged in each installation sliding groove (13);

wherein, the left and right sides tip of planer-type milling machine base (1) all installs row chi strip (15).

2. The three-milling head linkage planer type milling machine according to claim 1, wherein three planer frames (2) are arranged at the upper end part of the planer type milling machine base (1), and two supporting legs (21) are arranged at the lower end part of each planer frame (2);

Limiting blocks (26) are mounted at the lower end parts of the supporting legs (21), and the gantry frames (2) are mounted above the planer type milling machine base (1) through limiting blocks (26) mounted at the lower ends of the supporting legs (21) in a matched mode, mounting sliding grooves (13) and sliding fixing rods (14).

3. A three-head linkage planer type milling machine as claimed in claim 2 wherein a second rotary motor (24) is mounted at the lower end of each of said support legs (21);

Wherein, every the side tip of supporting leg (21) all installs rotation gear (25), every rotation gear (25) all are linked together with second rotation motor (24).

4. A three-head linkage planer type milling machine as claimed in claim 3 wherein each of said rotary gears (25) is mounted at a position above the bar (15) for connection to the bar (15);

Wherein each rotating gear (25) rotates to drive the gantry frame (2) to move by being matched with the ruler strip (15).

5. A three-head linked planer type milling machine according to claim 4, characterized in that a first screw thread turning rod (23) is mounted inside each planer frame (2);

The side end part of the first threaded rotating rod (23) is provided with a first rotating motor (22), and the first rotating motor (22) is arranged inside one supporting leg (21).

6. A three-milling head linkage planer type milling machine according to claim 5, characterized in that a pushing motor (16) is mounted at the side end part of each planer frame (2), and a pushing rod (17) is slidably mounted in each pushing motor (16);

The lower end part of each pushing rod (17) is provided with a machining milling cutter (18), the side end part of each pushing motor (16) is provided with a thread connecting sleeve (19), and each pushing motor (16) is matched with a first thread rotating rod (23) through the thread connecting sleeve (19) and is arranged at the side end part of the gantry frame (2).