TWM564500U - Milling machine table automatic / manual feed drive system - Google Patents

Abstract

Milling machine table automatic / manual feed drive system; comprising: a hand wheel, a motor base, a motor, a motor output shaft, a driving source for automatic feed; and a drive source for manual feed, a screw connecting the coupler to form a complete shaft of the milling machine to the power transmission system.

Description

Axial drive system for automatic/manual drive switching of milling machines

The present invention relates to an axial transmission system for automatic/manual drive switching of a milling machine; in particular, a new type of precision and efficiency of a transmission structure applied to manual feed and automatic feed switching of a milling machine.

In addition to milling machines in the machining and working machine industry, a series of machine tools such as lathes, milling machines, grinding machines and drilling machines are also included, which are divided into traditional control and CNC digital control. The basic components of the machine tool include: support mechanism, drive device, feed mechanism, guiding mechanism, control and control system, lubrication system, cooling system, safety device, etc., and these main components, the most important one of which includes the drive device , the feeding device, its main function is to undertake the feeding of the tool, the movement of the working table is good so that the workpiece can accurately and precisely reach the path and cutting surface of the tool preset machining or cutting.

However, the working machine, for example, like the quality factor of the milling machine in the overall operation, the driving device and the feeding mechanism drive the most important part of the machining path X, Y, Z axis. Milling table work path has three modes of operation: manual feed, motorized feed and maneuver fast forward.

The traditional milling machine table feed drive system is to install a mechanical gearbox or a motor motor on the left or right side of the milling machine table. The motor motor transmits power to the manual feed or automatic feed through the toothed belt pulley or the clutch. Milling table to realize the progress of the milling machine table In the manual/automatic feed switching, the whole component is very complicated, the combination is not very convenient and fast, and the processing and assembly costs are increased. Another problem is that it automatically switches to the manual tripping action mechanism, and some designs adopt the torque to move. The dynamic switching gear drives the complex structure design. The disadvantages are relatively complicated structure, high cost, poor function, low strength and rigidity, low transmission precision, low service life, time-consuming and laborious, many parts and high failure rate. It is particularly important to point out that the mechanical transmission type milling machine feed drive system cannot be used in the numerically modified upgrade application of the milling machine.

The milling table feed mechanism of the motor plus toothed belt pulley and the toothed belt can be used in the numerical control upgrade of the milling machine, but the transmission precision, transmission efficiency and manual feed and automatic feed conversion All aspects are subject to structural restrictions. Therefore, the development of a new structure of the milling machine table feed drive system has been a new topic that needs to be solved urgently.

Therefore, in view of the above-mentioned shortcomings, the creators of this new model have collected relevant information, and through multi-party evaluation and consideration, and through years of experience in the industry, through continuous trial and modification, the automatic/manual drive of this type of milling machine was created. Switched axial drive system.

The main purpose of this creation is to provide an axial transmission system for automatic/manual drive switching of milling machines. The automatic/manual drive switching device and mechanism of the milling machine are switched in an axial manner to avoid the conventional switching mode of the torque switching gear. As a result, the switching gears generate a large torque and a large frictional impact between the gears, and the result of repeated switching over a long period of time results in wear and tear between the mechanisms, resulting in damage to the precision and structure of the mechanism transmission; The motor output shaft and the manual output shaft at the two ends of the motor motor; and the hand wheel, the two power sources and the switching mode of the lead screw driven by the coupling (the manual output shaft is coupled to the motor output shaft) , which is not part of the handwheel), in this axial switching mode is completely large Reduce the traditional high torque switching mode.

Another main purpose of this creation is to provide an axial transmission system for automatic/manual drive switching of a milling machine. The motor output shaft of the motor motor with dual output power and the manual output shaft constitute the same axial drive automatic/manual. The power source, the coupling coupling drives the screw to rotate, which can simplify the manual/automatic switching mechanism, reduce the torque consumption between different axial and complex multi-directional gears, reduce the precision, and realize the manual feed and automatic feed of the milling machine. Instant and easy conversion, easy to operate, save space and beautiful appearance, and can be applied to the left or right side of the workbench as an automatic manual power source according to design requirements. It has good function, can provide more structural strength and high rigidity, and exert high torque. At the same time, the power consumption is greatly reduced. Under the premise of simple structure, the accuracy of the operation can be improved at the same time, the parts are greatly reduced, the manufacturing cost is obviously reduced, and the failure rate is also significantly reduced. The replacement parts and the maintenance are quick and convenient, the service life is long, and the installation is very simple. Advantages, the feed rate of the milling machine table can be adjusted steplessly to meet Processing requirements; fast-moving stage milling can quickly reach the workpiece machining position to shorten the non-machining time; milling manual feed table knife single production operation and easy processing component during processing.

The main components of this creation: hand wheel, motor seat, motor motor, motor output shaft, coupling, manual output shaft, lead screw, screw bracket, hexagon socket screw, table, washer, flat key, lock nut, The spacer, the bearing, the pin, the end cap and the hex nut form a complete axial power transmission system for the milling machine.

The axial transmission system of the automatic/manual drive switching of the milling machine of the present invention has the practical progress and novelty that the above-mentioned conventional problems cannot be solved.

3X‧‧‧ hand wheel

10X‧‧‧Motor Holder

5X‧‧‧Motor motor

5a‧‧‧Motor output shaft

6X‧‧‧Coupling

3a‧‧‧Manual output shaft

17X‧‧ ‧ lead screw

18X‧‧Dust rod bracket

1X‧‧‧ hex socket head cap screws

12X‧‧‧Workbench

2X‧‧‧ Washer

4X‧‧‧ flat key

7X‧‧‧Lock nut

8X‧‧‧ spacer

9X‧‧‧ bearing

11X‧‧‧ pin

19X‧‧‧ end cap

20X‧‧‧ hex nut

The first picture is an exploded view of the relationship between the double-outlet structure of the axial transmission system.

Figure 2 is an exploded view of the lead screw and other structural relationships in the axial drive system.

Figure 3 is a schematic diagram of the two end handwheels and one side motor seat in the axial transmission system.

Fig. 4 is a view showing a preferred embodiment of the axial transmission system X and Y axes.

Under the normal circumstances, please refer to the first picture (explosion diagram of the double-shaft structure relationship in the axial transmission system) through the creation. Figure 2 (explosion diagram of the lead screw and other structural relations in the axial transmission system) , Figure 3 (schematic diagram of the two end handwheels and one side motor seat in the axial transmission system), the axial transmission system of the automatic/manual drive switching of the milling machine, including: a hand wheel 3X, a motor seat 10X, wherein the motor seat A motor motor 5X is disposed in the 10X, and the motor motor 5X is provided with a motor output shaft 5a and a manual output shaft 3a; wherein the motor output shaft is coupled with a coupling 6X as a driving source for automatic feeding; the hand wheel 3X is When manually dialing, the manual output shaft 3a of the coupling is driven, and then the motor output shaft 5a is driven as a driving source of manual feeding, and the screw (screw) 1'7X is used under the dual output power source. Coupling with the coupling 6X, when the milling machine is powered by the power supply of the preset control system, when the hand/automatic selection switch of the milling machine is set to the automatic gear, the motor output shaft 5a of the motor motor 5X drives the coupling 6X, and ; when milling machine hand / automatic selection When the closing gear is set in the manual gear, the manual output shaft 3a is rotated by manually shaking the hand wheel 3X, and then the coupling 6X is driven by the motor output shaft 5a, and the power is transmitted to the screw, thereby the same axial output power source. Designed to form a complete axial power transfer system for the milling machine.

Please refer to the first picture, the second picture, and the third figure together. The lead screw 17X The utility model is provided with a screw bracket 18X provided at one end and a motor seat 10X provided at the other end. The lead screw bracket 18X is mounted on one end of the table 12X by a plurality of hexagon socket screws 1X. The motor base 10X is mounted on the other end of the table 12X by a plurality of hexagon socket screws 1X. The hand wheel 3X is disposed on the lead screw 17X. At the end of the end, the actual design can be used according to the design requirements. The manual drive source of the handwheel 3X and the 5X automatic power drive source of the motor can be designed to automatically switch the automatic/manual drive of the milling machine. The design takes advantage of the overall system design of the axial drive system.

Please also refer to all the illustrations at the same time. This creation is described in terms of other detailed components and structural relationships. The axial transmission system consists of screwing the handwheel 3X and the hexagonal screw 1X of the screw bracket 18X. The hand wheel 3X and the one or more washers 2X, the manual output shaft 3a and one or more of the flat keys 4X of the lead screw 17X, and the hexagonal screw 1X screwed on the motor base 10X are formed in a tight fit relationship. One or more lock nuts 7X of the lead screw 17X, and one or more spacers 8X, one or more bearings 9X, the motor base 10X and one or more pins 11X on the screw bracket 18X are tightly fitted with each other, and are screwed The hexagonal screw 1X and one or more hex nuts 20X of one or more end caps 19X are fixed to form a complete axial power transmission system.

Another preferred embodiment of the axial transmission system for automatic/manual drive switching of the milling machine of the present invention, please refer to the fourth drawing (the axial transmission system X, the Y-axis share the preferred embodiment diagram) can be designed according to requirements, as The X-axis, Y-axis, and Z-axis (not shown) are all available for automatic/manual drive switching of the axial drive system on the working machine.

However, those disclosed in the above embodiments are specifically described in the present invention, and although the descriptions are made by specific terms, the scope of patents of the present invention cannot be limited thereto; those who are familiar with the technical field can understand the creation of the present invention. The spirit and principles are changed and modified to achieve an equivalent purpose, and such changes and modifications shall be covered by the scope of the patent application as described later. In the scope of this, it is given to Chen Ming.

Therefore, please refer to all the figures shown in the figure, when using this creation, compared with the conventional technology, the above advantages exist. In summary, the axial transmission system of the automatic/manual drive switching of the milling machine of the present invention can achieve its efficacy and purpose when used, so the creation is practical, progressive and novel. The new patents are in line with the application requirements of the new patents, and the application is made according to law. It is hoped that the trial committee will grant this creation as soon as possible to protect the creators' hard work. If there is any doubt in the trial committee, please do not hesitate to give instructions. When you try your best to cooperate, you will feel good.

Claims (4)

An axial transmission system for automatic/manual drive switching of a milling machine comprises: a hand wheel, a motor seat, wherein the motor seat is provided with a motor motor, the motor motor is provided with a motor output shaft, and a coupling is coupled as an automatic The driving source of the feed; the hand wheel is coupled to a manual output shaft at the other end of the motor motor, wherein the manual output shaft is coupled to the motor output shaft as a driving source for manual feeding, a lead screw, and the like The shaft is coupled to form a complete axial power transmission system for the milling machine. The axial transmission system of the automatic/manual drive switching of the milling machine according to the first aspect of the patent application, wherein the lead screw is disposed on a workbench and is disposed in a screw bracket and is disposed in the motor seat. The lead screw bracket and the motor base are mounted on both ends of the worktable by a plurality of hexagon socket screws; the hand wheel is disposed at the ends of the two ends of the lead screw to form a complete axial power transmission system of the milling machine. An axial transmission system for automatic manual drive switching of a milling machine according to claim 2, wherein the axial transmission system comprises a hexagonal screw that screws the hand wheel and the screw bracket, wherein the hand The wheel and the one or more washers, the manual output shaft and one or more flat keys of the lead screw, and the hexagonal screw screwed on the motor base form a threading and tight fit relationship, and the sleeve is threaded over one or more locks of the lead screw a tightening nut, and one or more spacers, one or more bearings, the motor base and one or more pins on the screw bracket are tightly fitted with each other, and the hexagonal screw and one or more hex nuts of one or more end caps are screwed, Thereby constitute a complete axial power transmission system. The axial drive system for automatic manual drive switching of the milling machine according to the scope or the second paragraph of the patent application can be designed according to the requirements, as the axial drive system for automatic/manual drive switching of X-axis, Y-axis and Z-axis milling machines. .