CN211758746U - Vertical and horizontal integrated processing equipment - Google Patents

Abstract

The utility model discloses an integral type processing equipment crouches immediately, include: the power take-off device comprises a power take-off shell, a first output gear shaft, a second output gear shaft and an input gear shaft, wherein the first output gear shaft, the second output gear shaft and the input gear shaft are arranged in the power take-off shell, the first output gear shaft and the second output gear shaft are meshed, and the second output gear shaft and the input gear shaft are meshed. The utility model discloses can assemble different processing cutters through two output tooth axles, reach the cooperation of various processing methods on same equipment and use.

Description

Vertical and horizontal integrated processing equipment

Technical Field

The utility model relates to a machining technique specifically is, relates to an immediately, integral type processing equipment crouches.

Background

When different parts of a workpiece are milled, different devices are usually needed, for example, a horizontal milling machine is used for milling a side surface, and a vertical milling machine is used for milling a top surface, so that not only are the times of transferring and clamping needed to be increased, but also the reference is not uniform, and the quality defect is easily caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an immediately, integral type processing equipment crouches can assemble different processing cutters through two output tooth axles, reaches the cooperation of various processing methods on same equipment and uses.

The technical scheme is as follows:

vertical and horizontal integrated processing equipment comprises: the power take-off device comprises a power take-off shell, a first output gear shaft, a second output gear shaft and an input gear shaft, wherein the first output gear shaft, the second output gear shaft and the input gear shaft are arranged in the power take-off shell, the first output gear shaft and the second output gear shaft are meshed, and the second output gear shaft and the input gear shaft are meshed.

Furthermore, the power take-off shell is provided with a first output port, a second output port and an input port, a first clamping ring is arranged on the inner wall of the power take-off shell positioned at the first output port, a second clamping ring is arranged on the inner wall of the power take-off shell positioned at the second output port, and a third clamping ring is arranged on the inner wall of the power take-off shell positioned at the input port; a first output gear shaft is provided with a first toothed end and a first inner taper handle end at two ends, the first toothed end is positioned on the inner side of a first clamping ring, a first bearing is sleeved on the first output gear shaft and positioned on the outer side of the first clamping ring, and a first cover plate is connected to the end part of a first output port by using a bolt; a second output toothed shaft is provided with a second toothed end and a second inner taper shank end at two ends, the second toothed end is positioned at the inner side of a second clamping ring, a second bearing is sleeved on the second output toothed shaft and positioned at the outer side of the second clamping ring, and a second cover plate is connected to the end part of a second output port by using a bolt; the input gear shaft both ends are provided with third area tooth end and outer taper shank end, and the third area tooth end is located the third snap ring inboard, and the third bearing suit is on the input gear shaft, and the third bearing is located the third snap ring outside.

Further, the outer diameter of the first toothed end is larger than the inner diameter of the first clamping ring, the outer diameter of the second toothed end is larger than the inner diameter of the second clamping ring, and the outer diameter of the third toothed end is larger than the inner diameter of the third clamping ring.

Furthermore, a first gear is arranged at the first toothed end, and a first connecting counter bore is arranged at the first inner taper handle end; the second toothed end is provided with a second gear, the second inner taper shank end is provided with a second connecting counter bore, and the first connecting counter bore and the second connecting counter bore are used for connecting a cutter; the third toothed end is provided with a third gear, the outer taper shank end is provided with a third connecting counter bore, and the third connecting counter bore is used for being connected with a main shaft of a machine tool.

Further, the first gear is meshed with the second gear, and the second gear is meshed with the third gear.

Furthermore, the first connecting counter bore and the second connecting counter bore are tapered holes, and the third connecting counter bore is provided with internal threads.

Furthermore, the center lines of the first output port and the input port are positioned on the same axis, and the center line of the second output port is perpendicular to the center lines of the first output port and the input port.

Further, the input port is provided with a body connection flange.

The utility model discloses technical effect includes:

the utility model discloses can assemble different processing cutters through two output tooth axles, reach the cooperation of various processing methods on same equipment and use.

The utility model discloses can assemble the processing cutter through two output tooth axles, implement when reaching two kinds of processing methods, simultaneous processing, greatly improved machining efficiency such as mill, commentaries on classics hole.

The utility model discloses can realize the switching of vertical milling, horizontal milling, commentaries on classics hole on single equipment, can assemble various machining tools such as milling cutter, drill bit at the output pinion.

Drawings

Fig. 1 is an exploded view of the vertical and horizontal integrated processing equipment of the present invention;

fig. 2 is an assembly view of the vertical and horizontal integrated processing equipment of the present invention.

Detailed Description

The following description sufficiently illustrates specific embodiments of the invention to enable those skilled in the art to practice and reproduce it.

As shown in fig. 1, is an exploded view of the vertical and horizontal integrated processing equipment of the present invention; as shown in fig. 2, it is an assembly view of the vertical and horizontal integrated processing equipment of the present invention.

The utility model discloses use and to mill immediately and mill the occasion of simultaneous processing or switching processing with crouching at needs.

Vertical and horizontal integrated processing equipment comprises: the power take-off device comprises a power take-off shell 1, a first output gear shaft 2, a second output gear shaft 3 and an input gear shaft 4, wherein the first output gear shaft 2, the second output gear shaft 3 and the input gear shaft 4 are installed in the power take-off shell 1, the first output gear shaft 2 and the second output gear shaft 3 are meshed, and the second output gear shaft 3 and the input gear shaft 4 are meshed. Input gear shaft 4 transmission moment of torsion is to second output gear shaft 3, and second output gear shaft 3 transmission moment of torsion is to first output gear shaft 2, and input gear shaft 4 drives first output gear shaft 2, second output gear shaft 3 and rotates, drives the milling cutter and rotates.

The power take-off housing 1 is provided with a first output port 11, a second output port 12 and an input port 13, the center lines of the first output port 11 and the input port 13 are located on the same axis, and the center line of the second output port 12 is perpendicular to the center lines of the first output port 11 and the input port 13.

The power take-off housing 1 is provided with a first snap ring 14 on an inner wall located at the first output port 11, the power take-off housing 1 is provided with a second snap ring 15 on an inner wall located at the second output port 12, and the power take-off housing 1 is provided with a third snap ring 16 on an inner wall located at the input port 13. The inlet port 13 is provided with an organism attachment flange 17.

Two ends of the first output gear shaft 2 are provided with a first toothed end 21 and a first inner taper shank end 22, the first toothed end 21 is provided with a first gear, the first inner taper shank end 22 is provided with a first connecting counter bore 23, and the milling cutter is connected in the first connecting counter bore 23. First tooth end 21 is located first snap ring 14 inboard, and first bearing 5 suit is on first output tooth axle 2, and first bearing 5 is located first snap ring 14 outside, and first apron 6 is located first bearing 5 outside, and first apron 6 utilizes bolted connection at the tip of first output port 11. First toothed end 21 is located within power take off housing 1 and has an outer diameter greater than the inner diameter of first snap ring 14.

A second toothed end 31 and a second inner taper shank end 32 are arranged at two ends of the second output gear shaft 3, a second gear is arranged at the second toothed end 31, a second connecting counterbore 33 is arranged at the second inner taper shank end 32, and the milling cutter is connected in the second connecting counterbore 33. Second area tooth end 21 is located second snap ring 15 inboard, and second bearing 7 suit is on second output tooth axle 3, and second bearing 5 is located the second snap ring 15 outside, and second apron 8 is located the second bearing 7 outside, and second apron 8 utilizes bolted connection at the tip of second output port 12. The second toothed end 31 is located inside the power take-off housing 1 and has an outer diameter greater than the inner diameter of the second snap ring 15.

The two ends of the input gear shaft 4 are provided with a third toothed end 41 and an outer taper shank end 42, the third toothed end 41 is provided with a third gear, the outer taper shank end 42 is provided with a third connecting counter bore 43, and the outer taper shank end 42 is connected with a spindle of a machine tool through the third connecting counter bore 43. The third toothed end 41 is located on the inner side of the third snap ring 16, the third bearing 9 is sleeved on the input gear shaft 4, and the third bearing 9 is located on the outer side of the third snap ring 16. The third toothed end 41 is located inside the power take-off housing 1 and has an outer diameter greater than the inner diameter of the third snap ring 16.

The first gear is meshed with the second gear, and the second gear is meshed with the third gear. The first and second connecting counterbores 23, 33 are tapered bores, and the third connecting counterbore 43 is provided with internal threads.

The vertical and horizontal integrated milling method comprises the following steps:

step 1: when a workpiece needs to be subjected to combined machining of vertical milling and horizontal milling, an input gear shaft 4 is assembled on a machine tool, and milling cutters are assembled on a first output gear shaft 2 and a second output gear shaft 3;

the machine body connecting flange 17 is connected to the machine tool through bolts, and the outer taper shank end 42 is connected with the main shaft of the machine tool through the third connecting counter bore 43.

Step 2: the input gear shaft 4 drives the first output gear shaft 2 and the second output gear shaft 3 to rotate simultaneously, and the two milling cutters perform vertical milling or horizontal milling operation on the workpiece.

And only one cutter can be assembled on the first output gear shaft 2 or the second output gear shaft 3, so that the vertical milling and horizontal milling can be switched on single equipment, and the drilling function can be realized by assembling a drill bit on the first output gear shaft 2 or the second output gear shaft 3.

The terminology used herein is for the purpose of description and illustration, rather than of limitation. As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (8)

1. Found integral type processing equipment of crouching, its characterized in that includes: the power take-off device comprises a power take-off shell, a first output gear shaft, a second output gear shaft and an input gear shaft, wherein the first output gear shaft, the second output gear shaft and the input gear shaft are arranged in the power take-off shell, the first output gear shaft and the second output gear shaft are meshed, and the second output gear shaft and the input gear shaft are meshed.

2. The vertical and horizontal integrated processing apparatus as claimed in claim 1, wherein the power take-off housing is provided with a first output port, a second output port, and an input port, the power take-off housing is provided with a first snap ring on an inner wall located at the first output port, a second snap ring on an inner wall located at the second output port, and a third snap ring on an inner wall located at the input port; a first output gear shaft is provided with a first toothed end and a first inner taper handle end at two ends, the first toothed end is positioned on the inner side of a first clamping ring, a first bearing is sleeved on the first output gear shaft and positioned on the outer side of the first clamping ring, and a first cover plate is connected to the end part of a first output port by using a bolt; a second output toothed shaft is provided with a second toothed end and a second inner taper shank end at two ends, the second toothed end is positioned at the inner side of a second clamping ring, a second bearing is sleeved on the second output toothed shaft and positioned at the outer side of the second clamping ring, and a second cover plate is connected to the end part of a second output port by using a bolt; the input gear shaft both ends are provided with third area tooth end and outer taper shank end, and the third area tooth end is located the third snap ring inboard, and the third bearing suit is on the input gear shaft, and the third bearing is located the third snap ring outside.

3. A vertical-horizontal integrated processing apparatus as set forth in claim 2, wherein the outer diameter of the first toothed end is larger than the inner diameter of the first snap ring, the outer diameter of the second toothed end is larger than the inner diameter of the second snap ring, and the outer diameter of the third toothed end is larger than the inner diameter of the third snap ring.

4. The vertical and horizontal integrated processing apparatus as claimed in claim 2, wherein the first toothed end is provided with a first gear, and the first inner tapered shank end is provided with a first connecting counterbore; the second toothed end is provided with a second gear, the second inner taper shank end is provided with a second connecting counter bore, and the first connecting counter bore and the second connecting counter bore are used for connecting a cutter; the third toothed end is provided with a third gear, the outer taper shank end is provided with a third connecting counter bore, and the third connecting counter bore is used for being connected with a main shaft of a machine tool.

5. A vertical-horizontal integrated processing apparatus as set forth in claim 4, wherein the first gear is meshed with the second gear, and the second gear is meshed with the third gear.

6. The vertical-horizontal integrated processing device as claimed in claim 4, wherein the first connecting counter bore, the second connecting counter bore are tapered holes, and the third connecting counter bore is provided with internal threads.

7. A vertical-horizontal integrated processing apparatus as set forth in claim 2, wherein the center lines of the first output port and the input port are located on the same axis, and the center line of the second output port is perpendicular to the center lines of the first output port and the input port.

8. A vertical-horizontal integrated processing apparatus according to claim 2, wherein the input port is provided with an organism attachment flange.

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