CN201906860U - Multi-shaft device capable of processing synchronously - Google Patents

Abstract

The utility model provides a multi-shaft device capable of processing synchronously, which is fixed on a drilling machine main shaft and comprises a drive shaft and at least one driven shaft arranged on the side edge of the drive shaft sequentially, wherein an intermediate shaft is arranged between the drive shaft and each driven shaft as well as between any two adjacent driven shafts; the drive shaft and the driven shafts are working shafts, and the intermediate shafts are transmission shafts; gears are arranged on the drive shaft, the intermediate shafts and the driven shafts; any two adjacent gears are meshed with each other; and the drive shaft is connected with the drilling machine main shaft. The multi-shaft device drives the drive shaft to rotate through the drilling machine main shaft, and transmits torque to each driven shaft synchronously; in addition, cutter gripping heads are arranged at the end parts of the drive shaft and the driven shafts so as to be matched with a combined cutting tool or a screw die for processing, and the drive shaft and the driven shafts can be led to process synchronously, so that the processing efficiency is improved; and the structure is simple.

Description

But a kind of multi-shaft device of synchronous processing

[technical field]

The utility model relates to a kind of device that is used for machining, particularly a kind of multiaxis device of synchronous processing.

[background technology]

Traditional electric drill all is to be provided with detachable, as a to change drill bit, can only process a hole at every turn, in the enterprise of some manufacturing machine equipment or spare and accessory parts, often need process the hole of a plurality of common-use sizes on an accessory, need process one by one, not only production efficiency is low, and need multiple clamping, machining accuracy is difficult to guarantee that operation is inconvenient, can't satisfy the needs of batch machining.

The day for announcing is 2008.10.1 day, and notification number is the patent " porous drilling transmission mechanism " of CN201124251Y, between its driving shaft and the driven shaft be to form by cam pin and crank throw dish to be dynamically connected, and complex structure, cost is higher.

The day for announcing is 2010.09.08 day, and notification number is the patent " a kind of porous boring device " of CN201572938U, and directly by the gear driven driven shaft, the rotation direction of driving shaft is opposite with driven shaft for its driving shaft, can't utilize driving shaft to carry out drilling processing.

[utility model content]

The technical problems to be solved in the utility model, but be to provide a kind of multi-shaft device of synchronous processing, and it can make driving shaft and driven shaft process synchronously, has improved working (machining) efficiency, and simple in structure.

But the utility model is achieved in that a kind of multi-shaft device of synchronous processing, described multi-shaft device is fixed on the drill press spindle, it comprises a driving shaft, at least one driven shaft that is arranged at this driving shaft side in regular turn, be provided with a jackshaft between described driving shaft and the driven shaft and between the two adjacent driven shafts, described driving shaft and driven shaft are that working shaft, described jackshaft are power transmission shaft, described driving shaft, jackshaft and driven shaft are equipped with gear, described two adjacent teeth wheel is meshing with each other, and described driving shaft is connected to described drill press spindle.

Further, the gear on the described driving shaft is provided with flange, and described driving shaft is connected with draw-in groove on defaulting in described drill press spindle by this flange.

Further, described multi-shaft device is set on the described drill press spindle by clamp ring, does not rotate with drill press spindle.

Further, the other end that is positioned at gear on the described driving shaft is provided with cutter chuck.

Further, the other end that is positioned at gear on each described driven shaft is provided with cutter chuck.

Further, all adopt the key kind of drive to be connected cutter chuck on described driving shaft and each driven shaft.

Further, described driving shaft and each driven shaft are in-line distribution setting.

Advantage of the present utility model is:

The utility model drives driving shaft by drilling machine and rotates, and torque is delivered on the every driven shaft synchronously by pitch wheel, the end of described driving shaft and driven shaft is provided with cutter chuck, process to cooperate gang tool or screw die, a clamping just can bore simultaneously to mill and process a plurality of axis holes, driving shaft is all identical with rotating speed with the driven shaft rotation direction, can utilize driving shaft and driven shaft to carry out synchronous processing simultaneously, machining accuracy height not only, and production efficiency height, easy to operate, be fit to batch machining.

[description of drawings]

In conjunction with the embodiments the utility model is further described with reference to the accompanying drawings.

Fig. 1 is a driving shaft, the jackshaft of the utility model embodiment, the cross-sectional schematic of a driven shaft.

Fig. 2 is among the utility model one embodiment, the distribution schematic diagram of driving shaft, jackshaft, driven shaft.

[specific embodiment]

See also Fig. 1, shown in Figure 2, embodiment of the present utility model is described in detail.

As Fig. 1, Fig. 2, the multi-shaft device of present embodiment is fixed on the drill press spindle, the multi-shaft device of present embodiment is to be set on the described drill press spindle by clamp ring 1, does not rotate with drill press spindle.This multi-shaft device comprises a driving shaft 2, at least one driven shaft 3 that is arranged at these driving shaft 2 sides in regular turn, be provided with a jackshaft 4 between described driving shaft 2 and the driven shaft 3 and between the two adjacent driven shafts 3, described driving shaft 2 and driven shaft 3 are that working shaft, described jackshaft 4 are power transmission shaft.Described driving shaft 2, jackshaft 4 and driven shaft 3 are equipped with gear, described two adjacent teeth wheel is meshing with each other, gear on the driving shaft 2 is called master gear 21, the gear on the driven shaft 3 is called driven gear 31, the gear on the jackshaft 4 is called idler gear 41.Described driving shaft 2, jackshaft 4, driven shaft 3 are arranged at casing 5 inside, and seal with end cap 6 at a end near drill press spindle.In conjunction with shown in Figure 2, this multi-shaft device comprises a driving shaft 2, two jackshafts 4, two driven shafts 3.The driving shaft 2 of this multi-shaft device is provided with master gear 21; Be equipped with idler gear 41 on two jackshafts 4; Be equipped with driven gear 31 on two driven shafts 3, described two adjacent teeth wheel is meshing with each other.As figure, described two jackshafts 4 lay respectively at the both sides up and down of driving shaft 2, and the jackshaft 4 of upper end drives a driven shaft 3, and the jackshaft 4 of lower end drives another driven shaft 3, and described driving shaft 2 and two driven shafts 3 are positioned at point-blank, are in-line and arrange.Described master gear 21 can drive described driving shaft 2 and rotate; Described idler gear 41 can drive described jackshaft 4 and rotate; Described driven gear 31 can drive described driven shaft 3 and rotate.Described master gear 21 and idler gear 41 engagements, then idler gear 41 again with to driven gear 31 engagements that should idler gear 41, like this, the motion of driving shaft 2 and torque just can be delivered on the driven shaft 3 by jackshaft 4.And, can also drive other driven shaft 3 rotations again by jackshaft 4 by the driven shaft 3 of driving shaft 2 drives.The end of described master gear 21 is provided with flange 22, described driving shaft 2 links to each other with the main shaft of drilling machine by the flange 22 on described master gear 21 ends, thereby drill press spindle drives master gear 21 and rotates, and rotates thereby drive main shaft 2, and will move and torque is delivered to driven shaft 3 by jackshaft 4.The other end that is positioned at master gear 21 on the described driving shaft 2 is provided with cutter chuck 7, and the other end that is positioned at driven gear 31 on each described driven shaft 3 is provided with cutter chuck 7.All be to adopt key 8 ways of connecting to be connected cutter chuck 7 on described driving shaft 2 and each driven shaft 3, utilize described cutter chuck 7 cooperation gang tools or screw die to process, a clamping just can bore simultaneously to mill and process a plurality of stud shafts hole.Described driving shaft 2 and each driven shaft 3 are the in-line distribution and are provided with as shown in Figure 2.

The above, it only is the utility model preferred embodiment, so can not limit the scope that the utility model is implemented according to this, i.e. the equivalence of doing according to the utility model claim and description changes and modifies, and all should still belong in the scope that the utility model contains.

Claims (7)

1. but the multi-shaft device of a synchronous processing, described multi-shaft device is fixed on the drill press spindle, it is characterized in that: it comprises a driving shaft, at least one driven shaft that is arranged at this driving shaft side in regular turn, be provided with a jackshaft between described driving shaft and the driven shaft and between the two adjacent driven shafts, described driving shaft and driven shaft are that working shaft, described jackshaft are power transmission shaft, described driving shaft, jackshaft and driven shaft are equipped with gear, described two adjacent teeth wheel is meshing with each other, and described driving shaft is connected to described drill press spindle.

But 2. the multi-shaft device of a kind of synchronous processing according to claim 1, it is characterized in that: the gear on the described driving shaft is provided with flange, and described driving shaft is connected with draw-in groove on defaulting in described drill press spindle by this flange.

3. but the multi-shaft device of a kind of synchronous processing according to claim 1, it is characterized in that: described multi-shaft device is set on the described drill press spindle by clamp ring, does not rotate with drill press spindle.

4. but the multi-shaft device of a kind of synchronous processing according to claim 1, it is characterized in that: the other end that is positioned at gear on the described driving shaft is provided with cutter chuck.

5. but the multi-shaft device of a kind of synchronous processing according to claim 1, it is characterized in that: the other end that is positioned at gear on each described driven shaft is provided with cutter chuck.

6. but according to the multi-shaft device of claim 4 or 5 described a kind of synchronous processings, it is characterized in that: all adopt the key kind of drive to be connected cutter chuck on described driving shaft and each driven shaft.

7. but the multi-shaft device of a kind of synchronous processing according to claim 1 is characterized in that: described driving shaft and each driven shaft are in-line and distribute and be provided with.

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