CN203484693U - Spindle of oblique machining tool - Google Patents

Abstract

The utility model provides a spindle of an oblique machining tool. The spindle is characterized in that one end of a transmission shaft is connected with a chain of a chain transmission device and then driven by a cutting motor, the other end of the transmission shaft stretches out of a body and is fixedly connected to a cutting head, a first bearing component and a second bearing component are arranged on the two sides of the middle of the transmission shaft respectively, an elastic abutting and pushing part is arranged between the first bearing component and the second bearing component, the spindle is further provided with a cooling system, and the cooling system comprises a cooling liquid input channel and a cooling liquid output channel. An operator can conveniently observe through the oblique design and then can conveniently and accurately control the machining process and a machined object in real time, the balance performance and the cooling effect of the spindle are good, and the spindle is high in strength, not prone to deformation, and longer in service life.

Description

The main shaft of oblique machining tool

Technical field

The utility model relates to a kind of main shaft of oblique machining tool.

Background technology

Add man-hour carrying out drilling, during due to boring, need to observe timely, conventionally when preparatory processing, operating personnel need to fix tentatively drill bit and observe when processing certain depth, and in order better to observe, operating personnel eyes need to be placed on boring directly over, just can observe accurately, and because existing lathe is generally straight placement, the angle that easily causes observing be difficult to accurately vertical whole boring directly over.

And during oblique setting, the requirement of main shaft is better, has proposed more stable needs, and High Rotation Speed during spindle processing, high temperature deformation easily produced.

For this reason, designer of the present utility model is because above-mentioned defect, by concentrating on studies and designing, is comprehensively engaged in for a long time experience and the achievement of related industry for many years, and research and design goes out a kind of main shaft of oblique machining tool, to overcome above-mentioned defect.

Utility model content

The technical problems to be solved in the utility model is: existing adding is generally vertical plane man-hour and processes, and be not easy to observe, and the main shaft of oblique High Rotation Speed is easily out of shape, and processes unstable.

For addressing the above problem, the utility model discloses a kind of main shaft of oblique machining tool, described oblique machining tool comprises matrix, one machine table is arranged at the upper surface of described matrix, and a side of described machine table is inclined-plane, and a cutting table is arranged on described inclined-plane, the upper end of described cutting table is provided with rotary table, described rotary table is provided with cutting mechanism, and described cutting mechanism comprises described main shaft, it is characterized in that:

This main shaft comprises body and is positioned at intrinsic power transmission shaft, one end of described power transmission shaft is connected to be driven by a cutting blade motor with the chain of chain device, the other end of described power transmission shaft stretches out described body and is fixed in a cutting head, the both sides at described power transmission shaft middle part are respectively equipped with clutch shaft bearing assembly and the second bearing assembly, be provided with elasticity and push part between described clutch shaft bearing assembly and the second bearing assembly;

Described main shaft is also provided with cooling system, described cooling system comprises cooling fluid input channel and cooling fluid output channel, one end of described cooling fluid input channel is arranged at described clutch shaft bearing assembly outside, the other end is communicated to coolant bottle by hydraulic pump, cleaner, one end of described cooling fluid output channel is arranged at the outside of described the second bearing assembly, and the other end is communicated to coolant bottle by filter.

Wherein: the upper surface of described matrix is provided with two slide rails, the bottom surface of described machine table has the chute corresponding with described slide rail, in described matrix, is provided with drive motors, and described drive motors slides by machine table described in actuator drives.

Wherein: on described inclined-plane, have at least two tracks, the bottom surface of described cutting table has the groove corresponding with described track, in described machine table, be provided with the drive unit that drives described cutting table to move.

Wherein: described cutting table inside is provided with and drives the rotating servomotor of described rotary table.

Wherein: on described rotary table, be also provided with image detection device.

Wherein: a side of described matrix is provided with the oblique clamping device that workpiece is carried out to oblique clamping.

By said structure, the utility model has been realized following technique effect:

1, the processing mode of oblique design can be observed operating personnel easily, is convenient to real-time process and object are controlled accurately;

2, the workbench of oblique design is convenient to falling of smear metal, has avoided the smear metal processing plane that falls back;

3, principal axis balance performance is good, and intensity is high, not yielding, longer service life;

4, good cooling results, avoids high temperature deformation.

Detailed content of the present utility model can obtain by explanation described later and institute's accompanying drawing.

Accompanying drawing explanation

Fig. 1 has shown the structural representation that adopts oblique machining tool of the present utility model.

Fig. 2 has shown the structural representation of the main shaft of the oblique machining tool of the utility model.

The specific embodiment

Referring to Fig. 1, oblique machining tool comprises matrix 11, and the rear side of described matrix 11 is provided with control cabinet 12, has electrical system and hydraulic system in control cabinet 12.

One machine table 13 is arranged at the upper surface of described matrix 11, the upper surface of described matrix 11 is provided with two slide rails 14, the bottom surface of described machine table 13 has the chute corresponding with described slide rail, thereby machine table 13 can be in the upper surface slide of matrix 11, in order to drive the slip of described machine table 13, in described matrix 11, be provided with drive motors 15, described drive motors 15 is by the slip of machine table 13 described in actuator drives.

One side of described matrix 11 is provided with oblique clamping device, so that workpiece is carried out to oblique clamping.

Optionally, described transmission device comprises the shaft-driven travelling gear of output by drive motors 15, and the tooth bar of machine table 13 bottoms, and described tooth bar is engaged in described travelling gear, thus, drive motors 15 can drive machine table 13 to carry out quick sliding at matrix 11 upper surfaces.

Wherein, one side of described machine table 13 is inclined-plane, one cutting table 17 is arranged on described inclined-plane, on described inclined-plane, there are at least two tracks 16, the bottom surface of described cutting table 17 has the groove corresponding with described track 16, thereby cutting table 17 can move on inclined-plane, in order to drive described cutting table 17 to move, in described machine table 13, be provided with drive unit, described drive unit drives the movement of described cutting table 17.

The upper end of described cutting table 17 is provided with rotary table 18, and described rotary table 18 can turn round operation on cutting table 17, and described cutting table 17 inside are provided with and drive the rotating servomotor of described rotary table 18.

Described rotary table 18 is provided with cutting mechanism, described cutting mechanism comprises cutting blade motor 19, chain device 20, main shaft 21 and cutting head 22, the output shaft of described cutting blade motor 19 is connected to the input of described chain device 20, the output of described chain device 20 is connected with main shaft 21, described cutting head 22 is arranged at the end of described main shaft 21, thereby by cutting blade motor 19, drive cutting head 22, so that workpiece is processed.

Optionally, on described rotary table 18, be also provided with image detection device 23, so that the real-time imaging of processing to be provided.

Referring to Fig. 2, shown the main shaft 20 of oblique machining tool of the present utility model.

This main shaft 21 comprises body and is positioned at intrinsic power transmission shaft 211, one end of described power transmission shaft 211 is connected to be cut motor 19 with the chain of chain device 20 and drives, the other end of described power transmission shaft 211 stretches out described body and is fixed in described cutting head 22, the both sides at described power transmission shaft 211 middle parts are respectively equipped with clutch shaft bearing assembly 212 and the second bearing assembly 213, between described clutch shaft bearing assembly 212 and the second bearing assembly 213, be provided with elasticity and push part 214, thus, stable bearings can be provided in the both sides of power transmission shaft 211, distortion while having avoided High Rotation Speed.

In order to realize the cooling of High Rotation Speed, described main shaft 20 is also provided with cooling system, described cooling system comprises cooling fluid input channel 215 and cooling fluid output channel 216, one end of described cooling fluid input channel 215 is arranged at described clutch shaft bearing assembly 212 outsides, the other end is by hydraulic pump 217, cleaner 218 is communicated to coolant bottle 220, one end of described cooling fluid output channel 216 is arranged at the outside of described the second bearing assembly 213, the other end is communicated to coolant bottle by filter 219, thus, cooling system has been realized and having been circulated on main shaft, can carry out the main shaft of High Rotation Speed cooling timely, avoided high temperature deformation.

Known by said structure, the utility model has the advantage of:

1, the processing mode of oblique design can be observed operating personnel easily, is convenient to real-time process and object are controlled accurately;

2, the workbench of oblique design is convenient to falling of smear metal, has avoided the smear metal processing plane that falls back;

3, principal axis balance performance is good, and intensity is high, not yielding, longer service life;

4, good cooling results, avoids high temperature deformation.

It is evident that above description and to record be only for example rather than in order to limit disclosure of the present utility model, application or use.Although described in an embodiment and be described in the drawings embodiment, but the optimal mode that the utility model does not limit by accompanying drawing example and the conduct of describing is in an embodiment thought to be at present to implement the specific examples of instruction of the present utility model, scope of the present utility model will comprise any embodiment of the description that falls into above and appended claim.

Claims (6)

1. the main shaft of an oblique machining tool, described oblique machining tool comprises matrix, one machine table is arranged at the upper surface of described matrix, one side of described machine table is inclined-plane, one cutting table is arranged on described inclined-plane, and the upper end of described cutting table is provided with rotary table, and described rotary table is provided with cutting mechanism, described cutting mechanism comprises described main shaft, it is characterized in that:

This main shaft comprises body and is positioned at intrinsic power transmission shaft, one end of described power transmission shaft is connected to be driven by a cutting blade motor with the chain of chain device, the other end of described power transmission shaft stretches out described body and is fixed in a cutting head, the both sides at described power transmission shaft middle part are respectively equipped with clutch shaft bearing assembly and the second bearing assembly, be provided with elasticity and push part between described clutch shaft bearing assembly and the second bearing assembly;

Described main shaft is also provided with cooling system, described cooling system comprises cooling fluid input channel and cooling fluid output channel, one end of described cooling fluid input channel is arranged at described clutch shaft bearing assembly outside, the other end is communicated to coolant bottle by hydraulic pump, cleaner, one end of described cooling fluid output channel is arranged at the outside of described the second bearing assembly, and the other end is communicated to coolant bottle by filter.

2. main shaft as claimed in claim 1, it is characterized in that: the upper surface of described matrix is provided with two slide rails, the bottom surface of described machine table has the chute corresponding with described slide rail, in described matrix, is provided with drive motors, and described drive motors slides by machine table described in actuator drives.

3. main shaft as claimed in claim 1, is characterized in that: on described inclined-plane, have at least two tracks, the bottom surface of described cutting table has the groove corresponding with described track, is provided with the drive unit that drives described cutting table to move in described machine table.

4. main shaft as claimed in claim 1, is characterized in that: described cutting table inside is provided with and drives the rotating servomotor of described rotary table.

5. main shaft as claimed in claim 1, is characterized in that: on described rotary table, be also provided with image detection device.

6. main shaft as claimed in claim 1, is characterized in that: a side of described matrix is provided with the oblique clamping device that workpiece is carried out to oblique clamping.

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