CN205342721U - System of processing towards cylindricality or bulb - Google Patents

Abstract

The utility model discloses a system of processing towards cylindricality or bulb, system of processing includes the brace table, locates the brace table is in order to be used for the centre gripping the work holder of cylindricality or bulb, and machining tool supporting mechanism, wherein work holder for the brace table can move, follow the removal of second axis, reach along the first axle with being operated and rotate for the third axis, first axle, second axis and third axis mutually perpendicular, the machining tool supporting mechanism includes the base, for 360 degrees support arm devices that rotate the setting of base, locates the machining tool of support arm device. The utility model provides a system of processing operation is very convenient, and work efficiency is higher, and the machining precision is higher.

Description

System of processing towards cylindricality or bulb

Technical field

This utility model relates to a kind of field of machining, particularly relates to a kind of system of processing towards cylindricality or bulb.

Background technology

In recent years, the problem of expanding with heat and contract with cold when compensator is widely used in the industries such as metallurgy, oil, chemical industry, electric power, light industry, weaving, building and national defense construction to solve pipeline work.And ball joint compensator is relative to the compensator of other shapes, due to the feature in its structure so that it is big that it has compensation ability, fluid resistance and distortional stress is little, without blind flange force, and the active force of hold-down support is little.

But, current processing method adopts traditional manual processing method mostly.And traditional manual processing method, not only work efficiency is extremely low, cost intensive, and the compensator precision processed is not high yet, it is impossible to meet nowadays industrial to its high-volume, high-precision requirement.

Summary of the invention

The technical problems to be solved in the utility model has been to provide a kind of system of processing towards cylindricality or bulb, and this system of processing work efficiency is higher, easy to operate, machining accuracy is higher.

This utility model is the technical scheme that the above-mentioned technical problem of solution adopts:

A kind of system of processing towards cylindricality or bulb, described system of processing includes supporting platform, it is located at described support platform for the work holder clamping described cylindricality or bulb, and machining tool supporting mechanism, wherein said work holder can operatively be moved along first axle relative to described support platform, move along the second axis, and rotate relative to the 3rd axis, described first axle, second axis and the 3rd axis are mutually perpendicular to, described machining tool supporting mechanism includes base, the support arm device arranged is rotated relative to base 360 degree, it is located at the machining tool of described support arm device.

The beneficial effects of the utility model are, work holder can Three Degree Of Freedom movable, and the support arm being provided with machining tool can 360 rotate, thus cylindricality or bulb can be processed, need not process by hand so that operation is easily, work efficiency is higher, and machining accuracy is higher.

Preferably, the first driving device and the second driving device it is provided with between described support platform and described work holder, described first driving device drives described work holder to move along first axle, and described second driving device drives described work holder to move along the second axis.

Preferably, described first driving device includes the first motor, is connected to the first shaft coupling of described first motor, is connected to the first leading screw of described shaft coupling, the first slide block being connected with described first leading screw, described first slide block is connected with described work holder.

Preferably, described second driving device includes the second motor, is connected to the second shaft coupling of described second motor, is connected to the second leading screw of described second shaft coupling, the second slide block being connected with described second leading screw, described second slide block is arranged at described support platform, and described first slide block is arranged at described second slide block.

Preferably, described first motor and the second motor are disposed as servomotor.

Preferably, the first linking arm that described support arm device includes being connected with described base rotation, connecting rod, the second linking arm, described first linking arm has the first end and the second end, described first end is connected with described connecting rod by connector, described second end is connected with described second linking arm by sleeve, and described connecting rod is also connected to described sleeve, described machining tool is located at the end of described second linking arm.

Preferably, described machining tool is removably disposed.

Preferably, described first axle and the 3rd axis co-planar.

Preferably, described work holder includes chuck, and described chuck has three pawls, and three pawls on described chuck can move radially to meet the part of difformity specification.

Accompanying drawing explanation

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, the accompanying drawing that the following describes is only some embodiments recorded in this utility model, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the front view towards cylindricality or the system of processing of bulb；

Fig. 2 is the schematic perspective view towards cylindricality or the system of processing of bulb；

Fig. 3 is the schematic perspective view towards cylindricality or the other direction of the system of processing of bulb.

Detailed description of the invention

In order to make those skilled in the art be more fully understood that the technical scheme in this utility model, below in conjunction with the accompanying drawing in this utility model embodiment, technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is only a part of embodiment of this utility model, rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, all should belong to the scope of this utility model protection.

As shown in Figure 1, Figure 2 and Figure 3, a kind of system of processing towards cylindricality or bulb, system of processing includes supporting platform 10, is located at the work holder 12 and machining tool supporting mechanism that support platform 10, and work holder 12 is used for clamping cylindricality or bulb 16.Wherein work holder 12 operatively can be moved along first axle 18 relative to supporting platform 10, moves along the second axis 20 and rotate relative to the 3rd axis 22, first axle the 18, second axis 20 and the 3rd axis 22 are mutually perpendicular to, machining tool supporting mechanism includes base 24, relative to base 24 can 360 degree rotate arrange support arm device 26, be located at the machining tool 28 of support arm device 26.

In this preferred embodiment, work holder 12 can Three Degree Of Freedom movable, and the support arm device 26 being provided with machining tool 28 can 360 rotate, thus cylindricality or bulb 16 can be processed, need not process by hand so that operation is easily, work efficiency is higher, and machining accuracy is higher.

Machining tool 28 according to different processing requests, can be designed to different types of instrument, such as polishing, polishing etc..

Further, support and be provided with the first driving device 30 and the second driving device 32 between platform and work holder 12, first driving device 30 drives work holder 12 to move along first axle 18, and the second driving device 32 drives work holder 12 to move along the second axis 20.So that work holder 12 drives workpiece to move to both direction, the diverse location of workpiece is processed.

Concrete, first driving device 30 includes the first motor 34, is connected to the first shaft coupling 36 of the first motor 34, is connected to the first screw mandrel 38 of the first shaft coupling 36, the first slide block 40 being connected with the first screw mandrel 38, the first slide block 40 is connected with work holder 12.First screw mandrel 38 is threadeded with the first slide block 40, when starting the first motor 34, the first screw mandrel 38 is driven to rotate by the first shaft coupling 36, thus driving the first slide block 40 being connected with the first screw mandrel 38 to move, first slide block 40 drives work holder 12 to move along first axle 18, thus carrying out the processing of workpiece diverse location.

Second driving device 32 includes the second motor 42, is connected to the second shaft coupling 44 of the second motor 42, is connected to the second leading screw 46 of the second shaft coupling 44, the second slide block 48 being connected with the second leading screw 46, second slide block 48 is arranged at support platform, and the first slide block 40 is arranged at the second slide block 48.Second leading screw 46 is threadeded with the second slide block 48, same when starting the second motor 42, the second leading screw 46 is driven to rotate by the second shaft coupling 44, thus driving the second slide block 48 being connected with the second leading screw 46 to move, second slide block 48 drives work holder 12 to move along the second axis 20, thus other position of workpiece is processed.

In this preferred embodiment, the first motor 34 and the second motor 42 are disposed as servomotor.First slide block 40 and the second slide block 48 can control the plan-position of cylindricality or bulb 16 very accurately under the effect of the first motor 34 and second 42 two servomotors of motor.Thus improving the machining accuracy of workpiece.

Work holder 12 also includes the chuck 50 for clamping workpiece, and chuck 50 is rotatably arranged in the first slide block 40.Thus according to processing request, chuck 50 can be made to rotate relative to the first slide block 40, workpiece is carried out accurately comprehensively processing.

It addition, chuck 50 has three pawls, three pawls on chuck 50 can move radially to meet the part of difformity specification.

Support arm device 26 includes the first linking arm 52, connecting rod the 54, second linking arm 56 that are rotationally connected with base 24, first linking arm 52 has the first end and the second end, first end is connected with connecting rod 54 by connector 58, second end is connected with the second linking arm 56 by sleeve 60, and connecting rod 54 is also connected to sleeve 60, machining tool 28 is located at the end of the second linking arm 56.Multivariant support arm device 26 can arbitrarily adjust position in space, thus the part of different size specification can be processed.Adopt sleeve 60 to be connected between first linking arm 52 and connecting rod 54 with the second linking arm 56, alleviate impact and vibrations that support arm device 26 operationally brings.

Furthermore, machining tool 28 is removably disposed.Make machining tool 28 process the difference of different positions and processing request as required, change different types of machining tool 28 easily so that more convenient to operate, further increase working (machining) efficiency.

In this preferred embodiment, first axle 18 and the 3rd axis 22 are coplanar.So so that this system of processing compact conformation, stable movement.Certainly, first axle 18 and the 3rd axis 22 can also be non-coplanar.

It is obvious to a person skilled in the art that this utility model is not limited to the details of above-mentioned one exemplary embodiment, and when without departing substantially from spirit of the present utility model or basic feature, it is possible to realize this utility model in other specific forms.Therefore, no matter from which point, embodiment all should be regarded as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims rather than described above, it is intended that all changes in the implication of the equivalency dropping on claim and scope included in this utility model.Any accompanying drawing labelling in claim should be considered as the claim that restriction is involved.

In addition, it is to be understood that, although this specification is been described by according to embodiment, but not each embodiment only comprises an independent technical scheme, this narrating mode of description is only for clarity sake, description should be made as a whole by those skilled in the art, and the technical scheme in each embodiment through appropriately combined, can also form other embodiments that it will be appreciated by those skilled in the art that.

Claims (9)

1. the system of processing towards cylindricality or bulb, described system of processing includes supporting platform, it is located at described support platform for the work holder clamping described cylindricality or bulb, and machining tool supporting mechanism, it is characterized in that, described work holder can operatively be moved along first axle relative to described support platform, move along the second axis, and rotate relative to the 3rd axis, described first axle, second axis and the 3rd axis are mutually perpendicular to, described machining tool supporting mechanism includes base, the support arm device arranged is rotated relative to base 360 degree, it is located at the machining tool of described support arm device.

2. system of processing according to claim 1, it is characterized in that, the first driving device and the second driving device it is provided with between described support platform and described work holder, described first driving device drives described work holder to move along first axle, and described second driving device drives described work holder to move along the second axis.

3. system of processing according to claim 2, it is characterized in that, described first driving device includes the first motor, is connected to the first shaft coupling of described first motor, is connected to the first leading screw of described shaft coupling, the first slide block being connected with described first leading screw, described first slide block is connected with described work holder.

4. system of processing according to claim 3, it is characterized in that, described second driving device includes the second motor, is connected to the second shaft coupling of described second motor, is connected to the second leading screw of described second shaft coupling, the second slide block being connected with described second leading screw, described second slide block is arranged at described support platform, and described first slide block is arranged at described second slide block.

5. system of processing according to claim 4, it is characterised in that described first motor and the second motor are disposed as servomotor.

6. system of processing according to claim 1, it is characterized in that, the first linking arm that described support arm device includes being connected with described base rotation, connecting rod, the second linking arm, described first linking arm has the first end and the second end, described first end is connected with described connecting rod by connector, described second end is connected with described second linking arm by sleeve, and described connecting rod is also connected to described sleeve, and described machining tool is located at the end of described second linking arm.

7. system of processing according to claim 6, it is characterised in that described machining tool is removably disposed.

8. system of processing according to claim 1, it is characterised in that described first axle and the 3rd axis co-planar.

9. system of processing according to claim 1, it is characterised in that described work holder includes chuck, described chuck has three pawls, and three pawls on described chuck can move radially to meet the part of difformity specification.