CN204450095U - Machining of Shaft-type Parts building-block machine - Google Patents

Abstract

The utility model relates to a kind of Machining of Shaft-type Parts building-block machine, comprise lathe bed and multiple machine adds unit, machine adds unit and comprises processing unit (plant) and clamp system, clamp system comprises the workpiece spindle box and tailstock that are oppositely arranged, the central shaft of workpiece spindle box and tailstock forms the main shaft of clamp system to line, multiple clamp system is arranged side by side on lathe bed and the opposing parallel setting of main shaft.The utility model utilizes each machine to add unit successively and completes axial workpiece each road manufacturing procedure, turnaround time between every procedure, production efficiency is high, and uses a lathe can complete the processing of axial workpiece, therefore equipment investment is few, floor space is little, and reduces artificial input cost.And in process, the utility model each machine can also be utilized to add different manufacturing procedures that unit performs multiple axial workpiece, are therefore applicable to large batch of production, further increase production efficiency simultaneously.

Description

Machining of Shaft-type Parts building-block machine

Technical field

The utility model relates to field of mechanical technique, particularly relates to a kind of Machining of Shaft-type Parts building-block machine.

Background technology

At present, for Machining of Shaft-type Parts, generally need through operations such as car, boring, milling, boring, tappings, therefore from blank to finished product, generally need the independent equipment of multiple stage to process part, and each equipment all needs configuration more than one operating personnel, therefore cause that number of devices is many, occupied ground area is large, cost of labor is high, not only increase logistics, control and managerial difficulty, and turnaround time between every procedure is long, production efficiency is low.

Utility model content

The purpose of this utility model is to provide a kind of Machining of Shaft-type Parts building-block machine, can reach the object that the turnaround time is short, floor space is little and cost of labor is low.

For realizing the purpose of this utility model, the technical scheme taked is:

A kind of Machining of Shaft-type Parts building-block machine, comprise lathe bed and multiple machine adds unit, machine adds unit and comprises material catching apparatus, processing unit (plant) and clamp system, clamp system comprises the workpiece spindle box and tailstock that are oppositely arranged, the central shaft of workpiece spindle box and tailstock forms the main shaft of clamp system to line, multiple clamp system is arranged side by side on lathe bed and the opposing parallel setting of main shaft.

A lathe is provided with multiple machine and adds unit, and the clamp system that multiple machine adds unit is arranged side by side on lathe bed.Before processing, the orientation adding unit along machine determines that machine corresponding to each road manufacturing procedure adds unit successively; The machine added-time, utilize each machine to add unit successively and complete axial workpiece each road manufacturing procedure, therefore the turnaround time between every procedure is substantially reduced, production efficiency is high, and use a lathe can complete the processing of axial workpiece, therefore equipment investment is few, floor space is little, not only reduces the input cost of factory building, also reduces artificial input cost.And in process, the utility model each machine can also be utilized to add different manufacturing procedures that unit performs multiple axial workpiece, are therefore applicable to large batch of production, further increase production efficiency simultaneously.

Below technical scheme is further illustrated:

Further, Machining of Shaft-type Parts building-block machine also comprises the crossbeam be located on lathe bed, and crossbeam is provided with the first guide rail be slidably connected with material catching apparatus, and the first guide rail is arranged along the orientation of multiple clamp system.For the production in enormous quantities of axial workpiece, the machine added-time, the material catching apparatus of adjacent feeding area by first standby axial workpiece clamping that adds on corresponding clamp system, start-up routine, lathe performs the first manufacturing procedure to first axial workpiece; After machine has added, lathe withdrawing, material catching apparatus corresponding to second manufacturing procedure moves to the clamping position of first axial workpiece along the first guide rail, the material catching apparatus that first manufacturing procedure is corresponding simultaneously moves to the placement location of second axial workpiece to be processed along the first guide rail; Then first axial workpiece moves on corresponding clamp system by the material catching apparatus of second manufacturing procedure, and second axial workpiece to be processed moves on corresponding clamp system by the material catching apparatus of first manufacturing procedure simultaneously; Lathe performs the second manufacturing procedure of first axial workpiece, performs the first manufacturing procedure to second axial workpiece simultaneously, after machine adds and all completes, then is transmitted by workpiece, finally completes the batch production of axial workpiece.A material catching apparatus being set by adding at each machine on unit, utility model can being shifted the workpiece that each machine adds on unit simultaneously, further shorten the turnaround time, production efficiency is provided.

Further, Machining of Shaft-type Parts building-block machine also comprises multiple the first slide block be connected with the first slide, and the first slide block is provided with vertically arranged second guide rail with the first guide rail, and the second guide rail and material catching apparatus are slidably connected.Realize being slidably connected of material catching apparatus and the first guide rail by the first slide block, and by the second guide rail on the first slide block, realize moving up and down of material catching apparatus.In actual production process, according to the needs of processing technology, as needed on axial workpiece machine vertically to add inclined-plane or coordinate the machine of cutter to add other needs such as angle, can there is angle with the second guide rail in the first guide rail.

Further, the first slide block is provided with the second slide block be connected with the second slide, and processing unit (plant) and material catching apparatus are all arranged on the second slide block.The processing unit (plant) of lathe and material catching apparatus are arranged on same slide block, realize the interlock of processing unit (plant) and material catching apparatus, increase work efficiency.

Further, Machining of Shaft-type Parts building-block machine also comprises slide, and slide is connected with the first slide, and multiple first slide block is all fixedly connected with slide.Each machine can be controlled by slide simultaneously and add the processing unit (plant) of unit and the movement of material catching apparatus, make the control program of lathe more effectively simple, enhance productivity further.

Further, at least wherein the spacing of two adjacent material catching apparatus is a, and at least wherein the spacing of two adjacent main shafts is b, and a=b.Ensure that slide controls each machine when adding processing unit (plant) and the material catching apparatus movement of unit at the same time, also can the workpiece that at least wherein two adjacent machines add on unit synchronously be shifted.

Further, Machining of Shaft-type Parts building-block machine also comprises multiple with clamp system the 3rd guide rail one to one, and the 3rd guide rail is arranged along major axes orientation, and workpiece spindle box and tailstock are connected with the 3rd slide respectively.By the 3rd guide rail, make clamp system realization in the movement of major axes orientation, cutter adds in process to workpiece machine, and clamp system can along the 3rd slide, and increase the working (finishing) area of workpiece, the performance making same machine add unit increases, and enhances productivity further.

Further, the 3rd guide rail comprises the first slide rail be slidably connected with workpiece spindle box and the second slide rail be slidably connected with tailstock.Workpiece spindle box and tailstock realize in the movement along major axes orientation respectively by the first slide rail and the second slide rail, and be divided into two parts due to the 3rd guide rail, clamping workpiece position does not arrange guide rail, be more conducive to workpiece adds iron filings in process discharge at machine, also prevent iron filings from dropping in guide rail, cause workpiece spindle box and tailstock to move, reduce mechanical breakdown.

Further, the kinematic link that Machining of Shaft-type Parts building-block machine also comprises drive unit and connects with drive unit, kinematic link is connected with workpiece spindle box and tailstock.Workpiece spindle box and tailstock realize interlock by kinematic link, make workpiece spindle box and tailstock synchronizing moving, make part add in process more stable at machine, improve the quality of product.

Compared with prior art, the utility model has following beneficial effect:

The utility model utilizes each machine to add unit successively and completes axial workpiece each road manufacturing procedure, substantially reduce the turnaround time between every procedure, production efficiency is high, and use a lathe can complete the processing of axial workpiece, therefore equipment investment is few, floor space is little, not only reduce the input cost of factory building, also reduce artificial input cost.And in process, the utility model each machine can also be utilized to add different manufacturing procedures that unit performs multiple axial workpiece, are therefore applicable to large batch of production, further increase production efficiency simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment Machining of Shaft-type Parts building-block machine;

Fig. 2 is the A direction view of Fig. 1.

Description of reference numerals:

10. lathe bed, 110. the 3rd guide rails, 111. first slide rails, 112. second slide rails, 20. crossbeams, 210. first guide rails, 30. processing unit (plant)s, 40. material catching apparatus, 50. first slide blocks, 510. second guide rails, 60. second slide blocks, 710. workpiece spindle box, 720. tailstocks, 80. kinematic links.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail:

As depicted in figs. 1 and 2, a kind of Machining of Shaft-type Parts building-block machine, comprise lathe bed 10, and multiple machine adds unit, and be provided with X-axis, Y-axis and Z-direction, wherein Y-axis and Z axis are positioned on horizontal plane, and Y-axis and Z axis are mutually vertical, X-axis is perpendicular to the horizontal plane at Y-axis and Z axis place, machine adds unit and comprises processing unit (plant) 30, material catching apparatus 40 and clamp system, clamp system comprises the workpiece spindle box 710 and tailstock 720 that are oppositely arranged, the central shaft of workpiece spindle box 710 and tailstock 720 forms the main shaft of described clamp system to line, multiple clamp system is arranged side by side on lathe bed 10 along Y direction and main shaft is arranged along Z-direction, and it is opposing parallel, .

In the present embodiment, Machining of Shaft-type Parts building-block machine is provided with three machines and adds unit, and Machining of Shaft-type Parts building-block machine can also arrange two or more machine according to actual needs and add unit.Processing unit (plant) 30 both can be set to the processing module with Spindle control, also directly can be set to unit head.

As shown in Figure 1, Machining of Shaft-type Parts building-block machine also comprises is located at crossbeam 20 on lathe bed 10 and the first slide block 50, crossbeam 20 is provided with the first guide rail 210 be slidably connected with the first slide block 50, first guide rail 210 is arranged along Y direction, and material catching apparatus 40 realizes the movement of Y direction by the first slide block 50 and the first guide rail 210.For the production in enormous quantities of axial workpiece, the machine added-time, the material catching apparatus 40 of adjacent feeding area by first standby axial workpiece clamping that adds on corresponding clamp system, start-up routine, lathe performs the first manufacturing procedure to first axial workpiece; After machine has added, lathe withdrawing, material catching apparatus 40 corresponding to second manufacturing procedure moves to the clamping position of first axial workpiece along the first guide rail 210, the material catching apparatus 40 that first manufacturing procedure is corresponding simultaneously moves to the placement location of second axial workpiece to be processed along the first guide rail 210; Then first axial workpiece moves on corresponding clamp system by the material catching apparatus 40 of second manufacturing procedure, and second axial workpiece to be processed moves on corresponding clamp system by the material catching apparatus 40 of first manufacturing procedure simultaneously; Lathe performs the second manufacturing procedure of first axial workpiece, performs the first manufacturing procedure to second axial workpiece simultaneously, after machine adds and all completes, then is transmitted by workpiece, finally completes the batch production of axial workpiece.A material catching apparatus 40 being set by adding at each machine on unit, utility model can being shifted the workpiece that each machine adds on unit simultaneously, further shorten the turnaround time, production efficiency is provided.

As shown in Figure 1, the second guide rail 510, second guide rail 510 that the first slide block 50 is provided with along X-direction layout is slidably connected with material catching apparatus 40.Realize being slidably connected of material catching apparatus and the first guide rail by the first slide block, and by the second guide rail on the first slide block, realize moving up and down of material catching apparatus.In actual production process, according to the needs of processing technology, as needed on axial workpiece machine vertically to add inclined-plane or coordinate the machine of cutter to add other needs such as angle, can there is angle with the second guide rail 520 in the first guide rail 510.

As shown in Figure 1, Machining of Shaft-type Parts building-block machine also comprises slide (accompanying drawing does not identify), slide and the first guide rail 210 are slidably connected, multiple first slide block 50 is all fixedly connected with slide, and in the present embodiment, the spacing of two adjacent material catching apparatus 40 is identical with the spacing of adjacent two main shafts.Each machine can be controlled by slide simultaneously and add the processing unit (plant) 30 of unit and the movement of material catching apparatus 40, make the control program of lathe more effectively simple, enhance productivity further, and ensure that slide controls each machine when adding processing unit (plant) 30 and material catching apparatus 40 movement of unit at the same time, can also the workpiece that each machine of position any on lathe bed adds on unit synchronously be shifted.

In other embodiments, Machining of Shaft-type Parts building-block machine can also ensure that the spacing of at least wherein two adjacent material catching apparatus is a according to actual needs, at least wherein the spacing of two adjacent main shafts is b, and a=b, ensure that the machine of two adjacent groups adds the synchronous transmission that unit can realize workpiece.

Each first slide block 50 can also be connected with the first guide rail 210 separately by Machining of Shaft-type Parts building-block machine according to actual needs, and the motion track of lathe to each first slide block 50 controls separately.

As shown in Figure 1, Machining of Shaft-type Parts building-block machine also comprises the second slide block 60, second slide block 60 and is slidably connected on the first slide block 50 by the second guide rail 510, and processing unit (plant) 30 and material catching apparatus 40 are all arranged on the second slide block 60.The processing unit (plant) 30 of lathe and material catching apparatus 40 are arranged on same slide block, realize the interlock of processing unit (plant) 30 and material catching apparatus 40, increase work efficiency.

Processing unit (plant) 30 directly can also to be arranged on lathe bed 10 according to actual conditions and between workpiece spindle box 710 and tailstock 720 by Machining of Shaft-type Parts building-block machine.By mounting cutter on processing unit (plant) 30, machine is carried out to the workpiece on clamp system and adds; And in process, drive workpiece to rotate by workpiece spindle box 710, increase the working (finishing) area of workpiece, the performance making same machine add unit increases, and enhances productivity further.

As depicted in figs. 1 and 2, Machining of Shaft-type Parts building-block machine also comprise multiple with clamp system one to one the 3rd guide rail the 110, three guide rail 110 arrange along Z-direction, workpiece spindle box 710 and tailstock 720 are slidably connected with the 3rd guide rail 110 respectively.By the 3rd guide rail 110, make clamp system realization in the movement of Z-direction, cutter adds in process to workpiece machine, clamp system drives workpiece to slide along the 3rd guide rail 110, increase the working (finishing) area of workpiece, the performance making same machine add unit increases, and enhances productivity further.

As depicted in figs. 1 and 2, the 3rd guide rail 110 comprises the first slide rail 111 be slidably connected with workpiece spindle box 710 and the second slide rail 112 be slidably connected with tailstock 720.Workpiece spindle box 710 and tailstock 720 realize the movement in Z-direction respectively by the first slide rail 111 and the second slide rail 112, and be divided into two parts due to the 3rd guide rail 110, workpiece position does not arrange guide rail, be more conducive to workpiece adds iron filings in process discharge at machine, also prevent iron filings from dropping in guide rail, cause main spindle box or tailstock to move, reduce mechanical breakdown.

As depicted in figs. 1 and 2, the kinematic link 80 that Machining of Shaft-type Parts building-block machine also comprises drive unit (accompanying drawing does not identify) and connects with drive unit, kinematic link 80 is connected with workpiece spindle box 710 and tailstock 720.Workpiece spindle box 710 and tailstock 720 realize interlock by kinematic link 80, make workpiece spindle box 710 and tailstock 720 synchronizing moving, make workpiece add in process more stable at machine, improve the quality of product.

Wherein, drive unit is servomotor, and kinematic link 80 is screw body, accurately completes the clamping of per pass manufacturing procedure, carries and unloads inferior work.

In the present embodiment, the first guide rail is arranged along Y direction, and the second guide rail is arranged along X-direction, and the 3rd guide rail is arranged along Z-direction, X-axis, mutually vertical between Y-axis and Z axis, is conducive to the simplification that machine adds program, makes programming more simple.But should be understood that; the utility model does not require must be mutually vertical between the first guide rail, the second guide rail, the 3rd guide rail; add the actual needs such as shape and cutting-tool angle according to workpiece machine, X-axis, can there is angle between Y-axis and Z axis, these all belong to protection domain of the present utility model.

The utility model is provided with multiple machine and adds unit on a lathe, and the clamp system that multiple machine adds unit is arranged side by side on lathe bed 10.Before processing, the orientation adding unit along machine determines that machine corresponding to each road manufacturing procedure adds unit successively; The machine added-time, utilize each machine to add unit successively and complete axial workpiece each road manufacturing procedure, therefore the turnaround time between every procedure is substantially reduced, production efficiency is high, and use a lathe can complete the processing of axial workpiece, therefore equipment investment is few, floor space is little, not only reduces the input cost of factory building, also reduces artificial input cost.And in process, the utility model each machine can also be utilized to add different manufacturing procedures that unit performs multiple axial workpiece, are therefore applicable to large batch of production, further increase production efficiency simultaneously.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (9)

1. a Machining of Shaft-type Parts building-block machine, it is characterized in that, comprise lathe bed and multiple machine adds unit, each described machine adds unit and comprises material catching apparatus, processing unit (plant) and clamp system, described clamp system comprises the workpiece spindle box and tailstock that are oppositely arranged, the central shaft of described workpiece spindle box and described tailstock forms the main shaft of described clamp system to line, multiple described clamp system is arranged side by side on described lathe bed and the opposing parallel setting of main shaft.

2. Machining of Shaft-type Parts building-block machine according to claim 1, it is characterized in that, also comprise the crossbeam be located on described lathe bed, described crossbeam is provided with the first guide rail be slidably connected with described material catching apparatus, and described first guide rail is arranged along the orientation of multiple described clamp system.

3. Machining of Shaft-type Parts building-block machine according to claim 2, it is characterized in that, also comprise the first slide block that multiple and described first slide is connected, described first slide block is provided with second guide rail vertically arranged with described first guide rail, and described second guide rail and described material catching apparatus are slidably connected.

4. Machining of Shaft-type Parts building-block machine according to claim 3, is characterized in that, described first slide block is provided with the second slide block be connected with described second slide, and described processing unit (plant) and described material catching apparatus are all arranged on described second slide block.

5. the Machining of Shaft-type Parts building-block machine according to claim 3 or 4, is characterized in that, also comprise slide, and described slide is connected with described first slide, and multiple described first slide block is all fixedly connected with described slide.

6. Machining of Shaft-type Parts building-block machine according to claim 5, is characterized in that, at least wherein the spacing of two adjacent described material catching apparatus is a, and at least wherein the spacing of two adjacent described main shafts is b, and a=b.

7. Machining of Shaft-type Parts building-block machine according to claim 1, it is characterized in that, also comprise multiple and described clamp system the 3rd guide rail one to one, described 3rd guide rail is arranged along described major axes orientation, and described workpiece spindle box and described tailstock are connected with described 3rd slide respectively.

8. Machining of Shaft-type Parts building-block machine according to claim 7, is characterized in that, described 3rd guide rail comprises the first slide rail be slidably connected with described workpiece spindle box and the second slide rail be slidably connected with described tailstock.

9. the Machining of Shaft-type Parts building-block machine according to any one of claim 6 to 8, is characterized in that, the kinematic link also comprising drive unit and connect with described drive unit, described kinematic link is connected with described workpiece spindle box and described tailstock.