CN201558958U

CN201558958U - Automatic lathe

Info

Publication number: CN201558958U
Application number: CN2009202366144U
Authority: CN
Inventors: 刘文聪
Original assignee: DONGGUAN TAIKE PRECISION MACHINERY Co Ltd
Current assignee: DONGGUAN TAIKE PRECISION MACHINERY Co Ltd
Priority date: 2009-09-29
Filing date: 2009-09-29
Publication date: 2010-08-25
Anticipated expiration: 2019-09-29

Abstract

The utility model relates to an automatic lathe which comprises a lathe body and a main spindle box, wherein a cutter mounting plate is provided with a first cutting tool which makes reciprocating motion along the direction of Y coordinate axis, and the first cutting tool is connected with a connecting rod mechanism and is connected with a first cam mechanism in a driving way; the two sides of a main spindle are respectively provided with a second cutting tool and a third cutting tool which make reciprocating motion along the direction of Z coordinate axis and the direction of X coordinate axis, wherein the second cutting tool is connected with a second cam mechanism in a driving way, and the third cutting tool is connected with a third cam mechanism in a driving way; a single spindle seat used for drilling a workpiece clamped by the main spindle is arranged at the position corresponding to the main spindle, and is connected with a single spindle seat swing arm mechanism and a fourth cam mechanism in a driving way; and the automatic lathe is provided with a distributing shaft, and cams in the first cam mechanism, the second cam mechanism, the third cam mechanism and the fourth cam mechanism are arranged on the distributing shaft. The automatic lathe not only has high processing accuracy and compact structure, but also uses the single spindle to control cutters to operate in sequence.

Description

A kind of automatic lathe

Technical field

The utility model relates to a kind of metal-working plant, particularly relates to a kind of automatic lathe.

Background technology

In the prior art, automatic lathe is divided into simple and easy automatic lathe and accurate automatic lathe, simple and easy automatic lathe has only a main shaft, two groups of knife rests, come transmission by easy one to two group of cam, its procedure is simpler, but machining accuracy is relatively low, only can finish single machine cut processing.Accurate automatic lathe is owing to will finish the machining of numerous combination operations, its complex structure, bulky, and procedure is comparatively complicated, be not suitable for the processing of common parts, in addition, the axle of control cam is divided into a plurality ofly on this automatic lathe, and layout is disperseed, complicated operation not only, and influence the aesthetic appearance of product.

Therefore, at deficiency of the prior art, needing badly provides a kind of not only machining accuracy height, simple and compact for structure, and can be by the automatic lathe of single each cutter sequential analysis of axle control.

The utility model content

The purpose of this utility model is to avoid weak point of the prior art and a kind of not only machining accuracy height, simple and compact for structure is provided, and can be by the automatic lathe of single each cutter sequential analysis of axle control.

The purpose of this utility model realizes by following technical measures:

A kind of automatic lathe is provided, includes lathe bed and main spindle box, wherein,

Described main spindle box is arranged at described lathe bed, and described main spindle box is provided with spindle through-hole, and main shaft is arranged in described spindle through-hole, and is supported by described main spindle box,

Described automatic lathe is provided with the cutter installing plate, and described cutter installing plate is vertically installed in described main spindle box,

The axis direction of described main shaft is the Z change in coordinate axis direction, and the vertically disposed direction of described cutter installing plate is the Y change in coordinate axis direction, and the direction vertical with the Z change in coordinate axis direction is the X change in coordinate axis direction in the plane of the work top of described lathe bed,

Described cutter installing plate is provided with first cutting element that moves back and forth along the Y change in coordinate axis direction, and described first cutting element is connected with linkage, and is connected with the driving of first cam mechanism,

Be provided with second cutting element that Z-direction direction of principal axis and X change in coordinate axis direction respectively move back and forth and the 3rd cutting element that moves back and forth of Z-direction direction of principal axis and X change in coordinate axis direction respectively in the both sides of described main shaft, described second cutting element drives with second cam mechanism and is connected, described the 3rd cutting element drives with the 3rd cam mechanism and is connected

Be provided with in the position relative with described main shaft and be used for single shaft seat that the workpiece of described main shaft clamping is holed, described single shaft seat is connected with single shaft seat oscillating arm mechanisms, and drives with four-cam mechanism and to be connected,

Described automatic lathe is provided with distributing shaft, and the cam in described first cam mechanism, described second cam mechanism, described the 3rd cam mechanism and the described four-cam mechanism is arranged at described distributing shaft.

Preferably, above-mentioned first cutting element includes first cutter, second cutter and the 3rd cutter, and described first cutter, described second cutter and described the 3rd cutter are the radial direction setting in the center of circle with described main shaft.

Preferred, above-mentioned first cutter, described second cutter and described the 3rd cutter include the slide rail that is fixed in described cutter installing plate respectively, the slide block that is arranged at described slide rail and can moves back and forth, described slide block is provided with the blade folder that is used for the clamping blade, described linkage comprises and is provided with first connecting rod mechanism, second connecting rod mechanism and third connecting rod mechanism, described first connecting rod mechanism, described second connecting rod mechanism and described third connecting rod mechanism are respectively arranged with the depression bar contiguous block, described depression bar contiguous block is rotationally connected with described knife rest installing plate, one end of described depression bar contiguous block connects depression bar, described depression bar is connected with described slide block, the other end of described depression bar contiguous block connects an end of rocking bar, the other end of described rocking bar is connected with an end of swing arm, the other end of described swing arm is provided with the cam shift fork, described cam shift fork is connected with the cam slide of described first cam mechanism, the rotating arm shaft that is connected in of described swing arm.

Another is preferred, and above-mentioned second cutting element and described the 3rd cutting element are the center with the axis direction of described main shaft, are arranged at the both sides of described main shaft symmetrically.

Preferred, above-mentioned second cutting element includes first cutter base that the Z-direction direction of principal axis moves back and forth and the second cutter base that moves back and forth along the X change in coordinate axis direction, the described second cutter base is fixedly arranged on the bottom of the described first cutter base, the described first cutter base is provided with first toolframe that is used for the clamping blade, described first toolframe is connected with an end of crank, the other end of described crank is connected with the crank contiguous block, described crank contiguous block is connected with an end of first actuating arm, the other end of described first actuating arm is provided with first slide bar, described first slide bar moves cam slide with the Z1 of described second cam mechanism and is connected, the described second cutter base is provided with second actuating arm, described second actuating arm is provided with second slide bar, and described second slide bar moves cam slide with the X1 of described second cam mechanism and is connected.

Another is preferred, above-mentioned the 3rd cutting element includes the 3rd cutter base that the Z-direction direction of principal axis moves back and forth and the four blade tool base that moves back and forth along the X change in coordinate axis direction, described four blade tool base is fixedly arranged on the bottom of described the 3rd cutter base, described the 3rd cutter base is provided with second toolframe that is used for the clamping blade, described the 3rd cutter base is provided with the manual adjustments knob, described four blade tool base is connected with an end of the 3rd actuating arm, the other end of described the 3rd actuating arm is provided with the 3rd slide bar, and described the 3rd slide bar moves cam slide with the X2 of the 3rd cam mechanism and is connected.

Another is preferred, above-mentioned single shaft seat is provided with drive link and working beam, described drive link and described working beam are arranged in described single shaft seat along the direction of described main-shaft axis, the two ends of described drive link and described working beam are arranged at the outside of described single shaft seat respectively, the working beam that is positioned at a side of described main shaft holding workpiece is installed the boring machining tool, between the described drive link of the opposite side of described main shaft holding workpiece and described working beam, be provided with contiguous block, described single shaft seat oscillating arm mechanisms comprises the swing arm of single shaft seat, the swing arm of described single shaft seat is rotationally connected with described lathe bed, one end of described single shaft seat swing arm connects described drive link, and its other end is connected with the single shaft seat swing arm cam slide of described four-cam mechanism.

Preferred, above-mentioned drive link is provided with back-moving spring.

Another is preferred, is provided with stock stop, and described stock stop is provided with charging ram, and described charging ram is provided with material blocking block, and described charging ram drives with the 5th cam mechanism and is connected, and the cam of described the 5th cam mechanism is arranged at described distributing shaft.

Another is preferred, and above-mentioned cutter installing plate is fan-shaped cutter installing plate.

Automatic lathe of the present utility model is provided with five groups of cutters, and a plurality of cutters can carry out machining simultaneously in the process, and process velocity is quite fast.In addition, when the turning external diameter, the manufacturing procedure that can hole simultaneously, all process steps drives by cam, and is simple in structure, machining accuracy is high, and since all cams all control by same axle, so compact conformation, the automaticity height.

Description of drawings

The utility model is described in further detail to utilize accompanying drawing, but the embodiment in the accompanying drawing does not constitute any restriction of the present utility model.

Fig. 1 is the structural representation of a kind of automatic lathe of the present utility model;

Fig. 2 is the local structure for amplifying schematic diagram of A among Fig. 1;

Fig. 3 is the structural representation at another visual angle of a kind of automatic lathe of the present utility model;

Fig. 4 is the local structure for amplifying schematic diagram of B among Fig. 3;

Fig. 5 is the structural representation of first cutting element of a kind of automatic lathe of the present utility model.

Fig. 1, Fig. 2, Fig. 3, comprise among Fig. 4 and Fig. 5: 1---first cutter, 11---the first cam shift fork, 12---first swing arm, 13---first rocking bar, 14---the first depression bar contiguous block, 15---first depression bar, 16---first slide block, 17---first slide rail, 18---first blade folder, 122---arm shaft, 123---the cutter installing plate, 2---second cutter, 3---the 3rd cutter, 40---second toolframe, 41---the 3rd cutter base, 411---the manual adjustments knob, 42---four blade tool base, 43---the 3rd actuating arm, 44---the 3rd slide bar, 45---the first coarse adjustment knob, 46---first vernier knob, 5---the single shaft seat, 51---working beam, 52---drive link, 53---contiguous block, 54---the swing arm of single shaft seat, 55---back-moving spring, 6---stock stop, 61---material blocking block, 62---charging ram, 70---first toolframe, 71---the first cutter base, 711---the first cutter base slide rail, 712---the first cutter base slide block, 72---the second cutter base, 721---second actuating arm, 73---crank, 74---the crank contiguous block, 75---the second coarse adjustment knob, 76---second vernier knob, 77---first vernier knob, 8---distributing shaft, 81---single shaft seat swing arm cam, 82---X1 moves cam, 83---X2 moves cam 83,84---the first cutter cam, 85---Z1 moves cam, 9---main spindle box, 91---main shaft, 10---lathe bed.

The specific embodiment

With the following Examples the utility model is further described:

The specific embodiment of a kind of automatic lathe of the present utility model such as Fig. 1 include lathe bed 10 and main spindle box 9 to shown in Figure 5, wherein,

Described main spindle box 9 is arranged at described lathe bed 10, and described main spindle box 9 is provided with spindle through-hole, and main shaft 91 is arranged in described spindle through-hole, and is supported by described main spindle box 9,

Described automatic lathe is provided with cutter installing plate 123, and described cutter installing plate 123 is vertically installed in described main spindle box 9,

The axis direction of described main shaft 91 is the Z change in coordinate axis direction, and described cutter installing plate 123 vertically disposed directions are the Y change in coordinate axis direction, and the direction vertical with the Z change in coordinate axis direction is the X change in coordinate axis direction in the plane of the work top of described lathe bed 10,

Described cutter installing plate 123 is provided with first cutting element that moves back and forth along the Y change in coordinate axis direction, and described first cutting element is connected with linkage, and is connected with the driving of first cam mechanism,

Be provided with second cutting element that Z-direction direction of principal axis and X change in coordinate axis direction respectively move back and forth and the 3rd cutting element that moves back and forth of Z-direction direction of principal axis and X change in coordinate axis direction respectively in the both sides of described main shaft 91, described second cutting element drives with second cam mechanism and is connected, described the 3rd cutting element drives with the 3rd cam mechanism and is connected

Be provided with in the position relative with described main shaft 91 and be used for single shaft seat 5 that the workpiece of described main shaft 91 clampings is holed, described single shaft seat 5 is connected with single shaft seat oscillating arm mechanisms, and drives with four-cam mechanism and to be connected,

Described automatic lathe is provided with distributing shaft 8, and the cam in described first cam mechanism, described second cam mechanism, described the 3rd cam mechanism and the described four-cam mechanism is arranged at described distributing shaft 8.

Concrete, above-mentioned first cutting element includes first cutter 1, second cutter 2 and the 3rd cutter 3, the radial direction setting that described first cutter 1, described second cutter 2 and described the 3rd cutter 3 are the center of circle with described main shaft 91.First cutter 1, second cutter 2 and the 3rd cutter 3 are mainly made operations such as grooving, chamfering, cut-out to main shaft 91 holding workpieces.

More specifically, as shown in Figure 5, above-mentioned first cutter 1 includes first slide rail 17 that is fixed in described cutter installing plate 123, first slide block 16 that is arranged at described first slide rail 17 and can moves back and forth, described first slide block 16 is provided with first blade folder 18 that is used for the clamping blade, described linkage comprises and is provided with first connecting rod mechanism, second connecting rod mechanism and third connecting rod mechanism, first cutter 1 is connected with first connecting rod mechanism, first connecting rod mechanism is provided with the first depression bar contiguous block 14, the middle part of the described first depression bar contiguous block 14 is articulated in knife rest installing plate 123, one end of the described first depression bar contiguous block 14 connects first depression bar 15, described first depression bar 15 is fixedly connected with described first slide block 16, one end of fixedly connected first rocking bar 13 of the other end of the described first depression bar contiguous block 14, the other end of described first rocking bar 13 is connected with an end of first swing arm 12, the other end of described first swing arm 12 is provided with the first cam shift fork 11, the described first cam shift fork 11 is slidingly connected described first swing arm, the 12 rotating arm shafts 122 that are connected in the first cutter cam 84 of described first cam mechanism.

During work, starter motor drives belt pulley, by belt pulley drive shaft 91, main shaft 91 drives the first cutter cam 84 and makes its rotation, the first cutter cam 84 promotes the apparent motion of the first cam shift fork 11 along the first cutter cam 84, thereby driving first swing arm 12 rotates around its arm shaft 122, the rotation of first swing arm 12 drives moving up and down of first rocking bar 13, first rocking bar 13 drives the first depression bar contiguous block 14, the first depression bar contiguous block, 14 roof pressures, first depression bar 15, thereby driving first cutter 1 can move down it to realize machining, first cutting tool 1 is provided with back-moving spring, after cutting was finished, when the roof pressure power of the first cutter cam 84 by first slide block 16 of 15 pairs first cutters 1 of first depression bar disappeared, first cutter 1 can be driven by the elastic force of back-moving spring get back to original position.

The structure of described second cutter 2 and described the 3rd cutter 3 and operation principle are identical with described first cutter 1, no longer are described in detail at this.

Another is concrete, and above-mentioned second cutting element and described the 3rd cutting element are the center with the axis direction of described main shaft 91, are arranged at the both sides of described main shaft 91 symmetrically.Second cutting element and the 3rd cutting element are mainly used in the external diameter of cutting spindle 91 holding workpieces.

More specifically, above-mentioned second cutting element includes first cutter base 71 that the Z-direction direction of principal axis moves back and forth and the second cutter base 72 that moves back and forth along the X change in coordinate axis direction, wherein the first cutter base 71 comprises the first cutter base slide rail 711 and the first cutter base slide block 712, the first cutter base slide rail 711 is provided with dovetail groove, the first cutter base slide block is provided with relative corresponding projection with described dovetail groove, the first cutter base slide block 712 and the first cutter slide rail 711 are slidingly connected, the described second cutter base 72 is fixedly arranged on the bottom of the first cutter base slide rail 711 of the described first cutter base 71, the described first cutter base 71 is provided with first toolframe 70 that is used for the clamping blade, described first toolframe 70 is connected with an end of crank 73, the other end of described crank 73 is connected with crank contiguous block 74, described crank contiguous block 74 is connected with an end of first actuating arm, the other end of described first actuating arm is provided with first slide bar, the Z1 of described first slide bar and described second cam mechanism moves cam 85 and is slidingly connected, the described second cutter base 72 is provided with second actuating arm 721, described second actuating arm 721 is provided with second slide bar, and the X1 of described second slide bar and described second cam mechanism moves cam 82 and is slidingly connected.

During work, distributing shaft 8 rotates drive Z1 and moves cam 85 rotations, and first slide bar moves along the outline that Z1 moves cam 85, thereby drives the rotation of first actuating arm, the rotation of first actuating arm drives the motion of crank contiguous block 74, thereby drives axial the moving back and forth of crank 73 Z-directions.Can be provided with first vernier knob 77 on the crank contiguous block 74.Distributing shaft 8 rotates drive X1 and moves cam 82 rotations, X1 moves rotating drive second actuating arm 721 swings of cam 82,721 swings of second actuating arm drive the second coarse adjustment knob 75 and transfer the second cutter base 72 moving along the X reference axis, the second cutter base 72 also is provided with second vernier knob 76, can finely tune the second cutter base 72.

Another more specifically, above-mentioned the 3rd cutting element includes the 3rd cutter base 41 that the Z-direction direction of principal axis moves back and forth and the four blade tool base 42 that moves back and forth along the X change in coordinate axis direction, described four blade tool base 42 is fixedly arranged on the bottom of described the 3rd cutter base 41, described the 3rd cutter base 41 is provided with second toolframe 40 that is used for the clamping blade, described the 3rd cutter base 41 is provided with manual adjustments knob 411, can realize axial the moving back and forth of the 3rd cutter base 41 Z-directions, described four blade tool base 42 is connected with an end of the 3rd actuating arm 43, the other end of described the 3rd actuating arm 43 is provided with the 3rd slide bar 44, and the X2 of described the 3rd slide bar 44 and the 3rd cam mechanism moves cam 83 and is slidingly connected.

Distributing shaft 8 rotates drive X2 and moves cam 83 rotations, the 3rd slide bar 44 moves along the outline that X2 moves cam 83, thereby drive 43 swings of the 3rd actuating arm, 43 swings of the 3rd actuating arm drive the first coarse adjustment knob 45 and transfer four blade tool base 42 moving along the X reference axis, four blade tool base 42 also is provided with first vernier knob 46, can finely tune four blade tool base 42.

Another is concrete, above-mentioned single shaft seat 5 is provided with drive link 52 and working beam 51, described drive link 52 and described working beam 51 are arranged in described single shaft seat 5 along the direction of described main shaft 91 axis, the two ends of described drive link 52 and described working beam 51 are arranged at the outside of described single shaft seat 5 respectively, the working beam 51 that is positioned at a side of described main shaft 91 holding workpieces is installed the boring machining tool, between the described drive link 52 of the opposite side of described main shaft 91 holding workpieces and described working beam 51, be provided with contiguous block 53, described single shaft seat oscillating arm mechanisms comprises single shaft seat swing arm 54, described single shaft seat swing arm 54 is rotating to be connected in described lathe bed 10, one end of described single shaft seat swing arm 54 connects described drive link 52, and the single shaft seat swing arm cam 81 of its other end and described four-cam mechanism is slidingly connected.

More specifically, above-mentioned drive link 52 is provided with back-moving spring 55.

Another is concrete, is provided with stock stop 6, and described stock stop 6 is provided with charging ram 62, and described charging ram 62 is provided with material blocking block 61, and described charging ram 62 drives with the 5th cam mechanism and is connected, and the cam of described the 5th cam mechanism is arranged at described distributing shaft 8.

Another is concrete, and above-mentioned cutter installing plate 123 is fan-shaped cutter installing plate 123.

In addition, automatic lathe of the present utility model also is provided with an easy automatic feed mechanism of Weight type (marking among the figure), in the process self-feeding, has expected automatic stopping and warning.

Automatic lathe of the present utility model is provided with five groups of cutters, and multitool can carry out machining simultaneously in the process, and process velocity is quite fast, and its process velocity is that cam turns around, and processes a part.In addition, when the turning external diameter, the manufacturing procedure that can hole simultaneously, all process steps drives by cam, machining accuracy height, simple in structure, and owing to all cams are all controlled by same axle, so compact conformation, the automaticity height.

Should be noted that at last; above embodiment is only in order to the explanation the technical solution of the utility model; but not to the restriction of the utility model protection domain; although the utility model has been done to explain with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can make amendment or be equal to replacement the technical solution of the utility model, and not break away from the essence and the scope of technical solutions of the utility model.

Claims

1. an automatic lathe includes lathe bed and main spindle box, it is characterized in that:

2. automatic lathe according to claim 1, it is characterized in that: described first cutting element includes first cutter, second cutter and the 3rd cutter, and described first cutter, described second cutter and described the 3rd cutter are the radial direction setting in the center of circle with described main shaft.

3. automatic lathe according to claim 2, it is characterized in that: described first cutter, described second cutter and described the 3rd cutter include the slide rail that is fixed in described cutter installing plate respectively, the slide block that is arranged at described slide rail and can moves back and forth, described slide block is provided with the blade folder that is used for the clamping blade, described linkage comprises and is provided with first connecting rod mechanism, second connecting rod mechanism and third connecting rod mechanism, described first connecting rod mechanism, described second connecting rod mechanism and described third connecting rod mechanism are respectively arranged with the depression bar contiguous block, described depression bar contiguous block is rotationally connected with described knife rest installing plate, one end of described depression bar contiguous block connects depression bar, described depression bar is connected with described slide block, the other end of described depression bar contiguous block connects an end of rocking bar, the other end of described rocking bar is connected with an end of swing arm, the other end of described swing arm is provided with the cam shift fork, described cam shift fork is connected with the cam slide of described first cam mechanism, the rotating arm shaft that is connected in of described swing arm.

4. automatic lathe according to claim 1 is characterized in that: described second cutting element and described the 3rd cutting element are the center with the axis direction of described main shaft, are arranged at the both sides of described main shaft symmetrically.

5. automatic lathe according to claim 4, it is characterized in that: described second cutting element includes first cutter base that the Z-direction direction of principal axis moves back and forth and the second cutter base that moves back and forth along the X change in coordinate axis direction, the described second cutter base is fixedly arranged on the bottom of the described first cutter base, the described first cutter base is provided with first toolframe that is used for the clamping blade, described first toolframe is connected with an end of crank, the other end of described crank is connected with the crank contiguous block, described crank contiguous block is connected with an end of first actuating arm, the other end of described first actuating arm is provided with first slide bar, described first slide bar moves cam slide with the Z1 of described second cam mechanism and is connected, the described second cutter base is provided with second actuating arm, described second actuating arm is provided with second slide bar, and described second slide bar moves cam slide with the X1 of described second cam mechanism and is connected.

6. automatic lathe according to claim 4, it is characterized in that: described the 3rd cutting element includes the 3rd cutter base that the Z-direction direction of principal axis moves back and forth and the four blade tool base that moves back and forth along the X change in coordinate axis direction, described four blade tool base is fixedly arranged on the bottom of described the 3rd cutter base, described the 3rd cutter base is provided with second toolframe that is used for the clamping blade, described the 3rd cutter base is provided with the manual adjustments knob, described four blade tool base is connected with an end of the 3rd actuating arm, the other end of described the 3rd actuating arm is provided with the 3rd slide bar, and described the 3rd slide bar moves cam slide with the X2 of the 3rd cam mechanism and is connected.

7. automatic lathe according to claim 1, it is characterized in that: described single shaft seat is provided with drive link and working beam, described drive link and described working beam are arranged in described single shaft seat along the direction of described main-shaft axis, the two ends of described drive link and described working beam are arranged at the outside of described single shaft seat respectively, the working beam that is positioned at a side of described main shaft holding workpiece is installed the boring machining tool, between the described drive link of the opposite side of described main shaft holding workpiece and described working beam, be provided with contiguous block, described single shaft seat oscillating arm mechanisms comprises the swing arm of single shaft seat, the swing arm of described single shaft seat is rotationally connected with described lathe bed, one end of described single shaft seat swing arm connects described drive link, and its other end is connected with the single shaft seat swing arm cam slide of described four-cam mechanism.

8. automatic lathe according to claim 7 is characterized in that: described drive link is provided with back-moving spring.

9. automatic lathe according to claim 1, it is characterized in that: also be provided with stock stop, described stock stop is provided with charging ram, described charging ram is provided with material blocking block, described charging ram drives with the 5th cam mechanism and is connected, and the cam of described the 5th cam mechanism is arranged at described distributing shaft.

10. automatic lathe according to claim 1 is characterized in that: described cutter installing plate is fan-shaped cutter installing plate.