CN110315093B - Double-end butt joint lathe - Google Patents

Abstract

The invention discloses a double-head butt joint lathe which structurally comprises a double-head lathe, a pulling clamp plate, a first machining head, a second machining head and a powder collecting box, wherein the double-head lathe comprises a lathe body, a longitudinal driving device, a clamping mechanism, a longitudinal guide rail, a transverse guide rail and a transverse driving device, a workpiece is firmly clamped by utilizing a movable binding belt and an electromagnet, a magnetic force with the same magnetism as that of the magnet is generated by a direction-changeable electromagnet, so that the magnet is repelled and separated from the direction-changeable electromagnet, after the power is off, the direction-changeable electromagnet loses an electromagnetic field, the magnet moves upwards and drives a return mechanism to move a workpiece backwards for a small distance, one end of the workpiece is moved upwards through an ejecting mechanism, the working range of the lathe head is separated, and the workpiece is prevented from being continuously subjected to inertial cutting by the first machining head or the second machining head, and the problem that errors occur in the cutting of the end surface of the machined part, so that the error of the machined end surface is caused is also solved.

Description

Double-end butt joint lathe

Technical Field

The invention relates to the field of lathes, in particular to a double-end butt joint lathe.

Background

In the machine-building trade, cutting process to the work piece terminal surface is a common process, adopt double-end lathe to carry out terminal surface cutting process to the work piece more often among the prior art, at present, full-automatic numerical control double-end lathe once only cuts work piece both ends, effectively reduced the clamping number of times, and improved machining efficiency to a certain extent, but because cutting process, all adopt inseparable complicated clamping device, can lead to the lathe when cutting off the power supply suddenly, the aircraft nose receives inertial influence still can lead to the terminal surface cutting error in work, and then lead to the error of processing terminal surface, the material has been wasted.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a double-end butt joint lathe structurally comprises a double-end lathe, a pulling clamp plate, a first machining head, a second machining head and a powder collecting box, wherein the surface of the double-end lathe is provided with the pulling clamp plate, the double-end lathe is connected with the pulling clamp plate, the first machining head and the second machining head are arranged on the top end of the double-end lathe side by side from left to right, the first machining head and the second machining head are both mechanically connected with the double-end lathe, the double-end lathe is provided with the powder collecting box, and the double-end lathe is connected with the powder collecting box;

the double-end lathe comprises a lathe body, a longitudinal driving device, a clamping mechanism, a longitudinal guide rail, a transverse guide rail and a transverse driving device, wherein the transverse driving device is arranged inside the lathe body, the lathe body is movably connected with the transverse driving device, the transverse guide rail is arranged in the middle of the top end of the lathe body, the lathe body and the transverse guide rail are welded through electric welding, the longitudinal guide rail is arranged on the top end of the transverse guide rail, the transverse guide rail is in sliding fit with the longitudinal guide rail, the clamping mechanism is arranged on the surface of the longitudinal guide rail, the longitudinal guide rail is connected with the clamping mechanism, the longitudinal driving device is arranged in the middle of the bottom end of the longitudinal guide rail, the longitudinal guide rail is mechanically connected with the longitudinal driving device, and the longitudinal driving device is in transmission connection with.

As a further optimization of the technical scheme, the clamping mechanism comprises a seat body, a magnetic field lifting mechanism, a return mechanism, a movable binding band, an ejecting mechanism and an electromagnet, wherein the movable binding band is installed on the top end of the seat body, the ejecting mechanism is arranged on the top end inside the seat body, the seat body is connected with the ejecting mechanism, the magnetic field lifting mechanism is arranged at the bottom end inside the seat body, the seat body is in sliding fit with the magnetic field lifting mechanism, the return mechanism is installed on the inner wall of the seat body, the electromagnet is arranged on the right wall inside the seat body, and the seat body is connected with the electromagnet.

As a further optimization of the technical scheme, the magnetic field lifting mechanism consists of a lifting support, a magnet and a linkage rod, wherein the magnet is arranged at the top end of the lifting support, the lifting support is fixedly connected with the magnet, and the linkage rod is arranged at the left end and the right end of the magnet.

As a further optimization of the technical scheme, the return mechanism consists of a pusher, a directional guide rail, a movable wheel and a spring, the pusher is arranged on the surface of the movable wheel, the movable wheel and the pusher are in clearance fit, the directional guide rail is arranged at one end of the pusher, the pusher is in sliding fit with the directional guide rail, and the spring is arranged on the surface of the movable wheel.

As a further optimization of this technical scheme, the impeller constitute by ring body, screw hole, connector, draw runner, the ring body on the surface be equipped with the screw hole, the ring body right-hand member on install the draw runner, the ring body on the surface be equipped with the connector, ring body and connector fixed connection.

As the further optimization of this technical scheme, the removal wheel constitute by friction wheel body, threaded rod, spacing piece, friction wheel body side intermediate position on be equipped with the threaded rod, friction wheel body and threaded rod fixed connection, the threaded rod bottom have spacing piece, threaded rod and spacing piece fixed connection.

As a further optimization of the technical scheme, the movable binding band consists of an armature clamping plate and a connecting chain, the connecting chain is arranged between the armature clamping plate and the armature clamping plate, and the armature clamping plate is movably connected with the connecting chain.

As a further optimization of the technical solution, the ejecting mechanism comprises a direction-variable electromagnet, a top pillar and an inclined plate, wherein the top pillar is arranged at the middle position of the direction-variable electromagnet, the direction-variable electromagnet is in sliding fit with the top pillar, the inclined plate is arranged at the top end of the top pillar, and the top pillar is fixedly connected with the inclined plate.

As a further optimization of the technical scheme, the pusher is connected with the magnet through a linkage rod.

As a further optimization of the technical scheme, the ring body is in transmission connection with the threaded rod through the threaded hole.

As the further optimization of the technical scheme, the friction wheel body is made of rubber materials and used for reducing friction damage to a machined part.

Advantageous effects

The invention relates to a double-head butt joint lathe, which is characterized in that after electric energy is applied to a direction-changeable electromagnet, the direction-changeable electromagnet is enabled to generate magnetic force with the same magnetism as the magnet, the magnet is repelled and separated from the direction-changeable electromagnet, a workpiece is placed in a seat body inner groove, a movable bandage is attached to the workpiece, the electromagnet is energized with electric energy, an armature splint is attracted by utilizing the electromagnetic force, the workpiece can be firmly clamped, when the double-head lathe is suddenly powered off, after the direction-changeable electromagnet loses electromagnetic field force, the magnet drives a lifting support to move upwards by utilizing the magnetic force of the magnet, the magnet is absorbed at the bottom end of the direction-changeable electromagnet, the magnet drives an interlocking rod to push a ring body when moving upwards, the ring body drives a threaded rod to rotate by utilizing a threaded hole, the threaded rod drives a friction wheel body to drag the workpiece backwards for a, when the magnet moves upwards, the top column is also driven to move the inclined plate upwards to move one end of the workpiece, so that the working range of the machine head is separated.

Compared with the prior art, the invention has the beneficial effects that: utilize movable bandage cooperation electro-magnet to carry out the clamp tightly firmly with the machined part, utilize the diversion electro-magnet to produce the magnetic force with the same magnetism of magnet, make magnet receive repulsion and with the separation of diversion electro-magnet, after the outage, the diversion electro-magnet loses the electromagnetic field, magnet up moves the mechanism backward with the work piece toward the back a segment distance when up moving, rethread pop-up mechanism moves machined part one end up, let its working range who has broken away from the aircraft nose, avoid the machined part to continue to receive the inertial cutting of first processing aircraft nose or second processing aircraft nose, machined part end face cutting error has also been solved, and then lead to the error of processing terminal surface.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of a double-headed butt joint lathe according to the present invention.

FIG. 2 is a schematic side sectional view of a double-headed butt joint lathe according to the present invention.

FIG. 3 is a schematic front sectional view of the clamping mechanism of the present invention.

FIG. 4 is a schematic top view of the clamping mechanism of the present invention.

Fig. 5 is an enlarged view of a in fig. 3 according to the present invention.

Fig. 6 is a schematic view of the construction of the mobilization band according to the invention.

Fig. 7 is a schematic view of the pusher of the present invention.

FIG. 8 is a schematic view of the moving wheel of the present invention.

In the figure: the double-head lathe comprises a double-head lathe-1, a pulling splint-2, a first machining head-3, a second machining head-4, a powder collecting box-5, a machine body-1 a, a longitudinal driving device-1 b, a clamping mechanism-1 c, a longitudinal guide rail-1 d, a transverse guide rail-1 e, a transverse driving device-1 f, a seat body-1 c1, a magnetic field lifting mechanism-1 c2, a return mechanism-1 c3, a movable binding belt-1 c4, an ejection mechanism-1 c5, an electromagnet-1 c6, a lifting support-1 c21, a magnet-1 c22, a linkage rod-1 c23, a pusher-1 c31, a directional guide rail-1 c32, a moving wheel-1 c33, a spring-1 c34, a ring-g 1, a threaded hole-85g 25, a connector-g 3, a powder collecting box-1 c, a powder, The device comprises a slide bar-g 4, a friction wheel body-h 1, a threaded rod-h 2, a limiting sheet-h 3, an armature splint-1 c41, a connecting chain-1 c42, a direction-variable electromagnet-1 c51, a top column-1 c52 and an inclined plate-1 c 53.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-8, the invention provides a double-end butt joint lathe, which structurally comprises a double-end lathe 1, a pulling clamp plate 2, a first machining head 3, a second machining head 4 and a powder collecting box 5, wherein the surface of the double-end lathe 1 is provided with the pulling clamp plate 2, the double-end lathe 1 is connected with the pulling clamp plate 2, the top end of the double-end lathe 1 is provided with the first machining head 3 and the second machining head 4 side by side from left to right, the first machining head 3 and the second machining head 4 are both mechanically connected with the double-end lathe 1, the double-end lathe 1 is provided with the powder collecting box 5, the double-end lathe 1 is connected with the powder collecting box 5, the double-end lathe 1 consists of a machine body 1a, a longitudinal driving device 1b, a clamping mechanism 1c, a longitudinal guide rail 1d, a transverse guide rail 1e and a transverse driving device 1f, organism 1a inside be equipped with transverse driving device 1f, organism 1a and transverse driving device 1f swing joint, organism 1a top intermediate position on be equipped with transverse guide 1e, organism 1a and transverse guide 1e through electric welding, transverse guide 1e top on be equipped with longitudinal rail 1d, transverse guide 1e and longitudinal rail 1d sliding fit, longitudinal rail 1d on the surface be equipped with fixture 1c, longitudinal rail 1d and fixture 1c be connected, longitudinal rail 1d bottom intermediate position on be equipped with longitudinal driving device 1b, longitudinal rail 1d and longitudinal driving device 1b mechanical connection, longitudinal driving device 1b and transverse driving device 1f transmission connect.

The clamping mechanism 1c comprises a seat body 1c1, a magnetic field lifting mechanism 1c2, a return mechanism 1c3, a movable binding band 1c4, an ejecting mechanism 1c5 and an electromagnet 1c6, wherein the movable binding band 1c4 is mounted at the top end of the seat body 1c1, an ejecting mechanism 1c5 is arranged at the top end inside the seat body 1c1, the seat body 1c1 is connected with the ejecting mechanism 1c5, a magnetic field lifting mechanism 1c2 is arranged at the bottom end inside the seat body 1c1, the seat body 1c1 is in sliding fit with the magnetic field lifting mechanism 1c2, the return mechanism 1c3 is mounted on the inner wall of the seat body 1c1, the electromagnet 1c6 is arranged on the right wall inside the seat body 1c1, and the seat body 1c1 is connected with the electromagnet 1c 6.

The magnetic field lifting mechanism 1c2 comprises a lifting support 1c21, a magnet 1c22 and a linkage rod 1c23, wherein the top end of the lifting support 1c21 is provided with a magnet 1c22, the lifting support 1c21 is fixedly connected with the magnet 1c22, and the linkage rods 1c23 are respectively arranged at the left end and the right end of the magnet 1c 22.

The linkage 1c23 is used to provide the driving force for the moving- back mechanism 1c 3.

The reverse moving mechanism 1c3 comprises a pusher 1c31, a directional guide rail 1c32, a moving wheel 1c33 and a spring 1c34, wherein the surface of the moving wheel 1c33 is provided with a pusher 1c31, the moving wheel 1c33 and the pusher 1c31 are in clearance fit, one end of the pusher 1c31 is provided with a directional guide rail 1c32, the pusher 1c31 is in sliding fit with the directional guide rail 1c32, and the surface of the moving wheel 1c33 is provided with a spring 1c 34.

The above-mentioned directional guide rail 1c32 is used to prevent the pusher 1c31 from moving in a direction change due to the frictional resistance with the moving wheel 1c33 when moving, and the spring 1c34 is used to assist the return of the pusher 1c 31.

Pusher 1c31 constitute by ring body g1, screw hole g2, connector g3, draw runner g4, ring body g1 on the surface be equipped with screw hole g2, ring body g1 right-hand member on install draw runner g4, ring body g1 on the surface be equipped with connector g3, ring body g1 and connector g3 fixed connection.

The threaded hole g2 is used for matching and driving the threaded rod h2 to rotate.

Remove wheel 1c33 by friction wheel body h1, threaded rod h2, spacing piece h3 and constitute, friction wheel body h1 side intermediate position on be equipped with threaded rod h2, friction wheel body h1 and threaded rod h2 fixed connection, threaded rod h2 bottom have spacing piece h3, threaded rod h2 and spacing piece h3 fixed connection.

The friction wheel body h1 is used to drive the workpiece to move backwards to make it separate from the working state of the machine head.

The movable binding band 1c4 is composed of an armature splint 1c41 and a connecting chain 1c42, the connecting chain 1c42 is arranged between the armature splint 1c41 and the armature splint 1c41, and the armature splint 1c41 is movably connected with the connecting chain 1c 42.

The above-mentioned link chain 1c42 is used to continuously increase the number of the armature plates 1c41, so that the length thereof can be adjusted according to the size of the workpiece.

The pop-up mechanism 1c5 comprises a direction-changeable electromagnet 1c51, a top column 1c52 and an inclined plate 1c53, wherein the top column 1c52 is arranged at the middle position of the direction-changeable electromagnet 1c51, the direction-changeable electromagnet 1c51 is in sliding fit with the top column 1c52, the inclined plate 1c53 is arranged at the top end of the top column 1c52, and the top column 1c52 is fixedly connected with the inclined plate 1c 53.

The above-described direction-variable electromagnet 1c51 is an electromagnet whose electromagnetic field can be changed in magnetism by electric power.

The pusher 1c31 and the magnet 1c22 are connected through a linkage rod 1c23, the ring body g1 and the threaded rod h2 are in transmission connection through a threaded hole g2, and the friction wheel body h1 is made of rubber and used for reducing friction damage to a workpiece.

The principle of the invention is as follows: after the direction-changeable electromagnet 1c51 is electrified, the direction-changeable electromagnet is enabled to generate magnetic force with the same magnetism as the magnet 1c22, so that the magnet 1c22 is repelled and separated from the direction-changeable electromagnet 1c51, a workpiece is placed in an inner groove of a seat body 1c1, a movable binding belt 1c4 is attached to the workpiece, the electromagnet 1c6 is electrified with electric energy, an armature splint 1c41 is attracted by utilizing electromagnetic force, the workpiece can be firmly clamped, when the double-head lathe 1 is suddenly powered off, after the direction-changeable electromagnet 1c51 loses electromagnetic field force, the magnet 1c22 utilizes the self magnetic force to drive a lifting support 1c21 to move upwards, the magnet 1c22 is adsorbed at the bottom end of the direction-changeable electromagnet 1c51, the magnet 1c22 drives the linkage rod 1c23 to push a ring g1 when moving upwards, the ring 1 drives the ring body g2 to drive h2 to rotate, the friction threaded rod 46h 1 drives the friction threaded rod 1 to move the workpiece backwards for a distance, and avoid the workpiece from being dragged by the first machining head 3 or, when the magnet 1c22 moves upward, the top pillar 1c52 is also driven to move the inclined plate 1c53 upward to move one end of the workpiece out of the working range of the head.

The method for solving the problems comprises the following steps: the movable binding belt 1c4 is matched with the electromagnet 1c6 to firmly clamp a workpiece, the direction-changeable electromagnet 1c51 is used for generating magnetic force with the same magnetism as the magnet 1c22, so that the magnet 1c22 is repelled and separated from the direction-changeable electromagnet 1c51, after power failure occurs, the direction-changeable electromagnet 1c51 loses an electromagnetic field, the magnet 1c22 drives the return mechanism 1c3 to move the workpiece backwards for a short distance when moving upwards, and one end of the workpiece is moved upwards through the pop-up mechanism 1c5 to be separated from the working range of the machine head, so that the workpiece is prevented from being continuously subjected to inertial cutting of the first machining head 3 or the second machining head 4, and errors in cutting of the end face of the workpiece are solved, and further errors in machining of the end face are caused.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. The utility model provides a double-end butt joint lathe, its structure includes double-end lathe (1), pulling splint (2), first processing aircraft nose (3), second processing aircraft nose (4), powder collecting box (5), double-end lathe (1) be equipped with pulling splint (2) on the surface, double-end lathe (1) be connected with pulling splint (2), double-end lathe (1) top on from left to right be equipped with first processing aircraft nose (3) and second processing aircraft nose (4) side by side, first processing aircraft nose (3) and second processing aircraft nose (4) all with double-end lathe (1) mechanical connection, double-end lathe (1) on be equipped with powder collecting box (5), double-end lathe (1) and powder collecting box (5) be connected, its characterized in that:

the double-end lathe (1) consists of a lathe body (1a), a longitudinal driving device (1b), a clamping mechanism (1c), a longitudinal guide rail (1d), a transverse guide rail (1e) and a transverse driving device (1f), wherein the transverse driving device (1f) is arranged inside the lathe body (1a), the lathe body (1a) is movably connected with the transverse driving device (1f), the transverse guide rail (1e) is arranged in the middle of the top end of the lathe body (1a), the lathe body (1a) and the transverse guide rail (1e) are welded through electric welding, the longitudinal guide rail (1d) is arranged at the top end of the transverse guide rail (1e), the transverse guide rail (1e) is in sliding fit with the longitudinal guide rail (1d), the clamping mechanism (1c) is arranged on the surface of the longitudinal guide rail (1d), and the clamping mechanism (1c) are connected, a longitudinal driving device (1b) is arranged in the middle of the bottom end of the longitudinal guide rail (1d), the longitudinal guide rail (1d) is mechanically connected with the longitudinal driving device (1b), and the longitudinal driving device (1b) is in transmission connection with the transverse driving device (1 f);

the clamping mechanism (1c) consists of a seat body (1c1), a magnetic field lifting mechanism (1c2), a return mechanism (1c3), a movable binding band (1c4), an ejecting mechanism (1c5) and an electromagnet (1c6), the top end of the seat body (1c1) is provided with a movable binding band (1c4), the top end inside the seat body (1c1) is provided with an ejecting mechanism (1c5), the seat body (1c1) is connected with the ejecting mechanism (1c5), the bottom end in the seat body (1c1) is provided with a magnetic field lifting mechanism (1c2), the seat body (1c1) is in sliding fit with the magnetic field lifting mechanism (1c2), the inner wall of the seat body (1c1) is provided with a return mechanism (1c3), an electromagnet (1c6) is arranged on the right wall inside the seat body (1c1), and the seat body (1c1) is connected with the electromagnet (1c 6);

the magnetic field lifting mechanism (1c2) consists of a lifting support column (1c21), a magnet (1c22) and a linkage rod (1c23), wherein the top end of the lifting support column (1c21) is provided with the magnet (1c22), the lifting support column (1c21) is fixedly connected with the magnet (1c22), and the linkage rod (1c23) is arranged at each of the left end and the right end of the magnet (1c 22);

the moving back mechanism (1c3) consists of a pusher (1c31), a directional guide rail (1c32), a moving wheel (1c33) and a spring (1c34), wherein the surface of the moving wheel (1c33) is provided with the pusher (1c31), the moving wheel (1c33) and the pusher (1c31) are in clearance fit, one end of the pusher (1c31) is provided with the directional guide rail (1c32), the pusher (1c31) is in sliding fit with the directional guide rail (1c32), and the surface of the moving wheel (1c33) is provided with the spring (1c 34);

impeller (1c31) constitute by ring body (g1), screw hole (g2), connector (g3), draw runner (g4), ring body (g1) be equipped with screw hole (g2) on the surface, ring body (g1) right-hand member on install draw runner (g4), ring body (g1) be equipped with connector (g3) on the surface, ring body (g1) and connector (g3) fixed connection.

2. The double-headed butt joint lathe according to claim 1, wherein: removal wheel (1c33) constitute by friction wheel body (h1), threaded rod (h2), spacing piece (h3), friction wheel body (h1) side intermediate position on be equipped with threaded rod (h2), friction wheel body (h1) and threaded rod (h2) fixed connection, threaded rod (h2) bottom have spacing piece (h3), threaded rod (h2) and spacing piece (h3) fixed connection.

3. The double-headed butt joint lathe according to claim 1, wherein: the movable binding band (1c4) is composed of an armature splint (1c41) and a connecting chain (1c42), the connecting chain (1c42) is arranged between the armature splint (1c41) and the armature splint (1c41), and the armature splint (1c41) is movably connected with the connecting chain (1c 42).

4. The double-headed butt joint lathe according to claim 1, wherein: the pop-up mechanism (1c5) is composed of a direction-variable electromagnet (1c51), a top column (1c52) and an inclined plate (1c53), wherein the top column (1c52) is arranged in the middle of the direction-variable electromagnet (1c51), the direction-variable electromagnet (1c51) is in sliding fit with the top column (1c52), the inclined plate (1c53) is arranged at the top end of the top column (1c52), and the top column (1c52) is fixedly connected with the inclined plate (1c 53).

Images