CN212330446U - Mechanism for conveying shaft sleeve member on machine tool - Google Patents

Abstract

A mechanism for carrying axle external member on lathe, lathe include the headstock, the headstock links to each other a chuck that is used for pressing from both sides tight axle external member, still includes a support that keeps fixed with the headstock, and a support links to each other a stock chest, and axle sleeve member parallel arrangement sets up at the stock chest, the stock chest is the slope, and the low-order end of stock chest is equipped with the first supporting bench of accepting the axle external member, and the one end of first supporting bench is equipped with the first cylinder that is used for driving the axle external member, and the other end of first supporting bench is equipped with the material feeding unit that can vertical activity, material feeding unit includes a base plate, is equipped with horizontal second supporting bench and the third supporting bench that sets up on the base plate, and the base plate still links to each other second cylinder and third cylinder, and the flexible operation drive of second cylinder is located the axle external member of second supporting bench, and the flexible operation drive of third cylinder.

Description

Mechanism for conveying shaft sleeve member on machine tool

Technical Field

The utility model relates to a mechanism that is used for carrying axle external member on lathe.

Background

The existing machine tool can realize accurate machining of parts, but only automation is realized in the machining process, a special operator is still required to mount a machined part on the machine tool, and the machined part is taken down from the machine tool after the machining of the machine tool is finished. Along with the promotion of automation demand, adopt the manipulator loading and unloading machined part among the prior art, but the structure is complicated, does not adapt to the loading and unloading of axle external member to be unfavorable for high-efficient manufacturing.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at overcomes not enough that prior art exists, provides the simple reasonable mechanism that is used for carrying axle external member on the lathe of structural design.

The utility model adopts the technical proposal that: the feeding device comprises a base plate, a second supporting table and a third supporting table are transversely arranged on the base plate, the base plate is further connected with the second air cylinder and the third air cylinder, the second air cylinder telescopically runs to drive the shaft sleeve member positioned on the second supporting table, and the third air cylinder telescopically runs to drive the shaft sleeve member positioned on the third supporting table; the spindle box is provided with a channel for the push rod to penetrate through, the push rod penetrates through the channel and the chuck, the push rod is connected with a fourth cylinder, and the fourth cylinder can support and push a shaft sleeve member located on the chuck in the telescopic operation.

The material receiving support platform is located in the same vertical direction with the first support platform, and the distance between the material receiving support platform and the first support platform is the same as the distance between the second support platform and the third support platform.

Wherein, the material receiving support platform is a round pipe.

Wherein, push rod one end links to each other with the connecting rod, and fourth cylinder and push rod parallel arrangement link to each other in the connecting rod is fixed.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model has the advantages of simple and reasonable design, utilize natural gravity pay-off, other horizontal pay-offs adopt the cylinder to promote, efficient, stable strong.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of another view angle of the present invention.

Detailed Description

The invention will be further explained by the embodiments with reference to the drawings.

As shown in fig. 1 to 2, the mechanism for conveying a shaft assembly 2a on a machine tool according to the present embodiment includes a main spindle box 1, the main spindle box 1 is connected to a chuck 2 for clamping the shaft assembly 2a, and further includes a support fixed to the main spindle box 1, the support is connected to a storage tank 3, the shaft assembly 2a is arranged in parallel in the storage tank 3, and specifically, the storage tank 3 has a U-shaped groove, and the shaft assembly 2a is located in the U-shaped groove. The stock chest 3 is the slope, and the low level end of stock chest 3 is equipped with the first supporting bench 41 of accepting axle external member 2a, and the one end of keeping away from first supporting bench 41 is high. One end of the first supporting table 41 is provided with a first cylinder 51 for driving the shaft sleeve 2a, the first cylinder 51 is fixedly connected with the support, the other end of the first supporting table 41 is provided with a feeding device capable of moving vertically, specifically, the dovetail slide rail structure fixed with the support is further included, and the feeding device is connected with the dovetail slide rail structure and moves linearly along the slide rail. The device for driving the feeding device can be an air cylinder or a motor, the feeding device comprises a base plate, a second supporting platform 42 and a third supporting platform 43 which are transversely arranged are arranged on the base plate, the base plate is also connected with a second air cylinder 52 and a third air cylinder 53, the second air cylinder 52 drives a shaft sleeve part 2a positioned on the second supporting platform 42 in a telescopic operation mode, and the third air cylinder 53 drives a shaft sleeve part 2a positioned on the third supporting platform 43 in a telescopic operation mode; preferably, the power for driving the vertical movement of the feeding device is a motor, the motor is connected with a screw rod, the screw rod is in threaded connection with a nut, the nut is fixedly connected with the base plate, and the motor drives the screw rod to rotate so as to drive the base plate to vertically move. The spindle box 1 is provided with a channel for the push rod 6 to penetrate through, the push rod 6 penetrates through the channel and the chuck 2, the push rod 6 is connected with a fourth cylinder 54, and the fourth cylinder 54 can be in telescopic operation to push against the spindle sleeve 2a on the chuck 2. In the embodiment, the storage tank 3 is inclined and feeds materials to the first supporting table 41 by gravity, the shaft assembly 2a is stably kept at the first supporting table 41 after reaching the first supporting table 41, the first cylinder 51 extends to push the shaft assembly 2a to the second supporting table 42, the base plate moves down to drive the second supporting table 42 to reach the position corresponding to the chuck 2, the second cylinder 52 extends to push the shaft assembly 2a into the chuck 2, the chuck 2 clamps the shaft assembly 2a to process the shaft assembly 2a, after the processing is finished, the third support table 43 moves to a position corresponding to the chuck 2, the fourth air cylinder 54 extends to push the shaft assembly 2a out of the chuck 2 to the third support table 43, the base plate moves upward, the third air cylinder 53 moves to push the processed shaft sleeve 2a out, the first air cylinder 51 extends to push the shaft assembly 2a to the second support table 42, and the automatic continuous feeding can be realized from this process to this process.

In this example, still include a receipts material supporting bench 44, receive material supporting bench 44 and first supporting bench 41 and be in same vertical orientation, receive the distance between material supporting bench 44 and the first supporting bench 41 and be the same with the distance between second supporting bench 42 and the third supporting bench 43. In this structure, the one-to-one correspondence between the support tables can be realized, when the second support table 42 and the first support table 41 on the base plate are on the same horizontal plane, the third support table 43 and the material receiving support table 44 are also on the same horizontal plane, the feeding and discharging can be performed simultaneously, and the operation efficiency is improved.

In this example, the material receiving support 44 is a circular tube. The receiving support table 44 for the round pipe can comprehensively protect the shaft sleeve 2a, and simultaneously limits the degree of freedom of radial movement of the shaft sleeve 2a, and the arrangement is orderly and stably.

In this example, one end of the push rod 6 is connected to the connecting rod 61, and the fourth cylinder 54 is disposed parallel to the push rod 6 and fixedly connected to the connecting rod 61. The structure can reduce the size of the equipment, and the equipment is more compact.

The above description in this specification is merely illustrative of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (4)

1. A mechanism for conveying a shaft sleeve on a machine tool, the machine tool comprises a main shaft box, the main shaft box is connected with a chuck for clamping the shaft sleeve, the mechanism is characterized by further comprising a support which is fixed with the main shaft box, the support is connected with a storage tank, the shaft sleeve is arranged in the storage tank in parallel, the storage tank is inclined, a first supporting platform for bearing the shaft sleeve is arranged at the low end of the storage tank, a first air cylinder for driving the shaft sleeve is arranged at one end of the first supporting platform, a feeding device capable of moving vertically is arranged at the other end of the first supporting platform,

the feeding device comprises a base plate, a second supporting table and a third supporting table which are transversely arranged are arranged on the base plate, the base plate is also connected with a second air cylinder and a third air cylinder, the second air cylinder drives a shaft sleeve part positioned on the second supporting table in a telescopic operation mode, and the third air cylinder drives a shaft sleeve part positioned on the third supporting table in a telescopic operation mode;

the spindle box is provided with a channel for the push rod to penetrate through, the push rod penetrates through the channel and the chuck, the push rod is connected with a fourth cylinder, and the fourth cylinder can support and push a shaft sleeve member located on the chuck in the telescopic operation.

2. The mechanism of claim 1, further comprising a material receiving support table, wherein the material receiving support table is vertically aligned with the first support table, and wherein the material receiving support table is spaced from the first support table by a distance equal to a distance between the second support table and the third support table.

3. The mechanism for transporting a set of axes on a machine tool of claim 1 wherein the material receiving support platform is a circular tube.

4. The mechanism of claim 1, wherein the rod is connected at one end to a rod, and the fourth cylinder is disposed parallel to the rod and is fixedly connected to the rod.

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