CN207942031U - A kind of shank slotting equipment - Google Patents

Abstract

The utility model discloses a kind of shank slotting equipment, are related to field of textile equipment, including：Pedestal, displacement mechanism and feed mechanism, institute's displacement mechanism is arranged with the feed mechanism on the same pedestal, wherein, institute's displacement mechanism includes X-axis displacement, Z axis displacement, institute's displacement mechanism is equipped with spindle motor and spindle head, the feed mechanism includes feed mechanism bottom plate, feed mechanism cushion block, shank guide geosynclinal block, shank feeding device, shank pressing device and material-pulling device, the shank guide geosynclinal block is arranged with the material-pulling device on the feed mechanism bottom plate, the shank feeding device is arranged with the shank pressing device on the shank guide geosynclinal block.Using above-mentioned technical proposal, since displacement mechanism and feed mechanism are all made of servo motor and work with milling to control the feeding of shank groove milling process, accurate positioning, defect rate is low, high in machining efficiency using automatic processing, saves production cost.

Description

A kind of shank slotting equipment

Technical field

The utility model is related to field of textile equipment, more particularly to a kind of shank slotting equipment.

Background technology

In the prior art to the shank groove milling of tricot machine floricome, due to the limitation of technology, the artificial groove milling of generally use Mode groove milling is carried out to shank, but positioning caused by artificial groove milling operation is inaccurate, causes defect rate high, be easy to cause resource Waste, while processing efficiency is low, and production cost is high, influences delivery date.

Utility model content

The technical problem to be solved by the present invention is to provide a kind of shank slotting equipment of shank slotting equipment, Solve artificial groove milling defect rate height and the low technical problem of processing efficiency.

In order to solve the above-mentioned technical problem, the technical solution of the utility model is：

A kind of shank slotting equipment, including：Pedestal, displacement mechanism and feed mechanism, institute's displacement mechanism and described Feed mechanism is arranged on the same pedestal, and institute's displacement mechanism includes X-axis displacement mechanism, Z axis displacement mechanism, the displacement Mechanism is equipped with spindle motor and main shaft tool apron, wherein the feed mechanism include feed mechanism bottom plate, feed mechanism cushion block, Shank guide geosynclinal block, shank feeding device, shank pressing device and material-pulling device, institute's displacement mechanism bottom plate are arranged in the base On seat, the shank guide geosynclinal block is arranged with the material-pulling device on the feed mechanism bottom plate, the shank feeding device It is arranged on the shank guide geosynclinal block with the shank pressing device.

Wherein, the X-axis displacement mechanism includes X-axis displacement coaster, X-axis slide rail and X-axis drive component, the Z axis displacement Mechanism includes Z axis displacement slide unit, Z axis slide rail and Z axis drive component, and the X-axis slide rail is arranged on institute's displacement mechanism bottom plate, Sliding block is provided in the X-axis slide rail, the X-axis displacement coaster is arranged on the sliding block of the X-axis slide rail, the displacement machine The X-axis drive component is additionally provided on structure bottom plate, the X-axis drive component is connect with the sliding block of the X-axis slide rail；

The Z axis slide rail is arranged with the Z axis drive component in the side of the X-axis displacement coaster, is set in Z axis slide rail It is equipped with sliding block, the Z axis displacement slide unit is arranged on the sliding block of the Z axis slide rail, the spindle motor and the main shaft tool apron It is arranged on the Z axis displacement slide unit.

Specifically, the X-axis drive component respectively includes ball screw, nut and servo electricity with the Z axis drive component Machine.

Wherein, the spindle motor and the main shaft tool apron install saw blade by toothed belt transmission on the main shaft tool apron Milling cutter.

Wherein, the feed mechanism cushion block is arranged between the feed mechanism bottom plate and the pedestal, will by bolt The feed mechanism bottom plate is fixed on the pedestal, and the shank guide geosynclinal block is arranged with the material-pulling device in the feeding On organization soleplate, the shank feeding device is arranged with the shank pressing device on the shank guide geosynclinal block.

Wherein, the material-pulling device includes straight line slide unit module and charging ram, and one is provided on the straight line slide unit module Sliding block, the charging ram are arranged on the sliding block of the straight line slide unit module, and the straight line slide unit module is driven by servo motor.

Wherein, the shank pressing device provides power by oil hydraulic cylinder and compresses.

Specifically, the X-axis slide rail quantity is two groups, two groups of sliding rails are arranged in parallel in described with the X-axis drive component On displacement mechanism bottom plate.

Specifically, the Z axis slide rail quantity is two groups, two groups of sliding rails are arranged in parallel in the X with the Z axis drive component The side of axle position moving block, and it is vertical with institute's displacement mechanism bottom plate.

Wherein, institute's displacement mechanism is arranged in one end of the pedestal, and the feed mechanism is arranged in the another of the pedestal One end, institute's displacement mechanism and the X-axis of the feed mechanism are axially parallel, and the main shaft tool apron is axial parallel with the pedestal, The main shaft tool apron is axial axially vertical with the X-axis of the feed mechanism.

Using above-mentioned technical proposal, shank groove milling is controlled since displacement mechanism and feed mechanism are all made of servo motor The feeding of journey works with milling, and accurate positioning, defect rate is low, high in machining efficiency, saves production cost.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model shank slotting equipment.

In figure, 1- pedestals, 2- displacement mechanism bottom plates, 21-X axis the linear guides, 22-X axis sliding blocks, 23-X axis servo motors, 24-X shaft ball screws, 25-X axle position moving blocks, 3-Z axial displacement slide units, 31-Z axis the linear guides, 32-Z axis sliding blocks, 33-Z axis Servo motor, 34-Z shaft ball screws, 35- spindle motors, 36- main shaft tool aprons, 4- feed mechanism bottom plates, 41- feed mechanism pads Block, 42- shank guide geosynclinal blocks, 5- shank feeding devices, 51- shanks, 6- shank pressing devices, 61- binder oil hydraulic cylinders, 7- are straight Line slide unit module, 71- charging rams, 72- material-pulling device servo motors.

Specific implementation mode

Specific embodiment of the present utility model is described further below in conjunction with the accompanying drawings.It should be noted that The explanation of these embodiments is used to help to understand the utility model, but does not constitute the restriction to the utility model.This Outside, technical characteristic involved in the various embodiments of the present invention described below is as long as they do not conflict with each other It can be combined with each other.

As the first embodiment of the utility model, a kind of shank slotting equipment is proposed, such as Fig. 1, including：Pedestal 1, Displacement mechanism and feed mechanism, displacement mechanism are separately positioned on the both ends of pedestal 1 with feed mechanism.Specifically, as shown in Figure 1, Displacement mechanism includes that the one end that is arranged on pedestal 1 of displacement mechanism bottom plate 2, X-axis the linear guide 21 are set with X-axis ball screw 24 It sets on displacement mechanism bottom plate 2,25 bottom surface of X-axis displacement coaster (X-axis displacement coaster 25 is right angle trigonometry body structure) is arranged in X-axis On sliding block 22, X-axis servo motor 23 connect with X-axis ball screw 24, pass through drive X-axis servo motor 23 rotate X-axis ball wire Bar 24 forms X-axis displacement, X axis feeding and reset for groove milling process；Z axis displacement slide unit 3 is arranged in X-axis displacement coaster Z axis the linear guide 31, Z axis sliding block 32 is arranged in 25 sides between the two, and Z axis ball screw 34 connects Z axis servo motor 33, leads to 33 rotational Z-axis ball screw 34 of Z axis servo motor of overdriving forms Z axis displacement, and the Z axis for groove milling process to feed and moves back Knife.Spindle motor 35, main shaft tool apron 36 are arranged on Z axis displacement slide unit 3, and annular saw slitting milling cutter, main shaft are installed on main shaft tool apron 36 Motor 35 rotates the machining for realizing groove milling process by toothed belt transmission driving spindle tool apron 36, and main shaft is electric in the present embodiment Machine 35 uses servo motor, and those skilled in the art are it is recognised that other electric rotating machine driving spindle tool aprons 36 can also be used Rotation.

Continue as shown in Figure 1, the other end in pedestal 1 is arranged in feed mechanism bottom plate 4,2 feed mechanism pads are arranged in bottom Block 41.The left end in feed mechanism bottom plate 4 is arranged in shank guide geosynclinal block 42, and setting shank feeding fills on shank guide geosynclinal block 42 5 and shank pressing device 6 are set, connect binder oil hydraulic cylinder 61 on shank pressing device 6, shank 51 to be processed is placed on shank feeding In the guide groove of device 5；The right end in feed mechanism bottom plate 4 is arranged in straight line slide unit module 7, and the connection of 7 tail portion of straight line slide unit module pushes away Expect that device servo motor 72, one end of charging ram 71 are mounted on the sliding block of straight line slide unit module 7.Specifically, the automatic milling of shank After slot equipment starts, 35 driving spindle tool apron 36 of spindle motor rotation, material-pulling device servo motor 72 drives straight line slide unit module 7 Sliding block move forward, be mounted on sliding block on charging ram 71, the deflector chute on shank guide geosynclinal block 42 will be from shank The shank 51 that material device 5 is fallen into slot shifts 6 position of shank pressing device onto, and binder oil hydraulic cylinder 61 drives shank pressing device 6 will Shank 51 compresses, and Z axis displacement mechanism is toward bottom offset, and after reaching setting position, X-axis displacement mechanism is turned right displacement feed, meanwhile, peace Annular saw slitting milling cutter mounted in main shaft tool apron 36 carries out machining to the shank 51 that bar pressing device 6 compresses, and is worked into setting position X-axis displacement stopping is postponed, up displacement resets Z axis displacement mechanism, and X-axis displacement mechanism is toward left dislocation withdrawing, while pressing device Pine moves back, and completes time processing cycle, and cycle continuous in this way is achieved that shank slotting is processed.Those skilled in the art can be with Know, whole process is controlled by PLC program, can realize entire motion process according to processing request adjustment programme parameter It accurately controls.

Utility model uses above-mentioned technical proposal, and needle is controlled since displacement mechanism and feed mechanism are all made of servo motor The feeding of bar groove milling process works with milling, and accurate positioning, defect rate is low, high in machining efficiency, saves production cost.

The embodiment of the utility model is explained in detail above in association with attached drawing, but the utility model is not limited to be retouched The embodiment stated.For a person skilled in the art, right in the case where not departing from the utility model principle and spirit These embodiments carry out a variety of change, modification, replacement and modification, still fall in the scope of protection of the utility model.

Claims (10)

1. a kind of shank slotting equipment, which is characterized in that including：Pedestal, displacement mechanism and feed mechanism, the displacement machine Structure and the feed mechanism are arranged on the same pedestal, and institute's displacement mechanism includes X-axis displacement mechanism, Z axis displacement mechanism, Institute's displacement mechanism is equipped with spindle motor and main shaft tool apron, wherein the feed mechanism includes feed mechanism bottom plate, feeder Structure cushion block, shank guide geosynclinal block, shank feeding device, shank pressing device and material-pulling device, institute's displacement mechanism bottom plate setting On the pedestal, the shank guide geosynclinal block is arranged with the material-pulling device on the feed mechanism bottom plate, the shank Feeding device is arranged with the shank pressing device on the shank guide geosynclinal block.

2. shank slotting equipment according to claim 1, it is characterised in that：The X-axis displacement mechanism includes X-axis position Moving block, X-axis slide rail and X-axis drive component, the Z axis displacement mechanism include Z axis displacement slide unit, Z axis slide rail and Z axis driving group Part, the X-axis slide rail are arranged on institute's displacement mechanism bottom plate, and sliding block, the X-axis displacement are provided in the X-axis slide rail Coaster is arranged on the sliding block of the X-axis slide rail, and the X-axis drive component, the X are additionally provided on institute's displacement mechanism bottom plate Axis drive component is connect with the sliding block of the X-axis slide rail；

The Z axis slide rail is arranged with the Z axis drive component in the side of the X-axis displacement coaster, is provided in Z axis slide rail Sliding block, the Z axis displacement slide unit are arranged on the sliding block of the Z axis slide rail, and the spindle motor is arranged with the main shaft tool apron On the Z axis displacement slide unit.

3. shank slotting equipment according to claim 2, it is characterised in that：The X-axis drive component and the Z axis Drive component respectively includes ball screw, nut and servo motor.

4. shank slotting equipment according to claim 1, it is characterised in that：The spindle motor and the main shaft knife Seat installs annular saw slitting milling cutter by toothed belt transmission on the main shaft tool apron.

5. shank slotting equipment according to claim 1, it is characterised in that：The feed mechanism cushion block is arranged in institute It states between feed mechanism bottom plate and the pedestal, the feed mechanism bottom plate is fixed on the pedestal by bolt, it is described Shank guide geosynclinal block is arranged with the material-pulling device on the feed mechanism bottom plate, the shank feeding device and the shank Pressing device is arranged on the shank guide geosynclinal block.

6. shank slotting equipment according to claim 1, it is characterised in that：The material-pulling device includes straight line slide unit Module and charging ram, a sliding block is provided on the straight line slide unit module, and the charging ram is arranged in the straight line slide unit module Sliding block on, the straight line slide unit module is driven by servo motor.

7. shank slotting equipment according to claim 1, it is characterised in that：The shank pressing device is by oil hydraulic cylinder Power is provided to compress.

8. shank slotting equipment according to claim 2, it is characterised in that：The X-axis slide rail quantity be two groups, two Group sliding rail is arranged in parallel in the X-axis drive component on institute's displacement mechanism bottom plate.

9. shank slotting equipment according to claim 2, it is characterised in that：The Z axis slide rail quantity be two groups, two Group sliding rail is arranged in parallel in the side of the X-axis displacement coaster with the Z axis drive component, and hangs down with institute's displacement mechanism bottom plate Directly.

10. shank slotting equipment according to claim 1, it is characterised in that：Institute's displacement mechanism is arranged described The other end in the pedestal, the X-axis of institute's displacement mechanism and the feed mechanism is arranged in one end of pedestal, the feed mechanism Axial parallel, the main shaft tool apron is axial parallel with the pedestal, the axial X-axis axis with the feed mechanism of the main shaft tool apron To vertical.