CN209128643U - A kind of mechanical Tucked-in selvage apparatus of air-jet loom - Google Patents

Abstract

The utility model discloses a kind of mechanical Tucked-in selvage apparatus of air-jet loom, including cabinet, driving gear, transmission mechanism, executing agency and solenoid valve, and the top of cabinet is equipped with gear shaft, the rotation of driving gear gear shaft.Transmission mechanism includes the first cam being mounted on gear shaft, the second cam, and the first cam two sides are respectively equipped with the first, second rocker arm, and the second cam two sides are respectively equipped with third, the 4th rocker arm.First rocker arm drives the first guide rod along its axial movement, and the second rocker arm drives the second guide rod along its axial movement, and third rocker arm drives third guide rod along its axial movement, and the 4th rocker arm drives the rotation of third guide rod.Executing agency includes scissors, flanging block, drive block and gripper, and scissors and flanging block are located on the first guide rod, and gripper is located on third guide rod.For the utility model in such a way that machinery is sealed, motion stabilization is reliable, and the control of scissors opening precisely, improves the stability, reliability and kinematic accuracy of operation, flanging better effect.

Description

A kind of mechanical Tucked-in selvage apparatus of air-jet loom

Technical field

The utility model relates to technical field of textile machine, and in particular to a kind of mechanical Tucked-in selvage apparatus of air-jet loom.

Background technique

Currently, existing air-jet loom for cotton yarn fabric selvedge processing there are two types of, one is flashes, i.e., in weft end Weft yarn is lockked using strand side in portion, and weft end reveals, but postorder also needs to carry out the processing such as selvedge suture；Another kind is plain edge, Weft end is usually folded into shed open, forms more neat plain edge, the processes such as postorder selvedge suture can be saved, it is deep by user Favor.The Tucked-in selvage apparatus of existing air-jet loom, and it is divided into mechanical and two class of pneumatic type.Wherein, pneumatic Tucked-in selvage apparatus Weft end is blown into shed open using air-flow, it is high-efficient, it is easy to maintenance, but influenced by factors such as structure, air-flows, performance is unstable, Flanging effect is undesirable.Mechanical Tucked-in selvage apparatus is using gripper by yarn end hook into shed open, compared with pneumatic Tucked-in selvage apparatus, machine The flanging effect of tool Tucked-in selvage apparatus is good, but low efficiency, and vulnerable part is also relatively more, repairs cumbersome.It can be seen that existing machinery Tucked-in selvage apparatus needs to be further improved.

Utility model content

In view of the above shortcomings of the prior art, the utility model aim is to propose a kind of mechanical tuck-in selvage of air-jet loom Device, the mechanical Tucked-in selvage apparatus of solution is rolled in the presence of leakage, filling cutter kinematic accuracy is low causes flanging effect poor and cam mechanism Sealed spring rapid wear leads to the problem of colliding reed.

In order to solve the above-mentioned technical problem, the technical scheme adopted by the utility model is

A kind of mechanical Tucked-in selvage apparatus of air-jet loom, including cabinet, driving gear, transmission mechanism, executing agency and electricity Magnet valve, the upper lateral of cabinet are equipped with gear shaft, the rotation of driving gear gear shaft.Transmission mechanism includes being mounted on gear shaft On the first cam, the second cam, the top of gear shaft is equipped with the first main shaft and the second main shaft.The two sides of first cam are set respectively There is the first, second rocker arm, and the first, second rocker arm is driven to swing.The two sides of second cam are respectively equipped with third, the 4th rocker arm, And third, the 4th rocker arm is driven to swing.The lower end of first rocker arm connects the first guide rod, and the first guide rod is driven axially to transport along it Dynamic, the lower end of the second rocker arm connects the second guide rod, and drives the second guide rod along its axial movement, the lower end connection of third rocker arm the Three guide rods, and drive third guide rod along its axial movement, the 4th rocker arm drives third guide rod to rotate by connecting rod.Executing agency position Outside cabinet comprising scissors, flanging block, drive block and gripper, scissors and flanging block are located on the first guide rod, drive block It is located on the second guide rod, gripper is located on third guide rod.

Preferably, the two sides of first cam and the second cam offer groove, each rocker arm middle part and adjacent trenches respectively Respective side is provided with an idler wheel, and idler wheel is located in the groove of respective side.

Preferably, the first, second, third rocker arm is vertically arranged, and upper end is arranged in cabinet by the first main shaft.4th shakes Arm is longitudinally arranged, and front end is arranged in cabinet by the second main shaft.Under working condition, first the first, second rocker arm of actuated by cams Lower end swing, the lower end swing of the second actuated by cams third rocker arm, the rear end of the 4th rocker arm are swung up and down.

Preferably, driving gear is mounted on the outside of cabinet by bracket, and one end of gear shaft is pierced by outside cabinet, and pacifies Equipped with driven gear, the driving gear is engaged with driven gear.

Preferably, each guide rod is longitudinally arranged in parallel in the lower part of cabinet, and the outside of cabinet is stretched out in front end.The first, second, The side of third rocker arm lower end is provided with a sliding block, and each sliding block is rotatedly connected with corresponding rocker arm.The one of each guide rod rear end Side is provided with the vertical chute matched with sliding block, and each sliding block is located in the vertical chute of corresponding guide rod, and drive leader is along its axis The movement of line direction.

Preferably, the rear end of third guide rod is connected with the extension bar of square-section, and rocking bar is provided on extension bar, described to shake The end of bar and the lower end of connecting rod are rotatedly connected, and the upper end of connecting rod is connected with the rear end thereof of the 4th rocker arm, and the 4th rocker arm passes through Rocking bar and connecting rod driving third guide rod rotation.

Preferably, the scissors includes stator and movable plate, and stator is fixed on the front end of the first guide rod by scissors mounting base, Scissors mounting base is slidably matched with the second guide rod.Movable plate and flanging block are mounted on the same side of stator by pin shaft, and movable plate is close to On the outer wall of stator, movable plate is equipped with far from the side of stator can compress it the spring leaf on stator.The flanging block Rear end is equipped with eccentric shaft, and eccentric shaft is adjusted with flanging block and is fixedly linked, and eccentric shaft is caught in the card slot of movable plate and spring leaf rear end It is interior.The upper end of the flanging block is equipped with roller bearing, and the roller bearing extends transversely into the roller bearing driver slot of drive block, and drive block passes through Roller bearing drives flanging block to rotate around pin shaft.

Preferably, the front side of the flanging block has the weft guide groove of lateral direction penetrating, and the front end of flanging block is equipped with vertical Airflow channel, airflow channel is up and down and across weft guide groove, the upper end of airflow channel and the gas nozzle phase for being mounted on flanging block Company communicates, and the gas nozzle is connected by gas line with the solenoid valve.

Preferably, the gripper is removably mounted at the front end of third guide rod, third guide rod by gripper fixed block Gripper can be driven rotatable around its axis, gripper can also be driven along its axial-movement, the end of the gripper is bent to form Crook.

By using above-mentioned technical proposal, the advantageous effects of the utility model are: the design of the utility model structure is closed Reason, for cam mechanism in such a way that machinery is sealed, motion stabilization is reliable, exempts the additional drag of spring, reduces driving force, mentions High operational efficiency.The opening of scissors can be adjusted by eccentric shaft, control and adjust more accurate, improve mechanical tuck-in selvage Stability, reliability and the kinematic accuracy of device operation, obtain more preferably flanging effect.

Detailed description of the invention

Fig. 1 is a kind of principle schematic diagram of the mechanical Tucked-in selvage apparatus of air-jet loom of the utility model.

Fig. 2 is a kind of schematic diagram of internal structure of the mechanical Tucked-in selvage apparatus of air-jet loom of the utility model.

Specific embodiment

The utility model is described in detail with reference to the accompanying drawing:

The mechanical Tucked-in selvage apparatus of a kind of air-jet loom combined with Figure 1 and Figure 2, including cabinet 1, driving gear 2, driver Structure 3, executing agency 4 and solenoid valve 5, the open top of cabinet 1 are simultaneously detachably equipped with top cover 11, and the rear side of the cabinet 1 can Disassembly is equipped with rear cover 12, and front side is fixedly installed with guide rod gland 13.The upper lateral of the cabinet 1 is equipped with gear shaft 6, main The rotation of 2 gear shaft 6 of moving gear.Driving gear 2 is mounted on the left hand external of cabinet 1 by bracket 21, and bracket 21 passes through company It connects lid 14 to be mounted on the left side outer wall of cabinet 1, one end of gear shaft 6 passes through the ball bearing 15 configured in connection cover 14 and wears Out outside cabinet 1, and driven gear 22 is installed, the driving gear 2 is engaged with driven gear 22.

Transmission mechanism 3 includes the first cam 31, the second cam 32 being mounted on gear shaft 6 side by side, 31 He of the first cam Second cam 32 is detachably connected by flat key with gear shaft 6 respectively, and gear shaft 6 drives the first cam 31,32 turns of the second cam Dynamic, the top of gear shaft 6 is equipped with the first main shaft 61 and the second main shaft 62, and first main shaft 61 and the second main shaft 62 are located at cabinet 1 inside and parallel with gear shaft 6, the both ends of the first main shaft 61 and the second main shaft 62 are fixedly linked with 1 inner wall of cabinet respectively.

First cam 31 is respectively arranged on the left side and the right side the first rocker arm 33, the second rocker arm 34, the first rocker arm 33, the second rocker arm 34 are respectively positioned on the inside of cabinet 1, and first rocker arm 33 and the second rocker arm 34 are vertically arranged, and upper end passes through bearing and respectively One main shaft 61 is rotatedly connected.Second cam 32 is respectively arranged on the left side and the right side third rocker arm 35, the 4th rocker arm 36, third rocker arm 35, the 4th rocker arm 36 is respectively positioned on the inside of cabinet 1, and the third rocker arm 35 is vertically arranged, and the upper end is main by bearing and first Axis 61 is rotatedly connected, 36 lateral arrangement of the 4th rocker arm, and front end is rotatedly connected with the second main shaft 62.

The two sides of first cam 31 and the second cam 32 offer the groove to match with each rocker motion rule respectively, First rocker arm 33, the second rocker arm 34, third rocker arm 35, the 4th rocker arm 36 middle part and adjacent trenches respective side, be provided with one A idler wheel 37, each idler wheel 37 are respectively clamped into the groove of respective side, are rolled and are cooperated with the inner wall of groove.Under working condition, actively Gear 2 drives the first cam 31 and the rotation of the second cam 32 by driven gear 22, and the driving of the first cam 31 is located at its left and right two The lower end swing of the first rocker arm 33, the second rocker arm 34 of side, the driving of the second cam 32 are located at the third rocker arm 35 on the left of it Lower end swing, and the rear end of the 4th rocker arm 36 being located on the right side of it is driven to swing up and down.

The lower part of the cabinet 1 is vertically arranged with the first guide rod 51, the second guide rod 52, third guide rod 53, the first guide rod 51, Second guide rod 52, third guide rod 53 front end be pierced by the outside of cabinet 1, first guide rod 51, the second guide rod 52, third are led Bar 53 is cooperated by steel bushing and cabinet 1, and is matched by oil sealing with guide rod gland 13.First rocker arm 33, the second rocker arm 34 And the side of 35 lower end of third rocker arm, it is provided with a sliding block 38, the corresponding rocker arm of each sliding block 38 is rotatedly connected.First The rear end side of guide rod 51, the second guide rod 52 and third guide rod 53 is equipped with the limit sliding chutes being slidably matched with sliding block 38, installation Sliding block 38 in the lower end of the first rocker arm 33 is matched with the limit sliding chutes of 51 rear end of the first guide rod, drives the first guide rod 51 along it It moves axially back and forth.The sliding block 38 for being mounted on 34 lower end of the second rocker arm is matched with the limit sliding chutes of 52 rear end of the second guide rod, is driven Dynamic second guide rod 52 is moved axially back and forth along it, is mounted on the sliding block 38 of 35 lower end of third rocker arm and the limit of 53 rear end of third guide rod Position sliding slot matches, and driving third guide rod 53 is moved axially back and forth along it.

The rear end of 4th rocker arm 36 drives third guide rod 53 to rotate by vertically arranged connecting rod 39, connecting rod 39 it is upper End is connected with the rear end thereof of the 4th rocker arm 36.The rear end of third guide rod 53 is connected with the extension bar 54 of square-section, described to add Stock 54 is docked with the coaxial fixation of third guide rod 53, rocking bar 55 is provided on extension bar 54, an end cap of rocking bar 55 is in extension bar 54 outside can slide axially relative to rocking bar 55 along it, and the lower end of the other end and connecting rod 39 of the rocking bar 55 is rotatedly connected, 4th rocker arm 36 drives third guide rod 53 to rotate by rocking bar 55 and connecting rod 39.4th rocker arm 36 is passing through rocking bar 55 and connecting rod 39 During driving third guide rod 53 to rotate, the sliding block 38 of 35 lower end of third rocker arm is always positioned at the limit of 53 rear end of third guide rod In sliding slot, guarantee that third guide rod 53 while rotation, can also move forward and backward axially along.

Executing agency 4 is located at outside cabinet 1 comprising scissors 7, flanging block 8, drive block 10 and gripper 9,7 He of scissors Flanging block 8 is located at the front end of the first guide rod 51, and drive block 10 is secured transverse to the front end in the second guide rod 52 and with the second guide rod 52 move together, and gripper 9 is located at the front end of third guide rod 53.The scissors 7 includes stator 71 and movable plate 72, and stator 71 passes through Scissors mounting base 73 is fixed on the front end of the first guide rod 51, and scissors mounting base 73 is slidably matched with the second guide rod 52.72 He of movable plate Flanging block 8 is mounted on the same side of stator 71 by pin shaft 75, and movable plate 72 is tightly attached on the outer wall of stator 71, and movable plate 72 is far from fixed The side of piece 71, equipped with the spring leaf 74 that can be compressed it on stator 71, the movable plate 72, spring leaf 74 and flanging block 8 can It is rotated around pin shaft 75 relative to stator 71.

The rear end of the flanging block 8 is equipped with eccentric shaft 81 close to the side of scissors 7, and eccentric shaft 81 is located at close to movable plate 72 Side and with flanging block 8 is adjustable is fixedly linked, eccentric shaft 81 is caught in the card slot of 73 rear end of movable plate 72 and spring leaf.The folding The upper end of side block 8 is equipped with roller bearing 82, and the roller bearing 82 extends transversely into the roller bearing driver slot of drive block 10, and drive block 10 passes through Roller bearing 82 drives flanging block 8 to rotate around pin shaft 75, and eccentric shaft 81 is moved with flanging block 8.The eccentric shaft 8 drives during exercise Dynamic movable plate 72 is rotated around 75 axis of pin, and realization shearing is matched with stator 71.The utility model can be fixed on by adjusting eccentric shaft 8 Stator 71 and 72 openings of sizes of movable plate is adjusted in eccentric position on flanging block 8, realization.

The front side of the flanging block 8 has the weft guide groove 83 of lateral direction penetrating, and the front end of flanging block 8 is equipped with vertical air-flow Channel, airflow channel is up and down and across weft guide groove 83, the upper end of airflow channel and the gas nozzle for being mounted on 8, flanging block top 84 communicate, and the gas nozzle 84 is connected by gas line with the solenoid valve 5, are controlled from solenoid valve 5 and pass through gas line to air-flow It is supplied in channel.The gripper 9 is removably mounted at the front end of third guide rod 53, third guide rod by gripper fixed block 91 53 can drive gripper 9 rotatable around its axis, while gripper 9 can also be driven along its axial-movement, the tip forward of gripper 9 Lateral bend and inflection formation hook portion 91.In use process, third guide rod 53 drives the hook clan of gripper 9 to enter flanging block 8 Weft guide groove 83 in, weft yarn by hook portion top pass through flanging block 8 weft guide groove 83, into be in scissors 7 stator 71 and 72 opening of movable plate, the second guide rod 52 drives the movement of movable plate 72 to cut the end of weft yarn, and solenoid valve 5 is by gas line to gas It blows in circulation road, weft yarn is blown into the hook portion of gripper 9, third guide rod 53 drives gripper 9 that weft yarn is hooked into shed open It is interior.

Certainly, the above description is not intended to limit the present invention, and the utility model is also not limited to the example above, The variations, modifications, additions or substitutions that those skilled in the art are made in the essential scope of the utility model, are also answered Belong to the protection scope of the utility model.

Claims (9)

1. a kind of mechanical Tucked-in selvage apparatus of air-jet loom, including cabinet, driving gear, transmission mechanism, executing agency and electromagnetism Valve, which is characterized in that the upper lateral of cabinet is equipped with gear shaft, the rotation of driving gear gear shaft；Transmission mechanism includes peace The top of the first cam, the second cam on gear shaft, gear shaft is equipped with the first main shaft and the second main shaft；First cam Two sides are respectively equipped with the first, second rocker arm, and the first, second rocker arm is driven to swing；The two sides of second cam be respectively equipped with third, 4th rocker arm, and third, the 4th rocker arm is driven to swing；The lower end of first rocker arm connects the first guide rod, and drives the first guide rod edge It is axially moved, and the lower end of the second rocker arm connects the second guide rod, and drives the second guide rod under its axial movement, third rocker arm End connection third guide rod, and drive third guide rod along its axial movement, the 4th rocker arm drives third guide rod to rotate by connecting rod；It holds Row mechanism is located at outside cabinet comprising scissors, flanging block, drive block and gripper, scissors and flanging block are located at the first guide rod On, drive block is located on the second guide rod, and gripper is located on third guide rod.

2. a kind of mechanical Tucked-in selvage apparatus of air-jet loom according to claim 1, which is characterized in that the first cam and The two sides of two cams offer groove respectively, and each rocker arm middle part and the respective side of adjacent trenches are provided with an idler wheel, idler wheel In the groove of respective side.

3. a kind of mechanical Tucked-in selvage apparatus of air-jet loom according to claim 2, which is characterized in that first, second, Three rocker arms are vertically arranged, and upper end is arranged in cabinet by the first main shaft；4th rocker arm is longitudinally arranged, and front end passes through the second main shaft It is arranged in cabinet；Under working condition, the lower end swing of first the first, second rocker arm of actuated by cams, the second actuated by cams The lower end swing of three rocker arms, the rear end of the 4th rocker arm are swung up and down.

4. a kind of mechanical Tucked-in selvage apparatus of air-jet loom according to claim 1, which is characterized in that driving gear passes through Bracket is mounted on the outside of cabinet, and one end of gear shaft is pierced by outside cabinet, and is equipped with driven gear, the driving gear with Driven gear engagement.

5. a kind of mechanical Tucked-in selvage apparatus of air-jet loom according to claim 1, which is characterized in that each guide rod is longitudinally flat Row is arranged in the lower part of cabinet, and the outside of cabinet is stretched out in front end；The side of first, second, third rocker arm lower end is provided with One sliding block, each sliding block are rotatedly connected with corresponding rocker arm；The side of each guide rod rear end be provided with matched with sliding block it is vertical Sliding slot, each sliding block are located in the vertical chute of corresponding guide rod, and drive leader is moved along its axis direction.

6. a kind of mechanical Tucked-in selvage apparatus of air-jet loom according to claim 1, which is characterized in that after third guide rod End is connected with the extension bar of square-section, and rocking bar is provided on extension bar, and the end of the rocking bar rotates phase with the lower end of connecting rod Even, the upper end of connecting rod is connected with the rear end thereof of the 4th rocker arm, and the 4th rocker arm drives the rotation of third guide rod by rocking bar and connecting rod.

7. a kind of mechanical Tucked-in selvage apparatus of air-jet loom according to claim 1, which is characterized in that the scissors includes Stator and movable plate, stator are fixed on the front end of the first guide rod by scissors mounting base, and scissors mounting base is matched with the sliding of the second guide rod It closes；Movable plate and flanging block are mounted on the same side of stator by pin shaft, and movable plate is tightly attached on the outer wall of stator, and movable plate is far from stator Side be equipped with can compress it the spring leaf on stator；The rear end of the flanging block is equipped with eccentric shaft, eccentric shaft and flanging Block is adjustable to be fixedly linked, and eccentric shaft is caught in movable plate and the card slot of spring leaf rear end；The upper end of the flanging block is equipped with rolling Axis, the roller bearing extend transversely into the roller bearing driver slot of drive block, and drive block drives flanging block to rotate around pin shaft by roller bearing.

8. a kind of mechanical Tucked-in selvage apparatus of air-jet loom according to claim 1, which is characterized in that the flanging block Front side has a weft guide groove of lateral direction penetrating, and the front end of flanging block is equipped with vertical airflow channel, airflow channel up and down and Across weft guide groove, the upper end of airflow channel is connected with the gas nozzle for being mounted on flanging block to be communicated, and the gas nozzle passes through gas line and institute Solenoid valve is stated to be connected.

9. a kind of mechanical Tucked-in selvage apparatus of air-jet loom according to claim 1, which is characterized in that the gripper is logical The front end that gripper fixed block is removably mounted at third guide rod is crossed, third guide rod can drive gripper rotatable around its axis, Gripper can be driven along its axial-movement, the end of the gripper is bent to form crook.