CN204385378U - Suspender belt shedding mechanism and plastic knitting cloth water jet loom - Google Patents

Abstract

The utility model discloses a kind of suspender belt shedding mechanism and there is the plastic knitting cloth water jet loom of described suspender belt shedding mechanism.Described suspender belt shedding mechanism comprises power transmission shaft, cam, rotor, armature spindle, rotor armed lever, swinging axle, linkage, shedding beam and guide plate; One end connecting power device of power transmission shaft or power driving module, the other end is connected with cam; Rotor to be arranged on armature spindle and to be pressed in cam outer rim; Armature spindle is connected to one end of rotor armed lever, and the other end of rotor armed lever is fixed on swinging axle; Linkage moves back and forth up and down for driving shedding beam; A shedding plate group is set in the bottom, one end of shedding beam or a shedding plate group is set respectively in its bottom, two ends; Each shedding plate group has two shedding plates at least, all offers suspender belt perforation in each shedding plate lower end.Suspender belt, while weaving woven cloth, can inweave in woven cloth by the water jet looms that the utility model is addressed, and is beneficial to and saves operation, enhances productivity.

Description

Suspender belt shedding mechanism and plastic knitting cloth water jet loom

Technical field

The utility model relates to a kind of suspender belt shedding mechanism and has the plastic knitting cloth water jet loom of described suspender belt shedding mechanism.

Background technology

Plastic knitting cloth water jet loom of the prior art, mainly comprises shedding mechanism, water jet weft insertion device, warp-feeding mechanism, spooler and transmission mechanism.After plastic knitting cloth water jet loom weaves woven cloth, usually need the woven cloth woven to make Polywoven Bag further.In Polywoven Bag manufacturing process, need to put on suspender belt at the submarginal position of woven cloth, to use when sealing, but plastic knitting cloth water jet loom of the prior art, do not have suspender belt when weaving and penetrate function.At present, suspender belt is penetrated woven cloth and only has manual mode, roughly have two kinds: one directly penetrates mode; Another kind first extracts a small amount of warp thread out in the edge near woven cloth, then at empty yarn position, suspender belt penetrated the mode of woven cloth.Obviously, the manual threading mode of this personnel, production cycle length, inefficiency.

Utility model content

For the above-mentioned technical problem existed in prior art, the utility model proposes a kind of suspender belt shedding mechanism, it adopts following technical scheme:

Suspender belt shedding mechanism, comprises power transmission shaft, cam, rotor, armature spindle, rotor armed lever, swinging axle, linkage, shedding beam and guide plate; Wherein,

One end of power transmission shaft is provided with power set or power driving module, and the other end is connected with cam;

Rotor to be arranged on armature spindle and to be pressed in cam outer rim;

Armature spindle is connected to one end of rotor armed lever, and the other end of rotor armed lever is fixed on swinging axle;

Linkage has one group or many groups; Often organize linkage, comprise a fork and a connecting rod;

One end of fork is connected on swinging axle, and the other end is formed hinged by one end of bearing pin and connecting rod; The other end of connecting rod is formed hinged by bearing pin and axis pin base and shedding beam, and axis pin base is fixed on shedding beam;

Be provided with a shedding plate group in the bottom, one end of shedding beam or be respectively equipped with a shedding plate group in its bottom, two ends, each shedding plate group has two shedding plates at least;

Suspender belt perforation is all offered in the lower end of each shedding plate;

Guide plate has two, and the dual-side of shedding beam is along in the chute laying respectively at a corresponding guide plate.

Further, rotor armed lever is provided with extension spring, for straining rotor armed lever and making rotor be pressed on cam outer rim.

Further, cam outer cause four sections composition, i.e. first paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim, wherein, first paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim are in turn connected to form described cam outer rim;

First paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim are all curved;

First paragraph outer rim is all identical to the distance of cam center with each point in the 3rd section of outer rim, and second segment outer rim is not identical to the distance of cam center with each point in the 4th section of outer rim;

When cam rotation contacts to first paragraph outer rim with rotor, shedding strip is moved suspender belt and is rested in minimum point motionless;

When cam rotation contacts to second segment outer rim with rotor, shedding strip is moved suspender belt and is moved up and arrive peak;

When cam rotation contacts to the 3rd section of outer rim with rotor, shedding strip is moved suspender belt and is rested at peak motionless;

When cam rotation contacts to the 4th section of outer rim with rotor, shedding strip is moved suspender belt and is moved down and arrive minimum point.

In addition, the utility model also proposed a kind of plastic knitting cloth water jet loom with above-mentioned suspender belt shedding mechanism, while woven cloth weaved by water jet looms, is inweaved by suspender belt in woven cloth, is beneficial to and saves operation, enhances productivity.

To achieve these goals, the utility model adopts following technical scheme:

Plastic knitting cloth water jet loom, comprises suspender belt shedding mechanism, main opening mechanism, water jet weft insertion device, warp-feeding mechanism, spooler and main drive gear; Described suspender belt shedding mechanism comprises power transmission shaft, cam, rotor, armature spindle, rotor armed lever, swinging axle, linkage, shedding beam and guide plate; Wherein,

One end of power transmission shaft connects main drive gear by power driving module, and the other end is connected with cam;

Rotor to be arranged on armature spindle and to be pressed in cam outer rim;

Armature spindle is connected to one end of rotor armed lever, and the other end of rotor armed lever is fixed on swinging axle;

Linkage has one group or many groups; Often organize linkage, comprise a fork and a connecting rod;

One end of fork is connected on swinging axle, and the other end is formed hinged by one end of bearing pin and connecting rod; The other end of connecting rod is formed hinged by bearing pin and axis pin base and shedding beam, and axis pin base is fixed on shedding beam;

Be provided with a shedding plate group in the bottom, one end of shedding beam or be respectively equipped with a shedding plate group in its bottom, two ends, each shedding plate group has two shedding plates at least;

Suspender belt perforation is all offered in the lower end of each shedding plate;

Guide plate has two, and the dual-side of shedding beam is along in the chute laying respectively at a corresponding guide plate.

Further, rotor armed lever is provided with extension spring, for straining rotor armed lever and making rotor be pressed on cam outer rim.

Further, cam outer cause four sections composition, i.e. first paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim, wherein, first paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim are in turn connected to form described cam outer rim;

First paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim are all curved;

First paragraph outer rim is all identical to the distance of cam center with each point in the 3rd section of outer rim, and second segment outer rim is not identical to the distance of cam center with each point in the 4th section of outer rim;

When cam rotation contacts to first paragraph outer rim with rotor, shedding strip is moved suspender belt and is rested in minimum point motionless;

When cam rotation contacts to second segment outer rim with rotor, shedding strip is moved suspender belt and is moved up and arrive peak;

When cam rotation contacts to the 3rd section of outer rim with rotor, shedding strip is moved suspender belt and is rested at peak motionless;

When cam rotation contacts to the 4th section of outer rim with rotor, shedding strip is moved suspender belt and is moved down and arrive minimum point.

Further, power driving module comprises the first toothed synchronous belt wheel, the second toothed synchronous belt wheel and tooth form synchronous belt;

First toothed synchronous belt wheel is arranged on loom main shaft, and the second toothed synchronous belt wheel is arranged on one end of power transmission shaft, and tooth form synchronous belt is between the first toothed synchronous belt wheel and the second toothed synchronous belt wheel.

Further, the second tooth form synchronous belt tooth number is the integral multiple of the first tooth form synchronous belt tooth number.

Compared with prior art, the utility model tool has the following advantages:

The utility model has set up suspender belt shedding mechanism on original plastic knitting cloth water jet loom architecture basics, by the structure of appropriate design suspender belt shedding mechanism, make water jet looms while weaving woven cloth, suspender belt is inweaved in woven cloth, be beneficial to and save operation, enhance productivity.In addition, the suspender belt shedding mechanism in the utility model and main opening mechanism all adopt identical power set to drive, and are beneficial on the one hand and ensure that overall structure is neatly orderly, be convenient on the other hand control the structure of suspender belt in cloth tissue.

Accompanying drawing explanation

Fig. 1 is the front view of suspender belt shedding mechanism in the utility model;

Fig. 2 is the side view of suspender belt shedding mechanism in the utility model;

Wherein, 1-loom main shaft, 2-first toothed synchronous belt wheel, 3-tooth form synchronous belt, 4-second toothed synchronous belt wheel, 5-power transmission shaft, 6-cam, 7-rotor, 8-armature spindle, 9-extension spring, 10-rotor armed lever, 11-swinging axle, 12-fork, 13-bearing pin, 14-connecting rod, 15-bearing pin, 16-axis pin base, 17-shedding beam, 18-shedding plate, 19-guide plate, 20-suspender belt, 21-suspender belt is bored a hole.

Detailed description of the invention

Below in conjunction with accompanying drawing and detailed description of the invention, the utility model is described in further detail:

Embodiment 1

Shown in composition graphs 1, suspender belt shedding mechanism, comprises power transmission shaft 5, cam 6, rotor 7, armature spindle 8, rotor armed lever 10, swinging axle 11, linkage, shedding beam 17 and guide plate 19.Wherein,

One end of power transmission shaft 5 is provided with power set or power driving module, and the other end is connected with cam 6.

Rotor 7 to be arranged on armature spindle 8 and to be pressed in cam 6 outer rim.

Armature spindle 8 is connected to one end of rotor armed lever 10, and the other end of rotor armed lever 10 is fixed on swinging axle 11.

Rotor armed lever 10 is provided with extension spring, for straining rotor armed lever and making rotor 7 be pressed on cam 6 outer rim.In use, one end of extension spring 9 can be fixed on rotor armed lever 10, and the other end is fixed on loom frame.

Linkage can have one group or many groups, moves back and forth up and down for driving shedding beam 17.

Concrete, often organize linkage, comprise a fork 12 and a connecting rod 14.Wherein, one end of fork 12 is connected on swinging axle 11, and the other end is connected to form hinge by bearing pin 13 and one end of connecting rod 14; The other end of connecting rod 14 is connected to form hinge by bearing pin 15 and axis pin base 16 with shedding beam 17, and axis pin base 16 is fixed on shedding beam 17.

Be provided with a shedding plate group in the bottom, one end of shedding beam 17 or be respectively equipped with shedding plate group in its bottom, two ends.

Each shedding plate group has two shedding plates 18 at least, and all offer suspender belt perforation 21 in the lower end of each shedding plate 18, suspender belt 20 thus aperture is crossed and entered fell.

Preferably, suspender belt perforation 21, in flat, facilitates suspender belt 20 to penetrate.

When the bottom, one end of shedding beam 17 arranges shedding plate 18, suspender belt can be inweaved in the edge, side of woven cloth; When the bottom, two ends of shedding beam 17 arranges shedding plate 18 respectively, suspender belt can be inweaved at the dual-side in woven cloth respectively along place.

Guide plate 19 has two, and the dual-side of shedding beam 17 is along laying respectively in corresponding guide plate 19 chute.

Concrete, the outer cause of cam 6 four sections of compositions, i.e. first paragraph outer rim AB, second segment outer rim BC, the 3rd section of outer rim CD and the 4th section outer rim DA, wherein, first paragraph outer rim AB, second segment outer rim BC, the 3rd section of outer rim CD and a 4th section outer rim DA are in turn connected to form described cam 6 outer rim;

First paragraph outer rim AB, second segment outer rim BC, the 3rd section of outer rim CD and the 4th section outer rim DA are all curved;

First paragraph outer rim AB is all identical to the distance of cam center with each point on the 3rd section of outer rim CD, and second segment outer rim BC is not identical to the distance of cam center with each point on the 4th section of outer rim DA;

When cam 6 rotate contact to first paragraph outer rim AB with rotor 7 time, it is motionless that shedding plate 18 drives suspender belt 20 to rest in minimum point, and at this moment weft yarn is on suspender belt 20;

When cam 6 rotate contact to second segment outer rim BC with rotor 7 time, shedding plate 18 drives suspender belt 20 move up and arrive peak;

When cam 6 rotate contact to the 3rd section of outer rim CD with rotor 7 time, it is motionless that shedding plate 18 drives suspender belt 20 to rest at peak, and at this moment weft yarn is below suspender belt 20;

When cam 6 rotate contact to the 4th section of outer rim DA with rotor 7 time, shedding plate 18 drives suspender belt 20 move down and arrive minimum point.

The roughly course of work of suspender belt shedding mechanism is:

Power transmission shaft 5 is with moving cam 6 to rotate after receiving power, cam 6 rotation meeting rotor driven armed lever 10 swing also makes swinging axle 11 swing, swinging axle 11 swing can drive fork 12 to swing up and down and connecting rod 14 is moved up and down, connecting rod 14 moves up and down and shedding beam 17 can be driven to move back and forth up and down in guide plate 19 chute inside, shedding beam 17 moves back and forth up and down and shedding plate 18 can be driven to move back and forth up and down, and then drives suspender belt 20 to realize opening or operation of remaining silent.

Above-mentioned suspender belt shedding mechanism can be applied on plastic knitting cloth water jet loom of the prior art, coordinates the main opening mechanism of original water jet looms, realizes suspender belt and penetrates, be beneficial to saving operation, enhance productivity while weaving woven cloth.

Embodiment 2

The present embodiment 2 proposes a kind of plastic knitting cloth water jet loom, except comprising main opening mechanism, water jet weft insertion device, warp-feeding mechanism, spooler and main drive gear, also comprises the suspender belt shedding mechanism addressed as embodiment 1.

Suspender belt shedding mechanism can not affect the duty of the original each mechanism of plastic knitting cloth water jet loom, and by the coordinated with main opening mechanism, water jet weft insertion device, warp-feeding mechanism, spooler and main drive gear, be convenient to be inweaved by suspender belt while weaving woven cloth that it is inner.

Concrete, one end of power transmission shaft 5 connects main drive gear by power driving module.This power driving module comprises the first toothed synchronous belt wheel 2, second toothed synchronous belt wheel 4 and tooth form synchronous belt 3.

First toothed synchronous belt wheel 2 is arranged on loom main shaft 1, and the second toothed synchronous belt wheel 4 is arranged on one end of power transmission shaft 5, and tooth form synchronous belt 3 is between the first toothed synchronous belt wheel 2 and the second toothed synchronous belt wheel 4.

Herein, suspender belt shedding mechanism and main opening mechanism adopt identical power device to drive, and are convenient to control the structure of suspender belt in cloth tissue.Such as, when the gear ratio of the second toothed synchronous belt wheel 4 and the first toothed synchronous belt wheel 2 is 1, then the structure of the tissue of cloth is 1:1, and namely weft yarn weft yarn on suspender belt constantly circulates on suspender belt; When the gear ratio of the second toothed synchronous belt wheel 4 and the first toothed synchronous belt wheel 2 is 2, then the structure of the tissue of cloth is 2:2, and namely two weft yarns, two weft yarns on suspender belt constantly circulate on suspender belt.

Certainly, be only exemplary explanation above, can not as to restriction of the present utility model, can the gear ratio of choose reasonable second toothed synchronous belt wheel 4 and the first toothed synchronous belt wheel 2 as required.

The roughly course of work of plastic knitting cloth water jet loom is:

During loom running, loom main shaft 1 rotates and drives power transmission shaft 5 to rotate, power transmission shaft 5 rotation can be with moving cam 6 to rotate, cam 6 rotation meeting rotor driven armed lever 10 swing also makes swinging axle 11 swing, swinging axle 11 swing can drive fork 12 to swing up and down and connecting rod 14 is moved up and down, connecting rod 14 moves up and down and shedding beam 17 can be driven to move back and forth up and down in guide plate 19 chute inside, shedding beam 17 moves back and forth up and down and shedding plate 18 can be driven to move back and forth up and down, and then drives suspender belt realize opening or remain silent.

Certainly; more than illustrate and be only preferred embodiment of the present utility model; the utility model is not limited to enumerate above-described embodiment; should be noted that; any those of ordinary skill in the art are under the instruction of this description; made all equivalently to substitute, obvious variant, within the essential scope all dropping on this description, protection of the present utility model ought to be subject to.

Claims (8)

1. suspender belt shedding mechanism, is characterized in that, comprises power transmission shaft, cam, rotor, armature spindle, rotor armed lever, swinging axle, linkage, shedding beam and guide plate; Wherein,

One end of power transmission shaft is provided with power set or power driving module, and the other end is connected with cam;

Rotor to be arranged on armature spindle and to be pressed in cam outer rim;

Armature spindle is connected to one end of rotor armed lever, and the other end of rotor armed lever is fixed on swinging axle;

Linkage has one group or many groups; Often organize linkage, comprise a fork and a connecting rod;

One end of fork is connected on swinging axle, and the other end is formed hinged by one end of bearing pin and connecting rod; The other end of connecting rod is formed hinged by bearing pin and axis pin base and shedding beam, and axis pin base is fixed on shedding beam;

Be provided with a shedding plate group in the bottom, one end of shedding beam or be respectively equipped with a shedding plate group in its bottom, two ends, each shedding plate group has two shedding plates at least;

Suspender belt perforation is all offered in the lower end of each shedding plate;

Guide plate has two, and the dual-side of shedding beam is along in the chute laying respectively at a corresponding guide plate.

2. suspender belt shedding mechanism according to claim 1, is characterized in that, rotor armed lever is provided with extension spring, for straining rotor armed lever and making rotor be pressed on cam outer rim.

3. suspender belt shedding mechanism according to claim 1, it is characterized in that, the outer cause four sections composition of cam, i.e. first paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim, wherein, first paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim are in turn connected to form described cam outer rim;

First paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim are all curved;

First paragraph outer rim is all identical to the distance of cam center with each point in the 3rd section of outer rim, and second segment outer rim is not identical to the distance of cam center with each point in the 4th section of outer rim;

When cam rotation contacts to first paragraph outer rim with rotor, shedding strip is moved suspender belt and is rested in minimum point motionless;

When cam rotation contacts to second segment outer rim with rotor, shedding strip is moved suspender belt and is moved up and arrive peak;

When cam rotation contacts to the 3rd section of outer rim with rotor, shedding strip is moved suspender belt and is rested at peak motionless;

When cam rotation contacts to the 4th section of outer rim with rotor, shedding strip is moved suspender belt and is moved down and arrive minimum point.

4. plastic knitting cloth water jet loom, comprises main opening mechanism, water jet weft insertion device, warp-feeding mechanism, spooler and main drive gear; It is characterized in that, also comprise suspender belt shedding mechanism, described suspender belt shedding mechanism comprises power transmission shaft, cam, rotor, armature spindle, rotor armed lever, swinging axle, linkage, shedding beam and guide plate; Wherein,

One end of power transmission shaft connects main drive gear by power driving module, and the other end is connected with cam;

Rotor to be arranged on armature spindle and to be pressed in cam outer rim;

Armature spindle is connected to one end of rotor armed lever, and the other end of rotor armed lever is fixed on swinging axle;

Linkage has one group or many groups; Often organize linkage, comprise a fork and a connecting rod;

One end of fork is connected on swinging axle, and the other end is formed hinged by one end of bearing pin and connecting rod; The other end of connecting rod is formed hinged by bearing pin and axis pin base and shedding beam, and axis pin base is fixed on shedding beam;

Be provided with a shedding plate group in the bottom, one end of shedding beam or be respectively equipped with a shedding plate group in its bottom, two ends, each shedding plate group has two shedding plates at least;

Suspender belt perforation is all offered in the lower end of each shedding plate;

Guide plate has two, and the dual-side of shedding beam is along in the chute laying respectively at a corresponding guide plate.

5. plastic knitting cloth water jet loom according to claim 4, is characterized in that, rotor armed lever is provided with extension spring, for straining rotor armed lever and making rotor be pressed on cam outer rim.

6. plastic knitting cloth water jet loom according to claim 4, it is characterized in that, the outer cause four sections composition of cam, i.e. first paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim, wherein, first paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim are in turn connected to form described cam outer rim;

First paragraph outer rim, second segment outer rim, the 3rd section of outer rim and the 4th section of outer rim are all curved;

First paragraph outer rim is all identical to the distance of cam center with each point in the 3rd section of outer rim, and second segment outer rim is not identical to the distance of cam center with each point in the 4th section of outer rim;

When cam rotation contacts to first paragraph outer rim with rotor, shedding strip is moved suspender belt and is rested in minimum point motionless;

When cam rotation contacts to second segment outer rim with rotor, shedding strip is moved suspender belt and is moved up and arrive peak;

When cam rotation contacts to the 3rd section of outer rim with rotor, shedding strip is moved suspender belt and is rested at peak motionless;

When cam rotation contacts to the 4th section of outer rim with rotor, shedding strip is moved suspender belt and is moved down and arrive minimum point.

7. plastic knitting cloth water jet loom according to claim 4, is characterized in that, power driving module comprises the first toothed synchronous belt wheel, the second toothed synchronous belt wheel and tooth form synchronous belt;

First toothed synchronous belt wheel is arranged on loom main shaft, and the second toothed synchronous belt wheel is arranged on one end of power transmission shaft, and tooth form synchronous belt is between the first toothed synchronous belt wheel and the second toothed synchronous belt wheel.

8. plastic knitting cloth water jet loom according to claim 7, is characterized in that, the second tooth form synchronous belt tooth number is the integral multiple of the first tooth form synchronous belt tooth number.