CN204000098U - A kind of six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames - Google Patents

Abstract

The utility model discloses a kind of six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames, comprise a bent axle and the identical six bar mechanism of maximum 10 nested structures, bent axle is provided with ten crank throws, the phase place of ten crank throws or identical or differ 180 °, every cover six bar mechanism is connected on a crank throw, bent axle drives corresponding six bar mechanism by crank throw, and every cover six bar mechanism drives one page heald frame by intermediate bar and push rod group successively.The utility model drives the quantity of six bar mechanism by changing bent axle, and utilize the different phase configuration of each crank on bent axle and the configuration of difformity connecting rod, make shedding mechanism of the present utility model can not only knit plain weave stain drill pattern fabric, also can knit the novel fabric that plentiful degree is different.Meanwhile, the advantage of employing articulated linkage mechanism is simple in structure, and revolute pair is stressed less than lower pair, and revolute pair is stressed smoothly, Shaochong is hit, and is particularly useful for Modern High-Speed loom.

Description

A kind of six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames

Technical field

The utility model belongs to air-jet loom field, relates to the shedding mechanism on a kind of air-jet loom, is specifically related to a kind of six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames.

Background technology

The effect of shedding mechanism is the variation according to fabric tissue, and every page of heald frame drives warp thread according to the order of sequence, warp thread is divided into two-layer up and down, upper and lower forms shed open between two-layer, and shed open is exactly weft yarn passage, forms moment weft yarn leap shed open on time at shed open.Form upper and lower two-layer warp thread, heald frame needs multipage side by side, and wherein several pages of heald frames lift warp thread through heald and form top line, and another several pages of heald frames lead and fall warp thread formation lower layer warp yarns through heald, and therefore the phase place of every page of integrated box movement is not identical.

Shedding mechanism drives two pages of heald frames, can only knit plain cloth; Shedding mechanism drives six to ten pages of heald frames, can knit multiple stain drill pattern fabric.The connecting rod that various designs are different, corresponding various coupler-point curves respectively, just have and produce various integrated box movement curves, and different integrated box movement curves, can weave the different fabric of various plentiful degree structure.The instructions for use that the design of shedding mechanism of weaving machine is used coupler-point curve to approach heald frame, feature is the approximate basic demand that meets harness motion.

Good design makes Bar Linkage Shedding Mechanism generate the good curve of output of symmetry, if producing the symmetry of curve, Bar Linkage Shedding Mechanism differs from 3 °, opening arm angle displacement approximately differs 0.01 °, do not affect the use of mechanism completely, can also realize at the highest lowest order of shed open and be equipped with two sections of pauses with linkage, it is in order during this period of time to complete wefting insertion action that heald frame pauses in the highest extreme lower position of shed open.

Most shedding mechanisms are made up of cam swing mechanism and heald frame system, the greatest drawback of cam swing mechanism is that the pressure of cam and cam follower contact surface is very large, cam and cam follower friction surface are because of the large generation wearing and tearing of pressure, and wearing and tearing more aggravate the impact between cam and cam follower.Especially loom speed is more and more higher, impacts with wearing and tearing increasing; Especially negative shedding mechanism does force-closedly with return spring, in the time that loom rotating speed is greater than 650 revs/min, impacts the large all another part to damaging shedding mechanism.This situation must change, then also occur now substituting force-closed cam with conjugate cam, but the accuracy of manufacture of conjugate cam is high, once the accuracy of manufacture can not meet, produces equally thump and strong vibration.Therefore the task of top priority is now exactly to explore a kind of shedding mechanism that substitutes cam mechanism with articulated linkage mechanism.

Utility model content

In order to meet the demand, the utility model aims to provide a kind of six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames, can not only perfection weave multiple stain drill pattern fabric, can reduce again impact and the wearing and tearing of all another parts on shedding mechanism.

For realizing above-mentioned technical purpose, reach above-mentioned technique effect, the utility model is achieved through the following technical solutions:

A kind of six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames, comprise a bent axle and the identical six bar mechanism of maximum 10 nested structures, described bent axle is provided with ten crank throws, the phase place of ten described crank throws or identical or differ 180 °, the described six bar mechanism of every cover is connected on a described crank throw, described bent axle drives corresponding described six bar mechanism by described crank throw, and the described six bar mechanism of every cover drives one page heald frame by intermediate bar and push rod group successively.

Further, the total length of described bent axle is 230-256 millimeter, and the rotating speed of described bent axle is 1/2nd of loom rotating speed.

Further, described crank throw axle journal diameter is 40-50 millimeter, and between adjacent two described crank throws, centre-to-centre spacing is 14 millimeters.

Further, described six bar mechanism is in series by crank and rocker mechanism and two bar assembly, described crank and rocker mechanism comprises crank, leads along by hand and rocking bar, one end of described crank is hinged on the described crank throw that described bent axle is corresponding, the other end of described crank is hinged with described first connection place of leading along by hand, one end of described the second interface of leading along by hand and described rocking bar is hinged, and the other end of described rocking bar is hinged on the rocker of frame; Described pair of bar assembly comprises input connecting rod and the opening arm being made up of transition arm and output arm, the junction of described transition arm and described output arm is hinged on the opening arm pin joint of frame, one end of described transition arm and described input connecting rod is hinged, the other end of described input connecting rod and described the 3rd interface of leading along by hand are hinged, and described output arm drives one page heald frame by intermediate bar and push rod group successively.

Described bent axle A can drive the described six bar mechanism that 10 nested structures are identical at most simultaneously, and due to the phase place of 10 described crank throws 1 on described bent axle A or identical or differ 180 °, the phase place that makes described crank AB also or identical or differ 180 °.

By changing the number of connection of described six bar mechanism, and adjust the phase place of the described crank throw 1 that used, can weave different fabrics.

1) in the time being connected with 6 covers or the described six bar mechanism of 8 cover on described bent axle, 180 ° of the phase phasic differences of adjacent described crank, this mode is used for knitting plain cloth;

2) in the time being connected with 5 covers or the described six bar mechanism of 8 cover on described bent axle, second, third, 180 ° of the phase place of the 6th, the 7th described crank and the phase phasic differences of crank described in first, the phase place of the 4th, the 5th, the 8th described crank is identical with crank described in first; This mode is used for knitting TWILL CLOTH;

3) in the time being connected with the described six bar mechanism of 9 cover on described bent axle, second, third, 180 ° of the phase place of the 4th, the 6th, the 7th, the 8th described crank and the phase phasic differences of crank described in first, five, the phase place of the 9th described crank is identical with the phase place of crank described in first, and this mode can be knitted 31 TWILL CLOTH;

4) in the time being connected with the described six bar mechanism of 7 cover on described bent axle, second, third, 180 ° of the phase place of the 4th, the 5th described crank and the phase phasic differences of crank described in first, six, the phase place of the 7th described crank is identical with the phase place of crank described in first, and this mode can tapestry satin pattern fabric.

Further, every described crank equal in length, length is 32 millimeters-38 millimeters.

Further, the frame length L AD=128-150 millimeter between described bent axle and described rocker, the frame length L AE=150-176 millimeter between described bent axle and described opening arm pin joint.

Further, between described first, second, third interface of leading along by hand, be respectively first, second, third connecting rod, the length L BC=98-106 millimeter of described first connecting rod, is provided with the connecting rod cap for fixing described input connecting rod by two bolts on described first connection place.

Further, describedly can be hand in hand following four kinds:

1) described hand in hand for shaft-like, described first, second, third interface is straight line, LCF=LBF=0.5BC;

2) described is triangle, LCF=LBF > 0.5LBC hand in hand;

3) described is triangle hand in hand, LCF=34-38 millimeter, and the angle of described first connecting rod and described third connecting rod is 72 °;

4) described is triangle hand in hand, LCF=34-38 millimeter, and the angle of described first connecting rod and described third connecting rod is 90 °;

In formula, LBC represents the length of described first connecting rod, and LBF represents the length of described second connecting rod, and LCF represents the length of described third connecting rod.

Further, described input connecting rod is direct rod shape or knee shape, the length L FG=170-190 millimeter of described input connecting rod, the input of described input connecting rod and the centre of output offer respectively groove, the width of described groove is 8 millimeters, and the degree of depth of the described groove of described input one side is 52-70 millimeter.

Compared with prior art, the beneficial effects of the utility model are:

The utility model is a kind of shedding mechanism being made up of the six bar mechanism without cam and heald frame system, utilize a bent axle to drive the identical six bar mechanism of 4-10 nested structure, each crank throw drives hand in hand by crank, on hand in hand, pick out two bar assemblies, the two limit positions that six bar mechanism is swung at opening arm has been realized approximate pause again.Drive the quantity of six bar mechanism by changing bent axle, the different phase configuration of each crank on bent axle and the configuration of difformity connecting rod are utilized, make shedding mechanism of the present utility model can knit plain weave stain drill pattern fabric, can knit again the novel fabric that plentiful degree is different.

Meanwhile, the advantage of employing articulated linkage mechanism is simple in structure, and revolute pair is stressed less than lower pair, and revolute pair is stressed smoothly, Shaochong is hit, and is particularly useful for Modern High-Speed loom.This makes the utility model perfection to weave plain weave stain drill pattern fabric, can also reduce loom and vibrate impact and the wearing and tearing to all another parts on shedding mechanism.

Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be implemented according to the content of description, below with preferred embodiment of the present utility model and coordinate accompanying drawing describe in detail.Detailed description of the invention of the present utility model is provided in detail by following examples and accompanying drawing thereof.

Brief description of the drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, forms the application's a part, and schematic description and description of the present utility model is used for explaining the utility model, does not form improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation that the utility model drives six bar shedding mechanisms of one page heald frame;

Fig. 2 is the motion principle figure of six Bar Linkage Shedding Mechanisms of the present utility model;

Fig. 3 is the utility model when knitting plain cloth, the usage quantity of crank throw and phase relation schematic diagram thereof on bent axle;

Fig. 4 is the utility model when knitting TWILL CLOTH, the usage quantity of crank throw and phase relation schematic diagram thereof on bent axle;

Fig. 5 is the utility model when knitting 31 TWILL CLOTH, the usage quantity of crank throw and phase relation schematic diagram thereof on bent axle;

Fig. 6 is the utility model during for tapestry satin pattern fabric, the usage quantity of crank throw and phase relation schematic diagram thereof on bent axle;

Fig. 7 is the lead along by hand structure chart of the first embodiment of the utility model;

Fig. 8 is the avette coupler-point curve that Fig. 7 leads along by hand;

Fig. 9 is the lead along by hand structure chart of the second embodiment of the utility model;

Figure 10 is the side view that Fig. 9 leads along by hand;

Figure 11 is the avette coupler-point curve that Fig. 9, Figure 10 lead along by hand;

Figure 12 is the lead along by hand structure chart of the third embodiment of the utility model;

Figure 13 is the 8-shaped coupler-point curve that Figure 12 leads along by hand;

Figure 14 is the utility model structure chart of the 4th kind of embodiment hand in hand;

Figure 15 is the 8-shaped coupler-point curve that Figure 14 leads along by hand;

Figure 16 is the structural representation that input connecting rod of the present utility model is direct rod shape;

Figure 17 is the side view that Figure 16 inputs connecting rod;

Figure 18 is the structural representation that input connecting rod of the present utility model is knee shape;

Figure 19 is the side view that Figure 18 inputs connecting rod.

Detailed description of the invention

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

Shown in Figure 1, a kind of six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames, comprise a bent axle A and the identical six bar mechanism of maximum 10 nested structures, described bent axle A is provided with ten crank throws 1, the phase place of ten described crank throws 1 or identical or differ 180 °, the described six bar mechanism of every cover is connected on a described crank throw 1, described bent axle A drives corresponding described six bar mechanism by described crank throw 1, and the described six bar mechanism of every cover drives one page heald frame 2 to pump by intermediate bar 4 and push rod group 3 successively.

Shown in Figure 2, described six bar mechanism is in series by crank and rocker mechanism ABCD and two bar assembly FGEH, described crank and rocker mechanism ABCD comprises crank AB, BCF and rocking bar CD lead along by hand, one end of described crank AB is hinged on the described crank throw 1 that described bent axle A is corresponding, the other end of described crank AB is hinged with the first connection place B of described BCF hand in hand, described the second interface C of BCF hand in hand and one end of described rocking bar CD are hinged, and the other end of described rocking bar CD is hinged on the rocker D of frame; Described couple of bar assembly FGEH comprises input connecting rod FG and the opening arm GEH being made up of transition arm GE and output arm EH, the junction of described transition arm GE and described output arm EH is hinged on the opening arm pin joint E of frame, one end of described transition arm GE and described input connecting rod FG is hinged, the 3rd interface F of the other end of described input connecting rod FG and described BCF is hand in hand hinged, and described output arm EH drives one page heald frame 2 by intermediate bar 4 and push rod group 3 successively.

Further, the total length of described bent axle A is 230-256 millimeter.

Further, described crank throw 1 axle journal diameter is 40-50 millimeter, and between adjacent two described crank throws 1, centre-to-centre spacing is 14 millimeters, and the diameter of adjacent two described crank throw 1 junction axles is 50 millimeters.

Described bent axle A can drive the described six bar mechanism that 10 nested structures are identical at most simultaneously, and due to the phase place of 10 described crank throws 1 on described bent axle A or identical or differ 180 °, the phase place that makes described crank AB also or identical or differ 180 °.

By changing the number of connection of described six bar mechanism, and adjust the phase place of the described crank throw 1 that used, can weave different fabrics.

Preferably, the set-up mode of described crank AB and described six bar mechanism can have following four kinds:

1) shown in Figure 3, in the time being connected with 6 covers or the described six bar mechanism of 8 cover on described bent axle A, 180 ° of the phase phasic differences of adjacent described crank AB, this mode is used for knitting plain cloth;

2) shown in Figure 4, in the time being connected with 5 covers or the described six bar mechanism of 8 cover on described bent axle A, second, third, 180 ° of the phase place of the 6th, the 7th described crank AB and the phase phasic differences of crank described in first (AB), four, the phase place of the 5th, the 8th described crank AB is identical with crank AB described in first, and this mode is used for knitting TWILL CLOTH;

3) shown in Figure 5, in the time being connected with the described six bar mechanism of 9 cover on described bent axle A, second, third, 180 ° of the phase place of the 4th, the 6th, the 7th, the 8th described crank AB and the phase phasic differences of crank AB described in first, five, the phase place of the 9th described crank AB is identical with the phase place of crank AB described in first, and this mode can be knitted 31 TWILL CLOTH;

4) shown in Figure 6, in the time being connected with the described six bar mechanism of 7 cover on described bent axle A, second, third, 180 ° of the phase place of the 4th, the 5th described crank AB and the phase phasic differences of crank AB described in first, six, the phase place of the 7th described crank AB is identical with the phase place of crank AB described in first, and this mode can tapestry satin pattern fabric.

The transmission of described bent axle A is from loom main shaft, and loom main shaft is through bent axle A described in belt wheel and gear pair transmission, and the rotating speed of described bent axle A is 1/2nd of loom main shaft rotating speed.

Further, shown in Figure 2, the frame length L AD=128-150 millimeter between described bent axle A and described rocker D, the frame length L AE=150-176 millimeter between described bent axle A and described opening arm pin joint E.

Further, every described crank AB's is equal in length, and length is 32 millimeters-38 millimeters.

Further, the described first, second, third interface B of BCF hand in hand, C, between F, be respectively first, second, third connecting rod BC, BF, CF, the length L BC=98-106 millimeter of described first connecting rod BC, described first connection place B is upper is provided with the connecting rod cap 5 for fixing described input connecting rod FG by two bolts.

Preferably, described BCF hand in hand can be following four kinds:

1) shown in Figure 7, described BCF is hand in hand shaft-like, described first, second, third interface B, and C, F is straight line, LCF=LBF=0.5BC.

With the alternative cam shedding mechanism of linkage, realize the intermittent movement of shedding mechanism at two limit positions with the coupler-point curve of various shapes, make the geometric locus of ordering with crank-motion F, shown in Figure 8, be illustrated as avette coupler-point curve, belong to the oval curve that thickness is little, length is long.Coordinate is with the YX coordinate of Fig. 2 in length and breadth, and tracing pattern does not exist cusp, and geometric locus trend is that counterclockwise curve is a closed figure.Use shaft-like connecting rod, have the shorter dead time in the highest and extreme lower position of heald frame, two periods of dead times equate.

2), referring to shown in Fig. 9,10, described BCF is hand in hand triangle, LCF=LBF > 0.5LBC, and the thickness of connecting rod thickness is 8-0.1 millimeter.

Take up an official post and get 1 F at the extended surface of described first connecting rod BC line, form connecting rod triangle △ BCF, and get LCF=LBF, make the geometric locus of ordering with crank-motion F, shown in Figure 11, be illustrated as avette coupler-point curve, belong to the oval curve that thickness is little, length is long.Coordinate is with the YX coordinate of Fig. 2 in length and breadth, and tracing pattern does not exist cusp, and geometric locus trend is that counterclockwise curve is a closed figure.Use shaft-like connecting rod, have the longer dead time in the highest and extreme lower position of heald frame, two periods of dead times equate.

3) shown in Figure 12, described BCF is hand in hand triangle, LCF=34-38 millimeter, and the angle of described first connecting rod BC and described third connecting rod CF is 72 °.

Take up an official post and get 1 F at the extended surface of described first connecting rod BC line, form connecting rod triangle △ BCF, get LCF=34-38 millimeter, and angle=72 ° of described third connecting rod CF and described first connecting rod BC.Make the geometric locus of ordering with crank-motion F, shown in Figure 13, be illustrated as 8-shaped coupler-point curve.Coordinate is with the YX coordinate of Fig. 2 in length and breadth, and tracing pattern does not exist cusp, and geometric locus trend is that counterclockwise curve is a closed figure.Use this connecting rod, have the dead time in the highest and extreme lower position of heald frame, two periods of dead times, not etc. difference was not little.

4) shown in Figure 14, described BCF is hand in hand triangle, LCF=34-38 millimeter, and the angle of described first connecting rod BC and described third connecting rod CF is 90 °.

Take up an official post and get 1 F at the extended surface of described first connecting rod BC line, form connecting rod triangle △ BCF, get LCF=34-38 millimeter, angle=90 ° of described third connecting rod CF and described first connecting rod BC.Make the geometric locus of ordering with crank-motion F, shown in Figure 15, be illustrated as 8-shaped coupler-point curve.Coordinate is with the YX coordinate of Fig. 2 in length and breadth, and tracing pattern does not exist cusp, and geometric locus trend is that counterclockwise curve is a closed figure.Use this connecting rod, have the dead time in the highest and extreme lower position of heald frame, two periods of dead times not etc., do not differ greatly.

In above-mentioned formula, LBC represents the length of described first connecting rod BC, and LBF represents the length of described second connecting rod BF, and LCF represents the length of described third connecting rod CF.

Preferably, described input connecting rod FG has following two kinds:

1), referring to shown in Figure 16,17, described input connecting rod FG is direct rod shape;

2), referring to shown in Figure 18,19, described input connecting rod FG is knee shape;

Further, the input F of described input connecting rod FG and output G adopt the connected mode of split ring, bearing shell outer ring is fastened in the axis hole of connecting rod, bearing pin and bearing shell inner ring form and are rotatably assorted, described input F bearing pin two is inserted in the axis hole of described input connecting rod FG, is inserted in the axis hole of described BCF hand in hand in the middle of bearing pin.The input F of described input connecting rod FG and the centre of output G offer respectively groove 6, and two ends connect with described BCF, described opening arm GEH hand in hand through bearing pin, and opening part two bolt tightenings that encircling.The length L FG=170-190 millimeter of described input connecting rod FG, the width of described groove 6 is 8 millimeters, the degree of depth of the described groove 6 of described input F mono-side is 52-70 millimeter.In the middle of described input connecting rod FG two ends, there is groove, the length L FG=170-190 millimeter of connecting rod FG, 8 millimeters of groove widths, F point groove depth 52-70 millimeter.

When use, with the connecting rod shown in Fig. 7 and Fig. 9, join straight shape connecting rod FG; With the connecting rod shown in Figure 12 and Figure 14, join bended connecting rod FG.

Be the six-bar mechanism at opening arm two limit positions with pause function by six Bar Linkage Shedding Mechanisms of above-mentioned length dimension design, there is the six-bar mechanism of pause function in the highest extreme lower position of shed open.

Above-described embodiment is just to allow one of ordinary skilled in the art can understand content of the present utility model and implement according to this for technical conceive of the present utility model and feature being described, its objective is, can not limit protection domain of the present utility model with this.Every equivalent variation or modification of having done according to the essence of the utility model content, all should be encompassed in protection domain of the present utility model.

Claims (10)

1. one kind can drive six Bar Linkage Shedding Mechanisms of ten pages of heald frames, it is characterized in that: comprise a bent axle (A) and the identical six bar mechanism of maximum 10 nested structures, described bent axle (A) is provided with ten crank throws (1), the phase place of described ten crank throws (1) or identical or differ 180 °, the described six bar mechanism of every cover is connected on a described crank throw (1), described bent axle (A) drives corresponding described six bar mechanism by described crank throw (1), the described six bar mechanism of every cover drives one page heald frame (2) by intermediate bar (4) and push rod group (3) successively.

2. six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames according to claim 1, is characterized in that: the total length of described bent axle (A) is 230-256 millimeter, the rotating speed of described bent axle (A) is 1/2nd of loom rotating speed.

3. six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames according to claim 1, is characterized in that: described crank throw (1) axle journal diameter is 40-50 millimeter, and between adjacent two described crank throws (1), centre-to-centre spacing is 14 millimeters.

4. six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames according to claim 1, it is characterized in that: described six bar mechanism is in series by crank and rocker mechanism (ABCD) and two bar assembly (FGEH), described crank and rocker mechanism (ABCD) comprises crank (AB), (BCF) and rocking bar (CD) hand in hand, one end of described crank (AB) is hinged on the described crank throw (1) that described bent axle (A) is corresponding, the other end of described crank (AB) is hinged with the first connection place (B) of described (BCF) hand in hand, described second interface (C) of (BCF) hand in hand and one end of described rocking bar (CD) are hinged, the other end of described rocking bar (CD) is hinged on the rocker (D) of frame, described pair of bar assembly (FGEH) comprises input connecting rod (FG) and the opening arm (GEH) being made up of transition arm (GE) and output arm (EH), described transition arm (GE) is hinged on the opening arm pin joint (E) of frame with the junction of described output arm (EH), described transition arm (GE) is hinged with one end of described input connecting rod (FG), the 3rd interface (F) of the other end of described input connecting rod (FG) and described (BCF) is hand in hand hinged, and described output arm (EH) drives one page heald frame (2) by intermediate bar (4) and push rod group (3) successively.

5. according to six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames described in claim 1 or 4, it is characterized in that:

1) in the time being connected with 6 covers or the described six bar mechanism of 8 cover on described bent axle (A), 180 ° of the phase phasic differences of adjacent described crank (AB);

2) in the time being connected with 5 covers or the described six bar mechanism of 8 cover on described bent axle (A), second, third, 180 ° of the phase place of the 6th, the 7th described crank (AB) and the phase phasic differences of crank described in first (AB), the phase place of the 4th, the 5th, the 8th described crank (AB) is identical with crank described in first (AB);

3) in the time being connected with the described six bar mechanism of 9 cover on described bent axle (A), second, third, 180 ° of the phase place of the 4th, the 6th, the 7th, the 8th described crank (AB) and the phase phasic differences of crank described in first (AB), the phase place of the 5th, the 9th described crank (AB) is identical with the phase place of crank described in first (AB);

4) in the time being connected with the described six bar mechanism of 7 cover on described bent axle (A), second, third, 180 ° of the phase place of the 4th, the 5th described crank (AB) and the phase phasic differences of crank described in first (AB), the phase place of the 6th, the 7th described crank (AB) is identical with the phase place of crank described in first (AB).

6. six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames according to claim 4, is characterized in that: every described crank (AB) equal in length, length is 32 millimeters-38 millimeters.

7. six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames according to claim 4, it is characterized in that: the frame length L AD=128-150 millimeter between described bent axle (A) and described rocker (D), the frame length L AE=150-176 millimeter between described bent axle (A) and described opening arm pin joint (E).

8. six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames according to claim 4, it is characterized in that: the described first, second, third interface (B of (BCF) hand in hand, C, F) between, be respectively first, second, third connecting rod (BC, BF, CF), the length L BC=98-106 millimeter of described first connecting rod (BC), described first connection place (B) is upper is provided with the connecting rod cap (5) for fixing described input connecting rod (FG) by two bolts.

9. according to six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames described in claim 4 or 8, it is characterized in that:

1) described (BCF) is hand in hand shaft-like, and described first, second, third interface (B, C, F) is straight line, LCF=LBF=0.5BC;

2) described (BCF) is hand in hand triangle, LCF=LBF > 0.5LBC;

3) described (BCF) is hand in hand triangle, LCF=34-38 millimeter, and the angle of described first connecting rod (BC) and described third connecting rod (CF) is 72 °;

4) described (BCF) is hand in hand triangle, LCF=34-38 millimeter, and the angle of described first connecting rod (BC) and described third connecting rod (CF) is 90 °;

In formula, LBC represents the length of described first connecting rod (BC), and LBF represents the length of described second connecting rod (BF), and LCF represents the length of described third connecting rod (CF).

10. six Bar Linkage Shedding Mechanisms that drive ten pages of heald frames according to claim 4, it is characterized in that: described input connecting rod (FG) is direct rod shape or knee shape, the length L FG=170-190 millimeter of described input connecting rod (FG), the input (F) of described input connecting rod (FG) and the centre of output (G) offer respectively groove (6), the width of described groove (6) is 8 millimeters, and the degree of depth of the described groove (6) of described input (F) side is 52-70 millimeter.