CN102634901A - Non-harness-cord positive needle selection mechanism - Google Patents

Abstract

The invention discloses a non-harness-cord positive needle selection mechanism, which comprises a cam group and a piezoelectric ceramic slice, wherein the cam group is installed on a rack; the rack at the right side of the cam group is provided with an upper push rod and a lower push rod; the rack at the right side of the upper push rod is provided with a driven sliding block; the rack at the right side of the driven sliding block is respectively provided with a left mandril and a right mandril in parallel; the top of the driven sliding block is provided with an upper sliding block; the top of the upper sliding block is provided with the piezoelectric ceramic slice; the rack at the right side of the lower push rod is provided with a lateral sliding block; and the lateral sliding block is provided with an elastic sheet. According to the non-harness-cord positive needle selection mechanism, the size of a jacquard can be reduced. Because no return spring is arranged, the mechanism does not need to overcome the spring tension to do work, and therefore the power consumption of a machine is lowered.

Description

No harness cord active type selecting mechanism

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Technical field

The present invention relates to a kind of no harness cord active type selecting mechanism.

Background technology

At present, mainly contain the electronic jacquard machine professional production merchant of three great traditions abroad.They are respectively the history pottery Bills (STAUBLI) of France, the Bonus of Britain (BONAS), and (GROSSE) of Germany, they are also representing the advanced technology of hyundai electronics jacquard.Its selecting mechanism is basic identical, and the jacquard needle selecting mechanism with the history pottery Bill (STAUBLI) of France is that example is explained its structure and operation principle below.

Its selecting mechanism unit by about the reciprocating branch of griffing of two alternatively up and down you can well imagine moving activity and collude to do and pump; The assembly pulley that the below that two activities are colluded is made up of two pulleys; Collude the rope yarn that links to each other on the pulley of assembly pulley top with two activities; Rope yarn on the pulley of assembly pulley below is fixed on the frame for one section, and the other end links to each other with the harness cord upper end.Two activities collude above be electromagnetic valve component, have two maintenances to collude on it, its lower end is colluded with two activities respectively and is interlocked, the upper end that keeps colluding can be held or decontrol by electromagnet.

During the electromagnet no power, colluded to be held respectively to collude when moving to the top by two activities griffing to drive and fasten, this moment, assembly pulley was in upper; Thereby make warp thread be in the top shed position, when electromagnet is switched on, keep colluding the upper end and held; Thereby its lower end relieving activity is colluded; Assembly pulley will move to the next, and warp thread will correspondingly be returned to the lower shed position, and the return of warp thread is to be retracted by the return spring that is positioned at its below.

Can know that from the above mentioned there is following shortcoming in such mechanism; One, because each member all is vertical layout in the mechanism, and mechanism links to each other with warp thread through harness cord, and the warp thread below is passed through heald and linked to each other with return spring, and this just makes that mechanism's longitudinal size is bigger.Two, the energy consumption aspect is except the power input that driving is griffed to move; The energy consumption that also has the DM action, though single electromagnet energy consumption is very low, general jacquard is the scale of several thousand pins easily; Make the energy consumption of DM not allow to ignore, in addition, because the return of warp thread is retracted by return spring; So work as warp thread in forming top shed position process, mechanism has to overcome the pulling force acting of spring, and this has increased the power consumption of machine undoubtedly again.

Summary of the invention

The object of the present invention is to provide a kind of no harness cord active type selecting mechanism, owing to do not have harness cord, heald and return spring; Mechanism of the present invention can reduce the size of jacquard; And, therefore reduced the power consumption of machine owing to do not have return spring, mechanism need not overcome the spring tension acting.

In order to achieve the above object, technical scheme of the present invention is:

A kind of no harness cord active type selecting mechanism comprises rack-mounted cam set and piezoelectric ceramic piece, and upper push-rod and lower push-rod are installed on the frame on cam set right side; On the frame on upper push-rod right side driven sliding block is installed, parallel respectively left push rod and the right push rod of being equipped with on the frame on driven sliding block right side; The top of described driven sliding block is equipped with top shoe, and the top of top shoe is equipped with piezoelectric ceramic piece; On the frame on described lower push-rod right side transverse slider is installed, flexure strip is installed on the transverse slider.

Described cam set comprises main cam and auxiliary cam, and the right side of described main cam is equipped with lower push-rod, and the right side of auxiliary cam is equipped with upper push-rod.

Described left push rod and right push rod end are equipped with the triangle jacking block, and the installation direction of 2 triangle jacking blocks is opposite.

Both sides respectively stud with a small cylinder on the described flexure strip.

Offer 1 groove on the described top shoe, described driven sliding block is provided with the convexity that matches with groove.

Described top shoe is provided with the first fan-shaped flange; Described transverse slider is provided with the second fan-shaped flange that 2 inclined-planes with the first fan-shaped flange match and install.

Beneficial effect of the present invention is: no harness cord active type selecting mechanism of the present invention; Utilize cam mechanism to drive upwards perhaps downwarping of a horizontal elastic panels; And the aperture of the rigid rod lower end of warp thread through being connected in the flexure strip centre position, thereby realize going up or the under shed action of warp thread.Compare and jacquard before, because this mechanism is the active type needle selection, so saved devices such as harness cord and return spring; Therefore reduced the size of jacquard greatly; And, therefore reduced the power consumption of machine owing to do not have return spring, mechanism need not overcome the spring tension acting; This is concerning today of energy scarcity, and meaning is particularly important.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Fig. 2 is the vertical view of Fig. 1;

Fig. 3 is the A portion enlarged drawing of Fig. 1;

Fig. 4 is the enlarged diagram of top shoe of the present invention;

Fig. 5 is the enlarged diagram of driven sliding block of the present invention;

Transverse slider when Fig. 6 is transverse slider arrival of the present invention stroke end and the fundamental diagram of top shoe;

Fig. 7 is the fundamental diagram of off-position function midway time that the present invention realizes warp thread;

Fig. 8 is the fundamental diagram of the present invention when realizing the off-position function of warp thread.

The specific embodiment

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Like Fig. 1,2,3,4, shown in 5, a kind of no harness cord active type selecting mechanism of present embodiment comprises rack-mounted cam set 1 and piezoelectric ceramic piece 2, and upper push-rod 3 and lower push-rod 4 are installed on the frame on cam set 1 right side; On the frame on upper push-rod 3 right sides driven sliding block 5 is installed, parallel respectively left push rod 8 and the right push rod 9 of being equipped with on the frame on driven sliding block 5 right sides; The top of described driven sliding block 5 is equipped with top shoe 10, and the top of top shoe 10 is equipped with piezoelectric ceramic piece 2; On the frame on described lower push-rod 4 right sides transverse slider 6 is installed, flexure strip 7 is installed on the transverse slider 6.Described cam set 1 comprises main cam 15 and auxiliary cam 16, and the right side of described main cam 15 is equipped with lower push-rod 4, and the right side of auxiliary cam 16 is equipped with upper push-rod 3.Described left push rod 8 is equipped with triangle jacking block 17 with right push rod 9 ends, and the installation direction of 2 triangle jacking blocks 17 is opposite.(be the triangle jacking block 17 installed of left push rod 8 ends wedge angle up, triangle jacking block 17 wedge angles that install right push rod 9 ends are down).And stud with the small cylinder 18 that matches with triangle jacking block 17 on the described flexure strip 7.Offer 1 groove 13 on the described top shoe 10, described driven sliding block 5 is provided with the convexity 14 that matches with groove 13.Described top shoe 10 is provided with the first fan-shaped flange 11; Described transverse slider 6 is provided with the second fan-shaped flange 12 that 2 inclined-planes with the first fan-shaped flange 11 match and install.

Because when utilizing the cam drive flexure strip; Because the bending direction of flexure strip has uncertainty; Therefore; Mechanism of the present invention passes through to increase another one cam and corresponding member, and utilizes controllable piezoelectric ceramic piece to realize the control to the flexure strip bending direction, realizes the control to warp thread then.Concrete implementation procedure is: the swinging of piezoelectric ceramic piece 2 can drive top shoe 10 and swing, because the existence of the convexity 14 on the driven sliding block 5 in the groove 13 of top shoe 10 can drive driven sliding block 5 and swing; Put when piezoelectric ceramic piece 2 left sides, drive top shoe 10 left side pendulum, thereby driven sliding block 5 is put on a left side also; The rotation of cam set 1 at this moment; Just promote upper push-rod 3 and move ahead, promote driven sliding block 5 and move ahead and make it protruding 14 break away from the groove 13 of top shoes 10, and then promote left push rod 8 and move ahead; Simultaneously main cam 15 just promotes lower push-rod 4 and moves ahead and drive flexure strip 7 and move ahead, because the effect of the triangle jacking block 17 on the left push rod 8, makes flexure strip 7 arches through promoting on the flexure strip 7 small cylinder 18; Cam set 1 is rotated further, and can make flexure strip 7 continue to be bent upwards, till the degree of crook that reaches regulation, thereby with the warp pull-up.The rotation of cam set 1 is rotated further then, and upper push-rod 3, lower push-rod 4 are all retreated, and left push rod 8 is resetted, and the convexity 14 on the driven sliding block 5 is returned again in the groove 13 of top shoe 10, and flexure strip 7 also is tending towards resetting.This moment, piezoelectric ceramic piece 2 can right be put; Drive top shoe 10 right pendulum; Thereby the also right pendulum of driven sliding block 5, the rotation of cam set 1 makes auxiliary cam 16 just promote upper push-rod 3 and moves ahead at this moment; And promote the groove 13 that driven sliding block 5 moves ahead and makes its protruding 14 disengaging top shoes 10, promote right push rod 9 simultaneously and move ahead; Simultaneously large eccentricity cam 15 just promotes lower push-rod 4 and moves ahead and drive flexure strip 7 and move ahead, because the effect of the triangle jacking block 17 on the right push rod 9, small cylinder 18 makes flexure strip 7 be pressed down on the flexure strip 7 through promoting; Thereby realize the reclinate trend of flexure strip 7.Cam set 1 is rotated further, and can make flexure strip 7 continue downwarping, and till the degree of crook that reaches regulation, this moment, warp was depressed.This mechanism also can realize the off-position function of warp thread; When arriving the degree of crook of regulation; When just said transverse slider arrives the stroke end, as shown in Figure 6, when a moment warp thread is identical with the position in a last moment instantly; The top shoe 1 that is driven by piezoelectric ceramic piece 2 moves to the position identical with previous moment (if preceding once motion is top shoe 1 right the pendulum once more when transverse slider 6 arrival stroke ends; Continue right pendulum this moment), as shown in Figure 7, and 2 second fan-shaped flanges 12 on this moment transverse slider 6 will not return in company with lower push-rod 8 under the stopping of the first fan-shaped flange 11 on the top shoe 1.Thereby the case of bending of flexure strip 7 is held, and the off-position state of warp thread is achieved, and is as shown in Figure 8.The novel no harness cord active type selecting mechanism of present embodiment; Utilize cam mechanism to drive upwards perhaps downwarping of a horizontal elastic panels; And the aperture of the rigid rod lower end of warp thread through being connected in the flexure strip centre position, thereby realize going up or the under shed action of warp thread.Compare and jacquard before, because this mechanism is the active type needle selection, so saved devices such as harness cord and return spring; Therefore reduced the size of jacquard greatly; And, therefore reduced the power consumption of machine owing to do not have return spring, mechanism need not overcome the spring tension acting; This is concerning today of energy scarcity, and meaning is particularly important.

Claims (5)

1. a no harness cord active type selecting mechanism is characterized in that: comprise rack-mounted cam set (1) and piezoelectric ceramic piece (2), upper push-rod (3) and lower push-rod (4) are installed on the frame on cam set (1) right side; On the frame on upper push-rod (3) right side driven sliding block (5) is installed, parallel respectively left push rod (8) and the right push rod (9) of being equipped with on the frame on driven sliding block (5) right side; The top of described driven sliding block (5) is equipped with top shoe (10), and the top of top shoe (10) is equipped with piezoelectric ceramic piece (2); On the frame on described lower push-rod (4) right side transverse slider (6) is installed, flexure strip (7) is installed on the transverse slider (6).

2. no harness cord active type selecting mechanism according to claim 1; It is characterized in that: described cam set (1) comprises main cam (15) and auxiliary cam (16); And the right side of described main cam (15) is equipped with lower push-rod (4), and the right side of auxiliary cam (16) is equipped with upper push-rod (3).

3. no harness cord active type selecting mechanism according to claim 1 and 2 is characterized in that: described left push rod (8) and right push rod (9) end are equipped with triangle jacking block (17), and the installation direction of 2 triangle jacking blocks (17) is opposite.

4. no harness cord active type selecting mechanism according to claim 1 is characterized in that: offer 1 groove (13) on the described top shoe (10), described driven sliding block (5) is provided with the convexity (14) that matches with groove (13).

5. no harness cord active type selecting mechanism according to claim 1 is characterized in that: described top shoe (10) is provided with the first fan-shaped flange (11); Described transverse slider (6) is provided with the second fan-shaped flange (12) that 2 inclined-planes with the first fan-shaped flange (11) match and install.

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