CN103184654A - Mechano-electronic double-end transverse shifting device for guide bar of warp knitting machine - Google Patents

Abstract

The invention relates to a mechano-electronic double-end transverse shifting device for a guide bar of a warp knitting machine. The device is characterized in that one end of the double-end transverse shifting device is connected with part guide bar devices through a wire rope binder and a push rod binder by using a mechanical transverse shifting device; and the other end of the double-end transverse shifting device is connected with any two guide bar devices through the push rod binder and the wire rope binder via configuration transformation of the end plate by using an electronic transverse shifting device. The mechano-electronic double-end transverse shifting device has the advantages as follows: 1. hommization, high visuality and integration level and convenience in maintenance and operation are ensured through the operation of a touch screen; 2. the weaving fabric variety transforms conveniently and operates easily; 3. favorable interchangeability is realized; 4. the device is small in size and light in weight; 5. the stability of the system is high; 6. the production efficiency and the speed are high, and the cost is low; and 7. by configuring an end plate, two sets of servo systems of the tailstock can meet the requirement of replacing any position of four guide bar devices. The mechano-electronic double-end transverse shifting device is suitable for continuous and rapid pattern transformation with large sidesway amount and stable and accurate sidesway control of the warp knitting machine.

Description

A kind of mechano-electronic both-end Traverse Displacement Unit for the warp knitting machine sley bar

Technical field

The present invention relates to the sley bar electronics horizontal movement device of section's high speed warp knitting machine in a kind of spy, is a kind of mechano-electronic both-end Traverse Displacement Unit for the warp knitting machine sley bar specifically.

Background technology

In the spy section's high speed warp knitting machine have at a high speed, high efficiency, high-quality, plane No. height, the characteristics that sley bar is few.Principle according to the warp knitting machine braiding, warp knitting machine is realized braiding production, the machinery Traverse Displacement Unit is to carry out circular motion by cam or chain piece, drive to be bordering on push rod and the sley bar that no gap links to each other with it and to carry out linear reciprocating motion, and sley bar self also will carry out circular curve and moves;

Cam or chain piece and fabric type have relation one to one, and different fabric type need be changed different cams and chain piece.But fabric tissue is fairly simple, and the flower type is thiner, and third dimension is not too strong, and big traversing amount and big line number be difficult the realization.When type is spent more in production, often need to lay in different cams and chain piece, and its machining accuracy height, the manufacturing cycle is long, and is bulky, changes permutation technology and has relatively high expectations, and is applicable to the single variety production in enormous quantities;

According to the principle of warp knitting machine braiding, warp knitting machine realizes that braiding produces, and the electronics horizontal movement device is the rotation by servomotor control ball screw, drive the pin of sley bar before, accurately traversing behind the pin.Be applicable to continuously, spend the type conversion fast, stable, accurate traversing control, short setting and operating time, and can realize big traversing amount, but machine speed is restricted;

The Traverse Displacement Unit of section's high speed warp knitting machine is the single mechanical traversing or electronics horizontal movement device of using in the modern spy.When requiring big traversing amount, high efficiency, high performance-price ratio, press for a kind of brand-new device and realize.

Summary of the invention

The objective of the invention is to: a kind of mechano-electronic both-end Traverse Displacement Unit for the warp knitting machine sley bar is provided, make the traversing device that electronics horizontal movement is arranged again of the existing machinery of warp knitting machine sley bar, to get both chiefs, namely satisfy high-speed, high efficiency, high-quality single variety requirements of mass production, again can be continuously, the flower of conversion fast type, stable, accurate traversing control, short setting and operating time, and can realize big traversingly, produce and have the strong fabric of third dimension.

For solving its technical problem, the technical solution used in the present invention is: the mechano-electronic both-end Traverse Displacement Unit of designing that is used for the warp knitting machine sley bar is that a end at Traverse Displacement Unit passes through the steel wire rope conjunction with mechanical Traverse Displacement Unit and is connected with the part guide bar assembly with the push rod conjunction; The other end of Traverse Displacement Unit is with the configuration conversion of electronics Traverse Displacement Unit through end plate, connects by push rod conjunction and steel wire rope conjunction and any two sley bar loads;

Wherein: the electronics horizontal movement device of the described other end is connected by the configuration conversion with end plate;

Described push rod conjunction is connected with any two guide bar assemblies with the steel wire rope conjunction;

Described mechanical Traverse Displacement Unit is that cam or chain piece carry out circular motion, drives to be bordering on the bulb slide block that no gap links to each other with it and to carry out linear reciprocating motion, and this device has the characteristic of conversion gearratio;

Described electronics horizontal movement device is the rotation by servomotor control ball screw, drives nut and end plate load and carries out linear reciprocating motion, wherein includes the few sley bar electronics horizontal movement device of two covers;

Described push rod conjunction and be two ends ball top structures; The steel wire rope conjunction comprises the back-moving spring structure; End plate has several forms, and guiding mechanism is housed;

Described guide bar assembly moved back and forth in uniting under the drive of mechanical Traverse Displacement Unit and electronics horizontal movement device.

Compared with prior art, this Traverse Displacement Unit has following advantage: 1, the operation by touch-screen, and hommization, visual good, directly perceived, the integrated level height, maintenance operation is convenient; 2, the conversion of braided fabric kind is convenient, easy and simple to handle; 3, has good interchangeability; 4, volume is little, and is in light weight; 5, the stability of a system is good; 6, production efficiency height, the speed height, cost is low.7, the tailstock two cover servo-drive systems can adapt to the requirement that four guide bar assembly optional positions are changed by the configuration of end plate.

Description of drawings

Fig. 1 is structural representation of the present invention;

Fig. 2 is that the tailstock two cover servo-drive systems are by the configuration conversion of several form end plates, six kinds of forms that are combined into.

Among the figure: 1. mechanical Traverse Displacement Unit, 2. steel wire rope conjunction, 3. push rod conjunction, 4. guide bar assembly, 5. push rod conjunction, 6. steel wire rope conjunction, 7. end plate, 8. electronics horizontal movement device, 9. housing assembly.

The specific embodiment

The present invention is further described below in conjunction with drawings and Examples:

Referring to Fig. 1, the mechano-electronic both-end Traverse Displacement Unit of designing that is used for the warp knitting machine sley bar, its feature is: the headstock end of this Traverse Displacement Unit is connected with part guide bar assembly 4 with push rod conjunction 3 by steel wire rope conjunction 2 with mechanical Traverse Displacement Unit 1; The vehicle tail end of this Traverse Displacement Unit is connected with any two guide bar assemblies 4 with steel wire rope conjunction 6 by push rod conjunction 5 with the configuration conversion of electronics Traverse Displacement Unit 8 through end plate 7;

Wherein: the electronics horizontal movement device 8 of described vehicle tail end is connected by the configuration conversion with end plate 7;

Described push rod conjunction 5 is connected with any two guide bar assemblies 4 with steel wire rope conjunction 6;

Described mechanical Traverse Displacement Unit 1 is for cam or chain piece carry out circular motion, drives to be bordering on the bulb slide block that no gap links to each other with it and to carry out linear reciprocating motion, and this device has the characteristic of conversion gearratio;

Described electronics horizontal movement device 8 is that linear reciprocating motion is carried out in drive nut and end plate 7, load by the rotation of servomotor control ball screw, wherein includes the few sley bar electronics horizontal movement device of two covers;

Described push rod conjunction 3 and 5 is two ends ball top structures; Steel wire rope conjunction 6 comprises the back-moving spring structure; End plate 7 has several forms, and guiding mechanism is housed;

Described guide bar assembly 4 moved back and forth in uniting under the drive of mechanical Traverse Displacement Unit 1 and electronics horizontal movement device 8;

Shown in Fig. 2 is the tailstock two cover servo-drive systems by the configuration conversion of several form end plates 7, six kinds of forms that are combined into adapt to four the requirement of guide bar assembly optional position replacing, namely from GB1 to GB4 in, use any two sley bars to cooperate, all can meet the demands.

This mechano-electronic Traverse Displacement Unit is installed on the housing assembly 9, when only using mechanical Traverse Displacement Unit 1, connects with guide bar assembly 4 by steel wire rope conjunction 2 and push rod conjunction 3.Push rod conjunction 5 and steel wire rope conjunction 6 disconnect with guide bar assembly 4, by rotation drive guide bar assembly 4 reciprocating motions of cam; When producing the fabric of big line, single mechanical Traverse Displacement Unit can't meet the demands, then need add electronics horizontal movement device 8, be connected with any two guide bar assemblies 4 by end plate 7, push rod conjunction 5, steel wire rope conjunction 6, all the other guide bar assemblies 4 link with mechanical Traverse Displacement Unit 1, produce reciprocating motion;

With the E28 plane No., four comb productions " little plum blossom " kind fabric is example, and it is 24 pins that this fabric is accumulated traversing amount, about 22mm, and flower type circulation line number is 128 row, and traditional mechanical cam Traverse Displacement Unit can't weave, and the electronics horizontal movement installation cost is too high.Adopt this device, headstock right-hand member position fitting machine tool Traverse Displacement Unit drives two sley bars and organizes braiding fundamentally, and the electronics horizontal movement device is installed at tailstock left end position, drive other two sley bars and spend the braiding of type tissue, reach the effect requirement of " little plum blossom " fabric.

Claims (7)

1. mechano-electronic both-end Traverse Displacement Unit that is used for the warp knitting machine sley bar, it is characterized in that: an end of this Traverse Displacement Unit passes through steel wire rope conjunction (2) with mechanical Traverse Displacement Unit (1) and is connected with part guide bar assembly (4) with push rod conjunction (3); The other end of this Traverse Displacement Unit is connected with any two guide bar assemblies (4) with steel wire rope conjunction (6) by push rod conjunction (5) with the configuration conversion of electronics Traverse Displacement Unit (8) through end plate (7).

2. mechanism according to claim 1 is characterized in that: the electronics horizontal movement device (8) of the described other end is connected by the configuration conversion with end plate (7).

3. according to the described mechano-electronic both-end Traverse Displacement Unit for the warp knitting machine sley bar of claim 1, it is characterized in that: described push rod conjunction (5) is connected with any two guide bar assemblies (4) with steel wire rope conjunction (6).

4. according to the described mechano-electronic both-end Traverse Displacement Unit for the warp knitting machine sley bar of claim 1, it is characterized in that: described mechanical Traverse Displacement Unit (1) carries out circular motion for cam or chain piece, drive is bordering on the bulb slide block that no gap links to each other with it and carries out linear reciprocating motion, and this device has the characteristic of conversion gearratio.

5. according to the described mechano-electronic both-end Traverse Displacement Unit for the warp knitting machine sley bar of claim 1, it is characterized in that: described electronics horizontal movement device (8) is the rotation by servomotor control ball screw, linear reciprocating motion is carried out in drive nut and end plate (7), load, wherein includes the few sley bar electronics horizontal movement device of two covers.

6. according to the described mechano-electronic both-end Traverse Displacement Unit for the warp knitting machine sley bar of claim 1, it is characterized in that: described push rod conjunction (3) and (5) are two ends ball top structure; Steel wire rope conjunction (6) comprises the back-moving spring structure; End plate (7) has several forms, and guiding mechanism is housed.

7. according to claim 1 or 2 described mechano-electronic both-end Traverse Displacement Units for the warp knitting machine sley bar, it is characterized in that: described guide bar assembly (4) moves back and forth under uniting of mechanical Traverse Displacement Unit (1) and electronics horizontal movement device (8) drives.

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