SU1086038A1 - Apparatus for controlling linear density of selvage in shuttleless loom - Google Patents

Abstract

A DEVICE FOR REGULATING THE LINEAR DENSITY OF THE FABRIC LEAF IN THE INGENIOUS MOBILE MACHINE containing a sensor of linear density of the fabric edge installed in the confusor of the weaving machine and the input connected to the synchronizer output. Kinematically connected with the main shaft of the weaving machine, the control unit and the actuator, characterized in that, in order to improve the quality by pulse control, it has an electronic key, and the control unit consists of a resistor voltage and two information processing channels, each of which contains the element And and the series-connected threshold element and the trigger, while the trigger output is connected with the first input of the element And, the output of the sensor of the linear density of the fabric edge is connected to the input of the cut the source divider, for example, SS, whose outputs are connected to the inputs of the threshold elements of the corresponding processing channels, the second inputs of the AND components: are connected to the synchronizer output, and their outputs are connected to the corresponding inputs of the electronic key mechanism. Ltd:

Description

The invention relates to textile manufacturing, more specifically to devices for linearly controlling the density of the fabric edge on shuttleless looms. A device is known that contains a linear fabric edge density sensor installed in a weaving machine converger and an input connected to the output of a synchronizer that is coupled to the main weaving loom, the control unit and the actuator Cl. The device’s lack of control quality is poor. The purpose of the invention is to improve the quality by pulsed regulation. The goal is to achieve a device for adjusting the linear density of a fabric edge on an shuttleless loom containing a linear density sensor for a cloth, installed in a weaving confusor and an input connected to a synchronizer output kinematically connected to a main loom, control unit and actuator mechanism, has an electronic key, and the control unit consists of a resistor voltage divider and two channels of information processing, each of which contains an element And At the same time, the trigger output is connected to the first input of the element I, the output of the linear density sensor of the fabric edge is connected to the input of the resistor unit of the voltage body, the outputs of which are connected to the inputs of the threshold elements of the corresponding information processing channels, the second The inputs of the elements I are connected to the output of the synchronizer, and their outputs are connected with the corresponding inputs of the electronic key, the output connected with the input of the actuator. FIG. 1 shows a block diagram of the device; in fig. 2 shows the relationship between optical density D and the length E of the thread at the cutting edge. The device consists of a linear density sensor 1 of the fabric edge (FIG. 1) installed in a weaving confusor (not shown) and an input connected to the output of the synchronizer 2, kinematically connected main shaft 3 weaving machine. The output of the sensor 1 linear density edges of the fabric through the emitter follower 4 is connected to the output of the resistor divider 5 voltage, the outputs of which are connected to the inputs of the threshold elements 6, the outputs .KOTOpbFx through the triggers 7 are connected to the first inputs of the elements And 8, the second inputs of which are connected to the output of the synchronizer 2, The outputs of the elements And 8 are connected to the corresponding inputs of the electronic key 9, the output of which is connected to the input of the actuator 10, which acts on the nitenate resident I1, while refining the thread 12, winding up bins 13, the nozzle 14 passes through the sensor 1 and the linear density of the fabric edge otsosnuyu enters the tube 5 located in the converging tube. During operation of the machine, the fabric 17 is removed from the fabric 16 produced. The device works as follows. The weft thread 12, coiling off the reel 13, passes through nitenate resident 11, enters nozzle 14, runs through the base of the basement, is nailed on the edge of the fabric reed (not shown), enters the sensor I linear density of fabric edge located on the confuser. The suction tube 15 makes an oscillatory motion in the plane of the fabric 16. Simultaneously with the laid weft thread 12, the edge 17 of the fabric enters the suction tube 15. The sensor I linear density of the fabric edge contains an opto-optic pair of LED-photodiode (not shown). Kinematically connected to the main shaft 3 of the machine, the synchronizer 2 generates a pulse applied to the LED of the sensor 1 of the linear density of the fabric edge when the latter approaches the fabric edge 17. The voltage from the photodiode enters the emitter follower circuit 4 in proportion to the optical density of the edge 17 of the fabric; a resistor divider 5 voltage is connected to the emitter emitter follower circuit 4 with a variable division factor, one of which (variable / serves for creating a dead zone. Signal

the voltage divider 5 from the resistor is fed to the inputs of the threshold elements 6, and the output of the threshold elements 6 to the triggers 7, in which it becomes constant from the pulse one, and then goes to the first inputs of the AND elements 8 and synchronizes with the operation of the loom by obtaining a signal to the second inputs of elements And 8 from the synchronizer 2. The outputs of elements And 8 are connected to the outputs of the electronic key 9, controlled by an actuator 10. The actuator 10, in turn, controls the nitrate 11 due to a change in whether, where izme860384

The length of the weft yarn 12 to be laid, Such a change in length will contribute to the most effective reduction of the unevenness between the lengths of the weft yarns 12.

Adjusting the sensor I linear density of the fabric edge to the required linear density of the cutting edge 17 of the fabric 16 is made according to optical density D (Fig 2).

The proposed device makes it possible to improve the quality of regulation, thereby making it possible to improve the quality of the fabric 15 produced by eliminating underweight weft and reducing the length of the threads in the cutting edge, and reducing the waste.

Claims (1)

DEVICE FOR REGULATING LINEAR DENSITY OF FABRIC ON A PERSONAL WEAVING MACHINE, containing a linear density sensor of the edge of the fabric installed in the confuser of the loom and connected to the output of the synchronizer kinematically connected to the main shaft of the loom, the control unit and the control unit that, in order to improve quality due to pulse regulation, it has an electronic key, and the control unit consists of a resistor voltage healer and two processing channels in formations, each of which contains an element And and a threshold element and a trigger are connected in series, with the trigger output connected to the first input of the element And, the output of the linear density sensor of the fabric edge is connected to the input of the resistor voltage divider, the outputs of which are connected to the inputs of the threshold elements of the corresponding channels information processing, the second inputs of the elements AND are connected to the output of the synchronizer, and their outputs are connected to the corresponding inputs of the electronic key, the output associated with the input of the Executive m nisms. SU,. „1086038 1 1086038 ²