CN208747375U - A kind of yarn is drawn through the tenslator of machine - Google Patents

Abstract

The utility model relates to the tenslators that a kind of yarn is drawn through machine, including control board, speed measuring device, guiding mechanism, unwrapping wire roller, take-up, take-up motor and yarn；It is equipped with speed measuring device and guiding mechanism side by side at the top of the control board；The speed measuring device side is equipped with several groups unwrapping wire roller；The take-up is located at the control board side；The take-up motor is located at position between control board and the take-up；The take-up motor is connect by a belt with the take-up；After the yarn passes sequentially through the speed measuring device and guiding mechanism after releasing from the unwrapping wire roller, packed up by the take-up.The beneficial effects of the utility model are: structure is simple, easy to use, tension force high degree of automation, stability are good, and effective guarantee yarn is not easy to break or be wound during unwrapping wire and take-up.

Description

A kind of yarn is drawn through the tenslator of machine

Technical field

The utility model relates to a kind of tenslators, and in particular to and a kind of yarn is drawn through the tenslator of machine, Belong to ribbon equipment technical field.

Background technique

Growth with the growth of light industry and society to textile fabric demand, Textile Manufacturing Industry and processing industry are also able to fastly Speed development.Be drawn through is by the warp thread of the certain radical technique mistake with width parallel in warp beam or beam of a loom in accordance with the specified length Journey.It is used by the warp thread being drawn through for sizing and drawing-in.It is drawn through and requires each warp tension equal, be distributed in warp beam or beam of a loom Uniformly, color yarn arrangement meets process stipulation.Therefore, it is very high to the tension force requirement of unwrapping wire and take-up to be drawn through equipment, it could be really Yarn will not be broken or wind during protecting unwrapping wire and take-up.The tenslator design for being drawn through equipment currently on the market Irregular, structure is complicated, and the degree of automation is not high.

For this purpose, how to provide a kind of simple structure, high degree of automation and control the tension that stable yarn is drawn through machine Control device is the research purpose of the utility model.

Utility model content

Deficiency in view of the above technology, the utility model provide the tenslator that a kind of yarn is drawn through machine, pass through control The mesh that cooperation between system processed, pressure sensor, velocity sensor and angular-rate sensor is realized real time speed measuring, adjusted the speed automatically 's.

To solve prior art problem, the technical scheme adopted by the utility model is

A kind of yarn is drawn through the tenslator of machine, including control board, speed measuring device, guiding mechanism, unwrapping wire roller, receipts Line apparatus, take-up motor and yarn；The control board includes distribution box, display screen and control button；The distribution box It is located at the control board interior side；The display screen is located at the control board front end face side；The control Button processed is located at below the display screen；The speed measuring device and the guiding mechanism are located at the control machine side by side At the top of platform；The speed measuring device includes test the speed cabinet, yarn path and velocity sensor；It is equipped in the middle part of the cabinet that tests the speed Yarn path；Two groups of velocity sensors are equipped at the top of the yarn path；The guiding mechanism includes pedestal, spring, leads To roller, bearing and pressure sensor；The guide roller both ends connect bearing；The bearing passes through spring and the pedestal Connection；One end that the spring is in pedestal is connected with pressure sensor；The pressure sensor is located at the pedestal It is internal；The unwrapping wire roller is located at the speed measuring device side；The take-up is located at the control board side； The take-up includes take-up roller, angular-rate sensor and take-up roll shaft；Hollow knot is set as inside the take-up roller Structure；Penetration type is equipped with take-up roll shaft inside the take-up roller；The angular-rate sensor is located inside the take-up roller； The take-up motor is located at position between control board and the take-up；The take-up motor passes through one Belt is connect with the take-up roll shaft；The yarn passes sequentially through the yarn path after releasing from the unwrapping wire roller After guide roller, packed up by the take-up roller.

Further, the unwrapping wire roller can be set as according to demand one or more groups of.

Further, the distance between two groups of velocity sensors are set as 10cm.

Further, the input voltage of the distribution box is set as 200V alternating current.

Further, the material selection of the take-up roller and the guide roller is antistatic material.

The beneficial effects of the utility model are: structure is simple, easy to use, tension force high degree of automation, stability Good, effective guarantee yarn is not easy to break or is wound during unwrapping wire and take-up.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram of the utility model guiding mechanism.

Fig. 3 is the internal structure chart of the utility model take-up roller.

Wherein: control board 10, speed measuring device 20, guiding mechanism 30, unwrapping wire roller 40, take-up 50, take-up motor 60, Yarn 70, belt 80, distribution box 101, display screen 102, control button 103, the cabinet 201 that tests the speed, yarn path 202, test the speed biography Sensor 203, pedestal 301, spring 302, guide roller 303, bearing 304, pressure sensor 305, take-up roller 501, angular speed sensing Device 502, take-up roll shaft 503.

Specific embodiment

In order to make those skilled in the art more understand the technical solution of the utility model, 1-3 is to this with reference to the accompanying drawing Utility model is for further analysis.

As shown in Figure 1, a kind of yarn is drawn through the tenslator of machine, including control board 10, speed measuring device 20, guiding Mechanism 30, unwrapping wire roller 40, take-up 50, take-up motor 60 and yarn 70；Controlling board 10 includes distribution box 101, display screen 102 and control button 103；Distribution box 101 is located at control 10 interior side of board, and distribution box 101 is used for as control board 10, surveys Speed variator 20 and take-up motor 60 provide electric power support；The input voltage of distribution box 101 is set as 200V alternating current, 220V exchange Electricity is daily electricity consumption, is easy to use；Display screen 102 is located at control 10 front end face side of board, for showing the conveying of yarn 70 The parameter information of the detecting elements such as speed, pressure sensor 305 and velocity sensor 203；Control button 103 is located at display screen 102 lower sections, for control switch and setting parameters；Speed measuring device 20 and guiding mechanism 30 are located at control board 10 side by side and push up Portion；Speed measuring device 20 includes test the speed cabinet 201, yarn path 202 and velocity sensor 203；It tests the speed and is equipped with yarn in the middle part of cabinet 201 Line passage 202；Two groups of velocity sensors 203 are equipped at the top of yarn path 202；The distance between two groups of velocity sensors 203 are set It is set to 10cm, the time required for the distance for passing through two groups of velocity sensors 203 by detection yarn 70, then calculate yarn 70 Conveying speed.

As shown in Fig. 2, guiding mechanism 30 includes pedestal 301, spring 302, guide roller 303, bearing 304 and pressure sensor 305；303 both ends of guide roller connect bearing 304；Bearing 304 is connect by spring 302 with pedestal 301；Spring 302 is in pedestal 301 one end is connected with pressure sensor 305；Pressure sensor 305 is located inside pedestal 301；When take-up speed is greater than unwrapping wire When speed, spring 302 is increased by the pressure of yarn 70, and the numerical value that pressure sensor 305 detects increases, and is controlled board 10 at this time and is controlled Take-up motor 60 processed reduces take-up speed；When take-up speed is less than payingoff speed, spring 302 is reduced by the pressure of yarn 70, The numerical value that pressure sensor 305 detects reduces, and controls board 10 at this time and controls the increase take-up speed of take-up motor 60.

Unwrapping wire roller 40 is located at 20 side of speed measuring device, for placing raw yarn；Unwrapping wire roller 40 can be set as according to demand It is one or more groups of；Take-up 50 is located at control 10 side of board；Take-up 50 includes take-up roller 501, angular-rate sensor 502 and take-up roll shaft 503.

As shown in figure 3, being set as hollow structure inside take-up roller 501；501 inside penetration type of take-up roller is equipped with take-up roll shaft 503；Angular-rate sensor 502 is located inside take-up roller 501, and angular-rate sensor 502 is used to detect the angular speed of take-up roller 501 Parameter；Take-up motor 60 is located at position between control board 10 and take-up 50；Take-up motor 60 passes through a belt 80 and receipts Line roll shaft 503 connects；After yarn 70 passes sequentially through yarn path 202 and guide roller 303 after the releasing of unwrapping wire roller 40, by take-up roller 501 pack up；The material selection of take-up roller 501 and guide roller 303 is antistatic material, prevents yarn 70 and take-up in transmission process Roller 501, the friction of guide roller 303 generate electrostatic.

When utility model works, yarn 70 measures conveying speed simultaneously after the releasing of unwrapping wire roller 40, by speed measuring device 20 It shows on the display screen 102；When take-up speed is greater than payingoff speed, spring 302 is increased by the pressure of yarn 70, pressure The numerical value that sensor 305 detects increases, and controls board 10 at this time and controls the reduction take-up speed of take-up motor 60；When take-up speed is small When payingoff speed, spring 302 is reduced by the pressure of yarn 70, and the numerical value that pressure sensor 305 detects reduces, and controls machine at this time Platform 10 controls take-up motor 60 and increases take-up speed；Structure is simple, easy to use, tension force high degree of automation, stability Good, effective guarantee yarn 70 is not easy to break or is wound during unwrapping wire and take-up.

Technical solution provided herein is described in detail above, embodiment used herein is to the application Principle and embodiment be expounded, the explanation of above embodiments be served only for help understand the present processes and its core Thought；At the same time, for those skilled in the art, according to the thought of the application, in specific embodiment and application range Upper there will be changes, in conclusion the contents of this specification should not be construed as limiting the present application.

Claims (5)

1. the tenslator that a kind of yarn is drawn through machine, it is characterised in that: including control board, speed measuring device, guiding mechanism, Unwrapping wire roller, take-up, take-up motor and yarn；The control board includes distribution box, display screen and control button；It is described Distribution box be located at the control board interior side；The display screen is located at the control board front end face side； The control button is located at below the display screen；The speed measuring device and the guiding mechanism are located at described side by side Control board at the top of；The speed measuring device includes test the speed cabinet, yarn path and velocity sensor；The cabinet that tests the speed Middle part is equipped with yarn path；Two groups of velocity sensors are equipped at the top of the yarn path；The guiding mechanism include pedestal, Spring, guide roller, bearing and pressure sensor；The guide roller both ends connect bearing；The bearing passes through spring and institute The pedestal connection stated；One end that the spring is in pedestal is connected with pressure sensor；The pressure sensor is located at institute The chassis interior stated；The unwrapping wire roller is located at the speed measuring device side；The take-up is located at the control Board side；The take-up includes take-up roller, angular-rate sensor and take-up roll shaft；Setting inside the take-up roller For hollow structure；Penetration type is equipped with take-up roll shaft inside the take-up roller；The angular-rate sensor is located at the receipts Inside line roller；The take-up motor is located at position between control board and the take-up；The take-up Motor is connect by a belt with the take-up roll shaft；The yarn passes sequentially through described after releasing from the unwrapping wire roller Yarn path and guide roller after, packed up by the take-up roller.

2. the tenslator that a kind of yarn according to claim 1 is drawn through machine, it is characterised in that: the unwrapping wire roller It can be set as according to demand one or more groups of.

3. the tenslator that a kind of yarn according to claim 1 is drawn through machine, it is characterised in that: two groups of surveys The distance between fast sensor is set as 10cm.

4. the tenslator that a kind of yarn according to claim 1 is drawn through machine, it is characterised in that: the distribution box Input voltage be set as 200V alternating current.

5. the tenslator that a kind of yarn according to claim 1 is drawn through machine, it is characterised in that: the take-up roller Material selection with the guide roller is antistatic material.