CN201841680U - Error correcting system for vertical cut joint - Google Patents

Abstract

The utility model discloses an error correcting system for a vertical cut joint. The error correcting system comprises a sensor and a light gathering device, wherein the sensor is connected with a transmission part through an error correcting controller; a high-frequency light source is arranged at a position which is opposite to the lower end of the sensor; a curtain is laid above the high-frequency light source; the light gathering device is positioned between the sensor and the high-frequency light source, is embedded into the sensor and has a hollow cylindrical structure; the back end of the light gathering device is provided with a through fixing hole; the front end of the sensor is embedded into the fixing hole; the front end of the light gathering device is provided with a through light gathering hole which is linearly communicated with the fixing hole; the light gathering hole is rectangular; and the light gathering device can convert a scattered light source into a regular oblong-shaped light source through an opening, so that better light gathering effect is achieved, the sensitivity of a control system is further enhanced, the control accuracy is enhanced, and full-automatic error correcting control of a joint part is realized.

Description

The straight joint deviation-rectifying system of cutting out

Technical field

The utility model relates to tire and makes the field, is specifically related to a kind of straight sanction joint deviation-rectifying system.

Background technology

In the manufacture process of tire because higher on the technology to the compound dimensional accuracy of cord and the required precision that centers, so want the erection joint deviation-rectifying system at blank area, with guarantee composite members sticking and center accurate; Be molded into final tire finished product from carcass, the joint of carcass cord positive mass is directly connected to the quality of tire, in the joint of carcass cord, the fixed position of cord plays an important role, and its difficult point be delivered to joint location at every turn must be consistent, all the time repeat in situ to go up, do not transmit the accurate of location if reach, dislocation will appear in the cord splicing so, thereby causes the lap width of cord inconsistent, and influence the performance of tire, cause waste product when serious.In the prior art, the correction control section of joint comprises sensor, deviation correcting device, running part, high frequency light source and cord, cord is elaborated between sensor and high frequency light source, and the high frequency light source blocks the back through cord and received by sensor, with this basis for estimation as the cord correction.Traditional deviation-rectifying system is only gathered printing opacity light by sensor, these printing opacity light are in the process that arrives sensor, light to around disperse, the just light of part that sensor collects, the light intensity that perhaps collects very a little less than, there is not rule, aggregation is bad, so the cord that obtains to hide the data accuracy of light position low, when these transfer of data in deviation correcting device, can not obtain the active data contrast, thereby translator unit can not accurately align cord; And cord displacement back positioning accuracy is low and unstable, adjust through manual mode, at the bottom of the efficient.

The utility model content

Technical problem to be solved in the utility model provides a kind of control accuracy height, the accurate straight joint deviation-rectifying system of cutting out of front and back cord butt joint.

For addressing the above problem, the straight sanction joint deviation-rectifying system that the utility model is designed, comprise sensor, this sensor is connected with running part by a deviation correcting device, in the position relative with the sensor lower end one high frequency light source is arranged, cord has been elaborated in this high frequency light source top, and also includes a beam condensing unit, this beam condensing unit is between sensor and high frequency light source, and beam condensing unit is nested on the sensor; Sensor adopts the mode of beam condensing unit, and by the position of cord covering light, the current location data that obtains cord is more accurate, and these data are passed in the deviation correcting device, will control running part by deviation correcting device again and carry out the position adjustment.

Collect cord to hide the position of light more accurate in order will better to flock together by the light source that cord hides light position, to make, and described beam condensing unit is a hollow columnar structures; The rear end of this beam condensing unit is provided with a fixing hole that connects, and the front end of sensor is nested in this fixing hole; The front end of beam condensing unit then offers a convergent hole that connects, and convergent hole linearly communicates with fixing hole.

The described convergent hole of such scheme is rectangle, and the bearing of trend of this rectangular convergent hole is consistent with the bearing of trend of the joint of cord.

The described beam condensing unit of such scheme is made by hiding light-transmitting materials.

The sidewall at the described beam condensing unit of such scheme rear portion is provided with steady pin, and beam condensing unit is connected on the sensor by this steady pin.

The described steady pin of such scheme is 2, and the bearing of trend of these 2 steady pins is vertical mutually.

Compared with prior art, the utlity model has following characteristics:

1, offers convergent hole on the beam condensing unit, can converge dispersing light source, play optically focused effect preferably, and this convergent hole is set to rectangle, make the light source of dispersing change well-regulated rectangle light source into, the cord position data that obtains is more accurate, has improved the comparativity of data, has strengthened the sensitivity of control;

2, cord displacement back positioning accuracy is accurately high, realizes automatic deviation correction control fully, and efficient height, cord are not yielding, and the front and back cord is good to the center.

Description of drawings

Fig. 1 is the utility model preferred embodiment structural representation;

Fig. 2 is the utility model beam condensing unit front view;

Fig. 3 is the utility model beam condensing unit vertical view.

Number in the figure is: 1, sensor; 2, deviation correcting device; 3, running part; 4, high frequency light source; 5, cord; 6, beam condensing unit; 6-1, fixing hole; 6-2, convergent hole; 6-3, steady pin.

The specific embodiment

The planar structure schematic diagram that the utility model is directly cut out the joint deviation-rectifying system as shown in Figure 1, the straight joint deviation-rectifying system of cutting out, comprise sensor 1, this sensor 1 is connected with running part 3 by a deviation correcting device 2, in the position relative with sensor 1 lower end one high frequency light source 4 is arranged, and cord 5 has been elaborated in these high frequency light source 4 tops, also comprise a beam condensing unit 6, referring to Fig. 2 and Fig. 3, this beam condensing unit 6 is located between sensor 1 and the high frequency light source 4, and sensor 1 is embedded in beam condensing unit 6 front ends; Wherein, sensor 1, deviation correcting device 2, running part 3 all are to link to each other through data wire.Beam condensing unit 6 on the sensor 1 is gathered the position data that cord 5 hides light, through sensor 1, these data are passed in the deviation correcting device 2, behind the data-signal of deviation correcting device 2 receiving sensors 1 detected cord 5 current locations, relatively these data are sent the driver that signal is given running part 3 then, carry out the driver action, thereby cord 5 is corrected, finished the correction control of blank area.Described beam condensing unit 6 is a hollow columnar structures; The rear end of this beam condensing unit 6 is provided with a fixing hole 6-1 who connects, and the front end of sensor 1 is nested in this fixing hole 6-1; And the front end at beam condensing unit 6 also offers a convergent hole 6-2 who connects, convergent hole 6-2 linearly communicates with fixing hole 6-1, this convergent hole 6-2 is rectangle, the bearing of trend of rectangular convergent hole 6-2 is consistent with the bearing of trend of the joint of cord 5, beam condensing unit 6 can flock together the lamp source by this rectangular convergent hole 6-2, and beam condensing unit 6 is made for the material of good shading effect, it is more accurate clear that thereby the cord that obtains 5 hides the light position data, increase the sensitivity of control, improve control accuracy.After described sensor 1 is embedded in the front end port of beam condensing unit 6, the steady pin 6-3 that sidewall by beam condensing unit 6 rear portions is provided with, beam condensing unit 6 is connected on the sensor 1, and steady pin 6-3 is preferably 2, the bearing of trend of these 2 steady pin 6-3 is vertical mutually.

After cord 5 is delivered to piecing devices, the control system of joint at first will be alignd to cord 5.Deviation correction control system is started working, and high frequency light source 4 is held open, irradiation cord 5, and by the position data of cord 5 covering light, these data are adopted the light mode to gather by sensor 1; Specifically be that the light that sees through cord 5 edges is introduced among the rectangle convergent hole 6-2 of beam condensing unit 6 front ends and is assembled, make it change well-regulated rectangle light into by original divergent rays, transmit through beam condensing unit 6 again, fixing hole 6-1 through beam condensing unit 6 rear ends is gathered by sensor 1, through collecting the light source data behind the current covering cord 5 like this, regular, light is strong, the accuracy height, these data are sent in the deviation correcting device 2, whether deviation correcting device 2 relatively cord current location is consistent with the target location, and obtain the side-play amount of cord 5 after cross calculating, according to result relatively, deviation correcting device 2 controls are sent corresponding signal and are given running part 3, running part 3 is corrected the current location of cord 5 again according to signal value, finish the work of joint deviation correction control system.

This straight joint deviation-rectifying system of cutting out is effectively gathered the position data that cord 5 hides light, and the setting accuracy after 5 displacements of enhancing cord is carried out sufficient preparation for cord 5 joints, realizes full-automatic rectification control efficiently.

Claims (6)

1. directly cut out the joint deviation-rectifying system, comprise sensor (1), this sensor (1) is connected with running part (3) by a deviation correcting device (2), in the position relative one high frequency light source (4) is arranged with sensor (1) lower end, cord (5) has been elaborated in this high frequency light source (4) top, it is characterized in that: also include a beam condensing unit (6), this beam condensing unit (6) is positioned between sensor (1) and the high frequency light source (4), and beam condensing unit (6) is nested on the sensor (1).

2. straight sanction joint deviation-rectifying system according to claim 1 is characterized in that: described beam condensing unit (6) is a hollow columnar structures; The rear end of this beam condensing unit (6) is provided with a fixing hole (6-1) that connects, and the front end of sensor (1) is nested in this fixing hole (6-1); The front end of beam condensing unit (6) then offers a convergent hole (6-2) that connects, and convergent hole (6-2) linearly communicates with fixing hole (6-1).

3. straight sanction joint deviation-rectifying system according to claim 2, it is characterized in that: described convergent hole (6-2) is rectangle, and the bearing of trend of this rectangular convergent hole (6-2) is consistent with the bearing of trend of the joint of cord (5).

4. according to any described straight sanction joint deviation-rectifying system among the claim 1-3, it is characterized in that: beam condensing unit (6) is made by the shading material.

5. straight sanction joint deviation-rectifying system according to claim 1 is characterized in that: the sidewall at beam condensing unit (6) rear portion is provided with steady pin (6-3), and beam condensing unit (6) is connected on the sensor (1) by this steady pin (6-3).

6. straight sanction joint deviation-rectifying system according to claim 5, it is characterized in that: described steady pin (6-3) is 2, and the bearing of trend of these 2 steady pins (6-3) is vertical mutually.

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