CN104831515B - Online test method, the apparatus and system of thermal finalization fabric skew - Google Patents

Abstract

The present invention provides a kind of online test method, the apparatus and system of the skew of thermal finalization fabric.The online test method of thermal finalization fabric skew of the present invention, including：To treat that thermal finalization fabric sets multiple luminous tubes and corresponding multiple light receiving tubes to accessing forming machine, the glass between pipe by glass to pipe inside；Attribute information of the glass to each light receiving tube in pipe inside is recorded to the initialized location of pipe according to the glass；On off operating mode of the glass to each light receiving tube in pipe inside is periodically detected, if changing, newest attribute information of the glass to each light receiving tube in pipe inside is recorded again；According to the glass to the change of the newest attribute information of each light receiving tube in pipe inside in line computation described in treat the deviation post of thermal finalization fabric.The present invention is internal with two cylindrical glass tubes of luminous tube and corresponding light receiving tube by setting, and solves the problems, such as the inaccurate and high cost of current thermal finalization fabric offset detection technology.

Description

Online test method, the apparatus and system of thermal finalization fabric skew

Technical field

The present invention relates to Fabric Detection technology, more particularly to online test method, the device that a kind of thermal finalization fabric offsets And system.

Background technology

Fabric directly affects fabric and exists in the thermal finalization stage of finishing process, during upper machine with the side-play amount of frame central Effect during follow-up whole latitude, and then affect the skew of weft of finished textile product.Due to entering spread roller effect at cloth in heat setting machine, So that fabric constantly offsets after frame central position is deviateed along the side of spread roller, until being offset to frame side forms rope Shape, so can badly damaged follow-up mangle roller roll surface, cause fabric squezzing uneven, production process is forced to interrupt.

At present, the measurement in dyeing ＆ printing enterprise to fabric skew is mainly realized using infrared tube, and its tube pitch is from general Larger, after small skew occurs in fabric, infrared detecting device can not detect the side-play amount of fabric, and straightening mechanism is deposited in addition Postpone in mechanical action, when forming machine speed is very fast, straightening mechanism is easy to failure, causes fabric to tie knots, and has a strong impact on production Efficiency.So also needing to forming machine operating personnel's moment aborning corrects fabric in the position of frame, to ensure the suitable of production Profit is carried out.The main quantity for increasing infrared tube in its improvement project, reduces spacing between adjacent tubes, but such that infrared tube Quantity sharply increase, in general detection means install 160~200 to pipe.Detection circuit uses cascade, by comparing Both sides electric current output calculates fabric side-play amount.The design of improvement project has a preferable effect for full fabric, but for due to The incomplete fabric of breadth that the reason such as sampling or different fabric connections is caused, executing agency occurs vibration and malfunction Make.So the detection offset for fabric, not only needs to ensure accuracy higher, in addition it is also necessary to which it has to imperfect fabric Judgement, so just can guarantee that effective operation of correction executing agency.

The content of the invention

The present invention provides a kind of online test method, the apparatus and system of the skew of thermal finalization fabric, to overcome existing detection The problems such as technical costs is high, detection is inaccurate.

The present invention provides a kind of online test method of thermal finalization fabric skew, including：

To treat that thermal finalization fabric sets multiple luminous to accessing forming machine, the glass between pipe by glass to pipe inside Pipe and corresponding multiple light receiving tubes；

Attribute information of the glass to each light receiving tube in pipe inside is recorded to the initialized location of pipe according to the glass；

On off operating mode of the glass to each light receiving tube in pipe inside is periodically detected, if changing, is recorded again Newest attribute information of the glass to each light receiving tube in pipe inside；

According to the glass to the change of the newest attribute information of each light receiving tube in pipe inside in line computation described in treat that heat is fixed The deviation post of type fabric.

Further, in the online test method of above-mentioned thermal finalization fabric skew, the attribute information bag of the light receiving tube Include：Mark, coordinate value, on off operating mode and the silk fabrics integrality between light receiving tube and its corresponding luminous tube.

Further, it is described to be periodically detected the glass pair in the online test method of above-mentioned thermal finalization fabric skew The on off operating mode of the multiple light receiving tubes in pipe inside, including：

It is connected with each light receiving tube using single-chip microcomputer pin, is changed by the level for detecting each light receiving tube and sentenced The on off operating mode of disconnected each light receiving tube.

Further, in the online test method of above-mentioned thermal finalization fabric skew, the glass includes two cylinders to pipe Shape glass tube, the luminous tube sets wherein one cylindrical glass tube inner side, and corresponding light receiving tube is arranged on other one Cylindrical glass tube inner side.

The present invention also provides a kind of on-line measuring device of thermal finalization fabric skew, including：

U-type groove, is arranged in forming machine frame；

Glass is arranged in the U-type groove and is moved horizontally along the U-type groove to pipe, and the glass is multiple to pipe inside Luminous tube and corresponding multiple light receiving tubes, treat thermal finalization fabric by the glass to accessing forming machine between pipe；

Displacement detector, is connected with the glass to each light receiving tube in pipe inside, for detecting each light receiving tube Positional information；

State detector, is connected, to each light receiving tube in pipe inside with the glass for being periodically detected the glass pair The on off operating mode of each light receiving tube in pipe inside；

Master controller, is connected with the displacement detector and state detector, for each to pipe inside according to the glass The deviation post of thermal finalization fabric is being treated in the change of the newest attribute information of light receiving tube described in line computation；

Memory, is connected with the master controller, for recording the glass to the initialized location of pipe according to the glass Glass records each light-receiving when being changed to the attribute information of each light receiving tube in pipe inside and the on off operating mode of each light receiving tube The newest attribute information of pipe.

Further, in the on-line measuring device of above-mentioned thermal finalization fabric skew, also include.

Fixed sleeving, is arranged on the glass to pipe one end, for fixing the glass to two cylindrical glass in pipe Glass pipe；

Cylinder, is arranged on described U-type groove one end, for controlling the glass that pipe is moved in parallel in the U-type groove；

Travel switch, is arranged in the forming machine frame, and the travel switch position is slided into pipe for the glass It is controlled to stop sliding when putting.

Further, in the on-line measuring device of above-mentioned thermal finalization fabric skew, the state detector includes：

Single-chip microcomputer, each pin of the single-chip microcomputer is directly connected with the glass to each light receiving tube in pipe inside, passes through Detect that the level change of each light receiving tube judges the on off operating mode of each light receiving tube.

Further, in the on-line measuring device of above-mentioned thermal finalization fabric skew, the glass is to the luminous tube inside pipe Alignd with corresponding light receiving tube, and location interval is identical between each luminous tube, two cylindrical glass tubes middle part is certain Luminous tube and corresponding light receiving tube are not provided with distance areas.

Further, in the on-line measuring device of above-mentioned thermal finalization fabric skew, also include：

Display, is connected with the master controller, the bits of offset confidence for treating thermal finalization fabric for being displayed in line computation Breath.

The present invention also provides a kind of thermal finalization fabric offset detection system, including treat thermal finalization fabric, heat setting machine and The on-line measuring device of above-mentioned any described thermal finalization fabric skew.

Online test method, the apparatus and system of thermal finalization fabric skew of the present invention, set removable by heat setting machine Dynamic glass realizes fast and accurately on-line checking thermal finalization fabric deviation post to the luminous tube on pipe, solves existing detection Inaccurate and relatively costly problem is detected present in technology.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing The accompanying drawing to be used needed for having technology description is briefly described, it should be apparent that, drawings in the following description are this hairs Some bright embodiments, for those of ordinary skill in the art, without having to pay creative labor, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is the flow chart of the online test method embodiment of thermal finalization fabric skew of the present invention；

Fig. 2 is the sizing frame structural perspective of the on-line measuring device embodiment of thermal finalization fabric skew of the present invention；

Fig. 3 is the sizing frame structure front view of the on-line measuring device embodiment of thermal finalization fabric skew of the present invention；

Fig. 4 is the sizing frame structure top view of the on-line measuring device embodiment of thermal finalization fabric skew of the present invention；

The hardware device attachment structure schematic diagram of the on-line measuring device embodiment of Fig. 5 thermal finalization fabric skews of the present invention；

The hardware device of the on-line measuring device embodiment of Fig. 6 thermal finalization fabric skews of the present invention connects another structural representation Figure；

Fig. 7 is the section of structure of the glass to pipe of the on-line measuring device embodiment of thermal finalization fabric skew of the present invention.

Reference：

10th, cylinder；20th, U-type groove；30th, fixed sleeving；

40th, slide rail；50th, glass is to pipe；60th, fabric；

70th, travel switch；80th, displacement detector；90th, master controller；

100th, state detector；110th, memory；120th, display.

Specific embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is A part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

The present invention provides a kind of online test method of thermal finalization fabric skew, and Fig. 1 offsets for thermal finalization fabric of the present invention Online test method embodiment flow chart, as shown in figure 1, the method for the present embodiment can include：

Step 101, will treat thermal finalization fabric by glass to accessing forming machine between pipe, the glass is set to pipe inside Multiple luminous tubes and corresponding multiple light receiving tubes；

Glass in above-mentioned steps can include two cylindrical glass tubes to pipe, and the luminous tube sets wherein one circle Cylindricality glass tube inner side, corresponding light receiving tube is arranged on other cylindrical glass tube inner side.Luminous tube can be various Light emitting diode, light receiving tube is photosensitive device.

And preferably, because fabric door width is general all more than certain length, therefore can be in described two cylindrical glass In the certain area of glass pipe middle part, luminous tube and corresponding light receiving tube are not provided with, so that system is more practical simple, and one can be entered Step is cost-effective.

Step 102, the glass is recorded to the initialized location of pipe according to the glass to each light receiving tube in pipe inside Attribute information；

In this step, the attribute information of light receiving tube includes：Mark, coordinate value, on off operating mode and in light receiving tube and Silk fabrics integrality between corresponding luminous tube.Wherein, described coordinate value is only moved in parallel because of light receiving tube, therefore can Only to set one-dimensional.

Step 103, on off operating mode of the glass to each light receiving tube in pipe inside is periodically detected, if changing, Again newest attribute information of the glass to each light receiving tube in pipe inside is recorded；

In this step, if cylindrical glass tube cunning light of part luminous tube during dynamic is changed into not being blocked from blocking Or be changed into blocking from not being blocked, now the on off operating mode of light receiving tube will change.During specific implementation, can use Single-chip microcomputer pin is connected with each light receiving tube, is changed by the level for detecting each light receiving tube and judges that each light connects The on off operating mode of closed tube.Judged using hardware, not only increased accuracy, moreover it is possible to increased its real-time.

Step 104, according to the glass to the change of the newest attribute information of each light receiving tube in pipe inside in line computation institute State the deviation post for treating thermal finalization fabric.

In this step, compared using the attribute information in newest attribute information and step 102 that each light receiving tube is obtained Relatively calculate, it is possible to draw the deviation post for treating thermal finalization fabric.

Further, after this step, also include：

By obtain each light receiving tube newest attribute information be updated to each light receiving tube attribute information so that If the newest attribute information obtained when the on off operating mode of light receiving tube changes again is compared with the attribute information after updating.

The present embodiment, by the luminous tube on heat setting machine moveable two cylindrical glass tubes of setting, and two Multiple luminous tubes and corresponding light receiving tube are respectively provided with cylindrical glass tube, realize that fast and accurately on-line checking heat is fixed Type fabric deviation post, solves to detect inaccurate present in existing detection technique, and relatively costly problem.

The present invention also provides a kind of on-line measuring device of thermal finalization fabric skew, and Fig. 2~Fig. 4 is respectively that heat of the invention is fixed The sizing frame structural perspective of on-line measuring device embodiment of type fabric skew, front view and top view, Fig. 5 present invention heat The hardware device attachment structure schematic diagram of the on-line measuring device embodiment of pattern bonded fabrics skew.Referring to Fig. 2~Fig. 5, the implementation The on-line measuring device of the thermal finalization fabric skew that example is provided includes：

U-type groove 20, is arranged in forming machine frame；

Glass is arranged in the U-type groove 20 and is moved horizontally along the U-type groove 20 to pipe 50, and the glass is to pipe 50 Internal multiple luminous tube and corresponding multiple light receiving tubes, treat thermal finalization fabric by the glass to accessing sizing between pipe 50 Machine；Photoelectric tube (luminous tube and corresponding light receiving tube) used is respectively arranged in two cylindrical glass tubes (glass is to pipe) Interior, fabric is walked in two centres by all means, can thus form fabric and part photoelectric tube is blocked.While two glass tubes Supported by two support frames, two glass tubes can be made to be moved left and right on the slide rail of bottom.

Displacement detector 80, is connected, to each light receiving tube in the inside of pipe 50 with the glass for detecting each light-receiving The positional information of pipe；Assuming that spacing is δ between left and right two parts adjacent tubes in device, right half part is from middle first light of number to the right Electricity is x to pipe abscissa, each side there is n photoelectric tube, and because it is translated in left and right, therefore its ordinate is always 0, no Re-record, only record its abscissa value, and the coordinate value of pipe is recorded with array form.Each photoelectric tube of its right half part by Middle initial coordinate values to the right can be designated as { x, x+ δ, x+2 δ ..., x+ (n-1) δ }；Because its is symmetrical, therefore left-half Initial coordinate values of each photoelectric tube by centre position to the left can be designated as {-x ,-x- δ ,-x-2 δ ... ,-x- (n-1) δ }.

State detector 100, is connected, to each light receiving tube in pipe inside with the glass for being periodically detected the glass To the on off operating mode of each light receiving tube in pipe inside；Cylindrical glass tube distributes the light of light pipe by blocking change in the middle part of sliding process It is changed into blocking not to be blocked or from not being blocked, now the on off operating mode of light receiving tube changes, information acquisition circuit The status information of circle collection light receiving tube, and contrasted with laststate, so as to obtain photoelectric tube at fabric edges State change.

Master controller 90, is connected with the displacement detector 80 and state detector 100, for according to the glass to pipe The deviation post of thermal finalization fabric is being treated in the change of the newest attribute information of the 50 each light receiving tubes in inside described in line computation；Main control Device determines whether to read the numerical value of the displacement transducer being connected with device according to fabric integrity information, and updates generating state The coordinate of the photoelectric tube of change.Assuming that the shift value for obtaining is τ₁(to left dislocation be negative value, displacement to the right be on the occasion of), if its It is left-half from centre position to left side number kth₁Individual, then it is-x- (k that the photoelectric tube updates the coordinate value for obtaining₁-1)δ+ τ₁.Then the generation interrupted next time is waited, and position coordinates to corresponding photoelectric tube is updated.Assuming that displacement sensing The shift value of device is τ₂If it is right half part from centre position to the right number kth₂Individual, then the coordinate value for updating the pipe is x+ (k₂-1)δ+τ₂.If master controller determines to interrupt twice as two half part photoelectric tube state changes of left and right cause according to numbering. Coordinate value-x- (k after two photoelectric tubes update₁-1)δ+τ₁、x+(k₂-1)δ+τ₂Just can calculate in the middle of the deviation of fabric Position ε=(k₂-k₁)δ+τ₂-τ₁。

Memory 110, is connected with the master controller 90, for being recorded to the initialized location of pipe 50 according to the glass The glass is recorded when being changed to the attribute information of each light receiving tube in the inside of pipe 50 and the on off operating mode of each light receiving tube The newest attribute information of each light receiving tube.

Further, in the on-line measuring device of above-mentioned thermal finalization fabric skew, also include.

Fixed sleeving 30, is arranged on the glass to the one end of pipe 50, for fixing the glass to two circles in pipe 50 Cylindricality glass tube；

Cylinder 10, is arranged on the one end of the U-type groove 20, parallel in the U-type groove 20 to pipe 50 for controlling the glass It is mobile；

Travel switch 70, is arranged in the forming machine frame, and sliding into the stroke to pipe 50 for the glass opens It is controlled to stop sliding when closing 70 position, can be so that protection device is without departing from slide rail and protects displacement transducer etc..

Further, in the on-line measuring device of above-mentioned thermal finalization fabric skew, the state detector 100 includes：

Single-chip microcomputer, each pin of the single-chip microcomputer is directly connected with the glass to each light receiving tube in pipe inside, passes through Detect that the level change of each light receiving tube judges the on off operating mode of each light receiving tube.For example with AT89C52 monolithics Machine is responsible for the communication of information gathering and main controller, and every infrared receiving tube is connected with the pin of single-chip microcomputer respectively, at the beginning of single-chip microcomputer The port status that will be obtained first after the completion of beginningization are preserved and send main controller to, and 26 level shapes of pin are read in then circulation State is compared with last value, and when stateful change is detected, single-chip microcomputer analyses whether that the photoelectricity caused for fabric edges connects The change of closed tube state, if it is determined that then send interrupt requests to main controller, single-chip microcomputer should to main controller transmission after obtaining response The information such as photoelectric receiving tube numbering.Main controller reads the measured value of displacement transducer simultaneously, updates the position coordinates of the pipe.Master control Device is opened and closed according to photoelectric tube numbering and displacement transducer Numerical Control magnetic valve, so that the glide direction of control device.Main control Device judges whether to meet calculations of offset condition according to its numbering and last interrupting information to carry out data processing and obtains fabric positions Offset information.

Further, in the on-line measuring device of above-mentioned thermal finalization fabric skew, the glass is to the luminous tube inside pipe Alignd with corresponding light receiving tube, and location interval is identical between each luminous tube, two cylindrical glass tubes middle part is certain Luminous tube and corresponding light receiving tube are not provided with distance areas.Because fabric door width is general in more than 150cm, so in detection Do not detected in the center section 120cm of device, so that system is more practical simple.

Further, the hardware device connection of the on-line measuring device embodiment of Fig. 6 thermal finalization fabric skews of the present invention is another One structural representation, as shown in fig. 6, in the on-line measuring device of above-mentioned thermal finalization fabric skew, also including：

Display 120, is connected with the master controller, the deviation post for treating thermal finalization fabric for being displayed in line computation Information.

When above-mentioned technical proposal is embodied, infrared tube, adjacent two transmitting tube (reception pipe) in the left and right sides can be used Between spacing be 40mm, it is specific that (Fig. 7 is the on-line measuring device embodiment of thermal finalization fabric skew of the present invention as shown in Figure 7 Section of structure of the glass to pipe).It is non-detection area that device is respectively had the white space of 600mm from centre to both sides.The present apparatus is total to 26 13 and are uniformly distributed to pipe 60, each side.Detection means is arranged on slide rail and is connected with the piston rod of pneumatic cylinder, , in more than 800mm, when device initial position in the middle of slide rail, the piston rod of pneumatic cylinder is the one of range for its range Half position.Together with simultaneous displacement sensor base is fixed with static frame, the movable part of sensor is connected with detection means Connect fixation.The present embodiment designs its left and right skew control in 400mm, then the measurable maximum Uneven Width width of the detection means is in 2* [400+40* (12-1)+600]=2880mmmm.The radiating circuit of infrared transmitting tube is directly controlled by master controller, and its is corresponding Reception pipe is connected with information acquisition circuit, infrared receiving tube use SFH506-38 or RPM-638, both reception pipes be by Infrared receiving tube is integrated with amplifying circuit, and small volume, good airproof performance, sensitivity are high.

The on-line measuring device that the thermal finalization fabric that can be seen that present invention offer by above-mentioned specific embodiment offsets is at least With following two features：

(1) photoelectric tube is movable device in the technical program, is spaced with adjacent luminous tube so as to eliminate accuracy of detection Related restriction；

(2) assume that the spacing distance between adjacent luminous tube is δ, the number of luminous tube is 2n, device central point to left side or The nearest photoelectric tube distance in right side, device is γ in the ultimate range that origin slides into side, then the measurable maximum breadth W of device =(2n-2) δ+2x+2 γ.Therefore, because photoelectric tube is movable device, there can be very big carrying in the range format of test It is high.

The present invention also provides a kind of present invention and also provides a kind of on-line detecting system of thermal finalization fabric skew, including treats heat Pattern bonded fabrics, heat setting machine and above-mentioned thermal finalization fabric offset detecting device.It accordingly can perform the side in Fig. 1 The technical scheme of method embodiment, its realization principle is similar with technique effect, and here is omitted.

One of ordinary skill in the art will appreciate that：Realizing all or part of step of above-mentioned each method embodiment can lead to The related hardware of programmed instruction is crossed to complete.Foregoing program can be stored in a computer read/write memory medium.The journey Sequence upon execution, performs the step of including above-mentioned each method embodiment；And foregoing storage medium includes：ROM, RAM, magnetic disc or Person's CD etc. is various can be with the medium of store program codes.

Finally it should be noted that：Various embodiments above is merely illustrative of the technical solution of the present invention, rather than its limitations；To the greatest extent Pipe has been described in detail with reference to foregoing embodiments to the present invention, it will be understood by those within the art that：Its according to The technical scheme described in foregoing embodiments can so be modified, or which part or all technical characteristic are entered Row equivalent；And these modifications or replacement, the essence of appropriate technical solution is departed from various embodiments of the present invention technology The scope of scheme.

Claims (5)

1. the on-line measuring device that a kind of thermal finalization fabric offsets, it is characterised in that including：

U-type groove, is arranged in forming machine frame；

Glass is arranged in the U-type groove and is moved horizontally along the U-type groove to pipe, and the glass is internally provided with many to pipe Individual luminous tube and corresponding multiple light receiving tubes, treat thermal finalization fabric by the glass to accessing forming machine between pipe；

Displacement detector, is arranged on the glass to pipe one end, the positional information for detecting each light receiving tube；

State detector, is connected with the glass to each light receiving tube in pipe inside, for being periodically detected the glass in pipe The on off operating mode of each light receiving tube in portion；

Master controller, is connected with the displacement detector and state detector, for being connect to each light in pipe inside according to the glass The deviation post of thermal finalization fabric is being treated in the change of the newest attribute information of closed tube described in line computation；

Memory, is connected with the master controller, for recording the glass pair to the initialized location of pipe according to the glass The attribute information of each light receiving tube in pipe inside and the on off operating mode of each light receiving tube record each light receiving tube when changing Newest attribute information；

Fixed sleeving, is arranged on the glass to pipe one end, for fixing the glass to two cylindrical glass tubes in pipe；

Cylinder, is arranged on described U-type groove one end, for controlling the glass that pipe is moved in parallel in the U-type groove；

Travel switch, is arranged in the forming machine frame, when the travel switch position is slided into pipe for the glass It is controlled to stop sliding.

2. the on-line measuring device that thermal finalization fabric according to claim 1 offsets, it is characterised in that the state-detection Device includes：

Single-chip microcomputer, each pin of the single-chip microcomputer is directly connected with the glass to each light receiving tube in pipe inside, by detecting The level change for stating each light receiving tube judges the on off operating mode of each light receiving tube.

3. the on-line measuring device that thermal finalization fabric according to claim 1 offsets, it is characterised in that the glass is to pipe Internal luminous tube and the alignment of corresponding light receiving tube, and location interval is identical between each luminous tube, described two cylindrical glass Glass pipe middle part is not provided with luminous tube and corresponding light receiving tube in certain distance region.

4. the on-line measuring device that thermal finalization fabric according to claim 1 offsets, it is characterised in that also include：

Display, is connected with the master controller, the deviation post information for treating thermal finalization fabric for being displayed in line computation.

5. the on-line detecting system of a kind of thermal finalization fabric skew, it is characterised in that including treat thermal finalization fabric, heat setting machine with And the on-line measuring device of the thermal finalization fabric skew described in any one of Claims 1 to 4.