CN105841870A - Flexible film tension detecting roller - Google Patents

Abstract

The invention belongs to a field of equipment related to flexible film coiling conveying and discloses a flexible film tension detecting roller. The flexible film tension detecting roller includes a total tension detecting assembly and a tension distribution detecting assembly connected together integrally in the horizontal direction. The total tension detecting assembly is in the form of a pedestal and the pedestal core shaft of the total tension detecting assembly is provided with a plurality of tension sensors, which are used for real time detection of total tension during a flexible film conveying process, along the peripheral direction. The tension distribution detecting assembly is in the form of a roller and is formed by connecting a plurality of roller units in a head-to-tail manner, wherein each roller unit realizes magnetic connection and successive power supply through structural design and flexible sensors are distributed on the axial direction and the peripheral direction of the rollers. In this way, tension distribution detection of areas corresponding to the roller units independently can be performed. By adopting the detecting roller provided by the invention, synchronous high precision measurement of total tension and tension distribution in the flexible film coiling conveying process can be realized in a compact-structure and convenient-to-operate way and the detecting roller provided by the invention has advantages of good adaptability and reliability.

Description

A kind of flexible membrane tension-sensing roller

Technical field

The invention belongs to flexible membrane winding conveying relevant device field, more particularly, to a kind of flexible Layer tension measuring roll.

Background technology

Flexible membrane winding induction system is widely used in papermaking, printing, food processing, flexible electronic envelope The industrial circles such as dress, mainly include unreeling module, tension force detection module, feeding module, rolling module Composition, wherein tension force Detection & Controling are one of key links of flexible membrane winding induction system, soft Property film roll be required to the tension force Detection & Controling of precision to improve product matter around the modules of induction system Amount.Along with new technology and the development of new material, tension force detection is as the general character basis of industrial control field One of technology, at aspects such as semiconductor manufacturing, vacuum coating, intimate fiber windings increasingly by people Attention, the effect of tension force Detection & Controling directly affects the quality of Product processing.Such as, open Power is crossed conference and is caused deformation of thin membrane even to rupture, and tension force is too small, can cause film gauffer, lateral drift Deng, all can reduce product quality；But the tension force detection in the preparation process of above-mentioned flexible electronic film Problem, is not well solved in current industrial production.

In some flexible membrane tension force detection schemes proposed in prior art, it is for flexible membrane mostly The detection of mean tension.Such as, CN 201320664096.2 discloses a kind of cantilevered low-tension to pass Sensor, this sensor includes jockey pulley and mounting seat, and one end of jockey pulley is placed in mounting seat, its Including mandrel, roller body and tension detector, roller body is set on mandrel, and two ends are passed through respectively Tension detector connects with mandrel, and mounting seat is provided with signal output port, and with in jockey pulley Tension detector connects.This detection scheme can be only done flexible membrane mean tension or the detection of total tension force, And the detection of the tension distribution to flexible membrane cross section cannot be completed, corresponding existence correction control accuracy is not enough, The problems such as production efficiency is the highest, it is necessary to it is made and further continues research and improve.

Summary of the invention

For disadvantages described above or the Improvement requirement of prior art, the invention provides a kind of flexible membrane tension force Measuring roll, wherein by combining the process characteristic of flexible membrane coiling process and conveying, single to tension force detection The many aspects such as structure composition, interconnected relationship and the power supply mode of unit re-start design, accordingly Can realize the synchronization high accuracy of total tension force and tension distribution in flexible membrane winding course of conveying is surveyed simultaneously Amount, and possess compact conformation, integrated level is high, be easy to manipulation and expand, signals collecting accurately, adapt to Property and the advantage such as highly reliable, be therefore particularly suitable for the flexible coating materials volume tension force detection of all kinds of reel-to-reel Application scenario.

For achieving the above object, it is proposed, according to the invention, provide a kind of flexible membrane tension-sensing roller, it is special Levying and be, this flexible membrane tension-sensing roller is coupled all-in-one-piece total tension force detection components and tension force by level Distribution detection components collectively constitutes, wherein:

Described total tension force detection components is the form of base, and includes flange, sleeve and base mandrel, Wherein this flange is combined by two semicircular ring, and within it circle is provided with ring-shaped step；This sleeve Level is fixed on the ring-shaped step of described flange inner ring, is achieved in axially positioning；This base mandrel is same Axle is installed on the inside of described sleeve, then via lock sleeve and described tension distribution detection components level Couple；Pass additionally, the circumferentially direction, outer ring, stage casing of described base mandrel is provided with multiple strain-type Sensor, for performing the real-time detection to tension force total in flexible membrane course of conveying；On this base mandrel also Being provided with the first signal acquisition module, the signal of the real-time testing result thus performing described total tension force is adopted Collection and process, and perform the signal reception of tension distribution testing result and process；

Described tension distribution detection components is the form of roller, modular multiple roller units head and the tail connect Connect and form, quantity adjustment, and adjacent roller unit can be carried out according to the active section width of flexible membrane Between be connected with each other by magnetic means；Each roller unit each includes roller and is coaxially disposed in this roller Roller core shaft within Tong, wherein this roller all realizes being connected by bearing with the two ends, left and right of this roller core shaft Install, and described roller can be rotated around its axis；For described roller, it enters one Step includes inner core, sensor base and multiple flexible sensor, the wherein two ends, left and right of this inner core inner ring Being connected with the outer ring of described bearing, the outer ring of this inner core is connected with the inner ring of described sensor base, should The outer peripheral surface of sensor base is provided with the multiple grooves for installing described flexible sensor, described many Individual flexible sensor is then simultaneously along the axial and circumferential distribution of described roller, and is used for performing this roller list The tension force in the corresponding region of unit and distribution detection thereof；Additionally, the end of each roller unit is additionally provided with Binary signal acquisition module, thus performs the flexible membrane tension distribution detection in region corresponding to each roller unit The signals collecting of result and transmitting, perform the sealing of described bearing simultaneously.

As it is further preferred that the overall form in horizontally disposed hollow shaft of described roller core shaft, The left side of this hollow shaft, is provided with two cannelures along its circumferential direction, is wherein in the of inner side One cannelure is used for installing electromagnet, and is in second cannelure in outside for installing diameter relatively Big big copper ring；Radial direction along this hollow shaft left end also extends through and is provided with spring plug, and Importing for electric current；In the right side of this hollow shaft, equally its circumferential direction is provided with the 3rd ring Shape groove, the 3rd cannelure is for installing the small copper ring that diameter is relatively small, and is used for the derivation of electric current； Additionally, the radial direction along this hollow shaft right-hand member is also symmetrically installed with two copper posts, and this copper post It is connected by wire with between described small copper ring, spring plug；Correspondingly, when two adjacent rollers When unit joins end to end, described copper post is connected with described electromagnet, is achieved in the power supply to electromagnet； The end of this copper post the most also inner ring with described big copper ring is connected, the outer ring of this big copper ring then with institute The brush stated in secondary signal acquisition module contacts, and is achieved in the confession to secondary signal acquisition module Electricity.

As it is further preferred that for the roller list being in caudal end in described tension distribution detection components For unit, its right-hand member is additionally provided with end cap, and has been used for the tension distribution detection components after assembling Sealing protection.

As it is further preferred that described flexible sensor preferably employs block covering or spiral covering Etc. form, corresponding simultaneously along the axial and circumferential setting of described roller.

As it is further preferred that described secondary signal acquisition module preferably includes described brush and signal Transmitter unit, wherein the inner ring of this brush contacts with the outer ring of described big copper ring, is derived from power supply； This signal transmitter unit is connected with described flexible sensor signal, is thus obtained by these flexible sensors The signal obtained is gathered and is launched.

In general, by the contemplated above technical scheme of the present invention compared with prior art, mainly Possess following technological merit:

1, in the present invention by by design of detection roll for including horizontal connector all-in-one-piece total tension force detection group Part and tension distribution detection components, and the concrete structure of each of which is formed and is coupled to each other mode Improve, mutually should be able to be while realizing the total tonometry of flexible membrane, additionally it is possible to for flexible membrane Tension distribution situation performs high-acruracy survey, and the modularized design of tension distribution detection components makes The present invention can adapt to the flexible membrane in different size and position, and possess be easy to assembling and be adjusted flexibly, Over all Integration degree advantages of higher；

2, this key stratum of power supply being also directed to each assembly in the present invention is carried out accordingly in the face of its structure forms Design, makes between the most modular each tension distribution measuring roll of total tension force detection components accordingly It is connected with each other not only by high-speed double electromagnet, and electric current can transmit the most successively, and then be able to By compact conformation, be easy to manipulation in the way of realize whole tension force detection axle electric current transmission and control；

3, the present invention is also directed to the concrete structure of each roller unit in tension distribution detection components the most soft Property sensor set-up mode studied, mutually should be able to perform various different tension force in high precision divides Cloth detection demand, can more fully complete along flexible membrane cross section side accordingly compared with existing equipment To tension distribution detection, and then more precisely perform to control and reach aobvious accordingly in course of conveying Write the effect improving production quality.

Accompanying drawing explanation

Fig. 1 is the overall knot according to the flexible membrane tension-sensing roller constructed by the preferred embodiment for the present invention Structure schematic diagram；

Fig. 2 a is the structural representation of total tension force detection components shown in Fig. 1；

Fig. 2 b is the STRUCTURE DECOMPOSITION schematic diagram of total tension force detection components shown in Fig. 1；

Fig. 3 is the overall structure schematic diagram of tension distribution detection components shown in Fig. 1；

Fig. 4 a is the structural representation of the single roller unit constituting tension distribution detection components shown in Fig. 3 Figure；

Fig. 4 b is that the STRUCTURE DECOMPOSITION of the single roller unit constituting tension distribution detection components shown in Fig. 3 is shown It is intended to；

Fig. 5 is the STRUCTURE DECOMPOSITION schematic diagram for more specifically showing the roller core shaft in each roller unit；

Fig. 6 is the STRUCTURE DECOMPOSITION schematic diagram for more specifically showing the roller in each roller unit；

Fig. 7 a according to a preferred embodiment of the present invention, display flexible sensor on roller unit A kind of schematic diagram of distribution form；

Fig. 7 b is that another preferred embodiment according to the present invention, display flexible sensor are on roller unit The schematic diagram of another distribution form；

Fig. 8 is the structure for more specifically showing the secondary signal acquisition module in each roller unit Schematic diagram；

In all of the figs, identical reference is used for representing identical element or structure, wherein:

1-base 2-roller 10-flange 11-base mandrel 12-the first signal acquisition module 13-sleeve 14-lock sleeve 110-strain gauge transducer 20-roller unit 21-end cap 200-roller core Axle 201-roller 202-bearing 203-the first signal acquisition module 204-bearing cap 200a-is empty The mandrel 200b-spring plug 200c-copper post 200d-big copper ring of small copper ring 200e- 200f-electromagnet 201a-inner core 201b-sensor base 201c-flexible sensor 203a- Brush 203b-signal transmitter unit

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing And embodiment, the present invention is further elaborated.Should be appreciated that described herein specifically Embodiment only in order to explain the present invention, is not intended to limit the present invention.Additionally, it is disclosed below Just may be used as long as technical characteristic involved in each embodiment of the present invention does not constitutes conflict each other To be mutually combined.

Fig. 1 is the overall knot according to the flexible membrane tension-sensing roller constructed by the preferred embodiment for the present invention Structure schematic diagram.As shown in fig. 1, this flexible membrane tension-sensing roller is always opened by level connection all-in-one-piece Power detection components and tension distribution detection components collectively constitute, and form the concrete structure of each of which And set-up mode has carried out targeted design respectively, corresponding expectation reaches not only can realize flexible membrane The measurement of total tension force in winding course of conveying, additionally it is possible to along flexible membrane lateral cross section and longitudinal cross-section The tension distribution situation in direction performs to synchronize the effect of high-acruracy survey.Below will be single to the two composition Unit carries out specific explanations explanation one by one.

Referring initially to Fig. 2 a and Fig. 2 b, respectively illustrate overall structure and the group thereof of total tension force detection components Become unit.Specifically, this total tension force detection components is the form of base 1, and include flange 10, The component units such as sleeve 13 and base mandrel 11.Wherein, flange 10 such as can be by two semicircular ring groups Conjunction forms, and connects each other by screw, and is locked sleeve 13 in method by the tensile force of screw The inner ring of blue 10.The inner ring of flange 10 is additionally provided with ring-shaped step, the outer ring relative set of sleeve 13 Cannelure, from there through coordinating between this cannelure with ring-shaped step so that sleeve level is fixed on Flange 10, is achieved in axially positioning.Base mandrel 11 is same in horizontally disposed, and is coaxially installed on The inside of sleeve 13, such as its left end can be connected with the inner left wall of sleeve 13 by screw, and it is right End couples with tension distribution detection components 2 level via lock sleeve 14.

In order to perform the detection of total tension force in flexible membrane course of conveying, in the present invention, described base core The outer ring, stage casing of axle 11 is circumferentially provided with multiple strain gauge transducer 110, is used for always performing The real-time detection of tension force；The problem simultaneously taking account of power supply, the right-hand member of this base mandrel 11 is along radially Direction is symmetrically arranged with two circular holes, arranges copper post in each hole, transmits for electric current；First signal Acquisition module 12 example is fixed on the left end of base mandrel 11 such as by screw level, thus to total The real-time testing result of power performs signals collecting and process.

Referring next to Fig. 3, it is shown that according to another key component namely the tension distribution detection group of the present invention The overall structure schematic diagram of part.As it is shown on figure 3, this tension distribution detection components is the form of roller 2, It is formed by connecting by modular multiple roller units 20 head and the tail, can enter according to the active section width of flexible membrane Line number amount adjusts, and is connected with each other by magnetic means between adjacent roller unit, to adapt to difference The tension force detection demand of width and position flexible membrane.Additionally, the right-hand member of the roller unit in caudal end, also End cap 21 can be provided with, be used for the sealing protection of the tension distribution detection components after assembling.

The most as shown in figs 4 a and 4b, the single roller unit of composition tension distribution detection components can wrap Include and include roller 201 and be coaxially disposed in the roller core shaft 200 this roller within, wherein this roller 201 and The two ends, left and right of this roller core shaft 200 all realize connecting by bearing 202 and install, such as bearing 202 Outer ring is connected with roller 201, and bearing 202 inner ring is connected with roller core shaft 200, so that described roller Cylinder can rotate around its axis；Referring also to Fig. 6, for described roller 201, it is further Including inner core 201a, sensor base 201b and multiple flexible sensor 201c, wherein this inner core 201a The two ends, left and right of inner ring are connected with the outer ring of described bearing 202, the outer ring of this inner core 201a and described biography The inner ring of sensor pedestal 201b connects, and the outer peripheral surface of this sensor base 201b is provided with for pacifying Multiple grooves of dress flexible sensor 201c, the plurality of flexible sensor 201c is then simultaneously along described The axial and circumferential distribution of roller, and for performing tension force and the distribution thereof in region corresponding to this roller unit Detection.Additionally, the end of each roller unit is additionally provided with secondary signal acquisition module 203, thus perform The signals collecting of the tension distribution testing result of the flexible membrane in region corresponding to each roller unit and transmitting, Perform the sealing of described bearing 202 simultaneously.

More specifically, roller core shaft 200 is horizontally disposed with, left end and a upper roller unit namely preposition roller list The right-hand member (tail end) of unit connects, and right-hand member is (first with the left end of next roller unit namely rearmounted roller unit End) it is connected.Such as secondary signal acquisition module 203 is set outside the bearing 202 being in left side, And outside the bearing 202 being in right side, bearing cap 204 is set for bearing seal, bearing cap 204 Can be connected and with roller with roller 201 two sides by screw respectively with secondary signal acquisition module 203 Synchronous axial system.In this way, the flexible sensor being distributed on each roller unit is the most independently of one another Perform the tension distribution to the region corresponding to each roller unit or the flexible membrane of position to detect, and then by institute The testing result having roller unit to obtain is come more fully, is reflected flexible membrane entirety tension distribution shape exactly State.

In order to more precisely obtain tension distribution testing result, flexible sensor is on each roller unit Distribution design play and directly affect.Correspondingly, according to a preferred embodiment of the present invention, such as figure Shown in 7a and 7b, the flexible sensor of present invention layout on roller unit preferably employs in Fig. 7 b Spiral covers or the block covering shown in Fig. 7 a, and simultaneously along roller 201 axially and Circumferentially disposed, test shows to be obtained in that the most accurate tension distribution testing result.Additionally, sensing Device pedestal 201b preferably employs flexible material, to protect flexible sensor, prevents from weighing wounded.

As shown in Figure 8, described secondary signal acquisition module 203 such as can include brush 203a and signal Transmitter unit 203b, the wherein inner ring of this brush 203a and the big copper ring 200e that will be explained in detail below Outer ring contact, be derived from power supply；This signal transmitter unit 203b and described flexible sensor 201c Signal is connected, and is thus gathered by the signal that these flexible sensors are obtained and launches.

For tension-sensing roller constructed above, realize total tension force at the same time and each region tension force divides On the basis of cloth detection, the realization of this key function that there is a need to its multiple element are powered Continue to make research and design.Referring specifically to Fig. 5, according to a preferred embodiment of the present invention, for For the roller core shaft 200 of each roller unit, its entirety is such as in the shape of horizontally disposed hollow shaft 200a Formula.In the left side of this hollow shaft 200a, its circumferential direction is provided with two cannelures, wherein locates First annular groove in inner side is used for installing electromagnet 200f, and be in second cannelure in outside for The big copper ring 200e that diameter is relatively large is installed；Radial direction along this hollow shaft left end also extends through peace Equipped with spring plug 200b, and for the importing of electric current；In the right side of this hollow shaft 200a, with Sample is provided with the 3rd cannelure along its circumferential direction, and it is relatively small that the 3rd cannelure is used for installing diameter Small copper ring 200d, and for the derivation of electric current；Additionally, along the radial direction of this hollow shaft right-hand member Also it is symmetrically installed with two copper post 200c), and this copper post 200c and small copper ring 200d, spring are slotting Connected by wire between head 200b；Correspondingly, when two adjacent roller units join end to end, copper Post 200c is connected with electromagnet 200f, is achieved in the power supply to magnetic valve and then makes each roller unit Between magnetic interconnection.Additionally, the end of this copper post 200c is the most also with the inner ring of big copper ring 200e the most even Connecing, the outer ring of this big copper ring 200e is then with the brush 203a in secondary signal acquisition module 203 even Connect, be achieved in the power supply to secondary signal acquisition module.

More specifically, the said units in same roller unit is connected by wire, each roller unit head and the tail connect After having connect, the spring plug 200b of rearmounted roller unit left end namely head end is all right with preposition roller unit The small copper ring 200d contact of end namely tail end, then electric current is by axially across the wire within hollow shaft Pass to copper post 200c and big copper ring 200e；Correspondingly, copper post 200c can realize electromagnet 200f Power supply, and big copper ring 200e outer ring contacts with the brush 203a of secondary signal acquisition module 203, Thus can realize secondary signal acquisition module 203 and the power supply of flexible sensor 201c.Finally, little Copper ring 200d is for the derivation of electric current, and transmission, to rearmounted roller unit, finally realizes the most successively The electric current transmission of whole tension distribution detection components.

To sum up, highly integrated according to the flexible membrane tension-sensing roller overall structure of the present invention, it is possible to simultaneously Realize total tension force and the synchronization high-acruracy survey of tension distribution in flexible membrane winding course of conveying, and The electric current supplying functional of each component units has been made further optimization design.Correspondingly, with existing Equipment compare possess signals collecting accurately, be easy to manipulation and expand, adaptability and the advantage such as highly reliable, It is therefore particularly suitable for the flexible coating materials volume tension force detection application scenario of all kinds of reel-to-reel.

As it will be easily appreciated by one skilled in the art that and the foregoing is only presently preferred embodiments of the present invention, Not in order to limit the present invention, all made within the spirit and principles in the present invention any amendment, etc. With replacement and improvement etc., should be included within the scope of the present invention.

Claims (5)

1. a flexible membrane tension-sensing roller, it is characterised in that this flexible membrane tension-sensing roller is by level Couple all-in-one-piece total tension force detection components and tension distribution detection components collectively constitute, wherein:

Described total tension force detection components is the form of base (1), and includes flange (10), sleeve (13) With base mandrel (11), wherein this flange (10) is combined by two semicircular ring, and within it encloses It is provided with ring-shaped step；This sleeve (13) level is fixed on the ring-shaped step of described flange inner ring, by This realizes axially location；This base mandrel (11) is coaxially installed on the inside of described sleeve (13), Then couple with described tension distribution detection components level via lock sleeve (14)；Additionally, the described end The outer ring, stage casing of seat mandrel (11) is circumferentially provided with multiple strain gauge transducer (110), For performing the real-time detection of the total tension force of flexible membrane in winding course of conveying；This base mandrel (11) On be also equipped with the first signal acquisition module (12), thus perform the real-time testing result of described total tension force Signals collecting and process, and perform tension distribution testing result signal receive and process；

Described tension distribution detection components is the form of roller (2), by modular multiple roller units (20) Head and the tail are formed by connecting, and can carry out quantity adjustment according to the active section width of flexible membrane, and adjacent It is connected with each other by magnetic means between roller unit；Each roller unit (20) each includes roller (201) Be coaxially disposed in the roller core shaft (200) within this roller, wherein this roller (201) and this roller core shaft (200) two ends, left and right all realize connecting by bearing (202) and install, and make described roller (201) Can rotate around its axis；For described roller (201), it farther include inner core (201a), Sensor base (201b) and multiple flexible sensor (201c), wherein this inner core (201a) inner ring Two ends, left and right be connected with the outer ring of described bearing (202), the outer ring of this inner core (201a) is with described The inner ring of sensor base (201b) connects, and the outer peripheral surface of this sensor base (201b) is arranged There are the multiple grooves for installing described flexible sensor (201c), the plurality of flexible sensor (201c) Then simultaneously along the axial and circumferential distribution of described roller, and it is used for performing region corresponding to this roller unit Flexible membrane tension distribution detection；Adopt additionally, the end of each roller unit is additionally provided with secondary signal Collection module (203), thus performs tension force and the distribution testing result thereof in region corresponding to each roller unit Signals collecting and transmitting, perform the sealing of described bearing (202) simultaneously.

2. flexible membrane tension-sensing roller as claimed in claim 1, it is characterised in that described roller core shaft (200) the overall form in horizontally disposed hollow shaft (200a), in this hollow shaft (200a) Left side, is preferably provided with two cannelures along its circumferential direction, is wherein in the first annular of inner side Groove is used for installing electromagnet (200f), and is in second cannelure in outside for installing diameter relatively Big big copper ring (200e)；Radial direction along this hollow shaft left end also extend through be provided with spring insert Head (200b), and for the importing of electric current；In the right side of this hollow shaft (200a), equally along it Circumferential direction is preferably provided with the 3rd cannelure, and the 3rd cannelure is relatively small for installing diameter Small copper ring (200d), and for the derivation of electric current；Additionally, along the radial direction of this hollow shaft right-hand member Also it is symmetrically installed with two copper posts (200c), and this copper post (200c) and described small copper ring (200d), Connected by wire between spring plug (200b)；Correspondingly, as two adjacent roller unit head When tail is connected, described copper post (200c) is connected with described electromagnet (200f), is achieved in electricity The power supply of magnet；The end of this copper post (200c) the most also with the inner ring of described big copper ring (200e) Connect, the outer ring of this big copper ring (200e) then with in described secondary signal acquisition module (203) Brush (203a) contacts, and is achieved in the power supply to secondary signal acquisition module.

3. flexible membrane tension-sensing roller as claimed in claim 1 or 2, it is characterised in that for institute Stating for being in the roller unit of caudal end in tension distribution detection components, its right-hand member is preferably additionally provided with End cap (21), and it has been used for the sealing protection of the tension distribution detection components after assembling.

4. the flexible membrane tension-sensing roller as described in claim 1-3 any one, it is characterised in that Described flexible sensor (201c) preferably employs the forms such as block covering or spiral covering, same accordingly Time be distributed along the axial and circumferential of described roller.

5. the flexible membrane tension-sensing roller as described in claim 1-4 any one, it is characterised in that Described secondary signal acquisition module (203) preferably includes brush (203a) and signal transmitter unit (203b), Wherein the inner ring of this brush contacts with the outer ring of described big copper ring (200e), is derived from power supply； This signal transmitter unit is connected with described flexible sensor (201c), thus by these flexible sensors The signal obtained is gathered and is launched.