CN204980542U - Precision pulling stress induction system of fabric, woven tape and zipper drying and setting treatment machine - Google Patents
Precision pulling stress induction system of fabric, woven tape and zipper drying and setting treatment machine Download PDFInfo
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- CN204980542U CN204980542U CN201520080793.2U CN201520080793U CN204980542U CN 204980542 U CN204980542 U CN 204980542U CN 201520080793 U CN201520080793 U CN 201520080793U CN 204980542 U CN204980542 U CN 204980542U
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Abstract
The utility model discloses a precision pulling stress induction system of fabric, woven tape and zipper drying and setting treatment machine. This system mainly includes parts such as two tension sensor, a fabric guide roll section of thick bamboo, fabric guide roll post, two bearings, two installing supports, stop screw, set screw, fabric, meshbelt, zip fastener slide on a fabric guide roll section of thick bamboo, and the tension of strap is used in on the fabric guide roll post through the bearing to further transmit the tension sensor unit, the tension sensor unit arrives central controller with tension numerical value sign for electric signal transmission. The utility model discloses a symmetrical arrangement's dual sensor can effectively prevent the tensile stress difference of different fabrics, meshbelt, zip fastener, adopted antifriction bearing to support fabric, meshbelt, zip fastener roller for frictional force between fabric, meshbelt, zip fastener and the roller can not influence the reading of fabric, meshbelt, zip fastener tensile stress, thereby can obtain the tensile stress of fabric, meshbelt, zip fastener accurately.
Description
Technical field
The utility model relates to dyeing machinery technical field, is specifically related to the accurate tensile stress induction system of a kind of fabric, ribbon, slide fastener drying and shaping handler.
Background technology
At present, fabric, ribbon, the slide fasteners such as all size slide fastener, ribbon, wrapped belt after dyeing, need to carry out drying and shaping process.In actual production, fabric, ribbon, the slide fastener shrinkage percentage at different temperatures such as slide fastener, ribbon, wrapped belt of different material character is different, if the tensile stress of ribbon does not obtain conservative control in drying and shaping process, make the Stress non-homogeneity between ribbon, easily cause ribbon to shrink the quality problems such as uneven, have a strong impact on the quality of fabric, ribbon, slide fastener production.Thus, the control of tensile stress is very important in fabric, ribbon, the process of slide fastener drying and shaping, but traditional fabric, ribbon, slide fastener drying and shaping handler seldom adopt sensor to control tensile stress, or the sensor adopted is difficult to the tensile stress situation of effectively monitoring fabric, ribbon, slide fastener.Therefore, be necessary the accurate tensile stress induction system developing a kind of fabric, ribbon, slide fastener drying and shaping handler, make the tensile stress of fabric, ribbon, slide fastener to obtain precise monitoring.
Utility model content
In order to solve the problem, the utility model proposes the accurate tensile stress induction system of a kind of fabric, ribbon, slide fastener drying and shaping handler, effectively can monitor fabric, ribbon, the slide fastener tensile stress state in transmission process.
The purpose of this utility model realizes one of at least by following technical solution.
An accurate tensile stress induction system for fabric, ribbon, slide fastener drying and shaping handler, it comprises two tension pick-ups, selvage guide roller, selvage guide roller, two bearings and two mounting brackets,
Bearing has all coaxially been installed at the two ends of selvage guide roller; Two coaxial bearing are arranged on selvage guide roller, and roller can freely be rotated around roller; Selvage guide roller two ends are respectively fixedly mounted on the bearing brackett of tension pick-up; The lower fixture block of tension pick-up is fastenedly connected by screw and mounting bracket; Fabric, ribbon, slide fastener slide on selvage guide roller, and the tension force of fabric, ribbon, slide fastener is acted on selvage guide roller by bearing, and are delivered to the tension force sensing unit of tension pick-up further; Tension values is characterized by the central controller of electric signal transmission to fabric, ribbon, slide fastener drying and shaping handler by tension force sensing unit.
Further, tension pick-up comprises tension force sensing unit, lower fixture block and upper fixture block, and described tension force sensing unit is fastenedly connected by the 7th fix screw and the 8th fix screw and lower fixture block; Tension force sensing unit is fastenedly connected by the 5th fix screw and the 6th fix screw and upper fixture block; Upper fixture block and lower fixture block are fastenedly connected by the first fix screw, the second fix screw, the 3rd fix screw and the 4th fix screw; First stop screw, the second stop screw and the 3rd stop screw are through the through hole of upper fixture block, and be fixed on the tapped bore on lower fixture block, there is distance D in the first stop screw, the second stop screw and the head of the 3rd stop screw and the surface of upper fixture block, this distance prevents tension pick-up be out of shape excessive at longitudinal stress and damage sensor; 4th stop screw, the 5th stop screw, the 6th stop screw and the 7th stop screw are arranged on the side of fixture block, symmetrical, and the bottom of the 4th stop screw, the 5th stop screw, the 6th stop screw and the 7th stop screw is D with the 4th fix screw, the first fix screw, the 3rd fix screw and the second fix screw distance respectively, this distance prevents tension pick-up excessive and damage sensor in lateral stressed distortion; 8th stop screw is arranged on the bottom surface of lower fixture block, and there is distance D between the bottom surface of screw and upper fixture block bottom surface; 9th fix screw and the tenth fix screw secure bearing brackett and upper fixture block.
Further, described spacing space D all can be changed by adjustment screw.
Relative to prior art, the utility model has the following advantages and technique effect:
The utility model adopts the dual sensor be arranged symmetrically with, and effectively can prevent the tensile stress difference of different fabric, ribbon, slide fastener; Have employed roller bearings fabric, ribbon, slide fastener roller, make fabric, ribbon, reading that friction force between slide fastener and roller can not affect fabric, ribbon, slide fastener tensile stress, thus accurately can obtain the tensile stress of fabric, ribbon, slide fastener.
Accompanying drawing explanation
Fig. 1 is the structural representation of accurate tensile stress induction system of fabric in example, ribbon, slide fastener drying and shaping handler.
Fig. 2 is sensor body structure and bearing arrangement schematic diagram.
Fig. 3 is the birds-eye view of sensor body structure.
Fig. 4 is the front elevation of sensor body structure.
Fig. 5 is the C-C cutaway view of Fig. 3.
Fig. 6 is the B-B cutaway view of Fig. 3.
Fig. 7 is the partial enlarged view at position, Fig. 6 upper right corner.
Fig. 8 is the application schematic diagram of accurate tensile stress induction system A on the drying heat treatment machine of chain.
In figure: 1-tension pick-up; 2-selvage guide roller; 3-selvage guide roller; 4-bearing; 5-mounting bracket; 11-tension force sensing unit; Fixture block under 12-; The upper fixture block of 13-; 14-axle supporting base; 15-first stop screw; 16-second stop screw; 17-the 3rd stop screw; 18-the 4th stop screw; 19-the 5th stop screw; 20-the 6th stop screw; 21-the 7th stop screw; 22-first fix screw; 23-second fix screw; 24-the 3rd fix screw; 25-the 4th fix screw; 26-the 5th fix screw; 27-the 6th fix screw; 28-the 7th fix screw; 29-the 8th fix screw; 30-the 8th stop screw; 31-the 9th fix screw; 32-the tenth fix screw.
Detailed description of the invention
Below in conjunction with specific embodiment, the utility model is described in further detail, but enforcement of the present utility model and protection are not limited thereto.
As depicted in figs. 1 and 2, the accurate tensile stress induction system of a kind of fabric, ribbon, slide fastener drying and shaping handler, it comprises two tension pick-ups 1, selvage guide roller 2, selvage guide roller 3, two bearings 4 and two mounting brackets 5, and bearing 4 has all coaxially been installed at the two ends of selvage guide roller 2; Two bearings 4 are coaxially arranged on selvage guide roller 3, and roller 2 can freely be rotated around roller 3; Selvage guide roller 3 two ends are respectively fixedly mounted on the bearing brackett 14 of tension pick-up 1; The lower fixture block 12 of tension pick-up 1 is fastenedly connected by screw and mounting bracket 5; Fabric, ribbon, slide fastener slide on selvage guide roller 2, and the tension force of fabric, ribbon, slide fastener is acted on selvage guide roller 3 by bearing 4, and are delivered to the tension force sensing unit 11 of tension pick-up 1 further; Tension values is characterized by the central controller of electric signal transmission to fabric, ribbon, slide fastener drying and shaping handler by tension force sensing unit 11.
As shown in Fig. 3 ~ Fig. 7, tension pick-up 1 comprises tension force sensing unit 11, lower fixture block 12 and upper fixture block 13, and tension force sensing unit can adopt existing commercially available tension force sensing element to be fastenedly connected with lower fixture block 12 by the 7th fix screw 28 and the 8th fix screw 29; Tension force sensing unit 11 is fastenedly connected with upper fixture block 13 by the 5th fix screw 26 and the 6th fix screw 27; Upper fixture block 13 is fastenedly connected by the first fix screw 22, second fix screw 23, the 3rd fix screw 24 and the 4th fix screw 25 with lower fixture block 12; First stop screw 15, second stop screw 16 and the 3rd stop screw 17 pass the through hole of upper fixture block 13, and be fixed on the tapped bore on lower fixture block 12, there is distance D in the first stop screw 15, second stop screw 16 and the head of the 3rd stop screw 17 and the surface of upper fixture block 13, this distance prevents tension pick-up excessive and damage sensor in longitudinal stress distortion; 4th stop screw 18, the 5th stop screw 19, the 6th stop screw 20 and the 7th stop screw 21 are arranged on the side of fixture block 13, symmetrical, and the bottom of the 4th stop screw 18, the 5th stop screw 19, the 6th stop screw 20 and the 7th stop screw 21 respectively with the 4th fix screw 25, first fix screw 22, the 3rd fix screw 24 and the second fix screw 23 apart from being D, this distance prevents tension pick-up excessive and damage sensor in lateral stressed distortion; 8th stop screw 30 is arranged on the bottom surface of lower fixture block 12, and there is distance D between the bottom surface of screw and upper fixture block 13 bottom surface; 9th fix screw 31 and the tenth fix screw 32 secure bearing brackett 14 and upper fixture block 13.Spacing space D is all changed by adjustment respective screws.
Upper fixture block 13 is fixedly connected with tension force sensing unit 11 with the 6th fix screw 27 by the 5th fix screw 26, and when upper fixture block is subject to the effect of power, the 5th fix screw 26 and the 6th fix screw 27 produce distortion and power passed to tension force sensing unit 11; Because the sensing range of tension force sensing unit 11 pairs of power is limited, in order to protect tension force sensing unit not to be damaged, be provided with each stop screw to limit the deformation range of upper fixture block in all directions.Described spacing space D all can be changed by adjustment screw.
Fig. 8 is the application schematic diagram of accurate tensile stress induction system A on the drying heat treatment machine of chain, certainly, the installation site of accurate tensile stress induction system A is flexibly, be only a kind of example in figure, other position in the driving system in theory on the drying heat treatment machine of chain also can be arranged.
The announcement of book and instruction according to the above description, the utility model those skilled in the art can also change above-mentioned embodiment and revise.Therefore, the utility model is not limited to detailed description of the invention disclosed and described above, also should fall in the protection domain of claim of the present utility model modifications and changes more of the present utility model.
Claims (3)
1. the accurate tensile stress induction system of a fabric, ribbon, slide fastener drying and shaping handler, it is characterized in that comprising two tension pick-ups (1), selvage guide roller (2), selvage guide roller (3), two bearings (4) and two mounting brackets (5), bearing (4) has all coaxially been installed at the two ends of selvage guide roller (2); Two bearings (4) are coaxially arranged on selvage guide roller (3), and roller (2) can freely be rotated around roller (3); Selvage guide roller (3) two ends are respectively fixedly mounted on the bearing brackett (14) of tension pick-up (1); The lower fixture block (12) of tension pick-up (1) is fastenedly connected by screw and mounting bracket (5); Fabric, ribbon, slide fastener are in the upper slip of selvage guide roller (2), and the tension force of fabric, ribbon, slide fastener is acted on selvage guide roller (3) by bearing (4), and is delivered to the tension force sensing unit (11) of tension pick-up (1) further; Tension values is characterized by the central controller of electric signal transmission to fabric, ribbon, slide fastener drying and shaping handler by tension force sensing unit (11).
2. the accurate tensile stress induction system of a kind of fabric according to claim 1, ribbon, slide fastener drying and shaping handler, it is characterized in that tension pick-up (1) comprises tension force sensing unit (11), lower fixture block (12) and upper fixture block (13), tension force sensing unit (11) is fastenedly connected with lower fixture block (12) by the 7th fix screw (28) and the 8th fix screw (29); Tension force sensing unit (11) is fastenedly connected with upper fixture block (13) by the 5th fix screw (26) and the 6th fix screw (27); Upper fixture block (13) and lower fixture block (12) are fastenedly connected by the first fix screw (22), the second fix screw (23), the 3rd fix screw (24) and the 4th fix screw (25); First stop screw (15), the second stop screw (16) and the 3rd stop screw (17) are through the through hole of upper fixture block (13), and be fixed on the tapped bore on lower fixture block (12), there is distance D in the first stop screw (15), the second stop screw (16) and the head of the 3rd stop screw (17) and the surface of upper fixture block (13); 4th stop screw (18), the 5th stop screw (19), the 6th stop screw (20) and the 7th stop screw (21) are arranged on the side of fixture block (13), symmetrical, and the bottom of the 4th stop screw (18), the 5th stop screw (19), the 6th stop screw (20) and the 7th stop screw (21) respectively with the 4th fix screw (25), the first fix screw (22), the 3rd fix screw (24) and the second fix screw (23) distance be D; 8th stop screw (30) is arranged on the bottom surface of lower fixture block (12), and there is distance D between the bottom surface of screw and upper fixture block (13) bottom surface; 9th fix screw (31) and the tenth fix screw (32) secure bearing brackett (14) and upper fixture block (13).
3. the accurate tensile stress induction system of a kind of fabric according to claim 1, ribbon, slide fastener drying and shaping handler, is characterized in that: described distance D is all changed by adjustment respective screws.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520080793.2U CN204980542U (en) | 2015-02-04 | 2015-02-04 | Precision pulling stress induction system of fabric, woven tape and zipper drying and setting treatment machine |
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CN201520080793.2U CN204980542U (en) | 2015-02-04 | 2015-02-04 | Precision pulling stress induction system of fabric, woven tape and zipper drying and setting treatment machine |
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CN204980542U true CN204980542U (en) | 2016-01-20 |
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CN201520080793.2U Expired - Fee Related CN204980542U (en) | 2015-02-04 | 2015-02-04 | Precision pulling stress induction system of fabric, woven tape and zipper drying and setting treatment machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104627717A (en) * | 2015-02-04 | 2015-05-20 | 广州番禺高勋染整设备制造有限公司 | Precision pulling stress induction system of fabric, woven tape and zipper drying and setting treatment machine |
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2015
- 2015-02-04 CN CN201520080793.2U patent/CN204980542U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104627717A (en) * | 2015-02-04 | 2015-05-20 | 广州番禺高勋染整设备制造有限公司 | Precision pulling stress induction system of fabric, woven tape and zipper drying and setting treatment machine |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160120 Termination date: 20220204 |
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CF01 | Termination of patent right due to non-payment of annual fee |