CN214583569U - Be used for fabric grammes per square metre on-line measuring aligning gear - Google Patents

Be used for fabric grammes per square metre on-line measuring aligning gear Download PDF

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Publication number
CN214583569U
CN214583569U CN202120436850.1U CN202120436850U CN214583569U CN 214583569 U CN214583569 U CN 214583569U CN 202120436850 U CN202120436850 U CN 202120436850U CN 214583569 U CN214583569 U CN 214583569U
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Prior art keywords
cloth
cloth guide
guide roller
fabric
leading belt
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CN202120436850.1U
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Chinese (zh)
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顾金华
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Changzhou Hongda Intelligent Equipment Industry Development Research Institute Co ltd
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Changzhou Hongda Intelligent Equipment Industry Development Research Institute Co ltd
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Abstract

The utility model discloses an online detection and correction mechanism for fabric gram weight, which comprises at least five first cloth guide rollers, second cloth guide rollers, third cloth guide rollers, fourth cloth guide rollers and fifth cloth guide rollers which are arranged in parallel and are arranged along the running route of the fabric in sequence, wherein weighing sensors are arranged at one end or both ends of the second cloth guide rollers, the third cloth guide rollers and the fourth cloth guide rollers, and the weighing sensors are connected with a central processing unit; a leading belt is arranged between the cloth inlet side of the first cloth guide roller and the cloth outlet side of the fifth cloth guide roller, a quantitative mechanism or a variable mechanism for applying force to the leading belt is arranged at the cloth inlet side of the first cloth guide roller, and the leading belt at the cloth outlet side of the fifth cloth guide roller is fixed; or a quantitative mechanism or a variable mechanism for applying force to the leading belt is arranged on the cloth outlet side of the fifth cloth guide roller, and the leading belt on the cloth inlet side of the first cloth guide roller is fixed; or a quantitative mechanism or a variable mechanism for applying force to the leading belt is arranged on the cloth inlet side of the first cloth guide roller and the cloth outlet side of the fifth cloth guide roller. The utility model discloses guaranteed that current fabric grammes per square metre on-line measuring degree of accuracy moves higher.

Description

Be used for fabric grammes per square metre on-line measuring aligning gear
Technical Field
The utility model relates to a mechanism for on-line measuring rectifies fabric grammes per square metre belongs to weaving dyeing and finishing equipment technical field.
Background
Fabric grammage generally refers to the weight in grams per square meter of fabric. The gram weight of the fabric is an important index influencing the physical and mechanical properties and the wearing comfort of the fabric. Because the gram weight is changed in each process of fabric bleaching, dyeing, finishing, heat setting and the like, the gram weight of the fabric in each process can be kept stable and the product quality can be improved only by detecting the gram weight of the fabric on line in real time and guiding the finishing process to set up a processing technology.
An existing fabric gram weight on-line detection mechanism, for example, a structure disclosed in chinese utility model patent zl202021241409.x, it includes central processing unit and the first fabric guide roll, the second fabric guide roll, the third fabric guide roll, the fourth fabric guide roll and the fifth fabric guide roll that set gradually along the fabric traffic direction, installs weighing sensor at the one end or both ends of second fabric guide roll, third fabric guide roll and fourth fabric guide roll, and weighing sensor is connected with central processing unit. The utility model discloses a can accurately measure the real-time gram weight of fabric, implement portably to the fabric is extravagant has been avoided. However, in order to measure the real-time grammage of the fabric more accurately, in actual working condition use, after each time of use, the on-line detection mechanism for the grammage of the fabric needs to be corrected.
Disclosure of Invention
The to-be-solved technical problem of the utility model is to provide a be used for fabric gram weight on-line measuring aligning gear, this mechanism can ensure that current fabric gram weight on-line measuring is sustainable, the degree of accuracy moves higher.
In order to solve the technical problem, the utility model discloses a such be used for fabric grammes per square metre on-line measuring aligning gear, include the first fabric guide roller, the second fabric guide roller, the third fabric guide roller, the fourth fabric guide roller and the fifth fabric guide roller of at least five parallel arrangements that set gradually along the fabric movement route, install weighing sensor at one end or both ends of second fabric guide roller, third fabric guide roller and fourth fabric guide roller, weighing sensor is connected with central processing unit; a leading belt is arranged between the cloth inlet side of the first cloth guide roller and the cloth outlet side of the fifth cloth guide roller, a quantitative mechanism or a variable mechanism for applying force to the leading belt is arranged at the cloth inlet side of the first cloth guide roller, and the leading belt at the cloth outlet side of the fifth cloth guide roller is fixed; or a quantitative mechanism or a variable mechanism for applying force to the leading belt is arranged on the cloth outlet side of the fifth cloth guide roller, and the leading belt on the cloth inlet side of the first cloth guide roller is fixed; or a quantitative mechanism or a variable mechanism for applying force to the leading belt is arranged on the cloth inlet side of the first cloth guide roller and the cloth outlet side of the fifth cloth guide roller.
As a preferred embodiment of the present invention, the dosing mechanism is an object of known mass.
As a preferred embodiment of the present invention, the variable mechanism is a force display and a force application mechanism connected to the force display, and the force application mechanism and the force display are connected to the central processing unit.
As a preferred embodiment of the present invention, the force display is a spring balance or a chest expander or a force sensor, and the force application mechanism is an electric cylinder or an air cylinder.
As a preferred embodiment of the present invention, the central processing unit is a digital controller or an embedded system or an industrial personal computer with a human-computer interface.
After the structure is adopted, the utility model discloses following beneficial effect has:
the utility model arranges the leading belt between the cloth feeding side of the first cloth guide roller and the cloth discharging side of the fifth cloth guide roller, a quantitative mechanism or a variable mechanism for applying force to the leading belt is arranged at the cloth feeding side of the first cloth guide roller, and the leading belt at the cloth discharging side of the fifth cloth guide roller is fixed; or a quantitative mechanism or a variable mechanism for applying force to the leading belt is arranged on the cloth outlet side of the fifth cloth guide roller, and the leading belt on the cloth inlet side of the first cloth guide roller is fixed; or a quantitative mechanism or a variable mechanism for applying force to the leading belt is arranged on the cloth feeding side of the first cloth guide roller and the cloth discharging side of the fifth cloth guide roller, the quantitative mechanism is preferably an object with known mass, such as a weight, and the like, the variable mechanism is preferably a force display and a force application mechanism connected with the force display, and the weighing sensor performs real-time detection and correction, so that the continuous and higher-accuracy running of the gram weight on-line detection of the fabric is ensured.
The utility model discloses measurement accuracy is high, realizes the online grammes per square metre of fabric well and measures.
The utility model discloses can reflect the gram weight of fabric real-time, accurately, avoid artifical work efficiency low, damage cloth cover and the drawback of extravagant fabric that leads to the fabric cutting sample.
The utility model discloses simple structure, detection efficiency is high, guides the arrangement process to formulate processing technology through the real-time fabric grammes per square metre that records, makes in production fabric grammes per square metre remain stable, improves the product percent of pass.
Drawings
The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings.
Fig. 1 is a schematic structural view of a first embodiment of the correction mechanism for online detection of the grammage of a fabric of the present invention.
Fig. 2 is a schematic structural view of a second embodiment of the correction mechanism for online detection of the grammage of the fabric of the present invention.
Fig. 3 is a schematic structural view of a third embodiment of the correction mechanism for online detection of the grammage of the fabric of the present invention.
Fig. 4 is a schematic structural diagram of a fourth embodiment of the correction mechanism for online detection of the grammage of the fabric of the present invention.
Detailed Description
Referring to fig. 1 to 4, the on-line detection and correction mechanism for the grammage of the fabric comprises at least five first cloth guide rollers a, second cloth guide rollers B, third cloth guide rollers C, fourth cloth guide rollers D and fifth cloth guide rollers E which are arranged in parallel and are sequentially arranged along a running route of the fabric, wherein weighing sensors 1 are installed at one end or two ends of the second cloth guide rollers B, the third cloth guide rollers C and the fourth cloth guide rollers D, the weighing sensors 1 are installed on a rack 5, and the weighing sensors 1 are connected with a central processing unit through wires or wirelessly; a leading belt 2 is arranged between the cloth inlet side of the first cloth guide roller A and the cloth outlet side of the fifth cloth guide roller E, a quantitative mechanism 3 or a variable mechanism 4 for applying force to the leading belt 2 is arranged on the cloth inlet side of the first cloth guide roller A, and the leading belt 2 on the cloth outlet side of the fifth cloth guide roller E is fixedly connected with a frame 5 for example; or a quantitative mechanism 3 or a variable mechanism 4 for applying force to the leading belt 2 is arranged on the cloth outlet side of the fifth cloth guide roller E, and the leading belt 2 on the cloth inlet side of the first cloth guide roller A is fixedly connected with a frame 5 for example; or a quantitative mechanism 3 or a variable mechanism 4 for applying force to the leading belt 2 is arranged on the cloth feeding side of the first cloth guide roller A and the cloth discharging side of the fifth cloth guide roller E. In the present invention, the leading belt 2 is preferably a rigid flat woven belt with a known and light weight, such as a polyester belt, an acrylic belt, or the like.
As a preferred embodiment of the present invention, the quantitative mechanism 3 is an object with a known mass, such as a weight.
As a preferred embodiment of the present invention, the variable mechanism 4 is a force display and a force application mechanism connected to the force display, and the force application mechanism and the force display are connected to the central processing unit. When the device works, the force application mechanism applies acting force to the leading belt 2, and the force display displays the magnitude of the acting force.
In the present invention, the force display is preferably a spring balance or a spring exerciser or a force sensor 6, and the force application mechanism is preferably an electric cylinder or an air cylinder 7. In practice, the electric cylinder or air cylinder 7 is arranged on the frame 5, the output shaft of the electric cylinder or air cylinder 7 is connected with one end of the force display, and the other end of the force display is connected with the leading belt 2.
As a preferred embodiment of the present invention, the central processing unit is a digital controller with a human-computer interface, such as a DDC digital controller or an embedded system or an industrial personal computer, not shown in the figure.
As a preferred embodiment of the utility model, during operation, quantitative mechanism 3 or variable mechanism 4 exert the effort that the quantity value is known to each fabric guide roller through the leading belt 2 that the quality is known, and central processing unit reads weighing sensor 1's data, detects the correction to guarantee that the fabric grammes per square metre on-line measuring can last, the degree of accuracy moves higher.
Through the test, the utility model discloses can measure the grammes per square metre of fabric more accurately, simple structure has gained good practical function.

Claims (5)

1. The on-line detection and correction mechanism for the gram weight of the fabric comprises at least five first cloth guide rollers (A), at least five second cloth guide rollers (B), at least five third cloth guide rollers (C), at least five fourth cloth guide rollers (D) and at least five fifth cloth guide rollers (E) which are arranged in parallel and are sequentially arranged along a running route of the fabric, wherein weighing sensors (1) are arranged at one end or two ends of each of the second cloth guide roller (B), the third cloth guide roller (C) and the fourth cloth guide roller (D), and the weighing sensors (1) are connected with a central processing unit; the method is characterized in that: a leading belt (2) is arranged between the cloth feeding side of the first cloth guide roller (A) and the cloth discharging side of the fifth cloth guide roller (E), a quantitative mechanism (3) or a variable mechanism (4) for applying force to the leading belt (2) is arranged on the cloth feeding side of the first cloth guide roller (A), and the leading belt (2) on the cloth discharging side of the fifth cloth guide roller (E) is fixed; or a quantitative mechanism (3) or a variable mechanism (4) for applying force to the leading belt (2) is arranged on the cloth outlet side of the fifth cloth guide roller (E), and the leading belt (2) on the cloth inlet side of the first cloth guide roller (A) is fixed; or a quantitative mechanism (3) or a variable mechanism (4) for applying force to the leading belt (2) is arranged on the cloth feeding side of the first cloth guide roller (A) and the cloth discharging side of the fifth cloth guide roller (E).
2. The on-line detection and correction mechanism for the grammage of the fabric according to claim 1, characterized in that: the quantitative mechanism (3) is an object with known mass.
3. The on-line detection and correction mechanism for the grammage of the fabric according to claim 1, characterized in that: the variable mechanism (4) is a force display and a force application mechanism connected with the force display, and the force application mechanism and the force display are connected with the central processing unit.
4. The on-line detection and correction mechanism for the grammage of the fabric according to claim 3, characterized in that: the force display is a spring scale or a chest expander or a force sensor, and the force application mechanism is an electric cylinder or an air cylinder.
5. The on-line detection and correction mechanism for fabric grammage according to any one of claims 1 to 4, characterized in that: the central processing unit is a digital controller with a human-computer interface or an embedded system or an industrial personal computer.
CN202120436850.1U 2021-03-01 2021-03-01 Be used for fabric grammes per square metre on-line measuring aligning gear Active CN214583569U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202120436850.1U CN214583569U (en) 2021-03-01 2021-03-01 Be used for fabric grammes per square metre on-line measuring aligning gear

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202120436850.1U CN214583569U (en) 2021-03-01 2021-03-01 Be used for fabric grammes per square metre on-line measuring aligning gear

Publications (1)

Publication Number Publication Date
CN214583569U true CN214583569U (en) 2021-11-02

Family

ID=78351918

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202120436850.1U Active CN214583569U (en) 2021-03-01 2021-03-01 Be used for fabric grammes per square metre on-line measuring aligning gear

Country Status (1)

Country Link
CN (1) CN214583569U (en)

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