CN1996069A - Integrated optical fiber testing system - Google Patents

Integrated optical fiber testing system Download PDF

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Publication number
CN1996069A
CN1996069A CN 200510137651 CN200510137651A CN1996069A CN 1996069 A CN1996069 A CN 1996069A CN 200510137651 CN200510137651 CN 200510137651 CN 200510137651 A CN200510137651 A CN 200510137651A CN 1996069 A CN1996069 A CN 1996069A
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China
Prior art keywords
optical fiber
test
testing system
integrated optical
load
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CN 200510137651
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Chinese (zh)
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CN100410702C (en
Inventor
吴承勋
杨淑媚
江行健
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Industrial Technology Research Institute ITRI
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Industrial Technology Research Institute ITRI
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Priority to CNB2005101376516A priority Critical patent/CN100410702C/en
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Publication of CN100410702C publication Critical patent/CN100410702C/en
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Abstract

An integrated optical fiber testing system for an extendable tested components comprises the base, rotary device on the base, rotary body and support, with the rotary device to provide rotating force to conform to the testing specification with regard to the output rotary force from the controller, with the rotary body combined and activating with the rotary device with carrying plate with adjustable angles for components to be tested, the support device for converting optical fiber extraction direction and adjusting the loading and speed, possibly choosing one of the flex, twist, side pull and cable retention to improve the inconvenience of particular testing to one kind of testing system.

Description

Integrated optical fiber testing system
Technical field
The present invention relates to a kind of integrated optical fiber testing system, be meant a kind of integrated optical fiber testing system of testing at the optical fiber that extends from tested assembly particularly.
Background technology
In the field of optical communication, optical fiber is the assembly of normal use, in order to make the Optical Fiber Transmission can both normal running under various weathers and situation, therefore countries in the world have all been released relevant test optical fiber standard successively, the most normal being cited of test specification of U.S. Telcordia company wherein, its standard physical shock (Mechanical Shock), vibration (Vibration), thermal shock (ThermalShock), bending test (Flex Test), reverse test (Twist Test), layback test (SidePull Test), cable confining force test (Cable Retention Test) and winding permanance 8 test events such as (Mating Durability Test), and single test event has corresponding single test macro.
Bending is tested, is reversed test, layback test, the test of cable confining force etc. and is four kinds of more close test events of character, and its method of testing division is as follows:
See also Fig. 1, Fig. 1 is the equipment synoptic diagram of bending test, bending test macro 1 comprise rotatable 180 ° or ± 90 ° motor 10, it is a kind of reciprocating type rotary power unit (CyclicRotation Drive Unit), and drive tested assembly (not accompanying drawing), this tested assembly is extended with optical fiber 12, this motor 10 is provided with the rectifier 101 coaxial with its axis of rotation, this optical fiber 12 is connected in this fixed mount 11 and seizes on both sides by the arms on tool (not shown), the determining positions of this tool clamping the inflection point of optical fiber 12, because the inflection point must be the axis of rotation at motor, therefore adjust the bending central point of optical fiber 11 with this rectifier (Offset Adjustment) 110, optical fiber 12 is 0.45 kilogram of 111 1 meters load in distance Fixed Division and after being subjected to rely on a load elements 13, load elements 13 is broken away from the speed under load of standard rely on, and drive this motor 10 and be rotated and monitor in real time to bend test at the transport property of optical fiber 12.
See also Fig. 2, Fig. 2 can be to reverse test, layback test and wherein a kind of part synoptic diagram of cable confining force test.
Reversing test macro 2 is fixed on the clamping device 20 (Holding Fixture), and undermine optical fiber 21 for fear of clamping device 20, so elder generation's this optical fiber 21 of tackling 22 (strain relief) clamping by tightly being placed in optical fiber 21, at last optical fiber with respect to tackling 22 below the load elements 23 of 0.45 kilogram of distance load of 10 times of optical fiber 21 diameters, load elements 23 is broken away from the speed under load of standard rely on, and be that the axle center is respectively revolved to relative two directions and turn 90 degrees to reverse test with the center of this optical fiber 21.
This load elements 23 is adjusted into 0.45 kilogram and be positioned at 22~28 centimeters places that optical fiber 21 is started at for 22 times by tackling, optical fiber 21 is that nature is vertical, make optical fiber 21 90 ° of bendings then and continued for 5 seconds, and monitor the optical fiber output quality in real time, be finished until the standard monitoring period, promptly finish the layback test event.
This load elements 23 is adjusted into 0.45 kilogram and be positioned at 10 centimeters that Connectorized fiber optic cabling 21 is started at from end, and this load elements 23 broken away from according to the speed under load that drags is controlled at 400 microns of per seconds, do three tests continuously, can finish the cable confining force and test.
From above-described method of testing as can be known, enter four kinds of tests and must use four kinds of test macros respectively, even if wherein being arranged, three kinds of tests can share a kind of system because of character is approaching, also need two kinds of test macros to finish at least, the cost that not only expends equipment also increases operator's puzzlement, more causes the waste in space.
Moreover, after finishing a test, just tested assembly must be pulled down from system, be arranged at again in another system, caused great inconvenience and proofreaied and correct again to cause the tediously long of running time because of need.
Therefore, develop a kind of new test macro to integrate the problem of above-mentioned four kinds of test specifications for needing to be resolved hurrily now.
Summary of the invention
The integrated optical fiber measurement system of four kinds of test events such as the shortcoming of prior art in view of the above, one object of the present invention are to provide a kind of and bend test, reverse test, layback test, the test of cable confining force is to save cost.
Another purpose of the present invention provides a kind of integrated optical fiber measurement system, to save the space.
A further object of the present invention provides a kind of integrated optical fiber measurement system, to save the running time.
For achieving the above object, the invention provides a kind of integrated optical fiber testing system, be used for being selected from bending (Flex), reversing (Twist), layback (Side Pull), reach wherein a kind of test of cable confining force (Cable retention) at the optical fiber that extends from tested assembly, this optical fiber testing system comprises: pedestal; Rotary power unit is arranged at this pedestal, is used to provide rotary power; Rotating body, in conjunction with and interlock in this rotary power unit, and have and be used to carry this tested assembly and can adjust the loading dish that angle is set; Bracing or strutting arrangement, having can be for the tumbler of this optical fiber lead of conversion, connect and place this optical fiber with the load adjustment part of adjusting load and be used to the hoistable platform accepting this load adjustment part and can adjust speed under load; Controller is arranged at this pedestal and is electrically connected at this rotary power unit, is used to control the rotary power that this rotary power unit output meets test specification.
This rotary power unit is a reciprocating motor, and this controller is the motor electronic control module that this reciprocating motor of control rotates in the slewing area of positive and negative an angle of 90 degrees.This controller is controlled the rotation of this reciprocating motor in servo mode, and comprises the supervisory keyboard that is used to set this power control unit, with the test condition of response test project choice correspondence.
This tumbler is a pulley, causes the loss of light signal for supporting this optical fiber to avoid the optical fiber bending.This load adjustment part is used to adjust the weight and the position of load.This speed under load is fallen the speed that breaks away from this load adjustment part in test process for this hoistable platform.
This loading dish is articulated in this rotating body, so that change angle is set, and the axle center of its pivot joint is lower than the axis of rotation of this rotary power unit, the design of this difference in height convenient behind the rotating body half-twist its optical fiber inflection point still at the axis of rotation of rotary power unit.Also comprise clamp tool, be arranged on this loading dish, can be used for fixing this tested assembly and adjust its position.
Also comprise the guide channel that is formed on this rotating body, and be formed on this loading dish the slide block that can corresponding slide on this guide channel, and this slide block can be positioned on this groove two ends so that this loading dish angle orientation is set in level and vertical wherein a kind of.
Be provided with under the situation that angle becomes level at this, this bracing or strutting arrangement makes this optical fiber horizontal-extending and goes out, and adjust the position that this tested assembly is arranged on this loading dish, make the profile diameter center of circle of this optical fiber coaxial with this rotary power unit, and adjust load and set speed under load, test to meet wherein a kind of test specification.
This load is adjusted into meets the condition of reversing test, and start this rotary power unit and reverse test.
This load is adjusted into the condition that meets the layback test, to carry out the layback test.
This load and speed under load are adjusted into the condition that meets the test of cable confining force, to carry out the test of cable confining force.
This is provided with angular setting for vertical, optical fiber is extended vertically downward, follow this tumbler of removal, and this load is adjusted into the condition that meets bending test, and with the package position on the assembly on the optical fiber as the inflection point, start this rotary power unit at last, to bend test, the axis of rotation of this rotary power unit is aimed in this inflection point, and because this loading dish is articulated in the axis of rotation that the pivot joint axle center of this rotating body is lower than this rotary power unit, therefore angle is set for after vertical in this inflection point through adjusting this, still can aims at the axis of rotation of this rotary power unit.
Compared to existing test optical fiber technology, individual other test specification all need be carried out with different system, expends a lot of manufacturing cost, and integrated optical fiber measurement system of the present invention can be integrated into four test specifications with triangular web and test escapable cost.
And integrated optical fiber measurement system of the present invention is integrated into four test platforms with the triangular web framework, can save the space.
Moreover, during with prior art test tested person assembly, when changing test specification, promptly it must be installed in another system from system's dismounting, and follow-up fixing, corrective action is very consuming time and inconvenient, integrated optical fiber measurement system of the present invention, then only need adjust the angle of loading dish can carry out the test of different specification, it is very convenient and fast that converting structure meets test specification, with the consuming time of prior art and inconvenience improvement for saving time and facility.
In sum, integrated optical fiber measurement system of the present invention can be integrated four kinds of test optical fiber standards, and has and save space, cost, and advantage such as easy-to-use and transposition is quick, and real is a quantum jump in the test optical fiber.
Description of drawings
Fig. 1 is the part synoptic diagram of existing bending test macro;
Fig. 2 be existingly reverse, the part synoptic diagram of layback, cable confining force test macro;
Fig. 3 is the synoptic diagram of the preferred embodiment of integrated optical fiber testing system of the present invention;
Fig. 4 is the synoptic diagram that integrated optical fiber testing system of the present invention carries out a kind of test optical fiber;
Fig. 5 is the partial view that integrated optical fiber testing system of the present invention carries out another test optical fiber;
Fig. 6 is an integrated optical fiber testing system of the present invention, carries out the partial view of another kind of test optical fiber; And
Fig. 7 is that integrated optical fiber testing system of the present invention carries out and the partial view of another kind of test optical fiber.
The simple declaration of element numbers
1 bending test macro
10 motors
101 rectifiers
11 fixed mounts
12,21 optical fiber
13,23 load elements
2 reverse test macro
20 clamping devices
22 tacklings
3 integrated optical fiber testing systems
30 rotary power units
31 tested assemblies
32 optical fiber
320 inflection points
33 controllers
330 supervisory keyboards
35 rotating bodies
353 guide channels
36 loading dishes
361 clamp tools
37 bracing or strutting arrangements
370 tumblers
371 load adjustment parts
372 hoistable platforms
38 pedestals
Embodiment
Below by particular specific embodiment embodiments of the present invention are described, those skilled in the art can understand other advantage of the present invention and effect easily by the content that this instructions disclosed.The present invention also can be implemented or be used by other different specific embodiment, and the every details in this instructions also can be based on different viewpoints and application, carries out various modifications and change under the spirit of the present invention not deviating from.It should be noted that in addition, the following drawings is the signal accompanying drawing of simplification, and basic conception of the present invention only is described in a schematic way, only show the assembly relevant in the accompanying drawing and component count, shape and size drafting when not implementing according to reality with the present invention, kenel, quantity and the ratio of each assembly can be a kind of random change during its actual enforcement, and its assembly layout kenel may be more complicated.
See also Fig. 3, Fig. 3 is the synoptic diagram of the preferred embodiment of integrated optical fiber measurement system of the present invention.
Integrated optical fiber testing system of the present invention, be used at the optical fiber 32 that extends from tested assembly 31 be selected from bending (Flex), reverse (Twist), wherein a kind of test of layback (Side Pull) and cable confining force (Cable retention), this optical fiber testing system 3 comprises: pedestal 38, rotary power unit 30, controller 33, rotating body 35 and bracing or strutting arrangement 37.
This rotary power unit 30 is arranged on this pedestal 38, is used to provide rotary power, and it can be reciprocating motor.This controller 33 is arranged at this pedestal 38 and is electrically connected at this rotary power unit 30, is used to control the rotary power that these rotary power unit 30 outputs meet test specification.This controller 33 can for example be the motor electronic control module, controls this reciprocating motor in servo mode and rotates in the slewing area of positive and negative an angle of 90 degrees.Also comprise the supervisory keyboard 330 that is used to set this controller 33, select corresponding test condition with the response test project.
This bracing or strutting arrangement 37 has the tumbler 370 that is used to change these optical fiber 32 leads, connect and place this optical fiber 32 with the load adjustment part 371 of adjusting load and the hoistable platform 372 that is used to accept this load adjustment part 371 and can adjusts speed under load, and this speed under load is that this hoistable platform 372 is fallen in test process and broken away from the speed of this load adjustment part 371.This tumbler 370 can be a pulley for example, so that support this optical fiber 32, avoids optical fiber 32 bending and causes the loss of light signal.This load adjustment part 371 is used to adjust the weight and the position of load, to respond different test optical fiber standards.
This rotating body 35 in conjunction with and interlock in this rotary power unit 30, and have and be used to carry this tested assembly 31 and can adjust the loading dish 36 that angle is set.This loading dish 36 is articulated in this rotating body 35, so that change angle is set, and the axle center of both pivot joints is lower than the axis of rotation of this rotary power unit 30.Also comprise the clamp tool 361 that is arranged on this loading dish 36, be used for fixing this tested assembly 31 and adjust its position.
Also comprise the guide channel 353 that is formed on this rotating body 35, and be formed on the slide block (not shown) that can corresponding slide on this guide channel 353 on this loading dish 36, and this slide block can be positioned this guide channel 353 two ends so that this loading dish 36 angle orientation is set in level and vertically wherein a kind of.
When carrying out test optical fiber, can be provided with under the situation that angle becomes level at this, make these optical fiber 32 horizontal-extendings and go out with this bracing or strutting arrangement 37, and adjust the position that this tested assembly 31 is arranged on this loading dish, make the profile diameter center of circle of this optical fiber 32 coaxial, and adjust load and set speed under load and test to meet wherein a kind of test specification with the axis of rotation of this rotary power unit 30.
Please cooperate and consult Fig. 4, this load is adjusted into meets the condition of reversing test, and start this rotary power unit 30, to reverse test.
Please cooperate and consult Fig. 5, this load is adjusted into the condition that meets the layback test, to carry out the layback test.
Please cooperate and consult Fig. 6, this load and speed under load are adjusted into the condition that meets the test of cable confining force, to carry out the test of cable confining force.
Please cooperate and consult Fig. 7, this is provided with angular setting for vertical, optical fiber is extended vertically downward, follow this tumbler 370 of removal, and this load is adjusted into the condition that meets bending test, and on optical fiber 32, set inflection point 320, so that after starting this rotary power unit 30, bend, finish the bending test thus at this point.The axis of rotation of this rotary power unit 30 is aimed in this inflection point 320, by as can be known aforementioned, because this loading dish 36 is articulated in the axis of rotation that the pivot joint axle center of this rotating body 35 is lower than this rotary power unit 30, therefore this is provided with angle for after vertical in adjustment, and the axis of rotation of this rotary power unit 30 still can be aimed in this inflection point 320.
Compared to existing test optical fiber technology, individual other test specification all need be carried out with different system, expends a lot of manufacturing cost, and integrated optical fiber measurement system of the present invention can be integrated into four test specifications with triangular web and test escapable cost.
Moreover integrated optical fiber measurement system of the present invention is integrated into triangular web with four test platforms, can save the space.
In addition, during with prior art test tested person assembly, when changing test specification, promptly it must be installed in another system from system's dismounting, and follow-up fixing, corrective action is very consuming time and inconvenient, integrated optical fiber measurement system of the present invention, then only need adjust the angle of loading dish can carry out the test of different specification, converting structure is very convenient and fast to meet indivedual test specifications, with the consuming time of prior art and inconvenience improvement for saving time and facility.
As from the foregoing, integrated optical fiber measurement system of the present invention can be integrated four kinds of test optical fiber standards, and has and save space, cost, and advantage such as easy-to-use and transposition is quick, and real is a quantum jump in the test optical fiber.
But, above-described specific embodiment, only be used for example and release characteristics of the present invention and effect, but not be used to limit the category of implementing of the present invention, under the situation that does not break away from above-mentioned spirit of the present invention and technical scope, the disclosed content of any utilization and the equivalence finished changes and modify all must be contained by following claim.

Claims (16)

1. integrated optical fiber testing system is used for one extending that optical fiber from tested assembly is selected from bending, reverses, layback, reaching wherein a kind of test of cable confining force, and this optical fiber testing system comprises:
Pedestal;
Rotary power unit is arranged at this pedestal, is used to provide rotary power;
Rotating body, in conjunction with and interlock in this rotary power unit, have and be used to carry this tested assembly and can adjust the loading dish that angle is set;
Bracing or strutting arrangement is arranged at this pedestal, and having can be for the tumbler of this optical fiber lead of conversion, connect and place this optical fiber with the load adjustment part of adjusting load and be used to the hoistable platform accepting this load adjustment part and can adjust speed under load; And
Controller is arranged at this pedestal and is electrically connected at this rotary power unit, is used to control the rotary power that this rotary power unit output meets test specification.
2. integrated optical fiber testing system according to claim 1, wherein, this rotary power unit is a reciprocating motor, and the motor electronic control module that this controller rotates in the slewing area of positive and negative an angle of 90 degrees for this reciprocating motor of control.
3. integrated optical fiber testing system according to claim 2, wherein, this controller is controlled the rotation of this reciprocating motor in servo mode.
4. integrated optical fiber measurement system according to claim 1 also comprises the supervisory keyboard that is used to set this power control unit, with the test condition of response test project choice correspondence.
5. integrated optical fiber testing system according to claim 1, wherein, this tumbler is a pulley, is used to change this optical fiber lead, avoids optical fiber bending and causes the loss of light signal.
6. integrated optical fiber testing system according to claim 1, wherein, this load adjustment part is used to adjust the weight and the position of load.
7. integrated optical fiber testing system according to claim 1, wherein, this speed under load is fallen the speed that breaks away from this load adjustment part in test process for this hoistable platform.
8. integrated optical fiber testing system according to claim 1 also comprises the clamp tool that is arranged at this loading dish, is used for fixing this tested assembly and adjusts the fixed position.
9. integrated optical fiber testing system according to claim 1, this loading dish is articulated in this rotating body, for change angle is set, and it articulates the axis of rotation that the axle center is lower than this rotary power unit.
10. integrated optical fiber testing system according to claim 9, also comprise the guide channel that is formed on this rotating body, and be formed on this loading dish the slide block that can corresponding slide on this guide channel, and this slide block can be positioned on this groove two ends so that this loading dish angle orientation is set in level and vertical wherein a kind of.
11. according to claim 1,9 or 10 described integrated optical fiber testing systems, wherein, be provided with under the situation that angle becomes level at this, this bracing or strutting arrangement makes this optical fiber horizontal-extending and goes out, and adjust the position that this tested assembly is arranged at this loading dish, make the profile diameter center of circle of this optical fiber coaxial, and adjust load and set speed under load to meet wherein a kind of test specification so that test with the axis of rotation of this rotary power unit.
12. integrated optical fiber testing system according to claim 11 wherein, is adjusted into this load and meets the condition of reversing test, and start this rotary power unit, so that reverse test.
13. integrated optical fiber testing system according to claim 11 wherein, is adjusted into the condition that meets the layback test with this load, so that carry out the layback test.
14. integrated optical fiber testing system according to claim 11 wherein, is adjusted into the condition that meets the test of cable confining force with this load and speed under load, so that carry out the test of cable confining force.
15. integrated optical fiber testing system according to claim 11, wherein, adjust this and angle is set for vertical, optical fiber is extended vertically downward, then this tumbler of removal, and this load is adjusted into the condition that meets the bending test, and with on the optical fiber a bit as the inflection point, start this rotary power unit at last, for bending test.
16. integrated optical fiber testing system according to claim 15, wherein, the axis of rotation of this rotary power unit is aimed in this inflection point.
CNB2005101376516A 2005-12-31 2005-12-31 Integrated optical fiber testing system Expired - Fee Related CN100410702C (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
CNB2005101376516A CN100410702C (en) 2005-12-31 2005-12-31 Integrated optical fiber testing system

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CN1996069A true CN1996069A (en) 2007-07-11
CN100410702C CN100410702C (en) 2008-08-13

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104359653A (en) * 2014-10-23 2015-02-18 河海大学 Optical fiber one- and two-way bending curvature double-channel tracking monitor and monitoring method
CN107091783A (en) * 2017-03-20 2017-08-25 苏州拓博机械设备有限公司 A kind of combined type electric wire torsional bending testing machine
CN108593267A (en) * 2018-04-13 2018-09-28 苏州拓博机械设备有限公司 A kind of optical fiber combined type testing machine
CN108982071A (en) * 2018-08-08 2018-12-11 长飞光纤光缆股份有限公司 A kind of fiber active linker test device
CN110082069A (en) * 2019-05-06 2019-08-02 吉洁阳 A kind of engine optical fiber test apparatus
CN114935367A (en) * 2022-05-17 2022-08-23 浙江佳乐科仪股份有限公司 Grain temperature and humidity monitoring system and control method thereof

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CN103353392B (en) * 2013-06-08 2016-06-22 浙江首航实业有限公司 A kind of Automated condtrol torsional bending testing machine

Family Cites Families (4)

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Publication number Priority date Publication date Assignee Title
US4286469A (en) * 1980-02-06 1981-09-01 The United States Of America As Represented By The Secretary Of The Navy Optical fiber test apparatus
JPH08105828A (en) * 1994-10-04 1996-04-23 Fujikura Ltd Tension tester for optical fiber
CN1789098B (en) * 1999-12-28 2013-11-06 康宁股份有限公司 Method and apparatus for tensile testing and rethreading optical fiber during fiber draw
CN2643333Y (en) * 2003-09-05 2004-09-22 上海闪宁通信设备有限公司 Optical fibre identifier

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104359653A (en) * 2014-10-23 2015-02-18 河海大学 Optical fiber one- and two-way bending curvature double-channel tracking monitor and monitoring method
CN104359653B (en) * 2014-10-23 2015-08-12 河海大学 A kind of optical fiber single-direction and dual-direction bending curvature binary channels tracking and monitoring instrument and monitoring method
CN107091783A (en) * 2017-03-20 2017-08-25 苏州拓博机械设备有限公司 A kind of combined type electric wire torsional bending testing machine
CN108593267A (en) * 2018-04-13 2018-09-28 苏州拓博机械设备有限公司 A kind of optical fiber combined type testing machine
CN108982071A (en) * 2018-08-08 2018-12-11 长飞光纤光缆股份有限公司 A kind of fiber active linker test device
CN110082069A (en) * 2019-05-06 2019-08-02 吉洁阳 A kind of engine optical fiber test apparatus
CN114935367A (en) * 2022-05-17 2022-08-23 浙江佳乐科仪股份有限公司 Grain temperature and humidity monitoring system and control method thereof

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