CN112525069B - Internet of things big data acquisition and processing system capable of guaranteeing accuracy - Google Patents
Internet of things big data acquisition and processing system capable of guaranteeing accuracy Download PDFInfo
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- CN112525069B CN112525069B CN202011299893.6A CN202011299893A CN112525069B CN 112525069 B CN112525069 B CN 112525069B CN 202011299893 A CN202011299893 A CN 202011299893A CN 112525069 B CN112525069 B CN 112525069B
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
- G01B7/00—Measuring arrangements characterised by the use of electric or magnetic techniques
- G01B7/30—Measuring arrangements characterised by the use of electric or magnetic techniques for measuring angles or tapers; for testing the alignment of axes
- G01B7/31—Measuring arrangements characterised by the use of electric or magnetic techniques for measuring angles or tapers; for testing the alignment of axes for testing the alignment of axes
- G01B7/312—Measuring arrangements characterised by the use of electric or magnetic techniques for measuring angles or tapers; for testing the alignment of axes for testing the alignment of axes for measuring eccentricity, i.e. lateral shift between two parallel axes
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Abstract
The invention discloses an internet of things big data acquisition and processing system capable of guaranteeing accuracy. According to the invention, the distance between the two rolling wheels can be adjusted by arranging the adjusting module, so that the distance between the opposite surfaces of the two different parts is adapted, and the parallelism between the two parts can be determined by a user according to the change of the resistance value by arranging the detecting module, so that the parallelism between the two parts can be conveniently judged by the user.
Description
Technical Field
The invention relates to the technical field of precision detection, in particular to an internet of things big data acquisition and processing system capable of guaranteeing accuracy.
Background
Under normal use conditions, the accuracy of a meter's measurement is called the accuracy of the meter. The smaller the reference error, the higher the accuracy of the meter, and the reference error is related to the range of the meter, so when the meter with the same accuracy is used, the range of the range is often compressed to reduce the measurement error. In industrial measurements, to facilitate the representation of the quality of a meter, the accuracy level is usually used to represent the accuracy of the meter. The accuracy grade is that the maximum quote error gets rid of positive, negative and percentile, wherein the parallelism is very important on some parts, but most of the prior lateral instruments adopt a mechanical transmission mode to measure the accuracy, and the mechanical transmission mode is very complicated in a reading mode.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides an Internet of things big data acquisition and processing system capable of guaranteeing accuracy, and solves the problem that most of the existing lateral instruments adopt a mechanical transmission mode to measure precision, and the mechanical transmission mode is complicated in reading mode.
In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a big data acquisition processing system of thing antithetical couplet that can ensure the degree of accuracy, includes adjusting module, detection module and dust cover, adjusting module include bottom plate, side direction rack, telescopic link, the wheel support that rolls, roll wheel, telescopic link cover support, side direction rack support, adjusting motor, side direction gear, the central lantern ring, central gear ring, central platform, central rotating gear, detection gear, vice side rack support, vice side rack, mount brace table and add the survey gear mount, two sides of bottom plate all have the telescopic link through telescopic link cover support and telescopic link cover sliding connection, and the one end that the bottom plate middle part was kept away from to the telescopic link all is connected with the wheel that rolls through the wheel support rotation, the last fixed surface of bottom plate is connected with the dust cover.
The detection module include the crane, prevent the bull stick, detect the lead screw, detect the execution gear, detect middle driving gear, detect middle gear support, middle gear support fixed column, detect the driving gear, detect middle driven gear, detect the motor, detect motor support, detection pole, detect baffle support, detect the baffle, detect the spring fixed station, detect spring, piezo-resistor, extrusion piece, swing span, extrusion piece fixed column and vice detection baffle, the top of detecting the gear is provided with the detection pole, the middle part fixedly connected with swing span of the surface of detection pole, the top of detection pole surface is rotated and is connected with the crane, and the lower surface of crane detects baffle and vice detection baffle through detecting baffle support fixedly connected with detection baffle.
Preferably, the middle part of the upper surface of the bottom plate is fixedly connected with a central table, the outer surface of the central table is sleeved with a central lantern ring, and the center of the upper surface of the central table is rotatably connected with a central rotating gear.
Preferably, two sides of the outer surface of the central rotating gear are respectively in gear connection with a lateral gear and an auxiliary lateral gear, the outer surface of the lateral gear is in gear connection with a lateral rack, and the outer surface of the auxiliary lateral gear is in gear connection with an auxiliary lateral rack.
Preferably, the lateral rack is connected with the bottom plate in a sliding mode through a lateral rack support, the auxiliary lateral rack is connected with the bottom plate in a sliding mode through an auxiliary lateral rack support, an adjusting motor is arranged above the lateral gear, an output shaft of the adjusting motor is fixedly connected with the lateral gear, and the adjusting motor is fixedly connected with the lateral rack support through an adjusting motor support.
Preferably, the upper surface of the central rotating gear is fixedly connected with a central gear ring, the inner side gear of the central gear ring is connected with a detection gear, the upper surface of the detection gear is rotatably connected with a measuring gear fixing frame, and the measuring gear fixing frame is fixedly connected with the bottom plate through a fixing frame supporting table.
Preferably, the two sides of the swing frame are fixedly connected with extrusion block fixing columns, two sides of each extrusion block fixing column are fixedly connected with an extrusion block, the sides of the two extrusion blocks are fixedly connected with piezoresistors, the sides of the two piezoresistors are fixedly connected with detection springs, and the two detection springs are fixedly connected with the detection baffle and the auxiliary detection baffle through two detection spring fixing tables respectively.
Preferably, the crane is kept away from the one end threaded connection of test bar and is detected the lead screw, and the bottom and the mount brace table of detecting the lead screw rotate to be connected, the side of detecting the lead screw is provided with prevents the bull stick, prevents the surface and the crane sliding connection of bull stick, prevent the bottom and the mount brace table fixed connection of bull stick.
Preferably, the bottom fixedly connected with that detects the lead screw detects the actuating gear, and the surface gear connection that detects the actuating gear has detection middle driven gear, and the below that detects middle driven gear passes through connecting axle fixedly connected with and detects middle driving gear, it is connected with and detects middle gear support to detect to rotate between the opposite face that detects middle driving gear and detect middle driven gear.
Preferably, the detection intermediate gear support is fixedly connected with the bottom plate through an intermediate gear support fixing column, the outer surface of the detection intermediate driven gear is connected with a detection driving gear, a detection motor is arranged above the detection driving gear, an output shaft of the detection motor is fixedly connected with the detection driving gear, and the detection motor is fixedly connected with the intermediate gear support fixing column through a detection motor support.
Compared with the prior art, the invention provides the internet of things big data acquisition and processing system capable of guaranteeing the accuracy, and the system has the following beneficial effects: according to the invention, the distance between the two rolling wheels can be adjusted by arranging the adjusting module, so that the distance between the opposite surfaces of the two different parts is adapted, and the parallelism between the two parts can be determined by a user according to the change of the resistance value by arranging the detecting module, so that the parallelism between the two parts can be conveniently judged by the user.
Drawings
FIG. 1 is a schematic view of the structure of the present invention.
Fig. 2 is a schematic structural diagram of a regulating module of the present invention.
FIG. 3 is a schematic structural diagram of a detection module according to the present invention.
FIG. 4 is a schematic structural diagram of a detection module according to the present invention.
In the figure: 1-a conditioning module; 101-a base plate; 102-a lateral rack; 103-a telescopic rod; 104-a roller wheel support; 105-a rolling wheel; 106-telescopic rod sleeve; 107-telescopic rod sleeve support; 108-lateral rack mount; 109-adjusting the motor bracket; 110-a regulating motor; 111-side gear; 112-a central collar; 113-a sun gear ring; 114-a central station; 115-central rotating gear; 116-detecting a gear; 117-secondary side gear; 118-secondary side rack bracket; 119-secondary lateral rack; 120-a fixed frame support table; 121-adding a measuring gear fixing frame; 2-a detection module; 201-a lifting frame; 202-anti-rotation rod; 203-detecting a lead screw; 204-detecting the execution gear; 205-detecting the intermediate drive gear; 206-detecting the intermediate gear holder; 207-intermediate gear bracket fixing column; 208-detecting the drive gear; 209-detecting the intermediate driven gear; 210-detecting the motor; 211-detecting the motor support; 212-a detection rod; 213-detection baffle bracket; 214-a detection baffle; 215-detecting the spring fixing table; 216-detection spring; 217-piezoresistor; 218-an extrusion block; 219-a swing frame; 220-extrusion block fixing column; 221-a secondary detection baffle; and 3, a dust cover.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, fig. 2, fig. 3, and fig. 4, the present invention provides a technical solution: an Internet of things big data acquisition and processing system capable of guaranteeing accuracy comprises an adjusting module 1, a detecting module 2 and a dust cover 3, as shown in FIG. 2, the adjusting module structure of the invention is shown in the figure, wherein the adjusting module 1 comprises a bottom plate 101, a lateral rack 102, a telescopic rod 103, a rolling wheel bracket 104, a rolling wheel 105, a telescopic rod sleeve 106, a telescopic rod sleeve bracket 107, a lateral rack bracket 108, an adjusting motor bracket 109, an adjusting motor 110, a lateral gear 111, a central lantern ring 112, a central gear ring 113, a central platform 114, a central rotating gear 115, a detecting gear 116, a secondary lateral gear 117, a secondary lateral rack bracket 118, a secondary lateral rack 119, a fixed frame 120 and a measuring gear fixed frame 121, two side surfaces of the bottom plate 101 are both connected with telescopic rods 103 through the telescopic rod sleeve bracket 107 and the telescopic rod sleeve 106 in a sliding manner, one ends of the telescopic rods 103 far away from the middle part of the bottom plate 101 are both connected with the rolling wheels 105 through the rolling wheel bracket 104 in a rotating manner, the upper surface of the bottom plate 101 is fixedly connected with a dust cover 3, two sides of the outer surface of the central rotating gear 115 are respectively connected with a lateral gear 111 and a secondary lateral gear 117 in a gear manner, the outer surface of the lateral gear 111 is connected with a lateral rack 102 in a gear manner, the outer surface of the secondary lateral gear 117 is connected with a secondary lateral rack 119 in a gear manner, the lateral rack 102 is in sliding connection with the bottom plate 101 through a lateral rack support 108, the secondary lateral rack 119 is in sliding connection with the bottom plate 101 through a secondary lateral rack support 118, an adjusting motor 110 is arranged above the lateral gear 111, the output shaft of the adjusting motor 110 is fixedly connected with the lateral gear 111, the adjusting motor 110 is fixedly connected with the lateral rack support 108 through an adjusting motor support 109, the upper surface of the central rotating gear 115 is fixedly connected with a central gear ring 113, the inner side gear of the central gear ring 113 is connected with a detection gear 116, and the upper surface of the detection gear 116 is rotatably connected with a measuring gear fixing frame 121, the additional measurement gear fixing frame 121 is fixedly connected with the bottom plate 101 through a fixing frame supporting table 120.
As shown in fig. 3 and 4, which are structural diagrams of the detection module of the present invention, the detection module 2 includes a lifting frame 201, a rotation preventing rod 202, a detection screw 203, a detection executing gear 204, a detection middle driving gear 205, a detection middle gear support 206, a middle gear support fixing column 207, a detection driving gear 208, a detection middle driven gear 209, a detection motor 210, a detection motor support 211, a detection rod 212, a detection baffle support 213, a detection baffle 214, a detection spring fixing platform 215, a detection spring 216, a piezoresistor 217, a pressing block 218, a swinging frame 219, a pressing block fixing column 220 and a sub detection baffle 221, the detection rod 212 is disposed above the detection gear 116, the swinging frame 219 is fixedly connected to the middle of the outer surface of the detection rod 212, the lifting frame 201 is rotatably connected to the top end of the outer surface of the detection rod 212, the detection baffle 214 and the sub detection baffle 221 are fixedly connected to the lower surface of the lifting frame 201 through the detection baffle support 213, the two sides of the swing frame 219 are fixedly connected with extrusion block fixing columns 220, two sides of the extrusion block fixing columns 220 are fixedly connected with extrusion blocks 218, the sides of the two extrusion blocks 218 are fixedly connected with piezoresistors 217, the sides of the two piezoresistors 217 are fixedly connected with detection springs 216, the two detection springs 216 are respectively and fixedly connected with a detection baffle 214 and an auxiliary detection baffle 221 through two detection spring fixing tables 215, one end of the lifting frame 201 far away from the detection rod 212 is in threaded connection with a detection screw rod 203, the bottom end of the detection screw rod 203 is in rotary connection with the fixing frame supporting table 120, the side of the detection screw rod 203 is provided with an anti-rotation rod 202, the outer surface of the anti-rotation rod 202 is in sliding connection with the lifting frame 201, the bottom end of the anti-rotation rod 202 is fixedly connected with the fixing frame supporting table 120, the bottom end of the detection screw rod 203 is fixedly connected with a detection execution gear 204, and the outer surface gear of the detection execution gear 204 is connected with a detection middle driven gear 209, driven gear 209's below is passed through connecting axle fixedly connected with and is detected middle driving gear 205 in the middle of detecting, it is connected with between the opposite face of driven gear 209 in the middle of detecting middle driving gear 205 and detecting to detect middle gear bracket 206 to rotate between the opposite face, it passes through middle gear bracket fixed column 207 fixed connection with bottom plate 101 to detect middle gear bracket 206, the surface gear connection who detects middle driven gear 209 has detection driving gear 208, the top that detects driving gear 208 is provided with detection motor 210, the output shaft that detects motor 210 with detect driving gear 208 fixed connection, detection motor 210 and middle gear bracket fixed column 207 are through detecting motor bracket 211 fixed connection.
When the device is used, a user firstly places the device between two parts needing to measure parallelism, then pushes the device, when the two parts incline or opposite surfaces of the two parts are uneven, the parts can extrude the two rolling wheels 105 at this time, the two rolling wheels 105 can drive the two telescopic rods 103 to move linearly, the two telescopic rods 103 can drive the lateral rack 102 and the secondary lateral rack 119 to move linearly, the lateral rack 102 and the secondary lateral rack 119 can respectively drive the lateral gear 111 and the secondary lateral gear 117 to rotate, the lateral gear 111 and the secondary lateral gear 117 can drive the central rotating gear 115 to rotate, the central rotating gear 115 can drive the detection gear 116 to rotate, meanwhile, the user can start the adjusting motor 110, an output shaft of the adjusting motor 110 can drive the lateral gear 111 to rotate, and the lateral gear 111 rotates to adjust the distance between the two rolling wheels 105, therefore, the distance between the opposite surfaces of two different parts is adapted, when in detection, the detection motor 210 is firstly started, the output shaft of the detection motor 210 drives the detection driving gear 208 to rotate, the detection driving gear 208 rotates to drive the detection middle driven gear 209 to rotate, the detection middle driven gear 209 rotates to drive the detection middle driving gear 205 to rotate, the detection middle driving gear 205 rotates to drive the detection execution gear 204 to rotate, the detection execution gear 204 rotates to drive the detection lead screw 203 to rotate, the detection lead screw 203 rotates to drive the lifting frame 201 to vertically move, the lifting frame 201 vertically moves to drive the bottom end of the detection rod 212 to be inserted into the middle part of the detection gear 116, at the moment, when the detection gear 116 rotates, the detection rod 212 also rotates, the detection rod 212 rotates to drive the swing frame 219 to swing, and the swing frame 219 to drive the extrusion block fixing column 220 to swing, the swing of the pressing block fixing column 220 can press the piezoresistors 217 on two sides through the pressing block 218, and at this time, the resistance value of the piezoresistor 217 can be changed, and a user can determine the parallelism between the two parts according to the change of the resistance value.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides a big data acquisition processing system of thing antithetical couplet that can ensure the degree of accuracy, includes adjusting module (1), detection module (2) and dust cover (3), its characterized in that: the adjusting module (1) comprises a bottom plate (101), a lateral rack (102), an expansion link (103), a rolling wheel bracket (104), a rolling wheel (105), an expansion link sleeve (106), an expansion link sleeve bracket (107), a lateral rack bracket (108), an adjusting motor bracket (109), an adjusting motor (110), a lateral gear (111), a central lantern ring (112), a central gear ring (113), a central platform (114), a central rotating gear (115), a detection gear (116), an auxiliary lateral gear (117), an auxiliary lateral rack bracket (118), an auxiliary lateral rack (119), a fixing frame supporting platform (120) and an additional detection gear fixing frame (121), wherein two side surfaces of the bottom plate (101) are both connected with the expansion link (103) through the expansion link sleeve bracket (107) and the expansion link sleeve (106) in a sliding manner, one end of the expansion link (103) far away from the middle part of the bottom plate (101) is both connected with the rolling wheel (105) through the rolling wheel bracket (104), the dustproof cover is fixedly connected to the upper surface of the bottom plate (101), a central table (114) is fixedly connected to the middle of the upper surface of the bottom plate (101), a central lantern ring (112) is sleeved on the outer surface of the central table (114), a central rotating gear (115) is rotatably connected to the center of the upper surface of the central table (114), two sides of the outer surface of the central rotating gear (115) are respectively in gear connection with a lateral gear (111) and an auxiliary lateral gear (117), a lateral rack (102) is in gear connection with the outer surface of the lateral gear (111), and an auxiliary lateral rack (119) is in gear connection with the outer surface of the auxiliary lateral gear (117);
the detection module (2) comprises a lifting frame (201), an anti-rotation rod (202), a detection lead screw (203), a detection execution gear (204), a detection middle driving gear (205), a detection middle gear support (206), a middle gear support fixing column (207), a detection driving gear (208), a detection middle driven gear (209), a detection motor (210), a detection motor support (211), a detection rod (212), a detection baffle support (213), a detection baffle (214), a detection spring fixing table (215), a detection spring (216), a piezoresistor (217), a squeezing block (218), a swinging frame (219), a squeezing block fixing column (220) and an auxiliary detection baffle (221), wherein the detection rod (212) is arranged above the detection gear (116), the swinging frame (219) is fixedly connected to the middle part of the outer surface of the detection rod (212), and the lifting frame (201) is rotatably connected to the top end of the outer surface of the detection rod (212), the lower surface of crane (201) detects baffle (214) and vice baffle (221) that detects through detecting baffle support (213) fixedly connected with, the equal fixedly connected with extrusion piece fixed column (220) in both sides of swing span (219), the equal fixedly connected with extrusion piece (218) in two sides of extrusion piece fixed column (220), the side fixedly connected with piezo-resistor (217) of two extrusion pieces (218), the equal fixedly connected with in side of two piezo-resistor (217) detects spring (216), two detect spring (216) respectively with detect baffle (214) and vice baffle (221) that detect through two detection spring fixed stations (215) fixed connection.
2. The system for acquiring and processing big data of internet of things capable of guaranteeing accuracy according to claim 1, wherein: the lateral rack (102) is connected with the bottom plate (101) in a sliding mode through a lateral rack support (108), the auxiliary lateral rack (119) is connected with the bottom plate (101) in a sliding mode through an auxiliary lateral rack support (118), an adjusting motor (110) is arranged above the lateral gear (111), an output shaft of the adjusting motor (110) is fixedly connected with the lateral gear (111), and the adjusting motor (110) is fixedly connected with the lateral rack support (108) through an adjusting motor support (109).
3. The system for acquiring and processing big data of internet of things capable of guaranteeing accuracy according to claim 1, wherein: the upper surface of the central rotating gear (115) is fixedly connected with a central gear ring (113), the inner side gear of the central gear ring (113) is connected with a detection gear (116), the upper surface of the detection gear (116) is rotatably connected with a measuring gear fixing frame (121), and the measuring gear fixing frame (121) is fixedly connected with the bottom plate (101) through a fixing frame supporting table (120).
4. The system for acquiring and processing big data of internet of things capable of guaranteeing accuracy according to claim 1, wherein: one end threaded connection that detection pole (212) were kept away from in crane (201) has detection lead screw (203), and the bottom that detects lead screw (203) rotates with mount supporting bench (120) to be connected, the side that detects lead screw (203) is provided with prevents bull stick (202), the surface and crane (201) sliding connection of preventing bull stick (202), the bottom and mount supporting bench (120) fixed connection of preventing bull stick (202).
5. The system for acquiring and processing big data of internet of things capable of guaranteeing accuracy according to claim 1, wherein: the bottom fixedly connected with that detects lead screw (203) detects execute gear (204), and the surface gear connection that detects execute gear (204) has middle driven gear (209) of detection, and the below that detects middle driven gear (209) is through connecting axle fixedly connected with detection middle driving gear (205), it is connected with between the opposite face of middle driving gear (205) and detection middle driven gear (209) to rotate and detects middle gear support (206).
6. The system for acquiring and processing big data of internet of things capable of guaranteeing accuracy according to claim 1, wherein: the detection device is characterized in that the detection intermediate gear support (206) is fixedly connected with the bottom plate (101) through an intermediate gear support fixing column (207), a detection driving gear (208) is connected to the outer surface gear of the detection intermediate driven gear (209), a detection motor (210) is arranged above the detection driving gear (208), the output shaft of the detection motor (210) is fixedly connected with the detection driving gear (208), and the detection motor (210) is fixedly connected with the intermediate gear support fixing column (207) through a detection motor support (211).
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| CN202011299893.6A CN112525069B (en) | 2020-11-18 | 2020-11-18 | Internet of things big data acquisition and processing system capable of guaranteeing accuracy |
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| CN116289665B (en) * | 2023-05-09 | 2023-10-03 | 河北高速公路集团有限公司承德分公司 | Grouting equipment for highway bridge construction |
| CN116588650B (en) * | 2023-07-14 | 2023-09-05 | 济南华自达电子设备有限公司 | Circuit board turnover machine |
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| CN101055172A (en) * | 2006-04-14 | 2007-10-17 | 深圳富泰宏精密工业有限公司 | Planeness and parallelism test system and test method |
| CN103148777B (en) * | 2013-01-31 | 2015-07-08 | 中北大学 | Connecting rod hole parallelism detecting system and detecting method based on eddy current transducer |
| CN105180881B (en) * | 2015-04-29 | 2020-11-20 | 宁波市鄞州亚大汽车管件有限公司 | Parallelism detection equipment |
| CN207036027U (en) * | 2017-07-24 | 2018-02-23 | 无锡德泉精密机械有限公司 | A kind of checking fixture for parallelism |
| CN207622687U (en) * | 2017-12-28 | 2018-07-17 | 苏州乔丰精密机械有限公司 | A kind of cubing measuring the inclined guide rails depth of parallelism |
| CN109297401B (en) * | 2018-09-14 | 2020-09-01 | 南京溧水高新创业投资管理有限公司 | Aluminum-plastic plate flatness detection equipment and aluminum-plastic plate flatness detection process |
| CN210570478U (en) * | 2019-10-11 | 2020-05-19 | 张家港市固业金属制品有限公司 | Aluminum profile surface flatness detection equipment |
| CN111289571A (en) * | 2020-04-04 | 2020-06-16 | 王真珍 | Water quality detection system |
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Denomination of invention: A kind of data acquisition and processing system of IOT that can guarantee the accuracy Effective date of registration: 20230302 Granted publication date: 20220408 Pledgee: Xiamen Huilong Microloan Co.,Ltd. Pledgor: XIAMEN ATTIOT INTELLIGENT TECHNOLOGY CO.,LTD. Registration number: Y2023980033821 |
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