CN112161890A - Wear resistance detection device for modified plastic processing - Google Patents

Abstract

The invention discloses a wear-resisting property detection device for processing modified plastics, which comprises a base, a support frame, a telescopic mechanism, a limiting frame and an installation plate, wherein the support frame is fixed on the upper surface of the base through bolts, the telescopic mechanism is installed below the support frame, the installation plate is fixed at the lower end of the telescopic mechanism, a friction plate is arranged below the installation plate, the limiting frame is arranged below the friction plate and embedded on the upper surface of the base, a placement plate is arranged inside the limiting frame, and a pressure sensor is installed on the upper surface of the placement plate. This wear resistance detection device for modified plastic processing is provided with fly leaf, movable disc and friction plate, and the eccentric motion of accessible movable disc cooperates second reset spring drive fly leaf and controls reciprocating motion, drives the friction plate and removes about removing, and the friction is produced in the surface of friction plate and modified plastic contact, can effectively improve the friction area of device, is convenient for comprehensive the wearability to the material detects.

Description

Wear resistance detection device for modified plastic processing

Technical Field

The invention relates to the technical field of modified plastic processing, in particular to a wear-resisting property detection device for modified plastic processing.

Background

Modified plastics are one kind and are processed once more on ordinary plastics's basis, also can add substances such as modifier as required, make the self performance of original plastics obtain improving, the plastics of making through this mode are modified plastics promptly, compare ordinary plastics and have better fire resistance, shock resistance etc. comparatively commonly in industrial production, need detect its wear resistance when modified plastics processing, whether up to standard in order to judge the quality of product, judge follow-up modified plastics's life simultaneously, but current plastics processing wear resistance detection device still has some weak points when using:

1. the existing wear-resisting property detection device for processing modified plastics generally adopts the rotation of a roller or a grinding wheel to rub the surface of the modified plastics, the effective area of the friction is small, the property of the modified plastics cannot be comprehensively detected, a grinding mechanism is inconvenient to disassemble and replace, different equipment is sometimes required to be replaced for operation when different grinding materials are required to be adopted for carrying out wear-resisting property test, and the practicability of the device is reduced;

2. the wear-resisting property detection device for processing modified plastics that has now is not convenient for adjust the pressure size that modified plastics received when polishing when using, and the performance of its wearability is also different at different pressure sizes, and is detecting modified plastics that the device is relatively poor to the fixed effect of material, and the removal has taken place easily to the material among the testing process, has reduced the functional of device.

In order to solve the problems, innovative design is urgently needed on the basis of the original wear-resisting property detection device for modified plastic processing.

Disclosure of Invention

The invention aims to provide a wear-resistant performance detection device for processing modified plastics, which aims to solve the problems that the existing wear-resistant performance detection device for processing modified plastics in the market in the background art generally rubs the surface of the modified plastics by adopting the rotation of a roller or a grinding wheel, the effective area of the friction is small, the performance of the modified plastics cannot be comprehensively detected, a grinding mechanism is inconvenient to disassemble and replace, the device is inconvenient to adjust the pressure applied to the modified plastics during grinding when in use, the wear-resistant performances of the modified plastics are different under different pressures, the device has poor fixing effect on materials when detecting the modified plastics, and the materials are easy to move in the detection process.

In order to achieve the purpose, the invention provides the following technical scheme: a wear-resisting property detection device for processing modified plastics comprises a base, a support frame, a telescopic mechanism, a limiting frame and a mounting plate, wherein the support frame is fixed on the upper surface of the base through bolts, the telescopic mechanism is installed below the support frame, the mounting plate is fixed at the lower end of the telescopic mechanism, a friction plate is arranged below the mounting plate, the limiting frame is arranged below the friction plate and is embedded on the upper surface of the base, a placing plate is arranged inside the limiting frame, a pressure sensor is installed on the upper surface of the placing plate, a first reset spring is embedded on the lower surface of the placing plate, an adjusting plate is connected to the lower end of the first reset spring, a first adjusting rod penetrates through the middle of the adjusting plate, the lower end of the first adjusting rod penetrates through the lower surface of the base, an installation shell is embedded on the upper surface of the placing plate, and a second adjusting rod penetrates through the inside of the installation shell, and the lower end bearing of the second adjusting rod is connected with a transmission plate, the lower surface of the transmission plate is provided with a second reset spring, a pressing plate is connected below the second reset spring, a limit needle is embedded on the lower surface of the transmission plate, a driving motor is installed on the upper surface of the mounting plate, all output shafts are connected below the driving motor, a movable disc is embedded outside the output shafts, a movable plate is arranged on the right side of the movable disc and inside the mounting plate, a third reset spring is arranged on the right side of the movable plate, a mounting block is embedded on the lower surface of the movable plate, a connecting groove is arranged outside the mounting block and on the upper surface of the friction plate, a fixed block is embedded at the bottom of the connecting groove, a limit groove is arranged on the surface of the fixed block, a permanent magnet is embedded on the inner wall of the limit groove, and a positioning groove is arranged outside the fixed, and the lower surface at the installation piece is seted up to the constant head tank to the inside of installation piece is provided with the stopper, the outside surface nestification of stopper has fourth reset spring.

Preferably, a vertical sliding structure is formed between the placing plate and the limiting frame, the pressure sensor on the upper surface of the placing plate is positioned below the limiting frame, and an integrated structure is formed between the placing plate and the mounting shell.

Preferably, threaded connection is formed between the adjusting plate and the first adjusting rod, the first adjusting rod is connected with the base through a bearing, and a vertical sliding structure is formed between the adjusting plate and the limiting frame.

Preferably, a rotating structure is formed between the second adjusting rod and the transmission plate, an up-and-down sliding structure is formed between the transmission plate and the mounting shell, an integrated structure is formed between the transmission plate and the limiting needle, and meanwhile the limiting needle and the pressing plate are connected in a nested mode.

Preferably, the middle part of the second return spring is nested with a guide rod, the section of the upper end of the guide rod in the front view is designed to be in a T-shaped structure, and an up-and-down sliding structure is formed between the guide rod and the transmission plate.

Preferably, the output shaft and the mounting plate are connected through a bearing, the output shaft and the movable disc are connected through a key, and the vertical center line of the movable disc and the vertical center line of the output shaft are arranged in a staggered mode.

Preferably, a pulley is installed on the left side of the movable plate, the movable plate is connected with the movable disc through the pulley, and a left-right sliding structure is formed between the movable plate and the mounting plate.

Preferably, constitute unsmooth cooperation structure between installation piece and the spread groove, and constitute the integral structure between spread groove and the fixed block to constitute unsmooth cooperation structure between fixed block and the constant head tank.

Preferably, the top of stopper is slope column structural design, and the stopper passes through fourth reset spring and constitutes left and right extending structure between the installation piece to constitute the block structure between stopper and the spacing groove, the stopper constitutes for magnetic material simultaneously.

Compared with the prior art, the invention has the beneficial effects that: the wear-resisting property detection device for processing the modified plastics;

(1) the movable plate, the movable disc and the friction plate are arranged, the movable plate can be driven to reciprocate left and right by the eccentric motion of the movable disc in cooperation with the second reset spring to drive the friction plate to move left and right, the friction plate is contacted with the surface of the modified plastic to generate friction, the friction area of the device can be effectively increased, the comprehensive detection on the wear resistance of the material is facilitated, and the practicability of the device is improved;

(2) the friction plate fixing device is provided with the limiting block, the limiting groove and the permanent magnet, the mounting block can be fixed in the connecting groove through the connection of the limiting groove and the limiting block, when the friction plate made of different materials needs to be replaced, the friction plate only needs to be pulled down, the limiting groove extrudes the limiting block, the limiting block contracts, and when the permanent magnet is separated from attraction to the limiting block, the limiting block keeps a contracted state, so that the fixing block can be conveniently inserted into the positioning groove again in the follow-up process, the friction plate is convenient to replace, and the use convenience of the device is improved;

(3) the device is provided with a first adjusting rod and an adjusting plate, the position of the adjusting plate can be adjusted through the first adjusting rod, so that the elasticity of the first reset spring is adjusted, and the pressure can be monitored by matching with a pressure sensor, so that the subsequent wear resistance test of the modified plastic under different pressures can be carried out, and the functionality of the device is improved;

(4) the second adjusting rod, the pressing plate and the limiting needle are arranged, the second adjusting rod drives the pressing plate to extrude and fix the modified plastic sample through the driving plate when rotating, meanwhile, the limiting needle moves downwards along with the rotation of the second adjusting rod and penetrates through the pressing plate to be inserted into the modified plastic sample, the fixing effect of the device on the modified plastic sample is improved, and the modified plastic sample can keep good stability in the follow-up detection process.

Drawings

FIG. 1 is a schematic view of the main sectional structure of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a schematic top view of the transmission plate of the present invention;

FIG. 4 is a schematic view of a main section of the mounting plate of the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 4 according to the present invention;

FIG. 6 is a schematic top view of the friction plate of the present invention;

FIG. 7 is a schematic bottom view of the mounting plate of the present invention;

FIG. 8 is a schematic view of the bottom cross-section of the mounting plate of the present invention.

In the figure: 1. a base; 2. a support frame; 3. a telescoping mechanism; 4. a limiting frame; 5. mounting a plate; 6. a friction plate; 7. placing the plate; 8. a pressure sensor; 9. a first return spring; 10. an adjusting plate; 11. a first adjusting lever; 12. mounting a shell; 13. a second adjusting lever; 14. a drive plate; 15. a second return spring; 1501. a guide bar; 16. pressing a plate; 17. a limit needle; 18. a drive motor; 19. an output shaft; 20. a movable tray; 21. a movable plate; 2101. a pulley; 22. a third return spring; 23. mounting blocks; 24. connecting grooves; 25. a fixed block; 26. a limiting groove; 27. a permanent magnet; 28. positioning a groove; 29. a limiting block; 30. and a fourth return spring.

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. 1-8, the present invention provides a technical solution: a wear-resisting property detection device for processing modified plastics comprises a base 1, a support frame 2, a telescopic mechanism 3, a limiting frame 4, a mounting plate 5, a friction plate 6, a placing plate 7, a pressure sensor 8, a first reset spring 9, a regulating plate 10, a first regulating rod 11, a mounting shell 12, a second regulating rod 13, a transmission plate 14, a second reset spring 15, a pressing plate 16, a limiting needle 17, a driving motor 18, an output shaft 19, a movable disc 20, a movable plate 21, a third reset spring 22, a mounting block 23, a connecting groove 24, a fixing block 25, a limiting groove 26, a permanent magnet 27, a positioning groove 28, a limiting block 29 and a fourth reset spring 30, wherein the support frame 2 is fixed on the upper surface of the base 1 through bolts, the telescopic mechanism 3 is mounted below the support frame 2, the mounting plate 5 is fixed at the lower end of the telescopic mechanism 3, the friction plate 6 is arranged below the mounting plate 5, the limiting frame 4 is arranged below the friction plate 6, and the limit frame 4 is inlaid on the upper surface of the base 1, a placing plate 7 is arranged inside the limit frame 4, a pressure sensor 8 is installed on the upper surface of the placing plate 7, a first return spring 9 is inlaid on the lower surface of the placing plate 7, the lower end of the first return spring 9 is connected with an adjusting plate 10, a first adjusting rod 11 penetrates through the middle part of the adjusting plate 10, the lower end of the first adjusting rod 11 penetrates through the lower surface of the base 1, a mounting shell 12 is inlaid on the upper surface of the placing plate 7, a second adjusting rod 13 penetrates through the interior of the mounting shell 12, a transmission plate 14 is connected to the lower end of the second adjusting rod 13 through a bearing, a second return spring 15 is arranged on the lower surface of the transmission plate 14, a pressing plate 16 is connected below the second return spring 15, a limit needle 17 is inlaid on the lower surface of the transmission plate 14, a driving motor 18 is installed on the upper surface of the mounting plate 5, and all output shafts 19 are connected below, a movable plate 20 is embedded on the outer side of the output shaft 19, a movable plate 21 is arranged on the right side of the movable plate 20, the movable plate 21 is arranged inside the mounting plate 5, a third return spring 22 is arranged on the right side of the movable plate 21, a mounting block 23 is embedded on the lower surface of the movable plate 21, a connecting groove 24 is arranged on the outer side of the mounting block 23, the connecting groove 24 is arranged on the upper surface of the friction plate 6, a fixed block 25 is embedded at the bottom of the connecting groove 24, a limiting groove 26 is formed in the surface of the fixed block 25, a permanent magnet 27 is embedded on the inner wall of the limiting groove 26, a positioning groove 28 is arranged on the outer side of the fixed block 25, the positioning groove 28 is arranged on the lower surface of the mounting block 23, a limiting block 29 is arranged inside the mounting block;

the placing plate 7 and the limiting frame 4 form a vertical sliding structure, the pressure sensor 8 on the upper surface of the placing plate 7 is positioned below the limiting frame 4, the placing plate 7 and the mounting shell 12 form an integrated structure, and the structural design can monitor the pressure between the placing plate 7 and the limiting frame 4 through the pressure sensor 8, so that the friction pressure of the modified plastic can be conveniently adjusted subsequently;

the adjusting plate 10 and the first adjusting rod 11 form threaded connection, the first adjusting rod 11 and the base 1 form bearing connection, the adjusting plate 10 and the limiting frame 4 form a vertical sliding structure, and the structural design can drive the adjusting plate 10 to move through the rotation of the first adjusting rod 11, so that the pressure on subsequent modified plastics is adjusted;

a rotating structure is formed between the second adjusting rod 13 and the transmission plate 14, an up-and-down sliding structure is formed between the transmission plate 14 and the mounting shell 12, an integrated structure is formed between the transmission plate 14 and the limiting needle 17, and meanwhile, the limiting needle 17 and the pressing plate 16 are connected in a nested manner, the structural design can control the position of the transmission plate 14 through the rotation of the second adjusting rod 13, and then the modified plastic sample placed on the placing plate 7 can be fixed by matching with the pressing plate 16 and the limiting needle 17;

the middle part of the second reset spring 15 is nested with a guide rod 1501, the section of the upper end of the guide rod 1501 in the front view is in a T-shaped structural design, an up-and-down sliding structure is formed between the guide rod 1501 and the transmission plate 14, the transmission plate 14 and the pressing plate 16 can move relatively stably through the structural design, and the transmission plate 14 can continuously push the limit needle 17 to move by extruding the second reset spring 15 after the pressing plate 16 is contacted with a detected sample;

the output shaft 19 and the mounting plate 5 form a bearing connection, the output shaft 19 and the movable disc 20 form a key connection, the vertical central line of the movable disc 20 and the vertical central line of the output shaft 19 are arranged in a staggered manner, and the structural design enables the subsequent output shaft 19 to drive the movable disc 20 to do eccentric motion when rotating, so that the subsequent movable plate 21 is pushed to move;

the left side of the movable plate 21 is provided with a pulley 2101, the movable plate 21 is connected with the movable disc 20 through the pulley 2101, and a left-right sliding structure is formed between the movable plate 21 and the mounting plate 5, the structural design enables the movable plate 21 to reciprocate left and right under the action of the movable disc 20 and the third return spring 22, so that the subsequent friction plate 6 is driven to move, and the wear resistance of the modified plastic sample is detected;

the mounting block 23 and the connecting groove 24 form a concave-convex matching structure, the connecting groove 24 and the fixing block 25 form an integrated structure, the fixing block 25 and the positioning groove 28 form a concave-convex matching structure, the movable plate 21 and the friction plate 6 can be connected through the mounting block 23 by the structural design, the friction plate 6 can be replaced subsequently, and different types of wear resistance detection operation can be conveniently carried out;

the top of stopper 29 is slope column structural design, and stopper 29 passes through fourth reset spring 30 and constitutes left and right extending structure between installation piece 23, and constitute the block structure between stopper 29 and the spacing groove 26, stopper 29 constitutes for magnetic material simultaneously, and above-mentioned structural design accessible stopper 29 and spacing groove 26 are connected and are fixed installation piece 23 in spread groove 24, and stopper 29 can contract automatically when follow-up fixable piece 25 breaks away from in the constant head tank 28, and convenient follow-up inserts the fixed piece 25 into constant head tank 28 again.

The working principle is as follows: in using the apparatus for detecting abrasion resistance in processing of modified plastic, first, as shown in FIG. 1, a sample of modified plastic to be tested can be placed on the placing plate 7, then fixing the sample, as shown in fig. 2 and 3, rotating the second adjusting rod 13, pushing the driving plate 14 to move downwards by the second adjusting rod 13 through the threaded connection with the mounting shell 12, the driving plate 14 driving the pressing plate 16 to move downwards through the second return spring 15, making the pressing plate 16 contact with the modified plastic sample, continuing to rotate the second adjusting rod 13, compressing the second return spring 15, continuing to move downwards by the driving plate 14, driving the limit needle 17 to move downwards, inserting the limit needle 17 into the modified plastic sample through the pressing plate 16, the device is fixed, so that the limiting effect of the device on the modified plastic sample is improved, and the modified plastic sample can keep good stability in the subsequent detection process;

during detection, the telescopic mechanism 3 can be controlled to move downwards, the friction plate 6 is in contact with the modified plastic sample, the placing plate 7 is pushed downwards at the same time, the reading of the pressure sensor 8 is zero, the reading of the pressure sensor 8 in the earlier stage is the friction pressure of the modified plastic sample, the pressure can be controlled through the first return spring 9, when the pressure needs to be adjusted, the first adjusting rod 11 can be selected before the telescopic mechanism 3 moves downwards, the first adjusting rod 11 is connected with the adjusting plate 10 through threads to drive the adjusting plate 10 to move, so that the distance between the adjusting plate 10 and the placing plate 7 is adjusted, the elastic force of the first return spring 9 is adjusted, and meanwhile, the value of the pressure sensor 8 is changed, and the adjustment of the subsequent friction pressure of the modified plastic sample is realized;

referring to fig. 4, the driving motor 18 is started during detection, the driving motor 18 drives the movable disc 20 to rotate through the output shaft 19, referring to fig. 7 and 8, the movable disc 20 contacts with the movable plate 21 through the pulley 2101 during rotation, and the movable plate 21 is driven to reciprocate in the action direction by the third return spring 22, referring to fig. 5 and 6, the movable plate 21 drives the friction plate 6 to move through the cooperation of the mounting block 23 and the connecting groove 24, so as to perform wear resistance test on the surface of the modified plastic sample, when the friction plate 6 needs to be replaced, the friction plate 6 can be pulled downwards, the limiting groove 26 extrudes the limiting block 29, so that the fixing block 25 is separated from the connecting groove 28, and when the limiting block 29 is separated from the connecting groove 26, the limiting block 29 is not attracted by the permanent magnet 27, the limiting block 29 retracts into the mounting block 23 under the action of the fourth return spring 30, the friction plate 6 is disassembled, the installation block 23 and the connecting groove 24 are connected again in the installation process, the fixing block 25 enters the positioning groove 28, meanwhile, the permanent magnet 27 attracts the limiting block 29, the limiting block 29 extends out again to be connected with the positioning groove 28, the installation of the friction plate 6 is completed, and the use convenience of the device is improved.

Those not described in detail in this specification are within the skill of the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides a wear resistance detection device is used in modified plastic processing, includes base (1), support frame (2), telescopic machanism (3), spacing frame (4) and mounting panel (5), its characterized in that: the upper surface of the base (1) is fixed with a support frame (2) through bolts, a telescopic mechanism (3) is installed below the support frame (2), a mounting plate (5) is fixed at the lower end of the telescopic mechanism (3), a friction plate (6) is arranged below the mounting plate (5), a limiting frame (4) is arranged below the friction plate (6), the limiting frame (4) is embedded on the upper surface of the base (1), a placing plate (7) is arranged inside the limiting frame (4), a pressure sensor (8) is installed on the upper surface of the placing plate (7), a first reset spring (9) is embedded on the lower surface of the placing plate (7), an adjusting plate (10) is connected to the lower end of the first reset spring (9), a first adjusting rod (11) penetrates through the middle of the adjusting plate (10), and the lower end of the first adjusting rod (11) penetrates through the lower surface of the base (1), the upper surface of the placing plate (7) is inlaid with an installing shell (12), a second adjusting rod (13) penetrates through the installing shell (12), a transmission plate (14) is connected to a lower end bearing of the second adjusting rod (13), a second reset spring (15) is arranged on the lower surface of the transmission plate (14), a pressing plate (16) is connected below the second reset spring (15), a limiting needle (17) is inlaid on the lower surface of the transmission plate (14), a driving motor (18) is installed on the upper surface of the installing plate (5), all output shafts (19) are connected below the driving motor (18), a movable disc (20) is inlaid on the outer side of each output shaft (19), a movable plate (21) is arranged on the right side of each movable disc (20), the movable plate (21) is arranged inside the installing plate (5), and a third reset spring (22) is arranged on the right side of each movable plate (21), the lower surface of fly leaf (21) inlays and has installation piece (23), and the outside of installation piece (23) is provided with connecting groove (24) to the upper surface at friction plate (6) is seted up in connecting groove (24), the bottom of connecting groove (24) is inlayed and is had fixed block (25), and the surface of fixed block (25) has seted up spacing groove (26), and the inner wall of spacing groove (26) is inlayed and is had permanent magnet (27), the outside of fixed block (25) is provided with constant head tank (28), and constant head tank (28) set up the lower surface at installation piece (23), and the inside of installation piece (23) is provided with stopper (29), the outside surface nestification of stopper (29) has fourth reset spring (30).

2. The wear-resistant performance detection device for processing modified plastics as claimed in claim 1, wherein: an up-and-down sliding structure is formed between the placing plate (7) and the limiting frame (4), the pressure sensor (8) on the upper surface of the placing plate (7) is located below the limiting frame (4), and an integrated structure is formed between the placing plate (7) and the mounting shell (12).

3. The wear-resistant performance detection device for processing modified plastics as claimed in claim 1, wherein: adjusting plate (10) and first regulation pole (11) between constitute threaded connection, and constitute bearing connection between first regulation pole (11) and base (1) to sliding structure about constituting between adjusting plate (10) and spacing frame (4).

4. The wear-resistant performance detection device for processing modified plastics as claimed in claim 1, wherein: a rotating structure is formed between the second adjusting rod (13) and the transmission plate (14), an up-and-down sliding structure is formed between the transmission plate (14) and the mounting shell (12), an integrated structure is formed between the transmission plate (14) and the limiting needle (17), and meanwhile the limiting needle (17) and the pressing plate (16) are connected in a nested mode.

5. The wear-resistant performance detection device for processing modified plastics as claimed in claim 1, wherein: the middle part of the second return spring (15) is nested with a guide rod (1501), the section of the upper end of the guide rod (1501) in the front view is in a T-shaped structural design, and an up-and-down sliding structure is formed between the guide rod (1501) and the transmission plate (14).

6. The wear-resistant performance detection device for processing modified plastics as claimed in claim 1, wherein: the output shaft (19) and the mounting plate (5) are connected through a bearing, the output shaft (19) and the movable disc (20) are connected through a key, and the vertical center line of the movable disc (20) and the vertical center line of the output shaft (19) are arranged in a staggered mode.

7. The wear-resistant performance detection device for processing modified plastics as claimed in claim 1, wherein: a pulley (2101) is installed on the left side of the movable plate (21), the movable plate (21) is connected with the movable disc (20) through the pulley (2101), and a left-right sliding structure is formed between the movable plate (21) and the mounting plate (5).

8. The wear-resistant performance detection device for processing modified plastics as claimed in claim 1, wherein: constitute unsmooth cooperation structure between installation piece (23) and spread groove (24), and constitute the integral structure between spread groove (24) and fixed block (25) to constitute unsmooth cooperation structure between fixed block (25) and constant head tank (28).

9. The wear-resistant performance detection device for processing modified plastics as claimed in claim 1, wherein: the top of stopper (29) is slope column structure design, and stopper (29) pass through fourth reset spring (30) and install and constitute left right telescopic structure between piece (23) to constitute the block structure between stopper (29) and spacing groove (26), stopper (29) constitute for magnetic material simultaneously.

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