TW201235661A - Device for testing abradability of sandpaper - Google Patents

Abstract

The present invention provides a device for testing abradability of sandpaper which includes a sliding mechanism, a rotary mechanism, a pressing member and an abrasive disc. The pressing mechanism is assembled on the sliding mechanism and slides reciprocally under the control of the sliding mechanism. The sandpaper is installed on the abrasive disc. The abrasive disc is fixed on the rotary mechanism. The rotary mechanism drives the abrasive disc and the sandpaper rotating and rubbing with the pressing member.

Description

201235661 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to an abrasion resistance test apparatus', and more particularly to a sandpaper pair abrasion test apparatus. [Prior Art] _2] Sandpaper, commonly known as sandpaper, is a kind of abrasive-like material used to grind metal, wood, etc. to make it smooth and smooth. [0003] The degree of wear resistance of sandpaper is an important indicator for measuring the quality of sandpaper. Therefore, it is necessary to use the (%) consumption of sandpaper before leaving the factory. However, at present, the sandpaper abrasion resistance test device with simple structure and convenient system is still lacking. .....::.: ... :. ····························· Qian Hao __ seed use (four) sand Huan wear resistance test to test the wear resistance test device. The material-receiving material includes a mechanism, a rotating mechanism, a pressing member and a grinding disc, and the pressing member is mounted on the moving mechanism and reciprocally slides under the driving of the π-moving mechanism. The sandpaper to be tested is mounted on the rotating mechanism, and the sandpaper to be tested is driven to rotate by the rotation mechanism, and the sandpaper rubs against the pressing member that reciprocates. [0006] By setting a sliding mechanism to drive the 'Abrasion Resistance Test Device' to set the rotary machine, the wear resistance test piece of the present invention moves back and forth. Simultaneously, to drive the grinding disc white minus -j to rotate, so that the pressing piece and the sandpaper placed on the grinding disc are fully harmonized and moved to facilitate the rapid resistance to the sandpaper 100106297 Form No. A0101 No. 1002010715- 0 201235661 [0007] Ο [0008] Ο [0009] 100106297 Grinding performance is detected. [Embodiment] Referring to Figure 1, a preferred embodiment of the present invention provides a wear resistance test apparatus 100' for testing the abrasion resistance of sandpaper. The wear resistance test apparatus 100 includes a bottom plate 1 〇, a cover 20, a slide mechanism 3, a pressing member 40, a rotating mechanism 50, a grinding disc 6 (see Fig. 3), and a control unit 7''. The pressing member 40 is mounted on the sliding mechanism 30 and is reciprocally slid by the sliding mechanism 30. The grinding disc 6 is mounted on the rotating mechanism 50, and the sandpaper to be tested is placed thereon. The sandpaper to be tested is driven to rotate by the rotation mechanism 50, and rubbed against the pressing member 40 that reciprocates. The outer cover 20 is disposed on the bottom plate 10 and forms a closed accommodating space (not shown) together with the bottom plate 1 。. The top of the outer cover 2 is provided with a circular recess 21 and a first opening 22 and a second opening 23 which are both rectangular. A circular receiving hole 211 is defined in a position of the middle portion of the groove 21. The first opening 22 and the second opening 23 both penetrate the outer cover 20 to expose the accommodating space. Referring to FIG. 2 together, the sliding mechanism 30 is installed in the accommodating space and exposed from the first opening 22. The sliding mechanism 3 includes a carrier 31, a motor 32, a grinding wheel 33, a connecting member 34, a slider 35, and a slide rail 36. The carrier member 31 includes at least one upright 311 and a carrier plate 312. In this embodiment, the number of the columns 311 is four, each of which is cylindrical, is mounted on the bottom plate 10, and is disposed perpendicular to the bottom plate 10. The carrier plate 312 is fixed to an end of the stand 311 away from the bottom plate, and is disposed in parallel with the bottom plate 10. A bearing groove 3121 and a bearing hole 3122 are defined in the bearing plate 312. The bearing groove form 煸 Α 0101 5th page / 20 pages 1002010715-0 201235661 3121 is substantially rectangular strip-shaped, the bearing hole 3122 is disposed on one side of the carrying groove 3121 and penetrates the carrying plate 312. The motor 32 is fixed to the surface of the carrier plate 312 near the bottom plate 1 (), and includes a drive shaft 321. The transmission sleeve 32i passes through the bearing hole 3122 and is exposed from the surface of the carrier plate 312 away from the bottom plate 1 . The grinding wheel 33 is coupled to the drive shaft 321 and is rotated about the drive shaft 321 by the motor 32. [0010] The connecting member 34 includes a pull rod 34 and two connecting posts 342, and the two sides of the pull rod 341 are respectively provided with connecting holes 343. One of the connecting posts 342 is disposed in the corresponding connecting hole 343 and fixed to the grinding wheel 33 to fix the one end of the pull rod 341 to the grinding wheel 33. The slider 35 includes a main body portion 351 and an extending portion 352. The main body portion 351 is substantially block-shaped and has a fitting hole (not shown) formed therein. The other end of the tie rod 341 is fixedly coupled to the slider 35 by sequentially passing another connecting post 342 through the connecting hole 343 and the corresponding mating hole. Thus, when the grinding wheel 33 rotates around the transmission shaft 321 under the driving of the motor 32, it will drive the sliding member 3 5 by the connection of the connecting member 34. The sliding rail 3 6 is substantially straight in a strip shape 'fixed in the receiving groove 312Ί. The main body portion 351 is provided with a sliding portion 353 near the surface of the bottom plate 10, and the sliding portion 353 is provided with a substantially rectangular strip-shaped sliding groove 354 away from the surface of the main body portion 351. The chute 3 5 4 corresponds to the slide rail 36. The slider 35 is slid along the slide rail 36 by the drive of the motor 32. The extending portion 352 is substantially a rectangular parallelepiped extending from one end of the main body portion 351 in a direction away from the grinding wheel 33. The extending portion 352 is provided with a mounting hole 355 away from the end of the grinding wheel 33. The pressing member 40 is mounted in the mounting hole 355, and is disposed perpendicular to the bottom plate 1b, and is reciprocated by the sliding mechanism to be tested with the 100106297 to be tested. Form No. A0101 Page 6 of 2 Page 1002010715- 0 [0011] 201235661 Sandpaper rubs against each other. [0012] Please - to close the cabinet / read the circle 3 ' The rotating mechanism 5 〇 includes the support member 51, the motor 52, the fixing member 53, the rotating portion 54, and the transmission member 55. The support member 51 includes at least a support post 511 and a support plate 512. The support post 511 is substantially cylindrically fixed to the bottom plate 10, and the vertical bottom plate 10 is disposed. The support plate 12 is defined at an end portion of the support wall 5丨1 away from the bottom plate 10, and the parallel bottom plate is disposed at a position of a lower portion of the support plate 512. The motor 52 includes a cylinder 521 and a rotating shaft 522. The cylinder 521 is defined on the support plate 512, and is exposed from the second opening 23. The rotating shaft 522 passes through the supporting hole 513 and is exposed from the surface of the branch plate 512 near the bottom plate 10. The fixing member 53 includes a fixing post 531 and a fixing plate 532. The fixing post 531 has a substantially cylindrical shape and is fixed on the bottom plate and is disposed on the vertical bottom plate. The fixing plate 532 is fixed to an end of the fixing post 531 away from the bottom plate 10, and is disposed parallel to the bottom plate. A fixing hole 533 is formed in the middle of the fixing plate 532. The rotating portion 54 is substantially cylindrical and extends through the fixing hole 533 and is provided with a Q rotating sleeve 541. The rotating sleeve 541 passes through the receiving hole 211 away from the end of the fixing member 53, and is exposed from the inside of the groove 21. A turntable 542 is disposed at the top of the rotating sleeve 541. The transmission member 55 includes a driving wheel 551, a driven wheel 552, and a belt 553. The driving wheel 551 is sleeved on the rotating shaft 522 and is rotated around the rotating shaft 522 by the motor 52. The driven wheel 552 is sleeved on one end of the rotating portion 54 near the bottom plate 10. The belt 553 is sleeved on the driving wheel 551 and the driven wheel 552. When the driving wheel 551 is rotated around the rotating shaft 522 by the motor 52, the driving wheel 551 drives the driven wheel 552 and Rotating part 54 at the same time 100106297 Form number Α0101 1002010715-0 201235661 Speed rotation. [0013] The grinding disc 60 is mounted on the turntable 542, and is driven to rotate at a constant speed by the driven wheel 552 and the rotating portion 54, and rubs against the pressing member 40 to further improve the wear resistance of the sandpaper to be tested. carry out testing. Referring again to FIG. 1, the control assembly 70 is mounted on the housing 20 and includes a power switch 71, an adjustment member 72, and a display unit 73. The power switch 71 is used to activate the motor 52' adjustment member 72 for controlling the motor 52, thereby adjusting the rotation parameters of the grinding wheel 60, such as the rotation speed, to suit the sandpaper of different materials and different grinding requirements. The display unit 73 is for displaying parameters such as the rotational speed, the number of revolutions, and the time of the motor 52. [0015] It can be understood that the wear resistance testing device 1 can further include a cover plate 80. The cover plate 80 is substantially disk-shaped, and its specific shape and structure are matched with the shape and structure of the groove 21. The cover 21 is disposed on the recess 21 to prevent impurities such as dust from entering the grinding disc 60. A substantially strip-shaped engaging groove 81 is defined in the cover plate 8 , and the engaging groove 81 cooperates with the pressing member 40 to drive the pressing member 40 along the matching groove under the driving of the motor 32 . 81 slides. [0016] It will be understood that the weight 41 of different weights may be added to the pressing member 4 to make the pressing member 40 in full contact with the sandpaper to be tested. [0017] It can be understood that the rotating mechanism 50 can further include a protective cover 56 that is disposed on the motor 52 for protecting the motor 52. [0018] Referring to FIG. 4 together, when the wear resistance testing device 1 is used, the sandpaper to be tested is first placed on the grinding disc 60, and the cover 8 is placed on the grinding disc 60. Then, the pressing member 40 is mounted in the mounting hole 355, 100106297, form number A0101, page 8 of 20, 1002010715-0 201235661 ◎ [0019] ◎ [0020] [0021] and the pressing member 40 is facing The mating groove 81. According to the actual situation, a certain weight of the baby brown 41 is applied to the pressure-sensitive member 40 so that the pressing member is in full contact with the sandpaper. The power switch 71 of the wear resistance test apparatus 1 is turned on, and the adjustment member 72 is adjusted so that the grinding wheel 60 has a corresponding rotational speed and number of revolutions. The start button (not shown) is activated, and the grinding wheel 33 is rotated by γ of the motor 3 2 to drive the slider 35 connected to the grinding wheel 3 to move back along the slip 36. At the same time, the grinding disc 6 is rotated by the motor 52 at a preset speed, so that the sandpaper on the grinding disc 6 is frictionally moved with the pressing member 40 in the forward and backward moving state. When the specified number of rubbing or rubbing times is reached, the motor 52 is stopped, the sandpaper is removed, and its wear resistance is judged by observing its wear resistance. It is apparent that the wear resistance test apparatus 1 of the present invention drives the pressing member 40 to move back and forth by providing the slide mechanism 30. At the same time, the wear resistance testing device 100 is not provided with the rotating mechanism 50 to drive the grinding disc to rotate at a constant speed, so that the pressing member 40 and the sandpaper placed on the grinding disc 60 are fully rubbed and moved to facilitate the wear resistance of the sandpaper. Performance is tested. In summary, the present invention meets the requirements of the invention, and the United States filed a patent application according to law. The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and equivalent modifications or variations made by those skilled in the art in light of the spirit of the present invention are It should be covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a partially exploded perspective view of a wear test apparatus in accordance with a preferred embodiment of the present invention. [0022] FIG. 2 is an exploded perspective view of the sliding mechanism of the wear resistance testing device shown in FIG. 1. Form No. 1010101 Page 9/20 pages 1002010715-0 201235661 [0023] FIG. 3 is a wear resistance test shown in FIG. [0024] FIG. 4 is a schematic view showing the assembly of the wear resistance testing device shown in FIG. [Main component symbol description] [0025] Abrasion resistance test device: 100 [0026] Base plate: 10 [0027] Cover: 20 [0028] Groove: 21 [0029] accommodating hole: 2 11 [0030] First opening : 22 [0031] Second opening: 23 [0032] Sliding mechanism: 30 [0033] Carrier: 31 [0034] Column: 311 [0035] Carrier plate: 312 [0036] Carrier groove: 3121 [0037] Bearing hole: 3122 [0038] Motor: 32 [0039] Grinding wheel: 33 100106297 Form No. A0101 Page 10 / Total 20 pages 1002010715-0 201235661 [0040] Drive shaft: 321 [0041] Connecting piece: 34 [0042] Pull rod: 341 [0043 ] Connecting post: 342 [0044] Connecting hole: 343 [0045] Slide: 35 [0046] Main body: 351 Ο Γ Ί [0047] Extension: 352 [0048] Sliding part: 353 [0049] Chute: 354 [0050] Mounting hole: 355 [0051] Slide rail: 36 [0052] Pressing member: 40 Ο [0053] Thread: 41 [0054] Rotating mechanism: 50 [0055] Support: 51 [0056] Support column: 511 [0057] Support plate: 512 [0058] Support hole: 513 100106297 Form number A0101 Page 11 / Total 20 pages 1002010715-0 201235661 [0059] Motor: 52 [0060] Cylinder block: 5 21 [0061] Rotary shaft: 522 [0062] Fixing member: 53 [0063] Fixing post: 5 31 [0064] Fixing plate: 532 [0065] Fixing hole: 533 [0066] Rotating portion: 54 [0067] Rotating sleeve : 541 [0068] Transmission: 5 5 [0069] Protective cover: 5 6 [0070] Driving wheel: 551 [0071] Drive wheel: 552 [0072] Belt: 553 [0073] Grinding disc: 6 0 [0074] Control unit :70 [0075] Power switch: 71 [0076] Adjuster: 72 [0077] Display unit: 73 100106297 Form No. A0101 Page 12 of 20 1002010715-0 201235661 [0078] Cover: [0079] Coupling groove 80 :81

100106297 Form No. A0101 Page 13 of 20 1002010715-0

Claims (1)

201235661 VII. Patent application scope: 1. A fuel abrasion test device, comprising a sliding mechanism, a rotating mechanism, a pressing member and a grinding disc, wherein the pressing member is mounted on the sliding mechanism and reciprocally slides under the driving of the sliding mechanism The grinding disc is used for placing the sandpaper to be tested, and the grinding disc is mounted on the rotating mechanism, and driven by the rotating mechanism, the sandpaper to be tested is rotated, and the sandpaper is reciprocatingly sliding. The pressing member is rubbed. 2. The wear resistance testing device of claim 1, wherein the sliding mechanism comprises a motor, a grinding wheel and a sliding member, the grinding wheel is mounted on the motor and is driven to rotate by the motor, The sliding member is coupled to the grinding wheel and is slid back and forth under the driving of the grinding wheel, and the pressing member is mounted on the sliding member. 3. The wear resistance testing device of claim 2, wherein the sliding mechanism comprises a connecting member, the connecting member comprises a pull rod and two connecting columns, and two ends of the connecting rod are respectively provided with connecting holes, wherein one a connecting post is disposed in the corresponding connecting hole and fixed to the grinding wheel to fix one end of the pull rod to the grinding wheel, the sliding member includes a main body portion, and the main body portion is provided with a matching hole, by A connecting post sequentially passes through the connecting hole and the corresponding mating hole to fix the other end of the pull rod to the sliding member. 4. The wear resistance testing device of claim 3, wherein the sliding member comprises an extension portion extending from one end of the main body portion away from the grinding wheel, the extending portion being away from the grinding wheel The end portion is provided with a mounting hole, and the pressing member is installed in the mounting hole. 5. The wear resistance testing device of claim 3, wherein the sliding mechanism comprises a carrier, the carrier comprising at least one upright and a carrier plate 100106297 Form No. A0101 Page 14 of 20 1002010715- 0 201235661 'The carrier is mosquitoes on the column, the bearing (four) is provided with a bearing hole, the motor comprises a transmission shaft 'the motor is targeted on one surface of the carrier plate' and the transmission shaft is passed through The bearing hole and (iv) the other surface of the carrier plate are exposed, and the grinding wheel is coupled to the drive shaft. The wear-resistant test apparatus of claim 5, wherein the sliding mechanism comprises a slide rail, and the load-bearing plate is provided with a bearing groove, wherein the slide rail is fixed in the bearing groove, and the main body portion is provided with a sliding portion, the sliding portion is provided with a sliding slot away from the surface of the main body portion, and the sliding slot is corresponding to the sliding rail, and is driven by the motor to slide the diffusing member along the sliding rail. The wear resistance testing device of claim i, wherein the rotating mechanism comprises a motor, a rotating portion and a transmission member, and the division is provided with a rotating sleeve. The top of the rotating sleeve is provided with - a turntable, the grinding disc is shocked on the turntable. The end of the rotating portion away from the turntable is connected to the (4) machine by the transmission member to perform a rotary motion under the driving of the motor. Ο For example, apply for the wear resistance test described in item 7, where the rotating mechanism includes the support member, Dan T 乂狡, the support plate... = = : The motor includes the cylinder block and the rotating shaft, and the cylinder _ On the (4) (four) plate = the rotating shaft passes through the support hole and is exposed from the surface of the cutting plate away from the cylinder. The wear resistance testing device according to claim 7, wherein the rotating mechanism comprises a fixing member The fixing member includes at least one fixing post and a fixing plate 'the fixing plate _ on the fixing branch, and (4) fixing the hole, and the rotating portion is disposed in the fixing hole away from the end portion of the rotating plate. • For example, please refer to the wear-resistant and cost-effective device described in item 8 of the patent scope, in which the 15th page/total 20 pages form number A0101 1002010715-0 201235661 The moving parts include the driving wheel, the driven wheel and the belt, and the driving wheel Swinging on the rotating shaft and rotating around the rotating shaft under the driving of the motor, the driven wheel is sleeved on the rotating portion away from the end of the turntable, and the belt is sleeved on the driving wheel and On the driven wheel, when the driving wheel rotates around the rotating shaft under the driving of the motor, the driven wheel and the rotating portion are driven to rotate. 11. The wear resistance testing device of claim 7, wherein the wear resistance testing device comprises a control component, the control component comprising a power switch, an adjusting component and a display unit, wherein the power switch is used to start the motor. The adjusting member is used for controlling the motor to adjust the rotation parameter of the grinding disc, and the display unit is used for displaying the rotation parameter of the motor. 12. The wear resistance testing device of claim 1, wherein the wear resistance testing device comprises a cover plate disposed above the grinding disc to prevent impurities from entering the grinding disc, the cover plate The upper opening is provided with a matching groove, and the engaging groove cooperates with the pressing member for sliding the pressing member along the engaging groove under the driving of the sliding mechanism. 13. The wear resistance test apparatus of claim 1, wherein the press member is provided with a weight such that the press member is in full contact with the sandpaper to be tested. 100106297 Form No. A0101 Page 16 of 20 1002010715-0