KR101157640B1 - the impact abrasion tester - Google Patents

Abstract

The present invention relates to an impact friction strength tester, comprising: a sample unit comprising a weight and a holder assembled / disassembled on a bottom thereof; A fixed separator configured to include an elevating link for lifting and lowering the sample unit in a structure of a lever, an elevating cylinder for lifting and lowering the elevating link, and a magnet installed on the sample unit; A polishing unit configured to rotate the polishing belt under the weight by a motor; A dust collecting unit for sucking foreign substances generated; An impact friction strength tester composed of a control unit for controlling the overall operation is constructed, the sample is mounted on the holder of the sample unit, the sample unit is attached by the magnet by a lifting cylinder, and then returned to its original position, and the polishing belt is set at the set speed. In the state of keeping the magnet off, drop the sample part with the magnet off and shock friction the sample on the polishing belt. Then, after the set time, lift the cylinder immediately by the lifting cylinder and check the wear level of the sample part. By applying various and accurate parameters such as the feed rate, the weight of the weight, and the friction time between the abrasive belt and the sample, it is possible to facilitate the impact friction test of fabrics, sheets, and the like.

Description

Impact abrasion tester

The present invention relates to an impact friction strength tester, comprising: a sample unit comprising a weight and a holder assembled / disassembled on a bottom thereof; A fixed separator configured to include an elevating link for lifting and lowering the sample unit in a structure of a lever, an elevating cylinder for lifting and lowering the elevating link, and a magnet installed on the sample unit; A polishing unit configured to rotate the polishing belt under the weight by a motor; A dust collecting unit for sucking foreign substances generated; An impact friction strength tester composed of a control unit for controlling the overall operation is constructed, the sample is mounted on the holder of the sample unit, the sample unit is attached by the magnet by a lifting cylinder, and then returned to its original position, and the polishing belt is set at the set speed. In the state of holding, the sample is dropped by the magnet off and the impact belt is rubbed on the polishing belt. After the set time, the lifting cylinder is lifted up immediately to check the wear of the sample. By applying various and accurate parameters such as the feed rate, the weight of the weight, and the friction time between the abrasive belt and the sample, it is possible to facilitate the impact friction test of fabrics, sheets, and the like.

In general, materials such as woven fabrics, nonwoven fabrics, artificial leather, natural leather, synthetic fiber sheets, etc. have their own physical properties, and are used in products such as clothing, special clothing, etc. according to the physical properties.

In addition, in addition to the existing general physical properties, various and complex physical properties are also required.For example, when manufacturing a safety suit (rider suit) worn by a driver during a motorcycle race, in preparation for a situation where the driver falls to the floor while driving a motorcycle, The frictional strength of the material to be applied to the safety suit should be taken into consideration, and the frictional strength to be applied to the material should be considered. Since it must be applied, it is necessary to measure the frictional strength according to various variables so that a material suitable for the measured frictional strength is applied to the desired product.

And as an example of a tester for measuring such a frictional strength, US Patent No. 5795989, a fabric sample is fixed to each of a plurality of holders, each of the fabric sample is composed of an abrasive material, each abrasive material fabric sample After contact with the material, the abrasive is rotated by the moving plate, and the content of the wear tester having a structure in which the abrasive is rubbed with the fabric sample is disclosed.

In addition, in British Standard EN 13595-2, a method of testing is defined for the measurement of impact wear resistance for protective clothing of professional motorcycle drivers, and Figure 9 shows the main part of a wear device (Cambridge type) according to the British standard. As a schematic diagram, a weight having a rotating belt 1 (a grit belt composed of an aluminum oxide abrasive), having an appropriate weight on the top of the belt 1 and a specimen 2 (fiber) fixed on the bottom thereof. (3), the weight (3) is raised to a certain height by the manual lift (4), and then the weight (3) is dropped by the separating device (5), and lifted again after a predetermined time, 2) A device for measuring the degree of wear, for such wear devices, the British standard belt speed 8㎧, belt grit OP 60, wear area 1963 mm2, static force 49 N for sample, static pressure 25 25 for sample. Drop height 50 And the definition.

However, when motorcycle drivers fall, they are momentary and the frictional direction acts in a straight direction, which is limited for the products to which they are applied because the friction direction for the fabric sample is in the direction of rotation in a circular direction. Of course, there is a problem that the tester can not test the variable according to the weight or the variable amount of impact.

In addition, since the specimen made of fibers is a very short time, the degree of wear by the belt is different. In the case of the wear device according to the British standard, the weight is lifted manually by the manual lift, so the parameter for the wear time is not accurate. There was a problem.

Therefore, the present invention to solve the above problems, the weight and the sample unit is fixed to the holder fixed to the bottom surface; A fixed separation unit configured to include an elevating link for elevating and descending the sample unit in a structure of a lever, an elevating cylinder for raising and lowering the elevating link, and a magnet installed on the sample unit; An impact friction strength tester constituted by a polishing unit configured to rotate the polishing belt under the weight is configured to shock friction between the sample and the polishing belt by a fixed separation unit, so that the impact friction test of the sample is facilitated.

In addition, the polishing belt is assembled to a pair of pulleys, the one pulley is configured to rotate by a motor, the pulley on one side is configured to rotate while contacting the brush, the lower portion of the polishing belt constitutes a chamber In the chamber, a suction pipe, an inhaler, and a collecting container constitute a dust collecting unit sequentially, and the control unit for controlling the operation and operating time of the fixed separator, the grinding unit, and the dust collecting unit is generated by friction between the sample and the polishing belt. To facilitate the collection of foreign substances, and to control the operation and operating time of the fixed separator, the polishing unit and the dust collector, to facilitate the test and to increase the accuracy.

In addition, the other side of the lifting link to which the sample portion is fixed, constitutes a protruding male screw, and an auxiliary weight assembled to the male screw, the magnet is moved up and down by a vertical cylinder, the vertical cylinder is a straight line It is configured to move horizontally by the conveying means, so that it is easy to adjust the variables such as the weight applied to the sample, the position and height of the sample falling.

As described above, the present invention includes: a sample unit in which a weight and a holder for fixing a sample to a bottom surface thereof are integrated; A fixed separator configured to include an elevating link for lifting and lowering the sample unit in a structure of a lever, an elevating cylinder for lifting and lowering the elevating link, and a magnet installed on the sample unit; The impact friction strength tester constituted by the polishing unit configured to rotate the polishing belt in the lower part of the weight is configured to impact friction between the sample and the polishing belt by the fixed separation unit, so that the impact friction test of the sample can be easily performed.

In addition, the polishing belt is assembled to a pair of pulleys, the one pulley is configured to rotate by a motor, the pulley on one side is configured to rotate while contacting the brush, the lower portion of the polishing belt constitutes a chamber In the chamber, a suction pipe, an inhaler, and a collecting container constitute a dust collecting unit sequentially, and the control unit for controlling the operation and operating time of the fixed separator, the grinding unit, and the dust collecting unit is generated by friction between the sample and the polishing belt. To facilitate the collection of foreign matters, and through the control of the operation and operating time of the fixed separator, the polishing unit and the dust collecting unit, the test is easy, and there is a high accuracy effect.

In addition, the other side of the lifting link to which the sample portion is fixed, constitutes a protruding male screw, and an auxiliary weight assembled to the male screw, the magnet is moved up and down by a vertical cylinder, the vertical cylinder is a straight line It is configured to move horizontally by the transfer means, it is easy to adjust the parameters such as the weight applied to the sample, the position and height of the sample falls.

1 is an overall front view of an impact friction strength tester according to the present invention.
Figure 2 is a front view of the main part of the impact friction strength tester according to the present invention.
Figure 3 is a side view of the impact friction strength tester according to the present invention.
Figure 4 is a front view showing a sample portion and a fixed separator according to the present invention and part enlarged view showing a structure in which the sample is mounted on the holder.
5 is a front view showing a vertical cylinder and a linear movement means for vertically and horizontally moving the magnet according to the present invention.
6 is a plan view of the impact friction strength tester according to the present invention.
7 is a plan view according to the polishing unit and the dust collecting unit of the present invention.
8 is an operational flowchart of an impact friction strength tester according to the present invention.
9 is a schematic of a major part of a wear device in accordance with British standards.

The present invention relates to an impact friction strength tester, comprising: a sample unit comprising a weight and a holder assembled / disassembled on a bottom thereof; A fixed separator configured to include an elevating link for lifting and lowering the sample unit in a structure of a lever, an elevating cylinder for lifting and lowering the elevating link, and a magnet installed on the sample unit; A polishing unit configured to rotate the polishing belt under the weight by a motor; A dust collecting unit for sucking foreign substances generated; An impact friction strength tester composed of a control unit for controlling the overall operation is constructed, the sample is mounted on the holder of the sample unit, the sample unit is attached by the magnet by a lifting cylinder, and then returned to its original position, and the polishing belt is set at the set speed. In the state of holding, the sample is dropped by the magnet off and the impact belt is rubbed on the polishing belt. After the set time, the lifting cylinder is lifted up immediately to check the wear of the sample. By applying various and accurate parameters such as the feed rate, the weight of the weight, and the friction time between the abrasive belt and the sample, it is possible to facilitate the impact friction test of fabrics, sheets, and the like.

The impact friction strength tester according to the present invention includes a sample part, a fixed separation part, a grinding part, a dust collecting part, and a control part.

First, the sample unit 10 is composed of a weight 11 and a holder 12, as shown in Figures 1 to 3, the weight 11 is composed of a metal mass having an appropriate weight, but in the shape of a cylinder It is preferable to form, the whole, or at least the upper end is preferably composed of a conductor, the lower end constitutes the assembling means for assembling with the holder 12 to be rearranged.

And holder 12, which can be fixed to the product having an area, such as woven fabric, non-woven fabrics, sheets of synthetic fibers, rubber, etc. at the bottom, the bottom has an area of the standard, the bottom edge is preferably rounded On the top, the assembly means for assembling with the weight (11).

In addition, as an assembly means of the weight 11 and the assembly means of the holder 12, an assembly structure and method that are not separated from impact and friction are applied. Examples of the assembly means include screwing, and for screwing, The lower end of the weight 11 and the upper end of the holder 12 are integrally formed with male and female screws, respectively, and the weight of the weight 11 and the holder 12 is preferably configured to a weight set according to the test standard. .

In addition, the fixed separation unit 20 serves to lift the sample unit 10 or to fix or drop the upper portion, and comprises an elevating link 21, an elevating cylinder 23, and a magnet 24. .

First, as shown in Figs. 2 and 6, the lifting link 21 is composed of a plurality of links 21a coupled to freely rotate with the weight 11 in order to lift the weight 11 in the structure of the lever. And a pivot (pivot) 21c at the position of the link 21a in consideration of the lifting height of the weight 11, and for a stable lifting of the weight 11 at a predetermined distance from the weight 11, A plurality of links 21a are coupled to both sides of the weight 11 up and down, and each link 21a is preferably connected by a support link 21b.

In addition, the other end of the link 21a coupled to the weight 11 constitutes a weight adjusting unit 22. As shown in FIG. 4, the weight adjusting unit 22 includes a protruding male screw 22a, Auxiliary weight 22c assembled to the external thread 22a and a plurality of nuts 22b for fixing the position of the assembled auxiliary weight 22c, which are assembled to the auxiliary weight 22c According to the weight of 11c), to configure the weight of the final sample unit 10.

As shown in Figs. 2 and 3, a lifting cylinder 23 is formed at an upper portion between the link of the lifting link 21 and the pivot 21c, and the link 21a is connected to the rod of the lifting cylinder 23. In order to configure the cross bar 23a for lifting the weight 11 in the state in which the weight 11 is not subjected to any force, there is no interference between the support and the link 21a, and in order to attach the magnet 24 to the magnet 24 placed behind the weight 11 by magnetic force. , The support lifts the link 21a by the operation of the lifting cylinder 23.

2 and 3, the magnet 24 is formed on the upper end of the weight 11, and when the magnet 24 is on, the magnet 11 is magnetically held or the magnet is held. When the 24 is off, the weight 11 is brought into close contact, so that the weight 11 is lifted by the lifting cylinder 23 so that the weight 11 can be magnetically attached to the magnet 24. It comes in contact with the magnet 24.

In addition, although the position of the magnet 24 may be fixed by one standard, as shown in FIG. 5, when the magnet 24 is configured to be elevated to the vertical cylinder 24a, The height can be adjusted, or the weight 11 can be easily disassembled and installed. In addition, if the magnet 24 is moved by the linear movement means 24b, the position of the magnet 24 can be changed. As shown in Figs. 5 and 6, the linear movement means 24b includes a linear cylinder 24b " for moving and returning the liner guide 24b 'and the liner guide 24b'. (For reference, the lifting cylinder, the vertical cylinder, and the straight cylinder are names for distinguishing each other, and all are configured with ordinary cylinders.)

Therefore, the magnet 24 is assembled to the rod of the vertical cylinder 24a, and the lifting and lowering is possible, and the linear cylinder 24b ″ is positioned by the linear movement means 24b constituted by the liner guider 24b '. Configure it so you can change it.

In addition, as the linear movement means 24b, a nut and a screw are coupled (not shown). (A nut and screw coupling is a combination using a conventional screw, a TM screw, a ball screw, a roller screw, and a nut corresponding to the screw. The screw can be configured by connecting a motor that can rotate, reverse rotation.

Thus, the fixed separation unit 20 is a lifting link 21 for freely lifting the weight 11 in a lever structure, the lifting cylinder 23 for lifting the lifting link 21, the lifting weight of the 11 It consists of the magnet 24 which fixes a position.

Next, the polishing unit 30 is configured to rotate the polishing belt 31 on the bottom surface of the sample unit 10, as shown in Figs. 2 and 7, but a pair of pulleys (below the weight 11) 32, 32 ', one pulley 32 is configured to rotate by the motor 33, and each of the pulleys 32, 32' is assembled with a polishing belt 31, Rotation by, and the pedestal 34 and the tensioner 35 is formed between the pulleys (32) (32 '), respectively, the pedestal 34 is located at a position immediately below the vertical portion of the sample portion 10, Positioned just below the side belt, the tensioner 35 generally applies the structure and method of a general tensioner 35 for belt replacement and tension adjustment.

As shown in FIG. 1, the dust collecting part 40 includes a chamber 41, a suction pipe 42, an inhaler 43, a brush 44, a container 45, and the like. And a chamber 41 on the lower side except the upper side of the polishing belt 31 and the brush 44, and the polishing belt 31 and the upper portion of the chamber are exposed. The lower side is to be accommodated in the chamber), the suction pipe 42 is connected to the chamber 41, the suction pipe 42 is the inhaler 43 (or a vacuum) and the container 45 This is connected in order, and it is comprised so that the dust and a foreign substance which generate | occur | produce in the chamber 41 collect by the inhaler 43 to the container 45. As shown in FIG.

First, the brush 44 (preferably, a cylindrical brush) has a structure (exactly, a brush) in contact with the outer periphery of the pulley 21 on the side surface of the pulley 32, as shown in FIG. It is preferable that the outer circumference of the contact with the surface of the polishing belt installed on the pulley), the brush 44 is rotated by the power of the pulley of the polishing unit 30 or the motor 33, or a separate independent motor. Although the rotational direction of the pulley 32 and the brush 44 is configured to rotate in an abutting direction, foreign matters generated in the polishing belt 31 (such as foreign substances generated while the sample and the polishing belt are in friction) are applied to the brush 44. Being removed, allowing it to fall to the bottom.

In addition, as shown in FIG. 1, the chamber 41 of the dust collecting part 40 accommodates all parts of the polishing part 30 except for the upper end of the polishing part 30, and further, the inhaler of the dust collecting part 40. 43 and the container 45 are configured to be accommodated in a separate storage case 46, and further, the upper portion of the chamber 41, that is, the sample portion 10 and the fixed separation unit 20 is made of a transparent material. The cover is configured to protect with a transparent case 60, but the sample unit 10, the front is configured to open and close the door 61, during the test, while minimizing external influences such as foreign matter input or environment, It is easy to identify the test procedure.

Lastly, as shown in FIGS. 1 and 7, the controller 50 controls the operations of the fixed separator 20, the polishing unit 30, and the dust collecting unit 40 to turn on / off the power. , Operation of the lifting cylinder 23, on / off of the magnet 24, operation of the polishing belt 31, feed speed (or rotational speed) of the polishing belt 31, speed of the motor 33, and dust collecting unit 40. In addition to controlling the operation and the like, as well as buttons such as an emergency stop, and when the test by the lifting cylinder 23, the magnet 24, the motor 33, and the dust collecting unit 40 in sequence, With regard to actuation and return time, it is possible to control the sequential control and the time (time interval) between the controls.

Thus, the sample part 10, the fixed separation unit 20, the polishing unit 30, the dust collecting unit 40, the control unit 50 is composed of an impact friction strength tester according to the present invention, the impact using the impact friction strength tester The friction test is described with reference to FIG. 8 as follows.

First, the holder 12 is removed from the weight 11, the sample 100 is fixed to the holder 12, and then assembled to the weight 11 again. When assembling the sample 100 to the holder 12, On the bottom of the holder 12, the protective material 101 and the sample 100 are sequentially covered, and the sample 100 is mounted by fixing the sample 100 around the side of the holder 12 with the fixing means 102. The protective material 101 uses a fabric having excellent durability and strength, and also a synthetic resin sheet, so that the sample 100 has an appropriate thickness depending on the environment in which the sample 100 is applied to the product. If used as a protective clothing, such as, considering the elasticity of the human skin, the protective material can be installed to have a relatively thick thickness, if the thickness of the protective material affects the height of the sample and the polishing belt, And considering the thickness of the sample, adjust the sample to the set height)

In addition, as the fixing means 102, straps, elastic rubber straps, rubber rings, other elastic straps, elastic rings, clips, and the like are used. Fixing the sample 100 to (12) is facilitated.

In addition, while the sample 100 is mounted, the polishing belt 31 is held in the polishing portion 30 in a tightly maintained state.

On the other hand, the control unit 50 sets the time interval at which the lifting cylinder 23 operation, the magnet 24 on / off, the feeding speed of the polishing belt 31 (rotating speed), and each other operation sequence are made, or in advance. Has a set state.

Thus, by the controller 50, the lifting cylinder 23 is operated in sequence, and the polishing belt 31 and the inhaler 43 of the dust collecting unit 40 are operated, but first, the operation of the lifting cylinder 23 and the magnet ( The weight 11 is lifted to the ON of the magnet 24 to be attached to the magnet 24, and then the rung 23a returns to its original position by the operation of the lifting cylinder 23.

 In addition, the polishing belt 31 starts its operation by the motor 33, reaches a set feed speed, and then rotates the polishing belt 31 while the sample portion 10 is separated by the magnet 24 being turned off. The sample 100 is rubbed with the polishing belt 31 along with the impact (impact by the weight and falling height and speed of the sample portion).

Therefore, the friction between the polishing belt 31 and the sample 100 is stopped by the crossbar 23a lifting the weight 11 by the operation of the lifting cylinder 23 after the set time passes, and the polishing belt 31 and the dust collecting part ( When the operation of 40) is stopped, the holder 12 is removed to check the worn state of the sample 100 to complete the test.

On the other hand, such a sequential test process proceeds sequentially, when the controller 50 inputs the time considering the time to reach the set speed of the polishing belt 31, each test process can be made sequentially according to the set time setting Or, if necessary, the operation of the polishing belt 31, the operation of the dust collector 40, the attachment of the sample portion 10 and the magnet 24, the assembled sample 100 for the test, etc. The process may proceed sequentially under the control of the controller 50.

However, from the moment when the weight 11 is separated from the magnet 24 by the magnet 24 being off, the time for the sample 100 to deviate from the polishing belt 31 by the lifting cylinder 23 is always set in advance. This is done automatically by time.

Therefore, the impact friction strength tester according to the present invention, since the dropping and lifting process of the sample portion 10 for the impact friction between the sample 100 and the polishing belt 31 automatically operates sequentially within a set time. In order to improve the accuracy of the impact friction test, and to facilitate the test process, the sample according to various variables may be changed by replacing the polishing belt 31, changing the weight of the sample part 10, and changing the height of the magnet 24. There is a characteristic that the impact friction test of 100 is possible.

For example, in order to vary the variable for the weight of the sample unit 10, there is a method of variously configuring the weight of the weight 11, or the auxiliary weight 11 to the male screw of the fixed separator 20. ), The weight variable of the sample unit 10 can be variously adjusted while assembling and disassembling. Also, even if a new test standard is generated as well as the existing test standard, the characteristics can be adjusted through the manipulation of the variable. In addition, the new test standard can be easily changed and applied to the impact friction test.

In addition, the sample 100 is easy to assemble and disassemble through the holder 12, the polishing belt 31 is easy to replace and replace through the tensioner 35, friction between the sample 100 and the polishing belt 31. Since foreign matter, dust, etc. generated by the brush 44 and the dust collecting part 40 are removed, the test environment is kept clean. Also, the position control of the sample part 10 and the fixed separating part 20 are performed. The operation and setting of the operation, operation of the polishing unit 30, operation of the dust collecting unit 40, and the like can be operated and set by the control unit 50, by using the impact friction tester according to the present invention, general fabrics, special The sample 100, such as a woven fabric, a nonwoven fabric, and various sheets, has the characteristics that an impact friction test is easy.

10: sample portion 11: weight
12: holder 20: fixed separator
21: lifting link 23: lifting cylinder
30: polishing part 31: polishing belt
32: motor 40: dust collector
43: Inhaler 44: Brush
50: control unit 100: sample

Claims (5)

delete A sample unit comprising a weight and a holder assembled / disassembled on the bottom thereof;
A fixed separator configured to include an elevating link for elevating and descending the sample unit in a structure of a lever, an elevating cylinder for lifting and lowering the elevating link, and a magnet installed on the sample unit;
The lower part of the weight is composed of a pair of pulleys are assembled to rotate the polishing belt, the one pulley is configured to rotate by a motor, the pulley on one side, the brush is configured to rotate while contacting, the sample portion The first polishing belt bottom of the vertical lower portion of the polishing portion constituting the base;
A dust collecting part configured to form a chamber under the polishing belt, and the suction pipe, an inhaler, and a collecting container sequentially formed in the chamber;
By constructing an impact friction strength tester composed of a control unit for controlling the operation and operation time of the fixed separator, the polishing unit and the dust collecting unit,
The sample is mounted on the holder, and the impact friction friction tester, characterized in that the sample is subjected to the impact friction friction belt to the abrasive belt, the impact friction test of the sample is easy, and the collection and testing of foreign matters.
The method of claim 2,
On the other side of the lifting link fixed to the sample portion,
Consists of a protruding male screw, and composed of an auxiliary weight assembled to the male screw,
Impact friction strength tester, characterized in that the weight applied to the sample side, according to the weight of the auxiliary weight is assembled.
The method of claim 3, wherein
The magnet,
Move up and down by vertical cylinder,
The vertical cylinder is impact friction strength tester, characterized in that configured to move horizontally by the linear transfer means.
The method according to any one of claims 2 to 4,
The chamber of the dust collecting part houses all the polishing parts except the upper side of the polishing part,
The inhaler and container of the dust collector are stored in a separate storage case.
The upper portion of the chamber is a transparent case of a transparent material to protect the sample portion and the fixed separator, the front of the sample portion is configured to open and close the door,
Impact friction strength tester, characterized in that it minimizes the external influence during the test process, easy to confirm the test process.

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