KR20200027810A - Friction test equipment - Google Patents

Abstract

The present invention relates to a friction test device which enables a friction test to be performed. According to the present invention, the friction test device comprises: upper and lower attaching plates (10, 20) attaching test objects to face each other; a lifting means lifting any one of the upper and lower attaching plates (10, 20) to allow the test objects to be in close contact; a pressure sensing means provided on the lifting means to recognize the contact pressure when the test objects are in close contact; a sliding means sliding any one of the upper and lower attaching plates (10, 20); and a rotating means rotating any one of the upper and lower attaching plates (10, 20). The friction test device attaches the test objects to opposite surfaces of the upper and lower attaching plates (10, 20), respectively, lifts any one of the upper and lower attaching plates (10, 20) to enable the test objects to be in close contact with each other at the proper pressure, and slides or rotates any one of the upper and lower attaching plates (10, 20) to perform a friction test.

Description

Friction test equipment

The present invention relates to a friction test apparatus that enables to perform a friction test.

When friction occurs between different materials, friction electricity can be produced by electrification through contact.

In general, the atoms that make up a substance are composed of neutrals having the same number of protons and electrons, but in some cases, the outer electrons, which have weak bonds with the atomic nucleus, are separated and have positive charges, or additionally separate electrons separated from other atoms Therefore, when two different materials come into contact with each other and cause friction, electrons fall from one material and move to another material due to different electron affinity, so both sides are charged with different polarities. .

The strength of triboelectricity or the polarity of electric charges generated due to friction varies depending on the type of material, surface roughness, temperature, strain, etc., and microscopically is a phenomenon of pulling each other between two materials made of different molecules. It appears as an (adhesion) phenomenon. When two different objects come into contact, electrons move from one side to the other in the same direction as the electrochemical potential, and electrostatic attraction occurs. This creates adhesion, and when the two attached objects are physically separated, the electrons generated between the two different materials are not reversible, so electrons on one side have more negative charges than protons, and electrons on the other side are more It is positively charged in a small state and generates friction electricity.

Such triboelectricity can save energy by producing auxiliary power by applying it to a component that can cause friction among components operated by power, and depending on the type of material or electric / electronic device that causes the triboelectricity Since the amount of electricity produced is different and varies according to the friction pressure and the distance, speed, and pattern between materials, it is necessary to find a material or an electric and electronic device necessary for efficient power generation through precise and accurate tests.

However, in the prior art, since there was no dedicated equipment for testing such triboelectricity, a precise and accurate test was not conducted.

For reference, the following prior art documents are listed as the 5 recent prior art documents searched for by using the keyword "friction electricity" as a keyword through the patent information net cypris, and the technical field related to the present invention with reference to the following prior art documents And background technology and its development status.

Disclosure / Registration: 1020180029019, 1020180087862, 1020170070813, 1020170062431, 1018702780000.

The present invention was developed to solve the conventional situation described in the background art, in particular, it is possible to implement a friction test, as well as the configuration of the device is simple, smooth operation, easy to manufacture, and intended to be convenient to use. There is an object of the present invention.

The present invention is a means for achieving the above-mentioned object, the upper and lower attachment plates that can be attached to the test object facing; Elevating means for elevating any one of the upper and lower attachment plates to allow the test object to be in close contact; Pressure sensing means provided on the lifting means to recognize the contact pressure when the test object is in close contact; Sliding means for sliding any one of the upper and lower attachment plates; It is made of a friction test apparatus comprising a; rotating means for allowing any one of the upper and lower attachment plate to rotate,

The friction test apparatus attaches each test object to the opposite surfaces of the upper and lower attachment plates, then lifts one of the upper and lower attachment plates to bring the test objects into close contact with each other at an appropriate pressure, and then selects one of the upper and lower attachment plates. We propose a means to perform the friction test in a sliding or rotating manner.

According to the means of the present invention, different test objects can be attached to each other by the upper and lower attachment plates, the test objects facing each other by the lifting means can be in close contact with each other, and the contact of the test objects by pressure sensing means Since the pressure can be adjusted and the test object can be repeatedly operated with sliding pressure and rotating means in close contact with each other at an appropriate pressure, friction and rotation friction can be repeatedly performed. By lifting, rotating, and sliding one or the other, the configuration of the device can be simplified, the operation can be smoothly performed, and the manufacturing of the device is easy, and the use is convenient.

1 is a perspective view of the present invention
Figure 2 is a perspective view of the present invention seen from another direction
Figure 3 is an exploded perspective view of the present invention
Figure 4 is an exploded perspective view of the present invention viewed from another direction
Figure 5 is a partial cross-sectional view of the present invention from the front
Figure 6 is a partial cross-sectional view of the present invention from the side
Figure 7 is an external view of the present invention in plan view

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings may be exaggerated, omitted, or schematically illustrated for convenience of explanation regarding the main parts, and terms and names used in the description are implicitly defined by the shape, operation, or role of the configuration rather than the dictionary meaning. It can be made, the description of the direction is determined based on the direction first presented from the first presented drawing, the description of the position is determined inside and outside based on the center of the middle or circle of each configuration. In addition, the detailed description of the pre-registered known technology and the conventional technology may obscure the subject matter and may be omitted or replaced with a simple code or name. In addition, the detailed structure, shape, shape, arrangement, size, etc. of the configuration identifiable through the drawings, the operation of the configuration inferred through the drawings, and the operational effects thereof may be obscured, and thus detailed descriptions will be omitted. Bolts, welds, holes, etc. applied for joining between constructions may obscure the subject matter and may be omitted from the drawings, unless the shape of the construction is specifically specified, the shape of the plane is circular or square In this case, the plan view may be omitted.

Below, Fig. 1  Referring to the present invention with reference to the following.

As shown, the present invention in order to specifically achieve the solution of the problem, the base 30; An inclined block 40 which is installed to be transported from side to side to the left and right of the base 30, and has an inclined surface with an inclined surface at one side; The inclined surface corresponding to the inclined surface of the inclined block 40 is formed on the lower surface, the elevating block 41 is installed to be vertically elevated according to the left and right transfer of the inclined block 40; A load cell 50 mounted on an upper surface of the elevating block 41; A mounting plate 60 mounted to be mounted from the load cell 50; A rotating shaft 70 protruding upward from the mounting plate 60 and installed to rotate; A lower attachment plate 10 mounted on an upper end of the rotating shaft 70 and allowing a test object to be attached to the upper surface; A slide plate 80 mounted between the upper ends of both side supports GG on one side of the base 30; A slide head (90) installed to be transported from side to side from the top surface of the slide plate (80); It is mounted on the bottom surface of the end of the slide head 90, the upper attachment plate 20 to be able to attach the test object to the bottom surface; may be made of.

Hereinafter, the operation method of the above-described configuration will be described.

As shown in the figure, the test plate is attached to the upper and lower mounting plates 10 and 20 so as to face each test object, and then the lower mounting plate 10 is attached to the upper mounting plate (by lifting / lowering the lifting block 41 by the inclined block 40) After being in close contact with 20), the contact pressure of the test object is adjusted by the load cell 50, and then the upper and lower attachment plates 10 and 20 are maintained by the slide head 90 while maintaining the proper contact pressure. The friction test may be performed by repeatedly transporting the attachment plate 20 from side to side or rotating the lower attachment plate 10 by the rotating shaft 70.

Hereinafter, the relationship between the above-described configuration and the solution of the problem will be described.

As shown in the drawing, the lifting means described in the solving means of the problem is made of an operation in which the lifting block 41 vertically moves up and down by the left and right transfer operation of the illustrated inclined block 40, and the pressure sensing means is the illustrated lifting block ( 42) is made of a load cell (50) installed between the mounting plate (60), the sliding means is composed of a slide head (90) transferred from side to side from the shown slide plate (80), and the rotating means is shown It consists of a rotating shaft (70) rotating from the plate (60).

Hereinafter, a specific configuration of the above-described means will be described.

As shown, the left and right transport of the inclined block 40 is an EL guide (LM) installed between the upper surface of the base 30 and the lower surface of the inclined block 40; Supports (GG) installed on both ends of the inclined block 40 in the transport direction; A ball screw (BS) installed to connect the center of the inclined block (40) from between the both end supports (GG); The ball screw (BS) to rotate the motor (M); consists of, the above-described configuration is a ball screw (BS) is rotated by the motor (M), the ball screw (BS) by rotation of the EL guide ( It may be made of a configuration in which the inclined block 40 is transferred to the left and right along the LM).

As shown, the elevating of the elevating block 41 is an EL guide (LM) installed between the upper surface of the inclined block 40 and the lower surface of the elevating block 41; Consisting of one side of the lifting block 41 and the EL guide (LM) installed between the one side support (GG); consists of, the above-described configuration, when the inclined block 40 is transferred to the left and right, the inclined block 40 ) Along the vertical surface of the inclined surface and the support (GG) can be made of a configuration that vertically elevates by the EL guide (LM).

As shown, the mounting of the load cell 50 is fixed to one end of the load cell 50 on the upper surface of the elevating block 41, between the other end of the upper surface of the load cell 50 and the bottom surface of the mounting plate 60. The support 61 is coupled to be supported, the configuration can be made of a configuration in which four are arranged at equal intervals on the bottom surface of the mounting plate 60 on a plane.

As shown, the transfer of the slide head 90 is an EL guide (LM) installed between the top surface of the slide plate 80 and one side bottom surface of the slide head 90; Timing pulley (TP) provided on both ends of the L guide (LM); A timing belt (TV) connected between the timing pulleys (TP) of both ends; A clamping plate 91 that fixes one side of the center upper surface of the timing belt TV to the upper side of one side of the slide head 90; It consists of a motor (M) to rotate any one of the timing pulley (TP) of both ends; the above-described configuration is rotated by the motor (M) the timing pulley (TP), the rotation of the timing pulley (TP) In accordance with the timing belt (TV) is transferred, the slide head 90 fixed to the timing belt (TV) according to the transfer of the timing belt (TV) can be made of a configuration to be moved to the left and right along the L guide (LM). .

As shown, the rotating shaft 70 is rotatably mounted by the bearing unit BU from the upper surface of the mounting plate 60, and the rotation of the rotating shaft 70 is the bottom rotating shaft 70 of the mounting plate 60 Consisting of a timing belt (TV) connected between the end of the end and the timing pulley (TP) of the motor (M) is installed connected by a support (GG) from one side of the lifting block 41; The timing pulley TP and the timing belt TV are rotated by the silver motor M, so that the rotating shaft 70 is rotated.

Hereinafter, a configuration not shown is as follows.

Although not shown, a test object is attached to the surface of the upper and lower mounting plates 10 and 20, and the attachment method can be attached by adhesive or the like, or by providing a clamp on the side of the upper and lower mounting plates 10 and 20. The end of the test object can be fixed by clamping.

Although not shown, a terminal block for outputting triboelectricity of the test object is provided around the upper and lower attachment plates 10 and 20, and the terminal block can be analyzed by being connected to a system for controlling the device of the present invention. .

Although not shown, the load cell 50 is also connected to a system for controlling the device of the present invention, the contact pressure is displayed on the monitor, and the proper pressure is maintained by adjusting the lifting of the elevating block 41 according to the contact pressure, The change in pressure can be tested in various ways.

Hereinafter, the effects of the above-described configuration will be described.

As shown, the above-described configuration has an effect of achieving the effect described in the effect of the invention.

That is, different test objects can be attached to each other by the upper and lower attachment plates 10 and 20, and test objects that are faced by the lifting means can be closely adhered to each other. The contact pressure can be adjusted and the sliding and rotating friction can be repeatedly performed in a state in which the test object is brought into close contact with the appropriate pressure by the sliding means and the rotating means. By lifting, rotating, and sliding any one of (10, 20), the configuration of the device can be simplified, and the operation can be smoothly performed, thereby making the device easy to manufacture and convenient to use. .

In particular, in the above-described configuration, the elevating means that the elevating block 41 elevates by the transfer of the inclined block 40 decelerates the conveyance amount of the inclined block 40 in half by combining the inclined surfaces to elevate the elevating block 41. Since it can be done, it has the effect of achieving precise ascent without mobilizing expensive parts or equipment.

In addition, the volume of the inclined block 40 and the elevating block 41 has an effect to catch vibrations, vibrations, etc. of the gas, which may occur during the test operation of the upper and lower attachment plates 10, 20 due to the load. have.

In addition, the conveying means of the inclined block 40 and the elevating block 41 operated by a combination of a motor (M), a ball screw (BS), and an L-M guide (LM) ensures precise, rapid, and smooth conveyance. Of course, there is an effect of easy air transport of parts, convenient installation and assembly, low cost, and easy use and maintenance.

In addition, the mounting means of the load cell 50 has the effect of allowing the upper and lower mounting plates 10 and 20 to be sensitively transmitted to the contact pressure.

In addition, the sliding means of the slide head 90 that slides in accordance with the transfer of the timing belt TV by the EL guide LM according to the driving of the motor M is advantageous for rapid transfer and parallel maintenance during transfer. Left and right switching has an advantageous effect.

In addition, the sliding means of the slide head 90 operated by a combination of a motor (M), an L-M guide (LM), and a timing belt (TV) can guarantee precise, rapid, and smooth conveyance, as well as during conveyance. Parallel maintenance is advantageous, repetitive left and right switching is advantageous, and as described above, it is easy to install and assemble parts, is easy to install and assemble, is inexpensive, and is easy to use and maintain.

In addition, the means for sliding only the upper attachment plate 20 while fixing the lower attachment plate 10 is maintained parallel to the lower attachment plate 10 by the weight by the volume of the inclined block 40 and the elevating block 41. The collateral transfer of the upper attachment plate 20 is secured.

In addition, the rotating means of the rotating shaft 70 rotating by the combination of the motor M, the timing pulley TP, the timing belt TV, and the bearing unit BU ensures high-speed rotation and smooth rotation of the rotating shaft 70. Of course, it is advantageous that it is possible to repeatedly switch left and right as described above, it is easy to carry parts, easy to install and assemble, inexpensive, and easy to use and maintain.

Hereinafter, the application of the above-described configuration will be described.

Although not shown, the post 61 receiving the load cell 50 may be made of a joint-shaped post 61 whose length is stretched by an intermediate nut adjustment.

In this way, when the pressure applied to each load cell 50 has a deviation, the parallel of the lower attachment plate 10 can be adjusted to have an equal pressure, thereby making it possible to perform a more precise test.

The detailed configuration not described above, the coupling relationship of the configuration, the operation according to the coupling relationship, and the effect of the operation are expected to be inferred through the drawings, and thus a detailed description is omitted.

As described above, after completing the description of the present invention , the present invention is intended to help the understanding of the principles of the configuration and the principles to be pursued in the present invention, and drawings of the components of the present invention and the specific components included in the configuration Based on the description, the structure included in the present invention and its specific components are determined in consideration of the principle to be pursued, and the structure, shape, shape, arrangement, direction, and quantity are determined and can be variously changed as necessary. There will be. The configuration and its specific components presented in the present invention exemplify the effect that the person skilled in the art wants to obtain in the present invention and which principle is most desirable to obtain a better effect from the effect. It is done. Accordingly, the present invention is most preferable to complete the present invention including all of the above-described configurations, but can be completed by selecting or excluding some of the above-described configurations according to cost reduction, convenience of manufacturing, environmental conditions, or needs. , One or a part of the components can be removed separately and merged with other components to complete. In addition, each configuration described above may be applied independently to other technical fields other than this technical field in consideration of principles, uses, functions, roles, actions, effects, and the like. Based on this, the scope of rights of the present invention is specified as a range that covers the claims of the present invention as much as possible, and claims are determined in order from the claims with wide rights. Through a specific content and the claims to be described below, it seems that the subject matter to be pursued in the present invention can be sufficiently grasped, and the effect of the illustrated but not described parts can be sufficiently inferred through the drawings. Accordingly, a person skilled in the art will be able to apply various modifications and changes in the technical field based on the contents mentioned in the present invention, and as a result, it will be possible to further increase the efficiency in use as well as the development of the technical field.

10: lower mounting plate 20: upper mounting plate
30: base 40: slope block
41: lifting block 60: load cell
70: mounting plate 80: slide plate
90: slide head

Claims (3)

Up and down mounting plate (10,20) to allow the test object to be attached facing each other; Elevating means for elevating any one of the upper and lower attachment plates 10 and 20 to allow the test object to be in close contact; Pressure sensing means provided on the lifting means to recognize the contact pressure when the test object is in close contact; Sliding means for sliding any of the upper and lower attachment plates (10, 20); It is made of a friction test apparatus comprising; a rotating means for allowing to rotate any one of the upper and lower attachment plate (10,20),
In the friction test apparatus, test objects are attached to opposite surfaces of the upper and lower attaching plates 10 and 20, and then any one of the upper and lower attaching plates 10 and 20 is lifted so that the test objects are in close contact with each other at an appropriate pressure. After, the friction test device characterized in that the friction test is performed by sliding or rotating any one of the upper and lower attachment plates (10, 20).
The method according to claim 1,
The friction test apparatus includes a base 30; An inclined block 40 which is installed to be transported from side to side to the left and right of the base 30, and has an inclined surface whose upper surface is inclined to one side; The inclined surface corresponding to the inclined surface of the inclined block 40 is formed on the lower surface, the elevating block 41 is installed to be vertically elevated according to the left and right transfer of the inclined block 40; A load cell 50 mounted on an upper surface of the elevating block 41; A mounting plate 60 mounted to be mounted from the load cell 50; A rotating shaft 70 protruding upward from the mounting plate 60 and installed to rotate; A lower attachment plate 10 mounted on an upper end of the rotating shaft 70 and allowing a test object to be attached to the upper surface; A slide plate 80 mounted between the upper ends of both side supports GG on one side of the base 30; A slide head (90) installed to be transported from side to side from the top surface of the slide plate (80); It is mounted on the bottom surface of the end of the slide head 90, the upper attachment plate 20 to be able to attach the test object to the bottom surface; consisting of,
The friction test apparatus is attached to the upper and lower mounting plates 10 and 20 so as to face the test object, and then the lower mounting plate 10 is mounted on the upper mounting plate by lifting / lowering the lifting block 41 by the inclined block 40. After being in close contact with 20), the contact pressure of the test object is adjusted by the load cell 50, and then the upper and lower attachment plates 10 and 20 are maintained by the slide head 90 while maintaining the proper contact pressure. Friction test apparatus characterized in that the friction test is carried out by repeatedly transporting the attachment plate 20 from side to side or rotating the lower attachment plate 10 by the rotating shaft 70.
The method according to claim 2,
The left and right transfer of the inclined block 40 is an L-M guide (LM) installed between the upper surface of the base 30 and the lower surface of the inclined block 40; Supports (GG) installed on both ends of the inclined block 40 in the transport direction; A ball screw (BS) installed to connect the center of the inclined block (40) from between the both end supports (GG); The ball screw (BS) to rotate the motor (M); consists of, the above-described configuration is a ball screw (BS) is rotated by the motor (M), the ball screw (BS) by rotation of the EL guide ( LM) is made of a configuration in which the inclined block 40 is transferred from side to side;
The elevating of the elevating block 41 is the EL guide (LM) installed between the upper surface of the inclined block 40 and the lower surface of the elevating block 41; Consisting of one side of the lifting block 41 and the EL guide (LM) installed between the one side support (GG); consists of, the above-described configuration, when the inclined block 40 is transferred to the left and right, the inclined block 40 ) Along the vertical surface of the inclined surface and the support (GG) is made of a configuration that vertically elevates by the EL guide (LM);
Mounting of the load cell 50 is fixed to one end of the load cell 50 on the upper surface of the elevating block 41, and a support 61 is provided between the other end of the upper surface of the load cell 50 and the bottom surface of the mounting plate 60. It is coupled to be supported, the configuration consists of a configuration in which four are arranged at equal intervals on the bottom surface of the mounting plate 60 on a flat surface;
The transfer of the slide head 90 is the EL guide (LM) installed between the top surface of the slide plate 80 and one side bottom surface of the slide head 90; Timing pulley (TP) provided on both ends of the L guide (LM); A timing belt (TV) connected between the timing pulleys (TP) of both ends; A clamping plate 91 that fixes one side of the center upper surface of the timing belt TV to the upper side of one side of the slide head 90; It consists of a motor (M) to rotate any one of the timing pulley (TP) of both ends; the above-described configuration is rotated by the motor (M) the timing pulley (TP), the rotation of the timing pulley (TP) In accordance with the timing belt (TV) is transported, the slide head 90 fixed to the timing belt (TV) in accordance with the transport of the timing belt (TV) consists of a configuration that is transferred to the left and right along the L guide (LM);
The rotating shaft 70 is rotatably mounted by the bearing unit BU from the upper surface of the mounting plate 60, and the rotation of the rotating shaft 70 is elevated with the end of the bottom rotating shaft 70 of the mounting plate 60. It consists of a timing belt (TV) connected between the timing pulley (TP) of the motor (M) is installed connected by a support (GG) from one side of the block 41, the above-described configuration is the motor (M) The timing pulley (TP) and the timing belt (TV) is rotated by rotating the shaft 70 is made of a configuration consisting of; friction test apparatus characterized in that.

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