KR20230037074A - Tire tread measuring equipment and Sidewall inspection equipment of handy type - Google Patents

Abstract

Disclosed are a device for measuring handy type tire wear, and a device for diagnosing a tire state. The present invention relates to handy type equipment for measuring and diagnosing which can be held on an upper surface of a vehicle tire while entering a narrow space between a tire house and a tire which is a portion of a vehicle panel without using a structure on which the vehicle tire is placed, thereby easily measuring a wear state of the vehicle tire while the vehicle is stopped regardless of a place and diagnosing the vehicle tire state.

Description

Handy type tire wear measurement and tire condition diagnosis device {Tire tread measuring equipment and Sidewall inspection equipment of handy type}

The present invention relates to an apparatus for measuring tire wear and diagnosing tire condition, and more particularly, by means of a handy-type measuring and diagnosing device mounted on a vehicle tire without a structure on which the vehicle tire is raised, measuring the tire wear condition of a stopped vehicle and , It relates to a handy-type tire wear measurement and tire condition diagnosis device that enables diagnosis of vehicle tire conditions.

Vehicles, which are an indispensable means of transportation in modern society, are equipped with tires. Vehicle safety is an important factor in the health of tires, and the year of production and wear of tires directly affect safety, so tire wear is legally regulated as 1.6mm or more (Article 12 of the Automobile Management Act).

Accordingly, conventionally, the vehicle inspection system as in Registered Patent Publication No. 10-1325089 is used, but the registered patent publication is of a fixed type, which measures tire abrasion and diagnoses tire conditions by moving the vehicle. Measurement and diagnosis have limited and complicated problems.

Accordingly, conventionally, for a simple inspection, the tire wear condition is measured and the tire condition is inspected by a sensory test/gauge 300 or a coin as shown in FIG. 1 attached, but the measurement is inaccurate and depends on the inspector's subjective judgment. often did.

Accordingly, in the past, handy-type measuring equipment has been commercially available to more accurately measure tire wear condition measurement and tire condition diagnosis by replacing the sensory test/gauge 300 as described above. In the gap between the tire house (eg vehicle panel) and the tire, it was difficult to enter.

Accordingly, conventional handheld measuring devices often applied a measuring method of entering the measuring device in the direction of the bottom of the tire in a stopped vehicle, but this also made the positioning of the tire tread difficult to accurately perform, which also made it difficult for the inspector to Therefore, it is inevitable to acquire inaccurate data related to tire wear by relying on the subjective judgment of the driver.

In addition, the tire wear pattern varies depending on the driver's habit and vehicle condition. The handheld measuring equipment described above measures only the depth of a single point in the tire valley, making it difficult to accurately determine the tire condition or driver's habit.

In addition, among the handheld measuring equipment currently on the market, there is a method of scanning the tire tread while pushing, but this scan method is inconvenient to scan and measure because it is difficult to enter between the tire house and the tire with a narrow gap while the vehicle is stopped. However, since accurate data could not be obtained, the use could not be guaranteed.

On the other hand, as a result of a survey of vehicle drivers by the Korea Consumer Agency, vehicles with insufficient air pressure reached 64.6% and vehicles equipped with defective tires reached 32.8%. Drivers who are aware of tire inspection, replacement timing, and proper air pressure are less likely to install defective tires and under-inflated tires than drivers who are not aware of the proper tire pressure. It is necessary, but it is not possible to acquire objective data due to the absence of tire wear measurement equipment, so the existing sensory tests or inaccurate data are not convincing.

Accordingly, the applicant of the present application filed a "tire wear measurement and tire condition diagnosis device", which is a fixed structure on which a vehicle tire is raised, as Patent Application No. 10-2021-0051575 (filing date 2021.04.21.), and the present invention relates to the prior application of the present applicant. It is an improved version of the patent.

Publication No. 10-1995-0019685 (published on July 24, 1995) Publicated Utility Model Publication No. 20-1998-0048772 (published on September 25, 1998) Registered Patent Publication No. 10-0224506 (published on October 15, 1999) Registered Patent Publication No. 10-0476548 (Announcement Date 2005.03.17.) Publication No. 10-2013-0072774 (published on July 2, 2013) Registered Patent Publication No. 10-2039267 (Announcement Date 2019.10.31.) Registered Patent Publication No. 10-1325089 (Announcement Date 2013.11.20.)

The problem to be solved by the present invention is to configure a handy-type equipment that can be mounted on the upper surface of a vehicle tire without using a structure on which the vehicle tire is raised, so that the wear state of the vehicle tire can be easily measured and the state of the vehicle tire can be diagnosed It is intended to provide a handy type tire wear measurement and tire condition diagnosis device.

Another problem to be solved by the present invention is to measure the wear condition of each tire in a state where the vehicle is stopped through a handy-type measuring and diagnostic device capable of entering the narrow space between the tire house and the tire, which is a part of the vehicle panel, as well as An object of the present invention is to provide a handheld tire wear measurement and tire condition diagnosis device capable of diagnosing tire conditions.

The handheld tire wear measurement and tire condition diagnosis device, which is a means for solving the problems of the present invention, is mounted on the upper surface of the tire while entering a narrow space between the upper surface of the tire and the tire house, which is a part of the vehicle panel, and the width of the tire at the other end of the bottom surface a diagnostic body in which a measurement outlet opening in a direction is formed; It is formed at one end opposite to the measurement outlet inside the diagnosis body, and a laser light source is applied to the upper surface of the tire through the measurement outlet so that a light source reference line for measuring wear and diagnosing the condition of the tire is formed in the width direction of the tire. A light source module to irradiate; a camera module formed at one end opposite to the measurement outlet inside the diagnosis body and capturing an image of the light source reference line formed in the width direction on the upper surface of the tire according to the laser light source irradiated by the light source module; a reflector for guiding a laser light source irradiated from the light source module and a photographing angle of the camera module to the measurement outlet; And, a control module for controlling driving of the light source module and the camera module; is to include

In addition, a tire position setting unit is formed in the diagnosis body to output a measurement position signal for the tire to the control module.

The tire position setting unit may include a first button for transmitting a measurement position signal for a front left tire of the vehicle; a second button for transmitting a measurement position signal for a front right tire of the vehicle; a third button for transmitting a measurement position signal for a rear left tire of the vehicle; and a fourth button for transmitting a measurement position signal for a rear right tire of the vehicle. is to include

In addition, the diagnostic body includes: a first body formed at a height capable of entering a narrow space between the tire house, which is a part of a vehicle panel, and the upper surface of the tire, and mounted on the upper surface of the tire in the width direction, the upper part of which is opened; and a second body that adheres to the side surface of the tire while covering the open upper portion of the first body. It is made of a coupling structure, the measurement outlet having a length corresponding to the width direction length of the tire is formed at one end of the bottom surface of the first body, and a transparent plate is formed in the measurement outlet.

In addition, contact protrusions are formed at both ends of the first body to support the mounting state of the first body by contacting each other in a width direction from both ends of the upper surface of the tire.

In addition, the second body may include a horizontal plate covering the open top of the first body; and a vertical plate extending from the horizontal plate and closely attached to the side surface of the tire. Including, the handle is formed extending to the vertical plate.

In addition, a power button electrically connected to the control module, a control unit, and the tire positioning unit are formed on the horizontal board.

In addition, the control unit includes at least one or at least one button for outputting a signal for adjusting the output level of the laser light source of the light source module to the control module.

In addition, a touch screen panel is formed on the horizontal plate instead of the operation unit and the tire positioning unit, and the operation unit and the tire positioning unit are displayed on the touch screen panel when the power button is switched on.

In addition, a power terminal is formed in the diagnosis body, and a driving power supply cable is connected to the power terminal, and supply of driving power is controlled by the control module.

In addition, a wireless charging port and a battery for charging and discharging electrically connected thereto to supply driving power are formed in the diagnosis body, and the battery is charged through the wireless charging port.

In addition, the light source module is installed and fixed at an angle so as to irradiate a laser light source toward a first direction opposite to the measurement outlet at one end of the inside of the diagnosis body.

In addition, the camera module is a stage disposed at the center of one end of the inside of the diagnosis body, and the photographing angle is set vertically in a second direction opposite to the first direction in which the measurement outlet is located at the center of one end of the inside of the diagnosis body. It will be installed and fixed.

In addition, the plurality of camera modules are arranged side by side on both sides of the inner end of the diagnosis body, and the camera module has a photographing angle in a second direction opposite to the first direction at both sides of the inner end of the diagnosis body in which the measurement outlet is located. It is installed and fixed vertically so that is set.

In addition, the reflector includes at least one laser reflector and one camera reflector.

In addition, the camera reflector is a mirror structure that is installed and fixed at an angle to the other inner end of the diagnosis body and guides the photographing angle of the camera module toward the upper surface of the tire through the measurement outlet.

In addition, the length of the camera reflector is formed to be equal to or longer than the length of the measurement outlet.

In addition, the laser reflector may include: a first mirror that is vertically installed and fixed to one end of the inside of the diagnosis body and primarily reflects the laser light source irradiated by the light source module; a second mirror installed and fixed horizontally on an inner upper surface of the diagnosis body and secondarily reflecting a laser light source primarily reflected through the first mirror to the other inner end of the diagnosis body; and a third mirror installed and fixed at an angle to the other inner end of the diagnosis body and thirdly reflecting the laser light source secondarily reflected through the second mirror in the width direction of the upper surface of the tire through the measurement outlet. is to include

In addition, a level sensor is formed in the diagnosis body to sense a horizontal state of the diagnosis body mounted on the upper surface of the tire and output the result to the control module.

In addition, an alarm sound output unit is formed in the diagnosis body to output an alarm signal under the control of the control module when the level sensor detects that the diagnosis body is not level.

In addition, the control module is built into the diagnosis body,

An analysis program for determining the degree of wear by calculating the depth for each tire trough from the image information of the tire with irregularities in the portion where the light source reference line is formed, which is photographed by the camera module while controlling the driving of the light source module and the camera module. onboard controller; and,

a transceiver for transmitting tire image information of a reference line of a light source captured by the camera module under the control of the controller and information for determining a degree of wear of a tire by the controller; is to include

In addition, the control module includes a controller embedded in the diagnosis body, and the diagnosis body includes an external transceiver for transmitting tire image information of a light source reference line captured by the camera module under the control of the built-in controller. Connected by a transmission cable, the external transceiver has a wired or wireless calculation device equipped with an analysis program that determines the degree of wear by calculating the depth of each tire trough from the image information of the tire with irregularities at the part where the light source reference line is formed. will be connected by communication.

In addition, the tire image information of the light source reference line includes tire position information set by the tire position setting unit under the control of the controller.

In addition, the analysis program determines whether there is a stone or foreign substance in each tire valley by comparing and evaluating the calculation value of the light source reference line portion, excluding the analysis value of the part with stone or foreign substance, and determining whether there is a stone or foreign substance in the part It is to measure tire wear and diagnose tire conditions for each tire location information through analysis values.

In addition, the analysis program generates calculated data and notification information organized on the basis of the calculated data, and transmits the calculated data and generated notification information to a measurement practitioner or a monitor for a customer through wired or wireless communication. is to do

In addition, the analysis program generates calculated data and notification information organized on the basis of the calculated data, and transmits the calculated data and generated notification information to the touch screen panel.

As described above, the handy-type tire wear measurement and tire condition diagnosis apparatus according to the present invention does not use a structure on which a vehicle tire is raised, and measures a handy-type device that can be mounted on the upper surface of a vehicle tire while entering a narrow space between the tire house and the tire, which is a part of the vehicle panel. and diagnostic equipment, through which the wear state of the vehicle tire can be easily measured in a state where the vehicle is stopped regardless of location, as well as the state of the vehicle tire can be diagnosed, and the following effects can be expected.

First, it is possible to measure by excluding stones or foreign substances embedded in the tire, and it is possible to measure a certain point regardless of the tire size and tire width. Since it is possible to measure while excluding the occurrence of tread shadows, it is possible to obtain reliable tire wear data.

Second, it is possible to photograph the tire surface using a camera module for both tire wear and condition diagnosis in a narrow space without a separate camera module for obtaining tire surface images.

Third, by calculating one reference line image, the shape and location of tire abrasion caused by causes such as driver's habit, under or over air pressure, and wheel alignment can be quickly determined.

Fourth, without relying on the subjective judgment of the inspector, reliable and objective tire wear data acquisition, tire surface image acquisition, and tire wear position and wear diagnosis are now possible. As the state of the vehicle can be diagnosed, it is possible to induce a change in the driver's perception, and through this, it is possible to prevent an automobile accident caused by a tire.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a view showing a method of inspecting a tire using a conventional gauge;
2 is a schematic block diagram of a handy type tire wear measurement and tire condition diagnosis device according to an embodiment of the present invention.
3 is a perspective view of a handheld tire wear measuring and tire condition diagnosing apparatus as viewed from above according to an embodiment of the present invention.
4 is a perspective view of a handheld tire wear measuring and tire condition diagnosing device according to an embodiment of the present invention viewed from the bottom direction;
5 is a schematic side view of a handheld tire wear measurement and tire condition diagnosis device according to an embodiment of the present invention.
6 is a planar perspective view of a handy type tire wear measuring and tire condition diagnosing device to which one camera module is applied according to an embodiment of the present invention.
7 is a planar perspective view of a handy type tire wear measuring and tire condition diagnosing device to which a plurality of camera modules are applied according to an embodiment of the present invention.
8 is a cross-sectional view along line AA of FIG. 3 showing a state in which an embodiment of the present invention is mounted on an upper surface of a vehicle tire in a width direction;
9 is a schematic side view showing a state in which a handy type tire wear measurement and tire condition diagnosis device is mounted on a tire according to an embodiment of the present invention.
10 is a front schematic view showing a state in which a handy-type tire wear measurement and tire condition diagnosis device is mounted on a tire according to an embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, in the embodiments of the technical idea of the present invention, it is not limited to the embodiments disclosed below, and may be implemented in various different forms, but only the present embodiments make the disclosure of the present invention complete, and the technology to which the present invention belongs It is provided to completely inform those skilled in the art of the scope of the invention, and is only defined by the scope of the claims in the embodiments of the technical idea of the present invention.

Terminology used herein is for describing the embodiments and is not intended to limit the present invention. In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase.

In this specification, terms such as "comprise" or "having" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

In addition, the embodiments described in this specification will be described with reference to cross-sectional views and/or plan views, which are ideal exemplary views of the present invention. Therefore, embodiments of the present invention are not limited to the specific forms shown, but also include changes in necessary forms. For example, a region shown at right angles may be rounded or have a predetermined curvature. Accordingly, the regions illustrated in the drawings have schematic properties, and the shapes of the regions illustrated in the drawings are intended to illustrate a specific shape of the region of the device and are not intended to limit the scope of the invention.

Like reference numbers designate like elements throughout the specification. Accordingly, the same reference numerals or similar reference numerals may be described with reference to other drawings, even if not mentioned or described in the drawings. Also, even if reference numerals are not indicated, description may be made with reference to other drawings.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a schematic block configuration diagram of a handy-type tire wear measurement and tire condition diagnosis device according to an embodiment of the present invention, and FIG. 3 is a handy-type tire wear measurement and tire condition diagnosis device according to an embodiment of the present invention viewed from the top. Figure 4 is a perspective view of a handy-type tire wear measurement and tire condition diagnosis device as viewed from the bottom direction according to an embodiment of the present invention, Figure 5 is a handy type tire wear measurement and tire condition diagnosis device according to an embodiment of the present invention It shows a schematic side view of.

6 is a planar perspective state diagram of a handy type tire wear measurement and tire condition diagnosis device to which one camera module is applied according to an embodiment of the present invention, and FIG. 7 is a handy type tire wear measurement and a plurality of camera modules applied according to an embodiment of the present invention 8 is a cross-sectional view taken along line A-A of FIG. 3 showing a state in which a tire condition diagnosis device is mounted in the width direction on an upper surface of a vehicle tire according to an embodiment of the present invention, and FIG. 9 is a handy type according to an embodiment of the present invention. A schematic side view showing a state in which a tire wear measurement and tire condition diagnosis device is mounted on a tire, and FIG. 10 is a front schematic view showing a state in which a handy type tire wear measurement and tire condition diagnosis device is mounted on a tire according to an embodiment of the present invention. it did

2 to 10, a handy-type tire wear measurement and tire condition diagnosis device according to an embodiment of the present invention is a measurement practitioner after parking or stopping a vehicle at an automobile inspection site, a tire shop, a car center, or a gas station. Alternatively, it can be easily used by anyone, such as a vehicle driver, and includes a diagnosis body 10, a light source module 20, a camera module 30 and / or 30 ', a reflector 40, and a control module 50, and / Alternatively, a tire position setting unit 60, an alarm sound output unit 70, and an arithmetic unit 80 may be further included.

The diagnostic body 10 is inserted into the narrow space D1 formed between the tire house 200, which is a part of the vehicle panel, and the upper surface of the tire 100, and has a thickness to be mounted on the upper surface of the tire 100. As designed, it is composed of a coupling structure of the first body 11 and the second body 12.

The first body 11 has an open top, and the bottom is mounted on the upper surface of the tire 100, and a measurement outlet T1 is formed at one end of the bottom surface of the first body 11, and the measurement outlet ( T1) is formed with a transparent plate (11a), while in contact with the first body (11) from both ends of the upper surface of the tire (100) in the width direction to support the mounting state of the first body (11). A contact protrusion 11b is formed.

That is, the first body 11 can be stably mounted on the upper surface of the tire 100 through the contact protrusions 11b contacting both ends of the upper surface of the tire 100 .

Here, the contact protrusion (11b) is a light source that is emitted when external light is introduced into the bottom surface of the first body (11) or a laser light source is emitted through the measurement outlet (T1). ) and the upper surface of the tire 100 may be blocked from being exposed to the outside, thereby preventing damage to people due to exposure of the laser light source.

The second body 12 is in close contact with the side surface of the tire 100 while covering the open top of the first body 11, and includes a horizontal plate 121, a vertical plate 122, and a handle 123 is to include

The horizontal plate 121 covers the open top of the first body 11, and a power button (SW1) electrically connected to the control module 50 and a control unit 121a are formed on a flat surface, and the operation unit (121a) includes at least one or at least one button for outputting a signal for adjusting the output level of the laser light source of the light source module 20 to the control module 50.

That is, when a button included in the control unit 121a is operated, the control module 50 adjusts the laser light source output level of the light source module 20 according to the control signal of the button.

The vertical plate 122 extends from the horizontal plate 121 and adheres to one side surface of the tire 100. Accordingly, the diagnosis body 10 is located at the apex of the upper surface of the tire 100 forming a spherical shape. This will allow you to maintain a stable position.

The handle 123 extends from the vertical plate 122 .

The light source module 20 is formed at one end of the inside of the diagnosis body 10, and the measurement outlet T1 allows a light source reference line for tire wear measurement and tire condition diagnosis to be formed on the upper surface of the tire 100. It is a laser device that irradiates a laser light source to the upper surface of the tire 100 through, which is a laser light source toward a first direction (P1) opposite to the measurement outlet (T1) at the inner end of the first body (11). It is installed and fixed at an angle to investigate.

At least one or at least one camera module 30 and/or 30' is formed on one end of the inside of the diagnosis body 10, and a light source reference line according to the laser light source irradiated by the light source module 20. This is to take an image of the upper surface of the tire 100 displayed, and as shown in FIG. It is installed and fixed vertically so that the photographing angle is set in the second direction P2 in which the measurement outlet T1 is located opposite to the first direction P1, or the diagnosis body (as shown in FIG. 7 attached) 10) are arranged side by side on both sides of the inner end of the diagnosis body 10, and the second direction P2 in which the measuring outlet T1 opposite to the first direction P1 is located on both sides of the inner end of the diagnosis body 10 It is installed and fixed vertically to set the shooting angle.

The reflector 40 measures the angle of the laser light emitted from the light source module 20 and the camera module 30 and/or 30' toward the upper surface of the tire 100 through the measuring outlet T1. ) side, and includes at least one laser reflector 41 and one camera reflector 42.

The laser reflector 41 includes first to third mirrors 41a, 41b, and 41c, and the first mirror 41a is perpendicularly installed and fixed to one end of the inside of the first body 11, The laser light source irradiated by the light source module 20 is primarily reflected by the second mirror 41b.

The second mirror 41b is installed and fixed horizontally on the inner surface of the second body 12 and transmits a laser light source primarily reflected through the first mirror 41a to the other inner end of the first body 11. This is to make secondary reflection on the third mirror 41c.

The third mirror 41c is installed and fixed at an angle to the other inner end of the first body 11, and transmits a laser light source secondarily reflected through the second mirror 41b through the water outlet T1 to the outside of the tire ( 100) is reflected thirdly.

The camera reflector 42 is a mirror structure installed and fixed at an angle to the other inner end of the first body 11, which means that the photographing angle of the camera module 30 and/or 30' passes through the measurement outlet T1. The camera module 30 and/or 30' can photograph the upper surface of the tire 100 irradiated with a laser light source through the measurement outlet T1. There is.

Here, the measurement outlet T1 has a length corresponding to the length of the tire 100 in the width direction, and the camera reflector 42 has a length equal to or longer than the measurement outlet T1. is to do

The control module 50 controls driving of the light source module 20 and the camera module 30 and/or 30'.

That is, while forming a power terminal (not shown) in the diagnosis body 10 and connecting a cable for supplying driving power to the power terminal, the control module 50 operates the light source module 20 and the camera module 30 and / or 30 ') to control the supply of driving power, or to form a wireless charging port in the diagnosis body 10 and a battery for charging and discharging that is electrically connected thereto to supply driving power Since it corresponds to , a detailed description thereof will be omitted below.

On the other hand, the control module 50 includes a controller 51 and a transceiver 52 built into the diagnosis body 10, or the controller 51 is built into the diagnosis body 10, and the The transceiver 52' and the arithmetic device 80 may be connected to the diagnosis main body 10 through communication as an external type.

Here, the controller 51 built in the diagnosis body 10 may simply control driving of the light source module 20 and the camera module 30 and/or 30', but the light source module 20 and tire valleys from tire image information with irregularities in the portion where the light source reference line is formed captured by the camera module 30 and/or 30' while controlling the driving of the camera module 30 and/or 30'. An analysis program that determines the degree of abrasion by calculating the depth every time can be installed.

The built-in transceiver 52, under the control of the controller 51, analyzes the tire image information of the reference line of the light source captured by the camera module 30 and/or 30' and the analysis installed in the controller 51. This is to transmit the determination information of the degree of wear of the tire by the program.

Meanwhile, when the transceiver 52' is configured as an external type, the control module 50 includes a controller 51 that simply controls driving of the light source module 20 and the camera module 30 and/or 30'. While is built into the diagnostic body 10, the tire image of the light source reference line captured by the camera module 30 and/or 30' under the control of the controller 51, which is built into the diagnostic body 10 The external transceiver 52' that transmits information is connected by a transmission cable, and the external transceiver 52' calculates the depth of each tire valley from tire image information having irregularities in the portion where the light source reference line is formed. The calculation device 80 equipped with an analysis program for calculating and determining the degree of wear can be connected through wired or wireless communication.

Here, the controller 51 may include the tire position information set by the tire position setting unit 60 in the tire image information of the light source reference line, and the controller 51 and the calculator 80 The analysis program installed in each tire is the same, and it determines whether there are stones or foreign substances in each tire valley by comparing and evaluating the calculation value of the light source reference line part, excluding the analysis value of the part with stones or foreign substances. Tire wear is measured and tire conditions are diagnosed for each tire location information through the analysis value of the part free of foreign substances, and notification information organized based on the calculated data and the calculated data is generated while generating the calculated data and The generated notification information is transmitted and displayed on the touch screen panel 90 formed on the monitor (M1) or the horizontal plate 121 for the measurement practitioner or customer through wired or wireless communication, and the measurement practitioner or customer is that the vehicle tire condition can be shared through the monitor M1 or the touch screen panel 90 .

The tire position setting unit 60 outputs a measurement position signal for the tire 100 to the control module 50, which transmits a signal for the measurement position of the front left tire of the vehicle, a first button 61, A second button 62 for transmitting a measurement position signal for the front right tire of the vehicle, a third button 63 for transmitting a measurement position signal for the measurement position for the rear left tire of the vehicle, and a fourth button 63 for transmitting a measurement position signal for the measurement position for the rear right tire of the vehicle. It is to include the button 64.

For example, when the measurer presses the first button 61 in a state where the diagnosis body 10 is placed on the upper surface of the front left tire 100, a push signal of the first button 61 is transmitted to the control module ( 50), the control module 50 includes the tire measurement location information in the measurement and diagnosis results while recognizing that tire wear condition measurement and tire condition diagnosis are being performed for the front left tire 100. Also, each tire measurement position signal of the second to fourth buttons 62, 63, and 64 can be equally applied to each tire position.

On the other hand, in the embodiment of the present invention, it is described that the power button (SW1) electrically connected to the control module 50, the operation unit 121a, and the tire position setting unit 60 are formed on the horizontal plate 121. However, as another embodiment of the present invention, a touch screen panel 90 is formed on the horizontal plate 121 instead of the operation unit 121a and the tire position setting unit 60, and the touch screen panel 90 When the power button (SW1) is switched on on the screen of , the operation unit 121a and the tire position setting unit 60 may be displayed.

On the other hand, the diagnostic body 10 includes a level sensor S1 and an alarm sound output unit that detects the horizontal state of the diagnostic body 10 mounted on the upper surface of the tire 100 and outputs the detected horizontal state to the control module 50. 70 may be formed, and the alarm sound output unit 70 controls the control module 50 when detecting that the horizontal state of the diagnosis body 10 is not level by the level sensor S1. According to this, an alarm signal that can be heard by the measurer is output, and accordingly, the measurer can calibrate the horizontal state of the diagnosis body 10.

As such, in the handy-type tire wear measuring and tire condition diagnosing device according to an embodiment of the present invention, as shown in the attached FIGS. 2 to 10, a measuring practitioner or a customer (eg, a vehicle driver) While holding the handle 123 extending from the included second body 12, place the first body 11 included in the diagnostic body 10 on the upper surface of the front left tire 100 to be measured .

Then, since the contact protrusions 11b protruding from the bottom surface of the first body 11 come into contact with both ends of the tire 100 in the width direction, the second As the vertical plate 122 of the body 12 adheres to the side surface of the tire 100, installation of the diagnosis body 10 is completed.

At this time, the horizontal sensor S1 of the diagnosis body 10 measures the horizontal state of the diagnosis body 10 on the upper surface of the tire 100 and then outputs the measurement information to the control module 50. Therefore, the control module 50 can determine whether the horizontal state of the diagnostic body 10 is within a normal range, and if the horizontal state of the diagnosis body 10 is abnormal, the alarm sound output unit 70 controls the output of the alarm sound. In doing so, the measurer is guided to calibrate the placement of the diagnostic body 10.

Next, when the diagnostic body 10 is mounted on the upper surface of the tire 100 while maintaining a normal horizontal state, the measurer presses the power button (SW1) and simultaneously presses the tire positioning unit 60. Among the first to fourth buttons 61, 62, 63, and 64, the first button 61 corresponding to the tire 100 on which the diagnostic body 10 is placed is pressed.

Then, while the tire measurement position signal is output to the control module 50 through the push signal of the first button 61, the control module 50 determines that the tire 100 located on the front left side of the vehicle is the measurement target. While recognizing it, it is possible to drive and control the light source module 20 and the camera module 30 and/or 30'.

Here, the control module 50 has a built-in controller 51 and a transceiver 52 loaded with an analysis program, or a built-in controller 51 without an analysis program and an external transceiver 52' and an analysis program. While the arithmetic device 80 loaded with the program is connected to enable separate wired or wireless communication, at least one or one or more monitors M1 and wired or wired or When wireless communication is enabled or the touch screen panel 90 formed on the diagnosis body 10 is connected, the preparation process for tire wear measurement and tire condition diagnosis is completed.

Here, the arithmetic unit 90 is a computer body and the monitor M1 may be a monitor connected to the computer body, but the monitor M1 is capable of wireless communication with the transceiver 52 and/or 52'. It may be a smart phone or a smart pad having a display screen.

Therefore, after the preparation process as described above is completed, the measurer manipulates the control unit 121a formed in the diagnosis body 10 to determine the light source module 20 and the camera module 30 formed in the diagnosis body 10. and/or 30'), the output level of the laser light source of the light source module 20 is adjusted through the manipulation unit 121a.

Then, the laser light source irradiated with the output level adjusted in the light source module 20 passes through the first to third mirrors 41a, 41b, and 41c included in the laser reflector 41 constituting the reflector 40. While being sequentially reflected, the laser light source is irradiated to the upper surface of the tire 100 to be measured through the transparent plate 11a of the measurement outlet T1 formed in the first body 11 of the diagnosis body 10, A single light source reference line through which line laser light is projected is generated at a certain portion of the tire 100 having irregularities.

At this time, when the laser light source is irradiated on the upper surface of the tire 100 through the light source module 20, the camera module 30 and/or 30' in the diagnosis body 10 is a camera reflector having a mirror structure ( 42), since the upper surface of the tire 100 is focused through the transparent plate 11a of the measurement outlet T1, the camera module 30 and/or 30' is used to generate the light source reference line. After the upper surface of the tire 100 is photographed, it is transmitted to the arithmetic device 80 equipped with the analysis program through the controller 51 or the external transceiver 52' equipped with the analysis program.

Then, the analysis program installed in the controller 51 or the arithmetic unit 90 reads the concavo-convex part from the received tire image information, reads the existence of stones or foreign substances in the reference line of the light source, and reads the portion where the stones or foreign substances are present. After excluding the value of , the degree of wear can be diagnosed by calculating several bone depths with the remaining values.

That is, the analysis program loaded in the controller 51 or the calculator 90 transmits not only the calculated value, but also notification information diagnosed based on the calculated value and tire surface image information to the built-in transceiver 52 ) or wired or wireless communication method, while transmitting to the monitor (M1) or touch screen panel 90 of the measurer, the measurer measures the tire wear condition through the information displayed on the monitor (M1) or touch screen panel 90 Of course, it is possible to check the tire condition diagnosis result.

On the other hand, the measurement process of the tire 100 as described above is described for the front left side of the vehicle, and measurement and diagnosis for tires located on the front right side and the left and right side of the rear side of the vehicle can be performed in the same way. The user can easily determine whether the tire is fit for use, whether regular inspection is required, or whether replacement is required through notification information displayed on the monitor M1 or the touch screen panel 90 .

In addition, depending on the shape and location of tire wear, when both sides are worn, the air pressure is too low, when the center of the tire is worn, the air pressure is too high. Since it can be easily distinguished by calculation through the light source reference line image analysis performed through the analysis program loaded in the controller 51 or the calculation device 80, the controller 51 or the calculation device 80 notifies Based on the result of analyzing the shape worn as information, it is divided into causes such as under-air pressure, over-air pressure, cornering, wheel alignment, etc., and wear information is transmitted to the touch screen panel 90 or the monitor M1 by wired or wireless communication method. that can be provided.

In the above, the technical idea of the handy-type tire wear measurement and tire condition diagnosis device of the present invention has been described with the accompanying drawings, but this is an exemplary description of the best embodiment of the present invention, but does not limit the present invention.

Therefore, the present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone having ordinary knowledge in the art to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course it is possible, and such variations are within the scope of the claims.

10; diagnostic body 11; first body
11a; transparent plate 11b; contact protrusion
12; second body 121; horizontal board
121a; operation unit 122; vertical board
123; handle 20; light source module
30, 30'; camera module 40; reflector
41; a laser reflector 41a; 1st mirror
41b; a second mirror 41c; 3rd mirror
42; camera reflector 50; control module
51; controller 52, 52'; transceiver
60; tire position setting unit 61; 1st button
62; second button 63; 3rd button
64; fourth button 70; alarm sound output
80; arithmetic unit 90; touch screen panel
100; tire 200; Thai House
D1; narrow space M1; monitor
S1; horizontal sensor SW1; power button
T1; measuring outlet

Claims (27)

a diagnostic body installed on the upper surface of the tire while entering a narrow space between the tire house, which is a part of the vehicle panel, and the upper surface of the tire, and having a measurement outlet opening in the width direction of the tire at the other end of the bottom surface;
It is formed at one end opposite to the measurement outlet inside the diagnosis body, and a laser light source is applied to the upper surface of the tire through the measurement outlet so that a light source reference line for measuring wear and diagnosing the condition of the tire is formed in the width direction of the tire. A light source module to irradiate;
a camera module formed at one end opposite to the measurement outlet inside the diagnosis body and capturing an image of the light source reference line formed in the width direction on the upper surface of the tire according to the laser light source irradiated by the light source module;
a reflector for guiding a laser light source irradiated from the light source module and a photographing angle of the camera module to the measurement outlet; and,
a control module for controlling driving of the light source module and the camera module; Hand-held tire wear measurement and tire condition diagnosis apparatus comprising a. According to claim 1,
Handy-type tire wear measuring and tire condition diagnosing device, characterized in that the tire position setting unit for outputting the measurement position signal for the tire to the control module is formed in the diagnosis body. According to claim 2,
The tire positioning unit,
a first button for transmitting a signal of a measurement position of a front left tire of the vehicle;
a second button for transmitting a measurement position signal for a front right tire of the vehicle;
a third button for transmitting a measurement position signal for a rear left tire of the vehicle; and,
a fourth button for transmitting a measurement position signal for a rear right tire of the vehicle; Hand-held tire wear measurement and tire condition diagnosis apparatus comprising a. According to claim 3,
The diagnosis body,
a first body formed at a height capable of entering a narrow space between the tire house, which is a part of a vehicle panel, and the upper surface of the tire, and mounted on the upper surface of the tire in the width direction and having an open top; and a second body that adheres to the side surface of the tire while covering the open upper portion of the first body. It consists of a combined structure of
At one end of the bottom surface of the first body, the measurement outlet having a length corresponding to the length in the width direction of the tire is formed,
Handy-type tire wear measurement and tire condition diagnosis device, characterized in that a transparent plate is formed at the measurement outlet. According to claim 4,
Handy type tire wear measurement and tire condition diagnosis device, characterized in that contact protrusions are formed at both ends of the first body to support the mounting state of the first body by contacting each other in the width direction from both ends of the upper surface of the tire. According to claim 4,
The second body,
a horizontal plate covering the open top of the first body; and a vertical plate extended from the horizontal plate and adhered to the side surface of the tire. including,
Handy-type tire wear measurement and tire condition diagnosis device, characterized in that the handle is extended to the vertical plate. According to claim 6,
Handy-type tire wear measurement and tire condition diagnosis device, characterized in that the power button and the operation unit electrically connected to the control module and the tire position setting unit are formed on the horizontal plate. According to claim 7,
The handheld tire wear measurement and tire condition diagnosis device, characterized in that the control unit includes at least one or at least one button for outputting a signal for adjusting the output level of the laser light source of the light source module to the control module. According to claim 6,
A touch screen panel is formed on the horizontal plate in place of the operation unit and the tire positioning unit, and the operation unit and the tire positioning unit are displayed on the touch screen panel when the power button is turned on. A device for measuring wear and diagnosing tire conditions. According to claim 1,
A handheld type tire wear measurement and tire condition diagnosis device, characterized in that a power terminal is formed in the diagnosis body, and a drive power supply is controlled by the control module while a cable for supplying driving power is connected to the power terminal. According to claim 1,
The diagnostic body has a wireless charging port and a battery for charging and discharging that is electrically connected thereto to supply driving power, and the battery is charged through the wireless charging port. Handy-type tire wear measurement and tire condition diagnosis, characterized in that Device. According to claim 1,
The handheld type tire wear measurement and tire condition diagnosis device, characterized in that the light source module is installed and fixed at an angle so as to irradiate a laser light source from an inner end of the diagnosis body toward a first direction opposite to the measurement outlet. According to claim 12,
The camera module is disposed at the center of one end of the inside of the diagnosis body, and is vertically installed so that a photographing angle is set in a second direction opposite to the first direction where the measurement outlet is located at the center of one end of the inside of the diagnosis body. A handheld tire wear measurement and tire condition diagnosis device, characterized in that fixed. According to claim 12,
The plurality of camera modules are arranged side by side on both sides of the inner end of the diagnosis body, and a photographing angle is set at both sides of the inner end of the diagnosis body in a second direction opposite to the first direction in which the measurement outlet is located. A handheld tire wear measurement and tire condition diagnosis device characterized in that it is installed and fixed vertically. According to claim 1,
The reflector includes at least one laser reflector and one camera reflector. According to claim 15,
The camera reflector is a mirror structure that guides the shooting angle of the camera module toward the upper surface of the tire through the measurement outlet while being installed and fixed at an angle to the other inner end of the diagnosis body. Handy-type tire wear measurement and Tire condition diagnosis device. 17. The method of claim 16,
Handy-type tire wear measurement and tire condition diagnosis device, characterized in that the camera reflector length is equal to or longer than the measurement outlet length. According to claim 15,
The laser reflector,
a first mirror that is vertically installed and fixed to one end of the inside of the diagnosis body and primarily reflects the laser light emitted by the light source module;
a second mirror installed and fixed horizontally on an inner upper surface of the diagnosis body and secondarily reflecting a laser light source primarily reflected through the first mirror to the other inner end of the diagnosis body; and,
a third mirror installed and fixed at an angle to the other inner end of the diagnosis body and tertiarily reflecting a laser light source secondarily reflected through the second mirror in the width direction of the upper surface of the tire through the measurement outlet; Hand-held tire wear measurement and tire condition diagnosis apparatus comprising a. According to claim 1,
Handy-type tire wear measurement and tire condition diagnosis device, characterized in that the diagnosis body is formed with a horizontal sensor that senses the horizontal state of the diagnosis body mounted on the upper surface of the tire and outputs it to the control module. According to claim 19,
Handy-type tire wear measurement characterized in that the diagnosis body is formed with an alarm sound output unit for outputting an alarm signal according to the control of the control module when it is detected that the horizontal state of the diagnosis body is not level by the level sensor And Tire condition diagnosis device. According to claim 2,
The control module is built into the diagnosis body,
An analysis program for determining the degree of wear by calculating the depth for each tire trough from the image information of the tire with irregularities in the portion where the light source reference line is formed, which is photographed by the camera module while controlling the driving of the light source module and the camera module. onboard controller; and,
a transceiver for transmitting tire image information of a reference line of a light source captured by the camera module under the control of the controller and information for determining a degree of wear of a tire by the controller; Hand-held tire wear measurement and tire condition diagnosis apparatus comprising a. According to claim 2,
The control module includes a controller built into the diagnosis body,
An external transceiver that transmits tire image information of a light source reference line photographed by the camera module under the control of the built-in controller is connected to the diagnosis body by a transmission cable,
The transceiver, which is an external type, is equipped with an analysis program that determines the degree of wear by calculating the depth of each tire trough from the image information of the tire with irregularities at the part where the light source reference line is formed. Handy type tire wear measurement and tire condition diagnosis device. According to claim 21 or 22,
The tire image information of the light source reference line includes tire position information set by the tire position setting unit under the control of the controller. According to claim 21 or 22,
The analysis program determines whether there are stones or foreign substances in each tire trough by comparing and evaluating the calculation values of the light source reference line, excluding the analysis values of the parts with stones or foreign substances and the analysis values of the parts without stones or foreign substances. A handy type tire wear measuring and tire condition diagnosing device, characterized in that for measuring tire wear and diagnosing tire condition for each tire location information. According to claim 21 or 22,
The analysis program is a handy-type tire wear measurement and tire condition diagnosis device, characterized in that for generating calculated data and notification information organized on the basis of the calculated data. 26. The method of claim 25,
Handy-type tire wear measurement and tire condition diagnosis device, characterized in that the calculated data and the generated notification information are transmitted and displayed to a monitor for a measuring practitioner or customer connected by wired or wireless communication. 26. The method of claim 25,
The handy-type tire wear measurement and tire condition diagnosis device, characterized in that the calculated data and the generated notification information are transmitted to and displayed on a touch screen panel formed on the diagnosis body.

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