KR101782509B1 - A Device for Measuring a Length Using Ultrasound - Google Patents

Abstract

The present invention relates to a device for measuring a length using ultrasound and, more specifically, relates to a device for measuring a length using ultrasound, which is composed of two ultrasound units capable of being separated. The device for measuring a length using ultrasound comprises: a measurement case (11) in which an accommodating space is formed; a first ultrasound unit (US1) arranged in the measurement case (11); a marking screen (161) installed on one side surface of the measurement case (11); a coupling portion (13) formed in one side part of the measurement case (11); an auxiliary case (12) detachably coupled to the coupling portion (13), wherein a second ultrasound unit (US2) is arranged; a first contact tap (CP1) and a second contact tap (CP2) individually formed in the coupling portion (13) and the auxiliary case (12) to initiate operation of the first ultrasound unit (US1) and the second ultrasound unit (US2); and a control unit controlling the operation of the first ultrasound unit (US1) and the second ultrasound unit (US2).

Description

[0001] The present invention relates to a device for measuring a length of ultrasound,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultrasonic length measuring instrument, and more particularly, to an ultrasonic length measuring instrument including two ultrasonic units which can be separated.

Various types of ultrasonic detection devices for detecting objects, measuring lengths or distances are known in the art. Ultrasound waves can propagate through a variety of media with frequencies above 20 kHz. Such an ultrasonic wave can be converted into an electric signal by a transducer having the same oscillator of the piezoelectric element and can be processed.

Patent Registration No. 10-1385403 discloses a piezoelectric ceramic which generates ultrasonic waves in a predetermined cycle with an ultrasonic vibrator; A layer attached to the piezoceramic and serving to transmit ultrasonic waves having a basic beam width of the piezoceramic in water; A sound absorbing material attached to surround the side surface of the piezoelectric ceramic to suppress noise coming into the side surface of the piezoelectric ceramic; And a housing for allowing the piezoelectric ceramic, the layer, and the sound absorbing material to adhere to each other in a layered state, and the length of the layer is determined by considering the vibration mode, diameter, thickness, and natural frequency of the piezoelectric ceramic And the non-sensing area is brought into the layer by calculation. The ultrasonic sensor is capable of both near-near and far-distance measurements.

Patent Registration No. 10-1491512 discloses a multi-stage telescopic boom comprising a first module located at one end of a multi-stage telescopic boom, for emitting a first signal and receiving a second signal; A second module located at an opposite end of the one end of the multi-stage telescopic boom, the second module transmitting the second signal to the first module upon receipt of the first signal; And a display portion for displaying the length of the multi-stage stretch boom calculated based on a difference between a transmission time of the first signal and a reception time of the second signal.

It is difficult to apply the measurement method disclosed in the prior art to the measurement of the length of the elongated object or the length of the object corresponding to a short distance. In addition, it has a disadvantage that it is difficult to directly apply error correction in the case of long distance measurement.

An object of the present invention is to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Registration No. 10-1385403 (Korea Ocean Research & Development Institute, April 14, 2014) Supersonic sensor capable of both short-range and long-distance measurement and its driving method Prior Art 2: Patent Registration No. 10-1491512 (Korea Industrial Technology University, Industry & University Collaboration, February 11, 2015 announcement) Boom length measuring device and measurement method using ultrasound

An object of the present invention is to provide an ultrasonic length measuring device capable of accurately measuring elongation, length or distance of an object while correcting a measurement error.

According to a preferred embodiment of the present invention, the ultrasonic length measuring device includes: a measurement case having a receiving space formed therein; A first ultrasonic unit disposed in the measurement case; A display screen provided on one side of the measurement case; A binding site formed on one side of the measurement case; A secondary case detachably coupled to the coupling site and having two ultrasonic units disposed therein; A first contact tab and a second contact tab respectively formed in the coupling portion and the auxiliary case to start operation of the two ultrasonic units; And a control unit for controlling the operation of the one ultrasonic unit and the two ultrasonic units.

According to another preferred embodiment of the present invention, a temperature detection unit for measuring the ambient temperature and a direction detection unit for detecting the direction of the measurement case are further included.

According to another preferred embodiment of the present invention, the ultrasonic diagnostic apparatus further includes a start unit accommodated in the auxiliary case to determine the generation condition of the ultrasonic wave from the two ultrasonic units.

The ultrasonic length measuring device according to the present invention makes it possible to measure elongation, distance to an object, length or height of a structure. The ultrasonic length measuring instrument is applied to domestic, educational, and industrial fields so that accurate length measurement is possible directly on site. In addition, the ultrasonic length measuring device is made of a simple structure, and is portable and portable. In addition, the ultrasonic length measuring device makes precise measurement possible by preventing the occurrence of errors.

1 shows an embodiment of an ultrasonic length measuring instrument according to the present invention.
2 shows an embodiment of the operating structure of the ultrasonic length measuring instrument according to the present invention.
3 shows an application example of the ultrasonic length measuring instrument according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

1 shows an embodiment of an ultrasonic length measuring instrument 10 according to the present invention.

Referring to FIG. 1, the ultrasonic length measuring instrument 10 includes a measurement case 11 having a receiving space therein; An ultrasonic unit US1 disposed in the measurement case 11; A display screen 161 installed on one side of the measurement case 11; A coupling portion 13 formed on one side of the measurement case 11; A secondary case 12 detachably coupled to the coupling portion 13 and having a second ultrasonic unit US2 disposed therein; A first contact tab CP1 and a second contact tab CP2 respectively formed in the joining portion 13 and the auxiliary case 12 to start the operation of the two ultrasonic units US2; And a control unit for controlling operations of the first ultrasonic unit US1 and the second ultrasonic unit US2.

The ultrasonic length measuring instrument 10 according to the present invention can be made portable, and can be used for home, business, educational, or industrial use. The ultrasonic length measuring instrument 10 can be applied to an elongation measurement, a distance measurement, a length measurement or a speed measurement, and in this specification, the length means a physical quantity including the distance unit.

The measuring case 11 may have various shapes extending to appropriate lengths and may be provided with various components or elements for accommodating therein an electronic board, an ultrasonic unit US1, a battery or an acceleration sensor, You can have space. The appropriate length is that the plane from which ultrasonic waves are transmitted or received from the ultrasonic unit US1 extends in a linear direction, for example, by a length of 5 to 50 cm. The plane on which the ultrasonic waves are transmitted or received from the one ultrasonic unit US1 or the two ultrasonic units US2 may be a uniform plane as a whole and may be a plane shape capable of being in contact with an object. Therefore, the measurement case 11 can be structured such that the one ultrasonic unit US1 can be exposed to the outside of the object while the lower part of the one ultrasonic unit US1 touches the object. The measurement case 11 can be made in various structures, and the present invention is not limited to the embodiments shown.

1 ultrasound unit US1 may be disposed inside the measurement case 11 and arranged to transmit ultrasonic waves or receive ultrasonic waves through an ultrasonic window formed in the measurement case 11. [ 1 ultrasonic unit US1 may be a transducer including a piezoelectric element and may be disposed on an electronic board housed inside the measurement case 11. [ Ultrasonic waves generated from the first ultrasonic unit US1 can be transmitted in a direction perpendicular to the reference surface of the measurement case 11. [ And the reference plane means the outer surface of the measurement case 11 having a planar shape and contacting the head portion in the elongation measurement process, for example. 1 ultrasound unit US1 may be in any form known in the art and may have ultrasonic transmission and reception functions and may be converted into an electrical signal by a transducer.

A display screen 161 such as an LCD screen may be disposed on one side of the measurement case 11, and the measurement distance may be displayed. The measurement case 11 may be provided with an operation button 162 for starting or stopping the entire operation, and at least one setting button 163 may be disposed. The setting button 163 may be, for example, a display setting or a mode setting. The ultrasonic length measuring instrument 10 according to the present invention may include such as a direction detecting unit or a temperature detecting unit. The direction detection unit may have a direction detection or horizontal detection function, for example, a direction in which the ultrasonic wave is transmitted or received, and a horizontal detection function means a horizontal or an inclination to the reference surface . A coincidence signal may be generated when the direction detected by the direction detecting unit in the measurement process agrees with a predetermined direction. The match signal can be, for example, a sound signal and can be displayed externally through a matching unit 15, such as a speaker. The matching unit 15 may be in various displayable forms such as a speaker or an LED. The temperature detection unit may have the function of detecting the ambient temperature. The detected direction, the horizontal or the detected temperature by the operation of the setting button 163 can be displayed, and the time can be displayed. The setting button 163 may have a function of setting contents displayed on the display screen 161. [ Various contents such as the operating condition or operation result of the ultrasonic length measuring instrument 10 may be displayed or changed by the setting button 163, and the present invention is not limited to the embodiment shown.

The coupling portion 13 may be formed at one end of the measurement case 11 and the auxiliary case 12 may be coupled to the coupling portion 13. [ One contact tab CP1 and two contact tabs CP2 may be respectively formed on the joining portion 13 and the auxiliary case 12 and one contact tab CP1 and two contact tabs CP2 may be formed as protrusions and holes It can be made or hooked. The first contact tab CP1 and the second contact tab CP2 function to firmly fix the measurement case 11 and the auxiliary case 12 in a combined state. The two ultrasonic units US2 housed in the auxiliary case 12 are not operated while the first and second contact tabs CP1 and CP2 are coupled to each other, . The first contact tab CP1 is engaged with the second contact tab CP2 in a state of being specifically coupled so that the power supply to the second ultrasonic unit US2 is interrupted. Due to such a structure, one contact tab CP1 and two contact tabs CP2 can function to start the operation of the two ultrasonic unit US2. The independent power source can be disposed in the auxiliary case 12 and the independent power source can supply electric power to the electronic substrate disposed in the two ultrasonic wave unit US2 by the separation of the one contact tab CP1 and the two contact tabs CP2 have.

The auxiliary case 12 can be coupled to the coupling portion 13 in a sliding manner or in an insertion manner, but is not limited thereto. An electronic substrate and a battery may be accommodated in the interior of the auxiliary case 12, and a transducer having a microprocessor and a vibrator may be disposed on the electronic substrate. An electronic board on which a microprocessor for processing the results of the operation and operation of the one ultrasonic unit US1 is disposed can be accommodated in the measurement case 11. The one ultrasonic unit US1 is operated by the operation button 162 and the two ultrasonic unit US2 can be operated by the separation of the one and two contact tabs CP1 and CP2.

The two ultrasonic units US2 disposed in the auxiliary case 12 can receive or transmit ultrasonic waves through the ultrasonic window formed in the auxiliary case 12. [ The auxiliary case 12 may have an auxiliary reference surface having a planar shape capable of contacting an object and the two ultrasonic units US2 may transmit ultrasonic waves in a direction perpendicular to the auxiliary reference plane.

The ultrasonic length measuring instrument 10 measures a physical quantity such as a length by the operation of the one ultrasonic unit US1 or the one ultrasonic unit US1 and the two ultrasonic unit US2 work together to measure a physical quantity such as a length have. The ultrasonic length measuring instrument 10 can be made portable and the battery receiving portion 14 can be formed in the measuring case 11. [ A battery for the operation of the electronic board disposed inside the measurement case 11 in the battery receiving portion 14 can be received interchangeably and the battery can be separately arranged in the auxiliary case 12. [

The ultrasonic length measuring instrument 10 according to the present invention can be used with the auxiliary case 12 separated or coupled.

2 shows an embodiment of the operating structure of the ultrasonic length measuring instrument according to the present invention.

Referring to FIG. 2, the operation button 162 may be operated for operation of the measurement case, and the auxiliary case may be detached from the measurement case, if necessary. The ultrasonic length measuring instrument may not be separated or disconnected from the auxiliary case depending on the measurement object. For example, if the bottom surface is an ultrasound reflective surface for elongation measurement, the secondary case may be used without separation. On the contrary, there is no reflective surface or the auxiliary case is separated for measuring the length of the object, and the two ultrasonic units accommodated in the auxiliary case can be used as an ultrasonic transmission and reception device. An electronic board in which a microprocessor is disposed in each of the measurement case and the auxiliary case can be arranged and operated according to the installed operation program. The control unit 21 includes one control unit accommodated in the measurement case and two control units accommodated in the auxiliary case. When the operation is started, the direction detecting unit 22 can be operated, and for example, the direction detecting unit 22 can be an acceleration sensor or an azimuth measuring instrument. The direction detected by the direction detection unit 22 can be transmitted to the control unit 21. [ It can also be displayed whether or not the ultrasonic-wave-length measuring device 10 is in a predetermined direction or horizontally. For example, when the elongation is measured by the ultrasonic length measuring device 10, the measurement case needs to be held horizontally. If it is held horizontally for measurement, an LED lamp or an alarm sound may be generated and displayed to the outside by the display unit 23 and transmitted to the control unit 21. The control unit 21 can operate the one ultrasonic unit US1 when a signal indicating to the direction detection unit 22 that the ultrasonic length measuring device has been maintained in the predetermined direction or the predetermined horizontal direction is transmitted to the control unit 21. [ 1 ultrasonic unit US1 can transmit ultrasonic waves to a floor, a wall surface, or a two-ultrasonic unit US2. When the second ultrasonic unit US2 is used for measuring the length of the object, the second ultrasonic unit US2 can be disposed at a predetermined position to receive the information transmitted from the first ultrasonic unit US1. The initiation unit 24 may be disposed in the second ultrasonic unit US2 and ultrasonic waves may be transmitted from the second ultrasonic unit US2 to the first ultrasonic unit US1 by the start unit 24. [ The initiation unit 24 may have a function of determining the ultrasonic transmission time of the two ultrasonic units US2. For example, the initiation unit 24 may receive ultrasound from the ultrasound unit US1 and set ultrasound to be transmitted from the ultrasound unit US2 after 0.001 to 100 ms. The time set by the initiating unit 24 can be predetermined and can be stored in the control unit 21. [ The start unit 24 determines the time at which the ultrasonic waves are received from the one ultrasonic unit US1 and causes the ultrasonic waves to be transmitted at the time determined by the two ultrasonic units US2. The signal processing unit 25 can be disposed in the auxiliary case 12 and the ultrasonic wave can be transmitted to the one ultrasonic unit US1 by the signal processing unit 25. [

The time at which ultrasonic waves are received at the ultrasonic unit US1 can be transmitted to the calculation unit 26 and the calculation unit 26 can calculate the distance of the measurement object based on the time at which one ultrasonic wave was transmitted and the time at which the two ultrasonic waves were received Can be calculated. The temperature detection unit 28 can be disposed inside the measurement case 11 and the temperature detected by the temperature detection unit can be transmitted to the calculation unit 26. [ And the measurement result may be displayed on the display screen 161. [

The ultrasonic length measuring device according to the present invention can be operated in various ways, and the present invention is not limited to the embodiments shown.

FIG. 3 shows an application example of the ultrasonic length meter 10 according to the present invention.

3 (A) shows an embodiment in which the elongation is measured by the ultrasonic-wave length measuring instrument 10, and the ultrasonic-wave measuring instrument 10 is contacted with the head of the subject M of the ultrasonic- . The operation is started by the operation button and the ultrasonic length measuring instrument 10 can be positioned at the head of the subject M. [ When the direction is detected by the direction detecting unit and the horizontal degree reaches a predetermined range, an alarm sound may be generated indicating that it is in the correct position. At the same time, reflected ultrasonic waves RS from one ultrasonic unit can be transmitted from the reference surface G such as the bottom surface. The one ultrasound unit receives the reflected ultrasound waves RS to calculate the subject M and display it on the display screen.

Referring to FIG. 3 (B), the ultrasonic length measuring instrument 10 can be used to measure the distance between the object S at a specific point. When the object S is an object capable of reflecting ultrasonic waves, the ultrasonic wave transmitted from the ultrasonic unit US1 is transmitted to the object and the reflected ultrasonic waves RS are received by the ultrasonic unit US1, Can be measured. The measurement case and the auxiliary case can be positioned at both ends of the object S for measuring the length of the object S and the respective reference surfaces can contact both ends of the object S. [ Then, one ultrasonic wave (TS1) can be transmitted from the one ultrasonic wave unit (US1) to the two ultrasonic wave unit (US2). The second ultrasonic wave TS2 can be transmitted from the second ultrasonic wave unit US2 to the first ultrasonic wave unit US1 after the first ultrasonic wave TS1 is received from the second ultrasonic wave unit US2 and the predetermined time has elapsed. When the second ultrasonic wave TS2 is received from the first ultrasonic unit US1, the length of the object can be calculated by the calculation unit.

The distance between any two points can be measured by the ultrasonic length measuring device 10 according to the present invention and the auxiliary case may not be separated or separated depending on whether the reflector is used or not.

The length or distance of various objects can be measured by the ultrasonic length measuring device according to the present invention, and the distance between any two points can be measured. Also, the speed of a moving object can be measured.

The ultrasonic length measuring device according to the present invention can be applied to measurement of various lengths or distances, and the present invention is not limited to the embodiments shown.

The ultrasonic length measuring device according to the present invention makes it possible to measure elongation, distance to an object, length or height of a structure. The ultrasonic length measuring instrument is applied to domestic, educational, and industrial fields so that accurate length measurement is possible directly on site. In addition, the ultrasonic length measuring device is made of a simple structure, and is portable and portable. In addition, the ultrasonic length measuring device makes precise measurement possible by preventing the occurrence of errors.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: ultrasonic length measuring instrument 11: measuring case
12: auxiliary case 13: joint part
14: battery receiving portion 15: matching unit
21: control unit 22: direction detection unit
23: display unit 24: start unit
25: Signal processing unit 26: Operation unit
28: Temperature detection unit 161: Display screen
162: Operation button 163: Setting button
CP1: 1 contact tab CP2: 2 contact tab
G: Reference plane M: Target person
RS: Reflected ultrasound S: Target object
TS: Transmitted ultrasonic TS 1: 1 Ultrasound
TS2: 2 ultrasonic US1: 1 ultrasonic unit
US2: 2 ultrasonic unit

Claims (3)

A measurement case 11 having a receiving space therein;
An ultrasonic unit US1 disposed in the measurement case 11;
A display screen 161 installed on one side of the measurement case 11;
A coupling portion 13 formed on one side of the measurement case 11;
A secondary case 12 detachably coupled to the coupling portion 13 and having a second ultrasonic unit US2 disposed therein;
A first contact tab CP1 and a second contact tab CP2 respectively formed in the joining portion 13 and the auxiliary case 12 to start the operation of the two ultrasonic units US2; And
And a control unit for controlling operations of the first ultrasonic unit US1 and the second ultrasonic unit US2,
An operation button 162 for starting or ending the entire operation is disposed in the measurement case 11 and the power supply to the two ultrasonic units US2 is controlled so that one power supply to the two ultrasonic units US2 Blocked,
Further comprising a start unit (24) housed in the auxiliary case (12) to determine a generation condition of the ultrasonic wave from the two ultrasonic unit (US2). The ultrasonic length measuring device according to claim 1, further comprising a temperature detection unit for measuring the ambient temperature and a direction detection unit for detecting the direction of the measurement case (11). delete

Images