KR101319426B1 - Geophone for comprising adhesive sheet - Google Patents

Abstract

PURPOSE: A geophone containing an adhesive sheet is provided to prevent the movement of the geophone on a terrain with steep inclination like the slope of a dam, thereby maintaining an accurate position to measure elastic waves. CONSTITUTION: A geophone cone part (100) is integrally equipped with a combining part (120) in the shape of a polygonal column at the upper part, and a fixing groove (130) is formed on both facing sides of the combining part. A geophone connection part (200) has an accommodation part at the bottom in order to be mounted by sliding from the upper side of the geophone cone part to the lower side. A geophone signal receiving part (300) is screw-combined with the upper side of the geophone connection part and receives an elastic wave signal generated from the ground surface.

Description

Geophone containing adhesive sheet {GEOPHONE FOR COMPRISING ADHESIVE SHEET}

The present invention relates to a geophone for measuring an elastic wave, and more particularly, by connecting a connection portion capable of sliding mounting a geophone cone with a multi-layer adhesive sheet on the bottom thereof and a coupling of the signal receiving portion on a sloped ground surface. The present invention relates to a geophone including an adhesive sheet capable of fixing a measurement position without slipping and also maintaining adhesiveness by using a new adhesive sheet every time in measuring an acoustic wave.

In general, seismic survey method is mainly used for the ground survey. The seismic wave detection method artificially generates seismic waves on the surface or at sea, and generates seismic waves through explosion of dynamite on land or explosion of mixed gas in a container in contact with the ground.

In this way, the generated seismic wave is received at the receiver, and the information on the geological structure can be obtained by analyzing the propagation time and the waveform of the received seismic waves.

The information on the geological structure obtained through seismic surveys can be used to determine a variety of geological structures, including civil engineering, groundwater exploration, oil exploration, or the study of widespread crustal structures.

As a seismic detection method, Korean Patent Laid-Open No. 2001-0035239 relates to a seismic detection method using boreholes, and a technique of measuring a seismic wave by installing a receiver in a borehole after forming a borehole in an area for seismic detection.

However, in order to use the conventional technology, since a borehole must be formed for each area for exploration, a huge cost and time have to be invested.

Therefore, in recent years, as shown in Fig. 1, a geophone has been used as a device for inspecting the ground. FIG. 1 shows the structure of a geophone 10. The geophone 10 is a geophone cone 11 installed on the ground surface and a receiver which is screwed with the geophone cone 11 to receive an acoustic wave signal. It may be composed of (12).

However, in the prior art as described above, although the bottom is flat and can be installed on the surface, the geophone slips when the geophone is used in a terrain with high inclination such as a slope of the dam, so that the accurate measurement position of the acoustic wave There is a problem that can not be obtained.

Therefore, there is inconvenience in installation because it is necessary to fix the geophone using mud or the like or use a separate fixing device, and there is a possibility that measurement errors due to such fixing device may occur when measuring the acoustic wave. have.

The present invention has been made to solve the problems described above, it is an object of the present invention to provide a geophone that can maintain the accurate position of the acoustic wave measurement by preventing the movement of the geophone even in a terrain with a high slope such as the slope of the dam.

In addition, the present invention by combining the coupling portion of the geophone cone installed on the indicator and the coupling portion mounted on the signal receiver in a sliding manner, the geophone cone can be easily combined with the signal receiver in the state installed on the indicator The purpose of the phone is to provide.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the geophone according to an embodiment of the present invention, the bottom portion of the body portion of the geophone cone portion is formed flat, the storage portion is mounted on the lower side so as to slide from the upper side to the lower side of the geophone cone portion The formed geophone connection unit and the geophone signal receiving unit for receiving the elastic wave signal generated from the surface by screwing the upper side of the geophone connection unit, wherein the geophone cone portion, the polygonal coupling portion is provided integrally at the top Fixing grooves are formed on opposite sides of the coupling part, respectively, and an adhesive part is provided on the bottom thereof to maintain the surface and the adhesive force. The geophone connection part has a multi-faceted shape so that the receiving part is coupled to the coupling part. And a fixing part provided on an inner side of the receiving part to be coupled to a fixing groove formed in the coupling part. .

In addition, the geophone according to the present invention, the fixing groove is formed in the direction perpendicular to the direction in which the coupling portion is coupled to the inner surface of the receiving portion, the elastic member is inserted into the mounting groove and the elastic member is mounted on the It is characterized in that it comprises a fixing member which is movable along the seating groove, the end is arcuate to be coupled to the fixing groove.

In addition, the geophone according to the present invention is configured to be detachable one by one consisting of the adhesive sheet is laminated in a multi-layer, the adhesive sheet is characterized in that the adhesive material is applied only on one surface side in contact with the indicator.

In addition, the geophone according to the present invention is characterized in that the cross section of the coupling portion is made of any one of a square or a hexagon.

In addition, the geophone according to the present invention is characterized in that the geophone cone portion is formed of a carbon steel material having a weight.

In the method for detecting an acoustic wave using a geophone according to the present invention, a bottom surface of a body portion is made flat, and a coupling portion having a polygonal column shape is integrally formed at an upper end thereof, and geophone cones each having fixing grooves are formed at opposite sides facing the coupling portion. Preparing a part, mounting the geophone connection part screwed to the geophone signal receiving part in a sliding manner, and fixing the geophone cone part on the surface through an adhesive part provided on the bottom of the body part; And measuring a seismic wave generated in the ground through a geophone signal receiver connected to the geophone cone unit, wherein the geophone connection unit is provided with an accommodating portion having a cross-sectional shape to be coupled to the coupling unit. And a fixing part provided on an inner side of the receiving part to be coupled to a fixing groove formed in the coupling part. It shall be.

In addition, the acoustic wave detection method using a geophone according to the present invention, the adhesive portion is made of an adhesive sheet laminated in a multi-layer, the adhesive sheet is characterized in that the adhesive material is applied only on one surface in contact with the surface.

According to the geophone of the present invention, it is possible to maintain the measurement position for accurate seismic measurement by preventing the movement of the geophone even in the terrain with high inclination, such as the slope of the dam through the adhesive portion provided on the bottom of the body portion.

In addition, the geophone of the present invention can be easily coupled to the signal receiver in a state where the geophone cone is installed on the ground surface by combining the coupling portion of the geophone cone installed on the ground and the coupling portion mounted on the signal receiver in a sliding manner. There is an advantage to this.

1 is a schematic diagram schematically showing the structure of a conventional geophone.
2 is a perspective view showing the configuration of a geophone according to the present invention.
3 is a perspective view illustrating a geophone cone unit mounted to a geophone according to the present invention.
4 is a cross-sectional view showing a geophone connection portion mounted between the signal receiver and the geophone cone portion of the geophone according to the present invention.
5 is a flowchart showing a method for detecting an acoustic wave using a geophone according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Embodiments in accordance with the concepts of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail in this specification or application. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to a particular disclosed form, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between. Other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this specification, the terms "comprises ",or" having ", or the like, specify that there is a stated feature, number, step, operation, , Steps, operations, components, parts, or combinations thereof, as a matter of principle.

2 is a perspective view showing the configuration of a geophone according to the present invention. As shown, the geophone 1 is a geophone cone portion 100 is installed on the ground surface, the geophone connection portion 200 and the geophone connection portion 200 is mounted in a sliding manner geophone cone portion 100 It may be composed of a geophone signal receiving unit 300 is screwed with.

Although not shown, the geophone signal receiver 300 may include sensors that can receive an acoustic wave signal. In particular, such sensors may include a sensor capable of detecting seismic waves artificially generated at the surface due to explosion or blow using dynamite.

Therefore, it is fixed on the ground surface by the geophone cone part 100, and detects the artificial wave generated artificially through the geophone signal receiver 300 connected to the geophone connector 200 mounted on the geophone cone part 100. can do.

3 is a perspective view illustrating a geophone cone unit mounted on a geophone according to the present invention. As shown in the figure, the geophone cone portion 100 is formed in a flat shape so that the bottom surface can be installed on the ground surface, the upper portion has a polygonal column shape, for example, a cross-section rectangular or hexagonal coupling portion 120 It may be provided integrally.

Although the coupling part 120 is shown in the hexagonal shape in the accompanying drawings, the present invention may be formed in various forms. In addition, as shown in the opposite sides of the coupling portion 120, the fixing groove 130 may be formed respectively.

The geophone cone part 100 may be formed of, for example, a cylindrical body made of carbon steel having a heavy weight and have a heavy weight. In particular, the bottom surface of the body part 110 may have an adhesive part (eg, an adhesive part) to improve adhesion at the ground surface. 140 is provided.

The adhesive part 140 may be formed of an adhesive sheet 141 stacked in multiple layers, and the adhesive sheet 141 may be formed of a material including polyethylene or Teflon. In addition, each of the adhesive sheets 141_1 to 141_n may have an adhesive material 142 applied to only one surface of the adhesive sheets 141_1 to 141_n to adhere the geophone cone part 100 to the ground. Therefore, there is a characteristic that the position of the geophone cone part 100 can be fixed to an inclined surface, for example, a slope of a dam.

In addition, since the adhesive sheet 120 is laminated in a multi-layered structure, when changing the measurement position for measuring the acoustic wave, the adhesive sheet 120 can always be used by removing one adhesive sheet 141_1 to 141_n for each new measurement position. Can be maintained.

4 is a cross-sectional view showing a geophone connection portion mounted between the signal receiver and the geophone cone portion of the geophone according to the present invention.

As shown in the figure, the geophone connection portion 200 may be formed in the lower portion accommodating portion 210 that can accommodate the coupling portion 120 of the geophone cone portion 100. The cross section of the accommodating part 210 may be formed in the same multi-lattice shape as the cross section of the coupling part 120 so that the coupling part 120 may be mounted in a slide manner.

Both inner surfaces of the accommodating part 210 are provided with fixing parts 220 coupled with fixing grooves 130 formed at both sides of the coupling part 120. The fixing part 220 is a mounting groove 221 is formed in the direction perpendicular to the direction in which the coupling portion 120 is coupled to the inner surface of the receiving portion 210, the mounting groove 221 is elastic such as a spring Member 222 may be inserted.

In addition, the elastic member 222 may be attached to the fixing member 223, the end of which is arcuate. Therefore, the fixing member 223 mounted on the elastic member 222 is moved inwardly along the seating groove 221 by the external force, that is, by the coupling part 120 mounted on the accommodating part 210, and then elastically. By the elasticity of the member 223 may be coupled to the fixing groove 130 in a position facing the fixing groove 130 to combine the geophone cone portion 100 and the geophone connection portion 200.

The male screw type coupling member 230 is formed on the top of the geophone connecting portion 200, and may be screwed with the existing geophone signal receiver 300 having the female screw coupling member 310 formed thereon.

As described above, the geophone (1) of the present invention by mounting the geophone cone unit 100 to the geophone connection unit 200 connected to the existing geophone signal receiver 300 in a slide manner, the geophone cone unit 100 Not only facilitates the coupling of the and the phone signal receiving unit 300, but also the geophone on the ground surface with a large slope through the adhesive portion 140 made of a multi-layer laminated sheet 141 provided on the bottom of the geophone cone portion 100 There is a feature in that the seismic wave can be measured by installing (1).

5 is a flowchart of a method for detecting an acoustic wave using a geophone according to the present invention. As shown in Figure 5, the acoustic wave measuring method using a geophone according to the present invention, the bottom surface of the body portion 110 is made flat, the upper end is provided with a coupling portion 120 of the polygonal column shape, Opposite side surfaces of the coupling unit 120 is a step (101) to prepare a geophone cone unit 100, each of which has a fixing groove 130, and the coupling unit 120 is screwed with the geophone signal receiving unit 300 The step S102 of mounting the geophone connection unit 200 in a sliding manner, and the step of fixing the geophone 1 on the ground surface through the adhesive portion 140 provided on the bottom of the body portion 110 (S103) and It may include the step (S104) of measuring the acoustic wave generated in the ground via the geophone signal receiver 300 is connected to the geophone cone unit 100 and the geophone connection unit 200.

As described above, the seismic wave detection method using the geophone of the present invention, through the adhesive portion provided on the bottom surface of the body portion can be fixed to the geophone movement even in the slopes of the terrain, such as the slope of the dam to maintain the measurement position By doing so, accurate seismic measurement can be performed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. will be. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1: Geophone
100: Geophone Konbu
110:
120: coupling part
130: fixed groove
140: adhesive part
141: adhesive sheet
200: geophone connection
210: storage
220: fixed part
300: geophone signal receiver

Claims (9)

Geophone cone portion made of a flat bottom surface of the body portion;
A geophone connecting portion having an accommodating portion formed at a lower side thereof to be mounted in a sliding manner from an upper side to a lower side of the geophone cone portion; And
And a geophone signal receiver configured to receive a seismic signal generated at the surface by screwing the upper side of the geophone connector.
The geophone cone portion,
Polygonal pillar-shaped coupling portion is integrally provided at the upper end, and fixing grooves are formed on opposite sides of the coupling portion, respectively, and a bottom portion of the body portion is provided with an adhesive portion for maintaining adhesion to the ground surface.
The geophone connection unit,
Cross section is formed in a multi-shape shape so that the accommodating portion is coupled to the coupling portion, the fixing portion is provided on the inner surface of the accommodating portion is coupled to the fixing groove formed in the coupling portion,
The adhesive portion
Consists of detachable one by one consisting of a multi-layer adhesive sheet,
The adhesive sheet may be adhered to the surface of the geophone cone part by applying an adhesive material to only one side of the surface in contact with the ground surface,
When changing the measurement position for measuring the acoustic wave generated from the surface geophone comprising an adhesive sheet characterized in that each adhesive sheet is removed one by one for each new measurement position to bond the geophone cone portion to the ground surface.
The method of claim 1,
The fixing unit includes:
A seating groove formed in a direction perpendicular to a direction in which the coupling part is coupled to an inner surface of the accommodation part;
An elastic member inserted into the seating groove; And
And a fixing member mounted to the elastic member and movable along the seating groove, the fixing member having an arced end portion to be coupled to the fixing groove.
delete The method of claim 1,
The joining unit is a geophone comprising an adhesive sheet, characterized in that the cross section made of any one of a rectangle or a hexagon.
The method of claim 1,
The geophone cone portion, the geophone comprising an adhesive sheet, characterized in that formed of a carbon steel material having a weight. delete delete delete delete

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