KR101934179B1 - Training Support Tools for Seismic Safety Evaluation - Google Patents

Abstract

[0001] The present invention relates to an evaluation support paradigm for supporting a safety evaluation of the result of a learner's activity of making an earthquake-proof structure, and more particularly, to an evaluation support paradigm for locating an evaluation target structure of various shapes, And an earthquake-proof support for evaluating the earthquake-proofness of the evaluation object structure by reciprocating the evaluation plate horizontally (imaginary seismic force) through a virtual seismic force (external force) transmitted through the connecting rod.

Description

{Support Support Tools for Seismic Safety Evaluation}

[0001] The present invention relates to a teaching apparatus for performing a safety evaluation of a learning result of a learner's earthquake-proofing structure, and more particularly, to a teaching apparatus for teaching a learning result through a random generation and transmission of an external force such as a virtual seismic force, And to an evaluation supporting parish that can evaluate the seismic safety evaluation of the evaluation target object objectively and more conveniently.

Recently, as the frequency of earthquakes has increased and the scale of the earthquakes has increased, interest in the safety of the building structure has been increasing, and learning activities on the structural characteristics of the earthquake-resistant structures have been actively carried out through the safety building construction activities. In addition, a variety of support materials for supporting and evaluating the safety assessment activities of seismic structures have also been released to the market.

However, in the case of the existing evaluation support parish, the volume of the seismic generator applied to the structure subject to the safety evaluation is large, and the structure is complicated, and the cost is not only high but also it can not flexibly respond to the size or volume of the evaluation target structure. There was a problem that it was difficult for young students to set up and use them. In addition, the strength and direction of an arbitrary earthquake can not be unified according to the structure to be evaluated, so that there are some portions in which the safety evaluation of the structures to be evaluated is not objective.

In addition, it is difficult for the learning manager to uniformly set the experiment process and the external condition setting (time and amplitude, etc.) of a large number of learners participating in the evaluation process of the seismic safety structure, There was.

In order to solve the above-mentioned problems, the present invention provides an evaluation board having an upper portion fastened to a fixed portion that can be fixed and fixed in accordance with the size and volume of a structure to be evaluated, The present invention provides an evaluation support diopter which can reduce the volume of the entire dioclet and reduce the production cost by providing an integrated earthquake generating unit capable of moving the trial plate connected to the diaphragm in the same direction as the actual earthquake.

Also, it is possible to provide an evaluation support paradigm which can more conveniently confirm and evaluate safety of the multiple evaluation target structures objectively and relatively in accordance with a virtual earthquake generated according to time, direction and external force pattern set through the present invention .

Also, through the present invention, the learner adjusts the amplitude of the external force such as the virtual seismic force applied to the structure to be evaluated, that is, the distance that the evaluation plate swings to the left and right by arbitrarily adjusting various seismic amplitudes, You can try a variety of things.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. There will be.

According to an aspect of the present invention, there is provided an earthquake-resistant structural safety assessment support apparatus comprising: a fixture for accommodating a structure to be subjected to an earthquake-proofness evaluation; an evaluation plate to which the fixture is attached to an upper portion; An evaluation system unit including a rotation bar formed on the evaluation target structure to assist the left and right movement of the evaluation plate according to the rotation cloud and a rail rod guiding the rotation of the rotation bar, And a system support unit including a bottom plate fixedly attached to the evaluation system unit and the earthquake-generating unit, and a non-slip rubber attached to a bottom of the bottom plate, wherein the earthquake- A switch for turning the power on and off, and an internal motor rotating and driving in accordance with on / off operations of the switch A crankshaft which is attached to one side surface of the reduced-speed motor and is coupled to the internal motor and rotates in accordance with the driving of the internal motor, and the other end is coupled to the crankshaft so as to be rotatable, And a connecting rod that is connected to one side of the evaluation plate and deforms the rotary motion generated through the reduction motor unit into a linear reciprocating motion and transmits the linear motion to the evaluation plate.

According to another aspect of the present invention, there is provided an earthquake-resistant structural safety assessment support apparatus including a fixture for accommodating a structure to be subjected to an earthquake-proof test, an evaluation plate having the fixture attached to an upper portion of the fixture, An evaluation system unit including a rotation bar formed to support the evaluation target structure in a horizontal direction and a rotation bar to assist the horizontal movement of the evaluation plate according to the rotation cloud and a rail rod guiding the rotation of the rotation bar, And a system support unit including an evaluation system unit, a bottom plate to which the earthquake-generating unit is fixed, and a non-slip rubber attached to the bottom of the bottom plate, wherein the fixing unit includes a plurality of vertical supports and a vertical support The horizontal supports supporting horizontally are fastened to each other to accommodate the evaluation target structure And the vertical support is formed of three or more independent trough-shaped members formed in a vertical direction so as to be partially fastened to the coupling grooves formed in the upper portion of the evaluation plate, Wherein the inner receiving part can be formed at a central position of the evaluation plate or at one side according to necessity according to the number, size, cross-section, shape, and ease of evaluation of the evaluation target structure, And an elastic material member surrounding the plurality of vertical supports so that the evaluation object structure can be stably accommodated in the internal accommodation portion so that the earthquake resistance evaluation test can be stably performed, A switch for turning on and off the power of the generator, A decelerating motor portion having an internal motor, a crankshaft protruding from one side of the decelerating motor portion and engaged with the internal motor to rotate in accordance with driving of the internal motor, and a crankshaft fixed to the crankshaft so as to be rotatable at one end thereof. And a connecting rod which is connected to one side of the evaluation plate and converts the rotary motion generated through the reduced speed motor part to a linear reciprocating motion and transmits the rotary motion to the evaluation plate. And a rotation driving pattern, and transmits the information on at least one of the deceleration control and the rotation driving pattern to an external master terminal connected through a network, And a drive control module for controlling rotation of the motor The master terminal may be configured to set at least one of the rotational drive time of the plurality of internal motors, the intensity control of the rotational drive, and the rotational drive pattern to be the same, The present invention provides an earthquake-proof structural safety assessment parabola capable of immediately confirming the results of the earthquake-proofness test for a plurality of evaluation target structures and collecting and managing the experimental result data of the study participants more easily It is possible.

According to another embodiment of the present invention, the earthquake-generating unit further includes a drive control module that adjusts a rotation drive time of the reduced-speed motor unit according to a setting of a user, The present invention can provide a support for evaluating the safety of an earthquake-proof structure.

According to another aspect of the present invention, the earthquake-generating unit further includes a drive control module for adjusting the intensity and rotation drive pattern of the rotation drive of the deceleration motor unit according to user's setting The present invention can provide a safety assessment support for an earthquake-proof structure, which can test various types of virtual earthquake situations on the evaluation target structure.

According to another aspect of the present invention, there is provided an earthquake-proof system in which the earthquake-generating unit transmits information on at least one of time, intensity adjustment, and rotation drive pattern of the rotation drive of the deceleration motor unit to a master terminal And a drive control module for controlling the rotation drive of the decelerating motor part according to at least one of a rotational drive time, a dynamics control and a rotation drive pattern set through the master terminal, It is possible to provide a parabola for supporting the evaluation of safety of an earthquake-proof structure, which is capable of simultaneously managing support parishes.

According to an embodiment of the present invention, the connecting rod is formed in a multi-stage folding type structure, and the one end of the connecting rod is separated from the crankshaft and the other end is fastened to one side of the evaluation plate. So that the learner can arbitrarily change the moving distance of the linear reciprocating motion in accordance with the change of the length of the connecting rod, It is possible to provide a parabola for supporting the evaluation of the safety of an earthquake-proof structure, which is capable of testing an earthquake.

According to another aspect of the present invention, there is provided a connecting rod for a connecting rod, wherein the connecting rod is fixed to the connecting rod such that the one end of the connecting rod is detachably attached to the crankshaft and the other end is detachably attached to one side surface of the evaluation plate, The learner arbitrarily adjusts the interval of the linear reciprocating motion of the trial plate according to the change in length of the connecting rod fastened to the crankshaft and the evaluation plate so that the learner tests a virtual seismic situation having various amplitudes with respect to the evaluation target structure The present invention can provide a safety assessment support for an earthquake-proof structure,

According to the embodiment of the present invention, the seismic safety test evaluation can be resiliently performed through the fixed portion where the position setting can be adjusted according to the size or volume of the structure to be evaluated.

According to the embodiment of the present invention, an evaluator can easily set an earthquake generating unit that applies a force such as an earthquake to an evaluation target structure to freely adjust the external force applied to the structure. In addition, By evaluating the structure, it is also possible to conduct an objective safety evaluation.

Further, according to the embodiment of the present invention, since the earthquake-proof unit is compactly integrated, it is possible to reduce the volume of the entire evaluation support parish so as to facilitate the use of the earthquake-proof unit and reduce the production cost.

Also, according to the embodiment of the present invention, the learning manager can easily manage a plurality of evaluation support parities participating in simultaneous experiment and evaluation through a network with a master terminal such as a computer, and can also confirm evaluation results.

It should be understood that the effects of the present invention are not limited to the above effects and include all effects that can be deduced from the detailed description of the present invention or the configuration of the invention described in the claims.

1 is a plan view according to an embodiment of the present invention.
2 is a front view according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is referred to as being "connected" (connected, connected, coupled) with another part, it is not only the case where it is "directly connected" "Is included. Also, when an element is referred to as "comprising ", it means that it can include other elements, not excluding other elements unless specifically stated otherwise.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises" or "having" and the like refer to the presence of stated features, integers, steps, operations, elements, components, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

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

1 and 2, an evaluation support apparatus 100 according to an embodiment of the present invention includes an evaluation system unit 110, an earthquake generation unit 130, and a system support unit 150.

The evaluation system unit 110 includes an evaluation support structure 100 including an anchor 111, an evaluation plate 113, a rotation bar 115 and a rail bar 117, And the durability test according to the virtual earthquake (external force applied to the structure to be evaluated 300) generated by the earthquake generation unit 130 to be described later can be performed.

As shown in FIG. 1, the fixing part 111 is located above the evaluation plate 113, which will be described later, and can be formed in a lattice structure in which the evaluation target structure 300 can be received. In this case, as shown in FIG. 2, the grid is configured such that the evaluation object structure 300 is accommodated in the grid by crossing four plate members 111a and 111b having different heights from each other horizontally and vertically . Also, considering the size and cross-section of the evaluation object structure 300 to be accommodated therein, the fixing part 111 adjusts the fastening intervals of the horizontal and vertical plates 111a and 111b, The size of the cross section can also be adjusted.

2, the plate member 111b in the transverse direction or in the transverse direction forming the fixing unit 111 is spaced apart from the evaluation plate 113 by a predetermined height and is fixed to the vertical plate member 111a .

Further, the fixing part 111 of the evaluation support diagonal 100 according to the embodiment of the present invention includes a vertical supporting part (not shown) and a horizontal supporting part supporting the supporting part horizontally A structure such as a vertical support such as a column installed at four corners that can be seen in the ring and a horizontal support such as a horizontal rope connecting thereto). In this case, the vertical support (not shown) of the fixing part 111 may be formed by a user depending on the size or shape of the fastening part of the evaluation target structure 300, the number of the structures 300 to be simultaneously evaluated, The test plate 113 may be positioned at the center of the test plate 113 with reference to a plan view (FIG. 1) or may be installed at one side of the test plate 113 as needed. However, the supporting member (not shown) may be formed of three or more independent vertical members, depending on the size and shape of the cross section of the portion to be evaluated or received by the fixing unit 111, , And may be designed so that the evaluation object structure 300 formed of a material having elasticity and received therein is tightly received.

In addition, the horizontal support (not shown) according to an embodiment of the present invention can stably receive the evaluation target structure 300 by supporting the support (not shown) composed of the three or four or more independent vertical members in the horizontal direction (Not shown) so as to surround the support. In addition, the horizontal supporting member (not shown) may be designed so that the evaluation target structure 300 is not separated and dropped off during the seismic safety test through a method of supporting the supporting member in the inner space direction.

The test plate 113 is attached to the upper portion of the fixing member 111 in a detachable manner so that the fixing member 111 can be detached from the upper portion of the test plate 113. The lower end and the lower end of the test plate 113 are coupled with the connecting rod 133, And the external force (a virtually generated force such as a seismic wave) transmitted through the fixed structure 111 can be finally transmitted to the evaluation target structure 300 that is accommodated or inserted into the fixed structure 111. The trial plate 113 may have a fastening groove (not shown) at a predetermined position on the upper portion thereof to easily accommodate the fixing portions 111 having various shapes such as a plate, a column, and a multi-piece. It is also possible to adjust the spacing of the four plate members crossed according to the size, cross-section and shape of the evaluation target structure 300 to be accommodated in the grid of the fixing unit 111, One or more of the plate members may be changed to a predetermined position.

As shown in FIG. 2, the rotation bar 115 is rotatable with respect to the trial plate 113 so that it can roll in a clockwise direction or a counterclockwise direction in accordance with the lateral movement of the trial plate 113 according to the provision of the external force. And the lower end portion is in contact with a rail bar 117 formed of a rail formed to be long in a left-right moving direction so that stable lateral movement is possible. However, as shown in FIG. 1, the rotating rod 115 according to an embodiment of the present invention is formed of two or more pieces for stable rolling, , And wood.

The lower end of the rail rod 117 is fastened to the bottom plate 151 to facilitate the lateral movement of the trial plate 113 do. For this purpose, the rail rods 117 may be formed long in the lateral direction of the evaluation plate 113 on both end portions of the evaluation plate 113 as shown in Figs. 1 and 2.

The earthquake generating unit 130 is fixedly attached to one side of the upper part of the system supporting unit 150 to be described below and includes a switch 131, a connecting rod 133, a crankshaft 135, a reduction motor unit 137, (External force) capable of supporting the lateral movement of the trial plate 113 described above including the test piece 139.

The switch 131 includes a power supply system (not shown) including a power supply unit (not shown) so that the user can turn on and off the power supply of the reduced-speed motor unit 137. To this end, the switch 131 may include a power supply operating switch used for a conventional household appliance, an electronic appliance, and an electronic circuit and a system for supplying and operating the power supply to the target product in accordance with the on / off state of the switch. Accordingly, when the user of the present invention turns on the power of the switch 131, the decelerating motor section 137 is operated, and the crankshaft 135 protruded from one side of the decelerating motor section 137 is set as shown in FIG. Direction.

The connecting rod 133 is fastened to the crankshaft 135 such that one end of the connecting rod is rotatable and the other end of the connecting rod 133 is fixedly attached to one side of the evaluation plate 113 to rotate the rotation transmitted from the crankshaft 135 in a linear reciprocating motion Leftward and rightward movement) and transfers it to the trial board 113. This allows the external force (virtual earthquake) to be transmitted to the evaluation target structure 300 that is received or coupled to the fixing unit 111.

According to an embodiment of the present invention, the amplitude of the external force transmitted to the evaluation plate 113 through the provision of the connecting rods 133 formed in various lengths, that is, the distance that the evaluation plate 113 moves right and left can be adjusted do. That is, when the learner uses the relatively long connecting rod 133, the rotational motion of the crankshaft 135 fastened to one end is converted into a linear reciprocating motion of a wider interval through the other end of the connecting rod 133 And is provided to the evaluation board 113, and a wide imaginary earthquake amplitude (referred to as a right-left distance or a distance for reciprocating linear motion) can be transmitted to the evaluation object structure 300. On the other hand, when the learner uses the connecting rod 133 set to be relatively short, the rotational motion of the crankshaft 135 is converted into a linear reciprocation at a narrower interval through the other end of the connecting rod 133, So that a virtual seismic force having a relatively short left and right spacing acts on the structure 300 to be evaluated. To this end, the connecting rod 133 has a multi-stage folding-type structure in which the front end member is inserted into the lower end member fastened at the lower end and, if necessary, (E.g., formed to secure a length and a space) or may be fastened (e.g., pinned) to a structure capable of being detachably attached to the evaluation plate 113 and the crankshaft 135, It is possible to freely change the amplitude of the virtual seismic force according to the purpose of the learning, and to conduct the seismic safety test. For this purpose, the evaluation support diary 100 according to an embodiment of the present invention includes a connecting rod 133 that can be adjusted in length and has a multi-stage folding structure, or two Or may include the connecting rod 133 described above. When the connecting rod 133 having two or more different lengths is provided, the connecting rod 133 is fastened at one end thereof to the crankshaft 135 and at the opposite end to the one side of the trial plate 113, And the interval of the linear reciprocating motion of the trial plate 113 can be arbitrarily adjusted according to the change in length of the connecting rod 133 fastened to the crankshaft 135 and the trial plate 113, It is possible to test a virtual earthquake situation having various amplitudes with respect to the target structure 300.

One end of the crankshaft 135 is coupled to one side of the reduction motor section 137 so as to be rotatable and the other end thereof is coupled to the connecting rod 133 so as to rotate the rotation transmitted from the reduction motor section 137, (133).

The decelerating motor unit 137 is turned on and off according to the operation of the switch 131 and starts driving the internal motor (not shown) when the power is supplied. Through the driving of the internal motor, And the rotation of the crankshaft 135 directly coupled with the internal motor is also performed according to the rotation of the internal motor.

The drive control module 139 controls the operation of the evaluation support device 100 by the user based on the operation time of the evaluation support device 100, that is, the external force applied to the evaluation target structure 300, 113) can be controlled by controlling the time of the virtual earthquake applied to the evaluation target structure (300) by the external force applied to the target structure (300). Accordingly, when the user sets the time for applying the external force in advance through the drive control module 139 and operates the switch 131, the external force transmitted through the connecting rod 133 for the set time according to the user's needs It is possible to evaluate the seismic safety of the evaluation object structure 300 by swinging the evaluation plate 113 to the left and right (moving left and right along the rail rods 117).

In addition, the drive control module 139 may be provided with a function of controlling, adjusting and setting the speed of the deceleration motor section 137 to change the intensity of the external force for a predetermined period of time according to the user's need, The intensity of the rotation speed may be adjusted or the rotation speed of the rotation speed within a certain range may be repeated. In this way, it is possible to design various external force conditions applied to the same object to be evaluated 300 and to test the seismic safety according to the external force condition.

Further, the drive control module 139 sends information about the set external force transmission condition (the time of the rotation drive generated through the reduction motor section 137, the intensity control of the rotation and the pattern of the rotation drive, etc.) (Not shown) capable of exchanging data with the diagonal 100 or a master terminal (which may be a computer or a notebook connected by a wired or wireless network such as the Internet). This makes it easier to set the same external force condition (external force to be transmitted to the trial 113 via the connecting rod 133) to a plurality of trial support parishes 100 that are simultaneously used by the learner in the same learning room, And it is also possible to immediately check the results of the earthquake-proofness test on the plurality of structures 300 to be evaluated. Also, it is advantageous that a teacher in charge of an earthquake-proof test can easily collect and manage experiment result data of a plurality of learning participants through one master terminal. In other words, the learning manager instructs the deceleration motor section 137 included in one or more evaluation support dispensaries 100 to transmit information on any one or more of the rotation drive time of the internal motor, the intensity control of the rotation drive, It is possible to transmit the same through the connected master terminal to set the same one or more of the one or more of the one or more evaluation support dioceses 100 under the same condition. In addition, the learning manager receives the external force condition transmitted through the drive control module 139 through the master terminal, and can simultaneously manage a plurality of evaluation support dioceses 100.

2, the system supporting unit 150 includes a bottom plate 151 fixed to the upper surface of the evaluation system unit 110 and an earthquake-generating unit 130, Anti-slip rubber 153. Accordingly, the system support unit 150 can stably perform the seismic safety test continuously regardless of the size or the weight of the structure 300 to be evaluated.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

100: Evaluation support parish
110: Evaluation System Department
111:
111a: Support base / 111b horizontal support
113: Trial Version
115:
130:
131: Switch
133: Connecting rod
135: Crankshaft
137: Deceleration motor section
139: drive control module
150: system support
151: bottom plate
153: Non-slip rubber

Claims (7)

In support of safety assessment of earthquake-resistant structures,
A test section having a fixing section to which the fixing section is attached at an upper portion thereof, a rotation bar formed at a lower portion of the evaluation plate to assist the left and right movement of the evaluation plate along the rotation cloud, An evaluation system unit including a rail bar,
An earthquake generation unit for providing an external force applied to the evaluation target structure;
And a system support including a bottom plate fixedly attached with the evaluation system unit and the seismic generator, and a non-slip rubber attached to the bottom of the bottom plate,
The fixing unit includes:
A plurality of vertical supporting rods and horizontal supporting rods supporting the vertical supporting rods horizontally are coupled to each other to form an internal receiving portion capable of receiving the evaluation target structure,
The vertical support rods
And three or four or more independent trough-shaped members long in the vertical direction so as to be partially fastened to the coupling grooves formed in the upper portion of the evaluation plate. The number, size, cross-section, shape, and safety evaluation According to the method, the user can form the inner receptacle at one position, depending on the center position or the necessity of the evaluation plate,
The horizontal support includes:
And an elastic material member surrounding the plurality of vertical supports so that the evaluation subject structure can be stably accommodated in the inner accommodation portion so that the earthquake-proof evaluation test can be performed stably,
The earthquake-
A reduction motor portion having a switch for turning on and off the power source of the earthquake-generating portion, an internal motor for rotating in accordance with on / off operation of the switch, A crankshaft which rotates according to the driving of the motor and a crankshaft which is connected to one end of the crankshaft so as to be rotatable and the other end of which is connected to one side of the evaluation plate to convert a rotary motion generated through the reduction motor unit into a linear reciprocating motion, And transmits the information to at least one of an external master terminal connected through a network, and a controller for transmitting the at least one of the set rotational driving time, The time of rotation driving set by the user, the intensity adjustment and the rotation drive pattern Further comprising a drive control module for controlling the rotation drive of the deceleration motor part according to any one or more of the information,
Via the master terminal,
It is possible to set at least one of the rotational drive time of the plurality of internal motors, the intensity control of the rotational drive, and the rotational drive pattern to be the same,
It is possible to immediately confirm the results of the earthquake-proofness test for a plurality of evaluation target structures,
And the data of the experimental results of the participants can be easily collected and managed. delete delete delete delete delete The method according to claim 1,
The connecting rod
Wherein the one end is fastened to the crankshaft and the other end to be detachably attachable to one side of the evaluation plate,
The learner adjusts the interval of the linear reciprocating motion of the trial plate in accordance with the change in length of the connecting rod fastened to the crankshaft and the evaluation plate so that the learner tests a virtual seismic situation having various amplitudes Which can be seen from the viewpoint of safety evaluation of earthquake-proof structures.

Images