KR20180055157A - Teaching aid to the bridge structure of balsa wood - Google Patents

Abstract

The present invention relates to an experimental tool capable of manufacturing or experimenting a structure model, which comprises: an experimental stand (100) having, at one spaced upper end, a plurality of pillars (110) including a concave portion (116) at one side end thereof and a rounding (113) at an upper end thereof, to inspect a load by hanging a bridge structure manufactured using balsa; and an experimental support plate (170) having a plurality of stepped concavo-convex portions (172) at one side of a lower portion thereof to be coupled or separated through a coupling concavo-convex portion (132) provided at both ends of left and right sides of the experimental stand (100). A structure manufacturing frame (200) is further provided at a lower end of the experimental stand (100), wherein the structure manufacturing frame (200) has a single pillar fixing stand (210) which has a step (212) at one side of an upper portion thereof, to traverse the structure manufacturing frame (200). Therefore, various types of trusses can be easily and accurately manufactured by simply processing widely distributed materials, to manufacture a bridge structure. In addition, a load bearing experiment can be easily performed even without various tools.

Description

{Teaching aid to the bridge structure of balsa wood}

The present invention relates to an experimental parabola capable of producing or testing a structural model. More particularly, the present invention relates to an experimental parabola capable of testing loads by hung on a bridge structure manufactured using a blast furnace, The present invention relates to an experiment and a fabrication parabola capable of producing an accurate bridge structure for the purpose of load inspection.

It is possible to understand the structure of the building by experimenting how much weight the structure model produced by constructing the structure model through the materials that can be easily obtained from the surroundings and placing the load on the model. This method is mainly performed at the middle and high school science practice hours, and related conventions are also common.

Generally, the structure model for implementing the above-mentioned experimental method is mainly used for launching wood or plastic, and when the structure model is manufactured using the launching tree, it is characterized in that it can hold the most weight with the smallest weight. Therefore, the test method of the load bearing structure using the blasted wood or plastic is to construct the bridge type structure in addition to the pillars type structure, and to carry out the load bearing test.

However, in the above-mentioned practice and experimental methods, a method of simply attaching the easily obtainable materials may be made to a well-made structure model even if the structure and dimensions are made according to the skill of the apprentice There was a problem in that it was difficult to carry out the load test under a smooth load because a structural model which collapsed even if a slight load was given partially existed.

Therefore, in order to implement the above-described embodiment using a more accurate method, technical literature such as a method of detecting a load on a bridge using a plastic assembling apparatus recorded in Korean Patent Registration No. 10-1231737 is disclosed and limited .

The present invention relates to a method of detecting a load on a bridge using a plastic assembly mechanism, comprising the steps of forming an experimental bridge assembly using a plastic assembly mechanism, measuring a load at the time of breaking by attaching a weight to the lower portion of the experimental bridge assembly, , And calculating the loading load of the actual bridge with respect to the load at break of the experimental bridge assembly using the tensile strength of the metal.

As another example, a truss member stress test apparatus recorded in Japanese Patent Application Laid-Open No. H08-030191 can be referred to.

This document discloses a force measuring member having a rotation diaphragm member and a connecting ring mounted in correspondence with a current or abdominal material of a stress measurement target position in a moving direction and a current measuring member having a connecting ring, And a general member arranged in correspondence with the above-described structure.

And then the stress acting on the force measuring member is connected to the connecting ring attached to the force measuring member, so that the stress acting on each member constituting the truss can be simply and reliably measured.

The recorded documents are especially the structural model to measure the load of bridges. The load model can be measured through the limited method of the bridge structure model produced according to the discretion of the apprentice, and since the connecting member is separately provided, It is possible to carry out an accurate load test regardless of the load.

However, the disclosed documents have a problem that the processing and use thereof is limited because the processing and use of the material is limited depending on the use, and when the parts are lost, Together.

1. Korean Registered Patent No. 10-1231737. 2. Japanese Unexamined Patent Publication No. H08-030191. 3. JP-A-2006-0988609. 4. Korean Patent Registration No. 10-1094709. 5. Korean Patent Registration No. 10-1589977.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a bridge structure capable of easily fabricating various types of trusses easily and accurately, The purpose of this study is to acquire an experimental and production parabola of a bridging bridge structure that can be constructed.

In order to solve the above-described problems, the present invention provides a test bench 100 including a test bench 100 having a plurality of pillars 110 spaced apart from one upper end as shown in FIG. 1, The burrs 116 are provided on one side of the filler 110 through the test and fabrication of the launch tree bridge structure composed of the experimental bedding board 170 which can be coupled or detached through the unevenness 132, (B) is inserted, and then an experimental support plate (170) is mounted between the two desks.

2, a plurality of step-like protrusions 172 may be provided on one side of the lower part of the test bed plate 170 so that the extension plate 180 is positioned at an accurate position And a structure forming frame 200 may be further provided at the lower end of the test bench 100.

6A, a single column fixing table 210 having a step 212 at one side thereof is provided across the structure forming frame 200, and the column fixing table 210 A small cut hole 220 and a large cut hole 230 which form an angle of 25 to 40 degrees (corresponding angle is 140 to 155 degrees) (X-shaped) from each of the small cutting holes 220 and the large cutting holes 230 so as to cut or cut the fired wood D, It is an embodiment that is preferable to be able to attach.

A suitable embodiment of the above-mentioned small cutting hole 220 is shown in FIG. 3, wherein the small cutting hole 220 is provided so as to have the same depth and width as the holes provided, The wood S can be cut obliquely and the rib S can be manufactured by further cutting the opposite side of the firing tree D obliquely cut as shown in FIG. 3A, so that the present invention can be solved .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an embodiment showing a preferred embodiment of an experimental activity according to the present invention, in a preferred embodiment of the present invention. FIG.
FIG. 2 is an exploded view showing a configuration for removing a test bench 100 from a test bench plate 170 in a preferred embodiment of the present invention. FIG.
FIG. 2A is a partially exploded view showing a configuration for removing a plate-like test plate 181 from a test bench 100 in a preferred embodiment of the present invention. FIG.
FIG. 3 is a view showing an example of a shape in which a firing tree D is cut obliquely through a small cutting hole 220, in a preferred embodiment of the present invention.
FIG. 3A is an embodiment showing a shape example in which, in a preferred embodiment of the present invention, the opposite side of the firing tree D obliquely cut through the small cutting hole 220 is cut out.
FIG. 4 is an exemplary view showing a shape in which the firing tree D is obliquely cut through the large-size cut-out hole 230 in a preferred embodiment of the present invention.
5 is an embodiment showing a shape example in which firing trees are bonded to each other through an assembly hole 240 in a preferred embodiment of the present invention.
Fig. 6 is an embodiment showing an embodiment in which, in a preferred embodiment of the present invention, the firing tree D is glued on the test bench 100 to dry.
FIG. 6A is a view showing in detail a glue flow hole 247 provided at one side of an adhesive hole 245, in a preferred embodiment of the present invention. FIG.

Hereinafter, the present invention will be described more specifically with reference to the drawings and examples.

1, the present invention includes a test bench 100 having a plurality of pillars 110 spaced apart from one upper end of the test bench 100, (B) to a concave portion (116) provided at one end of the filler (110) through an experimental and manufacturing equipments of a launch tree bridge structure composed of an experimental support plate (170) So that the test bench plate 170 is mounted between the side tables.

The basket V is mounted on the firing tree structure B and then the weight W is raised on the basket V to constitute an embodiment for solving the problems of the present invention.

In addition, as shown in FIG. 1, the extension plate 180 can be further inserted into the lower end of the experimental support plate 170, so that a pleasant experimental environment can be constructed.

2, a plurality of step-like protrusions 172 may be provided on one side of the lower part of the test bed plate 170 so that the extension plate 180 is positioned at an accurate position And a structure forming frame 200 may be further provided at the lower end of the test bench 100.

2A, when the embodiment described above is implemented, a plate-like test plate 181 having a concave center portion instead of the test plate 170 and the extension plate 180 may be used. However, The plate-like test plate 181 is characterized in that it can be quickly installed and tested with the test bench 100 through simple coupling with the test bench 100.

6A, a single column fixing table 210 having a step 212 at one side thereof is provided across the structure forming frame 200, and the column fixing table 210 A small cut hole 220 and a large cut hole 230 which form an angle of 25 to 40 degrees (corresponding angle is 140 to 155 degrees) (X-shaped) from each of the small cutting holes 220 and the large cutting holes 230 so as to cut or cut the fired wood D, It is an embodiment that is preferable to be able to attach.

In order to prevent the firewood D from adhering to the lower end of the test bench 100 when the firewood D is bonded to one side of the upper side of the assembly hole 240 as shown in FIG. 5 using an adhesive, A hole 245 is integrally formed with the pillar fixing table 210 and an adhesive flow hole 247 is further provided on one side of the adhesive hole 245 to excessively adhere the adhesive for attaching the firewood D It is possible to prevent the adhesive agent from remaining on the adhesive hole 245 by allowing the adhesive agent to flow down. In this case, the adhesive hole 245 may not be provided according to the selection of the applicant, It is desirable to be able to be implemented in a selective manner.

A suitable embodiment of the above-mentioned small cutting hole 220 is shown in FIG. 3, wherein the small cutting hole 220 is formed so as to have the same depth and width as the holes provided, ), And the rib S can be manufactured by further cutting the opposite side of the launch tree D, which is obliquely cut as shown in FIG. 3A.

4, when the width of the hole of the large cutting hole 230 is greater than the width of the large hole 230, So that it is possible to produce a stronger rib by making it possible to cut a plurality of the bonded fired woods D obliquely.

5, the user can mount the test bench 100 as shown in FIG. 6, thereby allowing the user to wait for the adhesive to dry when bonding the firewood D have. At this time, while the test bench 100 is held to maintain a certain angle, a rounding 113 is further provided at the upper end of the pillars 110 to facilitate adjustment of the elevation angle.

A height adjusting means such as a book or an eraser is supported on the lower part of the test bench 100 through the rounds 113 to stably mount the test bench 100 when the test bench 100 is mounted at various angles.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. , And the scope of the present invention can be easily changed by carrying out derivations that are obvious to those skilled in the art and can be carried out within the scope of the present invention.

100: bench 110: filler
113: rounding 116:
132: Combined concave and convex 170: Experimental plate
172: Rectangular concave 180: Extension plate
181: Plate-type test plate 200: Structure forming frame
210: a pillar fixture 212: a step
220: Small cutting ball 230: Large cutting ball
240: Assembly 245: Adhesive
247: Adhesive flow hole D: Launched wood
B: Launched wood structure S: Barrels
V: Basket W: Weight factor

Claims (6)

(100) having a plurality of pillars (110) having a rounded portion (113) at the upper end of the one side and having a recessed portion (116)
And an experimental support plate (170) having a plurality of stepped protrusions (172) on a lower side can be coupled or detached through coupling unevenness (132) provided at both left and right ends of the test bench (100) In the experiment and construction of the bridge structure,
The structure frame 200 is further provided at the lower end of the test bench 100,
Wherein the structure building frame 200 includes a single column support 210 having a step 212 on one side of its upper portion transversely to the structure building frame 200. [ .
The method according to claim 1,
And an extension plate (180) can be further inserted at the lower end of the experimental bedding board (170).
The method according to claim 1,
A small cutting hole 220 and a large cutting hole 230 are formed at one lower end of the column fixing table 210 to form an angle of 25 to 40 degrees (140 to 155 degrees in the corresponding angle)
And an assembly hole 240 having an X-shaped cross section at an angle of 25 to 40 degrees (corresponding angle is 140 to 155 degrees) is spaced apart from the small cut hole 220 and the large cut hole 230 Experimental and Production Diagram of Fired Wooden Bridge Structures.
The method of claim 3,
An adhesive hole 245 is integrally formed with the column support 210 on one side of the upper portion of the assembly hole 240,
And an adhesive flow hole (247) is formed at one side of the adhesive hole (245).
The method of claim 3,
The depth and width of the small cutting holes 220 are the same,
Wherein the width of the large hole (230) is two times larger than the depth of the large hole (230).
The method according to claim 1,
And a plate-shaped test plate (181) having a concave shape at the center end is joined to the test bench (100).

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