KR100539075B1 - Support apparatus for structure keep the balance and prevent from quake - Google Patents

Abstract

The present invention is a support device for horizontal maintenance and vibration suppression of the structure installed between the bottom surface of the structure and the base surface on which the bottom surface is seated, two or more buffer plates in close contact with each of the bottom surface; First hollow pipes protruding downward from the buffer plates; Two or more storage vessels each having a fluid seated on the base surface, and communicating with each other at a lower level than the water level surface of the fluid, and through holes for one-to-one penetration of the first hollow pipe end to the upper surface. Wow; A cylinder mounted to the storage container in one-to-one correspondence and supported by the water level surface of each fluid; Two or more second hollow pipes protruding upward from the respective cylinders to be slidably fitted to one end of the first hollow pipe so as to be slidable; Provided is a support device for horizontal maintenance and vibration suppression of the structure including a coil spring interposed into the first and second hollow pipes to be connected to each other.

This has the advantage of maintaining the level of the structure constantly irrespective of the inclination of the base surface as well as effectively suppress the vibration transmitted to the structure or the vibration generated in the structure itself.

Description

Supporting apparatus for structure keep the balance and prevent from quake

The present invention maintains the horizontality of the structure irrespective of the inclination of the base surface on which the structure is seated, and at the same time, the support for horizontal maintenance and vibration suppression of the structure that can suppress the vibration generated from the structure or the structure itself. Relates to a device.

In general, vibration refers to a phenomenon in which an object is shaken from a reference position by an excitation force. The large and small vibrations commonly found in our daily life are sometimes useful but mostly work as unwanted co-operation. have.

In particular, due to the recent rapid industrialization, the damage caused by vibration is getting more serious, and it is considered to cause psychological discomfort, destroy the pleasant living environment, and shorten the life of buildings including human physiological disorders and machinery. . Therefore, ISO International Standards Organization defined the vibration transmitted to the human body into three stages: comfort decay limit (comfort standard), fatigue efficiency decay limit, and exposure limit.WHO goes one step further. By defining morphological or physiological changes of the human body, it warns that it causes a loss of intrinsic function of the human body, a loss of compensation for additional stress, and increased sensitivity to other environmental impact factors.

On the other hand, the causes of vibration in our daily life can be found in a variety of ways, especially in the construction site where large construction equipment is mobilized, the extreme vibration is inevitably accompanied by, for example, excavator (excavator), loader (loader) Equipment such as compressors, generators, rock drills, breakers, pile drivers, and concrete crushers typically exceed the Weak of Progress II. Vibration is generated, and the blasting method using explosives or vibration generated during the movement of a large dump truck also affects the construction site and the surrounding environment.

In addition, workers or their living environments close to the vibration source are exposed to vibration unprotected, and thus, workers often complain of dizziness or motion sickness, and temporary structures such as containers provided to their living environments. It is also common for office equipment such as computers and various precision measuring instruments to malfunction or break down due to the strong shaking due to direct contact with the ground.

However, most of the products used for vibration suppression now require expensive suspension elements such as membrane air springs or rubber air springs. It only stops protecting them.

Therefore, there is practically no method of suppressing vibration of the vibration source itself which generates extreme vibration such as a generator as well as a method of protecting a large structure such as a container from vibration, which requires enormous cost, time and effort. As it shows limitations, there is an urgent need for a concrete way to effectively suppress vibration through low-cost manufacturing and installation costs regardless of small and large structures.

On the other hand, small structures such as large structures such as the container or office equipment such as computers or various precision measuring instruments, such as generators, etc. should usually be seated on a horizontal base surface, and when the base surface is inclined, due to the inclination of the structure itself. It is difficult to expect performance due to increased fatigue or malfunction of various machinery.

In particular, large and small structures placed in an environment with extreme vibrations are also an important part of constant horizontal maintenance as well as vibration suppression, but in the case of construction sites, for example, it is difficult for the base surface to show the horizontal level as desired. Considering the temporary construction of the structures, the separate horizontal construction for each one entails enormous cost and time burden. Even if the horizontal construction is performed, the slope of the base surface may be changed due to extreme vibration or changes in the surrounding environment. The possibilities are very large. In addition, most of the horizontal construction methods introduced to date use horizontal measuring instruments such as level gauges to measure the horizontal level of the base surface or the floor surface of the structure, and then mobilize separate construction equipment to maintain the horizontal level by cutting or trimming the base surface. There is virtually no change or adjustment since the initial installation of the structure.

Therefore, there is an urgent need for a method of maintaining a stable horizontal level of the structure at a lower cost and time, and maintaining the horizontal level of the structure at all times despite the change in the slope of the base surface.

Accordingly, the present invention has been devised to solve the above problems, irrespective of the inclination of the base surface on which the structure is seated, while maintaining the horizontal level at all times, the vibrations transmitted to the structure or generated from the structure itself. It is an object of the present invention to provide a support device for leveling and suppressing vibration of a structure that can suppress vibration.

In addition, the present invention is universally applicable to a variety of different types of structures, regardless of the small and large size of the structure that is the horizontal maintenance and vibration suppression object, and also of the structure that can greatly reduce the cost and time required for manufacturing and installation thereof The purpose is to provide a support device for horizontal maintenance and vibration suppression.

In order to achieve the above object, the present invention is a support device for horizontal maintenance and vibration suppression of the structure installed between the bottom surface of the structure and the base surface on which the bottom surface is seated, at least two buffers in close contact with each of the bottom surface A plate; First hollow pipes protruding downward from the buffer plates; Two or more storage vessels each having a fluid seated on the base surface, and communicating with each other at a lower level than the water level surface of the fluid, and through holes for one-to-one penetration of the first hollow pipe end to the upper surface. Wow; A cylinder mounted to the storage container in one-to-one correspondence and supported by the water level surface of each fluid; Two or more second hollow pipes protruding upward from the respective cylinders and slidably fitted to the first hollow pipe ends in a one-to-one manner; Provided is a support device for horizontal maintenance and vibration suppression of the structure including a coil spring interposed into the first and second hollow pipes to be connected to each other.

At this time, it further comprises an annular guide flange protruding upward along the periphery of the through-hole of each storage container for guiding the first and second hollow pipes freely. At least two connectors provided at a lower level than each fluid level; An on / off cock attached to each connector; Characterized in that it further comprises a plurality of connecting pipes interconnecting the connectors of the different storage containers.

In addition, the buffer plate is characterized in that it is in close contact with each other at least two places along the edge of the bottom surface, in this case upright from each of the buffer plate to be in close contact with the side of the structure adjacent to the floor surface and bolt holes Further comprising at least one coupling piece penetrated, characterized in that the coupling piece and the side of the structure is coupled by bolts.

In addition, the fluid is characterized in that the waste oil.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a schematic perspective view of a supporting device (hereinafter, simply referred to as a supporting device) for horizontal maintenance and vibration suppression of a structure according to the present invention, which is a structure 2 that is an object of horizontal maintenance and vibration suppression. It is installed between the bottom surface 4 and the base surface 6 such as the ground on which the bottom surface 4 is seated, and takes the form of supporting the entire structure 2 from the base surface 6.

1 shows a case used for the structure (2) having a large rectangular bottom surface (4) like a container for convenience, the operation principle of the support device according to the present invention is briefly, fluid in the interconnected container The water level of is applied to Archimedes 'principle (Archimedes' Principle) that is the same horizontal plane irrespective of the slope of the floor, connecting the plurality of lifting units (10a, 10b) to be elevated along the water level surface of each stored fluid Connected to the tube 80 shows a structure in which the liquids of each other can be introduced into each other.

At this time, the plurality of lifting units (10a, 10b) shows a very similar in common in the structure surface, for convenience, the whole through the lifting unit (10a) located on one side side edge of the long axis direction of the bottom surface (4) of the structure (2) Explain.

2 and 3, respectively, are enlarged perspective views and cross-sectional views of the lifting unit 10a. Referring to FIG. 1, the lifting unit 10a is seated on the base surface 6 and has a predetermined fluid L therein. A storage vessel 20 stored therein and having a through hole 22 penetrating thereon, a cylinder 30 mounted inside thereof and being elevated along the water level surface of the fluid L, and upwardly from the cylinder 30. The first hollow pipe 40 protrudes and is exposed to the outside through the through hole 22 on the upper surface of the storage container 20, and is slidably fitted in the same length direction from the end of the first hollow pipe 40. The second hollow pipe 50, the coil spring 60 interposed into the first and second hollow pipes (40, 50) in communication with each other, and horizontal to the upper end of the second hollow pipe (50) And a buffer plate 70 in close contact with the bottom surface 4 of the structure 2.

Look at each one in more detail.

First, the storage container 20 is a portion for storing the predetermined fluid (L) and at the same time supports the entire lifting unit (10a) and provides a moving path for the lifting motion of the cylinder 30, the fluid stored therein ( L) may be used for all kinds of liquids, such as water or oil, whose level is smooth with respect to the inclination of the base surface 6. At this time, by using the waste oil (廢油) such as waste cooking oil or waste lubricant as the fluid (L) can reduce the manufacturing cost.

And at the side of the storage container 20 is provided with at least two connectors 26 in a lower position than the water level surface of the fluid (L), these connectors 26 are interconnected to the connector of the other storage container (10b) It becomes a connection point of the connecting pipe 80.

On the other hand, the plurality of lifting units (10a, 10b) included in the support device according to the present invention was said to be quite similar in structure to each other, in detail, the difference can be found in the number of the connector (26). 1, two lifting units located at both sides of the long axis direction of the bottom surface 4, as indicated by reference numeral 10a, and four edge side edges of the bottom surface, indicated by reference numeral 10b. It can be divided into four lifting units, the double 10a lifting unit of the storage container 20 can be provided with three connectors 26, the lifting unit of 10b is connected to the side of the storage container 20 ( 26 may be provided.

The reason for the difference in the number of the connector 26 according to the position of the elevating units (10a, 10b) is that each of the elevating units (10a, 10b) are connected to each other via the connector 80, which one In order to allow the fluid L stored in the storage container 20 of the elevating unit 10a to freely flow into the storage container 20 of the other lifting unit 10b, the connector 80 including the connector 26 is provided. The number of can be adjusted freely, and therefore the quantity of the connector 26 presented above is also merely an example, which will be readily understood by those skilled in the art upon reference to the following description.

In addition, the connector 26 may be provided with an on / off cock 28 that opens and closes each, and has a predetermined height along the periphery of the through hole 22 penetrating the upper surface of the storage container 20. It is preferable that the annular guide flange (24) of the protruding to guide freely so that the lifting of the first or second hollow pipe (40, 50) to be described later toward the correct vertical direction.

Next, the cylinder 30 is mounted in the storage container 20 to rise and fall along the water level surface of the fluid (L), which is preferably a hollow body, which is preferably made of a light metal such as aluminum (Al) because of its buoyancy. . In this case, in particular, the cylinder 30 may also have a similar cylindrical shape on the premise that the inside of the storage container 20 has a cylindrical shape, and the outer diameter of the cylinder 30 may be stored within a range that can be elevated within the storage container 20. It is preferable that the inner diameter of the container 20 be substantially similar, and if necessary, airtightness can be maintained through a plurality of annular O-rings 32 along the outer diameter of the cylinder 30.

Subsequently, the first hollow pipe 40 is erected from the cylinder 30 so as to pass through the through hole 22 of the storage container 20, and a hollow 42 in the longitudinal direction is formed therein.

In addition, from the upper end of the first hollow pipe 40, the second hollow pipe 50 is fitted so as to slide in the same longitudinal direction, the first hollow pipe 40 of the second hollow pipe 50 and When one end portion 54 is coupled to the other end 56, the inner diameter of one end 54 of the second hollow pipe 50 is greater than the outer diameter of the upper end of the first hollow pipe 40 so that the first hollow pipe is larger. The upper end of the 40 can be accommodated therein. On the contrary, the outer diameter of the one end 54 of the second hollow pipe 50 is smaller than that of the upper end of the upper end of the first hollow pipe 40. It may be housed inside the top end.

As a result, each of the first and second hollow pipes 40 and 50 is slidably coupled.

In addition, the second hollow pipe 50 also penetrates the hollow 52 along the inner longitudinal direction thereof, so that the first hollow pipe 40 and the second hollow pipe 50 are slidably coupled to each other by the hollow coupling. (42, 52) are in communication with each other, the coil spring (60) is interposed in the hollow (42, 52) in communication with each other of the first and second hollow pipes (40, 50) while maintaining a certain degree of elasticity Keep the overall length constant.

And the other end of the second hollow pipe 50 is coupled to the horizontal buffer plate 70, which provides a horizontal surface in direct contact with the bottom surface 4 of the structure 2 and at the same time the cylinder 30 and Together with providing the working point of the coil spring 60, it can exhibit a plate shape of a suitable thickness made of metal, etc., the area can be adjusted appropriately within a range that can stably support the structure.

On the other hand, the supporting device according to the present invention has been mentioned that serves to support the structure (2) is installed between the bottom surface 4 and the base surface 6 of the structure (2), stably the structure (2) It has been shown with reference to Figure 1 that it can be installed on both sides, including four corners of the edge of the structure (2) bottom surface 4 to support.

In this case, the buffer plate 70, at least one coupling piece that is upright from the edge of the buffer plate 70 in the state in which the bolt hole 74 is penetrated to the side adjacent to the bottom surface 4 of the structure (2) (72,76) may be provided, the buffer plate 70 by using the bolt that penetrates through the bolt hole 74 of the coupling piece (72,76) and is inserted into the side of the corresponding structure (2) Can be tightly fixed with the structure (2). At this time, the specific shape of the coupling piece 72, 76 may vary depending on the position of the lifting unit (10a, 10b), including the buffer plate 70, provided in the lifting unit indicated by the reference numeral 10a of the bottom surface (4) From the buffer plate 70 in close contact with both side edges, a first coupling piece 72 having a flat shape having a predetermined height may be used so as to be in close contact with the side surfaces adjacent to both sides of the structure 2. From the buffer plate 70 which is provided in the lifting unit indicated by reference numeral 10b and is in close contact with the edge side of the bottom surface 4, a cramped shape having a predetermined height so as to be in close contact with two sides adjacent to the corner portion of the structure 2. A second engagement piece 76 may be used.

Looking at the horizontal maintenance and vibration suppression action of the support device according to the present invention described above, the fluid (L) stored in the storage container 20 of each lifting unit (10a, 10b) is mutually introduced through the connection pipe (80) Therefore, in spite of the change in the inclination of the base surface 6, the fluid L stored in each reservoir 20 always maintains the same horizontal water level surface. As a result, the height of the cylinder 30 is also constantly on the same plane, and the structure in which the bottom surface 2 is supported by the buffer plate 70 including the first and second hollow pipes 40 and 50. Is substantially the same as that supported by the cylinder 30, and thus can be constantly leveled according to the height of these cylinders 30.

In addition, the first and second hollow pipes 40 and 50 connecting the cylinder 30 and the buffer plate 70 are slidably fitted to each other so that the first and second hollow pipes are contracted or extended in the longitudinal direction. The coil springs 60 interposed into the interconnected hollows 42 and 52 of the 40 and 50 exert a constant restoring force, and are transferred from the base surface 6 to the structure 2 through their buffering action. Vibration or vibration generated in the structure 2 can be effectively suppressed.

Therefore, when the support device according to the present invention is used in a container or the like, it is possible to suppress the vibration transmitted to the container from the base surface 6 while maintaining the horizontal level of the container at all times, and also when used in a vibration generating source such as a generator The vibration generated therefrom can be suppressed from being transmitted to the base surface 6 while maintaining the constant level of the constant.

On the other hand, Figure 4 attached is a schematic plan view schematically showing the bottom surface 4 of the structure (2) in which the support device according to the present invention, the same as before, on the premise that the bottom surface 4 is rectangular, the structure (2) Lifting units installed on both sides of the bottom surface (4) of the long axis direction of 10) is shown by dividing the lifting unit installed on the four corners of the bottom surface (4) of the structure (2) by 10b.

At this time, the lifting unit (10a, 10b) used in the support device according to the present invention according to the shape or area of the bottom surface 4 or the weight of the structure (2) can be installed in an appropriate number in the appropriate position, of course, these As long as each storage container 20 is interconnected via a connecting pipe 80, the effect is the same.

Finally, referring to Figures 1 to 4 described above briefly explaining the installation method of the support device according to the present invention, considering the weight of the structure (2) and the area of the bottom surface 4, etc. Prepare the lifting units 10a, 10b. At this time, the maximum load that each lifting unit (10a, 10b) can support can be considered, the on / off cock 28 of the connector 26 provided in the storage container 20 of each lifting unit (10a, 10b) To prevent the fluid (L) from flowing out.

Next, the connectors 26 provided in the storage containers 20 of each of the elevating units 10a and 10b are interconnected with a plurality of connectors 80, and the connectors 80 including these connectors 26 are An appropriate amount may be used so that the fluid L stored in one elevating unit 10a flows into any other elevating unit 10b, and various connection structures are possible.

Subsequently, the on / off cock 28 of the connector 26 provided in the storage container 20 of each lifting unit 10a or 10b is opened to communicate each storage container 20 with each other, thereby allowing each lifting unit 10a, The buffer plate 70 of 10b) is placed on the same horizontal plane.

Next, the structure 2 is placed on the buffer plates 70 of the lifting units 10a and 10b so that the bottom surface 4 is seated, and the first and second coupling pieces 72 are installed upright from the buffer plate 70. , 76 through each of the fastening bolts inserted into the side of the structure (2) to complete the installation of the support device according to the present invention, thereby maintaining the horizontal level of the structure (2) and vibration suppression is possible.

The support device according to the present invention described above can maintain the horizontal level of the structure despite the inclination of the base surface, and protect the structure from vibration transmitted to the base surface through a buffering action by the coil spring or the like or generated from the structure itself. It shows the effect of effectively suppressing vibration. In particular, the support device according to the present invention has the advantage that it can be applied universally regardless of the size and small size of the structure, it can be applied to a large container, as well as a relatively small generator, it is also mounted on the base surface It will be readily understood by those skilled in the art that the present invention can be used in all kinds of structures having a floor area above a certain area.

In addition, the supporting device according to the present invention shows a simple configuration as a whole while using cheap waste oil, and after adjusting the position of each of the elevating unit on the base surface and seating the bottom surface of the structure to the top of them, the installation is completed, And while significantly reducing the cost and time of installation, there is an advantage that can expect accurate horizontal maintenance and significant vibration suppression effect.

In addition, when the support device according to the present invention is used in construction, etc., there is an advantage that the horizontal level can be automatically maintained without additional process even if the slope of the base surface is changed.

1 is a perspective view of a support device according to the present invention.

2 is an enlarged perspective view of a portion of the support device according to the present invention.

3 is a cross-sectional view of a portion of the support device according to the present invention.

4 is a schematic plan view showing an installation example of the support device according to the present invention.

<Description of the symbols for the main parts of the drawings>

2: structure 4: bottom surface

6: base surface 10a, 10b: lifting unit

20: storage tank 22: through hole

24: guide flange 26: connector

28: on / off cock 30: cylinder

32: O-ring 40: first hollow pipe

50: second hollow pipe 60: coil spring

70: buffer plate 72,76: first and second coupling pieces

74: bolt hole 80: connector

L: Fluid

Claims (6)

A support device for horizontal maintenance and vibration suppression of the structure installed between the bottom surface of the structure and the base surface on which the bottom surface is seated, At least two buffer plates in close contact with the bottom surface; First hollow pipes protruding downward from the buffer plates; Two or more storage vessels each having a fluid seated on the base surface, and communicating with each other at a lower level than the water level surface of the fluid, and through holes for one-to-one penetration of the first hollow pipe end to the upper surface. Wow; A cylinder mounted to the storage container in one-to-one correspondence and supported by the water level surface of each fluid; Two or more second hollow pipes protruding upward from the respective cylinders and slidably fitted to the first hollow pipe ends in a one-to-one manner; Coil springs interposed into the first and second hollow pipes that are inserted into and communicate with each other. Supporting device for leveling and vibration suppression of the structure comprising a. The method of claim 1, Annular guide flanges protruding upward along the periphery of the through-holes of each storage container to guide the first and second hollow pipes freely. Supporting device for leveling and vibration suppression of the structure further comprising a. The method of claim 1, At least two connectors provided on the side of each storage container at a height lower than that of each fluid level; An on / off cock attached to each connector; A plurality of connectors for interconnecting the connectors of the different storage containers Supporting device for leveling and vibration suppression of the structure further comprising a. The method of claim 1, The buffer plate is a support device for horizontal maintenance and vibration suppression of the structure in close contact with each other at least two places along the edge of the bottom surface. The method of claim 4, wherein At least one coupling piece standing up from each buffer plate and penetrated by a bolt hole to be in close contact with the side of the structure adjacent to the bottom surface Further comprising, the side of the coupling piece and the structure is a support device for horizontal maintenance and vibration suppression of the structure is coupled to the bolt. The method of claim 1, The fluid supporting device for horizontal maintenance and vibration suppression of the waste oil structure.