KR101427522B1 - Height adjustable support having enhanced vertical bearing capacity - Google Patents

Abstract

Disclosed is a height adjustable support having enhanced bearing capacity against in the vertical direction. A vertical and/or horizontal guide member is arranged between lower and upper bases, and a wedge horizontal interval support member is coupled to a pair of wedge members symmetrically disposed at left and right sides of the guide member to adjust the horizontal interval of the wedge members by penetrating the vertical/horizontal guide member. The vertical and/or horizontal guide member guides the horizontal movement of the wedge members and the vertical movement of the upper base. Base vertical interval assisting support members are installed at both sides of the vertical and/or horizontal guide member between two wedge members, wherein the assisting support members space the center portion of the top surface of the lower base and the center portion of the bottom surface of the upper base as far as a desired distance apart and support the upper base in the vertical upward direction by using the lower base as a fulcrum. A vertical load applied to the upper base is dispersed by two wedge members and the base vertical interval assisting support member, and thus the strength of the structure against the vertical load is reinforced. The base vertical interval assisting support member is engaged to the lower and upper bases by screws to provide force against force applied to the center portion of the upper base which tends to bend upwardly.

Description

Technical Field [0001] The present invention relates to a height adjustable support having an enhanced vertical support force,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a support apparatus capable of supporting a load of a heavy structure, and more particularly to a support apparatus for supporting a load of a structure using a wedge, The present invention relates to a height-adjustable pedestal device having an additional member.

Nuclear power plants are equipped with numerous equipment. Some of the equipment must be installed and maintained so that the weight is heavy and the horizontal level is very precisely matched. It is desirable that the pedestal used when installing such equipment should have an adjustable height in the field. A pedestal structure used as a bridge for a bridge can also have this demand.

Korean Patent Registration No. 10-1154102 (entitled " load measuring apparatus and structure supporting apparatus using the same ") discloses a structure in which a pair of wedge members are inserted between a wedge member and a wedge upper surface member, And a bolt is fastened to each of the pair of wedge members in a horizontal direction outside to support each wedge member in a horizontal direction. The vertical distance between the wedge member and the wedge member varies according to the horizontal distance between the pair of wedge members, and the horizontal distance between the pair of wedge members varies depending on the fastening depth (fastening length) between the bolt and the wedge member to be.

In order to increase the variation width of the vertical distance between the wedge member and the wedge upper surface member, the variation width of the horizontal interval of the pair of wedge members should be increased. However, this structure has no supporting structure between a pair of wedge members, so that when the horizontal distance between the pair of wedge members increases, the central portion of the wedge top member becomes structurally weak. An additional vertical load, which can not be predicted due to factors such as earthquakes, can be applied to the wedge top surface member. In such a situation, the above structural weakness may cause problems (such as deterioration of the wedge top surface member, ). ≪ / RTI >

Further, the wedge top surface member is not tightly fixed to the member so that the wedge top surface member is not detached from the member in a vertical direction, so that the vertical load applied to both ends of the wedge top surface member can not resist the force to bend the middle portion upward.

The present invention can arrange a pair of wedge members so as to face each other between the upper and lower supports and to adjust the height of the pedestal to a desired size according to the distance adjustment such that the wedge members are pushed inward or outward like a piston, And it is an object of the present invention to provide a height variable type pedestal device capable of providing a vertical load resistance reinforced by further adding a supporting member and fixing an upper pedestal to a lower pedestal to provide a negative reaction resistance function to the upper pedestal.

According to an aspect of the present invention, there is provided a method of manufacturing a semiconductor device, comprising: a lower pedestal having a lower surface and an upper surface including first and second inclined planes provided on both sides of a virtual x- ; An upper pedestal having an upper surface and a lower surface including third and fourth inclined planes provided on both sides of the x-axis; And a second inclined plane which is inserted between the first inclined plane and the third inclined plane and supports the left portion of the upper pedestal while the lower surface and the upper surface are in close contact with the first inclined plane and the third inclined plane, a first wedge member for adjusting a height of a pedestal which varies a vertical interval between the first inclined plane and the third inclined plane as the y-axis is varied in the horizontal direction; Wherein the first inclined plane and the second inclined plane are symmetrically disposed to face the first wedge member with respect to the x axis, and the lower and upper surfaces are inserted between the second inclined plane and the fourth inclined plane, And a second elevation second height adjusting unit for varying the vertical distance between the second oblique plane and the fourth oblique plane as the arrangement position is changed in the y-axis horizontal direction while supporting the right portion of the upper pedestal, Wedge member; A wedge horizontal spacing member for supporting the first wedge member and the second wedge member such that a y-axis horizontal spacing between the first wedge member and the second wedge member is adjusted to a desired size; A support vertically spacing auxiliary support member for supporting the upper support vertically upward by connecting the central portion of the upper surface of the lower pedestal and the center portion of the lower surface of the upper pedestal to each other at a desired interval and using the lower pedestal as a support; And a second wedge member which is fixed to either the lower pedestal and the upper pedestal and is provided between the lower pedestal and the upper pedestal and at the same time between the first wedge member and the second wedge member, And a vertical / horizontal guide column for guiding a relative motion in the z-axis vertical direction between the pedestals and guiding the y-axis horizontal relative motion between the first wedge member and the second wedge member, And a vertical load is shared between the first wedge member and the second wedge member as well as the vertical support member.

Each of the first and second inclined planes is inclined planes inclined at a constant inclination in the lower diagonal direction as the distance from the x axis is, and each of the third and fourth inclined planes is distant from the x axis It may be a sloped plane that is inclined at a constant slope in the upper diagonal direction.

Wherein the height adjustable pedestal device is bent in the vertical direction at both lateral ends of the y-axis in the horizontal direction of the lower pedestal and the upper pedestal and extends so as to face each other such that the first wedge member and the second wedge member face the back Axis direction so as not to be pushed out of both ends of the y-axis in the horizontal direction. In this case, it is preferable that the pedestal apparatus further comprises a pair of wedge-holding jaws, at least one of the rear surface and the front surface of the first wedge member, and the other pair of wedge- The first wedge member and the second wedge member are inserted between at least any one of a rear surface and a front surface of the second wedge member so that the lower surface and the upper surface are in contact with the first inclined plane and the third inclined plane and with the second inclined plane and the fourth inclined plane, And a plurality of auxiliary wedge members for supporting the left and right portions of the upper pedestal, respectively.

The first to fourth inclined planes constituting the upper surface of the lower pedestal and the upper pedestal may be inclined planes having the same absolute magnitudes of the inclination.

Preferably, the vertical / horizontal directional column is a rectangular column whose y-axis horizontal length is longer than the maximum horizontal interval between the first wedge member and the second wedge member and whose z-axis vertical height is higher than the lowest level of the upper pedestal Do. The maximum horizontal spacing is a distance between two front surfaces of the first wedge member and the second wedge member when the back surfaces of the first wedge member and the second wedge member are respectively positioned at both ends of the lower and upper supports, , The lowest level of the upper pedestal is the lowest level of the lower surface of the upper pedestal when the first wedge member and the second wedge member are approaching the closest possible distance. The front and rear surfaces of the first and second wedge members are formed in a shape of a predetermined length widened toward the rear side and are guided by two side surfaces in the ± x direction of the square pillar and are slid in the horizontal direction It is preferable that guide grooves are respectively provided. One of the lower pedestal and the upper pedestal is fixed to the vertical / horizontal direction column at the center portion and the other is guided by at least two opposite side faces of the vertical / horizontal rectangular column, It is preferable to provide a vertical guide groove that slides along the guide groove.

According to an example of the configuration for mounting the wedge horizontal spacing support member, horizontal through holes are formed in the vertical / horizontal direction column and the first and second wedge members along a virtual coaxial line in the y-axis horizontal direction do. The wedge horizontal spacing support member may be formed such that threads are formed on an outer surface of at least a portion of at least both ends of a rod longer than the y-axis horizontal length of the upper or lower pedestal, and the first wedge member, A horizontal spacing support bar extending through the horizontal through holes of the second wedge member in the horizontal direction of the y axis; And a nut fastened to the thread of the portion of the both end portions of the horizontal gap support bar to support the back surface of each of the first wedge member and the second wedge member.

According to another example of the configuration for installing the wedge horizontal spacing member, horizontally-through holes are formed in the vertical / horizontal direction column and the first and second wedge members along imaginary coaxial axes in the y- And at least the inner surface of the horizontal through hole of the vertical / horizontal direction column is formed with a thread. The wedge horizontal spacing support member includes: a first horizontal spacing support bolt having a distal end portion that passes through a horizontal through hole of the first wedge member and is fastened to a thread of a horizontal through hole of the vertical / horizontal direction post; And a second horizontal spacing support bolt whose front end portion passes through a horizontal through hole of the second wedge member and is fastened to a thread of a horizontal through hole of the vertical / horizontal direction post, The head of the bolt supports the back surfaces of the first and second wedge members, respectively.

In order to install the pedestal vertical spacing auxiliary support member, the lower pedestal and the upper pedestal are formed with at least one pair of vertical through holes along one or more coaxial axes in the z-axis perpendicular direction. The at least one pair of vertical through holes are located between the first inclined plane and the second inclined plane and between the third inclined plane and the fourth inclined plane. The pedestal vertical spacing auxiliary support member may include at least one lower bolt penetrating the vertical through holes provided in the lower pedestal vertically upward and protruding by a predetermined length; One or more upper bolts projecting vertically downward through the vertical through holes provided in the upper pedestal and protruding by a predetermined length to face each of the at least one lower bolt; And at least one nut fastened to the upper and lower bolts of each pair facing each other to support each pair of upper and lower bolts spaced apart at a desired interval and to be held as is.

In this case, threads are formed on the inner wall of the vertical through hole of the lower pedestal and the upper pedestal, and the lower pedestal and the upper pedestal may be screwed to the lower bolt and the upper bolt, respectively.

Wherein an upper surface of the lower pedestal and a lower surface of the upper pedestal are connected to both sides of the vertical / horizontal guide post, between the first inclined plane and the second inclined plane, and between the third inclined plane and the fourth inclined plane And two planes of the two predetermined sections provide a stopper function for preventing the first and second wedge members from approaching within a predetermined distance, The at least one vertical through hole may be formed in two planes of the two predetermined sections.

The conventional height variable type pedestal device has a structure in which the vertical load applied to the upper pedestal is concentrated on the wedge member, whereas in the case of the pedestal device of the present invention, the additional pedestal vertical spacing auxiliary support member shares a part of the vertical load thereof , Providing enhanced vertical load bearing capacity.

Further, in order to lower the height of the pedestal, the gap between the pair of facing wedge members should be maximized. In this case, according to the structure of the conventional pedestal device, since the thin thickness portion of the upper pedestal is placed on the wedge member, the vertical load resistance of the upper pedestal is weakened. In contrast, in the structure of the pedestal device of the present invention, since the vertical supporting member at the vertically spaced distance between the pair of facing wedge members supports the upper pedestal in the vertical direction using the lower pedestal as a stepping plate, can do. Therefore, even if an additional vertical load, which can not be predicted due to an earthquake or the like, is caught on the pedestal, it can be tolerated. Pedestal Vertical Gap The auxiliary support member allows it to function as a more stable pedestal.

The pedestal device according to the present invention has a structure in which the upper bolt and the lower bolt constituting the vertical support assist member of the pedestal are screwed to the upper pedestal and the lower pedestal and tightly connected to each other by a nut. This structure provides a buckling force on the upper pedestal to prevent the center portion from deforming upward due to the vertical load applied to both ends of the upper pedestal.

FIG. 1 is a perspective view showing an assembly state of a height-adjustable pedestal device according to a first embodiment of the present invention,
FIG. 2 is an exploded perspective view of the pedestal device of FIG. 1,
FIG. 3 is a front view of the pedestal device of FIG. 1 when the height is maximized (when the pair of wedge members are maximally adjacent)
Figure 4 is a front view of the pedestal device of Figure 1 when the height is maximized (when the pair of wedge members are spaced apart to a maximum)
FIGS. 5 and 6 are perspective views of assembled height adjustable pedestal devices according to a second embodiment of the present invention. FIG. 5 shows a state where the height is maximized, and FIG. Respectively,
7 is a vertical sectional view showing a height-adjustable pedestal device (an example of a modification of the wedge horizontal distance support member) according to the third embodiment of the present invention.

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

(1) First Embodiment

1 to 4 show a height adjustable pedestal device 100 according to a first embodiment of the present invention. The pedestal apparatus 100 includes a lower pedestal 110, an upper pedestal 120, a first wedge member 130, a second wedge member 140, a wedge horizontal spacing member 150, 160, and a vertical / horizontal guide post 170.

The lower surface 113 of the lower pedestal 110 is a flat surface that can be held in close contact with the flat bottom of the installation space and the upper surface of the lower pedestal 110 has a virtual x- And includes a first inclined plane 112 and a second inclined plane 114 disposed on both sides. It goes without saying that the lower surface 113 may not be flat depending on the bottom of the installation space.

The upper pedestal 120 has a flat upper surface 123 to stably support the structure to be supported and a third inclined plane 122 and a fourth inclined plane 124 provided on both sides of the imaginary x- As shown in FIG. The top surface 123 may also be non-planar depending on the condition of the bottom surface of the support structure.

It is preferable that a bolt mounting plane 115 having a predetermined section w parallel to the y axis is provided between the first inclined plane 112 and the second inclined plane 114. This bolt mounting plane 115 is divided by a vertical / horizontal guide post 170 disposed across the center portion (details will be described later). Similarly, between the third inclined plane 122 and the fourth inclined plane 124, it is preferable to provide a bolt mounting plane 125 of a predetermined section w parallel to the y-axis. The two planes 115 and 125 also provide a stopper function to prevent the first wedge member 130 and the second wedge member 140 from approaching within a predetermined distance. Of course, without providing such planes 115 and 125, the first inclined plane 112 and the second inclined plane 114 are connected to each other, and the third inclined plane 122 and the fourth inclined plane 124 are connected to each other It may be provided in an adjoining form. However, it is advantageous to provide two planes 115 and 125 in order to secure the installation space of the vertical support member 160 and to secure the stopper function for the first and second wedge members 130 and 140 .

Vertical through holes 116 and 126 for bolt fastening are formed on both sides of the vertical / horizontal direction column 170 on the bolt mounting plane 115 and the plane 125, respectively. It is preferable that threads are formed on the inner walls of the vertical through holes 116 and 126 so as to be threadedly engaged with the lower bolt 162 and the upper bolt 164, respectively.

The first inclined plane 112 and the second inclined plane 114 are inclined in a direction diagonally downward from the imaginary x axis (in other words, as they move away from the bolt mounting plane 115 in the y axis direction) It is a sloping plane inclined at a constant slope. Accordingly, the lower pedestal 110 has a gradually thinner thickness as it moves away from the plane 115 in the y-axis direction.

The third inclined plane 122 and the fourth inclined plane 124 are inclined at a constant inclination in the upper diagonal direction as they move away from the virtual x-axis, that is, in the y-axis direction from the bolt mounting plane 125 Photo is slanted plane. The upper pedestal 120 also has a gradually thinner thickness as it moves away from the plane 125 in the y-axis direction.

The first wedge member 130 is inserted between the first inclined plane 112 and the third inclined plane 122. The lower surface 132 and the upper surface 133 of the first wedge member 130 are in contact with the first inclined plane 112 and the third inclined plane 122 over the entire surface, Lt; RTI ID = 0.0 > a < / RTI > The user can advance or retract the first wedge member 130 in the y-axis horizontal direction to move the placement position. The vertical distance between the first inclined plane 112 and the third inclined plane 122 is varied as the position of the first wedge member 130 is changed in the y-axis horizontal direction.

The second wedge member 140 is disposed symmetrically with respect to the first wedge member 130 with respect to the imaginary x axis. That is, the second wedge member 140 is inserted between the second inclined plane 114 and the fourth inclined plane 124, and the lower surface 142 and the upper surface 143 thereof are inserted between the second inclined plane 114 and the fourth inclined plane 124, 4 inclined planes 124 in a state of being in contact with the upper surface of the upper pedestal 120. The user can advance or retract the second wedge member 140 in the y-axis horizontal direction to vary the placement position. The vertical distance between the second inclined plane 114 and the fourth inclined plane 124 is varied as the placement position is changed in the y-axis horizontal direction.

Thus, the user can adjust the height of the pedestal apparatus 100 to a desired size by moving the arrangement position of the first and second wedge members 130 and 140 to a desired position in the y-axis direction. That is, when the first wedge member 130 and the second wedge member 140 are brought as close as possible to each other as shown in FIG. 3 (that is, when the distance between the two wedge members 130 and 140 is w) When the first wedge member 130 and the second wedge member 140 are spaced apart from each other by a maximum distance as shown in FIG. 4 (that is, when the distance between the two wedge members 130 and 140 is w '), The height of the pedestal 120 is the lowest.

The inclination of the upper surface 133 of the first wedge member 130 is equal to the inclination of the third inclined plane 122 and the inclination of the lower surface 132 of the first wedge member 130 is equal to the inclination of the lower surface 132 of the first wedge member 130, The lower surface 132 and the upper surface 133 of the first wedge member 130 are always in contact with the first inclined plane 112 and the third inclined plane 122 . Similarly, the inclination of the lower surface 142 and the upper surface 143 of the second wedge member 140 is the same as the inclination of the second inclined plane 114 and the fourth inclined plane 124, The close contact state is always maintained.

In some cases, it may be necessary to adjust the height with the structure or equipment placed on the upper pedestal 120. In this case, it is preferable that the frictional force is small on the joint surfaces between the first and second wedge members 130, 140 and the lower and upper supports 110, 120. More specifically, the upper surfaces of the first and second wedge members 130 and 140 are formed with the recessed portions 133b and 143b in the inner recessed portions 133b and 143b, respectively, And sliding members 133a and 143a having a very small coefficient of friction are placed in the housing. For example, polytetrafluoroethylene (PTFE) can be used as the sliding members 133a and 143a. The lower surfaces of the first and second wedge members 130 and 140 are also formed in the same shape. Polytetrafluoroethylene (PTFE) provides a very low coefficient of friction at the interface with the lower and upper pedestals 110, 120 made, for example, of stainless steel. The interval between the first and second wedge members 130 and 140 may be adjusted by adjusting the wedge horizontal gap adjusting member 150. [

The vertical and horizontal guide poles 170 guide the relative movement in the vertical direction between the lower pedestal 110 and the upper pedestal 120 in the z axis direction and guide the relative movement between the first wedge member 130 and the second wedge member 140, Thereby guiding the axial relative movement in the axial direction. To this end, the vertical / horizontal guide posts 170 are provided between the lower pedestal 110 and the upper pedestal 120 and also between the first wedge member 130 and the second wedge member 140 . The vertical / horizontal guide posts 170 are fixed to either the lower pedestal 110 or the upper pedestal 120. Preferably, it is integrally molded and fixed with the lower pedestal 110. The vertical / horizontal guide posts 170 can be configured, for example, in the form of a square column as shown. The horizontal length of the square columnar guide poles 170 in the y-axis direction is longer than the 'maximum horizontal gap' between the first wedge member 130 and the second wedge member 140, and the vertical height in the z- Quot; lowest level " of < / RTI > 4, the maximum horizontal spacing is such that the first wedge member 130 and the back side 136 and 146 of the second wedge member 140 are spaced apart from each other by the amount of the lower pedestal 110 and the upper pedestal 120, The distance between the two front faces 135 and 145 of the first wedge member 130 and the second wedge member 140, respectively. 3, when the first wedge member 130 and the second wedge member 140 are approaching the closest proximity distance, that is, when the first wedge member 130 and the second wedge member 140 are close to each other, When the front surface 135 of the first wedge member 130 and the front surface 145 of the second wedge member 140 approach the boundary line of the bolt mounting plane 115, the lower surface of the upper pedestal 120, that is, 125 < / RTI >

When the vertically and horizontally oriented guide poles 170 are fixed to the center portion of the lower pedestal 110, the upper pedestal 120 is provided with at least two opposite orientations of the vertically and horizontally oriented guide poles 170, A vertical guide groove 128 is provided which is guided by the side surface and slides along the z-axis vertical direction. It is preferable that the vertical guide groove 128 is formed as a rectangular groove having the same shape as the vertical / horizontal guide column 170 and slightly larger in size.

형상으로 각각 만들어져 사각기둥 형상의 수직/수평방향 안내기둥(170)의 ±x방향의 두 측면에 외삽된 채 y축 수평방향을 따라 활주 이동하도록 안내된다. 제1수평방향 안내홈(137)의 깊이는 제1쐐기부재(130)의 앞면(135)이 제1 및 제3 경사면(112, 122)의 앞쪽 경계선까지 이동하고 뒷면(136)이 제1 및 제3 경사면(112, 122)의 뒤쪽 경계선까지 이동하는 것을 허용할 수 있는 크기로 마련된다. 제2수평방향 안내홈(147)의 깊이 또한 제2쐐기부재(140)의 최대 이동거리를 허용할 수 있는 크기로 마련된다.The first wedge member 130 and the second wedge member 140 are respectively provided with horizontal guide grooves 137 and 147 formed in a shape of a predetermined length in a backward direction. The horizontal direction guide grooves 137 and 147 are, for example,

And is guided to slide along the y-axis horizontal direction while being extrapolated on two sides in the + x direction of the vertically / horizontally oriented guide posts 170 in the shape of a quadrangular pillar. The depth of the first horizontal guide groove 137 is set so that the front surface 135 of the first wedge member 130 moves to the front boundary line of the first and third inclined surfaces 112 and 122, And is allowed to move to the rear boundary of the third slopes 112, The depth of the second horizontal guide groove 147 is also set to be large enough to allow the maximum movement distance of the second wedge member 140.

The wedge horizontal spacing support member 150 allows the y-axis horizontal spacing between the first wedge member 130 and the second wedge member 140 to be adjusted to a desired size by the user, Thereby supporting the wedge member 130 and the second wedge member 140. In order to install the wedge horizontal spacing support member 150, the vertical and horizontal guide posts 170 and the first and second wedge members 130 and 140 are horizontally pierced along imaginary coaxial axes in the y- Holes are respectively formed. In this condition, the wedge horizontal spacing support member 150 consists of a horizontal spacing support rod 152 and a nut 154. The horizontal gap support rod 152 is formed into a bar shape longer than the y-axis horizontal length of the lower pedestal 110 or the upper pedestal 120. A thread is formed on the outer surface of at least both ends of the horizontal gap support rod 152. The horizontal spacing support bar 152 supports the horizontal wings 138, 174 and 148 provided in the first wedge member 130, the vertical and horizontal guide posts 170 and the second wedge member 140, And is installed so as to penetrate in the horizontal direction. The nuts 154 are fastened to the threads provided at both ends of the horizontal spacing support rods 152 through the washers 155 to be engaged with the first wedge member 130 and the back surfaces 136, 146 of the second wedge member 140 ).

The user may adjust the gap between the two wedge members 130 and 140 to a desired size and then fasten the washer 155 and the nut 154 to both sides of the horizontal gap support rod 152. [ The first wedge member 130 and the second wedge member 140 are connected to each other by a vertical load of the structure applied to the upper pedestal 120. In this state, when the structure (not shown) I get the power to move further. However, since the two nuts 154 fastened to both sides of the horizontal gap support rod 152 are supported, the gap between the first wedge member 130 and the second wedge member 140 can be maintained as it is.

In this structure, when the vertical load of the structure placed on the pedestal device 100 is applied, the pushing force in the horizontal direction of the ± y axis acts on the two wedge members 130 and 140 by the lower and upper pedestals 110 and 120 . The magnitude of the force will be determined by the angle of the two wedge members 130 and 140 and the magnitude of the friction. The horizontal force is applied to the horizontal spacing support rod 152 and the two nuts 154L and 154R fastened to both of the horizontal spacing support rod 152 and the tension force is permanently applied to the horizontal spacing support rod 152. [ In some cases, an unexpected additional vertical load such as an earthquake may occur. In this case, the horizontal axial load applied to the horizontal spacing support rod 152 and the two nuts 154L and 154R fastened to both sides thereof is very large It may be damaged. When the gap between the two wedge members 130, 140 is maximized, the upper pedestal 120 may also be structurally fragile.

In order to further enhance the supporting force against the vertical load of the structure applied to the upper pedestal 120, it is preferable that the pedestal vertical spacing auxiliary supporting member 160 is disposed at the center of the lower pedestal 110, A structure added between the centers of the pedestals 120 is shown. The pedestal vertical spacing auxiliary support member 160 is installed between the bolt mounting planes 115 and 125 on both sides of the vertical / The upper surface 120 and the lower surface of the lower surface of the upper surface of the upper table 120 are spaced apart from each other by a desired distance and the upper table 120 is supported vertically upward .

Concretely, in order to install the pedestal vertical spacing auxiliary support member 160, between the first inclined plane 112 and the second inclined plane 114 and between the third inclined plane 122 and the fourth inclined plane 124, Vertical through holes 116 and 126 are formed in one or more places along the same axis in the z-axis vertical direction between the lower support 110 and the bolt mounting planes 115 and 125 of the upper support 120 . 1 illustrates a structure in which a pair of vertical through holes 116 and 126 are formed on both sides of the vertical / horizontal direction column 170. If necessary, the vertical through holes 116 and 126 may be formed in one Pair may be formed. The lower end of the vertical through hole 116 and the upper end of the vertical through hole 126 are provided with a wider groove so that the heads of the bolts 162 and 164 are caught and engaged.

In accordance with this installation condition, the pedestal vertical spacing auxiliary support member 160 includes one or more lower bolts 162, one or more top bolts 164, and one or more nuts 166. The at least one lower bolt 162 is vertically upwardly inserted through each of the vertical through holes 116 provided in the lower pedestal 110 so as to be protruded by a predetermined length. The at least one upper bolt 164 is installed in such a manner that each of the at least one upper bolt 164 protrudes by a predetermined length and passes through each of at least one vertical through hole 126 provided in the upper pedestal 120 vertically downward to face each of the at least one lower bolt 162. One or more nuts 166 are fastened to each pair of upper and lower bolts 164, 162 facing each other. When the user tightens the upper bolt 164 and the lower bolt 162 of each pair at a desired interval with the nut 166, the upper and lower bolts 164 and 162 of each pair are adjusted by the nut 166 The value of the vertical distance d between the upper bolt 164 and the lower bolt 162 is set so that when the two wedge members 130 and 140 are the closest to each other (see FIG. 3) And has the largest value and the smallest value, respectively.

The vertical through holes 116 provided in the lower pedestal 110 and the upper pedestal 120 are preferably formed with threads on the inner wall thereof so as to be threadedly engaged with the lower bolt 162 and the upper bolt 164. When the lower pedestal 110 and the upper pedestal 120 are screwed to the lower bolt 162 and the upper bolt 164, the lower pedestal 110 and the upper pedestal 120 are coupled to the pedestal vertical spacing auxiliary support member 160, Lt; / RTI > The force that strongly pulls the middle portion of the lower pedestal 110 and the upper pedestal 120 is applied to the upper pedestal 120 by the vertical load applied to both ends of the upper pedestal 120, To resist the force to bend the middle portion of the body. In addition, since the pedestal vertical spacing auxiliary support member 160 is very tightly coupled with the lower pedestal 110 and the upper pedestal 120, it is possible to more stably resist vertical loads applied to the upper pedestal 120 have.

According to the above-described supporting apparatus 100 according to the first embodiment, the height of the upper support 120 is adjusted by adjusting the horizontal spacing of the two wedge members 130 and 140 in the y-axis direction from w to w ' The y-axis horizontal spacing of the two wedge members 130 and 140 is controlled by the wedge horizontal spacing support member 150 by supporting the two wedge members 130 and 140 in the horizontal direction of the y-axis. When the user tightens the nut 160 in such a state that the upper pedestal 120 is adjusted to a desired height, the lower bolt 162 and the upper bolt 164 integrally connected to each other exert a pulling force. The force can resist the force that the middle portion of the upper pedestal 120 is supposed to deform upward by the vertical load.

In addition, the vertical load of the structure applied to the upper pedestal 120 is applied not only to the two wedge members 130 and 140, but also to the vertical support assist member 160 at the vertical position. When the two wedge members 130 and 140 are maximally extended in the y-axis horizontal direction (see FIG. 4), if the vertical support member 160 is not provided, Can not be supported by the members (130, 140) and can be structurally weak. Especially, if a large unexpected vertical load is applied due to an earthquake or the like, its structural weakness may cause problems. However, since the support vertical support member 160 supports the center portion of the upper support 120, it is more stable than the structure that supports the upper support 120 by only the two wedge members 130 and 140. [

(2) Second Embodiment

Next, FIGS. 5 and 6 show a height-adjustable pedestal apparatus 200 according to a second embodiment. The difference from the first embodiment is that two wedge members 130 and 140 are supported at both ends of the lower support 210 and the upper support 220 in the horizontal direction on the y axis so as not to be pushed out of both ends in the y- A pair of wedge jaws is provided. Reference numerals 119L and 129L denote a pair of wedge stoppers provided at the left ends of the lower pedestal 210 and the upper pedestal 220. Reference numerals 119R and 129R denote right and left ends of the lower pedestal 210 and the upper pedestal 220, And the other pair of wedge retaining jaws provided at the other end. The pair of wedge latching jaws 119L and 129L are respectively bent in a vertically upward direction and a vertically downward direction at left ends of the lower pedestal 210 and the upper pedestal 220 and are extended in a predetermined length so as to face each other. The other pair of wedge latching jaws 119R and 129R are provided in the same shape. The two wedge members 130 and 140 are caught by the wedge latching jaws 119L and 129L and 119R and 129R even if they are forced to be pushed out of both ends in the horizontal direction of the y axis by some factor.

It is preferable to further include a plurality of auxiliary wedge members 180 added to each of the two wedge members 130 and 140 on both left and right sides in addition to the wedge stoppers 119L and 129L and 119R and 129R. 5 illustrates a plurality of auxiliary wedge members 182-1, 182-2, 182-3 and 184-1, 184-2, 184-3, -3 are attached to the rear side of the first wedge member 130 and the second wedge member 140, respectively. Since the two wedge members 130 and 140 are closest to each other, the height of the upper pedestal 120 is the lowest. These auxiliary wedge members 182-1, 182-2 and 182-3 are in contact with the inclined planes 112 and 122 of the lower pedestal 110 and the upper pedestal 120, respectively, The upper and lower extension lines of the first wedge member 130 coincide with the upper and lower surfaces of the auxiliary wedge members 182-1, 182-2 and 182-3 so as to support the left portion (i.e., Tilt is the same). Likewise, the upper and lower surfaces of the auxiliary wedge members 184-1, 184-2 and 184-3 coincide with the extension of the upper surface and the lower surface of the lower surface of the second wedge member 140 (that is, the slopes are the same) And supports the right portion of the upper pedestal 120 in a state of being closely contacted with the inclined planes 114 and 124 of the lower pedestal 110 and the upper pedestal 120, respectively.

The upper support 120 can be more stably supported by these auxiliary wedge members 182-1, 182-2, 182-3 and 184-1, 184-2, 184-3.

6 shows a state in which a plurality of auxiliary wedge members 186-1, 186-2, 186-3 and 188-2, 186-3, which are gradually lower in height than the first and second wedge members 130, 140, 1, 188-2, and 188-3 are attached to the front side of the first wedge member 130 and the second wedge member 140, respectively. Since the two wedge members 130 and 140 are farthest away from each other, the height of the upper pedestal 120 is the highest. The plurality of auxiliary wedge members 186-1, 186-2 and 186-3 and 188-1, 188-2 and 188-3 are also connected to the lower and upper supports 120 and 120, 114, 122, and 124 to support the upper pedestal 120 in an auxiliary manner.

5 and 6, the auxiliary wedge member 180 may be added to both the front side and the rear side of the first wedge member 130 and the second wedge member. The wedge members 130, 140 and 180 are always positioned on the left wedge retaining jaws 119L and 129L and the right wedge retaining jaws 119R and 129R by appropriately adjusting the number and thickness of the auxiliary wedge members 180 to be added. It may be possible to be supported while stuck. Such a configuration prevents the wedge members 130, 140, 180 from moving in the y-axis horizontal direction so that the pedestal device 200 can be maintained at the originally adjusted original height. This is a very stable structure that is very useful for supporting precise devices that should not experience height variations.

(3) Third Embodiment

7 is a vertical sectional view taken along the y-axis direction along the middle portion of the pedestal device 300 employing the wedge horizontal spacing support member 350 according to the third embodiment. The wedge horizontal spacing support member 350, Is a diagram showing the original shape, not the cut surface. This wedge horizontal spacing support member 350 is implemented with two horizontal spacing support bolts 352L, 352R. For the installation of such a wedge horizontal spacing support member 350, a pair of wedge horizontal support members 350 are provided on the vertical / horizontal direction column 170 and the first and second wedge members 130 and 140, The horizontal through holes 138, 148 and 174 are provided along the same axis, but the other points are that the inner surfaces of the horizontal through holes 174 of the two horizontal spacing bolts 352L and 352R form threads. The first horizontal spacing support bolt 352L is fastened to the thread of the horizontal through hole 174 of the vertical / horizontal guide post 170 through the horizontal through hole 138 of the first wedge member 130 do. Similarly, the second horizontal spacing support bolt 352R passes through the horizontal through hole of the second wedge member 140 via the washer 354 and then passes through the horizontal through hole (not shown) of the vertical / 174). The bolt heads of the two horizontal spacing support bolts 352L and 352R support the back surfaces of the two wedge members 130 and 140, respectively. Since the two horizontal spacing support bolts 352L and 352R are screwed to the vertical / horizontal guide posts 170, the spacing between the two wedge members 130 and 140 can be adjusted Lt; / RTI >

The auxiliary wedge member 180 mentioned in the second embodiment may be introduced into the base unit 400 of this embodiment.

The present invention described above is merely a preferred embodiment of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the following claims. It is therefore intended that all changes which come within the meaning and range of equivalency of the claims are intended to be embraced therein.

The pedestal device of the present invention can be widely used as a pedestal for a bridge structure, various apparatuses and facilities. In particular, nuclear power plants are equipped with a variety of precise machinery and equipment. Such precision equipments require not only precise installation but also seismic installation which can withstand the impact of earthquake. The pedestal device of the present invention is not only variable in height adjustment but also more resistant to vertical load, and is particularly suitable for use as a pedestal for installation of such precision equipment.

100, 200, 300: pedestal device 110: bottom pedestal
120: upper support 130: first wedge member
140: second wedge member 150: wedge horizontal spacing member
160: support vertical distance auxiliary support member 170: vertical / horizontal guide member

Claims (11)

A lower pedestal having an upper surface including a lower surface and first and second inclined planes provided on both sides of a virtual x-axis that bisects the y-axis horizontal length;
An upper pedestal having an upper surface and a lower surface including third and fourth inclined planes provided on both sides of the x-axis;
And a second inclined plane which is inserted between the first inclined plane and the third inclined plane and supports the left portion of the upper pedestal while the lower surface and the upper surface are in close contact with the first inclined plane and the third inclined plane, a first wedge member for adjusting a height of a pedestal which varies a vertical interval between the first inclined plane and the third inclined plane as the y-axis is varied in the horizontal direction;
Wherein the first inclined plane and the second inclined plane are symmetrically disposed to face the first wedge member with respect to the x axis, and the lower and upper surfaces are inserted between the second inclined plane and the fourth inclined plane, And a second elevation second height adjusting unit for varying the vertical distance between the second oblique plane and the fourth oblique plane as the arrangement position is changed in the y-axis horizontal direction while supporting the right portion of the upper pedestal, Wedge member;
A wedge horizontal spacing member for supporting the first wedge member and the second wedge member such that a y-axis horizontal spacing between the first wedge member and the second wedge member is adjusted to a desired size;
A support vertically spacing auxiliary support member for supporting the upper support vertically upward by connecting the central portion of the upper surface of the lower pedestal and the center portion of the lower surface of the upper pedestal to each other at a desired interval and using the lower pedestal as a support; And
And a second wedge member which is fixed to one of the lower pedestal and the upper pedestal and is disposed between the lower pedestal and the upper pedestal and at the same time between the first wedge member and the second wedge member, Axis direction relative movement between the first wedge member and the second wedge member and guiding the y-axis relative movement in the y-axis direction between the first wedge member and the second wedge member,
Wherein the vertical / horizontal directional post is a rectangular column whose y-axis horizontal length is longer than the maximum horizontal distance between the first wedge member and the second wedge member and whose z-axis vertical height is higher than the lowest level of the upper pedestal Wherein the maximum horizontal spacing is a distance between two front surfaces of the first wedge member and the second wedge member when the rear surfaces of the first wedge member and the second wedge member are respectively positioned at both ends of the lower and upper supports, The lowest level of the upper pedestal is the lowest level of the lower surface of the upper pedestal when the first wedge member and the second wedge member are approaching the closest possible distance,
Wherein a vertical load applied to the upper pedestal is shared by the first and second wedge members as well as the pedestal vertical spacing auxiliary support members. 2. The apparatus of claim 1, wherein each of the first and second inclined planes is a sloped plane inclined at a constant slope in a diagonal downward direction as it is away from the x-axis, and each of the third and fourth inclined planes Wherein the inclined planes are inclined planes inclined at a constant inclination in the upper diagonal direction according to the distance. [3] The apparatus of claim 1 or 2, wherein the lower bracket and the upper bracket are bent in the vertical direction at both lateral ends of the y-axis in the horizontal direction, and extend so as to face each other such that the first wedge member and the second wedge Further comprising two pairs of wedge tabs for supporting the member from the back side so as not to be pushed out of both ends of the y-axis in the horizontal direction. 4. The apparatus of claim 3, further comprising: a pair of wedge retaining jaws, at least one of the pair of wedge retaining jaws and at least one of a rear surface and a front surface of the first wedge member, And the wedge member is inserted between at least any one of the rear surface and the front surface of the wedge member so that the lower surface and the upper surface are in close contact with the first inclined plane and the third inclined plane and with the second inclined plane and the fourth inclined plane respectively Further comprising a plurality of auxiliary wedge members each supporting a left portion and a right portion of the upper pedestal. The apparatus of claim 1 or 2, wherein the first to fourth sloping planes are inclined planes having the same magnitude of the absolute value of the slope. [2] The apparatus according to claim 1, wherein the first wedge member and the second wedge member are formed on the front surface of the first wedge member, The horizontal guide grooves that slide and move are provided, respectively,
One of the lower pedestal and the upper pedestal is fixed to the vertical / horizontal direction column at the center portion, and the other is guided by at least two opposite side faces of the vertical / horizontal rectangular column, And a vertical guide groove for sliding movement is provided. The horizontal and vertical directional columns and the first and second wedge members are each provided with horizontal through holes along a virtual coaxial axis in the y-axis horizontal direction, respectively, in any one of claims 1, 2, Lt; / RTI &
Wherein the wedge horizontal spacing support member has a thread formed on an outer surface of at least a portion of at least both ends of a rod longer than the horizontal length of the y-axis of the upper or lower pedestal, the first wedge member, A horizontal spacing bar provided through the horizontal through holes of the second wedge member in the horizontal direction of the y axis; And a nut fastened to a thread of a portion of the both end portions of the horizontal gap support bar to support the rear surfaces of the first wedge member and the second wedge member. The horizontal and vertical directional columns and the first and second wedge members are each provided with horizontal through holes along a virtual coaxial axis in the y-axis horizontal direction, respectively, in any one of claims 1, 2, And at least the inner surface of the horizontal through hole of the vertical / horizontal direction column is formed with a thread,
The wedge horizontal spacing support member includes: a first horizontal spacing support bolt having a distal end portion that passes through a horizontal through hole of the first wedge member and is fastened to a thread of a horizontal through hole of the vertical / horizontal direction post; And a second horizontal spacing support bolt whose front end portion passes through a horizontal through hole of the second wedge member and is fastened to a thread of a horizontal through hole of the vertical / horizontal direction post, And the head portion of the bolt supports the back surfaces of the first and second wedge members, respectively. [3] The apparatus according to claim 1 or 2, wherein the lower pedestal and the upper pedestal are formed with at least one pair of vertical through holes along one or more coaxial axes in the z-axis vertical direction, 1 between the first inclined plane and the second inclined plane, and between the third inclined plane and the fourth inclined plane,
The pedestal vertical spacing auxiliary support member may include at least one lower bolt penetrating the vertical through holes provided in the lower pedestal vertically upward and protruding by a predetermined length; One or more upper bolts projecting vertically downward through the vertical through holes provided in the upper pedestal and protruding by a predetermined length to face each of the at least one lower bolt; And at least one nut fastened to each pair of upper and lower bolts facing each other to support the pair of upper and lower bolts spaced apart at a desired interval and to be held in place, . 10. The apparatus of claim 9, wherein threads are formed on the inner walls of the vertical through holes of the lower pedestal and the upper pedestal, and the lower pedestal and the upper pedestal are threadedly engaged with the lower bolt and the upper bolt, respectively A height adjustable pedestal device. 10. The elevator according to claim 9, wherein an upper surface of the lower pedestal and a lower surface of the upper pedestal are connected to both sides of the vertical / horizontal direction column, between the first inclined plane and the second inclined plane, And two planes provided parallel to the y-axis in two predetermined intervals between the first inclined plane and the fourth inclined plane, wherein the two planes of the two predetermined sections prevent the first and second wedge members from approaching within a predetermined distance Wherein the one or more vertical through holes are formed in two planes of the two predetermined sections.

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