WO2021184511A1

WO2021184511A1 - Energy dissipation lattice column structure provided with dense battens and use method

Info

Publication number: WO2021184511A1
Application number: PCT/CN2020/089029
Authority: WO
Inventors: 赵建锋; 孟凡涛; 阮兴群; 袁长丰
Original assignee: 青岛理工大学
Priority date: 2020-03-19
Filing date: 2020-05-07
Publication date: 2021-09-23
Also published as: AU2020327349B2; AU2020327349A1; CN111335718A; CN111335718B

Abstract

An energy dissipation lattice column structure provided with dense battens, which relates to the technical field of earthquake-resistant and shock absorbing and isolating devices. The structure comprises a double-limbed lattice column, a first dense batten, a damper, an arc-shaped plate, a second dense batten, a fixed plate, a rubber layer and concrete. A method for using the described energy dissipation lattice column structure provided with dense battens comprises: step 1, strengthening a foundation; step 2, positioning the double-limbed lattice column at an installation site; step 3, installing the damper; step 4, installing the fixed plate; and step 5, pouring concrete. The present invention is provided with a triple energy dissipation structure, which does not occupy indoor space and can respond to damage to framed buildings by various types of earthquakes.

Description

一种密缀板耗能格构柱结构及使用方法Energy-dissipating lattice column structure of densely affixed plate and use method

技术领域Technical field

本发明涉及抗震及减隔震装置技术领域，具体涉及一种密缀板耗能格构柱结构及使用方法。The invention relates to the technical field of anti-seismic and anti-vibration devices, in particular to a densely-fixed plate energy-consuming lattice column structure and a use method.

背景技术Background technique

框架式建筑的基本特征是由柱、梁和楼板承重，墙板仅作为围护和分隔空间的构件。框架之间的墙叫填充墙，不承重。框架式建筑的主要优点是空间分隔灵活，自重轻，有利于抗震，节省材料；其缺点是钢材和水泥用量较大，构件的总数量多，吊装次数多，接头工作量大，工序多。框架式建筑适合于要求具有较大空间的多层、高层民用建筑，多层工业厂房，地基较软弱的建筑和地震区的建筑。The basic feature of a frame building is that it is loaded by columns, beams and floor slabs, and wall panels are only used as components for enclosing and separating spaces. The wall between the frames is called an infill wall and is not load-bearing. The main advantages of framed buildings are flexible space separation, light weight, which is conducive to earthquake resistance and material saving; its disadvantages are the large amount of steel and cement, the total number of components, the number of hoisting times, the large amount of joint work, and the many processes. Frame-type buildings are suitable for multi-storey and high-rise civil buildings that require larger space, multi-storey industrial factories, buildings with weak foundations, and buildings in earthquake areas.

汶川大地震之后，很多框架式建筑受到破坏，为了预防地震，有必要对框架式建筑进行抗震加固，在专利文献中也陆续出现了一些针对框架式建筑的抗震加固技术的文献，然而这些专利文献大多存在如下的问题：After the Wenchuan Earthquake, many framed buildings were damaged. In order to prevent earthquakes, it is necessary to strengthen the framed buildings. Some patent documents have also appeared in the literature of seismic reinforcement technology for framed buildings. However, these patent documents Most of the problems are as follows:

1、结构复杂，施工周期长，导致经济成本过高；1. The structure is complex and the construction period is long, leading to high economic costs;

2、加固结构处于室内，占用室内空间；2. The reinforcement structure is indoors, occupying indoor space;

3、对框架式建筑的本身结构针对性不强，抗震效果不佳；3. The structural pertinence of the framed building itself is not strong, and the seismic effect is not good;

4、多仅具有单一的抗震减震结构，难以抵御连续性的地震冲击。4. Most of them have only a single seismic and damping structure, which is difficult to withstand continuous seismic shocks.

发明内容Summary of the invention

为解决现有技术中存在的问题，本发明公开了结构简单、造价低、针对框架式结构的自身特点、具有多重减震抗震功能的一种密缀板耗能格构柱结构，并公开了其使用方法。In order to solve the problems existing in the prior art, the present invention discloses a compact plate energy-consuming lattice column structure with simple structure, low cost, aiming at the characteristics of the frame structure, and having multiple shock absorption and seismic functions, and discloses How to use it.

为实现上述目的，本发明的技术方案是：In order to achieve the above objective, the technical solution of the present invention is:

一种密缀板耗能格构柱结构，包括双肢格构柱，所述的双肢格构柱包括左柱肢和右柱肢，所述的左柱肢和右柱肢之间连接有水平设置的第一密缀板，所述的第一密缀板位于框架式建筑楼板之间的高度范围内，在楼板所在的楼层标高处且位于左柱肢和右柱肢之间还连接有连接板，所述的第一密缀板的左右端分别与左柱肢、右柱肢的壁表面刚性连接，所述的连接板的左右端分别与左柱肢、右柱肢的壁表面铰接，所述的左柱肢和右柱肢内均灌注有混凝土，所述的混凝土形成混凝土柱、并与地基固定连接，所述的左柱肢和右柱肢的底端与地基铰接，在右柱肢右表面与框架式建筑的左墙面之间还连接有阻尼器，所述的阻尼器左端与右柱肢铰接、右端与楼板所在的楼层标高处铰接。A densely cladding energy-consuming lattice column structure includes a double-limbed lattice column, the double-limbed lattice column includes a left column and a right column, and the left column and the right column are connected between the left column and the right column. Horizontally arranged first dense slab, said first dense slab is located in the height range between the frame building floor slabs, at the floor elevation where the floor slab is located, and is connected between the left and right column limbs Connecting plate, the left and right ends of the first compact plate are rigidly connected to the wall surfaces of the left and right columns respectively, and the left and right ends of the connecting plate are hinged to the wall surfaces of the left and right columns respectively , Said left column and right column are both filled with concrete, said concrete forms a concrete column and is fixedly connected with the foundation, the bottom ends of said left and right column are hinged with the foundation, on the right A damper is also connected between the right surface of the column leg and the left wall of the frame building, the left end of the damper is hinged with the right column leg, and the right end is hinged with the floor elevation where the floor is located.

优选的，所述的左柱肢和右柱肢为相同的结构，且任一柱肢的横截面均为“日”字形，所述的左柱肢和右柱肢由Q345或Q390高屈服点钢材制成；所述的第一密缀板由Q235低屈服点钢材制成，所述的第一密缀板的侧截面为“H”形。Preferably, the left column and the right column have the same structure, and the cross-section of any column is in the shape of "Sun", and the left column and the right column are made of Q345 or Q390 high yield point steel The first densely affixed board is made of Q235 low-yield-point steel, and the side section of the first densely affixed board is an "H" shape.

优选的，所述的连接板由Q345高屈服点钢材制成，且所述的连接板的侧截面为“H”形，所述的第一密缀板由若干缀板构成，所述的连接板的侧截面的面积大于缀板的侧截面的面积。Preferably, the connecting plate is made of Q345 high-yield-point steel, and the side section of the connecting plate is "H" shape, and the first densely affixed plate is composed of several plaques. The area of the side section of the board is larger than the area of the side section of the patch board.

优选的，所述的阻尼器为剪切型阻尼器。Preferably, the damper is a shear type damper.

优选的，所述的混凝土为高标号无收缩混凝土。Preferably, the concrete is high-grade non-shrinkage concrete.

优选的，所述的右柱肢的右端面与框架式建筑的左墙面之间还设有纵截面为弧形的弧形板，所述的弧形板的两端分别与右柱肢的右端面刚性连接，在弧形板的内侧还设有由若干缀板构成的第二密缀板，所述的第二密缀板的左端与右柱肢的右端面刚性连接，第二密缀板的右端与弧形板的内表面刚性连接，所述的弧形板的外侧还铰接有固定板，所述的固定板的右端面还粘接有橡胶层，所述的橡胶层紧贴框架式建筑的墙面，所述的固定板和橡胶层通过螺栓与框架式建筑的墙体固定连接，所述的弧形板、第二密缀板均采用Q235低屈服点钢材制成。Preferably, between the right end surface of the right column and the left wall of the framed building is also provided with an arc plate with an arc in the longitudinal section, and both ends of the arc plate are connected to the The right end surface is rigidly connected, and a second densely affixed plate composed of several affixed plates is also provided on the inner side of the curved plate. The left end of the second densely affixed plate is rigidly connected to the right end surface of the right column. The right end of the plate is rigidly connected with the inner surface of the arc-shaped plate, the outer side of the arc-shaped plate is also hinged with a fixed plate, and the right end surface of the fixed plate is also bonded with a rubber layer, and the rubber layer is tightly attached to the frame On the wall surface of a built-in building, the fixed plate and rubber layer are fixedly connected to the wall of the frame-type building by bolts, and the arc-shaped plate and the second densely-fixed plate are made of Q235 low-yield-point steel.

优选的，所述的一种密缀板耗能格构柱结构的使用方法，包括步骤1、地基加固；步骤2、双肢格构柱定位于安装地点；步骤3、安装阻尼器；步骤4、安装固定板；步骤5、混凝土浇灌。Preferably, the method for using the densely plaqued energy-dissipating lattice column structure includes step 1, foundation reinforcement; step 2, positioning the double-limbed lattice column at the installation site; step 3, installing the damper; step 4 , Install the fixed board; Step 5. Concrete pouring.

优选的，所述的一种密缀板耗能格构柱结构的使用方法，还包括将多个一种密缀板耗能格构柱结构并排安装于框架式建筑的墙面一侧的步骤。Preferably, the method for using the energy-consuming lattice column structure of densely-fixed panels further comprises the step of installing a plurality of energy-consuming lattice column structures of densely-finished panels side by side on one side of the wall of the frame building .

本发明一种密缀板耗能格构柱结构及使用方法具有如下有益效果：The energy-dissipating lattice column structure and use method of densely-fixed plate of the present invention have the following beneficial effects:

1、具有三重耗能结构：本发明针对框架式建筑的特点，设有针对框架结构的加固结构，即阻尼器，同时也设有针对填充墙体的加固结构，即固定板、弧形板、第二密缀板，在此基础上，使上述加固结构连接带有第一密缀板的双肢格构柱，从而通过三重耗能减震结构，可有效抵御地震对框架式建筑的损害。1. It has a triple energy-consuming structure: in view of the characteristics of the frame-type building, the present invention is provided with a reinforcement structure for the frame structure, namely a damper, and a reinforcement structure for the filling wall, namely, a fixed plate, an arc plate, The second dense slab, on this basis, connects the above-mentioned reinforced structure to the double-limbed lattice column with the first dense slab, so that through the triple energy-dissipating damping structure, it can effectively resist earthquake damage to the frame building.

2、不占用室内空间，可应对不同类型的地震：本发明设置于框架式建筑的外部，不占用室内使用空间，在多遇地震作用下，本发明的第一密缀板、弧形板、阻尼器、第二密缀板保持弹性状态，仅为框架式建筑提供弹性刚度支撑；而在设防地震和罕遇地震作用下，弧形板、第二密缀板、阻尼器、第一密缀板依次作用，消耗地震输入能量，对框架式建筑提供保护。2. It does not occupy indoor space and can cope with different types of earthquakes: the present invention is set on the outside of a framed building and does not occupy indoor use space. Under the action of frequent earthquakes, the first dense slab, curved plate, The dampers and the second dense slab remain elastic, which only provide elastic rigidity support for the frame building; while under the action of fortified earthquakes and rare earthquakes, the curved slab, the second dense slab, the damper, and the first dense The slabs act in turn to consume seismic input energy and provide protection for the framed building.

附图说明Description of the drawings

图1：为本发明的结构示意图；Figure 1: is a schematic diagram of the structure of the present invention;

图2：为本发明的A-A1处的剖视结构示意图；Figure 2: is a schematic cross-sectional structure diagram of the present invention at A-A1;

图3：为本发明设有弧形板的实施例的结构示意图；Figure 3: is a schematic structural view of an embodiment of the present invention provided with an arc-shaped plate;

1：框架式建筑，2：阻尼器，3：右柱肢，4：连接板，5：第一密缀板，6：左柱肢，7：混凝土柱，8：地基，9：第二密缀板，10：弧形板，11：螺栓，12：固定板，13：橡胶层。1: frame building, 2: damper, 3: right column, 4: connecting plate, 5: first dense slab, 6: left column, 7: concrete column, 8: foundation, 9: second dense Patch plate, 10: curved plate, 11: bolt, 12: fixed plate, 13: rubber layer.

具体实施方式Detailed ways

以下所述，是以阶梯递进的方式对本发明的实施方式详细说明，该说明仅为本发明的较佳实施例而已，并非用于限定本发明的保护范围，凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等，均应包含在本发明的保护范围之内。The following is a detailed description of the implementation of the present invention in a stepwise manner. The description is only a preferred embodiment of the present invention, and is not intended to limit the scope of protection of the present invention. Any modifications, equivalent replacements and improvements made within the scope of protection shall be included in the protection scope of the present invention.

本发明的描述中，需要说明的是，术语“上”“下”“左”“右”“顶”“底”“内”“外”等指示的方位或位置关系为基于附图所示的方位或位置关系，仅是为了描述本发明和简化描述，而不是指示或暗示所指的装置或元件必须具有特定的方位、以及特定的方位构造和操作，因此不能理解为对本发明的限制。In the description of the present invention, it should be noted that the terms "up", "down", "left", "right", "top", "bottom", "inner", and "outer" indicate the orientation or positional relationship based on the drawings. The orientation or positional relationship is only for describing the present invention and simplifying the description, rather than indicating or implying that the device or element referred to must have a specific orientation, as well as a specific orientation structure and operation, and therefore cannot be understood as a limitation of the present invention.

如图1、图2、图3所示：As shown in Figure 1, Figure 2, and Figure 3:

在一个实施例中，本发明一种密缀板耗能格构柱结构，包括双肢格构柱，所述的双肢格构柱包括左柱肢6和右柱肢3，所述的左柱肢6和右柱肢3之间连接有水平设置的第一密缀板5，所述的第一密缀板5位于框架式建筑1楼板之间的高度范围内，在楼板所在的楼层标高处且位于左柱肢6和右柱肢3之间还连接有连接板4，所述的第一密缀板5的左右端分别与左柱肢6、右柱肢3的壁表面刚性连接，所述的连接板4的左右端分别与左柱肢6、右柱肢3的壁表面铰接，所述的左柱肢6和右柱肢3内均灌注有混凝土，所述的混凝土形成混凝土柱7、并与地基8固定连接，所述的左柱肢6和右柱肢3的底端与地基8铰接，在右柱肢3右表面与框架式建筑1的左墙面之间还连接有阻尼器2，所述的阻尼器2左端与右柱肢3的右端面铰接、右端与楼板所在的楼层标高处铰接；本实施例给出了本发明的最基本结构，地震发生且框架式建筑1发生水平变形时，由于框架式建筑1的主要受力点集中在楼板所在的标高处，故本发明将阻尼器2设置于此，以加固梁柱与楼板的交接点，以免梁柱断裂；在此基础上，阻尼器会2带动双肢格构柱与框架式建筑1共同变形，由于双肢格构柱在楼层标高处铰接刚性连接板4，对双肢格构柱的水平变形起不到阻止作用，而沿竖向在两个连接板4 之间的第一密缀板5由于与柱肢采用刚性连接，因此被框架式建筑1带动的水平变形会由第一密缀板5发生变形去抵抗，在抵抗中消耗地震能量。In one embodiment, a densely-packed energy-consuming lattice column structure of the present invention includes a double-limb lattice column. The double-limb lattice column includes a left column 6 and a right column 3, and the left A horizontally arranged first dense slab 5 is connected between the column 6 and the right column 3, and the first dense slab 5 is located within the height range between the first floor slabs of the frame type building, and is at the elevation of the floor where the floor slab is located. A connecting plate 4 is also connected between the left column 6 and the right column 3, and the left and right ends of the first dense plate 5 are rigidly connected to the wall surfaces of the left column 6 and the right column 3, respectively, The left and right ends of the connecting plate 4 are respectively hinged with the wall surfaces of the left leg 6 and the right leg 3, and the left leg 6 and the right leg 3 are both filled with concrete, and the concrete forms a concrete column 7. And fixedly connected with the foundation 8. The bottom ends of the left column 6 and the right column 3 are hinged with the foundation 8. There is also connected between the right surface of the right column 3 and the left wall of the frame building 1 Damper 2, the left end of the damper 2 is hinged with the right end face of the right column 3, and the right end is hinged with the floor elevation where the floor is located; this embodiment provides the most basic structure of the present invention, and the earthquake occurs and the frame building 1. When horizontal deformation occurs, since the main stress points of the framed building 1 are concentrated at the elevation where the floor slab is located, the present invention sets the damper 2 here to reinforce the junction point between the beam and the floor to prevent the beam and column from breaking; On this basis, the damper 2 will drive the double-limbed lattice column to deform together with the framed building 1. As the double-limbed lattice column is hinged on the rigid connecting plate 4 at the floor elevation, the horizontal deformation of the double-limbed lattice column will not be affected. In order to prevent it, the first dense slab 5 between the two connecting plates 4 in the vertical direction is rigidly connected to the column limbs, so the horizontal deformation driven by the frame building 1 will be caused by the first dense slab 5. Deformation to resist, consume seismic energy in resisting.

在进一步的实施例中，所述的左柱肢6和右柱肢3为相同的结构，且任一柱肢的横截面均为“日”字形，所述的左柱肢6和右柱肢3由Q345或Q390高屈服点钢材制成；所述的第一密缀板5由Q235低屈服点钢材制成，所述的第一密缀板的侧截面为“H”形；本实施例中，由于柱肢的钢屈服点更高，因此，相对而言，密缀板5会起到耗能减震的作用。In a further embodiment, the left column 6 and the right column 3 have the same structure, and the cross section of any column is in the shape of a "day", and the left column 6 and the right column 3 are formed by It is made of Q345 or Q390 high yield point steel; the first densely affixed plate 5 is made of Q235 low-yield point steel, and the side section of the first densely affixed plate is "H"-shaped; in this embodiment, Since the steel yield point of the column limbs is higher, relatively speaking, the densely cladding plate 5 will play a role in energy dissipation and shock absorption.

在进一步的实施例中，所述的连接板4由Q345高屈服点钢材制成，且所述的连接板4的侧截面为“H”形，所述的第一密缀板5由若干缀板构成，所述的连接板4的侧截面的面积大于任一缀板的侧截面的面积；连接板4采用高屈服点钢材，可以有效避免左柱肢6和右柱肢3受外力左右分开。In a further embodiment, the connecting plate 4 is made of Q345 high-yield-point steel, and the side section of the connecting plate 4 is an "H" shape, and the first densely affixed plate 5 is composed of several The area of the side section of the connecting plate 4 is larger than the area of the side section of any plaque; the connecting plate 4 is made of high yield point steel, which can effectively prevent the left and right legs 6 and 3 from being separated by external forces. .

在进一步的实施例中，所述的阻尼器2为剪切型阻尼器。In a further embodiment, the damper 2 is a shear type damper.

在进一步的实施例中，所述的混凝土为高标号无收缩混凝土。In a further embodiment, the concrete is high-grade non-shrinkage concrete.

在进一步的实施例中，所述的右柱肢3的右端面与框架式建筑1的左墙面之间还设有纵截面为弧形的弧形板10，所述的弧形板10的两端分别与右柱肢3的右端面刚性连接，在弧形板10的内侧还设有由若干缀板构成的第二密缀板9，所述的第二密缀板9的左端与右柱肢3的右端面刚性连接，第二密缀板9的右端与弧形板10的内表面刚性连接，所述的弧形板10的外侧还铰接有固定板12，所述的固定板12的右端面还粘接有橡胶层13，所述的橡胶层紧贴框架式建筑1的墙面，所述的固定板12和橡胶层13通过螺栓11与框架式建筑1的墙体固定连接，所述的弧形板10、第二密缀板9均采用Q235低屈服点钢材制成；本实施例做出了进一步改进，当地震发生时框架式建筑1水平变形，弧形板10和第二密缀板9可以进一步起到耗能减震的作用，固定板12受到墙体的挤压，使弧形板10受力，第二密缀板9及弧形板10剪切变形，进而屈服耗能，消耗地震能量，避免填充墙体从框架式建筑1上脱落。In a further embodiment, between the right end surface of the right column 3 and the left wall of the framed building 1 is also provided with an arc plate 10 having an arc shape in longitudinal section. The two ends are respectively rigidly connected to the right end face of the right column 3, and a second densely affixed plate 9 composed of several affixed plates is also provided on the inner side of the arc-shaped plate 10. The right end surface of the column 3 is rigidly connected, the right end of the second densely-fixed plate 9 is rigidly connected to the inner surface of the arc-shaped plate 10, and the outer side of the arc-shaped plate 10 is also hinged with a fixed plate 12, the fixed plate 12 A rubber layer 13 is also bonded to the right end surface of the frame structure 1, and the rubber layer is tightly attached to the wall of the frame type building 1, and the fixing plate 12 and the rubber layer 13 are fixedly connected to the wall of the frame type building 1 by bolts 11. The arc-shaped plate 10 and the second densely-fixed plate 9 are made of Q235 low-yield-point steel; this embodiment has been further improved. When an earthquake occurs, the frame-type building 1 deforms horizontally, and the arc-shaped plate 10 and the second The second compact board 9 can further play the role of energy dissipation and shock absorption. The fixed board 12 is squeezed by the wall to force the curved board 10, and the second dense board 9 and the curved board 10 are sheared and deformed. Yielding consumes energy, consumes seismic energy, and avoids the infill wall from falling off from the frame building 1.

在进一步的实施例中，所述的一种密缀板耗能格构柱结构的使用方法，包括步骤1、地基8加固；步骤2、双肢格构柱定位于安装地点；步骤3、安装阻尼器2；步骤4、安装固定板12；步骤5、混凝土浇灌。In a further embodiment, the method for using the densely-fixed plate energy-consuming lattice column structure includes step 1, reinforcement of the foundation 8; step 2, positioning the double-limbed lattice column at the installation site; step 3. installation Damper 2; Step 4. Install fixed plate 12; Step 5. Concrete pouring.

在进一步的实施例中，所述的一种密缀板耗能格构柱结构的使用方法，还包括将多个一种密缀板耗能格构柱结构并排安装于框架式建筑1的墙面一侧的步骤。In a further embodiment, the method for using a densely-fixed panel energy-dissipating lattice column structure further includes installing a plurality of one-type densely-finished energy-dissipating lattice column structures side by side on the wall of the frame type building 1. Step on the side of the face.

本发明的使用原理：The principle of use of the present invention:

本发明针对框架式建筑1的特点，设有针对框架结构的加固结构，即阻尼器2，同时也设有针对填充墙体的加固结构，即固定板12、弧形板10、第二密缀板9，在此基础上，使上述加固结构连接带有第一密缀板5的双肢格构柱，从而通过三重耗能减震结构，可有效抵御地震对框架式建筑1的损害。In view of the characteristics of the frame type building 1, the present invention is provided with a reinforcement structure for the frame structure, namely the damper 2, and a reinforcement structure for the filling wall, namely the fixed plate 12, the curved plate 10, and the second compact On the basis of the plate 9, the above-mentioned reinforced structure is connected to the double-limbed lattice column with the first densely affixed plate 5, so that the triple energy-dissipating and shock-absorbing structure can effectively resist the damage to the framed building 1 caused by the earthquake.

本发明设置于框架式建筑1的外部，不占用室内使用空间，在多遇地震作用下，本发明的第一密缀板5、弧形板10、阻尼器2、第二密缀板9保持弹性状态，仅为框架式建筑1提供弹性刚度支撑；而在设防地震和罕遇地震作用下，弧形板10、第二密缀板9、阻尼器2、第一密缀板5依次作用，消耗地震输入能量，对框架式建筑1提供保护。The present invention is arranged on the outside of the frame type building 1 and does not occupy indoor use space. Under the action of frequent earthquakes, the first dense slab 5, the curved plate 10, the damper 2, and the second dense slab 9 of the present invention are kept The elastic state only provides elastic rigidity support for the framed building 1; and under the action of fortified earthquakes and rare earthquakes, the arc-shaped plate 10, the second dense plate 9, the damper 2, the first dense plate 5 act in sequence, It consumes seismic input energy and provides protection to the framed building 1.

Claims

一种密缀板耗能格构柱结构，其特征为：包括双肢格构柱，所述的双肢格构柱包括左柱肢和右柱肢，所述的左柱肢和右柱肢之间连接有水平设置的第一密缀板，所述的第一密缀板位于框架式建筑楼板之间的高度范围内，在楼板所在的楼层标高处且位于左柱肢和右柱肢之间还连接有连接板，所述的第一密缀板的左右端分别与左柱肢、右柱肢的壁表面刚性连接，所述的连接板的左右端分别与左柱肢、右柱肢的壁表面铰接，所述的左柱肢和右柱肢内均灌注有混凝土，所述的混凝土形成混凝土柱、并与地基固定连接，所述的左柱肢和右柱肢的底端与地基铰接，在右柱肢右表面与框架式建筑的左墙面之间还连接有阻尼器，所述的阻尼器左端与右柱肢铰接、右端与楼板所在的楼层标高处铰接。An energy-dissipating lattice column structure with densely affixed panels, which is characterized in that it comprises a double-limbed lattice column. The double-limbed lattice column includes a left column and a right column, and the left column and the right column. There are horizontally arranged first dense slabs connected therebetween, and the first dense slabs are located within the height range between the frame building floor slabs, at the elevation of the floor where the floor slabs are located, and located between the left and right columns. The left and right ends of the first compact plate are rigidly connected to the wall surfaces of the left and right columns respectively, and the left and right ends of the connection plate are respectively connected to the left and right columns. The wall surfaces of the left and right columns are hinged, and the left and right columns are filled with concrete. The concrete forms a concrete column and is fixedly connected to the foundation. The bottom ends of the left and right columns are connected to the foundation. Hinged, a damper is also connected between the right surface of the right column leg and the left wall of the framed building, the left end of the damper is hinged with the right column leg, and the right end is hinged with the floor elevation where the floor is located.
如权利要求1所述的一种密缀板耗能格构柱结构，其特征为：所述的左柱肢和右柱肢为相同的结构，且任一柱肢的横截面均为“日”字形，所述的左柱肢和右柱肢由Q345或Q390高屈服点钢材制成；所述的第一密缀板由Q235低屈服点钢材制成，所述的第一密缀板的侧截面为“H”形。The densely cladding energy-dissipating lattice column structure according to claim 1, characterized in that: the left column and the right column have the same structure, and the cross section of any column is in the shape of "日" , The left column and the right column are made of Q345 or Q390 high yield point steel; the first dense plate is made of Q235 low yield point steel, and the side section of the first dense plate It is "H" shape.
如权利要求2所述的一种密缀板耗能格构柱结构，其特征为：所述的连接板由Q345高屈服点钢材制成，且所述的连接板的侧截面为“H”形，所述的第一密缀板由若干缀板构成，所述的连接板的侧截面的面积大于缀板的侧截面的面积。The energy-dissipating lattice column structure of densely affixed plate according to claim 2, characterized in that: the connecting plate is made of Q345 high yield point steel, and the side section of the connecting plate is "H" The first close-fitted board is composed of a number of fixed boards, and the area of the side cross-section of the connecting board is larger than the area of the side cross-section of the board.
如权利要求1～3任一所述的一种密缀板耗能格构柱结构，其特征为：所述的阻尼器为剪切型阻尼器。A densely-fixed plate energy-dissipating lattice column structure according to any one of claims 1 to 3, wherein the damper is a shear type damper.
如权利要求1～3任一所述的一种密缀板耗能格构柱结构，其特征为：所述的混凝土为高标号无收缩混凝土。The densely cladding energy-consuming lattice column structure according to any one of claims 1 to 3, wherein the concrete is high-grade non-shrinkage concrete.
如权利要求1～3任一所述的一种密缀板耗能格构柱结构，其特征为：所述的右柱肢的右端面与框架式建筑的左墙面之间还设有纵截面为弧形的弧形板，所述的弧形板的两端分别与右柱肢的右端面刚性连接，在弧形板的内侧还设有由若干缀板构成的第二密缀板，所述的第二密缀板的左端与右柱肢的右端面刚性连接，第二密缀板的右端与弧形板的内表面刚性连接，所述的弧形板的外侧还铰接有固定板，所述的固定板的右端面还粘接有橡胶层，所述的橡胶层紧贴框架式建筑的墙面，所述的固定板和橡胶层通过螺栓与框架式建筑的墙体固定连接，所述的弧形板、第二密缀板均采用Q235低屈服点钢材制成。An energy-dissipating lattice column structure of densely affixed panels according to any one of claims 1 to 3, characterized in that: a longitudinal An arc-shaped plate with an arc-shaped cross section. The two ends of the arc-shaped plate are respectively rigidly connected to the right end surface of the right column limb. A second densely-fixed plate composed of several plaques is also provided on the inner side of the arc-shaped plate. The left end of the second compact plate is rigidly connected with the right end surface of the right column, the right end of the second compact plate is rigidly connected with the inner surface of the arc-shaped plate, and the outer side of the arc-shaped plate is also hinged with a fixed plate , The right end surface of the fixing plate is also bonded with a rubber layer, the rubber layer is close to the wall of the frame building, and the fixing plate and the rubber layer are fixedly connected to the wall of the frame building by bolts, The arc-shaped plate and the second densely-fixed plate are all made of Q235 low-yield-point steel.
如权利要求6所述的一种密缀板耗能格构柱结构的使用方法，其特征为：包括步骤1、地基加固；步骤2、双肢格构柱定位于安装地点；步骤3、安装阻尼器；步骤4、安装固定板；步骤5、混凝土浇灌。The method for using a densely affixed panel energy-consuming lattice column structure as claimed in claim 6, characterized in that it includes step 1. foundation reinforcement; step 2. positioning the double-limbed lattice column at the installation site; step 3. installation Damper; Step 4. Install the fixing plate; Step 5. Concrete pouring.
如权利要求7所述的一种密缀板耗能格构柱结构的使用方法，其特征为：还包括将多个一种密缀板耗能格构柱结构并排安装于框架式建筑的墙面一侧的步骤。As claimed in claim 7, a method for using a densely-finished energy-dissipating lattice column structure, characterized in that it further comprises installing a plurality of one-type densely-finished energy-dissipating lattice column structures side by side on the wall of the frame building Step on the side of the face.