WO2018196309A1

WO2018196309A1 - Connection configuration for precast concrete beam formed from recycled concrete block and construction method thereof

Info

Publication number: WO2018196309A1
Application number: PCT/CN2017/107908
Authority: WO
Inventors: 吴波; 何国晖
Original assignee: 华南理工大学
Priority date: 2017-04-25
Filing date: 2017-10-27
Publication date: 2018-11-01
Also published as: CN107143040A; CN107143040B

Abstract

A connection configuration for a precast concrete beam formed from a recycled concrete block comprises: a precast corbel simultaneously formed with a column; a precast beam (2) having a recess at an end portion thereof; a perforated positioning plate (4); an erection bar (9); a stirrup (11), a common longitudinal reinforcement (8), a longitudinal reinforcement (3) having undergone bending processing; a steel sleeve (5) having internal threads; a steel bar (6) having external threads; a shear resistant section steel (10); and an axial channel (7). Also provided is a construction method of a connection configuration for a precast concrete beam formed from a recycled concrete block. The connection configuration ensures effective connection between a precast corbel simultaneously formed with a column and a precast beam having a recess at an end portion thereof. Moreover, the present invention requires a small amount of cast concrete and has a high construction speed and favorable vibration resistance.

Description

一种预制再生块体混凝土梁的连接构造及其施工方法Connection structure of prefabricated recycled block concrete beam and construction method thereof

技术领域Technical field

本发明涉及废旧混凝土循环利用技术领域，具体是一种预制再生块体混凝土梁的连接构造及其施工方法。The invention relates to the technical field of waste concrete recycling, in particular to a joint structure of a prefabricated recycled concrete beam and a construction method thereof.

背景技术Background technique

随着环境问题的日益恶化，废旧混凝土的循环利用已引起国内外广泛关注。与传统的再生粗骨料和再生细骨料相比，采用尺度更大的废旧混凝土块体不仅具有破碎效率高、破碎能耗低等优点，同时还能显著降低后续水泥用量，环保节能效益明显。与此同时，国家正以京津冀、长三角、珠三角城市群和常住人口超过300万的其他城市为重点，大力发展预制装配式建筑。利用废旧混凝土块体再生制造预制混凝土构件成为解决废旧混凝土循环利用问题的一条有效途径。With the deterioration of environmental problems, the recycling of waste concrete has attracted widespread attention at home and abroad. Compared with the traditional recycled coarse aggregate and recycled fine aggregate, the use of larger scale waste concrete blocks not only has the advantages of high crushing efficiency, low crushing energy consumption, but also significantly reduces the amount of subsequent cement, and the environmental protection and energy saving benefits are obvious. . At the same time, the country is focusing on the Beijing-Tianjin-Hebei, Yangtze River Delta, Pearl River Delta urban agglomerations and other cities with a permanent population of more than 3 million, and vigorously develop prefabricated buildings. The use of waste concrete blocks to reproduce prefabricated concrete members has become an effective way to solve the recycling problems of waste concrete.

相邻预制构件之间的连接构造对于预制混凝土结构的整体受力性能具有重要影响。目前，常见做法是提前在工厂分别预制好梁、柱构件，然后在施工现场将二者在节点核心区进行拼接并浇筑该核心区的混凝土。由于穿越节点核心区的梁、柱纵筋和箍筋很多，对该核心区的混凝土浇筑质量可能产生不利影响。与此同时，现场浇筑大量混凝土的湿连接方式对环境影响较大且施工速度相对较慢。因此，迫切需要研发一种拼接部位远离节点核心区且现场浇筑量很小的预制再生块体混凝土构件之间的连接构造及其施工方法。The joint structure between adjacent prefabricated members has an important influence on the overall mechanical properties of the precast concrete structure. At present, it is common practice to prefabricate the beam and column members in the factory in advance, and then splicing and pouring the concrete in the core area at the construction site. Due to the large number of beams, column longitudinal ribs and stirrups in the core area of the joint, the quality of concrete pouring in the core area may be adversely affected. At the same time, the wet connection method of pouring a large amount of concrete on site has a great influence on the environment and the construction speed is relatively slow. Therefore, it is urgent to develop a connection structure and a construction method of a precast recycled block concrete member with a splicing portion away from the core portion of the node and having a small amount of on-site pouring.

发明内容Summary of the invention

本发明的目的在于提供一种预制再生块体混凝土梁的连接构造及其施工方法，即提前在工厂制作好与柱同时预制的牛腿和端部带缺口的预制梁，然后在施工现场将二者进行有效连接，并在二者之间的空隙处灌注高强微膨胀型无机胶粘材料。The object of the present invention is to provide a joint structure of a prefabricated regenerated block concrete beam and a construction method thereof, that is, a prefabricated prefabricated beam and a notched prefabricated beam are prepared in advance at the factory, and then at the construction site. The operative connection is made and a high-strength micro-expansion type inorganic adhesive material is poured into the gap between the two.

所发明的一种预制再生块体混凝土梁的连接构造及其施工方法，不仅将相邻预制构件之间的拼接部位外移至远离节点核心区的梁端附近，而且现场浇筑量很小，有效解决了节点核心区因钢筋密集可能产生的混凝土浇筑质量问题，同时可明显提高现场施工速度。此外，由于在与柱同时预制的牛腿和端部带缺口的预制梁内采用了弯折处理后的纵筋，使得灌注有有机结构胶或无机结构胶的轴向孔道的混凝土保护层厚度明显增加，可有效减缓火灾高温对结构胶的劣化作用，进而确保与柱同时预制的牛腿和端部带缺口的预制梁之间的连接的有效性，使梁具有良好的耐火性能。进一步地，通过采用弯折处理后的纵筋，使与柱同时预制的牛腿和端部带缺口的预制梁的连接区域的抗弯能力被人为削弱，地震作用下该连接区域将率先屈服形成塑性铰，从而确保 “强柱弱梁”抗震设计思想的实现。The invention relates to a joint structure of a prefabricated regenerated block concrete beam and a construction method thereof, which not only moves the joint portion between adjacent prefabricated components to the vicinity of the beam end away from the core portion of the node, but also has a small amount of on-site pouring, effective It solves the problem of concrete pouring quality caused by the intensive steel bars in the core area of the node, and can obviously improve the construction speed on site. In addition, the thickness of the concrete protective layer of the axial channel filled with the organic structural rubber or the inorganic structural adhesive is obvious because the longitudinal reinforcement is used in the prefabricated pre-fabricated preforms and the pre-formed beams with the ends. The increase can effectively alleviate the deterioration of the structural adhesive by the high temperature of the fire, thereby ensuring the effectiveness of the connection between the prefabricated beef leg and the pre-formed girder with the end of the column, so that the beam has good fire resistance. Further, by adopting the longitudinal reinforcement after the bending treatment, the bending resistance of the joint region of the prefabricated beef leg and the end notched precast beam with the column is artificially weakened, and the joint region will be yielded first by earthquake. Plastic hinge to ensure The realization of the seismic design idea of "strong column weak beam".

本发明一方面提供了一种预制再生块体混凝土梁的连接构造，包括与柱同时预制的牛腿、端部带缺口的预制梁、带孔定位板、架立筋、箍筋、普通纵筋、弯折处理后的纵筋、带内螺纹的钢套筒、带外螺纹的钢筋棒、抗剪型钢、轴向孔道；One aspect of the present invention provides a joint structure of a prefabricated regenerated block concrete beam, comprising a prefabricated beef leg, a pre-formed beam with a notch at the end, a perforated positioning plate, a standing rib, a stirrup, and a common longitudinal rib. Longitudinal bars after bending treatment, steel sleeves with internal threads, steel bars with external threads, shear steel, axial holes;

与柱同时预制的牛腿的下部设置有带孔定位板、弯折处理后的纵筋和抗剪型钢；端部带缺口的预制梁的上部设置有带孔定位板、弯折处理后的纵筋和抗剪型钢；所述带孔定位板上预先钻有孔洞，弯折处理后的纵筋的端部加工有外螺纹，每个孔洞对应一根弯折处理后的纵筋，孔洞位置与弯折前的纵筋位置相比更靠近梁的横截面的中心；The lower part of the bovine leg prefabricated with the column is provided with a perforated positioning plate, a longitudinal reinforcement after bending, and a shear-resistant steel; the upper part of the pre-formed beam with a notch at the end is provided with a perforated positioning plate, and the longitudinal direction after the bending treatment a rib and a shear-resistant steel; the hole-positioning plate is pre-drilled with a hole, and the end of the longitudinal rib after the bending process is machined with an external thread, and each hole corresponds to a longitudinal rib after bending, and the position of the hole is The position of the longitudinal rib before bending is closer to the center of the cross section of the beam;

弯折处理后的纵筋穿过带孔定位板上预先钻有的孔洞，然后再与带内螺纹的钢套筒的一端进行螺纹连接；带内螺纹的钢套筒的另一端与带外螺纹的钢筋棒进行螺纹连接；The bent longitudinal rib passes through a pre-drilled hole in the perforated locating plate and is then threadedly connected to one end of the internally threaded steel sleeve; the other end of the internally threaded steel sleeve is externally threaded Reinforced rods for threaded connection;

与柱同时预制的牛腿的上部和端部带缺口的预制梁的下部预留有轴向孔道，轴向孔道内灌注有有机结构胶或无机结构胶，每个轴向孔道对应一根带外螺纹的钢筋棒，每根带外螺纹的钢筋棒伸进对应的轴向孔道内；An axial hole is reserved in the lower part of the upper and the end of the prefabricated prefabricated beam of the prefabricated beef leg, and the axial hole is filled with organic structural glue or inorganic structural glue, and each axial hole corresponds to one out-of-band Threaded reinforcing bars, each of which has an externally threaded reinforcing bar extending into the corresponding axial bore;

端部带缺口的预制梁搭放在与柱同时预制的牛腿之上，二者之间连接区域的空隙处灌注有高强微膨胀型无机胶粘材料。The pre-formed beam with the notch at the end is placed on the bobs prefabricated with the column, and the gap between the two is filled with a high-strength micro-expansion type inorganic adhesive material.

进一步地，与柱同时预制的牛腿和端部带缺口的预制梁的内部填充有新混凝土和废旧混凝土块体。Further, the interior of the prefabricated beef leg and the end notched precast beam with the column is filled with new concrete and waste concrete blocks.

进一步地，新混凝土为天然骨料混凝土或再生骨料混凝土，所述废旧混凝土块体为旧有建筑物或构筑物去除全部或部分钢筋后破碎而成的块体，废旧混凝土块体的特征尺寸不小于60 mm。Further, the new concrete is natural aggregate concrete or recycled aggregate concrete, and the waste concrete block is a block body which is broken after the old building or structure removes all or part of the steel bar, and the characteristic size of the waste concrete block is not Less than 60 Mm.

进一步地，轴向孔道的深度不小于15d，带外螺纹的钢筋棒和带内螺纹的钢套筒的长度不小于18d，d为纵筋的直径。Further, the depth of the axial bore is not less than 15d, and the length of the externally threaded reinforcing bar and the internally threaded steel sleeve is not less than 18d, and d is the diameter of the longitudinal rib.

本发明另一方面提供了一种如所述的一种预制再生块体混凝土梁的连接构造的施工方法，包括如下步骤：Another aspect of the present invention provides a construction method of a joint structure of a prefabricated regenerated block concrete beam as described, comprising the following steps:

步骤1、按照设计要求完成与柱同时预制的牛腿和端部带缺口的预制梁内的弯折处理后的纵筋、带孔定位板、带内螺纹的钢套筒、带外螺纹的钢筋棒和普通纵筋的设置与连接；Step 1. Complete the bent longitudinal ribs, the perforated positioning plates, the internally threaded steel sleeves, the externally threaded steel bars in the prefabricated prefabricated beams and the prefabricated prefabricated beams at the ends according to the design requirements. Setting and connection of rods and ordinary longitudinal bars;

步骤2、按照设计要求完成与柱同时预制的牛腿和端部带缺口的预制梁内抗剪型钢、临时预埋圆棒、架立筋和箍筋的设置，架设模板；Step 2: According to the design requirements, complete the setting of the pre-fabricated anti-shear steel, the temporary embedded round bar, the standing rib and the stirrup in the pre-fabricated beef leg and the end with the column, and erect the template;

步骤3、以横躺方式在模板内部灌入少量新混凝土，然后将充分润湿后的废旧混凝土块体一次性投入模板内部，随后持续浇筑新混凝土并充分振捣；待混凝土初凝后，将临时预埋圆棒取出以形成轴向孔道，得到与柱同时预制的牛腿和端部带缺口的预制梁；Step 3. Pour a small amount of new concrete into the formwork in a horizontal lying manner, and then put the fully wetted concrete block into the interior of the formwork, and then continuously pour the new concrete and fully vibrate; after the concrete is initially set, Temporarily pre-embedded round bars are taken out to form axial bores, and the prefabricated preforms are prepared with the bovine legs and the ends with the columns prefabricated;

步骤4、在施工现场完成与柱同时预制的牛腿和端部带缺口的预制梁的吊装搭接，使带外螺纹的钢筋棒伸进灌注有结构胶的轴向孔道内，往与柱同时预制的牛腿和端部带缺口的预制梁之间连接区域的空隙处灌注无机胶粘材料。Step 4. At the construction site, complete the erection of the prefabricated beef legs and the prefabricated prefabricated beams at the ends, so that the externally threaded reinforcing bars extend into the axial bore filled with the structural adhesive, simultaneously with the column. An inorganic adhesive material is poured into the gap between the prefabricated beef leg and the end of the gapped precast beam.

进一步地，所述步骤1具体包括：Further, the step 1 specifically includes:

步骤11、在与柱同时预制的牛腿的下部和端部带缺口的预制梁的上部设置端部加工有外螺纹的弯折处理后的纵筋，将弯折处理后的纵筋穿过带孔定位板上预先钻有的孔洞并点焊定位；Step 11. Locating the longitudinal ribs after the bending of the externally threaded ribs at the upper portion of the bovine leg prefabricated with the column and the upper end of the notched prefabricated beam, and passing the bent longitudinal ribs through the belt Pre-drilled holes in the hole positioning plate and spot welding positioning;

步骤12、将带内螺纹的钢套筒的一端与弯折处理后的纵筋的端部进行螺纹连接并点焊定位，带内螺纹的钢套筒的另一端与带外螺纹的钢筋棒进行螺纹连接，并将带外螺纹的钢筋棒的绝大部分旋入带内螺纹的钢套筒内；Step 12: Threading one end of the internally threaded steel sleeve with the end of the bent longitudinal rib and spot welding, and the other end of the internally threaded steel sleeve is connected with the externally threaded reinforcing bar Threaded and screwing most of the externally threaded steel rod into the internally threaded steel sleeve;

步骤13、在与柱同时预制的牛腿的上部和端部带缺口的预制梁的下部设置普通纵筋。Step 13. A normal longitudinal rib is provided at the upper portion of the bovine leg prefabricated with the column and the lower portion of the pre-formed beam at the end.

进一步地，所述步骤2具体包括：Further, the step 2 specifically includes:

步骤21、在与柱同时预制的牛腿的下部和端部带缺口的预制梁的上部设置抗剪型钢；Step 21, providing shear-resistant steel on the lower part of the bovine leg prefabricated with the column and the upper part of the pre-formed beam with a notch at the end;

步骤22、在与柱同时预制的牛腿的上部和端部带缺口的预制梁的下部设置临时预埋圆棒，临时预埋圆棒的安放位置与轴向孔道的位置一致；Step 22: Temporarily pre-embedded round bars are arranged on the upper part of the bovine leg prefabricated with the column and the lower part of the prefabricated beam at the end, and the position of the temporary pre-embedded round bar is consistent with the position of the axial hole;

步骤23、设置架立筋并绑扎箍筋，架设模板。Step 23. Set up the ribs and tie the stirrups to set up the template.

进一步地，所述步骤3中新混凝土与废旧混凝土块体的质量比为1:1~4:1。Further, the mass ratio of the new concrete to the waste concrete block in the step 3 is 1:1 to 4:1.

进一步地，所述步骤4具体包括：Further, the step 4 specifically includes:

步骤41、在施工现场，往与柱同时预制的牛腿的上部轴向孔道内和端部带缺口的预制梁的下部轴向孔道内灌注有机结构胶或无机结构胶，并在轴向孔道的开口处粘贴封口纸片；Step 41: In the construction site, inject the organic structural adhesive or the inorganic structural adhesive into the lower axial bore of the upper pre-formed beam of the bovine leg prefabricated with the column and the end of the pre-formed beam with the notch, and in the axial bore Apply sealing paper to the opening;

步骤42、完成与柱同时预制的牛腿的吊装就位；Step 42: Finishing the lifting of the beef leg prefabricated with the column;

步骤43、吊装端部带缺口的预制梁并将其搭放在与柱同时预制的牛腿之上，并在二者之间连接区域的空隙处，采用扳手将绝大部分已旋入带内螺纹的钢套筒的带外螺纹的钢筋棒逐渐旋出，使带外螺纹的钢筋棒穿破封口纸片并伸进轴向孔道内；Step 43, lifting the notched prefabricated beam at the end and placing it on the pre-fabricated beef leg with the column, and in the gap between the connecting areas, the majority of the screw is screwed into the belt The externally threaded reinforcing bar of the threaded steel sleeve is gradually unscrewed, so that the externally threaded reinforcing bar pierces the sealing paper and extends into the axial bore;

步骤44、在与柱同时预制的牛腿和端部带缺口的预制梁之间连接区域的空隙处灌注高强微膨胀型无机胶粘材料。Step 44: Injecting a high-strength micro-expansion type inorganic adhesive material into a gap between the joint portion of the pre-fabricated beef leg and the end-notched precast beam.

本发明相对于现有技术，具有如下优点及效果：Compared with the prior art, the present invention has the following advantages and effects:

（1）通过将相邻预制构件之间的拼接部位外移至远离节点核心区的梁端附近，同时采用有机结构胶或无机结构胶实现相邻预制构件之间纵筋应力的传递，不仅有效解决了节点核心区因钢筋密集可能产生的混凝土浇筑质量问题，而且由于现场浇筑量很小，使得施工速度明显提高。(1) By moving the splicing part between adjacent prefabricated components to the vicinity of the beam end away from the core area of the node, and simultaneously using the organic structural glue or the inorganic structural glue to realize the transmission of the longitudinal rib stress between adjacent prefabricated members, not only effective The problem of concrete pouring quality due to the intensive steel bar in the core area of the node is solved, and the construction speed is obviously improved due to the small amount of on-site pouring.

（2）通过在与柱同时预制的牛腿和端部带缺口的预制梁中采用弯折处理后的纵筋，使得灌注有有机结构胶或无机结构胶的轴向孔道的混凝土保护层厚度明显增加，可有效减缓火灾高温对结构胶的劣化作用，进而确保与柱同时预制的牛腿和端部带缺口的预制梁之间连接区域的有效连接，使梁具有良好的耐火性能。(2) The thickness of the concrete protective layer of the axial channel filled with the organic structural adhesive or the inorganic structural adhesive is obvious by using the bent longitudinal ribs in the prefabricated beef legs and the prefabricated prefabricated beams at the ends. The increase can effectively alleviate the deterioration of the structural adhesive by the high temperature of the fire, thereby ensuring the effective connection of the joint region between the prefabricated beef leg and the pre-formed beam with the notch at the end, so that the beam has good fire resistance.

（3）通过采用弯折处理后的纵筋，使得与柱同时预制的牛腿和端部带缺口的预制梁的连接区域的抗弯能力被人为削弱，地震作用下该连接区域将率先屈服形成塑性铰，从而确保 “强柱弱梁”抗震设计思想的实现。(3) By adopting the longitudinal reinforcement after the bending treatment, the bending resistance of the joint region of the prefabricated beef leg and the end of the prefabricated beam with the end of the column is artificially weakened, and the joint region will be yielded first by earthquake. Plastic hinge to ensure The realization of the seismic design idea of "strong column weak beam".

附图说明 DRAWINGS

图1是一种预制再生块体混凝土梁的连接构造的示意图；Figure 1 is a schematic view showing the connection structure of a precast recycled bulk concrete beam;

图2是弯折处理后的纵筋、带孔定位板、带内螺纹的钢套筒、带外螺纹的钢筋棒的细部示意图；2 is a schematic view showing a longitudinal section of a bent process, a perforated positioning plate, a steel sleeve with internal threads, and a steel bar with external threads;

图中所示为：1-与柱同时预制的牛腿；2-端部带缺口的预制梁；3-弯折处理后的纵筋；4-带孔定位板；5-带内螺纹的钢套筒；6-带外螺纹的钢筋棒（图1所示的带外螺纹的钢筋棒为已旋入状态）；7-轴向孔道；8-普通纵筋；9-架立筋；10-抗剪型钢；11-箍筋。The figure shows: 1 - the prefabricated beef leg with the column; the 2-end notched prefabricated beam; the 3 - bent longitudinal rib; the 4-hole locating plate; 5 - the internally threaded steel Sleeve; 6-reinforced steel rod with external thread (the externally threaded steel rod shown in Figure 1 is screwed in); 7-axial bore; 8-normal longitudinal reinforcement; 9-stand reinforcement; 10- Shear-type steel; 11-rings.

具体实施方式detailed description

下面结合实施例及附图对本发明作进一步详细的描述，但本发明的实施方式不限于此。The present invention will be further described in detail below with reference to the embodiments and drawings, but the embodiments of the present invention are not limited thereto.

如图1所示（为清晰展示连接构造，图中混凝土被隐去），一种预制再生块体混凝土梁的连接构造，包括与柱同时预制的牛腿1、端部带缺口的预制梁2、带孔定位板4、架立筋9、箍筋11、普通纵筋8、弯折处理后的纵筋3、带内螺纹的钢套筒5、带外螺纹的钢筋棒6、抗剪型钢10和轴向孔道7。As shown in Figure 1 (in order to clearly show the connection structure, the concrete is hidden in the figure), a joint structure of a prefabricated regenerated block concrete beam, including a prefabricated beef leg 1 with a post and a notched precast beam 2 , with hole positioning plate 4, frame rib 9, stirrup 11, general longitudinal reinforcement 8, longitudinal reinforcement after bending, 3, steel sleeve with internal thread 5, steel rod with external thread 6, shear steel 10 and axial bore 7.

与柱同时预制的牛腿1的完整截面的尺寸为350 mm×600mm、端部带缺口的预制梁2的完整截面的尺寸为350 mm×600mm、架立筋9和箍筋11的直径为10mm、弯折处理后的纵筋3和普通纵筋8的直径为20mm。The full cross section of the beef leg 1 prefabricated with the column is 350 The dimensions of the complete section of the prefabricated beam 2 with mm × 600 mm and notched at the end are 350 The diameter of mm × 600 mm, the standing rib 9 and the stirrup 11 is 10 mm, and the diameter of the longitudinal rib 3 and the ordinary longitudinal rib 8 after the bending treatment are 20 mm.

如图2所示，与柱同时预制的牛腿1的下部和端部带缺口的预制梁2的上部设置有带孔定位板4、三根弯折处理后的纵筋3和抗剪型钢10。带孔定位板4的厚度为25mm，带孔定位板4上预先钻有三个孔洞，弯折处理后的纵筋3的端部加工有外螺纹，每个孔洞对应一根弯折处理后的纵筋3，孔洞位置与弯折前的纵筋位置相比更靠近构梁横截面的中心。三根弯折处理后的纵筋3的位置和与其对应的弯折前的纵筋位置之间在竖直方向上的距离为60mm，外侧两根弯折处理后的纵筋3的位置和与其对应的弯折前的纵筋位置之间在水平方向上的距离为70mm。抗剪型钢10选用型号18工字钢，其长度为360mm。As shown in Fig. 2, the upper portion of the bobbin 1 prefabricated with the column and the upper portion of the endless notched precast beam 2 are provided with a perforated positioning plate 4, three bent longitudinal bars 3 and a shear-resistant steel 10. The perforated positioning plate 4 has a thickness of 25 mm, and the perforated positioning plate 4 is pre-drilled with three holes, and the end portions of the longitudinal ribs 3 after the bending process are machined with external threads, and each hole corresponds to a longitudinally bent process. The rib 3 has a hole position closer to the center of the cross section of the constituting beam than the position of the longitudinal rib before bending. The distance between the position of the longitudinal ribs 3 after the three bending treatments and the position of the longitudinal ribs before the bending is 60 mm in the vertical direction, and the position of the longitudinal ribs 3 after the two outer bending treatments corresponds to The distance between the longitudinal rib positions before bending is 70 mm in the horizontal direction. The shear-resistant steel 10 is selected from the model 18 I-beam and has a length of 360 mm.

弯折处理后的纵筋3穿过带孔定位板4上预先钻有的孔洞，然后再与带内螺纹的钢套筒5的一端进行螺纹连接。带内螺纹的钢套筒5的另一端与带外螺纹的钢筋棒6进行螺纹连接。带内螺纹的钢套筒5的内径为20mm，外径为31mm，其长度为360mm，带外螺纹的钢筋棒6的直径为20mm，其长度为360mm。The bent longitudinal rib 3 passes through a pre-drilled hole in the perforated positioning plate 4 and is then threadedly coupled to one end of the internally threaded steel sleeve 5. The other end of the internally threaded steel sleeve 5 is threadedly connected to the externally threaded reinforcing bar 6. The internally threaded steel sleeve 5 has an inner diameter of 20 mm, an outer diameter of 31 mm and a length of 360 mm, and the externally threaded reinforcing bar 6 has a diameter of 20 mm and a length of 360 mm.

与柱同时预制的牛腿1的上部和端部带缺口的预制梁2的下部预留有轴向孔道7，轴向孔道7的孔径为25mm，深度为300mm。轴向孔道7内灌注有有机结构胶或无机结构胶，每个轴向孔道7对应一根带外螺纹的钢筋棒6，每根带外螺纹的钢筋棒6伸进对应的轴向孔道7内。The lower portion of the upper and end notched prefabricated beams 2 of the bobs 1 which are prefabricated simultaneously with the column are provided with axial bores 7, which have an aperture of 25 mm and a depth of 300 mm. The axial bore 7 is filled with an organic structural adhesive or an inorganic structural adhesive, and each axial bore 7 corresponds to an externally threaded reinforcing bar 6, and each externally threaded reinforcing bar 6 projects into the corresponding axial bore 7. .

端部带缺口的预制梁2搭放在与柱同时预制的牛腿1之上，二者的搭接长度为250mm，二者之间连接区域的空隙处灌注有高强微膨胀型无机胶粘材料。The pre-formed beam 2 with the notch at the end is placed on the bobbin 1 prefabricated with the column, and the overlap length of the two is 250 mm. The gap between the two is filled with a high-strength micro-expansion type inorganic adhesive material. .

如上述一种预制再生块体混凝土梁的连接构造的施工方法，包括如下步骤：A construction method for a joint structure of a prefabricated regenerated block concrete beam, comprising the following steps:

步骤1、按照设计要求完成与柱同时预制的牛腿1和端部带缺口的预制梁2内的弯折处理后的纵筋3、带孔定位板4、带内螺纹的钢套筒5、带外螺纹的钢筋棒6和普通纵筋8的设置与连接，具体包括：Step 1. According to the design requirements, the longitudinally rib 3, the perforated positioning plate 4, and the internally threaded steel sleeve 5 in the prefabricated preform 2 and the pre-formed beam 2 with the end of the notch are completed. The arrangement and connection of the externally threaded reinforcing bar 6 and the ordinary longitudinal rib 8 include:

步骤11、在与柱同时预制的牛腿1的下部和端部带缺口的预制梁2的上部设置端部加工有外螺纹的弯折处理后的纵筋3，将弯折处理后的纵筋3穿过带孔定位板4上预先钻有的孔洞并点焊定位；Step 11. On the upper part of the prefabricated beam 2 prefabricated with the column and the upper end of the notched prefabricated beam 2, the longitudinal rib 3 which is bent at the end is machined with an external thread, and the longitudinal rib after the bending process is processed. 3 passing through the pre-drilled holes in the perforated positioning plate 4 and spot welding positioning;

步骤12、将带内螺纹的钢套筒5的一端与弯折处理后的纵筋3的端部进行螺纹连接并点焊定位，带内螺纹的钢套筒5的另一端与带外螺纹的钢筋棒6进行螺纹连接，并将带外螺纹的钢筋棒6的绝大部分旋入带内螺纹的钢套筒5内；Step 12: Threading one end of the internally threaded steel sleeve 5 with the end of the bent longitudinal rib 3 and spot welding, the other end of the internally threaded steel sleeve 5 and the externally threaded The reinforcing bar 6 is screwed, and the majority of the externally threaded reinforcing bar 6 is screwed into the internally threaded steel sleeve 5;

步骤13、在与柱同时预制的牛腿1的上部和端部带缺口的预制梁2的下部设置普通纵筋8。Step 13. A normal longitudinal rib 8 is provided at the upper portion of the beef leg 1 prefabricated with the column and the lower portion of the endless notched precast beam 2.

步骤2、按照设计要求完成与柱同时预制的牛腿1和端部带缺口的预制梁2内的抗剪型钢10、临时预埋圆棒、架立筋9和箍筋11的设置，架设模板，具体包括：Step 2, according to the design requirements, complete the setting of the shear-type steel 10, the temporary embedded round bar, the standing rib 9 and the stirrup 11 in the prefabricated beam 1 and the end-notched precast beam 2, and erect the template. Specifically, including:

步骤21、在与柱同时预制的牛腿1的下部和端部带缺口的预制梁2的上部设置抗剪型钢10；Step 21, at the same time as the prefabricated beef leg 1 and the upper part of the end of the prefabricated beam 2 is provided with shear steel 10;

步骤22、在与柱同时预制的牛腿1的上部和端部带缺口的预制梁2的下部设置临时预埋圆棒，临时预埋圆棒的安放位置与轴向孔道7的位置一致；Step 22. Providing a temporary pre-embedded round bar at a lower portion of the upper portion of the bovine leg 1 and the end of the prefabricated prefabricated beam 2 prefabricated with the column, and the position of the temporary pre-embedded round bar is consistent with the position of the axial bore 7;

步骤23、设置架立筋9并绑扎箍筋11，架设模板。Step 23. Set the standing ribs 9 and tie the stirrups 11 to set up the template.

步骤3、以横躺方式在模板内部灌入少量新混凝土，然后将充分润湿后的废旧混凝土块体一次性投入模板内部，随后持续浇筑新混凝土并充分振捣，新混凝土与废旧混凝土块体的质量比为1:1~4:1。待混凝土初凝后，将临时预埋圆棒取出以形成轴向孔道7，得到与柱同时预制的牛腿1和端部带缺口的预制梁2。Step 3. Inject a small amount of new concrete into the formwork in a horizontal lying manner, and then put the fully wetted concrete block into the interior of the formwork, and then continuously pour new concrete and fully vibrate. New concrete and waste concrete block The mass ratio is 1:1~4:1. After the initial setting of the concrete, the temporary pre-embedded round bar is taken out to form an axial bore 7, and the bovine leg 1 and the end-notched precast beam 2 which are prefabricated with the column are obtained.

步骤4、在施工现场完成与柱同时预制的牛腿1和端部带缺口的预制梁2的吊装搭接，使带外螺纹的钢筋棒6伸进灌注有结构胶的轴向孔道7内，往与柱同时预制的牛腿1和端部带缺口的预制梁2之间连接区域的空隙处灌注无机胶粘材料，具体包括： Step 4: At the construction site, the lifting and erecting of the prefabricated beef leg 1 and the end of the pre-formed beam 2 with the notch are completed, and the externally threaded reinforcing bar 6 is inserted into the axial hole 7 filled with the structural adhesive. The inorganic adhesive material is poured into the gap between the joint portion of the pre-fabricated beef leg 1 and the end-notched precast beam 2, which comprises:

步骤41、在施工现场，往与柱同时预制的牛腿1的上部轴向孔道7内和端部带缺口的预制梁2的下部轴向孔道7内灌注有机结构胶或无机结构胶，并在轴向孔道7的开口处粘贴封口纸片；Step 41: At the construction site, inject the organic structural adhesive or the inorganic structural adhesive into the upper axial bore 7 of the prefabricated preform 1 and the lower axial bore 7 of the end of the pre-formed beam 2 which are prefabricated with the column, and a sealing paper sheet is attached to the opening of the axial hole 7;

步骤42、完成与柱同时预制的牛腿1的吊装就位；Step 42, completing the lifting of the beef leg 1 prefabricated with the column;

步骤43、吊装端部带缺口的预制梁2并将其搭放在与柱同时预制的牛腿1之上，并在二者之间连接区域的空隙处，采用扳手将绝大部分已旋入带内螺纹的钢套筒5的带外螺纹的钢筋棒6逐渐旋出，使带外螺纹的钢筋棒6穿破封口纸片并伸进轴向孔道7内；Step 43, lifting the notched prefabricated beam 2 at the end and placing it on the bobbin 1 prefabricated with the column, and at the gap of the connecting area between the two, using a wrench to screw most of the screw The externally threaded reinforcing bar 6 of the internally threaded steel sleeve 5 is gradually unscrewed, so that the externally threaded reinforcing bar 6 penetrates the sealing paper sheet and projects into the axial bore 7;

步骤44、在与柱同时预制的牛腿1和端部带缺口的预制梁2之间连接区域的空隙处灌注高强微膨胀型无机胶粘材料。Step 44: Injecting a high-strength micro-expansion type inorganic adhesive material into a space at a joint region between the bobbin 1 which is prefabricated at the same time as the column and the pre-formed beam 2 which is notched at the end.

上述实施例的限制，其他任何未背离本发明的精神实质与原理下所作的改变、修饰、替代、组合、简化，均应为等效的置换方式，都包含在本发明的保护范围之内。 The invention is not limited by the scope of the present invention, and any equivalents, modifications, substitutions, combinations, and simplifications of the present invention are intended to be included in the scope of the present invention.

Claims

一种预制再生块体混凝土梁的连接构造，其特征在于：包括与柱同时预制的牛腿(1)、端部带缺口的预制梁(2)、带孔定位板(4)、架立筋(9)、箍筋(11)、普通纵筋(8)、弯折处理后的纵筋(3)、带内螺纹的钢套筒(5)、带外螺纹的钢筋棒(6)、抗剪型钢(10)、轴向孔道(7)；A joint structure of a prefabricated regenerated block concrete beam, comprising: a cow leg (1) prefabricated at the same time as the column, a prefabricated beam (2) with a notch at the end, a perforated positioning plate (4), a standing rib (9), stirrups (11), ordinary longitudinal reinforcements (8), longitudinal reinforcements after bending treatment (3), steel sleeves with internal threads (5), steel rods with external threads (6), resistance Shear steel (10), axial channel (7);

所述与柱同时预制的牛腿(1)的下部设置有带孔定位板(4)、弯折处理后的纵筋(3)和抗剪型钢(10)；所述端部带缺口的预制梁(2)的上部设置有带孔定位板(4)、弯折处理后的纵筋(3)和抗剪型钢(10)；带孔定位板(4)上预先钻有孔洞，弯折处理后的纵筋(3)的端部加工有外螺纹，每个孔洞对应一根弯折处理后的纵筋(3)，孔洞位置与弯折前的纵筋位置相比更靠近梁的横截面的中心；The lower portion of the bovine leg (1) prefabricated with the column is provided with a perforated positioning plate (4), a bent longitudinal rib (3) and a shear-resistant steel (10); the end is notched prefabricated The upper part of the beam (2) is provided with a perforated positioning plate (4), a longitudinal rib (3) after bending treatment, and a shear-resistant steel (10); the hole-positioning plate (4) is pre-drilled with a hole, and is bent. The ends of the rear longitudinal ribs (3) are machined with external threads, and each hole corresponds to a longitudinal rib (3) after bending, and the position of the hole is closer to the cross section of the beam than the position of the longitudinal rib before bending. center of;

弯折处理后的纵筋(3)穿过带孔定位板(4)上预先钻有的孔洞，然后再与带内螺纹的钢套筒(5)的一端进行螺纹连接；带内螺纹的钢套筒(5)的另一端与带外螺纹的钢筋棒(6)进行螺纹连接；The bent longitudinal rib (3) passes through the pre-drilled hole in the perforated positioning plate (4) and then is threadedly connected to one end of the internally threaded steel sleeve (5); the internally threaded steel The other end of the sleeve (5) is screwed to the externally threaded reinforcing bar (6);

所述与柱同时预制的牛腿(1)的上部和端部带缺口的预制梁(2)的下部预留有轴向孔道(7)，轴向孔道(7)内灌注有有机结构胶或无机结构胶，每个轴向孔道(7)对应一根带外螺纹的钢筋棒(6)，每根带外螺纹的钢筋棒(6)伸进对应的轴向孔道(7)内；The lower portion of the upper leg and the notched prefabricated beam (2) of the beef leg (1) prefabricated at the same time as the column are reserved with an axial hole (7), and the axial hole (7) is filled with an organic structural adhesive or Inorganic structural adhesive, each axial channel (7) corresponds to an externally threaded reinforcing bar (6), and each externally threaded reinforcing bar (6) projects into the corresponding axial bore (7);

所述端部带缺口的预制梁(2)搭放在与柱同时预制的牛腿(1)之上，二者之间连接区域的空隙处灌注有高强微膨胀型无机胶粘材料。The end-notched prefabricated beam (2) is placed over the pre-formed beef leg (1), and the gap between the two is filled with a high-strength micro-expansion type inorganic adhesive material.
根据权利要求1所述的一种预制再生块体混凝土梁的连接构造，其特征在于：所述与柱同时预制的牛腿(1)和端部带缺口的预制梁(2)的内部填充有新混凝土和废旧混凝土块体。The joint structure of a prefabricated regenerated block concrete beam according to claim 1, characterized in that the inside of the prefabricated beef leg (1) and the end notched precast beam (2) are filled with New concrete and waste concrete blocks.
根据权利要求2所述的一种预制再生块体混凝土梁的连接构造，其特征在于：所述新混凝土为天然骨料混凝土或再生骨料混凝土，所述废旧混凝土块体为旧有建筑物或构筑物去除全部或部分钢筋后破碎而成的块体，所述废旧混凝土块体的特征尺寸不小于60mm。The joint structure of a precast recycled block concrete beam according to claim 2, wherein the new concrete is natural aggregate concrete or recycled aggregate concrete, and the waste concrete block is an old building or A block obtained by removing all or part of the steel bar after the structure is removed, and the waste concrete block has a feature size of not less than 60 mm.
根据权利要求1所述的一种预制再生块体混凝土梁的连接构造，其特征在于：所述轴向孔道(7)的深度不小于15d，所述带外螺纹的钢筋棒(6)和带内螺纹的钢套筒(5)的长度不小于18d，d为纵筋的直径。The joint structure of a precast recycled block concrete beam according to claim 1, wherein the axial bore (7) has a depth of not less than 15d, and the externally threaded reinforcing bar (6) and belt The length of the internally threaded steel sleeve (5) is not less than 18d, and d is the diameter of the longitudinal rib.
一种如权利要求1至4中任一项所述的一种预制再生块体混凝土梁的连接构造的施工方法，其特征在于，包括如下步骤：A method of constructing a joint structure of a prefabricated regenerated block concrete beam according to any one of claims 1 to 4, comprising the steps of:

步骤1、按照设计要求完成与柱同时预制的牛腿(1)和端部带缺口的预制梁(2)内的弯折处理后的纵筋(3)、带孔定位板(4)、带内螺纹的钢套筒(5)、带外螺纹的钢筋棒(6)和普通纵筋(8)的设置与连接；Step 1. According to the design requirements, the longitudinal ribs (3), the perforated positioning plate (4) and the belt after the bending process are completed in the pre-fabricated beef leg (1) and the end notched prefabricated beam (2). The arrangement and connection of the internally threaded steel sleeve (5), the externally threaded reinforcing rod (6) and the ordinary longitudinal reinforcement (8);

步骤2、按照设计要求完成与柱同时预制的牛腿(1)和端部带缺口的预制梁(2)内的抗剪型钢(10)、临时预埋圆棒、架立筋(9)和箍筋(11)的设置，架设模板；Step 2. According to the design requirements, the bobs (1) prefabricated with the column and the shear-resistant steel (10) in the pre-formed beam (2) with the notch at the end, the temporary embedded round bar, the standing rib (9) and Setting of stirrups (11), erecting templates;

步骤3、以横躺方式在模板内部灌入少量新混凝土，然后将充分润湿后的废旧混凝土块体一次性投入模板内部，随后持续浇筑新混凝土并充分振捣；待混凝土初凝后，将临时预埋圆棒取出以形成轴向孔道(7)，得到与柱同时预制的牛腿(1)和端部带缺口的预制梁(2)；Step 3. Pour a small amount of new concrete into the formwork in a horizontal lying manner, and then put the fully wetted concrete block into the interior of the formwork, and then continuously pour the new concrete and fully vibrate; after the concrete is initially set, Temporary pre-embedded round bar is taken out to form an axial channel (7), and a bovine leg (1) prefabricated with the column and a prefabricated beam (2) with a notched end are obtained;

步骤4、在施工现场完成吊装搭接，使带外螺纹的钢筋棒(6)伸进灌注有结构胶的轴向孔道(7)内，往与柱同时预制的牛腿(1)和端部带缺口的预制梁(2)之间连接区域的空隙处灌注无机胶粘材料。Step 4. Complete the hoisting and lap joint at the construction site, so that the externally threaded steel bar (6) is inserted into the axial hole (7) filled with the structural glue, and the ox leg (1) and the end prefabricated with the column at the same time. The inorganic adhesive material is poured into the gap of the joint region between the notched precast beams (2).
根据权利要求5所述的施工方法，其特征在于：所述步骤1具体包括：The construction method according to claim 5, wherein the step 1 specifically comprises:

步骤11、在与柱同时预制的牛腿(1)的下部和端部带缺口的预制梁(2)的上部设置端部加工有外螺纹的弯折处理后的纵筋(3)，将弯折处理后的纵筋(3)穿过带孔定位板(4)上预先钻有的孔洞并点焊定位；Step 11. On the upper portion of the bobbin (1) prefabricated at the same time as the column and the upper portion of the pre-formed beam (2) having the notch at the end, the longitudinal rib (3) after the bending of the external thread is processed, and the bending is performed. The longitudinal ribs (3) after the folding process pass through the pre-drilled holes on the perforated positioning plate (4) and are spot-welded;

步骤12、将带内螺纹的钢套筒(5)的一端与弯折处理后的纵筋(3)的端部进行螺纹连接并点焊定位，带内螺纹的钢套筒(5)的另一端与带外螺纹的钢筋棒(6)进行螺纹连接，并将带外螺纹的钢筋棒(6)的绝大部分旋入带内螺纹的钢套筒(5)内；Step 12: Threading one end of the internally threaded steel sleeve (5) with the end of the bent longitudinal rib (3) and spot welding, the steel sleeve (5) with internal thread One end is threadedly connected to the externally threaded reinforcing bar (6), and the majority of the externally threaded reinforcing bar (6) is screwed into the internally threaded steel sleeve (5);

步骤13、在与柱同时预制的牛腿(1)的上部和端部带缺口的预制梁(2)的下部设置普通纵筋(8)。Step 13. A normal longitudinal rib (8) is provided at the upper portion of the bovine leg (1) prefabricated with the column and the lower portion of the pre-formed beam (2) at the end.
据权利要求5所述的施工方法，其特征在于：所述步骤2具体包括：The construction method according to claim 5, wherein the step 2 specifically comprises:

步骤21、在与柱同时预制的牛腿(1)的下部和端部带缺口的预制梁(2)的上部设置抗剪型钢(10)；Step 21, providing a shear-resistant steel (10) on the lower portion of the bovine leg (1) prefabricated with the column and the upper portion of the notched prefabricated beam (2);

步骤22、在与柱同时预制的牛腿(1)的上部和端部带缺口的预制梁(2)的下部设置临时预埋圆棒，临时预埋圆棒的安放位置与轴向孔道(7)的位置一致；Step 22: Temporarily pre-embedded round bars are arranged on the upper part of the beef leg (1) prefabricated with the column and the lower part of the end of the pre-formed beam (2), and the position of the temporary embedded round bar and the axial hole (7) ) the same position;

步骤23、设置架立筋(9)并绑扎箍筋(11)，架设模板。Step 23. Set the standing ribs (9) and tie the stirrups (11) to erect the template.
根据权利要求5所述的施工方法，其特征在于：所述步骤3中，所述新混凝土与废旧混凝土块体的质量比为1:1~4:1。The construction method according to claim 5, wherein in the step 3, the mass ratio of the new concrete to the waste concrete block is 1:1 to 4:1.
根据权利要求5所述的施工方法，其特征在于：所述步骤4具体包括：The construction method according to claim 5, wherein the step 4 specifically comprises:

步骤41、在施工现场，往与柱同时预制的牛腿(1)的上部轴向孔道(7)内和端部带缺口的预制梁(2)的下部轴向孔道(7)内灌注有机结构胶或无机结构胶，并在轴向孔道(7)的开口处粘贴封口纸片；Step 41: In the construction site, inject the organic structure into the upper axial bore (7) of the bob (1) prefabricated with the column and the lower axial bore (7) of the prefabricated prefabricated beam (2) at the end. a glue or an inorganic structural adhesive, and a sealing paper sheet is attached to the opening of the axial passage (7);

步骤42、完成与柱同时预制的牛腿(1)的吊装就位；Step 42: Finishing the lifting of the beef leg (1) prefabricated with the column;

步骤43、吊装端部带缺口的预制梁(2)并将其搭放在与柱同时预制的牛腿(1)之上，并在二者之间连接区域的空隙处，利用扳手将绝大部分已旋入带内螺纹的钢套筒(5)的带外螺纹的钢筋棒(6)逐渐旋出，使带外螺纹的钢筋棒(6)穿破封口纸片并伸进轴向孔道(7)内；Step 43, lifting the notched prefabricated beam (2) at the end and placing it on the pre-fabricated beef leg (1) with the column, and connecting the gap between the two areas, using a wrench to maximize The externally threaded reinforcing bar (6), which has been screwed into the internally threaded steel sleeve (5), is gradually unscrewed, so that the externally threaded reinforcing bar (6) penetrates the sealing paper and extends into the axial bore ( 7)

步骤44、在与柱同时预制的牛腿(1)和端部带缺口的预制梁(2)之间连接区域的空隙处灌注高强微膨胀型无机胶粘材料。Step 44: Injecting a high-strength micro-expansion type inorganic adhesive material into a space at a joint region between the bobs (1) prefabricated at the same time as the column and the pre-formed beam (2) at the ends.