CN212295682U - Novel precast concrete component hoisting point embedded part system - Google Patents
Novel precast concrete component hoisting point embedded part system Download PDFInfo
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- CN212295682U CN212295682U CN201922420081.1U CN201922420081U CN212295682U CN 212295682 U CN212295682 U CN 212295682U CN 201922420081 U CN201922420081 U CN 201922420081U CN 212295682 U CN212295682 U CN 212295682U
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Abstract
The utility model discloses a novel precast concrete component jack-up hoisting point built-in fitting system relates to assembled structure technical field. The system comprises embedded parts, anti-pulling steel bars, anti-splitting steel bars, horizontal U-shaped steel bars, distribution steel bars and the like. The embedded part is made of high-strength steel, a groove is formed in the edge of the embedded part, an end plate is arranged at the tail of the embedded part, and the bonding performance between the embedded part and the prefabricated part is improved. The anti-pulling steel bars penetrate through the holes in the embedded part and are longitudinally arranged along the embedded part, so that the anti-pulling bearing capacity of the embedded part is improved. The anti-splitting steel bars penetrate through the holes in the embedded parts and are arranged perpendicular to the embedded parts, and therefore the anti-shearing bearing capacity of the embedded parts is improved. The horizontal U-shaped steel bar is vertically arranged around the embedded part, so that the performance of the embedded part under oblique tension is improved. The distributed reinforcing steel bars are vertically arranged around the anti-splitting reinforcing steel bars, so that the integrity between the system and the prefabricated part is increased. The embedded part system has superior stress performance, is suitable for various hoisting modes of large precast concrete members, and has better engineering application prospect.
Description
Technical Field
The utility model relates to an assembled structure technical field, in particular to precast concrete component hoist and mount technical field.
Background
The prefabricated building is formed by assembling prefabricated parts on a construction site, and has the advantages of saving resources, reducing labor force, protecting environment, improving production efficiency, shortening construction period, realizing standardized production, improving comprehensive economic benefit of the building and the like. In recent years, prefabricated structures have been rapidly developed in the strong support of governments at all levels.
The parts of the assembly structure are prefabricated in a factory and transported to a construction site to be hoisted through hoisting equipment, so that the hoisting point embedded parts installed on the prefabricated parts are particularly important for hoisting construction. Particularly, with the improvement of the performance of hoisting equipment, the weight of the prefabricated part is increased more and more, and higher requirements are put forward on the bearing capacity of the hoisting point embedded part. During the on-site installation of the prefabricated part, there may be multiple hoisting modes such as horizontal hoisting, turning hoisting and straight hoisting, for example, vertical stressed members such as wall panels and columns which are manufactured, transported and stacked in a horizontal state, and during the on-site installation, the prefabricated part needs to be turned from the horizontal state to a vertical state and be hoisted and positioned vertically. Therefore, the hoisting point embedded part is in a complex stress state of pull-bend-shear coupling in the process of overturning and hoisting. In addition, if the lifting rope inclines during the two-point horizontal lifting, the lifting point embedded part is also in a complex stress state. Besides the hoisting construction, when the prefabricated part is prefabricated, molded and demoulded in a factory, the hoisting point embedded part also plays a vital role.
In order to promote the development of prefabricated concrete structures, a hoisting point embedded part system which has excellent bearing capacity and good mechanical property and can be applied to various components and different hoisting modes is researched and provided, so that the system has important engineering value.
SUMMERY OF THE UTILITY MODEL
The utility model provides a novel precast concrete component jack-up hoisting point built-in fitting system: the embedded part system mainly comprises an embedded part, anti-pulling steel bars, anti-splitting steel bars, horizontal U-shaped steel bars, distributed steel bars, end plates and the like; the embedded part is made of high-strength steel with high yield strength, so that the maximum bearing capacity of the hoisting point embedded part is improved, and the hoisting requirement of a large prefabricated part can be met; the anti-pulling steel bar penetrates through a preformed hole on the embedded part and is anchored into concrete, so that the tensile force along the axial direction of the embedded part can be resisted, and the embedded part is prevented from being pulled out; the anti-splitting steel bars are arranged perpendicular to the embedded parts, so that transverse restraint is provided for the embedded parts, the concrete is prevented from splitting and damaging by the embedded parts under the shearing force action perpendicular to the embedded parts, and meanwhile, the anti-splitting steel bars can also provide anti-pulling bearing capacity; the horizontal U-shaped steel bar is vertically arranged around the embedded part, so that the performance of the embedded part under the action of oblique tension is improved; the distributed reinforcing steel bars are arranged perpendicular to the anti-splitting reinforcing steel bars, and integrity between the embedded part system and the prefabricated part is improved.
The technical scheme of the utility model as follows:
the utility model provides a novel precast concrete component hoisting point built-in fitting system, this built-in fitting system mainly includes built-in fitting, resistance to plucking reinforcing bar, anti splitting reinforcing bar, horizontal U type reinforcing bar, distribution reinforcing bar, end plate etc..
The embedded part is made of high-strength steel with high yield strength, holes are formed in the embedded part, holes for hoisting are reserved, splitting-resistant reinforcing steel bars and tensile reinforcing steel bars need to be punched, grooves are formed in the edges of the embedded part, end plates are arranged at the tail of the embedded part, and bonding performance between the embedded part and concrete is enhanced.
The anti-pulling steel bars penetrate through the holes of the embedded parts to form a U shape, the U-shaped anti-pulling steel bars are anchored into concrete along the longitudinal direction of the embedded parts, and the end parts of the anti-pulling steel bars are bent to enhance the bonding between the anti-pulling steel bars and the concrete and can resist the tensile force along the axial direction of the embedded parts.
The splitting-resistant reinforcing steel bars penetrate through the holes of the embedded parts and are arranged perpendicular to the embedded parts, the end parts of the splitting-resistant reinforcing steel bars are provided with hooks for enhancing the bonding with concrete, the splitting-resistant reinforcing steel bars can provide lateral restraint for the embedded parts, the shearing force perpendicular to the embedded parts in the overturning and hanging process is resisted, the splitting damage of the concrete caused by the embedded parts under the action of the shearing force is prevented, and in addition, the splitting-resistant reinforcing steel bars can resist the pulling force along the axial direction of the embedded parts. And the front section and the rear end of the embedded part are respectively provided with a fracture-resistant reinforcing steel bar to prevent the embedded part from rotating under the action of shearing force and fracturing concrete.
The horizontal U-shaped steel bar is arranged in a direction perpendicular to the direction of the embedded part and bypasses the embedded part to form a U shape, a hook is arranged at the end part of the steel bar, and the horizontal U-shaped steel bar mainly resists the shearing force component of the lifting rope obliquely acting on the embedded part in the two-point lifting process.
The anti splitting reinforcing bar of distribution reinforcing bar bypass, and the anti splitting reinforcing bar of perpendicular to arranges, and the reinforcing bar tip sets up the crotch, and the anti splitting reinforcing bar of distribution reinforcing bar multiplicable bonds with the concrete, increases the wholeness of built-in fitting system, prevents the local die-cut destruction of concrete.
The embedded part system is arranged before the precast concrete component is poured and formed together with the precast concrete component.
And (3) reserving hoisting holes of the embedded part when the precast concrete member is poured, and grouting and filling the corresponding part after hoisting is finished.
The utility model discloses following beneficial effect has for prior art:
(1) the embedded part is made of high-strength steel, and the embedded part has excellent bonding performance with concrete by means of grooves, tail end plates and the like, so that the hoisting point system has larger hoisting weight.
(2) The anti-pulling steel bar can obviously improve the axial anti-pulling bearing capacity of the embedded part; the anti-splitting steel bar can provide lateral restraint for the embedded part, and provides shearing resistance bearing capacity and pulling resistance bearing capacity, so that the embedded part can be suitable for different hoisting modes such as a horizontal hoisting mode and a turnover hoisting mode; the horizontal U-shaped steel bars can increase the lateral restraint of the embedded part, so that the embedded part is suitable for a more flexible hoisting mode; the distributed reinforcing steel bars can increase the integrity between the whole embedded part system and the prefabricated part and prevent the prefabricated part from being locally damaged.
(3) Compared with the traditional hoisting point embedded part, the hoisting point embedded part has excellent mechanical property by adopting the high-strength steel embedded part and arranging the reinforcing steel bars, and can bear various stress states of pulling, bending and shearing at the same time, so that the hoisting point embedded part can be used in large-scale prefabricated concrete members with large weight, is suitable for various hoisting modes such as horizontal hoisting and overturning hoisting, and lays a solid foundation for the application of the prefabricated structure.
(4) The hoisting point embedded part system and the precast concrete member are cast and molded together, the embedded part hole is filled in a grouting mode and the like after the hoisting is finished, the hoisting is not required to be disassembled after the completion, the subsequent construction is not influenced, the use is simple and convenient, and the performance of the precast concrete member is not influenced.
(5) The embedded part system can be provided with a single embedded part for independent use, and can also be provided with a plurality of embedded parts to form a lifting point group for common use.
Drawings
Fig. 1 is a schematic view (perspective) of the usage state of the present invention;
FIG. 2 is a schematic view of an embedded part of the present invention;
fig. 3 is an overall schematic view of the present invention;
fig. 4 is a top view of the present invention;
fig. 5 is a front view of the present invention;
fig. 6 is a schematic view of the utility model after the pouring in the prefabricated components is completed;
in the figure: 1-embedded part, 2-anti-splitting steel bar, 3-anti-pulling steel bar, 4-horizontal U-shaped steel bar, 5-distributed steel bar and 6-end plate
Detailed Description
The present invention will be further described with reference to the accompanying drawings.
As shown in figure 1, a novel precast concrete component hoisting point embedded part system, this system contains embedded part (1), anti splitting reinforcing bar (2), resistance to plucking reinforcing bar (3), horizontal U type reinforcing bar (4), distribution reinforcing bar (5), end plate (6), and this system can use in the precast concrete component of assembled structure, pours the shaping together with precast concrete component, but the exclusive use also can form hoisting point group and use jointly.
As shown in fig. 2, the embedded part (1) is made of high-strength steel, grooves are formed in the upper side and the lower side of the embedded part, and end plates (6) are welded to the tail of the embedded part to improve the bonding performance between the embedded part (1) and concrete.
As shown in fig. 3, the anti-splitting steel bars (2) penetrate through holes reserved on the embedded part (1) and are arranged perpendicular to the embedded part (1), hooks are formed at the end parts, and one anti-splitting steel bar (2) is arranged at the front section and the rear end of the embedded part (1) respectively; the anti-pulling steel bars (3) penetrate through holes reserved on the embedded part (1) and are longitudinally arranged along the embedded part (1), and hooks are formed at the end parts of the anti-pulling steel bars; the horizontal U-shaped steel bars (4) are arranged in a manner of bypassing the grooves of the embedded part (1) and being vertical to the embedded part (1), hooks are formed at the end parts of the horizontal U-shaped steel bars, and the horizontal U-shaped steel bars (4) are arranged on the two sides of the embedded part (1); the distributed reinforcing steel bars (5) are arranged perpendicular to the anti-splitting reinforcing steel bars (2) by bypassing the anti-splitting reinforcing steel bars (2), one distributed reinforcing steel bar (5) is arranged at certain intervals along the longitudinal direction of the anti-splitting reinforcing steel bars (2), and hooks are formed at the end parts of the distributed reinforcing steel bars.
As shown in fig. 6, the embedded part system and the precast concrete member are cast and molded together, hoisting holes are reserved on the embedded part (1), and after the precast concrete member is hoisted, grouting is performed to fill the corresponding part.
The utility model provides a novel precast concrete component jack-up hoisting point built-in fitting system. The embedded part system has high bearing capacity, can simultaneously bear various loads of pulling, bending and shearing, is suitable for various hoisting modes such as horizontal hoisting, overturning hoisting, straight hoisting and the like, can be used in large precast concrete members of an assembly structure, is convenient and flexible to use, lays a solid foundation for the popularization of the assembly structure, and has good engineering application prospect.
The foregoing is merely a preferred embodiment of the present invention, but the present invention is not limited to the specific embodiment described above. Those skilled in the art should appreciate that they may readily use the present disclosure as a basis for modifying or supplementing other structures, elements, or steps without departing from the principles of the present disclosure.
Although used more herein: 1-embedded part, 2-split-resistant steel bar, 3-pull-resistant steel bar, 4-horizontal U-shaped steel bar, 5-distributed steel bar, 6-end plate and the like, but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is contrary to the spirit of the present invention.
Claims (5)
1. The utility model provides a novel precast concrete component hoisting point built-in fitting system, relates to assembled structure technical field, characterized by: the system comprises embedded parts (1), anti-splitting steel bars (2), anti-pulling steel bars (3), horizontal U-shaped steel bars (4), distribution steel bars (5) and end plates (6).
2. The novel precast concrete unit hoisting point embedded part system of claim 1, characterized in that: the embedded part (1) is made of high-strength steel, grooves are formed in the upper side and the lower side of the embedded part, and an end plate (6) is welded at the tail of the embedded part.
3. The novel precast concrete unit hoisting point embedded part system of claim 1, characterized in that: the anti-splitting steel bars (2) penetrate through holes reserved in the embedded part (1) and are arranged perpendicular to the embedded part (1), hooks are formed at the end parts, and one anti-splitting steel bar (2) is arranged at the front section and the rear end of the embedded part (1) respectively; the anti-pulling steel bars (3) penetrate through holes reserved on the embedded part (1) and are longitudinally arranged along the embedded part (1), and hooks are formed at the end parts of the anti-pulling steel bars; the horizontal U-shaped steel bars (4) are arranged in a manner of bypassing the grooves of the embedded part (1) and being vertical to the embedded part (1), hooks are formed at the end parts of the horizontal U-shaped steel bars, and the horizontal U-shaped steel bars (4) are arranged on the two sides of the embedded part (1); the distributed reinforcing steel bars (5) are arranged perpendicular to the anti-splitting reinforcing steel bars (2) by bypassing the anti-splitting reinforcing steel bars (2), one distributed reinforcing steel bar (5) is arranged at certain intervals along the longitudinal direction of the anti-splitting reinforcing steel bars (2), and hooks are formed at the end parts of the distributed reinforcing steel bars.
4. The novel precast concrete unit hoisting point embedded part system of claim 1, characterized in that: the embedded part system and the precast concrete member are cast and molded together, hoisting holes in the embedded part (1) are reserved, and after the precast concrete member is hoisted, grouting is carried out to fill the corresponding position.
5. The novel precast concrete unit hoisting point embedded part system of claim 1, characterized in that: the embedded part system can be provided with a single embedded part (1) for independent use, and can also be provided with a plurality of embedded parts (1) to form a lifting point group for common use.
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CN201922420081.1U CN212295682U (en) | 2019-12-27 | 2019-12-27 | Novel precast concrete component hoisting point embedded part system |
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CN201922420081.1U CN212295682U (en) | 2019-12-27 | 2019-12-27 | Novel precast concrete component hoisting point embedded part system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110952787A (en) * | 2019-12-27 | 2020-04-03 | 重庆大学 | Novel precast concrete component hoisting point embedded part system |
CN114932614A (en) * | 2022-04-15 | 2022-08-23 | 上海建工建材科技集团股份有限公司 | Mould for producing and hoisting ultra-large concrete member and manufacturing method thereof |
-
2019
- 2019-12-27 CN CN201922420081.1U patent/CN212295682U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110952787A (en) * | 2019-12-27 | 2020-04-03 | 重庆大学 | Novel precast concrete component hoisting point embedded part system |
CN114932614A (en) * | 2022-04-15 | 2022-08-23 | 上海建工建材科技集团股份有限公司 | Mould for producing and hoisting ultra-large concrete member and manufacturing method thereof |
CN114932614B (en) * | 2022-04-15 | 2024-01-30 | 上海建工建材科技集团股份有限公司 | Mould for producing and hoisting ultra-large concrete member and manufacturing method thereof |
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