CN113469492A - Assembled multipolar green building system - Google Patents

Abstract

The invention discloses an assembled multi-polarization green building system, which belongs to the technical field of building construction and comprises a material recovery module, a material recycling module, a construction management module and a server, wherein the material recovery module is used for recovering materials; the material recycling module is used for recycling the residual construction materials of the construction site, the residual construction materials comprise reinforcing steel bars, wooden templates and bricks, the residual waste materials of the construction site can be recycled and reused through the arrangement of the material recycling module and the material recycling module, the surplus waste materials can be sold and changed, common tools are processed, the construction of workers is facilitated, the phenomenon that the stool and the ladder cannot be found in future maintenance to influence the construction is avoided, and meanwhile the orderliness, environmental protection and safety of the construction site are guaranteed; through the setting of construction management module, guarantee construction quality avoids causing great economic loss and material waste because of the quality is done over again, through changing construction workman, guarantees construction quality, improves the construction progress.

Description

Assembled multipolar green building system

Technical Field

The invention belongs to the technical field of building construction; in particular to an assembled multi-polarization green building system.

Background

The green construction is an important stage in the whole life cycle of the building and is a key link for realizing resource saving, energy conservation and emission reduction in the building field. The green construction means that in the engineering construction, on the premise of ensuring the basic requirements of quality, safety and the like, through scientific management and technical progress, resources are saved to the maximum extent, construction activities which have negative influences on the environment are reduced, and energy conservation, land conservation, water conservation, material conservation and environmental protection are realized. The implementation of green construction is based on the principle of adjusting to local conditions, the green construction is the embodiment of the comprehensive application of the sustainable development concept in engineering construction, the green construction does not only mean the implementation of closed construction in the engineering construction, no dust flying, no noise disturbing people, the cultivation of flowers and grass around a construction site, the implementation of timed watering and the like, and the green construction relates to various aspects of sustainable development, such as the ecological and environmental protection, the utilization of resources and energy, the social and economic development and the like.

But now the job site frequently appears because of construction quality not up to standard and a large amount of quality reworks appear, causes a large amount of material wastes and economic loss, and the job site has a large amount of surplus materials and can not obtain make full use of moreover, when ending the maintenance, influences the maintenance progress because of can't find stool and ladder.

Disclosure of Invention

The invention aims to provide an assembled multi-polarization green building system, and solves the problems.

The purpose of the invention can be realized by the following technical scheme:

an assembly type multi-polarization green building system comprises a material recovery module, a material recycling module, a construction management module and a server;

the material recycling module is used for recycling residual construction materials of a construction site, the residual construction materials comprise steel bars, wooden templates and bricks, and the specific recycling method comprises the following steps:

step S11: setting a waste material stacking point, and marking the waste material stacking point as i, wherein i is 1, 2, … … and n, and n is a positive integer;

step S12: acquiring the operation condition of a waste material stacking point, wherein the operation condition of the waste material stacking point comprises the operation and the recovery stop, and the operation condition of the waste material stacking point is marked as Pi;

step S13: obtaining the distance between the residual construction materials and each waste material stacking point on the construction site, marking the distance between the residual construction materials and each waste material stacking point on the construction site as Li, removing dimensions of the waste material stacking points and the operation conditions of the waste material stacking points and the distance between the residual construction materials and each waste material stacking point on the construction site, and taking the numerical value of the waste material stacking points to calculate;

step S14: obtaining a priority value Qi according to a formula Qi-lambda b1 Pi/(b2 Li +1), wherein b1 and b2 are proportional coefficients, the value range is 0-b 1-1, 0-b 2-1, lambda is a correction factor, the value range is 0-lambda-1, when the operation condition of the waste material stacking point is in operation, b1 Pi-1, and when the operation condition of the waste material stacking point is stopping and stopping, b1 Pi-0;

step S15: transporting the residual construction materials in the construction site to the highest waste material stacking point with the priority value Qi;

step S16: the method comprises the steps of acquiring the change condition of a waste material stacking point in a construction progress plan in real time, marking the waste material stacking point one week ahead when the construction progress plan indicates that the waste material stacking point is to be constructed next, stopping the operation of the waste material stacking point, and marking the waste material stacking point which is stopped to operate as a waste material stacking point;

step S17: acquiring first punctuation information in the deletion record, and when no waste material stacking point exists in the first punctuation information in the deletion record, arranging a constructor to transport the material in the waste material stacking point to the nearest running waste material stacking point; when the first punctuation information in the deletion record contains the stacking points of the waste materials and the corresponding first punctuation still exceeds one month in the construction schedule and cannot be constructed, arranging the constructor to transport the materials in the stacking points of the waste materials to the corresponding first punctuation;

the construction management module is used for construction technicians to manage construction workers and comprises a quality supervision unit, a construction rating unit and a material checking unit.

Further, the specific method for setting the stacking point of the waste material in the step S11 includes the following steps:

step S21: acquiring a construction schedule, recording the positions which cannot be constructed in the construction schedule within one month, and marking the recorded positions as first marking points;

step S22: acquiring the distance between every two first marking points, setting the allowable shortest distance between every two first marking points by technical personnel of a construction general contractor according to the actual construction site requirements, deleting the first marking points of which the distance between every two first marking points exceeds the allowable shortest distance between every two first marking points, and recording the deleted first marking points;

step S23: marking the deleted first mark points as second coordinate points, acquiring road traffic information around the second coordinate points in real time, establishing a material stacking table, setting the type of stacked materials in each second coordinate point, and inputting the second coordinate points, the road traffic information and the types of the stacked materials in the second coordinate points into the material stacking table;

step S24: and when the roads around the second coordinate point are not smooth, marking the corresponding second coordinate point in the material stacking table, and sending a message that the second coordinate point stops recycling to construction technicians.

Further, the material recycling module is used for recycling the materials in the waste material stacking points, and the specific method comprises the following steps:

step S31: obtaining the selling price and the weight of the stacked materials in the stacking point of the waste materials, and calculating the total pre-selling price of the materials in the stacking point of the waste materials;

step S32: the method comprises the steps that a cost price before selling is obtained, the cost price comprises labor cost and transportation cost, a profit target is set and is set by a general construction contractor, when the material in a waste material stacking point is sold to reach the profit target, the material in the waste material stacking point is sold, and when the material in the waste material stacking point is sold to be incapable of reaching the profit target, the material is not sold;

step S33: and arranging workers of each construction team to process the materials in the waste material stacking points, and distributing the processed tools to the construction teams corresponding to the processing workers for use.

Further, the quality supervision unit is used for supervising the construction quality of construction workers, and the specific method comprises the following steps:

step S41: setting a first piece checking node, wherein the first piece checking node is used for requiring a worker to establish a construction sample plate before the worker performs large-scale construction, then comparing the parameters of the construction sample plate with the construction specification, refusing the construction worker to perform large-scale construction when the parameters of the construction sample plate do not meet the requirements of the construction specification until the parameters of the construction sample plate meet the requirements of the construction specification, allowing the construction worker to perform large-scale construction, and allowing the construction worker to perform large-scale construction when the parameters of the construction sample plate meet the requirements of the construction specification;

step S42: establishing a standard checking table, and inputting the construction single item and the corresponding construction standard parameter into the standard checking table; marking the construction single item and the corresponding construction specification parameter as a comparison parameter;

step S43: acquiring the engineering parameters under construction of a constructor, inputting the engineering parameters under construction of the constructor into a standard check table to be compared with the comparison parameters, generating a warning signal when the engineering parameters under construction of the constructor exceed the range of the comparison parameters, sending the warning signal to a server, sending warning information to a construction technician by the server, wherein the warning information comprises an illegal position and illegal parameters, and supervising the constructor to immediately correct the illegal position; when the construction parameters of the construction workers do not exceed the range of the contrast parameters, the operation is not carried out;

step S44: establishing a worker violation table, and recording construction worker information generating violation information into the worker violation table, wherein the construction worker information comprises a name, an age, a construction team to which the construction worker belongs, a name of a worker with the worker, a contact mode of the worker with the worker, a violation reason and violation times;

step S45: and setting an illegal times warning line, sending a warning notice to the staff on duty of the corresponding worker when the number of times of the construction worker reaches the illegal times warning line, and requiring the staff on duty of the corresponding worker to immediately replace the construction worker to punish the belonging construction team when the construction worker breaks rules again.

Further, the construction rating unit is used for rating a construction team, and the specific method comprises the following steps:

step S51: the scores of the construction team and the groups of the construction general contractors are obtained,

step S52: acquiring the number of violation times of workers in the construction team and the number of worker replacement times due to violation, and reducing the construction team according to the number of violation times of the workers in the construction team and the number of worker replacement times due to violation;

step S53: and setting a construction team scoring warning line, and when the construction team scoring is lower than the construction team scoring warning line, listing the corresponding construction team in an untrusted list, so that the construction team is not cooperated in the future.

Further, the material checking unit is used for checking the use condition of materials in the construction process, and the specific method comprises the following steps:

step S61: acquiring daily material consumption, corresponding actual project completion quantity and corresponding plan completion project quantity, and acquiring a daily project completion quantity difference value;

step S62: setting a daily allowable project completion quantity difference value, and searching a material waste reason and reinforcing construction supervision when the daily project completion quantity difference value is larger than the daily allowable project completion quantity difference value;

step S63: setting a commodity mortar appointed stacking point, and arranging a simple shielding device on the commodity mortar appointed stacking point;

step S64: the method comprises the steps of obtaining the mortar allowance and the stacking time of the mortar in a specified stacking point of the commercial mortar in real time, obtaining the mortar consumption per hour of a corresponding construction team, obtaining the quality guarantee period of the commercial mortar from a concrete mixing plant, predicting the consumption of the corresponding construction team in the quality guarantee period of the commercial mortar, and timely contacting another construction team to use up the mortar in the specified stacking point of the commercial mortar when the mortar allowance in the specified stacking point of the commercial mortar cannot be used up in the quality guarantee period of the commercial mortar.

The invention has the beneficial effects that: through the arrangement of the material recycling module and the material recycling module, residual waste materials in a construction site can be recycled and reused, and can be sold and changed, common tools are machined, the construction of workers is facilitated, the phenomenon that a stool and a ladder cannot be found in future maintenance to influence the construction is avoided, and meanwhile the orderliness, environmental protection and safety of the construction site are guaranteed; through the setting of construction management module, guarantee construction quality, avoid causing great economic loss and material waste because of quality reworking, through changing construction worker, guarantee construction quality, improve the construction progress, through setting up the appointed point of stacking of commodity mortar, avoid the mortar extravagant, prevent that the mortar from insolating and meeting water, guarantee mortar quality, when corresponding construction team can not all use up with the appointed mortar surplus of stacking in the point of commodity mortar in the shelf life of commodity mortar, in time contact another construction team and use up with the appointed mortar of stacking in the point of commodity mortar, avoid the mortar extravagant, prevent simultaneously that construction team from adding water and using in to the commodity mortar, guarantee construction quality, avoid plastering general sand, lead to quality reworking.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, an assembly type multi-polarization green building system includes a material recycling module, a material reusing module, a construction management module, and a server;

the material recovery module is used for recovering residual construction materials on a construction site, the residual construction materials are materials of which the residual tailings after the materials are processed cannot meet the reuse requirement, the residual construction materials comprise steel bars, wooden templates and bricks, and the specific recovery method comprises the following steps:

step S11: setting a waste material stacking point, and marking the waste material stacking point as i, wherein i is 1, 2, … … and n, and n is a positive integer;

step S12: acquiring the operation condition of a waste material stacking point, wherein the operation condition of the waste material stacking point comprises the operation and the recovery stop, and the operation condition of the waste material stacking point is marked as Pi;

step S13: obtaining the distance between the residual construction materials and each waste material stacking point on the construction site, marking the distance between the residual construction materials and each waste material stacking point on the construction site as Li, removing dimensions of the waste material stacking points and the operation conditions of the waste material stacking points and the distance between the residual construction materials and each waste material stacking point on the construction site, and taking the numerical value of the waste material stacking points to calculate;

step S14: obtaining a priority value Qi according to a formula Qi-lambda b1 Pi/(b2 Li +1), wherein b1 and b2 are proportional coefficients, the value range is 0-b 1-1, 0-b 2-1, lambda is a correction factor, the value range is 0-lambda-1, when the operation condition of the waste material stacking point is in operation, b1 Pi-1, and when the operation condition of the waste material stacking point is stopping and stopping, b1 Pi-0;

step S15: transporting the residual construction materials in the construction site to the highest waste material stacking point with the priority value Qi;

step S16: the method comprises the steps that the change condition of a waste material stacking point in a construction progress plan is obtained in real time, the change condition comprises when the waste material stacking point is constructed, whether the stacked material influences the construction or not, when the construction progress plan indicates that the waste material stacking point is constructed next, the waste material stacking point is marked one week in advance, the operation of the waste material stacking point is stopped, and the waste material stacking point which stops the operation is marked as a waste material stacking point;

step S17: acquiring first punctuation information in the deletion record, wherein the first punctuation information comprises which of the other first coordinate points of two adjacent first punctuations does not meet the distance requirement, and when no waste material stacking point exists in the first punctuation information in the deletion record, arranging a constructor to convey the material in the waste material stacking point to the nearest running waste material stacking point; when the first punctuation information in the deletion record contains the stacking points of the waste materials and the corresponding first punctuation still exceeds one month in the construction schedule and cannot be constructed, arranging the constructor to transport the materials in the stacking points of the waste materials to the corresponding first punctuation;

further, the specific method for setting the stacking point of the waste material in the step S11 includes the following steps:

step S21: acquiring a construction schedule, recording the positions which cannot be constructed in the construction schedule within one month, and marking the recorded positions as first marking points;

step S22: acquiring the distance between every two first marking points, setting the allowable shortest distance between every two first marking points by technical personnel of a construction general contractor according to the actual construction site requirements, deleting the first marking points of which the distance between every two first marking points exceeds the allowable shortest distance between every two first marking points, and recording the deleted first marking points;

step S23: marking the deleted first mark points as second coordinate points, acquiring road traffic information around the second coordinate points in real time, establishing a material stacking table, setting the type of stacked materials in each second coordinate point, and inputting the second coordinate points, the road traffic information and the type of the stacked materials in the second coordinate points into the material stacking table;

step S24: when roads around the second coordinate point are not smooth, marking the corresponding second coordinate point in the material stacking table, and sending a message that the second coordinate point stops recycling to construction technicians; the second coordinate point is a waste material stacking point;

the material recycling module is used for recycling materials in the waste material stacking point, and the specific method comprises the following steps:

step S31: obtaining the selling price and the weight of the stacked materials in the stacking point of the waste materials, and calculating the total pre-selling price of the materials in the stacking point of the waste materials;

step S32: the method comprises the steps that a cost price before selling is obtained, the cost price comprises labor cost and transportation cost, a profit target is set, the profit target is that money which can be paid after materials in waste material stacking points are sold can not reach the target, the profit target is set by a general construction contractor, when the materials in the waste material stacking points reach the profit target after being sold, the materials in the waste material stacking points are sold, and when the materials in the waste material stacking points do not reach the profit target after being sold, the materials are not sold;

step S33: arranging workers of each construction team to process the materials in the waste material stacking points, wherein the processing comprises processing wood into stools and ladders, and processing reinforcing steel bars into stools, ladders, hooks and other articles; the processed tool is distributed to a construction team corresponding to the processing worker for use;

the construction management module is used for construction technicians to manage construction workers and comprises a quality supervision unit, a construction rating unit and a material checking unit;

the quality supervision unit is used for supervising the construction quality of construction workers, and the specific method comprises the following steps:

step S41: setting a first piece check node, wherein the first piece check node is used for requiring a worker to establish a construction sample plate before the worker performs large-scale construction, and then comparing parameters of the construction sample plate with construction specifications, wherein the parameters of the construction sample plate comprise perpendicularity, flatness, mortar joint thickness and the like;

step S42: establishing a standard checking table, and inputting the construction single item and the corresponding construction standard parameter into the standard checking table; marking the construction single item and the corresponding construction specification parameter as a comparison parameter;

step S43: acquiring the engineering parameters under construction of a constructor, inputting the engineering parameters under construction of the constructor into a standard check table to be compared with the comparison parameters, generating a warning signal when the engineering parameters under construction of the constructor exceed the range of the comparison parameters, sending the warning signal to a server, sending warning information to a construction technician by the server, wherein the warning information comprises an illegal position and illegal parameters, and supervising the constructor to immediately correct the illegal position; when the construction parameters of the construction workers do not exceed the range of the contrast parameters, the operation is not carried out;

step S44: establishing a worker violation table, and recording construction worker information generating violation information into the worker violation table, wherein the construction worker information comprises a name, an age, a construction team to which the construction worker belongs, a name of a worker with the worker, a contact mode of the worker with the worker, a violation reason and violation times;

step S45: setting an illegal times warning line, namely setting the number of times of violation allowed by each worker by a construction general contractor, sending a warning notice to the workers with duty when the number of times of the construction workers reaches the illegal times warning line, and requiring the workers with duty to immediately replace the construction workers and punish the belonging construction team when the construction workers violate the rules again;

the construction rating unit is used for rating a construction team, and the specific method comprises the following steps:

step S51: the scores of the construction team and the groups of the construction general contractors are obtained,

step S52: acquiring the number of violation times of workers in the construction team and the number of worker replacement times due to violation, and reducing the construction team according to the number of violation times of the workers in the construction team and the number of worker replacement times due to violation;

step S53: setting a construction team scoring warning line, wherein the construction team scoring warning line is set by a construction general contractor according to actual requirements, and when the construction team score is lower than the construction team scoring warning line, listing the corresponding construction team in an untrusted list, and not performing cooperation in the future;

the material checking unit is used for checking the use condition of materials in the construction process, and the specific method comprises the following steps:

step S61: acquiring daily material consumption, corresponding actual project completion quantity and corresponding plan completion project quantity, and acquiring a daily project completion quantity difference value;

step S62: setting a daily allowable project completion quantity difference value, setting the daily allowable project completion quantity difference value by a general construction contractor according to actual requirements, and searching a material waste reason and strengthening construction supervision when the daily project completion quantity difference value is larger than the daily allowable project completion quantity difference value;

step S63: arranging a commodity mortar appointed stacking point, and arranging a simple shielding device, such as a sun-proof net, a rain cloth and the like, on the commodity mortar appointed stacking point for sun protection and rain protection;

step S64: the method comprises the steps of obtaining the mortar allowance and the stacking time of the mortar in a specified stacking point of the commercial mortar in real time, obtaining the mortar consumption per hour of a corresponding construction team, obtaining the quality guarantee period of the commercial mortar from a concrete mixing plant, predicting the consumption of the corresponding construction team in the quality guarantee period of the commercial mortar, and timely contacting another construction team to use up the mortar in the specified stacking point of the commercial mortar when the mortar allowance in the specified stacking point of the commercial mortar cannot be used up in the quality guarantee period of the commercial mortar.

The above formulas are all calculated by removing dimensions and taking values thereof, the formula is one closest to the real situation obtained by collecting a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

When the construction site marking system is used, residual construction materials on the construction site are recovered through the material recovery module, a construction schedule is obtained, the positions which cannot be constructed within one month in the construction schedule are recorded, and the recorded positions are marked as first marking points; acquiring the distance between every two first marking points, setting the allowable shortest distance between every two first marking points by technical personnel of a construction general contractor according to the actual construction site requirements, deleting the first marking points of which the distance between every two first marking points exceeds the allowable shortest distance between every two first marking points, and recording the deleted first marking points; marking the deleted first mark points as second coordinate points, acquiring road traffic information around the second coordinate points in real time, establishing a material stacking table, setting the type of stacked materials in each second coordinate point, and inputting the second coordinate points, the road traffic information and the types of the stacked materials in the second coordinate points into the material stacking table; when roads around the second coordinate point are not smooth, marking the corresponding second coordinate point in the material stacking table, and sending a message that the second coordinate point stops recycling to construction technicians; transporting the residual construction materials in the construction site to the highest waste material stacking point with the priority value Qi; the method comprises the steps of acquiring the change condition of a waste material stacking point in a construction progress plan in real time, marking the waste material stacking point one week ahead when the construction progress plan indicates that the waste material stacking point is to be constructed next, stopping the operation of the waste material stacking point, and marking the waste material stacking point which is stopped to operate as a waste material stacking point; acquiring first punctuation information in the deletion record, and when no waste material stacking point exists in the first punctuation information in the deletion record, arranging a constructor to transport the material in the waste material stacking point to the nearest running waste material stacking point; when the first punctuation information in the deletion record contains the stacking points of the waste materials and the corresponding first punctuation still exceeds one month in the construction schedule and cannot be constructed, arranging the constructor to transport the materials in the stacking points of the waste materials to the corresponding first punctuation;

obtaining the selling price and the weight of the stacked materials in the stacking point of the waste materials, and calculating the total pre-selling price of the materials in the stacking point of the waste materials; the method comprises the steps that cost price before selling is obtained, the cost price comprises labor cost and transportation cost, a profit target is set, when the material in the waste material stacking points reaches the profit target after selling, the material in the waste material stacking points is sold, and when the material in the waste material stacking points does not reach the profit target after selling, the material is not sold; arranging workers of each construction team to process the materials in the waste material stacking points, and distributing the processed tools to the construction teams corresponding to the processing workers for use;

setting a first piece of check node, refusing the construction worker to construct in a large scale when the parameters of the construction sample plate do not meet the construction specification requirements, allowing the construction worker to construct in a large scale until the parameters of the construction sample plate meet the construction specification requirements, and allowing the construction worker to construct in a large scale when the parameters of the construction sample plate meet the construction specification requirements; inputting the engineering parameters under construction of a constructor into a standard checking table to be compared with the comparison parameters, generating a warning signal when the engineering parameters under construction of the constructor exceed the range of the comparison parameters, sending the warning signal to a server, sending warning information to construction technicians by the server, wherein the warning information comprises violation positions and violation parameters, and supervising the constructor to immediately correct the violation positions; recording the information of the construction workers generating the violation information into a worker violation table, sending a warning notice to the workers with the crew corresponding to the workers when the number of times of the construction workers reaches a violation number warning line, and requiring the workers with the crew corresponding to the workers to immediately replace the construction workers and penalize the construction crew when the construction workers violate the rule again; when the score of the construction team is lower than the score warning line of the construction team, the corresponding construction team is listed in an untrusted list and is not cooperated in the future; when the daily project completion quantity difference is larger than the allowable daily project completion quantity difference, searching the material waste reason and strengthening the construction supervision; set up simple and easy sheltering from device on the appointed stacking point of commodity mortar, acquire in real time mortar surplus and the time of having stacked in the appointed stacking point of commodity mortar, acquire the mortar consumption per hour of corresponding construction team, acquire the shelf life of commodity mortar from the concrete mixing plant, estimate the consumption of corresponding construction team in the shelf life of commodity mortar, when corresponding construction team can not use up the mortar surplus in the appointed stacking point of commodity mortar in the shelf life of commodity mortar completely, in time contact another construction team and use up the mortar in the appointed stacking point of commodity mortar.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (6)

1. An assembly type multi-polarization green building system is characterized by comprising a material recovery module, a material recycling module, a construction management module and a server;

the material recycling module is used for recycling residual construction materials of a construction site, the residual construction materials comprise steel bars, wooden templates and bricks, and the specific recycling method comprises the following steps:

step S11: setting a waste material stacking point, and marking the waste material stacking point as i, wherein i is 1, 2, … … and n, and n is a positive integer;

step S12: acquiring the operation condition of a waste material stacking point, wherein the operation condition of the waste material stacking point comprises the operation and the recovery stop, and the operation condition of the waste material stacking point is marked as Pi;

step S13: obtaining the distance between the residual construction materials and each waste material stacking point on the construction site, marking the distance between the residual construction materials and each waste material stacking point on the construction site as Li, removing dimensions of the waste material stacking points and the operation conditions of the waste material stacking points and the distance between the residual construction materials and each waste material stacking point on the construction site, and taking the numerical value of the waste material stacking points to calculate;

step S14: obtaining a priority value Qi according to a formula Qi-lambda b1 Pi/(b2 Li +1), wherein b1 and b2 are proportional coefficients, the value range is 0-b 1-1, 0-b 2-1, lambda is a correction factor, the value range is 0-lambda-1, when the operation condition of the waste material stacking point is in operation, b1 Pi-1, and when the operation condition of the waste material stacking point is stopping and stopping, b1 Pi-0;

step S15: transporting the residual construction materials in the construction site to the highest waste material stacking point with the priority value Qi;

step S16: the method comprises the steps of acquiring the change condition of a waste material stacking point in a construction progress plan in real time, marking the waste material stacking point one week ahead when the construction progress plan indicates that the waste material stacking point is to be constructed next, stopping the operation of the waste material stacking point, and marking the waste material stacking point which is stopped to operate as a waste material stacking point;

step S17: acquiring first punctuation information in the deletion record, and when no waste material stacking point exists in the first punctuation information in the deletion record, arranging a constructor to transport the material in the waste material stacking point to the nearest running waste material stacking point; when the first punctuation information in the deletion record contains the stacking points of the waste materials and the corresponding first punctuation still exceeds one month in the construction schedule and cannot be constructed, arranging the constructor to transport the materials in the stacking points of the waste materials to the corresponding first punctuation;

the construction management module is used for construction technicians to manage construction workers and comprises a quality supervision unit, a construction rating unit and a material checking unit.

2. The assembly type multipolar green building system of claim 1, wherein the specific method for setting the stacking point of the waste materials in the step S11 comprises the following steps:

step S21: acquiring a construction schedule, recording the positions which cannot be constructed in the construction schedule within one month, and marking the recorded positions as first marking points;

step S22: acquiring the distance between every two first marking points, setting the allowable shortest distance between every two first marking points by technical personnel of a construction general contractor according to the actual construction site requirements, deleting the first marking points of which the distance between every two first marking points exceeds the allowable shortest distance between every two first marking points, and recording the deleted first marking points;

step S23: marking the deleted first mark points as second coordinate points, acquiring road traffic information around the second coordinate points in real time, establishing a material stacking table, setting the type of stacked materials in each second coordinate point, and inputting the second coordinate points, the road traffic information and the types of the stacked materials in the second coordinate points into the material stacking table;

step S24: and when the roads around the second coordinate point are not smooth, marking the corresponding second coordinate point in the material stacking table, and sending a message that the second coordinate point stops recycling to construction technicians.

3. The assembled multipolar green building system of claim 1, wherein the material recycling module is used to recycle material in a waste material deposit, the method comprising the steps of:

step S31: obtaining the selling price and the weight of the stacked materials in the stacking point of the waste materials, and calculating the total pre-selling price of the materials in the stacking point of the waste materials;

step S32: the method comprises the steps that a cost price before selling is obtained, the cost price comprises labor cost and transportation cost, a profit target is set and is set by a general construction contractor, when the material in a waste material stacking point is sold to reach the profit target, the material in the waste material stacking point is sold, and when the material in the waste material stacking point is sold to be incapable of reaching the profit target, the material is not sold;

step S33: and arranging workers of each construction team to process the materials in the waste material stacking points, and distributing the processed tools to the construction teams corresponding to the processing workers for use.

4. The assembly type multipolar green building system as claimed in claim 1, wherein the quality supervision unit is used for supervising the construction quality of construction workers, and the concrete method comprises the following steps:

step S41: setting a first piece checking node, wherein the first piece checking node is used for requiring a worker to establish a construction sample plate before the worker performs large-scale construction, then comparing the parameters of the construction sample plate with the construction specification, refusing the construction worker to perform large-scale construction when the parameters of the construction sample plate do not meet the requirements of the construction specification until the parameters of the construction sample plate meet the requirements of the construction specification, allowing the construction worker to perform large-scale construction, and allowing the construction worker to perform large-scale construction when the parameters of the construction sample plate meet the requirements of the construction specification;

step S42: establishing a standard checking table, and inputting the construction single item and the corresponding construction standard parameter into the standard checking table; marking the construction single item and the corresponding construction specification parameter as a comparison parameter;

step S43: acquiring the engineering parameters under construction of a constructor, inputting the engineering parameters under construction of the constructor into a standard check table to be compared with the comparison parameters, generating a warning signal when the engineering parameters under construction of the constructor exceed the range of the comparison parameters, sending the warning signal to a server, sending warning information to a construction technician by the server, wherein the warning information comprises an illegal position and illegal parameters, and supervising the constructor to immediately correct the illegal position; when the construction parameters of the construction workers do not exceed the range of the contrast parameters, the operation is not carried out;

step S44: establishing a worker violation table, and recording construction worker information generating violation information into the worker violation table, wherein the construction worker information comprises a name, an age, a construction team to which the construction worker belongs, a name of a worker with the worker, a contact mode of the worker with the worker, a violation reason and violation times;

step S45: and setting an illegal times warning line, sending a warning notice to the staff on duty of the corresponding worker when the number of times of the construction worker reaches the illegal times warning line, and requiring the staff on duty of the corresponding worker to immediately replace the construction worker to punish the belonging construction team when the construction worker breaks rules again.

5. The assembly type multi-polarization green building system of claim 1, wherein the construction rating unit is used for rating a construction team, and the specific method comprises the following steps:

step S51: the scores of the construction team and the groups of the construction general contractors are obtained,

step S52: acquiring the number of violation times of workers in the construction team and the number of worker replacement times due to violation, and reducing the construction team according to the number of violation times of the workers in the construction team and the number of worker replacement times due to violation;

step S53: and setting a construction team scoring warning line, and when the construction team scoring is lower than the construction team scoring warning line, listing the corresponding construction team in an untrusted list, so that the construction team is not cooperated in the future.

6. The assembly type multi-polarization green building system of claim 1, wherein the material checking unit is used for checking the use condition of materials in the construction process, and the specific method comprises the following steps:

step S61: acquiring daily material consumption, corresponding actual project completion quantity and corresponding plan completion project quantity, and acquiring a daily project completion quantity difference value;

step S62: setting a daily allowable project completion quantity difference value, and searching a material waste reason and reinforcing construction supervision when the daily project completion quantity difference value is larger than the daily allowable project completion quantity difference value;

step S63: setting a commodity mortar appointed stacking point, and arranging a simple shielding device on the commodity mortar appointed stacking point;

step S64: the method comprises the steps of obtaining the mortar allowance and the stacking time of the mortar in a specified stacking point of the commercial mortar in real time, obtaining the mortar consumption per hour of a corresponding construction team, obtaining the quality guarantee period of the commercial mortar from a concrete mixing plant, predicting the consumption of the corresponding construction team in the quality guarantee period of the commercial mortar, and timely contacting another construction team to use up the mortar in the specified stacking point of the commercial mortar when the mortar allowance in the specified stacking point of the commercial mortar cannot be used up in the quality guarantee period of the commercial mortar.

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