CN110700598A

CN110700598A - Modular design method and device for assembly type building

Info

Publication number: CN110700598A
Application number: CN201910879734.4A
Authority: CN
Inventors: 徐双喜; 缪晓辉; 吴瑞龙; 张昭
Original assignee: Fujian Bosi Engineering Design Co Ltd
Current assignee: Fujian Bosi Engineering Design Co Ltd
Priority date: 2019-09-18
Filing date: 2019-09-18
Publication date: 2020-01-17

Abstract

The invention discloses a modular design method and a device for an assembly type building, wherein the method comprises the following steps: A. preparing a wall surface module, a roof module, a ceiling module, a new energy power supply module, a drainage module and an air purification module in a factory, and respectively transporting the wall surface module, the roof module, the ceiling module, the new energy power supply module, the drainage module and the air purification module to a building site; B. firstly, mounting a wall surface module on a foundation, and then arranging a roof module on the top of the wall surface module; C. the suspended ceiling module is arranged at the bottom of the roof module, and the new energy power supply module is arranged at the top of the roof module. According to the invention, all raw materials required by the building are prepared in a factory in a modularized manner and then are transported to the construction site for splicing, so that the labor amount of people can be effectively reduced, the construction period is short, meanwhile, a new energy power supply module and an air purification module are additionally arranged on the basis of ensuring the existing heat preservation, heat insulation and drainage system of the building, the effects of energy conservation, emission reduction, health and environmental protection can be achieved, and the market competitiveness is improved.

Description

Modular design method and device for assembly type building

Technical Field

The invention relates to the technical field of buildings, in particular to an assembly type building modular design method and device.

Background

With the continuous acceleration of modern life rhythm and the continuous improvement of labor cost, the high integration and industrialization of building and housing become a new large direction of building, and in addition, with the gradual development of building materials towards the directions of factory production, prefabrication and the like, the assembled and modularized building is produced at the same time and rapidly develops towards the direction of standardized scale.

As is well known, the assembly type building refers to a type of building which is transported to a construction site after all components required by a house are manufactured in a factory by a production mode of a factory assembly line, and is hoisted and spliced on the site.

Disclosure of Invention

The present invention is directed to a modular design method and apparatus for an assembly building, so as to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a modular design method for an assembly type building comprises the following steps:

A. preparing a wall surface module, a roof module, a ceiling module, a new energy power supply module, a drainage module and an air purification module in a factory, and respectively transporting the wall surface module, the roof module, the ceiling module, the new energy power supply module, the drainage module and the air purification module to a building site;

B. firstly, mounting a wall surface module on a foundation, and then arranging a roof module on the top of the wall surface module;

C. the method comprises the following steps of arranging a ceiling module at the bottom of a roof module, arranging a new energy power supply module at the top of the roof module, and arranging a drainage module at the periphery of the bottom of the roof module;

D. the air purification module is arranged on the side face of the wall surface module, and the air outlet end is communicated with the inner side of the wall surface module.

Preferably, the wall module includes prefabricated plate, heat preservation, flame retardant coating, waterproof layer and puigging, and the prefabricated plate passes through the anchor bar and is connected with the ground, and the waterproof layer passes through the viscose to be connected in the outside of prefabricated plate, and the heat preservation passes through the viscose to be connected in the inboard of prefabricated plate, and the puigging passes through the viscose to be connected in the inboard of heat preservation, and the flame retardant coating passes through the viscose to be connected in the inboard of puigging, and simultaneously, people still can set up the door and window preformed groove.

Preferably, the roof module includes bearing plate, heat preservation and flame retardant coating, and the heat preservation passes through the viscose and connects in the bottom of bearing plate, and the flame retardant coating passes through the viscose and connects in the bottom of heat preservation.

Preferably, the furred ceiling module includes lead screw, wooden keel and ceiling, and the top of lead screw is connected in the bottom of roof module, and the end and the wooden keel of lead screw are connected, and the ceiling passes through the screw and sets up in the bottom of wooden keel, and simultaneously, people still can set up ceiling lamp in the inboard of ceiling or wooden keel as required.

Preferably, the new forms of energy power module includes solar panel, support, corner ware, illuminance sensor and battery, and the support sets up in the top of roof module, and the corner ware sets up in the top of support, and solar panel sets up in the top of corner ware, and illuminance sensor sets up in the front end of support, and the battery sets up in the inside of support.

Preferably, the drainage module includes drain pipe and drain cover, and the drain cover sets up around roof module bottom, and the drain pipe cup joints in the inboard of drain cover, and simultaneously, people still can set up the header tank as required, and the top of header tank and the bottom intercommunication of drain pipe, and the inner chamber of header tank is provided with two-layer filter screen, and the bottom of header tank is provided with the delivery port that has the valve.

Preferably, the air purification module includes the purifying box that is provided with the three-layer filter screen and sets up the air intake and the fan that communicates with the purifying box, and the air-out end of fan passes through the inboard intercommunication of pipeline with the wall module, and simultaneously, people still can be provided with the humidification module as required, and the humidification module is the humidification water tank (the internal surface of filler all movable mounting has the valve) that top and bottom all were provided with the filler and the atomizer that the air-out end of the other end through pipeline and fan communicates through the pipeline with the bottom of humidification water tank intercommunication of one end.

A fabricated building modular device is obtained by a fabricated building modular design method.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, all raw materials required by the building are prepared in a factory in a modularized manner and then are transported to the construction site for splicing, so that the labor amount of people can be effectively reduced, the construction period is short, meanwhile, a new energy power supply module and an air purification module are additionally arranged on the basis of ensuring the existing heat preservation, heat insulation and drainage system of the building, the effects of energy conservation, emission reduction, health and environmental protection can be achieved, and the market competitiveness is improved.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious 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.

A modular design method for an assembly type building comprises the following steps:

The building construction method has the advantages that all raw materials required by the building are transported to a construction site for splicing in a modularized mode after being prepared in a factory, the labor amount of people can be effectively reduced, the construction period is short, meanwhile, the new energy power supply module and the air purification module are additionally arranged on the basis of ensuring the heat preservation, heat insulation and drainage system of the building, the effects of energy conservation, emission reduction, health and environmental protection can be achieved, and the market competitiveness of the building construction method is improved.

The wall module includes prefabricated plate, heat preservation, flame retardant coating, waterproof layer and puigging, and the prefabricated plate passes through the dowel to be connected with the ground, and the waterproof layer passes through the viscose to be connected in the outside of prefabricated plate, and the heat preservation passes through the viscose to be connected in the inboard of prefabricated plate, and the puigging passes through the viscose to be connected in the inboard of heat preservation, and the flame retardant coating passes through the viscose to be connected in the inboard of puigging, and simultaneously, people still can set up the door and window preformed.

The roof module includes bearing plate, heat preservation and flame retardant coating, and the heat preservation passes through the viscose and connects in the bottom of bearing plate, and the flame retardant coating passes through the viscose and connects in the bottom of heat preservation.

The suspended ceiling module includes lead screw, wooden keel and ceiling, and the top of lead screw is connected in the bottom of roof module, and the end and the wooden keel of lead screw are connected, and the ceiling passes through the screw and sets up in the bottom of wooden keel, and simultaneously, people still can set up ceiling lamp in the inboard of ceiling or wooden keel as required.

The new forms of energy power module includes solar panel, support, corner ware, light intensity sensor and battery, and the support sets up in the top of roof module, and the corner ware sets up in the top of support, and solar panel sets up in the top of corner ware, and light intensity sensor sets up in the front end of support, and the battery sets up in the inside of support.

The drainage module includes drain pipe and drain cover, and the drain cover sets up around roof module bottom, and the drain pipe cup joints in the inboard of drain cover, and simultaneously, people still can set up the header tank as required, and the top of header tank and the bottom intercommunication of drain pipe, and the inner chamber of header tank is provided with two-layer filter, and the bottom of header tank is provided with the delivery port that has the valve.

The air purification module is including being provided with the purifying box of three-layer filter screen and seting up the air intake and the fan that communicates with the purifying box, and the inboard intercommunication of pipeline and wall module is passed through to the air-out end of fan, and simultaneously, people still can be provided with the humidification module as required, and the humidification module is top and bottom all is provided with the humidification water tank of filler (the equal movable mounting of internal surface of filler has the valve) and the atomizer that the air-out end of the other end through pipeline and fan communicates through the pipeline of bottom intercommunication of pipeline and humidification water tank communicates.

An assembled building modularization device is obtained by an assembled building modularization design method.

During the use, transport each raw materials required by the building to the building site with the modularization mode after the mill preparation and splice, can effectively reduce people's the amount of labour, and construction period is short, and simultaneously, it has add new forms of energy power module and air purification module on guaranteeing that this heat preservation of building is thermal-insulated, drainage system basis, can reach energy saving and emission reduction and healthy environmental protection's effect, has improved its market competition.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A modular design method for an assembly type building is characterized by comprising the following steps: the method comprises the following steps:

2. A modular design method for prefabricated buildings according to claim 1, characterized in that: the wall module includes prefabricated plate, heat preservation, flame retardant coating, waterproof layer and puigging, and the prefabricated plate passes through the dowel to be connected with the ground, and the waterproof layer passes through the viscose to be connected in the outside of prefabricated plate, and the heat preservation passes through the viscose to be connected in the inboard of prefabricated plate, and the puigging passes through the viscose to be connected in the inboard of heat preservation, and the flame retardant coating passes through the viscose to be connected in the inboard of puigging, and simultaneously, people still can set up the door and window preformed groove.

3. A modular design method for prefabricated buildings according to claim 1, characterized in that: the roof module includes bearing plate, heat preservation and flame retardant coating, and the heat preservation passes through the viscose and connects in the bottom of bearing plate, and the flame retardant coating passes through the viscose and connects in the bottom of heat preservation.

4. A modular design method for prefabricated buildings according to claim 1, characterized in that: the suspended ceiling module comprises a screw rod, a wooden keel and a ceiling, the top of the screw rod is connected to the bottom of the roof module, the tail end of the screw rod is connected with the wooden keel, the ceiling is arranged at the bottom of the wooden keel through screws, and meanwhile, people can also set a ceiling lamp on the inner side of the ceiling or the wooden keel as required.

5. A modular design method for prefabricated buildings according to claim 1, characterized in that: the new forms of energy power module includes solar panel, support, corner ware, illuminance sensor and battery, and the support sets up in the top of roof module, and the corner ware sets up in the top of support, and solar panel sets up in the top of corner ware, and illuminance sensor sets up in the front end of support, and the battery sets up in the inside of support.

6. A modular design method for prefabricated buildings according to claim 1, characterized in that: the drainage module includes drain pipe and drain cover, and the drain cover sets up around roof module bottom, and the drain pipe cup joints in the inboard of drain cover, and simultaneously, people still can set up the header tank as required, and the top of header tank and the bottom intercommunication of drain pipe, and the inner chamber of header tank is provided with two-layer filter screen, and the bottom of header tank is provided with the delivery port that has the valve.

7. A modular design method for prefabricated buildings according to claim 1, characterized in that: the air purification module is including being provided with the purifying box of three-layer filter screen and seting up the air intake and the fan that communicates with the purifying box, and the inboard intercommunication of pipeline and wall module is passed through to the air-out end of fan, and simultaneously, people still can be provided with humidification module as required, and humidification module is the humidification water tank that top and bottom all were provided with the filler (the equal movable mounting of internal surface of filler has the valve) and the atomizer that the air-out end of the other end through pipeline and fan communicates through the pipeline with the bottom of humidification water tank communicates.

8. An assembly type building modularization device, which is characterized in that: the modular device for prefabricated buildings is obtained by a modular design method for prefabricated buildings as claimed in any one of claims 1-7.