CN110788980A - Intelligent maintenance method for prefabricated components of fabricated building - Google Patents

Abstract

The invention discloses an intelligent maintenance method for prefabricated components of an assembly type building, which comprises the following steps: A. film covering: placing the prefabricated part on a film covering mechanism; B. spraying: conveying the pre-fabricated component after film coating to a heating and conveying mechanism, and uniformly spraying water to the upper surface and the lower surface of the pre-fabricated component by a spraying mechanism; C. heating: the prefabricated part is heated and maintained through the heating and conveying mechanism, and the film covering mechanism in the step A comprises a plurality of first conveying rollers which are distributed on the film covering frame at equal intervals and are connected through belt transmission and a first motor which is connected with one first conveying roller through belt transmission. According to the invention, through the matching use of the film coating mechanism, the heating and conveying mechanism and the spraying mechanism, the automatic maintenance work can be carried out on the prefabricated part, so that the maintenance quality of the prefabricated part is ensured, the labor capacity of people is reduced, and the self benefits of enterprises are met.

Description

Intelligent maintenance method for prefabricated components of fabricated building

Technical Field

The invention relates to the technical field of buildings, in particular to an intelligent maintenance method for prefabricated components of an assembly type building.

Background

The building is a substance product formed by piling up heavy substance materials, is the second nature created by human beings for meeting the requirements of living, interaction and other activities of the human beings, and is also the most basic space environment of the daily life of the human beings.

Disclosure of Invention

The invention aims to provide an intelligent maintenance method for prefabricated components of an assembly type building, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent maintenance method for prefabricated components of an assembly type building comprises the following steps:

A. film covering: placing the prefabricated part on a film covering mechanism;

B. spraying: conveying the pre-fabricated component after film coating to a heating and conveying mechanism, and uniformly spraying water to the upper surface and the lower surface of the pre-fabricated component by a spraying mechanism;

C. heating: and heating and maintaining the prefabricated part through the heating and conveying mechanism.

Preferably, the film covering mechanism in the step a includes a plurality of first conveying rollers which are equidistantly distributed on the film covering frame and are connected through belt transmission, and a first motor which is connected with one of the first conveying rollers through belt transmission, and the upper end and the lower end of the film covering frame are both movably provided with cloth rollers of which the surfaces are wound with the maintenance cloth, and meanwhile, the maintenance cloth is one of non-woven fabric, oxford fabric or polyester fabric.

Preferably, the upper end and the lower end of the film covering frame are further provided with cutting mechanisms, each cutting mechanism comprises a slider arranged on the surface of the corresponding sliding rail, and each slider is fixedly connected with a cutter.

Preferably, the heating and conveying mechanism in the step B includes a plurality of second conveying rollers which are equidistantly distributed on the conveying frame and are connected through belt transmission, and a second motor which is connected with one of the second conveying rollers through belt transmission, the inner surface of each second conveying roller is movably connected with a heating rod through a bearing, and meanwhile, the second conveying roller is one of a heat-conducting silica gel roller, a heat-conducting ceramic roller or a metal heat-conducting roller.

Preferably, the spraying mechanism in the step B comprises a spraying pipe and a pump, wherein the spraying pipe is vertically and equidistantly distributed on a plurality of surfaces and is also equidistantly distributed on a plurality of spray heads, one end of the pump is communicated with the spraying pipe through a pipeline and a pipeline communicating device, and the other end of the pump is communicated with the water tank through a pipeline.

Preferably, the spray pipe that is located the carriage top, it is connected through the top of support with the carriage, and the bottom of carriage is provided with the waste water recovery cover with water tank top intercommunication, and waste water recovery cover is oval, rectangle or regular hexagon structure setting, and simultaneously, the water filling port and the delivery port of the sealed lid of terminal threaded connection are seted up respectively to water tank top and bottom, and the upper end of water tank inner chamber still is provided with the filter screen that two equidistance distribute.

Preferably, the spraying time in the step B is controlled to be 10-20min each time, the spraying is carried out once every 1-3h, and meanwhile, a humidity sensor and a humidity display connected with the humidity sensor through a lead are also matched and arranged in the step B.

Preferably, the heating time in the step C is controlled to be 30-50min each time, the heating is carried out once every 2-4h, the heating temperature is controlled to be 30-50 ℃, and meanwhile, a temperature sensor and a temperature display connected with the temperature sensor through a lead are also arranged in the step C in a matched mode.

Preferably, in steps A, B and C, both of them are remotely controlled by a 4G communication module, and the 4G communication module includes a 4G gateway and a remote mobile terminal, and the remote mobile terminal is a smart phone accessing to a 4G network.

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

according to the invention, through the matching use of the film coating mechanism, the heating and conveying mechanism and the spraying mechanism, the automatic maintenance work can be carried out on the prefabricated part, so that the maintenance quality of the prefabricated part is ensured, the labor capacity of people is reduced, and the self benefits of enterprises are met.

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.

The first embodiment is as follows:

an intelligent maintenance method for prefabricated components of an assembly type building comprises the following steps:

A. film covering: placing the prefabricated part on a film covering mechanism;

B. spraying: conveying the pre-fabricated component after film coating to a heating and conveying mechanism, and uniformly spraying water to the upper surface and the lower surface of the pre-fabricated component by a spraying mechanism;

C. heating: and heating and maintaining the prefabricated part through the heating and conveying mechanism.

Through the cooperation use of tectorial membrane mechanism, heating conveying mechanism and spraying mechanism, can carry out automatic maintenance work to prefabricated component, not only ensure prefabricated component's maintenance quality, also reduced people's the amount of labour simultaneously, accord with enterprise's self interests.

The film covering mechanism in the step A comprises twelve first conveying rollers which are equidistantly distributed on the film covering frame and are connected through belt transmission and a first motor which is connected with one of the first conveying rollers through belt transmission, the upper end and the lower end of the film covering frame are respectively and movably provided with a cloth roller with the surface wound with the maintenance cloth, and meanwhile, the maintenance cloth is non-woven fabric.

The upper end and the lower end of the film covering frame are also provided with cutting mechanisms, the cutting mechanisms comprise sliders arranged on the surfaces of the sliding rails, and the sliders are fixedly connected with cutters.

The heating and conveying mechanism in the step B comprises fourteen second conveying rollers which are equidistantly distributed on the conveying frame and are connected through belt transmission and a second motor which is connected with one of the second conveying rollers through belt transmission, the inner surface of each second conveying roller is movably connected with a heating rod through a bearing, and meanwhile, the second conveying rollers are heat-conducting silica gel rollers.

And the spraying mechanism in the step B comprises a spray pipe and a pump, wherein fifteen spray heads are distributed on the upper surface and the lower surface at equal intervals, eight spray heads are also distributed on the surfaces at equal intervals, one end of the pump is communicated with the spray pipe through a pipeline and a pipeline communicating device, and the other end of the pump is communicated with the water tank through a pipeline.

The spray tube that is located the carriage top, it is connected through the top of support with the carriage, the bottom of carriage is provided with the waste water recovery cover with water tank top intercommunication, and waste water recovery cover is oval structure setting, and simultaneously, the water filling port and the delivery port of the sealed lid of terminal threaded connection are seted up respectively to water tank top and bottom, and the upper end of water tank inner chamber still is provided with the filter screen that two equidistance distribute, the filter screen that is located the top is polyester fiber water thorn carpet veneer, the filter screen that is located the lower part is the quartz sand filter screen.

And C, controlling the spraying time in the step B to be 10min each time, spraying once every 1h, and meanwhile, matching a humidity sensor and a humidity display connected with the humidity sensor through a wire in the step B.

The heating time in the step C is controlled to be 30min each time, the heating is carried out once every 2h, the heating temperature is controlled to be 50 ℃, and meanwhile, a temperature sensor and a temperature display connected with the temperature sensor through a lead are also arranged in the step C in a matched mode.

In steps A, B and C, the remote control is performed through the 4G communication module, the 4G communication module includes a 4G gateway and a remote mobile terminal, and the remote mobile terminal is a smart phone accessing to the 4G network.

Example two:

an intelligent maintenance method for prefabricated components of an assembly type building comprises the following steps:

A. film covering: placing the prefabricated part on a film covering mechanism;

B. spraying: conveying the pre-fabricated component after film coating to a heating and conveying mechanism, and uniformly spraying water to the upper surface and the lower surface of the pre-fabricated component by a spraying mechanism;

C. heating: and heating and maintaining the prefabricated part through the heating and conveying mechanism.

Through the cooperation use of tectorial membrane mechanism, heating conveying mechanism and spraying mechanism, can carry out automatic maintenance work to prefabricated component, not only ensure prefabricated component's maintenance quality, also reduced people's the amount of labour simultaneously, accord with enterprise's self interests.

The film covering mechanism in the step A comprises sixteen first conveying rollers which are equidistantly distributed on a film covering frame and are connected through belt transmission and a first motor which is connected with one of the first conveying rollers through belt transmission, cloth rollers with the surfaces wound with the curing cloth are movably mounted at the upper end and the lower end of the film covering frame, and meanwhile, the curing cloth is oxford.

The upper end and the lower end of the film covering frame are also provided with cutting mechanisms, the cutting mechanisms comprise sliders arranged on the surfaces of the sliding rails, and the sliders are fixedly connected with cutters.

And the heating and conveying mechanism in the step B comprises eighteen second conveying rollers which are equidistantly distributed on the conveying frame and are connected through belt transmission and a second motor which is connected with one of the second conveying rollers through belt transmission, the inner surface of each second conveying roller is movably connected with a heating rod through a bearing, and meanwhile, the second conveying rollers are heat-conducting ceramic rollers.

And the spraying mechanism in the step B comprises nineteen spray pipes with surfaces distributed equidistantly and six spray heads distributed equidistantly from top to bottom and a pump machine, wherein one end of the pump machine is communicated with the spray pipes through a pipeline and a pipeline communicating vessel, and the other end of the pump machine is communicated with the water tank through a pipeline.

The spray tube that is located the carriage top, it is connected through the top of support with the carriage, the bottom of carriage is provided with the waste water recovery cover that communicates with the water tank top, and waste water recovery cover sets up for the rectangle structure, and simultaneously, the water filling port and the delivery port of the sealed lid of terminal threaded connection are seted up respectively to water tank top and bottom, and the upper end of water tank inner chamber still is provided with the filter screen that two equidistance distribute, the filter screen that is located the top is glass fiber acupuncture felt layer, the filter screen that is located the lower part is polyvinyl chloride filter screen layer.

And C, controlling the spraying time in the step B to be 15min each time, spraying once every 2h, and meanwhile, matching a humidity sensor and a humidity display connected with the humidity sensor through a wire in the step B.

The heating time in the step C is controlled to be 40min each time, the heating is carried out once every 3h, the heating temperature is controlled to be 40 ℃, and meanwhile, a temperature sensor and a temperature display connected with the temperature sensor through a lead are also arranged in the step C in a matched mode.

In steps A, B and C, the remote control is performed through the 4G communication module, the 4G communication module includes a 4G gateway and a remote mobile terminal, and the remote mobile terminal is a smart phone accessing to the 4G network.

Example three:

an intelligent maintenance method for prefabricated components of an assembly type building comprises the following steps:

A. film covering: placing the prefabricated part on a film covering mechanism;

B. spraying: conveying the pre-fabricated component after film coating to a heating and conveying mechanism, and uniformly spraying water to the upper surface and the lower surface of the pre-fabricated component by a spraying mechanism;

C. heating: and heating and maintaining the prefabricated part through the heating and conveying mechanism.

Through the cooperation use of tectorial membrane mechanism, heating conveying mechanism and spraying mechanism, can carry out automatic maintenance work to prefabricated component, not only ensure prefabricated component's maintenance quality, also reduced people's the amount of labour simultaneously, accord with enterprise's self interests.

The film covering mechanism in the step A comprises twenty first conveying rollers which are equidistantly distributed on a film covering frame and are in transmission connection through a belt, and a first motor which is in transmission connection with one of the first conveying rollers through the belt, wherein cloth rollers with the surfaces wound with the curing cloth are movably mounted at the upper end and the lower end of the film covering frame, and meanwhile, the curing cloth is polyester cloth.

The upper end and the lower end of the film covering frame are also provided with cutting mechanisms, the cutting mechanisms comprise sliders arranged on the surfaces of the sliding rails, and the sliders are fixedly connected with cutters.

The heating and conveying mechanism in the step B comprises twenty-four second conveying rollers which are equidistantly distributed on the conveying frame and are in transmission connection through a belt, and a second motor which is in transmission connection with one of the second conveying rollers through the belt, the inner surface of each second conveying roller is movably connected with a heating rod through a bearing, and meanwhile, the second conveying rollers are metal heat-conducting rollers.

And the spraying mechanism in the step B comprises spray pipes and a pump, wherein the spray pipes are distributed at twenty-five upper and lower equal intervals, the surfaces of the spray pipes are also distributed at four equal intervals, one end of the pump is communicated with the spray pipes through a pipeline and a pipeline communicating device, and the other end of the pump is communicated with the water tank through a pipeline.

The spray tube that is located the carriage top, it is connected through the top of support with the carriage, the bottom of carriage is provided with the waste water recovery cover with water tank top intercommunication, and waste water recovery cover is regular hexagon structure setting, and simultaneously, the water filling port and the delivery port of the sealed lid of terminal threaded connection are seted up respectively to water tank top and bottom, and the upper end of water tank inner chamber still is provided with the filter screen that two equidistance distribute, the filter screen that is located the top is ya keli fibre net cloth layer, the filter screen that is located the lower part is polypropylene filter screen layer.

And C, controlling the spraying time in the step B to be 20min every time, spraying once every 3h, and meanwhile, matching a humidity sensor and a humidity display connected with the humidity sensor through a wire in the step B.

And C, controlling the heating time in the step C to be 50min each time, heating once every 4h, controlling the heating temperature to be 30 ℃, and meanwhile, matching a temperature sensor and a temperature display connected with the temperature sensor through a lead in the step C.

In steps A, B and C, the remote control is performed through the 4G communication module, the 4G communication module includes a 4G gateway and a remote mobile terminal, and the remote mobile terminal is a smart phone accessing to the 4G network.

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 (9)

1. An intelligent maintenance method for prefabricated components of an assembly type building is characterized in that: the maintenance method comprises the following steps:

A. film covering: placing the prefabricated part on a film covering mechanism;

B. spraying: conveying the pre-fabricated component after film coating to a heating and conveying mechanism, and uniformly spraying water to the upper surface and the lower surface of the pre-fabricated component by a spraying mechanism;

C. heating: and heating and maintaining the prefabricated part through the heating and conveying mechanism.

2. The intelligent maintenance method of the prefabricated components of the fabricated building according to claim 1, wherein: the film covering mechanism in the step A comprises a plurality of first conveying rollers which are distributed on the film covering frame at equal intervals and are in transmission connection through a belt, and a first motor which is in transmission connection with one of the first conveying rollers through the belt, cloth rollers with the surface wound with the curing cloth are movably mounted at the upper end and the lower end of the film covering frame, and meanwhile, the curing cloth is one of non-woven fabrics, oxford fabrics or polyester fabrics.

3. The intelligent maintenance method of the prefabricated components of the fabricated building according to claim 2, wherein: the upper end and the lower end of the film covering frame are also provided with cutting mechanisms, each cutting mechanism comprises a slider arranged on the surface of the corresponding slide rail, and each slider is fixedly connected with a cutter.

4. The intelligent maintenance method of the prefabricated components of the fabricated building according to claim 1, wherein: the heating and conveying mechanism in the step B comprises a plurality of second conveying rollers which are distributed on the conveying frame at equal intervals and are in transmission connection through a belt, and a second motor which is in transmission connection with one of the second conveying rollers through the belt, the inner surface of each second conveying roller is movably connected with a heating rod through a bearing, and meanwhile, the second conveying roller is one of a heat-conducting silica gel roller, a heat-conducting ceramic roller or a metal heat-conducting roller.

5. The intelligent maintenance method of the prefabricated components of the fabricated building according to claim 1, wherein: and the spraying mechanism in the step B comprises a plurality of spray pipes with surfaces distributed at equal intervals and a plurality of spray heads distributed at equal intervals, and a pump with one end communicated with the spray pipes through a pipeline and a pipeline communicating vessel and one end communicated with the water tank through a pipeline.

6. An intelligent maintenance method of prefabricated building components according to claim 4 or 5, wherein: the spray pipe that is located the carriage top, it is connected through the top of support with the carriage, and the bottom of carriage is provided with the waste water recovery cover with water tank top intercommunication, and waste water recovery cover is oval, rectangle or regular hexagon structure setting, and simultaneously, the water filling port and the delivery port of the sealed lid of terminal threaded connection are seted up respectively to water tank top and bottom, and the upper end of water tank inner chamber still is provided with the filter screen that two equidistance distribute.

7. The intelligent maintenance method of the prefabricated components of the fabricated building according to claim 1, wherein: the spraying time in the step B is controlled to be 10-20min each time, the spraying is carried out once every 1-3h, and meanwhile, a humidity sensor and a humidity display connected with the humidity sensor through a lead are also matched and arranged in the step B.

8. The intelligent maintenance method of the prefabricated components of the fabricated building according to claim 1, wherein: the heating time in the step C is controlled to be 30-50min each time, the heating is carried out once every 2-4h, the heating temperature is controlled to be 30-50 ℃, and meanwhile, a temperature sensor and a temperature display connected with the temperature sensor through a lead are also matched and arranged in the step C.

9. The intelligent maintenance method of the prefabricated components of the fabricated building according to claim 1, wherein: in steps A, B and C, both are remotely controlled by the 4G communication module, and the 4G communication module includes a 4G gateway and a remote mobile terminal, and the remote mobile terminal is a smart phone accessing to the 4G network.