阅读说明：本技术 一种配比系统和方法 (Proportioning system and method ) 是由 陈加添 于 2020-04-07 设计创作，主要内容包括：本发明实施例公开了一种配比系统和方法,其中,配比系统包括：利用影响因素获取装置获取施工区域内的影响因素数据,以及将影响因素数据发送给物料配比装置,其中,影响因素为与最终物料配比关系相关联的环境因素；利用物料配比装置接收影响因素数据,以及获取初始物料配比关系,以及根据影响因素数据和初始物料配比关系,确定用于施工的最终物料和最终物料配比关系。本发明实施例的技术方案在实现物料精确配比,减少人力物力的前提下,还降低了施工难度,提高了施工质量。(The embodiment of the invention discloses a proportioning system and a proportioning method, wherein the proportioning system comprises: acquiring influence factor data in a construction area by using an influence factor acquisition device, and sending the influence factor data to a material proportioning device, wherein the influence factor is an environmental factor associated with a final material proportioning relationship; and receiving the influence factor data by using the material proportioning device, acquiring an initial material proportioning relation, and determining a final material and a final material proportioning relation for construction according to the influence factor data and the initial material proportioning relation. According to the technical scheme of the embodiment of the invention, on the premise of realizing accurate material proportioning and reducing manpower and material resources, the construction difficulty is reduced, and the construction quality is improved.)

1. The proportioning system is characterized by comprising an influence factor acquisition device and a material proportioning device, wherein the influence factor acquisition device is in communication connection with the material proportioning device, and the proportioning system comprises:

the influence factor acquisition device is used for acquiring influence factor data in a construction area and sending the influence factor data to the material proportioning device, wherein the influence factor is an environmental factor associated with a final material proportioning relationship;

the material proportioning device is used for receiving the influence factor data, acquiring an initial material proportioning relation, and determining a final material and a final material proportioning relation for construction according to the influence factor data and the initial material proportioning relation.

2. The system of claim 1, further comprising an initial material proportioning relationship determining device in communication with the material proportioning device, wherein:

the initial material matching relationship determining device is used for acquiring initial material identification information, determining an initial material matching relationship corresponding to the initial material identification information according to the initial material identification information, and sending the initial material matching relationship to the material matching device.

3. The system of claim 2, wherein the initial material proportioning relationship determining device comprises a client material data processing module and a factory material data processing module, the client material data processing module and the factory material data processing module are in communication connection, the factory material data processing module is in communication connection with the material proportioning device, wherein:

the client material data processing module is used for acquiring the initial material identification information and sending the initial material identification information to the manufacturer material data processing module;

and the factory material data processing module is used for determining the initial material proportioning relationship according to the received initial material identification information and sending the initial material proportioning relationship to the material proportioning device.

4. The system of any one of claims 1-3, wherein the material proportioning device is further configured to obtain construction area information and construction requirement information, and determine a final material usage amount according to the construction site information, the construction requirement information, and the final material proportioning relationship.

5. The system of claim 4, further comprising a BIM device communicatively coupled to the material proportioning device, wherein:

and the BIM device is used for determining the construction area information according to the received delineation area and sending the construction area information to the material proportioning device.

6. The system of claim 5, further comprising a construction device located within the construction area and in communication with the material proportioning device and the BIM device, respectively, wherein:

the material proportioning device is used for sending the final material, the final material proportioning relation and the final material using amount to the construction device;

the BIM device is used for determining a construction path and a construction instruction of the construction device and sending the construction path and the construction instruction to the construction device;

the construction device is used for receiving the final material, the final material matching relation, the final material using amount, the construction path and the construction instruction, obtaining the final material and stirring the final material according to the final material, the final material matching relation and the final material using amount to obtain a mixed material, and executing the corresponding construction instruction on the construction area by using the mixed material according to the construction path.

7. The system of claim 6, wherein the influencing factor acquiring device is in contact with the construction device.

8. The system of claim 7, wherein the influencing factor acquiring device comprises an air temperature monitoring sensor, an air humidity monitoring sensor and a ground humidity monitoring sensor, the air temperature monitoring sensor and the air humidity monitoring sensor are arranged at a preset top position of the construction device, the ground humidity monitoring sensor is arranged at a preset bottom position of the construction device, wherein:

the air temperature monitoring sensor is used for monitoring the air temperature in the construction area;

the air humidity monitoring sensor is used for monitoring the air humidity in the construction area;

the ground humidity monitoring sensor is used for monitoring the ground humidity in the construction area.

9. A proportioning method performed by the proportioning system of any of claims 1-8, comprising:

acquiring influence factor data in a construction area by using an influence factor acquisition device, and sending the influence factor data to a material proportioning device, wherein the influence factor is an environmental factor associated with a final material proportioning relationship;

and receiving the influence factor data by using the material proportioning device, acquiring an initial material proportioning relation, and determining a final material and a final material proportioning relation for construction according to the influence factor data and the initial material proportioning relation.

10. The method of claim 9, wherein before determining a final material and a final material proportioning relationship for construction using the material proportioning device according to the influencing factor data and the initial material proportioning relationship, further comprising:

the method comprises the steps of obtaining initial material identification information by an initial material matching relation determining device, determining an initial material matching relation corresponding to the initial material identification information according to the initial material identification information, and sending the initial material matching relation to the material matching device.

Technical Field

The embodiment of the invention relates to the technical field of material proportioning, in particular to a proportioning system and a proportioning method.

Background

In the field of building construction, the proportioning relationship among construction materials for construction can be generally obtained directly from raw material manufacturers.

However, in the actual construction process, the proportion relationship provided by the manufacturer often cannot meet the actual construction requirement, so that the problems of high construction difficulty, poor construction quality and the like are caused. The existing method for re-determining the matching relationship is mainly a manual matching method, the method is complicated in process, long in time consumption, prone to errors in matching and material waste, depends on the experience of workers, has high uncertainty and is not beneficial to control of construction quality.

Disclosure of Invention

The invention provides a proportioning system and a proportioning method, which can reduce the construction difficulty and improve the construction quality on the premise of realizing accurate proportioning of materials and reducing manpower and material resources.

In a first aspect, an embodiment of the present invention provides a proportioning system, where the proportioning system includes an influencing factor obtaining device and a material proportioning device, and the influencing factor obtaining device is in communication connection with the material proportioning device, where:

the influence factor acquisition device is used for acquiring influence factor data in a construction area and sending the influence factor data to the material proportioning device, wherein the influence factor is an environmental factor associated with a final material proportioning relationship;

the material proportioning device is used for receiving the influence factor data, acquiring an initial material proportioning relation, and determining a final material and a final material proportioning relation for construction according to the influence factor data and the initial material proportioning relation.

Further, the proportioning system further comprises an initial material proportioning relationship determining device, the initial material proportioning relationship determining device is in communication connection with the material proportioning device, wherein:

the initial material matching relationship determining device is used for acquiring initial material identification information, determining an initial material matching relationship corresponding to the initial material identification information according to the initial material identification information, and sending the initial material matching relationship to the material matching device.

The initial material proportioning relation can be accurately determined by using the unique identification information of the initial materials.

Further, the initial material proportioning relation determining device comprises a client material data processing module and a manufacturer material data processing module, the client material data processing module is in communication connection with the manufacturer material data processing module, and the manufacturer material data processing module is in communication connection with the material proportioning device, wherein:

the client material data processing module is used for acquiring the initial material identification information and sending the initial material identification information to the manufacturer material data processing module;

and the factory material data processing module is used for determining the initial material proportioning relationship according to the received initial material identification information and sending the initial material proportioning relationship to the material proportioning device.

The initial material proportioning relation can be obtained more conveniently and rapidly by utilizing the client material data processing module and the manufacturer material data processing module.

Further, the material proportioning device is further used for acquiring construction area information and construction requirement information, and determining the final material usage according to the construction site information, the construction requirement information and the final material proportioning relation.

The final material using amount can be accurately determined based on the final material proportioning relation, so that material waste is avoided, the final material using amount is determined by using the material proportioning device instead of manpower, and manpower is saved.

Further, proportioning system still includes the BIM device, the BIM device with material proportioning device communication connection, wherein:

and the BIM device is used for determining the construction area information according to the received delineation area and sending the construction area information to the material proportioning device.

The BIM device can be used for accurately determining the information such as the area, the volume and the like of a construction area, and further the calculation accuracy of the final material consumption is improved.

Further, proportioning system still includes construction equipment, construction equipment is located in the construction area, and respectively with material proportioning device with BIM device communication connection, wherein:

the material proportioning device is used for sending the final material, the final material proportioning relation and the final material using amount to the construction device;

the BIM device is used for determining a construction path and a construction instruction of the construction device and sending the construction path and the construction instruction to the construction device;

the construction device is used for receiving the final material, the final material matching relation, the final material using amount, the construction path and the construction instruction, obtaining the final material and stirring the final material according to the final material, the final material matching relation and the final material using amount to obtain a mixed material, and executing the corresponding construction instruction on the construction area by using the mixed material according to the construction path.

The construction device is adopted to perform information interaction with the material proportioning device and the BIM device respectively, and the construction accuracy is improved.

Further, the influence factor acquiring device is in contact connection with the construction device.

The influence factor acquisition device is arranged on the construction device, so that the influence factor acquisition device can conveniently acquire influence factor data in a construction area.

Further, the influence factor acquisition device includes air temperature monitoring sensor, air humidity monitoring sensor, ground humidity monitoring sensor, air temperature monitoring sensor and air humidity monitoring sensor set up in construction equipment's top preset position, ground humidity monitoring sensor set up in construction equipment's bottom preset position, wherein:

the air temperature monitoring sensor is used for monitoring the air temperature in the construction area;

the air humidity monitoring sensor is used for monitoring the air humidity in the construction area;

the ground humidity monitoring sensor is used for monitoring the ground humidity in the construction area.

The air temperature monitoring sensor, the air humidity monitoring sensor and the ground humidity monitoring sensor which are arranged on the construction device are utilized, and the air temperature humidity and the ground humidity in the construction area can be conveniently acquired.

In a second aspect, an embodiment of the present invention provides a proportioning method, where the proportioning method is executed by a proportioning system according to any embodiment of the present invention, and the method includes:

acquiring influence factor data in a construction area by using an influence factor acquisition device, and sending the influence factor data to a material proportioning device, wherein the influence factor is an environmental factor associated with a final material proportioning relationship;

and receiving the influence factor data by using the material proportioning device, acquiring an initial material proportioning relation, and determining a final material and a final material proportioning relation for construction according to the influence factor data and the initial material proportioning relation.

Further, before determining a final material and final material proportioning relationship for construction according to the influence factor data and the initial material proportioning relationship by using the material proportioning device, the method further includes:

the method comprises the steps of obtaining initial material identification information by an initial material matching relation determining device, determining an initial material matching relation corresponding to the initial material identification information according to the initial material identification information, and sending the initial material matching relation to the material matching device.

According to the embodiment of the invention, the influence factor data in the construction area is acquired by using the influence factor acquisition device, and the influence factor data is sent to the material proportioning device, wherein the influence factor is an environmental factor associated with the final material proportioning relationship; utilize material proportioning device to receive influence factor data, and obtain initial material ratio relation, and according to influence factor data and initial material ratio relation, confirm the final material and the final material ratio relation that are used for the construction, realize the accurate ratio of material, under the prerequisite that reduces manpower and materials, still reduced the construction degree of difficulty, improved construction quality.

Drawings

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

FIG. 1a is a schematic structural diagram of a proportioning system according to a first embodiment of the invention;

FIG. 1b is a schematic view of a relationship between a diluent and temperature and humidity according to a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a proportioning system according to a second embodiment of the invention;

fig. 3 is a flowchart of a proportioning method in the third embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.