CN114286052A - Sharing method and system for wall decoration pictures of assembly type building - Google Patents
Sharing method and system for wall decoration pictures of assembly type building Download PDFInfo
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Abstract
一种装配式建筑的墙面装修画面的分享方法及系统,在所述方法和系统中,业主佩戴第一智能眼镜,施工人员佩戴第二智能眼镜,云端建立所述第一智能眼镜的唯一标识与所述第二智能眼镜的唯一标识的眼镜对应关系;在此基础上,所述第一智能眼镜可以通过所述云端获得所述第二智能眼镜的第二外部拍摄模组拍摄到装配式建筑的墙面装修画面,并利用无害激光将所述墙面装修画面投射到所述业主的视网膜上。实施本申请实施例,能够在施工人员对装配式建筑的墙面进行装修时(如将装饰墙板装配至墙面),允许业主远距离的监督施工人员的墙面装修质量,提高业主体验。
A method and system for sharing wall decoration pictures of prefabricated buildings. In the method and system, the owner wears the first smart glasses, the construction personnel wears the second smart glasses, and the cloud establishes the unique identifier of the first smart glasses The corresponding relationship with the uniquely identified glasses of the second smart glasses; on this basis, the first smart glasses can obtain the second external shooting module of the second smart glasses through the cloud to photograph the prefabricated building and use harmless laser to project the wall decoration picture onto the owner's retina. Implementing the embodiments of the present application allows the owner to supervise the quality of the wall decoration of the constructor from a distance when the construction personnel decorate the wall of the prefabricated building (eg, assembling decorative wall panels to the wall), thereby improving the owner's experience.
Description
Technical Field
The application relates to the technical field of buildings, in particular to a method and a system for sharing wall decoration pictures of an assembly type building.
Background
The fabricated building is a building which is formed by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories (such as floor slabs, wall slabs, stairs, balconies and the like) in the factory, transporting the components and accessories to a building construction site, and assembling and installing the components and the accessories on the site in a reliable connection mode. In practice, it has been found that when a constructor finishes a wall surface of a prefabricated building (e.g., assembles a decorative wall panel to the wall surface), the constructor often needs to supervise the wall surface finishing quality of the constructor at a construction site in a close distance.
Disclosure of Invention
The embodiment of the application discloses a sharing method and system for wall decoration pictures of an assembly type building, which can allow an owner to remotely supervise the wall decoration quality of constructors when the constructors decorate the wall of the assembly type building, and improve the experience of the owner.
The embodiment of the application discloses in a first aspect a sharing method of wall decoration picture of assembly type structure, and the owner wears first intelligent glasses, and constructor wears second intelligent glasses, the front side of first intelligent glasses is provided with first outside and shoots the module, the front side of second intelligent glasses is provided with the outside module of shooing of second, the method includes:
the first intelligent glasses shoot portrait pictures corresponding to the constructors by using the first external shooting module, and send the portrait pictures corresponding to the constructors and the unique identification of the first intelligent glasses to a cloud end;
the cloud identifies the face characteristics of the constructors from the portrait pictures corresponding to the constructors, and determines the unique identification of the second intelligent glasses worn by the constructors according to the face characteristics of the constructors; establishing a glasses corresponding relation between the unique identifier of the first intelligent glasses and the unique identifier of the second intelligent glasses;
the second intelligent glasses obtain a wall decoration picture of the assembly building shot by the second external shooting module, and send the wall decoration picture and the unique identification of the second intelligent glasses to the cloud;
the cloud determines the unique identifier of the first intelligent glasses from the glasses corresponding relation according to the unique identifier of the second intelligent glasses; sending the wall decoration picture to the first intelligent glasses according to the unique identifier of the first intelligent glasses;
the first intelligent glasses acquire the wall decoration pictures and project the wall decoration pictures to retinas of the owners by utilizing harmless laser.
As an optional implementation manner, in the first aspect of the embodiment of the present application, before the second smart glasses uses the second external camera module to shoot a wall decoration picture of the prefabricated building, the method further includes:
the first smart glasses send a shooting starting uplink instruction comprising the unique identifier of the first smart glasses to the cloud;
the cloud end responds to the uplink shooting starting instruction, and determines the unique identifier of the second intelligent glasses from the glasses corresponding relation according to the unique identifier of the first intelligent glasses; sending a shooting start downlink instruction to the second intelligent glasses according to the unique identifier of the second intelligent glasses;
and the second intelligent glasses respond to the downlink shooting starting instruction and control the second external shooting module of the second intelligent glasses to start shooting.
As another alternative implementation, in the first aspect of the embodiments of the present application, one hand of the constructor wears a first smart glove, a plurality of acquisition points are distributed on a palm-shaped area of the lower side of the first smart glove, and the plurality of acquisition points include one reference acquisition point and a plurality of non-reference acquisition points; wherein the palm-shaped area showing the lower side of the first smart glove in the wall finishing picture is pressed at the butt joint of two adjacent finishing wallboards laid on the wall, the method further comprising:
the first intelligent glove acquires collected data when a palm-shaped area on the lower side of the first intelligent glove is pressed at a butt joint of two adjacent decorative wallboards laid on a wall surface, wherein the collected data at least comprises a height difference of each non-reference collection point in the plurality of non-reference collection points relative to the reference collection point; and sending the collected data to the second smart glasses;
the second smart glasses send the collected data and the unique identifier of the second smart glasses to the cloud;
the cloud determines the unique identifier of the first intelligent glasses from the glasses corresponding relation according to the unique identifier of the second intelligent glasses; sending the collected data to the first intelligent glasses according to the unique identifier of the first intelligent glasses;
the first intelligent glasses receive the collected data and judge whether at least one height difference in the collected data exceeds the maximum height difference specified by the owner; if so, sending prompt information to the owner, wherein the prompt information is used for prompting that the height difference of the butt joint of the two adjacent decorative wallboards is too large.
As an optional implementation manner, in a first aspect of an embodiment of the present application, a first UWB antenna is disposed on the first smart glove, a second UWB antenna is disposed on the second smart glasses, and the sending of the collected data by the first smart glove to the second smart glasses includes:
the first smart glove detects whether a real-time distance between the first UWB antenna and a second UWB antenna arranged on the second smart glasses is smaller than or equal to a first designated distance; if so, sending the acquired data to the second UWB antenna through the first UWB antenna;
the second smart glasses receive the collected data through the second UWB antenna.
As another optional implementation manner, in the first aspect of this embodiment of the present application, after the first smart glove detects that the real-time distance between the first UWB antenna and the second UWB antenna provided on the second smart glasses is not less than or equal to the first specified distance, the method further includes:
the first intelligent glove controls an indicator lamp on the upper side of the first intelligent glove to output a preset lamp effect; the preset lamp effect is used for prompting that the distance between the second intelligent glasses and the first intelligent gloves is too far.
As another optional implementation manner, in the first aspect of the embodiments of the present application, a second smart glove is worn by one hand of the owner, both the one hand of the constructor and the one hand of the owner are left hands, or both the one hand of the constructor and the one hand of the owner are right hands, a plurality of actuators are distributed on a palm-shaped area on the lower side of the second smart glove, and the plurality of actuators include one reference actuator and a plurality of non-reference actuators; the number of the plurality of non-reference actuators is the same as the number of the plurality of non-reference acquisition points; the reference actuator is located at the same position in the palm-shaped area of the lower side of the second smart glove as the reference acquisition point is located in the palm-shaped area of the lower side of the first smart glove; the plurality of non-reference actuators are in one-to-one correspondence with the plurality of non-reference acquisition points, and the position of any non-reference actuator in the palm-shaped area on the lower side of the second smart glove is the same as the position of the non-reference acquisition point corresponding to the non-reference actuator in the palm-shaped area on the lower side of the first smart glove; after the first smart glasses send a prompt to the owner, the method further comprises:
the first smart glasses send the collected data to the second smart glove;
the second intelligent glove receives the collected data, and transmits the height difference of each non-reference collecting point in the collected data relative to the reference collecting point to the non-reference actuator corresponding to the non-reference collecting point, so that the non-reference actuator corresponding to the non-reference collecting point is inflated to the state that the height difference of the non-reference actuator corresponding to the non-reference collecting point relative to the reference actuator is consistent with the height difference of the non-reference collecting point relative to the reference collecting point, and the owner can sense that the height difference of the butt joint of the two adjacent decorative wall panels is overlarge through the second intelligent glove.
As another optional implementation manner, in a first aspect of an embodiment of the present application, a third UWB antenna is disposed on the first smart glasses, a fourth UWB antenna is disposed on the second smart glove, and the sending of the collected data by the first smart glasses to the second smart glove includes:
the first smart glasses detect whether a real-time distance between the third UWB antenna and a fourth UWB antenna arranged on the second smart glove is smaller than or equal to a second specified distance; if so, sending the acquired data to the fourth UWB antenna through the third UWB antenna;
the second smart glove receives the collected data through the fourth UWB antenna.
The embodiment of the application discloses in the second aspect of an assembly type structure's sharing system of wall fitment picture, including first intelligent glasses that the owner wore, second intelligent glasses and high in the clouds that constructor wore, the front side of first intelligent glasses is provided with first outside and shoots the module, the front side of second intelligent glasses is provided with the outside module of shooing of second, wherein:
the first intelligent glasses are used for shooting the portrait pictures corresponding to the constructors by using the first external shooting module, and sending the portrait pictures corresponding to the constructors and the unique identification of the first intelligent glasses to the cloud end;
the cloud is used for identifying the face characteristics of the constructors from the portrait pictures corresponding to the constructors and determining the unique identification of the second intelligent glasses worn by the constructors according to the face characteristics of the constructors; establishing a glasses corresponding relation between the unique identifier of the first intelligent glasses and the unique identifier of the second intelligent glasses;
the second intelligent glasses are used for acquiring a wall decoration picture of the assembly building shot by the second external shooting module, and sending the wall decoration picture and the unique identifier of the second intelligent glasses to the cloud end;
the cloud is further used for determining the unique identifier of the first intelligent glasses from the glasses corresponding relation according to the unique identifier of the second intelligent glasses; sending the wall decoration picture to the first intelligent glasses according to the unique identifier of the first intelligent glasses;
the first intelligent glasses are further used for acquiring the wall decoration pictures and projecting the wall decoration pictures onto retinas of the owners by utilizing harmless laser.
As an optional implementation manner, in the second aspect of the embodiments of the present application:
the first intelligent glasses are further used for sending a shooting starting uplink instruction comprising the unique identifier of the first intelligent glasses to the cloud before the second intelligent glasses utilize the second external shooting module to shoot a wall decoration picture of the fabricated building;
the cloud is further used for responding to the shooting starting uplink instruction and determining the unique identifier of the second intelligent glasses from the glasses corresponding relation according to the unique identifier of the first intelligent glasses; sending a shooting start downlink instruction to the second intelligent glasses according to the unique identifier of the second intelligent glasses;
the second intelligent glasses are further used for responding to the shooting starting downlink instruction and controlling the second external shooting module of the second intelligent glasses to start shooting.
As another optional implementation manner, in the second aspect of the embodiment of the present application, the system further includes a first smart glove worn by one hand of the constructor, wherein a plurality of acquisition points are distributed on a palm-shaped area of the lower side of the first smart glove, and the plurality of acquisition points include one reference acquisition point and a plurality of non-reference acquisition points; wherein, show in the wall fitment picture palm shape region of the downside of first intelligent gloves is pressed at the butt joint department of laying two piece adjacent decoration wallboards on the wall, wherein:
the first intelligent glove is used for acquiring collected data when a palm-shaped area at the lower side of the first intelligent glove is pressed at a butt joint of two adjacent decorative wallboards laid on a wall surface, and the collected data at least comprises the height difference of each non-reference collecting point in the plurality of non-reference collecting points relative to the reference collecting point; and sending the collected data to the second smart glasses;
the second smart glasses are further used for sending the collected data and the unique identifier of the second smart glasses to the cloud;
the cloud is further used for determining the unique identifier of the first intelligent glasses from the glasses corresponding relation according to the unique identifier of the second intelligent glasses; sending the collected data to the first intelligent glasses according to the unique identifier of the first intelligent glasses;
the first intelligent glasses are further used for receiving the collected data and judging whether at least one height difference in the collected data exceeds the maximum height difference specified by the owner; if so, sending prompt information to the owner, wherein the prompt information is used for prompting that the height difference of the butt joint of the two adjacent decorative wallboards is too large.
As another optional implementation manner, in a second aspect of the embodiments of the present application, a first UWB antenna is disposed on the first smart glove, a second UWB antenna is disposed on the second smart glasses, and a manner of sending the collected data to the second smart glasses by the first smart glove is specifically that:
the first smart glove detects whether a real-time distance between the first UWB antenna and a second UWB antenna arranged on the second smart glasses is smaller than or equal to a first designated distance; if so, sending the acquired data to the second UWB antenna through the first UWB antenna;
the second smart glasses receive the collected data through the second UWB antenna.
As another optional implementation manner, in a second aspect of the embodiments of the present application, the first smart glove is further configured to control an indicator light on an upper side of the first smart glove to output a preset light effect after detecting that a real-time distance between the first UWB antenna and the second UWB antenna provided on the second smart glasses is not less than or equal to the first specified distance; the preset lamp effect is used for prompting that the distance between the second intelligent glasses and the first intelligent gloves is too far.
As another optional implementation manner, in a second aspect of this embodiment of the present application, the system further includes a second smart glove worn by one hand of the owner, where the one hand of the constructor and the one hand of the owner are both left hands, or the one hand of the constructor and the one hand of the owner are both right hands, and a plurality of actuators are distributed on a palm-shaped area on a lower side of the second smart glove, where the plurality of actuators include one reference actuator and a plurality of non-reference actuators; the number of the plurality of non-reference actuators is the same as the number of the plurality of non-reference acquisition points; the reference actuator is located at the same position in the palm-shaped area of the lower side of the second smart glove as the reference acquisition point is located in the palm-shaped area of the lower side of the first smart glove; the plurality of non-reference actuators are in one-to-one correspondence with the plurality of non-reference acquisition points, and the position of any non-reference actuator in the palm-shaped area on the lower side of the second smart glove is the same as the position of the non-reference acquisition point corresponding to the non-reference actuator in the palm-shaped area on the lower side of the first smart glove; wherein:
the first intelligent glasses are further used for sending the collected data to the second intelligent gloves after prompt information is sent to the owner;
the second intelligent glove is used for receiving the collected data and transmitting the height difference of each non-reference collecting point in the collected data relative to the reference collecting point to the non-reference actuator corresponding to the non-reference collecting point, so that the non-reference actuator corresponding to the non-reference collecting point is inflated to the state that the height difference of the non-reference actuator corresponding to the non-reference collecting point relative to the reference actuator is consistent with the height difference of the non-reference collecting point relative to the reference collecting point, and the owner can sense that the height difference of the butt joint of the two adjacent decorative wall panels is overlarge through the second intelligent glove.
As another optional implementation manner, in a second aspect of the embodiments of the present application, a third UWB antenna is disposed on the first smart glasses, a fourth UWB antenna is disposed on the second smart glove, and a manner of sending the collected data to the second smart glove by the first smart glasses specifically is:
the first smart glasses detect whether a real-time distance between the third UWB antenna and a fourth UWB antenna arranged on the second smart glove is smaller than or equal to a second specified distance; if so, sending the acquired data to the fourth UWB antenna through the third UWB antenna;
the second smart glove receives the collected data through the fourth UWB antenna.
Compared with the prior art, the embodiment of the application has the following beneficial effects:
in the embodiment of the application, an owner wears first intelligent glasses, a constructor wears second intelligent glasses, and the cloud end can establish a glasses corresponding relation between the unique identifier of the first intelligent glasses and the unique identifier of the second intelligent glasses; on this basis, first smart glasses can pass through the high in the clouds obtains the wall decoration picture that the module was shot to the second outside of second smart glasses to utilize harmless laser will the wall decoration picture is projected on the retina of owner. It is thus clear that, implement this application embodiment, can be when constructor decorates the wall of assembly type structure (if assemble the wallboard to the wall with decorating), allow the remote supervision constructor's of owner wall decoration quality, improve owner's experience.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
Fig. 1 is a schematic flow chart illustrating a sharing method of wall finishing pictures of a prefabricated building according to an embodiment of the present disclosure;
fig. 2 is a schematic flow chart illustrating a sharing method of wall finishing pictures of a prefabricated building according to a second embodiment of the present disclosure;
FIG. 3 is a schematic view of a wall finishing view of a prefabricated building according to an embodiment of the present disclosure;
fig. 4 is a schematic flowchart of a sharing method for wall finishing pictures of a prefabricated building according to a third embodiment of the disclosure;
fig. 5 is a schematic configuration diagram of a first embodiment of a sharing system for wall finishing pictures of a prefabricated building disclosed in the embodiment of the present application;
fig. 6 is a schematic configuration diagram of a second embodiment of a sharing system for wall finishing pictures of a prefabricated building disclosed in the embodiment of the present application;
fig. 7 is a schematic configuration diagram of a sharing system for a wall decoration screen of a prefabricated building according to a third embodiment of the present disclosure.
Detailed Description
The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.
It should be noted that the terms "comprises" and "comprising," and any variations thereof, in the embodiments of the present application, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
The embodiment of the application discloses a sharing method and system for wall decoration pictures of an assembly type building, which can allow an owner to remotely supervise the wall decoration quality of constructors when the constructors decorate the wall of the assembly type building, and improve the experience of the owner. The following detailed description is made with reference to the accompanying drawings.
Referring to fig. 1, fig. 1 is a schematic flowchart illustrating a sharing method of a wall decoration picture of an assembly building according to a first embodiment of the present disclosure. In the method for sharing the wall decoration picture of the prefabricated building depicted in fig. 1, an owner wears first intelligent glasses, and a constructor wears second intelligent glasses, wherein a first external shooting module is arranged on the front side of the first intelligent glasses, and a second external shooting module is arranged on the front side of the second intelligent glasses. As shown in fig. 1, the method for sharing a wall finishing picture of an assembly building may include the steps of:
101. the first intelligent glasses utilize the first external shooting module to shoot the portrait picture corresponding to the constructor, and send the portrait picture corresponding to the constructor and the unique identification of the first intelligent glasses to the cloud.
In some embodiments, an owner may hold the first smart glasses to be close to the constructor, so that the first smart glasses may use the first external photographing module of the first smart glasses to photograph the portrait picture corresponding to the constructor, and send the portrait picture corresponding to the constructor and the unique identifier of the first smart glasses to a cloud through a mobile network (e.g., a 5G network).
Or, in another embodiment, an owner may hold the portrait of the constructor displayed by the first smart glasses close to other equipment of the owner (e.g., an owner mobile phone), and the first smart glasses may use the first external photographing module of the first smart glasses to photograph the portrait of the constructor displayed by the other equipment of the owner, so as to obtain a portrait picture corresponding to the constructor, and send the portrait picture corresponding to the constructor and the unique identifier of the first smart glasses to a cloud through a mobile network (e.g., a 5G network); wherein the portrait of the construction worker shown by the owner's other device (e.g., owner's cell phone) can be transmitted to the owner's other device by an electronic device (e.g., mobile phone) used by the construction worker.
For example, the unique identification of the first smart glasses may include, but is not limited to, a MAC address of the first smart glasses.
102. The cloud identifies the face characteristics of the constructors from the portrait pictures corresponding to the constructors, and determines the unique identification of the second intelligent glasses worn by the constructors according to the face characteristics of the constructors; and establishing a glasses corresponding relation between the unique identifier of the first intelligent glasses and the unique identifier of the second intelligent glasses.
In the embodiment of the application, the cloud end can pre-establish the corresponding relation between the human face characteristics of the constructors and the unique identification of the second intelligent glasses worn by the constructors; on this basis, after the cloud identifies the face features of the constructors from the portrait pictures corresponding to the constructors, the unique identifier of the second intelligent glasses worn by the constructors can be determined from the corresponding relationship between the face features of the constructors and the unique identifier of the second intelligent glasses worn by the constructors according to the face features of the constructors; and establishing a glasses corresponding relation between the unique identifier of the first intelligent glasses and the unique identifier of the second intelligent glasses.
103. The second intelligent glasses obtain the wall decoration picture of the prefabricated building shot by the second external shooting module, and send the wall decoration picture and the unique identification of the second intelligent glasses to the cloud.
For example, the second smart glasses may send the wall decoration picture and the unique identifier of the second smart glasses to a cloud via a mobile network (e.g., a 5G network).
For example, the unique identification of the second smart glasses may include, but is not limited to, a MAC address of the second smart glasses.
104. The cloud determines the unique identifier of the first intelligent glasses from the glasses corresponding relation according to the unique identifier of the second intelligent glasses; and sending the wall decoration picture to the first intelligent glasses according to the unique identifier of the first intelligent glasses.
Illustratively, the cloud sends the wall decoration picture to the first smart glasses through a mobile network (e.g., a 5G network) according to the unique identifier of the first smart glasses.
105. The first intelligent glasses acquire the wall decoration pictures and project the wall decoration pictures to retinas of the owners by utilizing harmless laser.
Therefore, by implementing the sharing method of the wall decoration pictures of the assembly type building shown in fig. 1, when a constructor decorates the wall of the assembly type building, the constructor is allowed to remotely supervise the wall decoration quality of the constructor, and the experience of the constructor is improved.
Referring to fig. 2, fig. 2 is a flowchart illustrating a sharing method of wall decoration images of an assembly building according to a second embodiment of the present disclosure. In the sharing method of the wall decoration picture of the prefabricated building depicted in fig. 2, an owner wears first intelligent glasses, and a constructor wears second intelligent glasses, wherein the front side of the first intelligent glasses is provided with a first external shooting module, and the front side of the second intelligent glasses is provided with a second external shooting module. Furthermore, one hand of the constructor wears a first intelligent glove, a plurality of acquisition points are distributed on a palm-shaped area on the lower side of the first intelligent glove, and the plurality of acquisition points comprise a reference acquisition point and a plurality of non-reference acquisition points. As shown in fig. 2, the method for sharing the wall finishing picture of the prefabricated building may include the following steps:
201. the first intelligent glasses utilize the first external shooting module to shoot the portrait picture corresponding to the constructor, and send the portrait picture corresponding to the constructor and the unique identification of the first intelligent glasses to the cloud.
202. The cloud identifies the face characteristics of the constructors from the portrait pictures corresponding to the constructors, and determines the unique identification of the second intelligent glasses worn by the constructors according to the face characteristics of the constructors; and establishing a glasses corresponding relation between the unique identifier of the first intelligent glasses and the unique identifier of the second intelligent glasses.
203. The first smart glasses send a shooting start uplink instruction including the unique identifier of the first smart glasses to the cloud.
For example, the first smart glasses may send a start shot uplink instruction including a unique identifier of the first smart glasses to the cloud in response to eye movements (e.g., frequent blinking) or gesture movements of the owner.
204. The cloud end responds to the uplink shooting starting instruction, and determines the unique identifier of the second intelligent glasses from the glasses corresponding relation according to the unique identifier of the first intelligent glasses; and sending a shooting start downlink instruction to the second intelligent glasses according to the unique identifier of the second intelligent glasses.
205. And the second intelligent glasses respond to the downlink shooting starting instruction and control the second external shooting module of the second intelligent glasses to start shooting.
206. The second intelligent glasses obtain a wall decoration picture of the assembly building shot by the second external shooting module, and send the wall decoration picture and the unique identification of the second intelligent glasses to the cloud; wherein, show in the wall decoration picture that the palm shape region of the downside of first intelligent gloves is pressed at the butt joint department of two adjacent decorative wall boards of laying on the wall.
Referring to fig. 3, fig. 3 is a schematic view of a wall surface decoration picture of an assembly type building according to an embodiment of the present application. As shown in fig. 3, it can be shown in the wall decoration picture that the palm-shaped region of the lower side of the first smart glove is pressed against the butt joint of two adjacent decorative wall panels laid on the wall surface.
207. The cloud determines the unique identifier of the first intelligent glasses from the glasses corresponding relation according to the unique identifier of the second intelligent glasses; and sending the wall decoration picture to the first intelligent glasses according to the unique identifier of the first intelligent glasses.
208. The first intelligent glasses acquire the wall decoration pictures and project the wall decoration pictures to retinas of the owners by utilizing harmless laser.
209. The first intelligent glove acquires collected data when a palm-shaped area on the lower side of the first intelligent glove is pressed at a butt joint of two adjacent decorative wallboards laid on a wall surface, wherein the collected data at least comprises a height difference of each non-reference collection point in the plurality of non-reference collection points relative to the reference collection point; and sending the collected data to the second smart glasses.
In some embodiments, a first UWB (ultra wide band) antenna is disposed on the first smart glove, a second UWB antenna is disposed on the second smart eyewear, and the first smart glove transmits the collected data to the second smart eyewear, including:
the first smart glove detects whether a real-time distance between the first UWB antenna and a second UWB antenna arranged on the second smart glasses is smaller than or equal to a first designated distance; if so, sending the acquired data to the second UWB antenna through the first UWB antenna;
the second smart glasses receive the collected data through the second UWB antenna.
According to the implementation of the embodiment, the second intelligent glasses can conveniently and efficiently obtain the acquired data acquired by the first intelligent gloves.
In some embodiments, after the first smart glove detects that the real-time distance between the first UWB antenna and the second UWB antenna disposed on the second smart eyewear is not less than or equal to the first specified distance, the method further comprises:
the first intelligent glove controls an indicator lamp on the upper side of the first intelligent glove to output a preset lamp effect; the preset lamp effect is used for prompting that the distance between the second intelligent glasses and the first intelligent gloves is too far.
210. And the second smart glasses send the collected data and the unique identifier of the second smart glasses to the cloud.
211. The cloud determines the unique identifier of the first intelligent glasses from the glasses corresponding relation according to the unique identifier of the second intelligent glasses; and sending the collected data to the first intelligent glasses according to the unique identifier of the first intelligent glasses.
212. The first intelligent glasses receive the collected data and judge whether at least one height difference in the collected data exceeds the maximum height difference specified by the owner; if so, sending prompt information to the owner, wherein the prompt information is used for prompting that the height difference of the butt joint of the two adjacent decorative wallboards is too large.
In the embodiment of the application, first intelligent glasses judge that there is at least one in the data collection when the difference in height surpasses the appointed maximum difference in height of owner, explain two piece adjacent decorate the side of going up of wallboard and be in there is great difference in height to seam department, promptly to seam department the side of going up of two adjacent decoration wallboards is not on same plane.
Wherein, implement above-mentioned step 209-step 212, the owner passes through first intelligent glasses can be long-range, convenient learn the side of going up of two adjacent decorative wall boards that constructor laid on the wall of assembly type structure is in there is the difference in height to seam department to exceed the appointed maximum difference in height of owner, and then can in time remind the last side of two adjacent decorative wall boards that constructor adjusted and laid on the wall of assembly type structure is in the difference in height to seam department, so that the side of going up of two adjacent decorative wall boards to seam department promotes constructor's wall decoration quality.
Therefore, by implementing the method for sharing the wall decoration picture of the assembly type building shown in fig. 2, when a constructor decorates the wall of the assembly type building, the constructor is allowed to remotely supervise the wall decoration quality of the constructor, and the experience of the constructor is improved.
Referring to fig. 4, fig. 4 is a flowchart illustrating a sharing method of wall decoration images of an assembly building according to a third embodiment of the present disclosure. In the sharing method of the wall decoration picture of the prefabricated building depicted in fig. 4, an owner wears first intelligent glasses, and a constructor wears second intelligent glasses, wherein the front side of the first intelligent glasses is provided with a first external shooting module, and the front side of the second intelligent glasses is provided with a second external shooting module. Furthermore, one hand of the constructor wears a first intelligent glove, a plurality of acquisition points are distributed on a palm-shaped area on the lower side of the first intelligent glove, and the plurality of acquisition points comprise a reference acquisition point and a plurality of non-reference acquisition points. Further, a second smart glove is worn by one hand of the owner, both the one hand of the constructor and the one hand of the owner are left hands, or both the one hand of the constructor and the one hand of the owner are right hands, a plurality of actuators are distributed on a palm-shaped area on the lower side of the second smart glove, and the plurality of actuators comprise a reference actuator and a plurality of non-reference actuators; the number of the plurality of non-reference actuators is the same as the number of the plurality of non-reference acquisition points; the reference actuator is located at the same position in the palm-shaped area of the lower side of the second smart glove as the reference acquisition point is located in the palm-shaped area of the lower side of the first smart glove; the plurality of non-reference actuators are in one-to-one correspondence with the plurality of non-reference acquisition points, and the position of any non-reference actuator in the palm-shaped area on the lower side of the second smart glove is the same as the position of the non-reference acquisition point corresponding to the non-reference actuator in the palm-shaped area on the lower side of the first smart glove. As shown in fig. 4, the method for sharing the wall finishing picture of the prefabricated building may include the following steps:
the steps 401 to 411 are the same as the steps 201 to 211 in the previous embodiment, and will not be repeated here.
As an optional implementation, a third UWB antenna is disposed on the first smart glasses, and a fourth UWB antenna is disposed on the second smart glove; correspondingly, in step 401, the mode that the first smart glasses use the first external shooting module to shoot the portrait picture corresponding to the constructor may be as follows:
the second intelligent glove detects an instant strength value when one hand of the owner wearing the second intelligent glove makes a fist by using a pressure sensor, judges whether the instant strength value exceeds a pre-configured strength threshold value or not, and if yes, detects whether a real-time distance between the fourth UWB antenna and a third UWB antenna arranged on the first intelligent glasses is smaller than or equal to a second designated distance or not; if yes, sending a shooting execution instruction to the third UWB antenna through the fourth UWB antenna;
the first intelligent glasses receive the shooting execution instruction through the third UWB antenna, and shoot the portrait picture corresponding to the constructor by utilizing the first external shooting module so as to respond to the shooting execution instruction.
Wherein, implement control that above-mentioned embodiment can be convenient first intelligent glasses utilizes first outside shooting module shoots the portrait picture that constructor corresponds.
Further, the shooting execution instruction includes a target resolution, and the shooting execution instruction is received by the first smart glove through the third UWB antenna, and the portrait picture corresponding to the constructor is shot by using the first external shooting module, so as to respond to the shooting execution instruction, including: the first intelligent glasses receive the shooting execution instruction through the third UWB antenna and control the first external shooting module to shoot the portrait picture corresponding to the constructor according to the target resolution so as to respond to the shooting execution instruction.
Wherein the second smart glove determines the target resolution in the following manner:
the second intelligent glove calculates a force difference value between the instant force value and the pre-configured force threshold value, and determines a resolution variable; the resolution variation is in direct proportion to the force difference;
and the second intelligent glove calculates the sum of the preset initial resolution and the resolution variable quantity as the target resolution.
Wherein, implement promotion that above-mentioned embodiment can be nimble first intelligent glasses utilizes first outside shooting module shoots resolution ratio when the person and picture that constructor corresponds promotes owner's experience sense.
412. The first intelligent glasses receive the collected data and judge whether at least one height difference in the collected data exceeds the maximum height difference specified by the owner; if not, ending the process; if yes, go to step 413-step 415.
413. First intelligent glasses to owner's suggestion information that is used for the suggestion the difference in height of butt joint department of two blocks of adjacent decoration wallboards is too big.
414. The first smart glasses send the collected data to the second smart glove.
In some embodiments, a third UWB antenna is disposed on the first smart eyewear, a fourth UWB antenna is disposed on the second smart glove, and the first smart eyewear transmits the collected data to the second smart glove, including:
the first smart glasses detect whether a real-time distance between the third UWB antenna and a fourth UWB antenna arranged on the second smart glove is smaller than or equal to a second specified distance; if so, sending the acquired data to the fourth UWB antenna through the third UWB antenna;
the second smart glove receives the collected data through the fourth UWB antenna.
According to the implementation of the embodiment, the second intelligent glove can conveniently and efficiently acquire the acquired data acquired by the first intelligent glove.
415. The second intelligent glove receives the collected data, and transmits the height difference of each non-reference collecting point in the collected data relative to the reference collecting point to the non-reference actuator corresponding to the non-reference collecting point, so that the non-reference actuator corresponding to the non-reference collecting point is inflated to the state that the height difference of the non-reference actuator corresponding to the non-reference collecting point relative to the reference actuator is consistent with the height difference of the non-reference collecting point relative to the reference collecting point, and the owner can sense that the height difference of the butt joint of the two adjacent decorative wall panels is overlarge through the second intelligent glove.
Wherein, implement above-mentioned step 414-step 415, the owner passes through the perception that second intelligence gloves can be long-range, convenient that the constructor lays on the wall of assembly type structure the side of going up of two adjacent decorative wall boards is in there is the difference in height too big to seam department, and then can in time remind the constructor adjusts the side of going up of two adjacent decorative wall boards of laying on the wall of assembly type structure and is in the difference in height to seam department, so that the side of going up of two adjacent decorative wall boards to seam department is on same plane, promotes constructor's wall decoration quality.
In addition, by implementing the steps 414 to 415, the owner can conveniently sense that the height difference of the upper side surfaces of the two adjacent decorative wall boards laid by the constructor on the wall surface of the assembly type building at the butt joint position is too large without touching the butt joint position of the two adjacent decorative wall boards laid by the constructor on the wall surface of the assembly type building with hands on the wall surface decoration site of the assembly type building, so that the experience of the owner is improved.
Therefore, by implementing the sharing method of the wall decoration pictures of the assembly type building shown in fig. 4, when a constructor decorates the wall of the assembly type building, the constructor is allowed to remotely supervise the wall decoration quality of the constructor, and the experience of the constructor is improved.
Referring to fig. 5, fig. 5 is a schematic configuration diagram of a sharing system for wall decoration images of an assembly building according to an embodiment of the present disclosure. Wherein, the sharing system of the wall fitment picture of the prefabricated building that fig. 5 shows includes first intelligent glasses 501 that the owner wore, second intelligent glasses 502 and high in the clouds 503 that constructor wore, the front side of first intelligent glasses 501 is provided with first outside and shoots the module, the front side of second intelligent glasses 502 is provided with the outside module of shooing of second, wherein:
the first smart glasses 501 are configured to capture a portrait picture corresponding to the constructor by using the first external capture module, and send the portrait picture corresponding to the constructor and the unique identifier of the first smart glasses 501 to the cloud 503;
the cloud 503 is configured to identify the face features of the constructors from the portrait pictures corresponding to the constructors, and determine the unique identifier of the second smart glasses 502 worn by the constructors according to the face features of the constructors; establishing a glasses correspondence relationship between the unique identifier of the first smart glasses 501 and the unique identifier of the second smart glasses 502;
the second smart glasses 502 are configured to obtain a wall decoration picture of the assembly building shot by the second external shooting module, and send the wall decoration picture and the unique identifier of the second smart glasses 502 to the cloud 503;
the cloud 503 is further configured to determine, according to the unique identifier of the second smart glasses 502, the unique identifier of the first smart glasses 501 from the glasses correspondence relationship; sending the wall decoration picture to the first smart glasses 501 according to the unique identifier of the first smart glasses 501;
the first smart glasses 501 are further configured to acquire the wall decoration picture and project the wall decoration picture onto the retina of the owner by using harmless laser.
As an alternative embodiment, in the sharing system of the wall finishing picture of the prefabricated building shown in fig. 5:
the first smart glasses 501 are further configured to send a shooting start uplink instruction including the unique identifier of the first smart glasses 501 to the cloud 503 before the second smart glasses 502 utilize the second external shooting module to shoot a wall decoration picture of the assembly building;
the cloud 503 is further configured to respond to the uplink shooting starting instruction, and determine the unique identifier of the second smart glasses 502 from the glasses correspondence relationship according to the unique identifier of the first smart glasses 501; sending a downlink shooting starting instruction to the second smart glasses 502 according to the unique identifier of the second smart glasses 502;
the second smart glasses 502 are further configured to control the second external photographing module of the second smart glasses 502 to start photographing in response to the photographing start downlink instruction.
Therefore, by implementing the sharing system for the wall decoration pictures of the assembly type building shown in fig. 5, when a constructor decorates the wall of the assembly type building, the constructor is allowed to remotely supervise the wall decoration quality of the constructor, and the owner experience is improved.
Referring to fig. 6, fig. 6 is a schematic configuration diagram of a sharing system for wall decoration images of an assembly building according to a second embodiment of the present disclosure. The sharing system of the wall decoration screen of the assembly type building shown in fig. 6 is optimized by the sharing system of the wall decoration screen of the assembly type building shown in fig. 5. Compared with the sharing system for the wall decoration picture of the prefabricated building shown in fig. 5, the sharing system for the wall decoration picture of the prefabricated building shown in fig. 6 further includes a first smart glove 504 worn by one hand of the constructor, a plurality of collecting points are distributed on a palm-shaped area on the lower side of the first smart glove 504, and the plurality of collecting points include a reference collecting point and a plurality of non-reference collecting points; wherein the palm-shaped area of the wall finishing picture showing the underside of the first smart glove 504 is pressed at the butt joint of two adjacent finishing wallboards laid on the wall, wherein:
the first smart glove 504 is used for acquiring collected data when a palm-shaped area on the lower side of the first smart glove 504 is pressed at a butt joint of two adjacent decorative wallboards laid on a wall surface, and the collected data at least comprises a height difference of each non-reference collecting point in the plurality of non-reference collecting points relative to the reference collecting point; and, send the collected data to the second smart glasses 502;
the second smart glasses 502 are further configured to send the collected data and the unique identifier of the second smart glasses 502 to the cloud 503;
the cloud 503 is further configured to determine, according to the unique identifier of the second smart glasses 502, the unique identifier of the first smart glasses 501 from the glasses correspondence relationship; sending the collected data to the first smart glasses 501 according to the unique identifier of the first smart glasses 501;
the first smart glasses 501 are further configured to receive the collected data, and determine whether at least one of the height differences in the collected data exceeds a maximum height difference specified by the owner; if so, sending prompt information to the owner, wherein the prompt information is used for prompting that the height difference of the butt joint of the two adjacent decorative wallboards is too large.
In some embodiments, a first UWB antenna is disposed on the first smart glove 504, a second UWB antenna is disposed on the second smart glasses 502, and the manner for the first smart glove 504 to send the collected data to the second smart glasses 502 specifically is:
the first smart glove 504 detects whether the real-time distance between the first UWB antenna and the second UWB antenna disposed on the second smart eyewear 502 is less than or equal to a first specified distance; if so, sending the acquired data to the second UWB antenna through the first UWB antenna;
the second smart glasses 502 receive the collected data via the second UWB antenna.
The first smart glove 504 is further configured to control an indicator light on an upper side of the first smart glove 504 to output a preset light effect after detecting that a real-time distance between the first UWB antenna and the second UWB antenna provided on the second smart glasses is not less than or equal to the first designated distance; the preset light effect is used to prompt that the second smart glasses 502 are too far away from the first smart glove 504
It is thus clear that, implement sharing system of the wall fitment picture of the assembly type structure that figure 6 is shown, the owner passes through first intelligent glasses can be long-range, convenient learn the side of going up of two adjacent decorative wall boards that constructor laid on the wall of assembly type structure is in there is the difference in height to seam department to exceed the appointed maximum difference in height of owner, and then can in time remind the side of going up of two adjacent decorative wall boards that constructor adjusted laying on the wall of assembly type structure is in the difference in height to seam department, so that the side of going up of two adjacent decorative wall boards is in same plane to seam department, promotes constructor's wall fitment quality.
Referring to fig. 7, fig. 7 is a schematic configuration diagram of a sharing system for wall decoration images of an assembly building according to a third embodiment of the present disclosure. The sharing system of the wall decoration screen of the assembly type building shown in fig. 7 is optimized by the sharing system of the wall decoration screen of the assembly type building shown in fig. 6. Compared with the sharing system of the wall decoration picture of the prefabricated building shown in fig. 6, the sharing system of the wall decoration picture of the prefabricated building shown in fig. 7 further includes a second smart glove 505 worn by one hand of the owner, one hand of the constructor and one hand of the owner are both left hands, or one hand of the constructor and one hand of the owner are both right hands, a plurality of actuators are distributed on a palm-shaped area on the lower side of the second smart glove 505, and the plurality of actuators include a reference actuator and a plurality of non-reference actuators; the number of the plurality of non-reference actuators is the same as the number of the plurality of non-reference acquisition points; the reference actuator is located in the same position in the palm area of the underside of the second smart glove 505 as the reference acquisition point is located in the palm area of the underside of the first smart glove 504; the plurality of non-reference actuators are in one-to-one correspondence with the plurality of non-reference acquisition points, and the position of any non-reference actuator in the palm-shaped area on the lower side of the second smart glove 505 is the same as the position of the non-reference acquisition point corresponding to the non-reference actuator in the palm-shaped area on the lower side of the first smart glove 504; wherein:
the first smart glasses 501 are further configured to send the collected data to the second smart glove 505 after sending a prompt message to the owner;
the second smart glove 505 is configured to receive the collected data, and transmit a height difference between each non-reference collection point in the collected data and the reference collection point to a non-reference actuator corresponding to the non-reference collection point, so that the non-reference actuator corresponding to the non-reference collection point is inflated to a position where the height difference between the non-reference actuator corresponding to the non-reference collection point and the reference actuator is consistent with the height difference between the non-reference collection point and the reference collection point, so that the owner perceives that the height difference at the butt joint between the two adjacent decorative wall panels is too large through the second smart glove 505.
As an optional implementation manner, in the sharing system for the wall decoration picture of the prefabricated building shown in fig. 7, a third UWB antenna is disposed on the first smart glasses 501, a fourth UWB antenna is disposed on the second smart glove 505, and a manner that the first smart glasses 501 send the collected data to the second smart glove 505 specifically is as follows:
the first smart glasses 501 detects whether the real-time distance between the third UWB antenna and the fourth UWB antenna provided on the second smart glove 505 is less than or equal to a second specified distance; if so, sending the acquired data to the fourth UWB antenna through the third UWB antenna;
the second smart glove 505 receives the collected data via the fourth UWB antenna.
Wherein, implement sharing system of wall fitment picture of the assembly type structure shown in fig. 7, the owner passes through second intelligence gloves can be long-range, convenient perception the last side of two adjacent decorative wall boards that constructor laid on the wall of assembly type structure is in there is the difference in height too big to seam department, and then can in time remind the last side of two adjacent decorative wall boards that constructor laid on the wall of adjustment assembly type structure is in the difference in height to seam department, so that the side of going up of two adjacent decorative wall boards to seam department promotes constructor's wall fitment quality on same plane.
In addition, implement sharing system of the wall fitment picture of the assembly type structure shown in fig. 7, the owner need not to go to touch with the hand at the wall fitment scene of assembly type structure the perception that constructor can be convenient under the condition of the butt joint department of two adjacent decorative wallboard that lay on the wall of assembly type structure the side of going up of two adjacent decorative wallboard that constructor laid on the wall of assembly type structure is in there is the difference in height too big, promotion the owner experiences.
It will be understood by those skilled in the art that all or part of the steps in the methods of the embodiments described above may be implemented by hardware instructions of a program, and the program may be stored in a computer-readable storage medium, where the storage medium includes Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), One-time Programmable Read-Only Memory (OTPROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), Compact Disc Read-Only Memory (CD-ROM), or other Memory, such as a magnetic disk, or a combination thereof, A tape memory, or any other medium readable by a computer that can be used to carry or store data.
The method and the system for sharing the wall decoration picture of the fabricated building disclosed by the embodiment of the invention are described in detail, a specific embodiment is applied to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.
Claims (10)
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