CN111652680A - Self-service remote house-seeing system and working method thereof - Google Patents

Abstract

A self-service remote house-watching system and a working method thereof comprise: the receiving module is configured to receive a room watching request uploaded by a room watching user; the first extraction module is configured to extract the name of the building included in the house-watching request and the transaction information of the suite of the floor corresponding to the building; the second extraction module is configured to extract the unsold suite information; the acquisition module is configured to acquire suite information selected by a room-viewing user; the third extraction module is configured to extract the robot which is positioned in the building and is in an idle state; the navigation module is configured to edit a navigation route from the robot to the suite selected by the room-viewing user and control the robot to enter the suite; a camera module configured to acquire an image of an environment around the robot; the control module is configured to receive movement and steering instructions from the intelligent device and control the robot to execute the instructions; and the reservation module is configured to sign a house purchasing reservation contract with the house-watching user during house watching or after house watching is finished.

Description

Self-service remote house-seeing system and working method thereof

Technical Field

The invention relates to the field of house property, in particular to a self-service remote house seeing system and a working method thereof.

Background

When the house property is opened, a salesperson explains the floor condition for a client by using the sand table model and the plane house type graph, and the salesperson takes the current house to visit after the client selects the house type, so that the salesperson and the client need to run back and forth, which wastes time and labor; in addition, if the on-site house-watching persons are numerous, the salespersons are not enough, the client cannot see the current house and needs to make a reservation to watch the house next time, and the house-watching efficiency of the traditional house-watching mode is low.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides a self-service remote house watching system and a working method thereof, which can effectively solve the problems in the background art.

The technical scheme is as follows:

the utility model provides a long-range room system of self-service type, is including setting up the robot in the building, the robot parks in the parking area, still includes:

the system comprises an uploading module, a receiving module and a processing module, wherein the uploading module is configured to submit a house-viewing request by a house-viewing user, and the house-viewing request comprises identity information, a building name and a floor;

the receiving module is configured to receive a room watching request uploaded by a room watching user;

the first extraction module is configured to extract the name of the building included in the house-watching request and the transaction information of the suite of the floor corresponding to the building;

the first judgment module is configured to judge whether the suite on the floor is sold according to the transaction information;

the second extraction module is configured to extract the unsold suite information and recommend the suite information to the room-watching user;

the acquisition module is configured to acquire suite information selected by the room-viewing user;

a third extraction module configured to extract a robot located in the building and in an idle state;

the navigation module is configured to edit a navigation route of the robot to a suite selected by a room-viewing user and control the robot to enter the suite;

the camera module is arranged on the robot and is configured to acquire an image of the surrounding environment of the robot;

the first connection module is configured to remotely connect intelligent equipment of a house-watching user with the camera module and send images shot by the camera module to the intelligent equipment;

a control module configured to receive movement and steering instructions from the smart device and control the robot to execute the instructions;

and the reservation module is configured to sign a house purchasing reservation contract with the house-watching user in the house-watching process or after the house-watching is finished.

As a preferred embodiment of the present invention, the present invention further comprises:

the display module is arranged in the hall of the house and is configured to play the images shot by the camera module, and the display module comprises a plurality of operating buttons;

a second connection module configured to remotely connect the display module and the camera module.

As a preferred embodiment of the present invention, the present invention further comprises:

and the second judgment module is configured to judge whether the same suite is selected by a plurality of room-viewing users.

As a preferred embodiment of the present invention, the present invention further comprises:

and the sorting module is configured to sort a plurality of room-viewing users selecting the same suite in an ascending order according to the time of receiving the room-viewing requests sent by the room-viewing users, wherein the sorting order represents the signing priority order of the plurality of room-viewing users.

As a preferred aspect of the present invention, a noise detection module is provided on the robot, and configured to detect a noise value of an environment around the robot;

a third connection module configured to remotely connect the noise detection module with a smart device or remotely connect the noise detection device with a display module.

A working method of a self-service remote house-watching system comprises the following working steps:

s101: receiving a house watching request uploaded by a house watching user, wherein the house watching request comprises identity information, a building name and a floor;

s102: extracting the name of the building and the transaction information of the suite of the floor corresponding to the building, which are included in the house-watching request;

s103: judging whether the suite of the floor is sold according to the transaction information;

s104: if not, extracting the unsold suite information, and recommending the suite information to a room-watching user;

s105: acquiring suite information selected by the room-viewing user;

s106: extracting the robot which is positioned in the building and is in an idle state;

s107: editing a navigation route from the robot to a suite selected by a user looking at the house, and controlling the robot to enter the suite;

s108: acquiring an image of the surrounding environment of the robot;

s109: remotely connecting intelligent equipment of a house-watching user with the camera module, and sending an image shot by the camera module to the intelligent equipment;

s110: receiving movement and steering instructions from the intelligent equipment, and controlling the robot to execute the instructions;

s111: and making a house purchasing reservation contract with the house-watching user.

As a preferred aspect of the present invention, S109 further includes:

the house-watching user can select to connect the camera module with the display module, and the image shot by the camera module is sent to the display module.

As a preferred embodiment of the present invention, the present invention further comprises:

in S105, judging whether the same suite is selected by a plurality of house-watching users;

if yes, in S109, the display module and the camera module are remotely connected, images shot by the camera module are sent to the display module, and a plurality of house watching users can control the movement and the steering of the robot through operation buttons on the display module.

As a preferred embodiment of the present invention, the present invention further comprises:

the house-viewing users who select the same house are arranged in an ascending order according to the time of receiving the house-viewing request sent by the house-viewing users, the house-viewing users arranged in the front have the signing priority, and if the house-viewing users arranged in the front do not give up the priority, the house-viewing users arranged in the back cannot sign the house-purchasing reservation contract.

As a preferred embodiment of the present invention, the present invention further comprises:

detecting a noise value of an environment surrounding the robot;

remotely connecting the noise detection module with the intelligent device or remotely connecting the noise detection module with the display module;

and sending the noise value to intelligent equipment or a display module.

The invention realizes the following beneficial effects:

1. after the house-watching user finishes the introduction of the building on the house-selling site, if the house-buying intention exists, the house-watching user can directly make a reservation on the house-selling site to watch the house, and the house-watching user does not need to be brought to the house by a salesperson and does not need to visit the house from the house-selling site to the house.

2. The robot is preset in the parking lot, can simulate the whole process that a resident enters a suite from the parking lot, and helps a house-watching user to know more comprehensively.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a flow chart of a working method of a self-service remote room-watching system provided by the present invention.

Fig. 2 is a flow chart of a co-watching method provided by the present invention.

Fig. 3 is a flow chart of a noise detection method provided by the present invention.

Fig. 4 is a block diagram of a remote house watching system according to the present invention.

Detailed Description

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

Example one

As shown in fig. 1, the present embodiment provides a working method of a self-service remote room system, including the following working steps:

s101: receiving a house watching request uploaded by a house watching user, wherein the house watching request comprises identity information, a building name and a floor;

s102: extracting the name of the building and the transaction information of the suite of the floor corresponding to the building, which are included in the house-watching request;

s103: judging whether the suite of the floor is sold according to the transaction information;

s104: if not, extracting the unsold suite information, and recommending the suite information to a room-watching user;

s105: acquiring suite information selected by the room-viewing user;

s106: extracting the robot which is positioned in the building and is in an idle state;

s107: editing a navigation route from the robot to a suite selected by a user looking at the house, and controlling the robot to enter the suite;

s108: acquiring an image of the surrounding environment of the robot;

s109: remotely connecting intelligent equipment of a house-watching user with the camera module, and sending an image shot by the camera module to the intelligent equipment;

s110: receiving movement and steering instructions from the intelligent equipment, and controlling the robot to execute the instructions;

s111: and making a house purchasing reservation contract with the house-watching user.

S109 further includes:

the house-watching user can select to connect the camera module with the display module, and the image shot by the camera module is sent to the display module.

Specifically, in S101, a house-viewing user edits a house-viewing request at a house-selling site, where the house-viewing request at least includes identity information of the user, a floor name, and a floor, and the house-viewing request is submitted after editing of the floor is completed.

The house-watching user edits the house-watching request by using intelligent equipment, the intelligent equipment can be a smart phone, and the smart phone needs to start positioning service.

In S102, if the positioning display is not in the house selling site, the system refuses the house watching request; if the positioning display is in the house selling site, the system receives the house watching request.

And analyzing the house-watching request, locking the house-watching request to a corresponding floor and a corresponding floor, and if the corresponding floor has a plurality of suite houses, extracting the transaction information of all the suite houses, wherein the transaction information is the sales state of the suite houses.

In S103, whether the suite in the floor selected by the house-watching user is sold is judged according to the transaction information.

In S104, if the suites on the floor are sold, recommending a user who looks at the house to change the floor or the floor; and if the floor has unsold suite, extracting the unsold suite information and recommending the suite information to the house-watching user.

In S105, after receiving the suite information recommended by the system, the room-viewing user selects the suite information that needs to be viewed from the suite information, and returns the suite information to the system.

And the system acquires the suite information selected by the house-watching user.

In S106, the robot which is parked in the parking lot of the floor selected by the house watching user and is in an idle state is extracted.

In S107, the system edits a navigation route for the robot to move from the parking lot to the suite selected by the user viewing the house, and controls the robot to move according to the navigation route.

The robot has a function of operating an elevator.

In S108, during the movement of the robot, an image of the environment around the robot is obtained through a camera module disposed on the robot.

In S109, remotely connecting the intelligent equipment of the house-watching user with the camera module, sending the image shot by the camera module to the intelligent equipment, and enabling the house-watching user to remotely watch the house.

If total house seeing people count is less, and under the unmanned circumstances of using of display module, the user of seeing the house can apply for to the sales force and use display module to visit the present house, under the circumstances that the sales force agrees, the user of seeing the house can use smart machine to connect display module, the image that camera module shot send to display module, the user of seeing the house also can realize long-range room of seeing.

In S110, when the smart device is connected to the camera module, the smart device automatically jumps to a preset webpage of the present invention, an interface of the webpage includes a plurality of operation instructions, the operation instructions include forward, backward, left turn, right turn, up turn, down turn, etc., and a room-viewing user clicks a corresponding operation instruction on the smart device, so that the system can receive the operation instruction clicked by the room-viewing user and control the robot to execute the instruction.

In S111, after the house-viewing user completely knows the current house environment, if the current house environment is satisfied with the current house environment, the house-viewing user can directly sign a house-purchasing reservation contract, and the current house cannot be purchased by other house-viewing users.

Example two

As shown in fig. 2, in S105, it is determined whether the same suite is selected by a plurality of room-viewing users;

if yes, in S109, the display module and the camera module are remotely connected, images shot by the camera module are sent to the display module, and a plurality of house watching users can control the movement and the steering of the robot through operation buttons on the display module.

The house-viewing users who select the same house are arranged in an ascending order according to the time of receiving the house-viewing request sent by the house-viewing users, the house-viewing users arranged in the front have the signing priority, and if the house-viewing users arranged in the front do not give up the priority, the house-viewing users arranged in the back cannot sign the house-purchasing reservation contract.

Specifically, if a certain suite of rooms is selected by a plurality of room-viewing users together, the plurality of room-viewing users are arranged to view the rooms simultaneously.

The intelligent equipment is not connected with the camera module, but the camera module is connected with the display module, and a plurality of house-watching users visit the suite through the display module. The system comprises a display module, and is characterized in that a plurality of operating buttons are arranged on the display module, the operating buttons are used for controlling the action of the robot, a house-watching user clicks the corresponding operating buttons on the display module, and the system can receive the operating buttons clicked by the house-watching user and control the robot to execute instructions.

After a plurality of house-watching users jointly select a set of suite, the users have different priorities, namely, the user selected firstly has a priority signing right, and the user selected later cannot directly cross the user selected firstly to sign a house-buying reservation contract.

First, the house-viewing users are arranged in ascending order according to the time when the house-viewing request is received, and the previously arranged house-viewing users can choose to sign a house-purchasing reservation contract or give up priority. For example, the house-watching users A, B, C, D collectively select a suite and rank A, B, C, D, B, C, D cannot sign a house-booking contract before a gives up priority, but B has the next priority, C has the priority of one level again, D has no priority, B can choose to sign a house-booking contract or give up priority after a gives up priority, and a finishes watching house after a signs a house-booking contract.

EXAMPLE III

As shown in fig. 3, detecting a noise value of the robot surroundings;

remotely connecting the noise detection module with the intelligent device or remotely connecting the noise detection module with the display module;

and sending the noise value to intelligent equipment or a display module.

Specifically, the noise monitoring module can detect noise values of the environment around the robot, such as noise values of various positions inside a parking lot, a corridor and a suite, and when only one house-watching user visits the suite, the noise monitoring module is connected with the intelligent device of the house-watching user and sends the detected noise values to the intelligent device.

When a plurality of users visit the suite together, the noise monitoring module is connected with the display module and sends the detected noise value to the display module.

Example four

As shown in fig. 4, a self-service remote room-watching system, which comprises a robot arranged in a building, further comprises:

the uploading module 401 is configured to submit a house-viewing request, where the house-viewing request includes identity information, a building name, and a floor;

a receiving module 402 configured to receive a room-viewing request uploaded by a room-viewing user;

a first extraction module 403, configured to extract the name of the building included in the request for looking up the house and the transaction information of the suite of the floor corresponding to the building;

a first judging module 404 configured to judge whether the suite on the floor is sold according to the transaction information;

a second extraction module 405 configured to extract unsold suite information and recommend the suite information to a room-viewing user;

an obtaining module 406 configured to obtain suite information selected by the room-viewing user;

a third extraction module 407 configured to extract the robot located in the building and in an idle state;

a navigation module 408 configured to edit a navigation route of the robot to a suite selected by a room-viewing user and to control the robot to enter the suite;

a camera module 409, disposed on the robot, configured to acquire an image of an environment around the robot;

the first connection module 410 is configured to remotely connect the intelligent device of the house-watching user and the camera module, and send the image shot by the camera module to the intelligent device;

a control module 411 configured to receive movement and steering instructions from the smart device and control the robot to execute the instructions;

and the reservation module 412 is configured to sign a house reservation contract with the house-watching user during house-watching or after house-watching is finished.

The display module 413 is arranged in the hall of the house and is configured to play the images shot by the camera module, and the display module comprises a plurality of operating buttons;

a second connecting module 414 configured to remotely connect the display module and the camera module.

A second determination module 415 configured to determine whether the same suite is selected by a plurality of room-viewing users.

And the sorting module 416 is configured to sort the plurality of room-viewing users who select the same suite in an ascending order according to the time of receiving the room-viewing requests sent by the plurality of room-viewing users, wherein the sorting order represents the signing priority order of the plurality of room-viewing users.

A noise detection module 417 disposed on the robot and configured to detect a noise value of an environment surrounding the robot;

a third connection module 418 configured to remotely connect the noise detection module with a smart device or remotely connect the noise detection device with a display module.

The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a long-range room system of self-service type, is including setting up the robot in the building, the robot parks in the parking lot, its characterized in that includes:

the system comprises an uploading module, a receiving module and a processing module, wherein the uploading module is configured to submit a house-viewing request by a house-viewing user, and the house-viewing request comprises identity information, a building name and a floor;

the receiving module is configured to receive a room watching request uploaded by a room watching user;

the first extraction module is configured to extract the name of the building included in the house-watching request and the transaction information of the suite of the floor corresponding to the building;

the first judgment module is configured to judge whether the suite on the floor is sold according to the transaction information;

the second extraction module is configured to extract the unsold suite information and recommend the suite information to the room-watching user;

the acquisition module is configured to acquire suite information selected by the room-viewing user;

a third extraction module configured to extract a robot located in the building and in an idle state;

the navigation module is configured to edit a navigation route of the robot to a suite selected by a room-viewing user and control the robot to enter the suite;

the camera module is arranged on the robot and is configured to acquire an image of the surrounding environment of the robot;

the first connection module is configured to remotely connect intelligent equipment of a house-watching user with the camera module and send images shot by the camera module to the intelligent equipment;

a control module configured to receive movement and steering instructions from the smart device and control the robot to execute the instructions;

and the reservation module is configured to sign a house purchasing reservation contract with the house-watching user in the house-watching process or after the house-watching is finished.

2. A self-service remote room-seeing system as claimed in claim 1, wherein: further comprising:

the display module is arranged in the hall of the house and is configured to play the images shot by the camera module, and the display module comprises a plurality of operating buttons;

a second connection module configured to remotely connect the display module and the camera module.

3. A self-service remote room-seeing system as claimed in claim 2, wherein: further comprising:

and the second judgment module is configured to judge whether the same suite is selected by a plurality of room-viewing users.

4. A self-service remote room-seeing system as claimed in claim 3, wherein: further comprising:

and the sorting module is configured to sort a plurality of room-viewing users selecting the same suite in an ascending order according to the time of receiving the room-viewing requests sent by the room-viewing users, wherein the sorting order represents the signing priority order of the plurality of room-viewing users.

5. A self-service remote room-seeing system as claimed in claim 1, wherein: further comprising:

a noise detection module disposed on the robot and configured to detect a noise value of an environment surrounding the robot;

a third connection module configured to remotely connect the noise detection module with a smart device or remotely connect the noise detection device with a display module.

6. The working method of the self-service remote room-seeing system as claimed in any one of claims 1 to 5, comprising the working steps of:

s101: receiving a house watching request uploaded by a house watching user, wherein the house watching request comprises identity information, a building name and a floor;

s102: extracting the name of the building and the transaction information of the suite of the floor corresponding to the building, which are included in the house-watching request;

s103: judging whether the suite of the floor is sold according to the transaction information;

s104: if not, extracting the unsold suite information, and recommending the suite information to a room-watching user;

s105: acquiring suite information selected by the room-viewing user;

s106: extracting the robot which is positioned in the building and is in an idle state;

s107: editing a navigation route from the robot to a suite selected by a user looking at the house, and controlling the robot to enter the suite;

s108: acquiring an image of the surrounding environment of the robot;

s109: remotely connecting intelligent equipment of a house-watching user with the camera module, and sending an image shot by the camera module to the intelligent equipment;

s110: receiving movement and steering instructions from the intelligent equipment, and controlling the robot to execute the instructions;

s111: and making a house purchasing reservation contract with the house-watching user.

7. The method of claim 6, wherein the method comprises: s109 further includes:

the house-watching user can select to connect the camera module with the display module, and the image shot by the camera module is sent to the display module.

8. The method of claim 6, wherein the method comprises: further comprising:

in S105, judging whether the same suite is selected by a plurality of house-watching users;

if yes, in S109, the display module and the camera module are remotely connected, images shot by the camera module are sent to the display module, and a plurality of house watching users can control the movement and the steering of the robot through operation buttons on the display module.

9. The method of claim 8, wherein the method comprises: further comprising:

the house-viewing users who select the same house are arranged in an ascending order according to the time of receiving the house-viewing request sent by the house-viewing users, the house-viewing users arranged in the front have the signing priority, and if the house-viewing users arranged in the front do not give up the priority, the house-viewing users arranged in the back cannot sign the house-purchasing reservation contract.

10. The method of claim 6, wherein the method comprises: further comprising:

detecting a noise value of an environment surrounding the robot;

remotely connecting the noise detection module with the intelligent device or remotely connecting the noise detection module with the display module;

and sending the noise value to intelligent equipment or a display module.

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