CN110062048B - Intelligent hotel safety nursing equipment and method thereof - Google Patents

Abstract

An intelligent hotel safety nursing device and a method thereof comprise a nursing device, a room controller and a server, wherein the nursing device comprises a ground nursing mechanism, a top end nursing mechanism and a hole slot nursing mechanism, the ground nursing mechanism comprises an identification floor tile, a digital vibration sensor, a warning button, a bathing protection unit, a pressure sensor, a first sleeve hydraulic cylinder, a second sleeve hydraulic cylinder, a wall storage slot, a splicing base, an electric universal wheel, a built-in mechanical arm, a first electromagnetic group, a longitudinal rail group and a transverse rail group, the top end nursing mechanism comprises a first protection slot, a second protection slot, an outward turning type sealing plate, a traction unit and a bath towel, the room controller is arranged in a hotel room, and the server is arranged in a planned storage area of the hotel; when a resident is in a hotel room, the state of the resident is intelligently detected when the resident is detected to enter a bath room, the resident is intelligently transported to an open room after the resident falls down, and intelligent warning is carried out.

Description

Intelligent hotel safety nursing equipment and method thereof

Technical Field

The invention relates to the field of urban hotels, in particular to intelligent hotel safety nursing equipment and a method thereof.

Background

As an integrated service place, how to serve the public is a primary problem in modern hotels; this is also being realized by more and more hotels, and from the time customers enter, serving each customer is a goal of continued hotel development; during holidays, hotels may cater to hundreds of entrants, and at this time, safety becomes a primary concern for each hotel.

However, how to combine hotel safety, privacy protection with intelligent, after detecting that there is the resident in the bathroom that falls into coma, intelligence transports the resident to the spacious position in room and carries out the police dispatch newspaper to the hotel, and improve when the resident when living in the hotel privacy and the security and shield pinhole camera etc. that the hotel may exist and reveal the article of user's privacy be the problem that needs to solve at present urgently.

Disclosure of Invention

The purpose of the invention is as follows: the embodiment of the invention provides intelligent hotel safety nursing equipment and a method thereof, which can effectively solve the problems related to the background technology.

The technical scheme is as follows:

an intelligent hotel security nursing device comprises a nursing device, a room controller and a server, wherein the nursing device comprises a ground nursing mechanism and a top nursing mechanism;

the ground nursing mechanism comprises identification floor tiles, a digital vibration sensor, a warning button, a bathing protection unit, a pressure sensor, a first sleeve hydraulic cylinder, a second sleeve hydraulic cylinder, a wall storage tank, a splicing base, an electric universal wheel, a built-in mechanical arm, a first electromagnetic group, a longitudinal rail group, a transverse rail group and an inwards-turned type sealing plate, wherein the identification floor tiles are respectively arranged on the entrance ground of a hotel room and the entrance ground of a hotel bathroom; the digital vibration sensors are arranged in the floor of a shower area of a hotel bath room and in the bottom end of a bathtub; the warning button is arranged on the wall surface of the hotel bath room;

the bath protection unit comprises a shower floor tile group, a bathtub floor tile group, a bottom adjacent block, an adjacent groove group, a fixed groove group, a splicing area and a second electromagnetic group, wherein the shower floor tile group is arranged in a shower area of a hotel bath room; the bathtub floor tile group is arranged in a bathtub area of a hotel bathroom; the bottom adjacent blocks are respectively arranged at the bottoms of the shower floor tile group and the bathtub floor tile group; the adjacent groove group is arranged below the bottom of the bottom adjacent block and is connected with the bottom adjacent block; the fixed groove group is arranged inside the inner wall of the adjacent groove group and is connected with the adjacent groove group; the splicing areas are respectively arranged on two sides of the bottom surface of the shower floor tile set and two sides of the bottom surface of the bathtub floor tile set; the second electromagnetic group is arranged in the splicing area and is connected with the splicing area;

the pressure sensor is arranged in the centers of the identification floor tile, the shower floor tile group and the bathtub floor tile group and is provided with serial number information; the first sleeve hydraulic cylinder is arranged in the ground below the shower floor tile group and is abutted against the adjacent groove group below the shower floor tile group, and the front end of a piston rod of the first sleeve hydraulic cylinder is fixed with the fixed groove group of the adjacent groove group; the second sleeve hydraulic cylinder is arranged in the ground below the bathtub floor brick group and is abutted against the adjacent groove group below the bathtub floor brick group, and the front end of a piston rod of the second sleeve hydraulic cylinder is fixed with the fixed groove group of the adjacent groove group; the wall storage tank is arranged inside the lower part of the inner wall of the hotel bath room; the splicing base is vertically stored in the wall storage tank and is fixedly connected with the electric universal wheel; the electric universal wheel is arranged at the bottom of the splicing base and is connected with the splicing base; the built-in mechanical arm is arranged in the wall storage tank, connected with the wall storage tank and fixed with the splicing base; the first electromagnetic group is arranged on the surface above the splicing base and connected with the splicing base; the longitudinal rail group is arranged in the floor of the hotel bath room, is connected with the transverse rail group and is adjacent to the bathtub area; the transverse track group is arranged in the floor of the hotel bath room, is connected with the longitudinal track group and is adjacent to the shower area; the inward-turning type sealing plates are respectively arranged on the inner wall of the top end of the longitudinal track group and the inner wall of the top end of the transverse track group;

the top end nursing mechanism comprises a first protection groove, a second protection groove, an outward turning type closing plate, a traction unit and a bath towel, wherein the first protection groove is arranged in the top end of a shower area of a hotel bath room; the second protection groove is arranged in the top end of the bathtub area of the hotel bath room; the outward turning type sealing plate is respectively arranged at the front end of the first protection groove and the front end of the second protection groove; the traction unit comprises a rope electric lifter, a traction rope and an electric fixing clamp, wherein the rope electric lifter is respectively arranged at the bottom ends in the first protective groove and the second protective groove and is connected with the traction rope; the traction rope is respectively connected with the rope electric lifter and the electric fixing clamp; the electric fixing clamp is arranged at the front end of the traction rope, is connected with the traction rope and is fixed with the bath towel; the area of the bath towel is larger than that of the bathtub area and larger than that of the shower area;

the room controller is arranged in a hotel room and is respectively connected with a warning button, a pressure sensor, a first sleeve hydraulic cylinder, a second sleeve hydraulic cylinder, a built-in mechanical arm, a flip-in sealing plate, a flip-out sealing plate, a rope electric lifter, an electric fixing clamp, an electric switch door of a hotel bath room and an electric curtain of the hotel room, and is wirelessly connected with a digital vibration sensor, the pressure sensor, an electric universal wheel, a first electromagnetic group and a second electromagnetic group which are arranged in a shower floor tile group and a bathtub floor tile group;

the server is arranged in a storage area planned by the hotel and is respectively in wireless connection with the room controller and external equipment of a hotel management department.

As a preferable mode of the invention, the nursing device further comprises a hole and groove nursing mechanism, the hole and groove nursing mechanism comprises a lower hidden type inner groove, a protective block, a third sleeve hydraulic cylinder, an isolation groove, a heating ring plate and a fourth sleeve hydraulic cylinder, and the lower hidden type inner groove is arranged below the hole and groove in the hotel room; the protection block is stored in the lower hidden type inner groove; the third sleeve hydraulic cylinder is arranged at the bottom end inside the lower hidden type inner groove and is respectively connected with the lower hidden type inner groove, the protection block and the affiliated room controller; the isolation groove is arranged in the upper part of the protection block and connected with the protection block; the heating ring plate is arranged in the isolation groove and is in wireless connection with the room controller; the fourth sleeve hydraulic cylinder is arranged in the isolation groove and is respectively connected with the isolation groove, the heating ring plate and the room controller.

As a preferable mode of the invention, the nursing device further comprises a mirror nursing mechanism, the mirror nursing mechanism comprises a mirror groove, a mirror rail set, an electric moving block, an electric rotating shaft and a plane mirror, and the mirror groove is arranged in the wall of the area of the hotel room where the plane mirror is arranged; the mirror rail groups are respectively arranged at the top end inside the mirror groove and the bottom end inside the mirror groove and are connected with the mirror groove; the electric moving block is arranged at the position of the mirror track group and is in wireless connection with the room controller; the electric rotating shaft is arranged in the front end of the electric moving block, is respectively connected with the electric moving block and the plane mirror, and is wirelessly connected with the room controller; the plane mirror is respectively and fixedly connected with the electric rotating shaft above the inner part of the mirror groove and the electric rotating shaft below the inner part of the mirror groove.

As a preferable mode of the present invention, the mirror surface nursing mechanism further comprises an embedded coating tank and a coating nozzle, wherein the embedded coating tank is stored in the inner wall of the mirror groove, is respectively connected with the mirror groove and the coating nozzle, and stores the mirror surface spraying material; the coating sprayer is arranged in the mirror groove, is respectively connected with the mirror groove and the built-in coating tank, and is connected with the room controller.

As a preferred mode of the invention, the nursing device further comprises a camera nursing mechanism, the camera nursing mechanism comprises a camera groove, a door moving groove, a manual type retractable door and a camera group, and the camera groove is arranged in the wall of the open area of the hotel room; the door moving groove is arranged in the front end of the inner wall of the camera groove, is connected with the camera groove and is provided with a slide rail; the manual retractable door is stored in the sliding rail position in the door moving groove and is provided with a handle; the camera group is stored in the camera groove and connected with the room controller.

As a preferable mode of the present invention, the camera nursing mechanism further includes a touch switch, a fifth sleeve hydraulic cylinder, and a camera rotation shaft, wherein the touch switch is disposed at the bottom end inside the door moving slot and is respectively connected to the door moving slot and the room controller to which the touch switch belongs; the fifth sleeve hydraulic cylinder is arranged in the camera groove and is respectively connected with the camera groove, the camera rotating shaft and the room controller; the camera shooting rotating shaft is arranged at the front end of a piston rod of the fifth sleeve hydraulic cylinder and is respectively connected with the piston rod of the fifth sleeve hydraulic cylinder and the camera group.

As a preferable mode of the invention, the camera nursing mechanism further comprises an inner hidden groove, an inner hidden display, a telescopic rod and a manual rotating shaft, wherein the inner hidden groove is arranged in the wall below the camera groove; the built-in display is stored in the built-in groove and is wirelessly connected with the room controller; the telescopic rod is arranged at the bottom end inside the built-in groove and is respectively connected with the built-in groove and the manual rotating shaft; the manual rotating shaft is arranged at the front end of the telescopic rod and is respectively connected with the telescopic rod and the built-in display.

An intelligent hotel safety care method using the safety care device, the method comprising the steps of:

if the room controller acquires pressure information fed back by the connected pressure sensor, analyzing the position of the pressure sensor according to the pressure information;

if the room controller determines that the position of the pressure sensor is at the position of the floor tile for recognition in the hotel bath room according to the pressure information, the room controller acquires the ground vibration information fed back by the connected digital vibration sensor in real time and analyzes the acquired ground vibration information;

if the room controller analyzes that a human body falls down, a warning light-emitting signal is sent to a connected warning button and the pressing information fed back by the warning button is received in real time, and the warning button starts to send warning light in real time according to the warning light-emitting signal and feeds back the pressing information to the room controller after being pressed;

if the room controller does not receive the pressing information fed back by the warning button within the preset time, analyzing the falling position of the human body according to the obtained pressure information;

if the human body is analyzed to be located in the shower area, a first stretching signal is sent to a first sleeve hydraulic cylinder which is connected, if the human body is analyzed to be located in the bathtub area, a second stretching signal is sent to a second sleeve hydraulic cylinder which is connected, the first sleeve hydraulic cylinder drives a connected shower floor tile group to stretch out for a set height according to the first stretching signal and feeds back a stretching completion signal to a room controller, and the second sleeve hydraulic cylinder drives a connected bathtub floor tile group to stretch out for the set height according to the second stretching signal and feeds back the stretching completion signal to the room controller;

the room controller sends a base splicing signal to a matched built-in mechanical arm according to an extension completion signal and sends a protection opening signal to a matched outward-turning type sealing plate, the built-in mechanical arm stretches out a fixed splicing base to the splicing region of a shower floor brick group or a bathtub floor brick group according to the base splicing signal and enables the fixed splicing base to rotate to be in contact with the splicing region, the outward-turning type sealing plate is turned outwards according to the protection opening signal to open a first protective groove or a second protective groove, and after the built-in mechanical arm is completed, a splicing completion signal is fed back to the room controller, and after the outward-turning type sealing plate is completed, an opening completion signal is fed back to the room controller;

the room controller sends an electromagnetic adsorption signal to a first electromagnetic group and a second electromagnetic group which are connected according to a splicing completion signal and sends a privacy protection signal to a rope electric lifter which is connected according to a protection starting signal, the first electromagnetic group and the second electromagnetic group start to enter an electromagnetic adsorption state according to the electromagnetic adsorption signal and feed back an adsorption completion signal to the server, and the rope electric lifter drives a traction rope which is connected to extend out of a preset distance according to the privacy protection signal and feeds back a rope extension signal to the room controller;

the room controller sends a complete contraction signal to a first sleeve hydraulic cylinder or a second sleeve hydraulic cylinder which are connected according to an adsorption completion signal and sends a fixing release signal to a connected electric fixing clamp according to a rope extension signal, the first sleeve hydraulic cylinder or the second sleeve hydraulic cylinder drives a connected piston rod to be completely contracted according to the complete contraction signal to release the fixed connection with the connecting groove group and the fixing groove group, and the electric fixing clamp releases the connection with the bath towel according to the fixing release signal and feeds back a protection completion signal to the room controller;

the room controller sends an opening signal to an electric switch door of a connected hotel bathroom and sends an inversion opening signal to a connected inversion type sealing plate according to the protection completion signal, the electric switch door of the hotel bathroom enters an opening state according to the opening signal, the inversion type sealing plate is started according to the inversion opening signal, a longitudinal track group and/or a transverse track group are/is opened in a rotating mode towards the inner side, and a track opening signal is sent to the room controller;

the room controller sends a protection transportation signal to the connected electric universal wheels according to the track opening signal and feeds back bound hotel room number information to the connected server, and the electric universal wheels drive the connected splicing bases to move the shower floor tile group or the bathtub floor tile group to an open area position set by a hotel room through the longitudinal track group and/or the transverse track group according to the protection transportation signal;

and the server transmits the received hotel room number information to the external equipment position of the connected hotel management department.

As a preferred mode of the present invention, after the room controller analyzes the position of the pressure sensor based on the pressure information, the method further comprises the steps of:

if the room controller analyzes that the position of the pressure sensor is the position of a recognition floor tile in a hotel room according to the pressure information, the room controller sends a backward moving signal to a connected electric moving block, sends a mirror surface rotation signal to a connected electric rotating shaft and sends a privacy shielding signal to a connected third sleeve hydraulic cylinder, the electric moving block drives the connected electric rotating shaft to move a plane mirror to the tail end position of a mirror rail group in a mirror groove according to the backward moving signal, the electric rotating shaft drives the connected plane mirror to rotate clockwise by a preset angle according to the mirror surface rotation signal and feeds a mirror surface rotation completion signal back to the room controller, and the third sleeve hydraulic cylinder drives a connected protection block to extend out according to the privacy shielding signal and feeds a shielding extension signal back to the room controller;

the room controller sends a mirror back coating signal to a connected coating sprayer according to a mirror surface rotation completion signal and generates a privacy shielding signal to a connected fourth sleeve hydraulic cylinder and a heating ring plate according to a shielding extension signal, the coating sprayer sprays a spraying material stored in an embedded coating tank to the mirror back surface of the plane mirror according to the mirror back coating signal and a set spraying track and feeds back a coating completion signal to the room controller after the spraying track is finished, the fourth sleeve hydraulic cylinder drives the connected heating ring plate to be completely extended according to the privacy shielding signal, and the heating ring plate starts to heat to a preset temperature according to the privacy shielding signal;

the room controller sends a reset signal to the connected electric moving block and sends a mirror surface reset signal to the connected electric rotating shaft according to the coating completion signal, the electric moving block drives the connected electric rotating shaft to move the plane mirror to the front end of the mirror rail group in the mirror groove according to the reset signal, and the electric rotating shaft drives the connected plane mirror to rotate counterclockwise by a preset angle according to the mirror surface reset signal.

As a preferred mode of the present invention, after the room controller analyzes the position of the pressure sensor based on the pressure information, the method further comprises the steps of:

if the room controller analyzes that the position of the pressure sensor is the position of the identification floor tile in the hotel room according to the pressure information, the room controller receives conflict information fed back by a connected conflict switch in real time and sends an opening signal to a connected built-in display, and the built-in display is started to enter a display state according to the opening signal;

if the room controller receives conflict information fed back by the conflict switch, a camera shooting extension signal is sent to a connected fifth sleeve hydraulic cylinder, a privacy identification signal is sent to a connected camera group, and a sealing signal is sent to a connected electric curtain of the hotel room, the fifth sleeve hydraulic cylinder drives a connected camera shooting rotating shaft to fully extend the camera group according to the camera shooting extension signal and feeds back a camera shooting extension completion signal to the room controller, the camera group is started to enter an image shooting state according to the privacy identification signal, and the electric curtain moves according to the sealing signal to seal a window of the hotel room;

the room controller sends a preset rotation signal to a connected camera shooting rotating shaft according to a camera shooting extension completion signal and transmits an image shot by a camera in real time to a connected built-in display, and the camera shooting rotating shaft drives a connected camera group to rotate for a preset number of turns according to the preset rotation signal and feeds back an identification completion signal to the room controller after the rotation is completed;

the room controller sends a camera contraction signal to a connected fifth sleeve hydraulic cylinder, sends a closing signal to a connected camera group and sends an opening signal to a connected electric curtain of the hotel room according to the identification completion signal, the fifth sleeve hydraulic cylinder drives a connected camera rotating shaft to completely contract the camera group according to the camera contraction signal, the camera group is closed according to the closing signal, and the electric curtain moves to open the window of the hotel room according to the opening signal.

The invention realizes the following beneficial effects:

1. when the intelligent hotel safety nursing equipment detects that a resident enters a hotel room and enters a bathroom, the position and the falling state of the resident are intelligently identified through the pressure sensor and the digital vibration sensor, if the resident is identified to be in the position of the area where the shower floor tile set or the bathtub floor tile set is located and the warning button is not pressed down, the resident is judged to fall and be in a coma state, the sleeve hydraulic cylinder of the area where the resident is located is controlled to lift the shower floor tile set or the bathtub floor tile set, then the built-in mechanical arm is controlled to carry out electromagnetic adsorption on the splicing base and the lifted shower floor tile set or the bathtub floor tile set, the outward-turning type sealing plate above the area is controlled to open the protective groove, then the traction unit is controlled to lower the bath towel and throw the bath towel on the outer surface of the resident and move to the open area of the hotel room at the position of the corresponding track set through the electric universal wheel of the splicing base to stop the room, and alerts the hotel; the privacy and the safety of the resident after the resident enters the hotel are improved, and the lodging experience of the resident in the hotel is improved.

2. After intelligent hotel safety nursing equipment detects that there is the resident to live in the hotel room, there is the hole in the intelligent control hotel room, the groove, the protection piece of below positions such as hole stretches out and control the mirror surface rotation axis and carry out the rotation of default angle with the level crossing of room inside, then control heating loop board start-up heating function is in order to shield the article that reveal user's privacy such as infrared camera that probably exist in the hotel room, then move the level crossing to the mirror inslot portion through the coating shower nozzle to the back shower nozzle coating material of level crossing and control the level crossing removal after the spraying and reset through electronic movable block, and the rotation resets, in order to avoid the level crossing of hotel inside to be changed into the double faced mirror.

3. Detect when intelligent hotel safety nursing equipment that there is the visitor to live in the hotel room and when detecting the visitor through the conflict switch and open the camera recess after, the camera group that the control corresponds starts and stretches out, and control built-in display and start, then with the image transmission that camera group shot to the built-in display that corresponds in, look over after the manual pulling out of built-in display by the user to let the visitor detect whether there is infrared camera in the hotel room, improve the privacy security of visitor.

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 connection relationship diagram of a server according to an example of the present invention.

Fig. 2 is a connection diagram of a room controller according to an example of the present invention.

FIG. 3 is a first schematic view of a bathtub floor tile set according to one example of the present invention.

Fig. 4 is a schematic view of an identification tile according to one example of the present invention.

FIG. 5 is a second schematic view of a bathtub floor tile set according to one example of the present invention.

FIG. 6 is a schematic cross-sectional view of a set of shower floor tiles provided in accordance with one example of the present invention.

Fig. 7 is a schematic view of a splice tray provided in accordance with an example of the present invention.

Fig. 8 is a schematic cross-sectional view of a wall storage slot provided in one example of the present invention.

FIG. 9 is a schematic view of a set of shower floor tiles provided in accordance with one example of the present invention.

FIG. 10 is a schematic cross-sectional view of a first shield bath according to one example of the present invention.

FIG. 11 is a schematic cross-sectional view of a second shield bath provided in accordance with an example of the present invention.

Fig. 12 is a partially cut-away schematic view of a longitudinal track group according to an example of the present invention.

Fig. 13 is a partially cross-sectional schematic view of a transverse track group according to an example of the present invention.

Fig. 14 is a schematic diagram of an area where a protection block is located according to an example of the present invention.

Fig. 15 is a schematic cross-sectional view of an undercut internal groove according to an exemplary embodiment of the present invention.

FIG. 16 is a schematic view of the region of a mirror groove provided in one example of the present invention.

Fig. 17 is a schematic view of a plane mirror according to an example of the present invention.

FIG. 18 is a schematic cross-sectional view of the area of the mirror groove provided in one example of the present invention.

Fig. 19 is a schematic cross-sectional view of an area where a camera lens groove is provided according to an example of the present invention.

Fig. 20 is a first cross-sectional view of an area in which a concealed groove is provided according to an example of the present invention.

Fig. 21 is a second cross-sectional view of an area in which an interior recessed channel is provided according to one embodiment of the present invention.

Wherein, 1, a nursing device, 2, a room controller, 3, a server, 10, a ground nursing mechanism, 11, a top nursing mechanism, 12, a hole slot nursing mechanism, 13, a face nursing mechanism, 14, a camera nursing mechanism, 10-1, a recognition floor tile, 10-2 digital vibration sensor, 10-3, a warning button, 10-4, a bathing protection unit, 10-5, a pressure sensor, 10-6, a first sleeve hydraulic cylinder, 10-7, a second sleeve hydraulic cylinder, 10-8, a wall storage slot, 10-9, a splicing base, 10-10, an electric universal wheel, 10-11, a built-in mechanical arm, 10-12, a first electromagnetic group, 10-13, a longitudinal track group, 10-14, a transverse track group, 10-15, an inward turning type sealing plate, 10-40, a shower ground tile group, 10-41 parts of bathtub floor tile group, 10-42 parts of bottom adjacent block, 10-43 parts of adjacent groove group, 10-44 parts of fixed groove group, 10-45 parts of splicing area, 10-46 parts of second electromagnetic group, 11-1 parts of first protective groove, 11-2 parts of second protective groove, 11-3 parts of outward turning type sealing plate, 11-4 parts of traction unit, 11-40 parts of rope electric lifter, 11-41 parts of traction rope, 11-42 parts of electric fixing clamp, 12-1 parts of downward hidden type inner groove, 12-2 parts of protective block, 12-3 parts of third sleeve hydraulic cylinder, 12-4 parts of isolation groove, 12-5 parts of heating ring plate, 12-6 parts of fourth sleeve hydraulic cylinder, 13-1 parts of mirror groove, 13-2 parts of mirror rail group, 13-3 parts of electric moving block, 13-4 electric rotating shafts, 13-5 plane mirrors, 13-6 coating nozzles, 14-1 camera grooves, 14-2 moving door grooves, 14-3 moving type telescopic doors, 14-4 camera groups, 14-5 touch switches, 14-6 fifth sleeve hydraulic cylinders, 14-7 camera rotating shafts, 14-8 built-in grooves, 14-9 built-in displays, 14-10 telescopic rods and 14-11 manual rotating shafts.

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 with reference to fig. 1-13.

Specifically, the embodiment provides an intelligent hotel security nursing device, which includes a nursing device 1, a room controller 2 and a server 3, wherein the nursing device 1 includes a ground nursing mechanism 10 and a top nursing mechanism 11.

The ground care mechanism 10 comprises an identification floor tile 10-1, a digital vibration sensor 10-2, a warning button 10-3, a bath protection unit 10-4, a pressure sensor 10-5, a first sleeve hydraulic cylinder 10-6, a second sleeve hydraulic cylinder 10-7, a wall storage tank 10-8, a splicing base 10-9, an electric universal wheel 10-10, a built-in mechanical arm 10-11, a first electromagnetic group 10-12, a longitudinal rail group 10-13, a transverse rail group 10-14 and an inwards-turning type closing plate 10-15, wherein the identification floor tile 10-1 is respectively arranged on the entrance ground of a hotel room and the entrance ground of a hotel bath room; the digital vibration sensor 10-2 is arranged in the floor of the shower area of the hotel bath room and in the bottom end of the bathtub; the warning button 10-3 is arranged on the wall surface of the hotel bath room.

The bath protection unit 10-4 comprises a shower floor tile group 10-40, a bathtub floor tile group 10-41, a bottom adjacent block 10-42, an adjacent groove group 10-43, a fixed groove group 10-44, a splicing area 10-45 and a second electromagnetic group 10-46, wherein the shower floor tile group 10-40 is arranged in a shower area of a hotel bath room; the bathtub floor tile groups 10-41 are arranged in the bathtub area of the hotel bathroom; the bottom adjacent blocks 10-42 are respectively arranged at the bottoms of the shower floor tile groups 10-40 and the bottoms of the bathtub floor tile groups 10-41; the adjacent groove groups 10-43 are arranged below the bottoms of the bottom adjacent blocks 10-42 and are connected with the bottom adjacent blocks 10-42; the fixed groove groups 10-44 are arranged inside the inner walls of the adjacent groove groups 10-43 and are connected with the adjacent groove groups 10-43; splicing areas 10-45 are respectively arranged on two sides of the bottom surface of the shower floor tile group 10-40 and two sides of the bottom surface of the bathtub floor tile group 10-41; the second magnet group 10-46 is arranged inside the splicing zone 10-45 and is connected to the splicing zone 10-45.

The pressure sensor 10-5 is arranged in the center of the identification floor tile 10-1, the shower floor tile group 10-40 and the bathtub floor tile group 10-41 and is provided with serial number information; the first sleeve hydraulic cylinder 10-6 is arranged in the ground below the shower floor tile group 10-40 and is abutted against the adjacent groove group 10-43 below the shower floor tile group 10-40, and the front end of a piston rod of the first sleeve hydraulic cylinder 10-6 is fixed with the fixed groove group 10-44 of the adjacent groove group 10-43; the second sleeve hydraulic cylinder 10-7 is arranged in the ground below the bathtub floor brick group 10-41 and is abutted against the adjacent groove group 10-43 below the bathtub floor brick group 10-41, and the front end of a piston rod of the second sleeve hydraulic cylinder 10-7 is fixed with the fixed groove group 10-44 of the adjacent groove group 10-43; the wall storage tank 10-8 is arranged inside the lower part of the inner wall of the hotel bath room; the splicing base 10-9 is vertically stored in a wall storage groove 10-8 and is fixedly connected with an electric universal wheel 10-10; the electric universal wheel 10-10 is arranged at the bottom of the splicing base 10-9 and is connected with the splicing base 10-9; the built-in mechanical arm 10-11 is arranged at the inner position of the wall storage tank 10-8, connected with the wall storage tank 10-8 and fixed with the splicing base 10-9; the first electromagnetic group 10-12 is arranged on the upper surface of the splicing base 10-9 and is connected with the splicing base 10-9; the longitudinal track group 10-13 is arranged inside the floor of the hotel bath room, is connected with the transverse track group 10-14 and is adjacent to the bathtub area; the transverse track group 10-14 is arranged inside the floor of the hotel bath room, is connected with the longitudinal track group 10-13 and is adjacent to the shower area; the inward turning type closing plates 10-15 are respectively arranged on the inner walls of the top ends of the longitudinal track groups 10-13 and the inner walls of the top ends of the transverse track groups 10-14.

The top end nursing mechanism 11 comprises a first protection groove 11-1, a second protection groove 11-2, an outward turning type closing plate 11-3, a traction unit 11-4 and a bath towel, wherein the first protection groove 11-1 is arranged inside the top end of a shower area of a hotel bath room; the second protection groove 11-2 is arranged in the top end of the bathtub area of the hotel bathroom; the outward turning type closing plate 11-3 is respectively arranged at the front end position of the first protection groove 11-1 and the front end position of the second protection groove 11-2; the traction unit 11-4 comprises a rope electric lifter 11-40, a traction rope 11-41 and an electric fixing clamp 11-42, wherein the rope electric lifter 11-40 is respectively arranged at the bottom ends in the first protective groove 11-1 and the second protective groove 11-2 and is connected with the traction rope 11-41; the traction ropes 11 to 41 are respectively connected with the rope electric lifters 11 to 40 and the electric fixing clamps 11 to 42; the electric fixing clamp 11-42 is arranged at the front end of the traction rope 11-41, is connected with the traction rope 11-41 and is fixed with the bath towel; the area of the bath towel is larger than the area of the bathtub area and larger than the area of the shower area.

The room controller 2 is arranged in a hotel room and is respectively connected with a warning button 10-3, a pressure sensor 10-5 positioned in an identification floor tile 10-1, a first sleeve hydraulic cylinder 10-6, a second sleeve hydraulic cylinder 10-7, an internal mechanical arm 10-11, an inward-turning type closing plate 10-15, an outward-turning type closing plate 11-3, a rope electric lifter 11-40, an electric fixing clamp 11-42, an electric switch door of the hotel bathroom and an electric curtain of the hotel room, and is wirelessly connected with the digital vibration sensor 10-2, the pressure sensor 10-5 positioned inside the shower floor tile set 10-40 and the bath floor tile set 10-41, the electric universal wheel 10-10, the first electromagnetic set 10-12 and the second electromagnetic set 10-46.

The server 3 is disposed in a storage area for hotel planning and is wirelessly connected to the room controller 2 and an external device of a hotel management department.

Wherein, the shower floor tile group 10-40 is composed of a plurality of floor tiles, and the area of the shower floor tile group 10-40 is at least more than 2.5 meters by 2.5 meters; the bathtub floor tile group 10-41 is composed of a plurality of floor tiles and is positioned below the bathtub of the bathroom and the area around the bathtub, and the area of the bathtub floor tile group 10-41 in the inlet and outlet area of the bathtub is at least more than 2.5 meters by 2.5 meters; the room controller 2 is electrically connected with a warning button 10-3, a pressure sensor 10-5 positioned in an identification floor tile 10-1, a first sleeve hydraulic cylinder 10-6, a second sleeve hydraulic cylinder 10-7, a built-in mechanical arm 10-11, an inwards-turned type closing plate 10-15, an outwards-turned type closing plate 11-3, a rope electric lifter 11-40, an electric fixing clamp 11-42, an electric switch door of a hotel bathroom and an electric curtain of a hotel room; the digital vibration sensor 10-2 arranged in the floor of the shower area of the hotel bathroom detects the vibration value of the floor of the shower area only, and the digital vibration sensor 10-2 arranged in the bottom end of the bathtub of the hotel bathroom detects the vibration values of the floor of the bathtub area and the bathtub of the hotel bathroom only.

If the ground vibration acquired by the digital vibration sensor 10-2 exceeds a set vibration value, the human body falls to the ground, the setting of the vibration value is debugged by an installer according to the vibration of the human body falling to the ground, the set vibration value is not more than the vibration value generated by the falling of a female adult with standard weight after jumping and is higher than the vibration value of the ground when the human body walks, when the digital vibration sensor 10-2 senses the vibration exceeding the set vibration value, an alarm is given to the connected room controller 2, the room controller 2 controls an LED lamp of the alarm button 10-3 to flash red light for alarming and acquiring the pressing information of the alarm button 10-3, and if the resident does not press the alarm button 10-3 within a set effective time, the room controller 2 directly judges that the resident falls down and is unconscious during bathing; the built-in mechanical arm 10-11 adopts a hydraulic telescopic design.

The first sleeve hydraulic cylinder 10-6 and the second sleeve hydraulic cylinder 10-7 are telescopic sleeve hydraulic cylinders; the pressure sensors 10-5 arranged at the positions of the identification floor tile 10-1, the shower floor tile group 10-40 and the bathtub floor tile group 10-41 are all bound with corresponding identification number information, and the room controller 2 can judge the position of the pressure sensor 10-5 according to the number information of the pressure sensor 10-5; the bath towel is manually fixed by managers through electric fixing clamps 11-42; the digital vibration sensors 10-2 arranged in the floor of the shower area of the hotel bath room and in the bottom end of the bathtub are respectively bound with corresponding identification number information, and the room controller 2 can judge the position of the digital vibration sensor 10-2 according to the number information of the digital vibration sensor 10-2; the vibration value of the digital vibration sensor 10-2 arranged in the bottom end of the bathtub is set to be not more than the vibration value generated when a 10-year-old female child with standard weight falls into the bathtub after jumping up and is higher than the vibration value of the bathtub caused by the human body when walking.

If the detected resident falls down and is in a coma in the bathtub, the bathtub floor tile groups 10-41 where the bathtub is located are transported to an open area of a hotel room; the electric universal wheels 10-10 are connected with electric motors arranged inside the splicing bases 10-9, the electric motors drive the electric universal wheels 10-10 to move according to a set moving track, and storage batteries respectively connected with the electric motors, the electric universal wheels 10-10 and the first battery pack are arranged inside the splicing bases 10-9; the system comprises a digital vibration sensor 10-2, a warning button 10-3, a pressure sensor 10-5 positioned inside an identification floor tile 10-1, a first sleeve hydraulic cylinder 10-6, a second sleeve hydraulic cylinder 10-7, a built-in mechanical arm 10-11, an inwards-turned type closing plate 10-15, an outwards-turned type closing plate 11-3, a rope electric lifter 11-40, an electric fixing clamp 11-42, an electric switch door of a hotel bathroom and an electric curtain of a hotel room, which are all connected with a power supply system of the hotel; the pressure sensor 10-5, the second electromagnetic group 10-46 and the digital vibration sensor 10-2 which are positioned at the position of the shower floor tile group 10-40 are all connected with a storage battery which is arranged inside the shower floor tile group 10-40; the pressure sensor 10-5, the second electromagnetic group 10-46 and the digital vibration sensor 10-2 which are positioned at the position of the bathtub floor tile group 10-41 are all connected with a storage battery which is arranged inside the bathtub floor tile group 10-41.

The embodiment also provides an intelligent hotel safety nursing method, and by using the safety nursing equipment, the method comprises the following steps:

and S1, if the room controller 2 acquires the pressure information fed back by the connected pressure sensor 10-5, analyzing the position of the pressure sensor 10-5 according to the pressure information.

Wherein, only if the pressure sensor 10-5 detecting the weight exceeding 15 kg feeds back the pressure information to the connected room controller 2; the pressure information comprises identification number information corresponding to the pressure sensor 10-5 for acquiring pressure, for example, if the pressure sensor 10-5 of the shower floor tile group 10-40 of the shower area of the hotel bathroom acquires pressure, the pressure information comprising the position of the shower floor tile group 10-40 of the shower area of the hotel bathroom is fed back to the connected room controller 2, so that the room controller 2 can quickly identify the position of the pressure sensor 10-5.

S2, if the position of the pressure sensor 10-5 is located at the position of the identification floor tile 10-1 of the hotel bathroom according to the pressure information, the room controller 2 acquires the ground vibration information fed back by the connected digital vibration sensor 10-2 in real time and analyzes the acquired ground vibration information.

If the situation that the resident enters the interior of the bathroom is detected, whether the vibration value contained in the ground vibration information fed back by the digital vibration sensor 10-2 in real time in the interior of the bathroom exceeds the set vibration value or not is obtained in real time.

S3, if the room controller 2 analyzes that a human body falls down, a warning light-emitting signal is sent to the connected warning button 10-3 and the pressing information fed back by the warning button 10-3 is received in real time, and the warning button 10-3 starts to send warning light in real time according to the warning light-emitting signal and feeds back the pressing information to the room controller 2 after being pressed.

Wherein, the warning button 10-3 flashes red light for warning, and when the warning button 10-3 is pressed, the warning button 10-3 releases flashing red light and extinguishes; after the warning button 10-3 is pressed, feeding back pressing information to the connected room controller 2; the hotel manager should enter the room to test the states of the digital shock sensor 10-2 and the warning button 10-3 after each time the resident stays, and prevent the digital shock sensor 10-2 and the warning button 10-3 from being damaged.

And S4, if the room controller 2 does not receive the pressing information fed back by the warning button 10-3 within the preset time, analyzing the falling position of the human body according to the obtained pressure information.

Wherein the preset time can be 1-15 minutes, and is preferably 5 minutes in the embodiment; if the warning button 10-3 which flashes red light for warning is not pressed by the resident for more than 5 minutes, the room controller 2 judges that the resident falls down and is in a coma; analyzing the falling position of the human body according to the acquired pressure information means that the position of the falling position of the human body is judged for the second time according to the position corresponding to the pressure sensor 10-5 which detects the weight of more than 15 kilograms at last, for example, the position of the falling position of the human body is judged to be in the area of the shower floor tile group 10-40 when the pressure sensor 10-5 which detects the corresponding weight is positioned in the shower floor tile group 10-40 at last; the first judgment of the falling position of the human body is to analyze the position of the digital vibration sensor 10-2 through the ground vibration information which is fed back by the digital vibration sensor 10-2 and contains the identification number information of the digital vibration sensor 10-2; and if the first judgment and the second judgment that the human body falls down to be inconsistent are carried out, the position of the digital vibration sensor 10-2 is taken as the priority.

S5, if the human body is analyzed to be located in the shower area, a first extending signal is sent to the connected first sleeve hydraulic cylinder 10-6, if the human body is analyzed to be located in the bathtub area, a second stretching signal is sent to the connected second sleeve hydraulic cylinder 10-7, the first sleeve hydraulic cylinder 10-6 drives the connected shower floor tile group 10-40 to extend out to a set height according to the first extending signal and feeds back an extending completion signal to the room controller 2, and the second sleeve hydraulic cylinder 10-7 drives the connected bathtub floor tile group 10-41 to extend out to the set height according to the second extending signal and feeds back the extending completion signal to the room controller 2.

Wherein, the extending distance of the first sleeve hydraulic cylinder 10-6 is set by an installer, and after the first sleeve hydraulic cylinder 10-6 is extended, the distance between the shower floor tile group 10-40 connected with the first sleeve hydraulic cylinder and the bath room floor exceeds the width of the splicing base 10-9; the extending distance of the second set of hydraulic cylinder is set by an installer, and after the second set of hydraulic cylinder is extended, the distance between the bathtub floor tile group 10-41 connected with the second set of hydraulic cylinder and the bath room floor exceeds the width of the splicing base 10-9.

S6, the room controller 2 sends a base splicing signal to the matched built-in mechanical arm 10-11 according to the extension completion signal and sends a protection opening signal to the matched turning-out type sealing plate 11-3, the built-in mechanical arm 10-11 extends the fixed splicing base 10-9 to the splicing area 10-45 position of the shower floor tile group 10-40 or the bathtub floor tile group 10-41 according to the base splicing signal and enables the fixed splicing base 10-9 to rotate to be abutted against the splicing area 10-45, the turning-out type sealing plate 11-3 turns out outwards according to the protection opening signal to open the first protection groove 11-1 or the second protection groove 11-2, and the built-in mechanical arm 10-11 feeds back a splicing completion signal to the room controller 2 after finishing splicing and feeds back an opening completion signal to the room controller 2 after the outward turning type closing plate 11-3 finishes opening.

Wherein, the length of the splicing base 10-9 is more than the length of the shower floor tile group 10-40, and after the splicing base 10-9 is spliced, the electric universal wheel 10-10 is positioned on the ground of the bath room; after the splicing base 10-9 rotates, the upper surface of the splicing base 10-9 is abutted against the splicing area 10-45, namely, the first electromagnetic group 10-12 of the splicing base 10-9 is abutted against the second electromagnetic group 10-46 of the splicing area 10-45; if the room controller 2 receives the extension completion signal fed back by the first sleeve hydraulic cylinder 10-6, a base splicing signal is sent to the built-in mechanical arm 10-11 arranged in the shower area and a protection opening signal is sent to the outward-turning type closing plate 11-3 of the first protection groove 11-1, and if the room controller 2 receives the extension completion signal fed back by the second sleeve hydraulic cylinder 10-7, a base splicing signal is sent to the built-in mechanical arm 10-11 arranged in the bathtub area and a protection opening signal is sent to the outward-turning type closing plate 11-3 of the second protection groove 11-2.

S7, the room controller 2 sends an electromagnetic adsorption signal to the connected first electromagnetic group 10-12 and the second electromagnetic group 10-46 according to the splicing completion signal and sends a privacy protection signal to the connected rope electric lifter 11-40 according to the protection opening signal, the first electromagnetic group 10-12 and the second electromagnetic group 10-46 start to enter an electromagnetic adsorption state according to the electromagnetic adsorption signal and feed back an adsorption completion signal to the server 3, and the rope electric lifter 11-40 drives the connected traction rope 11-41 to extend out of a preset distance according to the privacy protection signal and feeds back a rope extension signal to the room controller 2.

Wherein, the preset distance is that after the traction rope 11-41 which is connected with the rope electric lifter 11-40 in a driving way extends out, the distance between the electric fixing clamp 11-42 of the traction rope 11-41 and the floor of the bath room is 2 meters so as to avoid the bath towel from being too high, and the bath towel deviates the area 10-40 of the shower floor brick group or the area 10-41 of the bathtub floor brick group below when being thrown; if the room controller 2 receives a protection opening signal fed back by the outward-turning type closing plate 11-3 of the first protection groove 11-1, a privacy protection signal is sent to the connected rope electric lifter 11-40 positioned in the first protection groove 11-1, and if the room controller 2 receives a protection opening signal fed back by the outward-turning type closing plate 11-3 of the second protection groove 11-2, a privacy protection signal is sent to the connected rope electric lifter 11-40 positioned in the second protection groove 11-2; and if the room controller 2 receives a splicing completion signal fed back by the built-in mechanical arm 10-11 positioned in the shower area, sending an electromagnetic adsorption signal to the first electromagnetic group 10-12 and the second electromagnetic group 10-46 in the area of the shower floor tile group 10-40, and if the room controller 2 receives a splicing completion signal fed back by the built-in mechanical arm 10-11 positioned in the bathtub area, sending an electromagnetic adsorption signal to the first electromagnetic group 10-12 and the second electromagnetic group 10-46 in the area of the bathtub floor tile group 10-41.

S8, the room controller 2 sends a complete contraction signal to the connected first sleeve hydraulic cylinder 10-6 or second sleeve hydraulic cylinder 10-7 according to the adsorption completion signal and sends a fixing release signal to the connected electric fixing clamp 11-42 according to the rope extension signal, the first sleeve hydraulic cylinder 10-6 or second sleeve liquid drives the connected piston rod to be completely contracted according to the complete contraction signal to release the fixed connection with the connecting groove group and the fixing groove group 10-44, and the electric fixing clamp 11-42 releases the connection with the bath towel according to the fixing release signal and feeds back a protection completion signal to the room controller 2.

If the room controller 2 receives the adsorption completion signals fed back by the first and second solenoid groups 10-12 and 10-46 located in the shower area, a full contraction signal is sent to the connected first sleeve hydraulic cylinder 10-6, and if the room controller 2 receives the adsorption completion signals fed back by the first and second solenoid groups 10-12 and 10-46 located in the bathtub area, a full contraction signal is sent to the connected second sleeve hydraulic cylinder 10-7; when the piston rod which is in driving connection with the first sleeve hydraulic cylinder 10-6 is completely contracted, the front end of the piston rod is in conflict fixed connection with the fixed groove group 10-44 of the bottom adjacent block 10-42 below the shower floor tile group 10-40 and the adjacent groove group 10-43; when the piston rod connected with the second sleeve hydraulic cylinder 10-7 is driven to be completely contracted, the front end of the piston rod is separated from the abutting fixed groove group 10-44 and the abutting groove group 10-43 of the bottom abutting block 10-42 below the bathtub floor tile group 10-41 in an abutting fixed connection.

S9, the room controller 2 sends an opening signal to the electric switch door of the connected hotel bath room according to the protection completion signal and sends an inward opening signal to the connected inward turning type closing plate 10-15, the electric switch door of the hotel bath room enters an opening state according to the opening signal, the inward turning type closing plate 10-15 is started according to the inward turning opening signal, the longitudinal track group 10-13 and/or the transverse track group 10-14 are/is opened in an inward rotating mode, and a track opening signal is sent to the room controller 2.

If the room controller 2 receives a protection completion signal fed back by the electric fixing clamp 11-42 located in the first protection groove 11-1, a track opening signal is sent to the inverted closing plate 10-15 of the transverse track group 10-14, and if the room controller 2 receives a protection completion signal fed back by the electric fixing clamp 11-42 located in the second protection groove 11-2, a track opening signal is sent to the inverted closing plate 10-15 of the longitudinal track group 10-13 and the transverse track group 10-14.

S10, the room controller 2 sends a protection transportation signal to the connected electric universal wheels 10-10 according to the track opening signal and feeds back the information of the bound hotel room number to the connected server 3, and the electric universal wheels 10-10 drive the connected splicing bases 10-9 to move the shower floor tile groups 10-40 or the bathtub floor tile groups 10-41 to the open area position set by the hotel room through the longitudinal track groups 10-13 and/or the transverse track groups 10-14 according to the protection transportation signal;

if the room controller 2 receives the track opening signal sent by the inwards-turned type closing plates 10-15 positioned in the transverse track groups 10-14, the protection transportation signal is sent to the electric universal wheels 10-10 in the area of the shower floor tile groups 10-40, and if the room controller 2 receives the track opening signal sent by the inwards-turned type closing plates 10-15 positioned in the longitudinal track groups 10-13 and the transverse track groups 10-14, the protection transportation signal is sent to the electric universal wheels 10-10 in the area of the bathtub floor tile groups 10-41; the electric universal wheels 10-10 positioned in the area of the shower floor tile group 10-40 drive the connected splicing base 10-9 according to the protective transportation signal to move the shower floor tile group 10-40 to the open area position set in the hotel room through the longitudinal track group 10-13; the electric universal wheels 10-10 positioned in the area of the bathtub floor tile group 10-41 drive the connected splicing bases 10-9 according to the protection transportation signals to move the bathtub floor tile group 10-41 to the position of the transverse track group 10-14 through the longitudinal track group 10-13 and to move to the position of an open area set by a hotel room through the transverse track group 10-14; the open area set by the hotel room is an area which is positioned at a hotel room position and can be used for placing the shower floor tile groups 10-40 or the bathtub floor tile groups 10-41, the movement track from the shower room to the area is stored in the room controller 2, and the protection transportation signal sent by the room controller 2 to the electric universal wheel 10-10 comprises the movement track from the shower room to the area.

S11, the server 3 transmits the received hotel room number information to the external device location of the connected hotel management department.

The server 3 notifies a manager of the hotel management department to go to the hotel room position with the consistent hotel room number information for checking.

Example two

Referring to fig. 1-2, fig. 14-18.

Specifically, the present embodiment is substantially the same as the first embodiment, and is different in that in the present embodiment, the nursing device 1 further includes a hole and groove nursing mechanism 12, the hole and groove nursing mechanism 12 includes a hidden internal groove 12-1, a protective block 12-2, a third sleeve hydraulic cylinder 12-3, an isolation groove 12-4, a heating ring plate 12-5, and a fourth sleeve hydraulic cylinder 12-6, the hidden internal groove 12-1 is disposed below a hole and groove existing in a hotel room; the protective block 12-2 is stored in the lower hidden type inner groove 12-1; the third sleeve hydraulic cylinder 12-3 is arranged at the bottom end inside the lower hidden type inner groove 12-1 and is respectively connected with the lower hidden type inner groove 12-1, the protection block 12-2 and the affiliated room controller 2; the isolation groove 12-4 is arranged inside the upper part of the protection block 12-2 and is connected with the protection block 12-2; the heating ring plate 12-5 is arranged in the isolation groove 12-4 and is wirelessly connected with the room controller 2; the fourth sleeve hydraulic cylinder 12-6 is arranged inside the isolation groove 12-4 and is respectively connected with the isolation groove 12-4, the heating ring plate 12-5 and the affiliated room controller 2.

As a preferable mode of the invention, the nursing device 1 further comprises a mirror nursing mechanism 13, the mirror nursing mechanism 13 comprises a mirror groove 13-1, a mirror rail group 13-2, an electric moving block 13-3, an electric rotating shaft 13-4 and a plane mirror 13-5, and the mirror groove 13-1 is arranged in the wall of the area of the hotel room where the plane mirror 13-5 is arranged; the mirror rail group 13-2 is respectively arranged at the top end inside the mirror groove 13-1 and the bottom end inside the mirror groove 13-1 and is connected with the mirror groove 13-1; the electric moving block 13-3 is arranged at the position of the mirror track group 13-2 and is in wireless connection with the room controller 2; the electric rotating shaft 13-4 is arranged in the front end of the electric moving block 13-3, is respectively connected with the electric moving block 13-3 and the plane mirror 13-5, and is wirelessly connected with the room controller 2; the plane mirror 13-5 is respectively and fixedly connected with the electric rotating shaft 13-4 at the upper part inside the mirror groove 13-1 and the electric rotating shaft 13-4 at the lower part inside the mirror groove 13-1.

As a preferred mode of the invention, the mirror surface nursing mechanism 13 also comprises an internal coating tank and a coating spray head 13-6, wherein the internal coating tank is stored in the inner wall of the mirror groove 13-1, is respectively connected with the mirror groove 13-1 and the coating spray head 13-6, and stores mirror surface spraying materials; the coating spray head 13-6 is arranged in the mirror groove 13-1, is respectively connected with the mirror groove 13-1 and the built-in coating tank, and is connected with the room controller 2.

Wherein, the heating ring plate 12-5 forms a heat area after being heated so as to shield the infrared camera from shooting images; the third sleeve hydraulic cylinder 12-3, the heating ring plate 12-5, the fourth sleeve hydraulic cylinder 12-6, the electric moving block 13-3, the electric rotating shaft 13-4 and the coating sprayer 13-6 are all connected with a power supply system of a hotel and electrically connected with the room controller 2; heating wires are laid in the heating ring plates 12-5, and the heating temperature of the heating wires is not more than 50 ℃; the third sleeve hydraulic cylinder 12-3 and the fourth sleeve hydraulic cylinder 12-6 are telescopic sleeve hydraulic cylinders; the lower hidden type inner groove 12-1 is arranged at the position below holes, sockets and grooves in a hotel room to provide a heating ring plate 12-5 for shielding the holes and/or sockets and/or grooves above; wherein the electric moving block 13-3 is provided with an electric drive motor and a moving roller.

As a preferred mode of the present invention, after the room controller 2 analyzes the position of the pressure sensor 10-5 based on the pressure information, the method further comprises the steps of:

s10, if the room controller 2 analyzes that the position of the pressure sensor 10-5 is the position of the identification floor tile 10-1 in the hotel room according to the pressure information, a backward movement signal is sent to the connected electric moving block 13-3, a mirror surface rotation signal is sent to the connected electric rotating shaft 13-4, and a privacy shielding signal is sent to the connected third sleeve hydraulic cylinder 12-3, the electric moving block 13-3 drives the connected electric rotating shaft 13-4 to move the plane mirror 13-5 to the tail end position of the mirror rail group 13-2 in the mirror groove 13-1 according to the backward movement signal, the electric rotating shaft 13-4 drives the connected plane mirror 13-5 to rotate clockwise by a preset angle according to the mirror surface rotation signal and feeds a mirror surface rotation completion signal back to the room controller 2, and the third sleeve hydraulic cylinder 12-3 drives the connected protection block 12-2 to extend out according to the privacy shielding signal and feeds a screen back to the room controller 2 The mask extends the signal.

If the room controller 2 analyzes that a resident is in a hotel room, a backward movement signal is sent to the connected electric moving block 13-3, a mirror surface rotation signal is sent to the connected electric rotating shaft 13-4, and a privacy shielding signal is sent to the connected third sleeve hydraulic cylinder 12-3; the fact that the plane mirror 13-5 in driving connection with the electric rotating shaft 13-4 rotates clockwise by a preset angle means that the plane mirror 13-5 in driving connection rotates clockwise by 180 degrees, namely, the plane mirror and the mirror back are interchanged; the distance of the extension of the protection block 12-2 which is connected with the third sleeve hydraulic cylinder 12-3 in a driving way is that the back surface of the protection block 12-2 and the wall surface at the side of the lower concealed inner groove 12-1 keep the same horizontal plane.

S11, the room controller 2 sends a mirror back coating signal to the connected coating spray head 13-6 according to the mirror surface rotation completion signal and generates a privacy shielding signal to the connected fourth sleeve hydraulic cylinder 12-6 and the heating ring plate 12-5 according to the shielding extension signal, the coating spray head 13-6 sprays the spraying material stored in the built-in coating tank to the mirror back surface of the plane mirror 13-5 according to the mirror back coating signal and the set spraying track and feeds back a coating completion signal to the room controller 2 after the spraying track is finished, the fourth sleeve hydraulic cylinder 12-6 drives the connected heating ring plate 12-5 to be fully extended according to the privacy shielding signal, and the heating ring plate 12-5 starts heating to the preset temperature according to the privacy shielding signal.

The fourth sleeve hydraulic cylinder 12-6 extends out of the heating ring plate 12-5 by the same distance, and the bottom surface of the heating ring plate 12-5 and the upper surface of the protection block 12-2 are kept on the same horizontal plane; the preset temperature is 30-50 ℃, and is preferably 45 ℃ in the embodiment; the spraying track is debugged by an installer and is stored in the room controller 2, and a mirror back coating signal sent to the coating nozzle 13-6 by the room controller 2 contains the stored spraying track corresponding to the coating nozzle 13-6; the setting of the spraying track is to provide a coating nozzle 13-6 to uniformly spray a layer of coating on the back of the lens; the purpose of the spray coating is to prevent privacy of the guests from being compromised after the mirrors inside the hotel are replaced with double-sided mirrors.

S12, the room controller 2 sends a reset signal to the connected electric moving block 13-3 and sends a mirror reset signal to the connected electric rotating shaft 13-4 according to the coating completion signal, the electric moving block 13-3 drives the connected electric rotating shaft 13-4 to move the plane mirror 13-5 to the front end position of the mirror rail group 13-2 after the mirror groove 13-1 according to the reset signal, and the electric rotating shaft 13-4 drives the connected plane mirror 13-5 to rotate counterclockwise by a preset angle according to the mirror reset signal.

The anticlockwise rotation of the plane mirror 13-5 in the driving connection with the electric rotating shaft 13-4 by the preset angle means that the plane mirror 13-5 in the driving connection rotates anticlockwise by 180 degrees, that is, the plane mirror is reset.

EXAMPLE III

Referring to fig. 1-2, fig. 19-21.

Specifically, the present embodiment is substantially the same as the first embodiment, and is different in that in the present embodiment, the nursing device 1 further includes a camera nursing mechanism 14, the camera nursing mechanism 14 includes a camera groove 14-1, a door moving groove 14-2, a manual retractable door 14-3, and a camera group 14-4, the camera groove 14-1 is disposed inside a wall of an open area in a hotel room; the door moving groove 14-2 is arranged in the front end of the inner wall of the camera groove 14-1, is connected with the camera groove 14-1 and is provided with a sliding rail; the manual type retractable door 14-3 is stored in a sliding rail position in the door moving groove 14-2 and is provided with a handle; the camera group 14-4 is stored inside the camera recess 14-1 and connected to the belonging room controller 2.

As a preferable mode of the present invention, the camera nursing mechanism 14 further includes an interference switch 14-5, a fifth sleeve hydraulic cylinder 14-6 and a camera rotation shaft 14-7, the interference switch 14-5 is disposed at the bottom end inside the sliding door groove 14-2 and is respectively connected to the sliding door groove 14-2 and the affiliated room controller 2; the fifth sleeve hydraulic cylinder 14-6 is arranged in the camera groove 14-1 and is respectively connected with the camera groove 14-1, the camera rotating shaft 14-7 and the room controller 2; the camera shooting rotating shaft 14-7 is arranged at the front end position of a piston rod of the fifth sleeve hydraulic cylinder 14-6 and is respectively connected with the piston rod of the fifth sleeve hydraulic cylinder 14-6 and the camera group 14-4.

As a preferable mode of the invention, the camera nursing mechanism 14 further comprises an inner hidden groove 14-8, an inner hidden display 14-9, an expansion link 14-10 and a manual rotating shaft 14-11, wherein the inner hidden groove 14-8 is arranged in the wall below the camera groove 14-1; the built-in display 14-9 is stored in the built-in groove 14-8 and is wirelessly connected with the room controller 2; the telescopic rods 14-10 are arranged at the bottom end inside the hidden grooves 14-8 and are respectively connected with the hidden grooves 14-8 and the manual rotating shafts 14-11; the manual rotating shaft 14-11 is arranged at the front end of the telescopic rod 14-10 and is respectively connected with the telescopic rod 14-10 and the built-in display 14-9.

The camera group 14-4, the abutting opening cylinder 14-6, the fifth sleeve hydraulic cylinder 14-6, the camera rotating shaft 14-7 and the built-in display 14-9 are all connected with a power supply system of a hotel and electrically connected with the room controller 2; the built-in display 14-9 is drawn out by the passengers, and a handle is arranged at the side of the built-in display 14-9; after the manual retractable door 14-3 is pulled up, the bottom end of the manual retractable door 14-3 presses the touch switch 14-5, and the touch switch 14-5 feeds back touch information to the connected room controller 2; the conflict switch 14-5 is provided with corresponding identity identification number information and corresponds to and is bound with the camera groove 14-1 at the position of the sliding door groove 14-2; the camera group 14-4 is provided with corresponding identity identification number information and corresponds to and is bound with an internal display 14-9 of an internal hidden groove 14-8 below the camera groove 14-1; the fifth sleeve cylinder 14-6 is a telescopic sleeve cylinder.

As a preferred mode of the present invention, after the room controller 2 analyzes the position of the pressure sensor 10-5 based on the pressure information, the method further comprises the steps of:

s13, if the room controller 2 analyzes that the position of the pressure sensor 10-5 is the position of the identification floor tile 10-1 in the hotel room according to the pressure information, the collision information fed back by the connected collision switch 14-5 is received in real time and an opening signal is sent to the connected built-in display 14-9, and the built-in display 14-9 is started to enter a display state according to the opening signal.

Wherein, if the room controller 2 analyzes that the resident is in the hotel room, it sends a turn-on signal to the connected built-in display 14-9.

S14, if the room controller 2 receives conflict information fed back by the conflict switch 14-5, sending a camera shooting extension signal to the connected fifth sleeve hydraulic cylinder 14-6, sending a privacy identification signal to the connected camera group 14-4 and sending a closing signal to the connected electric curtain of the hotel room, the fifth sleeve hydraulic cylinder 14-6 drives the connected camera shooting rotating shaft 14-7 according to the camera shooting extension signal to fully extend the camera group 14-4 and feed back a camera shooting extension completion signal to the room controller 2, the camera group 14-4 starts to enter an image shooting state according to the privacy identification signal, and the electric curtain moves according to the closing signal to close the window of the hotel room.

If the room controller 2 receives conflict information fed back by the conflict switch 14-5, the resident opens the camera groove 14-1, a camera extension signal is sent to a fifth sleeve hydraulic cylinder 14-6 in the opened camera groove 14-1, a privacy identification signal is sent to a camera group 14-4 in the opened camera groove 14-1, and a sealing signal is sent to an electric curtain of a connected hotel room; namely, the user opens one camera groove 14-1 to control the camera group 14-4 of the camera groove 14-1 to extend out and start to enter an image shooting state.

S15, the room controller 2 sends a preset rotation signal to the connected camera rotation shaft 14-7 according to the camera extension completion signal and transmits the image shot by the camera in real time to the connected built-in display 14-9, and the camera rotation shaft 14-7 drives the connected camera group 14-4 to rotate for a preset number of turns according to the preset rotation signal and feeds back an identification completion signal to the room controller 2 after the rotation is completed.

The preset number of turns can be 5-25 turns, preferably 10 turns in the embodiment, that is, the camera group 14-4 connected with the camera rotating shaft in a constant-speed slow rotation mode is controlled to rotate for 10 turns; the cameras of the camera group 14-4 can capture images when the curtain of the room is closed, so that the resident can check whether red dots exist in the room through the built-in display 14-9 corresponding to the camera group 14-4, if red dots exist, the resident can possibly have an infrared camera in the room, and the resident needs to immediately inform hotel management personnel.

S16, the room controller 2 sends a camera contraction signal to the connected fifth sleeve hydraulic cylinder 14-6 according to the recognition completion signal, sends a closing signal to the connected camera group 14-4 and sends an opening signal to the connected electric curtain of the hotel room, the fifth sleeve hydraulic cylinder 14-6 drives the connected camera rotation shaft 14-7 according to the camera contraction signal to completely contract the camera group 14-4, the camera group 14-4 is closed according to the closing signal, and the electric curtain moves according to the opening signal to open the window of the hotel room.

After the camera group 14-4 rotationally connected with the camera rotating shaft is completed, the fifth sleeve hydraulic cylinder 14-6 of the camera groove 14-1 where the camera group 14-4 is located drives the camera group 14-4 to be completely contracted, and the camera group 14-4 is automatically closed.

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 an intelligence hotel safety nursing equipment, includes nursing device (1), room controller (2) and server (3), its characterized in that:

the care device (1) comprises a ground care mechanism (10) and a tip care mechanism (11);

the ground care mechanism (10) comprises an identification floor tile (10-1), a digital vibration sensor (10-2), a warning button (10-3), a bathing protection unit (10-4), a pressure sensor (10-5), a first sleeve hydraulic cylinder (10-6), a second sleeve hydraulic cylinder (10-7), a wall storage tank (10-8), a splicing base (10-9), an electric universal wheel (10-10), a built-in mechanical arm (10-11), a first electromagnetic group (10-12), a longitudinal track group (10-13), a transverse track group (10-14) and an inwards-turned type sealing plate (10-15), wherein the identification floor tile (10-1) is respectively arranged on the entrance ground of a hotel room and the entrance ground of a hotel bathroom; the digital vibration sensor (10-2) is arranged in the floor of a shower area of a hotel bath room and in the bottom end of a bathtub; the warning button (10-3) is arranged on the wall surface of the hotel bath room;

the bath protection unit (10-4) comprises a shower floor tile set (10-40), a bathtub floor tile set (10-41), a bottom adjacent block (10-42), an adjacent groove set (10-43), a fixed groove set (10-44), a splicing area (10-45) and a second electromagnetic set (10-46), wherein the shower floor tile set (10-40) is arranged in a shower area of a hotel bath room; the bathtub floor tile groups (10-41) are arranged in the bathtub area of the hotel bathroom; the bottom adjacent blocks (10-42) are respectively arranged at the bottoms of the shower floor tile groups (10-40) and the bottoms of the bathtub floor tile groups (10-41); the adjacent groove group (10-43) is arranged below the bottom of the bottom adjacent block (10-42) and is connected with the bottom adjacent block (10-42); the fixed groove group (10-44) is arranged inside the inner wall of the adjacent groove group (10-43) and is connected with the adjacent groove group (10-43); the splicing areas (10-45) are respectively arranged on two sides of the bottom surface of the shower floor tile group (10-40) and two sides of the bottom surface of the bathtub floor tile group (10-41); the second electromagnetic group (10-46) is arranged inside the splicing area (10-45) and is connected with the splicing area (10-45);

the pressure sensor (10-5) is arranged in the center of the identification floor tile (10-1), the shower floor tile group (10-40) and the bathtub floor tile group (10-41) and is provided with serial number information; the first sleeve hydraulic cylinder (10-6) is arranged in the ground below the shower floor tile group (10-40) and is abutted against an adjacent groove group (10-43) below the shower floor tile group (10-40), and the front end of a piston rod of the first sleeve hydraulic cylinder (10-6) is fixed with a fixed groove group (10-44) of the adjacent groove group (10-43); the second sleeve hydraulic cylinder (10-7) is arranged in the ground below the bathtub floor tile group (10-41) and is abutted against the adjacent groove group (10-43) below the bathtub floor tile group (10-41), and the front end of a piston rod of the second sleeve hydraulic cylinder (10-7) is fixed with the fixed groove group (10-44) of the adjacent groove group (10-43); the wall storage tank (10-8) is arranged inside the lower part of the inner wall of the hotel bathroom; the splicing base (10-9) is vertically stored in a wall storage groove (10-8) and is fixedly connected with the electric universal wheel (10-10); the electric universal wheels (10-10) are arranged at the bottom of the splicing base (10-9) and are connected with the splicing base (10-9); the built-in mechanical arm (10-11) is arranged at the inner position of the wall storage tank (10-8), is connected with the wall storage tank (10-8) and is fixed with the splicing base (10-9); the first electromagnetic group (10-12) is arranged on the upper surface of the splicing base (10-9) and connected with the splicing base (10-9); the longitudinal track group (10-13) is arranged inside the floor of the hotel bath room, is connected with the transverse track group (10-14) and is adjacent to the bathtub area; the transverse track group (10-14) is arranged inside the ground of the hotel bathroom, is connected with the longitudinal track group (10-13) and is adjacent to the shower area; the inward-turning type closing plates (10-15) are respectively arranged on the inner walls of the top ends of the longitudinal track groups (10-13) and the inner walls of the top ends of the transverse track groups (10-14);

the top end nursing mechanism (11) comprises a first protective groove (11-1), a second protective groove (11-2), an outward turning type closing plate (11-3), a traction unit (11-4) and a bath towel, wherein the first protective groove (11-1) is arranged inside the top end of a shower area of a hotel bathroom; the second protection groove (11-2) is arranged in the top end of the bathtub area of the hotel bathroom; the outward-turning type sealing plate (11-3) is respectively arranged at the front end of the first protection groove (11-1) and the front end of the second protection groove (11-2); the traction unit (11-4) comprises a rope electric lifter (11-40), a traction rope (11-41) and an electric fixing clamp (11-42), wherein the rope electric lifter (11-40) is respectively arranged at the bottom ends in the first protective groove (11-1) and the second protective groove (11-2) and is connected with the traction rope (11-41); the traction ropes (11-41) are respectively connected with the rope electric lifters (11-40) and the electric fixing clamps (11-42); the electric fixing clamps (11-42) are arranged at the front ends of the traction ropes (11-41), are connected with the traction ropes (11-41), and are fixed with the bath towel; the area of the bath towel is larger than that of the bathtub area and larger than that of the shower area;

the room controller (2) is arranged in a hotel room, is respectively connected with a warning button (10-3), a pressure sensor (10-5) positioned in an identification floor tile (10-1), a first sleeve hydraulic cylinder (10-6), a second sleeve hydraulic cylinder (10-7), a built-in mechanical arm (10-11), a flip-in type closing plate (10-15), a flip-out type closing plate (11-3), a rope electric lifter (11-40), an electric fixing clamp (11-42), an electric switch door of the hotel and bath room and an electric curtain of the hotel room, and is connected with a digital vibration sensor (10-2), a pressure sensor (10-5) positioned in a shower floor tile group (10-40) and a bathtub floor tile group (10-41), an electric universal wheel (10-10), and a digital vibration sensor (10-2), The first electromagnetic group (10-12) and the second electromagnetic group (10-46) are wirelessly connected;

the server (3) is arranged in a storage area for hotel planning and is respectively in wireless connection with the room controller (2) and external equipment of a hotel management department.

2. The intelligent hotel security nursing equipment as claimed in claim 1, wherein the nursing device (1) further comprises a hole and groove nursing mechanism (12), the hole and groove nursing mechanism (12) comprises a hidden type inner groove (12-1), a protective block (12-2), a third sleeve hydraulic cylinder (12-3), an isolation groove (12-4), a heating ring plate (12-5) and a fourth sleeve hydraulic cylinder (12-6), the hidden type inner groove (12-1) is arranged below the hole and groove existing in the hotel room; the protective block (12-2) is stored in the lower hidden type inner groove (12-1); the third sleeve hydraulic cylinder (12-3) is arranged at the bottom end in the lower hidden type inner groove (12-1) and is respectively connected with the lower hidden type inner groove (12-1), the protection block (12-2) and the affiliated room controller (2); the isolation groove (12-4) is arranged in the upper inner part of the protection block (12-2) and connected with the protection block (12-2); the heating ring plate (12-5) is arranged in the isolation groove (12-4) and is wirelessly connected with the room controller (2); the fourth sleeve hydraulic cylinder (12-6) is arranged in the isolation groove (12-4) and is respectively connected with the isolation groove (12-4), the heating ring plate (12-5) and the room controller (2).

3. The intelligent hotel safety nursing device according to claim 1, wherein the nursing device (1) further comprises a mirror nursing mechanism (13), the mirror nursing mechanism (13) comprises a mirror groove (13-1), a mirror rail set (13-2), an electric moving block (13-3), an electric rotating shaft (13-4) and a plane mirror (13-5), the mirror groove (13-1) is arranged inside a wall of an area where the plane mirror (13-5) is arranged in a hotel room; the mirror rail group (13-2) is respectively arranged at the top end inside the mirror groove (13-1) and the bottom end inside the mirror groove (13-1) and is connected with the mirror groove (13-1); the electric moving block (13-3) is arranged at the position of the mirror track group (13-2) and is in wireless connection with the room controller (2) to which the electric moving block belongs; the electric rotating shaft (13-4) is arranged in the front end of the electric moving block (13-3), is respectively connected with the electric moving block (13-3) and the plane mirror (13-5), and is wirelessly connected with the room controller (2); the plane mirror (13-5) is respectively and fixedly connected with the electric rotating shaft (13-4) above the inside of the mirror groove (13-1) and the electric rotating shaft (13-4) below the inside of the mirror groove (13-1).

4. The intelligent hotel security nursing equipment as claimed in claim 3, wherein the mirror nursing mechanism (13) further comprises an inner concealed coating tank and a coating nozzle (13-6), the inner concealed coating tank is stored in the inner wall of the mirror groove (13-1), is respectively connected with the mirror groove (13-1) and the coating nozzle (13-6), and stores mirror spraying materials; the coating nozzles (13-6) are arranged in the mirror grooves (13-1), are respectively connected with the mirror grooves (13-1) and the built-in coating tank, and are connected with the room controller (2).

5. The intelligent hotel security nursing equipment according to claim 1, wherein the nursing device (1) further comprises a camera nursing mechanism (14), the camera nursing mechanism (14) comprises a camera groove (14-1), a door moving groove (14-2), a manual telescopic door (14-3) and a camera group (14-4), and the camera groove (14-1) is arranged inside the wall of the open area of the hotel room; the door moving groove (14-2) is arranged in the front end of the inner wall of the camera groove (14-1), is connected with the camera groove (14-1) and is provided with a sliding rail; the manual type retractable door (14-3) is stored in a sliding rail position in the door moving groove (14-2) and is provided with a handle; the camera group (14-4) is stored in the camera groove (14-1) and connected with the room controller (2).

6. The intelligent hotel security nursing device according to claim 5, wherein the camera nursing mechanism (14) further comprises an interference switch (14-5), a fifth sleeve hydraulic cylinder (14-6) and a camera rotary shaft (14-7), the interference switch (14-5) is arranged at the bottom end inside the door moving slot (14-2) and is respectively connected with the door moving slot (14-2) and the corresponding room controller (2); the fifth sleeve hydraulic cylinder (14-6) is arranged in the camera groove (14-1) and is respectively connected with the camera groove (14-1), the camera rotating shaft (14-7) and the room controller (2) to which the fifth sleeve hydraulic cylinder (14-6) belongs; the camera shooting rotating shaft (14-7) is arranged at the front end position of a piston rod of the fifth sleeve hydraulic cylinder (14-6) and is respectively connected with the piston rod of the fifth sleeve hydraulic cylinder (14-6) and the camera group (14-4).

7. The intelligent hotel security nursing device according to claim 5, wherein the camera nursing mechanism (14) further comprises an inner hidden groove (14-8), an inner hidden display (14-9), a telescopic rod (14-10) and a manual rotating shaft (14-11), the inner hidden groove (14-8) is arranged in the wall below the camera groove (14-1); the built-in display (14-9) is stored in the built-in groove (14-8) and is wirelessly connected with the room controller (2); the telescopic rods (14-10) are arranged at the bottom end inside the concealed groove (14-8) and are respectively connected with the concealed groove (14-8) and the manual rotating shaft (14-11); the manual rotating shafts (14-11) are arranged at the front ends of the telescopic rods (14-10) and are respectively connected with the telescopic rods (14-10) and the built-in display (14-9).

8. An intelligent hotel security nursing method, using the intelligent hotel security nursing device of any one of claims 1 to 7, characterized in that the method comprises the following steps:

if the room controller (2) acquires pressure information fed back by the connected pressure sensor (10-5), analyzing the position of the pressure sensor (10-5) according to the pressure information;

if the room controller (2) determines that the position of the pressure sensor (10-5) is at the position of the identification floor tile (10-1) of the hotel bath room according to the pressure information, the ground vibration information fed back by the connected digital vibration sensor (10-2) in real time is acquired in real time, and the acquired ground vibration information is analyzed;

if the room controller (2) analyzes that a person falls down, a warning light-emitting signal is sent to a connected warning button (10-3) and the pressing information fed back by the warning button (10-3) is received in real time, and the warning button (10-3) starts to send warning light in real time according to the warning light-emitting signal and feeds back the pressing information to the room controller (2) after being pressed;

if the room controller (2) does not receive the pressing information fed back by the warning button (10-3) within the preset time, analyzing the falling position of the human body according to the obtained pressure information;

if the human body is analyzed to be located in the shower area, a first extension signal is sent to a connected first sleeve hydraulic cylinder (10-6), if the human body is analyzed to be located in the bathtub area, a second extension signal is sent to a connected second sleeve hydraulic cylinder (10-7), the first sleeve hydraulic cylinder (10-6) drives a connected shower floor tile group (10-40) to extend out for a set height according to the first extension signal and feeds back an extension completion signal to a room controller (2), and the second sleeve hydraulic cylinder (10-7) drives a connected bathtub floor tile group (10-41) to extend out for the set height according to the second extension signal and feeds back the extension completion signal to the room controller (2);

the room controller (2) sends a base splicing signal to the matched built-in mechanical arm (10-11) according to the extension completion signal and sends a protection opening signal to the matched outward-turning type sealing plate (11-3), the built-in mechanical arm (10-11) extends the fixed splicing base (10-9) to the position of the splicing area (10-45) of the shower floor tile group (10-40) or the bathtub floor tile group (10-41) according to the base splicing signal and enables the fixed splicing base (10-9) to rotate to be abutted against the splicing area (10-45), the outward-turning type sealing plate (11-3) outwards turns out and opens the first protective groove (11-1) or the second protective groove (11-2) according to the protection opening signal, and the built-in mechanical arm (10-11) feeds back the splicing completion signal to the room controller (2) and feeds back the outward-turning type sealing plate (11) 3) After completion, feeding back an opening completion signal to the room controller (2);

the room controller (2) sends an electromagnetic adsorption signal to a first electromagnetic group (10-12) and a second electromagnetic group (10-46) which are connected according to a splicing completion signal and sends a privacy protection signal to a rope electric lifter (11-40) which is connected according to a protection opening signal, the first electromagnetic group (10-12) and the second electromagnetic group (10-46) start to enter an electromagnetic adsorption state according to the electromagnetic adsorption signal and feed back an adsorption completion signal to the server (3), and the rope electric lifter (11-40) drives a traction rope (11-41) which is connected to extend out of a preset distance according to the privacy protection signal and feeds back a rope extension signal to the room controller (2);

the room controller (2) sends a complete contraction signal to a connected first sleeve hydraulic cylinder (10-6) or a connected second sleeve hydraulic cylinder (10-7) according to an adsorption completion signal and sends a release signal to a connected electric fixing clamp (11-42) according to a rope extension signal, the first sleeve hydraulic cylinder (10-6) or a second sleeve liquid drives a connected piston rod to be completely contracted according to the complete contraction signal to release the fixed connection with the connecting groove group and the fixing groove group (10-44), and the electric fixing clamp (11-42) releases the connection with the bath towel according to the release signal and feeds back a protection completion signal to the room controller (2);

the room controller (2) sends an opening signal to an electric switch door of a connected hotel bathroom and sends an inward opening signal to a connected inward-turning type closing plate (10-15) according to the protection completion signal, the electric switch door of the hotel bathroom enters an opening state according to the opening signal, the inward-turning type closing plate (10-15) is started according to the inward turning opening signal, a longitudinal track group (10-13) and/or a transverse track group (10-14) are/is opened in an inward rotating mode, and a track opening signal is sent to the room controller (2);

the room controller (2) sends a protection transportation signal to the connected electric universal wheels (10-10) according to the track opening signal and feeds back bound hotel room number information to the connected server (3), and the electric universal wheels (10-10) drive the connected splicing bases (10-9) to move the shower floor tile groups (10-40) or the bathtub floor tile groups (10-41) to the open area positions set by the hotel rooms through the longitudinal track groups (10-13) and/or the transverse track groups (10-14) according to the protection transportation signal;

and the server (3) transmits the received hotel room number information to the external equipment position of the connected hotel management department.

9. The intelligent hotel security care method according to claim 8, wherein after the room controller (2) analyzes the position of the pressure sensor (10-5) according to the pressure information, the method further comprises the steps of:

if the room controller (2) analyzes that the position of the pressure sensor (10-5) is the position of an identification floor tile (10-1) in a hotel room according to the pressure information, a backward movement signal is sent to a connected electric moving block (13-3), a mirror surface rotation signal is sent to a connected electric rotating shaft (13-4), and a privacy shielding signal is sent to a connected third sleeve hydraulic cylinder (12-3), the electric moving block (13-3) drives a connected electric rotating shaft (13-4) according to the backward movement signal to move a plane mirror (13-5) backward to the tail end position of a mirror rail group (13-2) in a mirror groove (13-1), the electric rotating shaft (13-4) drives the connected plane mirror (13-5) to rotate clockwise by a preset angle according to the mirror surface rotation signal and feeds back a mirror surface rotation completion signal to the room controller (2), the third sleeve hydraulic cylinder (12-3) drives the connected protection block (12-2) to extend out according to the privacy shielding signal and feeds back a shielding extending signal to the room controller (2);

the room controller (2) sends a mirror back coating signal to the connected coating nozzles (13-6) according to the mirror surface rotation completion signal and generates a privacy shielding signal to the connected fourth sleeve hydraulic cylinder (12-6) and the heating ring plate (12-5) according to the shielding extension signal, the coating spray head (13-6) sprays the spraying material stored in the built-in coating tank to the mirror back surface of the plane mirror (13-5) according to the mirror back coating signal and the set spraying track and feeds back a coating completion signal to the room controller (2) after the spraying track is finished, the fourth sleeve hydraulic cylinder (12-6) drives the connected heating ring plate (12-5) to be completely extended according to a privacy shielding signal, the heating ring plate (12-5) starts to heat to a preset temperature according to the privacy shielding signal;

the room controller (2) sends a reset signal to the connected electric moving block (13-3) according to the coating completion signal and sends a mirror surface reset signal to the connected electric rotating shaft (13-4), the electric moving block (13-3) drives the connected electric rotating shaft (13-4) to move the plane mirror (13-5) to the front end position of the mirror rail group (13-2) after the mirror groove (13-1) according to the reset signal, and the electric rotating shaft (13-4) drives the connected plane mirror (13-5) to rotate anticlockwise by a preset angle according to the mirror surface reset signal.

10. The intelligent hotel security care method according to claim 8, wherein after the room controller (2) analyzes the position of the pressure sensor (10-5) according to the pressure information, the method further comprises the steps of:

if the room controller (2) analyzes that the position of the pressure sensor (10-5) is the position of an identification floor tile (10-1) in a hotel room according to the pressure information, conflict information fed back by a connected conflict switch (14-5) is received in real time and an opening signal is sent to a connected built-in display (14-9), and the built-in display (14-9) is started to enter a display state according to the opening signal;

if the room controller (2) receives conflict information fed back by the conflict switch (14-5), sending a camera shooting extension signal to a connected fifth sleeve hydraulic cylinder (14-6), sending a privacy identification signal to a connected camera group (14-4) and sending a closing signal to a connected electric curtain of a hotel room, wherein the fifth sleeve hydraulic cylinder (14-6) drives a connected camera shooting rotating shaft (14-7) to fully extend the camera group (14-4) according to the camera shooting extension signal and feeds back a camera shooting extension completion signal to the room controller (2), the camera group (14-4) is started to enter an image shooting state according to the privacy identification signal, and the electric curtain moves to close a window of the hotel room according to the closing signal;

the room controller (2) sends a preset rotation signal to a connected camera shooting rotating shaft (14-7) according to a camera shooting extension completion signal and transmits an image shot by a camera in real time to a connected built-in display (14-9), and the camera shooting rotating shaft (14-7) drives a connected camera group (14-4) to rotate for a preset number of turns according to the preset rotation signal and feeds back an identification completion signal to the room controller (2) after the rotation is completed;

the room controller (2) sends a camera contraction signal to a connected fifth sleeve hydraulic cylinder (14-6), sends a closing signal to a connected camera group (14-4) and sends an opening signal to a connected electric curtain of the hotel room according to the identification completion signal, the fifth sleeve hydraulic cylinder (14-6) drives a connected camera rotating shaft (14-7) to completely contract the camera group (14-4) according to the camera contraction signal, the camera group (14-4) is closed according to the closing signal, and the electric curtain moves to open a window of the hotel room according to the opening signal.

Images