CN112030496A

CN112030496A - Automatic clothes drying power-off device and method for intelligent household electric fire bucket

Info

Publication number: CN112030496A
Application number: CN202010923539.XA
Authority: CN
Inventors: 游珠凤
Original assignee: Guangzhou Yixun Technology Co ltd
Current assignee: Guangzhou Yixun Technology Co ltd
Priority date: 2020-09-04
Filing date: 2020-09-04
Publication date: 2020-12-04

Abstract

The invention belongs to the technical field of intelligent home furnishing, and particularly relates to an automatic clothes drying power-off device and method for an electric fire bucket of the intelligent home furnishing. This intelligence house is automatic power-off device of stoving clothing and method for electric fire bucket, through setting up heating mechanism, it realizes at chilly winter to have reached through this mechanism, many users sit around the electric fire bucket box, lift both feet and put into a plurality of first holding tanks and keep warm together, and the respective both feet of many users can not take place the limb contact yet in the heating, in addition, the user is when keeping warm, make a round trip to slide both feet in first holding tank, the swivelling chute and the swivel ball contact that diapire set up in user's both feet bottom and the first holding tank, and then carry out sole roll massage to user's both feet, alleviate user's tired effect.

Description

Automatic clothes drying power-off device and method for intelligent household electric fire bucket

Technical Field

The invention relates to the technical field of intelligent home, in particular to an automatic power-off device and method for drying clothes for an electric fire bucket of the intelligent home.

Background

The fire barrel is called an electric fire box, an electric fire pot, a foot-operated warmer, a solid wood warmer and a solid wood electric heater, is a novel energy-saving warmer, overcomes the defects of slow heating, unstable heat source, oxygen absorption, smoke generation and easy fire initiation of the traditional fire box, and has the advantage of saving electricity by 80-90% compared with the traditional electric warmer and air conditioner.

Electric fire bucket is as ordinary house user's life requisite, often can play vital role winter, use electric fire bucket cost to be less than the air conditioner cost far away because of winter, make electric fire bucket more and more receive user's liking, but when using electric fire bucket heating winter, current electric fire bucket can only heat to one to two users simultaneously, at this moment, if a plurality of users heat through electric fire bucket simultaneously, then can receive the influence of current electric fire bucket heating area, make the user can't normally heat, and then easily influence user's heating experience, in addition, because of the sunny weather is less winter, make the user often dry with the help of electric fire bucket to undried dress clothing, but when drying undried dress clothing, in case improper use, will cause the conflagration to take place, and then there is very big potential safety hazard.

Therefore, an automatic clothes drying power-off device for an intelligent household electric fire bucket is provided.

Disclosure of Invention

Based on the technical problems that the existing electric fire bucket can only be used for heating one or two users at the same time, if a plurality of users are heated through the electric fire bucket at the same time, the heating area of the existing electric fire bucket can be influenced, so that the users cannot normally heat, and the heating experience of the users is easily influenced, the invention provides the automatic clothes drying power-off device and the method for the intelligent household electric fire bucket.

The invention provides an automatic clothes drying power-off device and method for an intelligent household electric fire bucket, wherein the automatic power-off device comprises an electric fire bucket, the electric fire bucket comprises a box body and a control body, supporting legs are uniformly distributed on the lower surface of the box body, a heating cavity is arranged in the box body, carbon fiber heating pipes are fixedly mounted on the front inner wall and the rear inner wall of the heating cavity, an automatic power-off mechanism is arranged in the box body, and the automatic power-off mechanism comprises a heating mechanism and a drying mechanism;

the heating mechanism comprises a first holding tank, and the first holding tank is arranged inside the box body;

the drying mechanism comprises a functional box;

the heating mechanism is used for converting electric energy into heat energy through the carbon fiber heating pipe and then transferring the heat energy to the inside of the function box, clothes placed in the function box are dried, and the drying mechanism controls the electric fire bucket to be automatically powered off after the drying is finished.

Preferably, carbon fiber heating pipe and control body electric connection, the material of supporting leg is made for silicon carbide ceramic material, and is a plurality of first holding tank uses the axis of box to be the annular array and distributes as the array center, the heating hole that is the distribution of rectangular array is seted up to the interior roof in heating chamber, and is a plurality of the interior roof in heating hole all link up and extend to four the interior diapire of first holding tank is a plurality of the swivelling chute that is the distribution of rectangular array is all seted up to the interior diapire of first holding tank.

Preferably, it is a plurality of the roating sphere has all been cup jointed to the inner wall of roating groove, and is a plurality of the spout that is the symmetric distribution is all seted up to the interior roof of first holding tank, and is a plurality of the spout uses two to be the equal fixed mounting of a set of interior roof to have electric telescopic handle, and is a plurality of electric telescopic handle uses two to be the equal fixedly connected with dustproof cloth of a set of lower surface, and is a plurality of the equal fixedly connected with counterweight ball of lower surface of dustproof cloth.

Preferably, it is a plurality of the counterweight ball use two as a set of all with the inner wall contact of spout, the equal fixedly connected with fixed plate of surface all around of box, the fixed plate is corresponding with first holding tank, the fixed plate is located the top of first holding tank, and is a plurality of the equal fixed mounting of lower surface of fixed plate has inductive switch, inductive switch and electric telescopic handle electric connection, the second holding tank has been seted up to the upper surface of box.

Preferably, the interior diapire of second holding tank all with a plurality of the fixed intercommunication of interior roof of first holding tank, the lower surface of function case is connected with the upper surface fixed of box, the fixed heat preservation that has connect of inner wall all around of function case.

Preferably, the inside of heat preservation is provided with expanded perlite, the antibiotic board has been cup jointed to the inner wall of heat preservation, the material of antibiotic board is made for silver silica gel material, the interior roof of second holding tank and the fixed intercommunication of inner wall of antibiotic board.

Preferably, the inner walls of the periphery of the antibacterial plate are fixedly connected with a grid net, the grid net is made of carbon fiber materials, the inner walls of the left side and the right side of the antibacterial plate are fixedly connected with clothes airing rods distributed in a rectangular array, and the surface of the right side of the functional box is fixedly connected with a smell removing box.

Preferably, an ozone generator is fixedly installed on the inner bottom wall of the odor removal box, a first air inlet pipe is fixedly communicated with the surface of the left side of the odor removal box, and the inner wall of the left side of the first air inlet pipe penetrates through the heat preservation layer and the antibacterial plate and then extends to the inner wall of the antibacterial plate.

Preferably, the fixed intercommunication of inner bottom wall of first intake pipe has the second intake pipe, the surface of second intake pipe is the L shape, the inner bottom wall of second intake pipe link up the inner wall that extends to the second holding tank behind heat preservation and the box, the apron has been cup jointed to the inner wall of antibiotic board, the last fixed surface of apron is connected with the handle, ozone generator and inductive switch all with control body electric connection, the back fixed mounting of function case has the induction box, the left side inner wall fixed mounting of induction box has single chip module, the back of induction box is fixed mounting respectively has display screen and starting switch, the back inner wall fixed mounting of antibiotic board has humidity transducer, humidity transducer and display screen, starting switch, single chip module, carbon fiber heating pipe all with control body electric connection.

Preferably, an operation method of the automatic sterilization and deodorization device for the household intelligent shoe cabinet is provided, which specifically comprises the following steps:

firstly, when a plurality of users get warm, the plurality of users take chairs to sit around the box body, take off the shoes to lift the feet at the four first holding grooves on the peripheral surface of the box body, after the induction switches arranged on the fixing plates on the peripheral surface of the box body sense the feet of the users, the electric telescopic rods are controlled to form a group of two electric telescopic rods to drive the dustproof cloth and the counterweight balls connected with the lower surfaces of the electric telescopic rods to do ascending motion on the inner wall of the sliding chute, at the moment, a plurality of users lift the feet into the first accommodating grooves to heat together, and the limbs of the feet of a plurality of users can not be contacted when the users get warm, in addition, when the users get warm, the feet slide back and forth in the first accommodating groove, so that the bottoms of the feet of the user are in contact with the rotating groove and the rotating ball arranged on the bottom wall in the first accommodating groove, the feet of the user are subjected to rolling massage, and the fatigue of the user is relieved;

secondly, drying clothes, firstly, a user holds the handle to lift the cover plate to separate the peripheral outer surface of the cover plate from the peripheral inner wall of the antibacterial plate, secondly, the user lays the clothes to be dried on the grid net and the clothes-drying rods, the cover plate is covered after the clothes are placed, the user rotates a rotary switch of a control body on the electric fire bucket and presses a starting switch on the induction box, the rotary switch of the control body controls a carbon fiber heating pipe and an ozone generator to be started, the starting switch controls a humidity sensor, a singlechip module and a display screen to be electrified, the carbon fiber heating pipe starts heating work, heat generated by the carbon fiber heating pipe work, namely heating holes, a first holding tank, a second holding tank, the antibacterial plate, dries and dehumidifies the clothes on the grid net and the clothes-drying rods, and when the humidity sensor detects that the humidity on the grid net and the clothes-drying rods, humidity transducer passes to the single chip module with the signal, sends for the display screen display shows the humidity value after single chip module handles on one side, controls the control body auto-power-off on the electric fire bucket on one side, sets up the ozone that ozone generator work produced and disinfects, removes the peculiar smell through the inside of first intake pipe and second intake pipe to antibiotic board, first holding tank and second holding tank.

Preferably be equipped with the bacterium detection module on antibiotic board, first holding tank and the second holding tank respectively, the bacterium detection module is used for detecting bacterium quantity p on antibiotic board, first holding tank and the second holding tank_iThe bacteria detection module transmits the detected data to the control body in real time:

the control body controls the ozone generator to disinfect and remove peculiar smell in the following modes:

step A1, the bacteria detection module counts the number P of bacteria passing through the antibacterial plate by the following preset algorithm_x：

P_x＝p_i*a*b*t

Wherein p is_iThe number of bacteria detected on the antibacterial plate in unit cross-sectional area and unit time is a and b are respectively the length and width of the antibacterial plate, and t is unit time;

the bacteria detection module counts the number P of bacteria passing through the first accommodating groove and the second accommodating groove through the following preset algorithm_yθ：

P_yθ＝p_jθ*c_θ*d_θ*h_θ*t

Wherein P is_yθFor the bacterial count that detects in unit volume and unit interval on first holding tank and the second holding tank, the value of theta is 1 and 2, represents respectivelyA first accommodation groove (6) and a second accommodation groove, c_θ、d_θAnd h_θThe length, the money and the height of the first accommodating groove and the second accommodating groove are respectively, and t is unit time;

then detect the average value of the bacterium quantity on antibiotic board, first holding tank and the second holding tank and be:

step A2, calculating the ozone yield E (p) of the ozone generator by the following preset algorithm:

wherein E (p) is the ozone production in g/m³C is the concentration of ozone, V is the volume of the sterilization space, S is the half-decay period of ozone, the 1-hour decay rate is 62.25 percent,

step A3, the control body controls the time T of the sterilization and disinfection of the ozone generator through the following preset algorithm:

wherein, the lambda is an ozone sterilization efficiency influence factor, the selection range of the influence factor is 80 to 85 percent,

when the sterilizing time of the antibacterial plate, the first accommodating groove and the second accommodating groove meets the requirement, the control body controls the ozone generator to be closed to stop sterilizing.

The beneficial effects of the invention are as follows:

1. by arranging the heating mechanism, a plurality of users can sit around the electric fire bucket box body and lift the feet into a plurality of first holding tanks to heat together in cold winter, and the limbs of the feet of a plurality of users can not be contacted when the users get warm, in addition, when the users get warm, the feet slide back and forth in the first containing groove, so that the bottoms of the feet of the user contact with the rotating groove and the rotating ball arranged on the bottom wall in the first containing groove, thereby further performing sole rolling massage on the feet of the user, relieving the fatigue of the user, solving the problem that the existing electric fire bucket can only heat one or two users at the same time, and at the moment, if a plurality of users heat through the electric fire bucket at the same time, then can receive the influence of current electric fire bucket heating area for the user can't normally keep warm, and then easily influences the problem that user's heating was experienced.

2. Through the arrangement of the drying mechanism, the mechanism realizes that a user rotates a rotary switch of a control body on the electric fire bucket and presses a starting switch on the induction box, the rotary switch of the control body controls the carbon fiber heating pipe and the ozone generator to start, the starting switch controls the electrification of the humidity sensor, the single chip microcomputer module and the display screen, the carbon fiber heating pipe starts heating work, the heat generated by the carbon fiber heating pipe work, namely a heating hole, a first holding tank, a second holding tank, an antibacterial plate, clothes on the grid net and the clothes on the clothes drying rods are dried and dehumidified, when the humidity sensor detects that the humidity on the clothes on the grid net and the clothes drying rods is lower than the set value of the humidity sensor, the humidity sensor transmits signals to the single chip microcomputer module, the signals are processed by the single chip microcomputer module and then transmitted to the display screen to display the humidity value, and, the effect of avoiding taking place the conflagration has been solved because of the sunny weather is less in winter for the user often dries with the help of the electric spark bucket to undried dress clothing, nevertheless when drying undried dress clothing, in case of improper use, will cause the conflagration to take place, and then has the problem of very big potential safety hazard.

3. The inner bottom wall fixed mounting who removes the flavor case through the setting has ozone generator, has reached and has disinfected, has removed the peculiar smell through the inside of first intake pipe and second intake pipe to antibiotic board, first holding tank and second holding tank with ozone generator work production, prevents to dry the clothing surface of accomplishing and has the effect of peculiar smell, has solved current electric fire bucket and is accomplishing the back to undried clothing stoving, and the clothing surface often has the problem of peculiar smell.

Drawings

FIG. 1 is a schematic diagram of an automatic power-off device and method for drying clothes for an electric fire bucket of an intelligent home;

FIG. 2 is an enlarged view of a structure at the position A in FIG. 1 of an automatic power-off device and method for drying clothes for an electric fire bucket of an intelligent home;

FIG. 3 is a sectional view of a box structure of an automatic power-off device and method for drying clothes for an electric fire bucket of an intelligent home;

FIG. 4 is an enlarged view of a structure at B in FIG. 3 of an automatic power-off device and method for drying clothes for an electric fire bucket of an intelligent home;

FIG. 5 is a perspective view of a functional box structure of an automatic power-off device and method for drying clothes for an electric fire bucket of an intelligent home;

FIG. 6 is a top view of a box structure of an automatic power-off device and method for drying clothes for an electric fire bucket of an intelligent home;

FIG. 7 is a right side view of a functional box structure of an automatic power off device and method for drying clothes for an electric fire bucket of an intelligent home;

fig. 8 is a sectional view of a sensing box structure of an automatic power-off device and method for drying clothes for an intelligent household electric fire bucket.

In the figure: 1. a box body; 2. a control body; 3. supporting legs; 4. a heating cavity; 5. a carbon fiber heating pipe; 6. a first accommodating groove; 61. a rotating tank; 62. rotating the ball; 63. a chute; 64. an electric telescopic rod; 65. a dust cloth; 66. a counterweight ball; 67. a fixing plate; 68. an inductive switch; 69. a second accommodating groove; 7. a function box; 71. a heat-insulating layer; 72. an antibacterial plate; 73. a grid net; 74. a clothes-horse; 75. a deodorizing box; 76. an ozone generator; 77. a first intake pipe; 78. a second intake pipe; 79. a cover plate; 710. a handle; 711. an induction box; 712. a single chip module; 713. a humidity sensor; 714. a display screen; 715. starting a switch; 8. a heating hole.

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.

Referring to fig. 1-8, an automatic clothes drying power-off device and method for an intelligent household electric fire bucket comprises an electric fire bucket, wherein the electric fire bucket comprises a box body 1 and a control body 2, supporting legs 3 are uniformly distributed on the lower surface of the box body 1, a heating cavity 4 is formed in the box body 1, carbon fiber heating pipes 5 are fixedly mounted on the front inner wall and the rear inner wall of the heating cavity 4, an automatic power-off mechanism is arranged in the box body 1, and the automatic power-off mechanism comprises a heating mechanism and a drying mechanism;

the heating mechanism comprises a first holding tank 6, and the first holding tank 6 is arranged inside the box body 1;

the drying mechanism comprises a functional box 7;

the heating mechanism is used for converting electric energy into heat energy through the carbon fiber heating pipe 5, then the heat energy is transferred to the inside of the functional box 7, clothes placed in the inside of the functional box 7 are dried, and the drying mechanism controls the electric fire bucket to be automatically powered off after the drying is completed.

Further, carbon

fiber heating pipe

5 and 2 electric connection of control body, the material of supporting leg 3 is made for silicon carbide ceramic material, a plurality of first holding tanks 6 use the axis of box 1 to be annular array distribution as the array center, the heating hole 8 that is rectangular array distribution is seted up to the interior roof of heating chamber 4, the interior roof in a plurality of heating holes 8 all link up and extend to the interior diapire of four first holding tanks 6, the swivelling chute 61 that is rectangular array distribution is all seted up to the interior diapire of a plurality of first holding tanks 6.

Further, the roating sphere 62 has all been cup jointed to the inner wall of a plurality of roating grooves 61, and the spout 63 that is the symmetric distribution is all seted up to the interior roof of a plurality of first holding tanks 6, and a plurality of spouts 63 use two to have electric telescopic handle 64 for the equal fixed mounting of a set of interior roof, and a plurality of electric telescopic handle 64 use two to be the equal fixedly connected with dustproof cloth 65 of a set of lower surface, the equal fixedly connected with counter weight ball 66 of lower surface of a plurality of dustproof cloth 65.

Further, a plurality of counter weight balls 66 use two to be a set of all with the inner wall contact of spout 63, the equal fixedly connected with fixed plate 67 of surface all around of box 1, fixed plate 67 is corresponding with first holding tank 6, fixed plate 67 is located the top of first holding tank 6, the equal fixed mounting of lower surface of a plurality of fixed plates 67 has inductive switch 68, inductive switch 68 and electric telescopic handle 64 electric connection, second holding tank 69 has been seted up to the upper surface of box 1.

Further, the inner bottom wall of second holding tank 69 all communicates with the interior roof of a plurality of first holding tanks 6 is fixed, and the lower surface of function box 7 is connected with the last fixed surface of box 1, and the fixed heat preservation 71 that has cup jointed of inner wall all around of function box 7.

Further, the inside of heat preservation 71 is provided with expanded perlite, and the fixed antibiotic board 72 that has cup jointed of inner wall of heat preservation 71, antibiotic board 72's material are made for silver silica gel material, and the interior roof of second holding tank 69 and the fixed intercommunication of inner wall of antibiotic board 72.

Further, inner wall fixedly connected with grid net 73 all around of antibiotic board 72, the material of grid net 73 is made for carbon fiber material, and the equal fixedly connected with of the left side inner wall of antibiotic board 72 and the right side inner wall is clothes-horse 74 that the rectangle array distributes, and the right side fixed surface of function case 7 is connected with removes flavor case 75.

Further, an ozone generator 76 is fixedly installed on the inner bottom wall of the odor removing box 75, a first air inlet pipe 77 is fixedly communicated with the left side surface of the odor removing box 75, and the left inner wall of the first air inlet pipe 77 penetrates through the heat insulation layer 71 and the antibacterial plate 72 and then extends to the inner wall of the antibacterial plate 72.

Further, a second air inlet pipe 78 is fixedly communicated with the inner bottom wall of the first air inlet pipe 77, the surface of the second air inlet pipe 78 is in an L shape, the inner bottom wall of the second air inlet pipe 78 penetrates through the heat insulation layer 71 and the box body 1 and then extends to the inner wall of the second accommodating groove 69, a cover plate 79 is sleeved on the inner wall of the antibacterial plate 72, a handle 710 is fixedly connected with the upper surface of the cover plate 79, the ozone generator 76 and the induction switch 68 are both electrically connected with the control body 2, an induction box 711 is fixedly installed on the back surface of the function box 7, a single chip microcomputer module 712 is fixedly installed on the inner wall of the left side of the induction box 711, a display screen 714 and a starting switch 715 are respectively and fixedly installed on the back surface of the induction box 711, a humidity sensor 713, a display screen 714 and a starting, the single chip module 712 and the carbon fiber heating pipe 5 are electrically connected with the control body 2.

By arranging the heating mechanism, a plurality of users sit around the electric fire bucket box body 1 and lift the feet into the first holding tanks 6 to heat together in cold winter, and the limbs of the feet of a plurality of users can not be contacted when the users get warm, in addition, when the users get warm, the feet slide back and forth in the first accommodation groove 6, so that the bottoms of the feet of the user contact with the rotary groove 61 and the rotary ball 62 arranged on the inner bottom wall of the first accommodation groove 6, thereby further performing sole rolling massage on the feet of the user, relieving the fatigue of the user, solving the problem that the existing electric fire bucket can only heat one or two users at the same time, and at the moment, if a plurality of users heat through the electric fire bucket at the same time, then can receive the influence of current electric fire bucket heating area for the user can't normally keep warm, and then easily influences the problem that user's heating was experienced.

By arranging the drying mechanism, the mechanism is realized that a user rotates a rotary switch of the control body 2 on the electric fire bucket and presses a starting switch 715 on the induction box 711, the rotary switch of the control body 2 controls the carbon fiber heating pipe 5 and the ozone generator 76 to start, the starting switch 715 controls the humidity sensor 713, the singlechip module 712 and the display screen 714 to be electrified, the carbon fiber heating pipe 5 starts heating work, heat generated by the work of the carbon fiber heating pipe 5, namely a heating hole 8, a first holding tank 6, a second holding tank 69, the antibacterial plate 72, dries and dehumidifies clothes on the grid mesh 73 and the clothes drying rods 74, when the humidity sensor 713 detects that the humidity on the clothes on the grid mesh 73 and the clothes drying rods 74 is lower than the set value of the humidity sensor 713, the humidity sensor 713 transmits a signal to the singlechip module 712, and the signal is processed by the singlechip module 712 and then is transmitted to the display screen to display, on one hand, the control body 2 on the electric fire bucket is controlled to automatically power off, so that the effect of fire hazard is avoided, and the problem that the fire hazard is caused and the problem that the potential safety hazard is very large is solved because of less sunny weather in winter, so that a user often dries undried worn clothes by means of the electric fire bucket, but when the undried worn clothes are dried, the fire hazard is caused once the electric fire bucket is improperly used.

The inner bottom wall of the odor removal box 75 is fixedly provided with the ozone generator 76, so that the ozone generated by the operation of the ozone generator 76 can be used for disinfecting the antibacterial plate 72, the inside of the first accommodating groove 6 and the inside of the second accommodating groove 69 and removing odor through the first air inlet pipe 77 and the second air inlet pipe 78, the effect of odor on the surface of clothes after drying is prevented, and the problem that the surface of the clothes often has odor after the drying of the undried clothes is finished by the conventional electric fire bucket is solved.

The working principle is as follows: firstly, when a plurality of users get warm, the users take chairs to sit around a box body 1, take off the shoes to lift the feet firstly at four first containing grooves 6 on the surface of the box body 1, after induction switches 68 arranged on a fixing plate 67 on the surface of the periphery of the box body 1 induce the feet of the users, control a plurality of electric telescopic rods 64 to take two as a group to drive dustproof cloth 65 and counterweight balls 66 connected with the lower surface of the electric telescopic rods 64 to do ascending motion on the inner wall of a sliding groove 63, at the moment, the users lift the feet into the first containing grooves 6 to warm together, and the feet of the users do not contact with limbs when warming, in addition, when the users slide the feet back and forth in the first containing grooves 6, so that the bottoms of the feet of the users contact with a rotary groove 61 and a rotary ball 62 arranged on the inner bottom wall of the first containing grooves 6, and further carry out rolling massage on the feet of the users, relieving fatigue of the user;

step two, drying the clothes, firstly, the user holds the handle 710 to lift the cover plate 79 to separate the peripheral outer surface of the cover plate 79 from the peripheral inner wall of the antibacterial plate 72, secondly, the user lays the clothes to be dried on the grid mesh 73 and the plurality of clothes drying rods 74, the cover plate 79 is covered after the clothes are placed, the user rotates the rotary switch of the control body 2 on the electric fire bucket and presses the starting switch 715 on the induction box 711 to control the rotary switch of the control body 2 to control the carbon fiber heating pipe 5 and the ozone generator 76 to start, the starting switch 715 controls the humidity sensor 713, the singlechip module 712 and the display screen 714 to be electrified, the carbon fiber heating pipe 5 starts heating work, the heat generated by the carbon fiber heating pipe 5 work, namely the heating hole 8, the first holding tank 6, the second holding tank 69, the antibacterial plate 72, dries and dehumidifies the clothes on the grid mesh 73 and the, when the humidity sensor 713 detects that the humidity on the clothes on the grid net 73 and the clothes drying rods 74 is lower than the set value of the humidity sensor 713, the humidity sensor 713 transmits a signal to the single chip microcomputer module 712, the signal is processed by the single chip microcomputer module 712 and then is transmitted to the display screen 714 to display the humidity value, the control body 2 on the electric fire bucket is controlled to be automatically powered off, and the ozone generated by the operation of the ozone generator 76 is arranged to disinfect and remove peculiar smell in the antibacterial plate 72, the first accommodating groove 6 and the second accommodating groove 69 through the first air inlet pipe 77 and the second air inlet pipe 78.

Preferably, in order to realize the intelligent control of the sterilization condition of the ozone generator 76, bacteria detection modules are respectively arranged on the antibacterial plate 72, the first holding tank 6 and the second holding tank 69 and are used for detecting the bacteria number p on the antibacterial plate 72, the first holding tank 6 and the second holding tank 69_iThe bacteria detection module transmits the detected data to the control body 2 in real time:

the control body 2 controls the ozone generator 76 to disinfect and remove peculiar smell in the following ways:

step a1, the bacteria detection module counts the number P of bacteria passing through the antibacterial plate 72 by the following preset algorithm_x：

P_x＝p_i*a*b*t

Wherein p is_iA and b are the length and width of the antibacterial plate 72, respectively, and t is the unit time, the number of bacteria detected on the antibacterial plate 72 per unit cross-sectional area and per unit time;

the bacteria detecting module counts the number of bacteria P passing through the first and second receiving

grooves

6 and 69 by the following preset algorithm_yθ：

P_yθ＝p_jθ*c_θ*d_θ*h_θ*t

Wherein P is_yθFor the bacterial count that detects in unit volume and unit interval on first holding tank 6 and the second holding tank 69, the value of theta is 1 and 2, represents first holding tank 6 and second holding tank 69 respectively, c_θ、d_θAnd h_θThe length, the money and the height of the first accommodating groove 6 and the second accommodating groove 69, respectively, t is unit time;

the average value of the number of bacteria on the detection antibiotic plate 72, the first containing groove 6 and the second containing groove 69 is:

step A3, the control body 2 controls the time T of the sterilization and disinfection of the ozone generator through the following preset algorithm:

when the sterilizing time of the antibacterial plate 72, the first accommodating groove 6 and the second accommodating groove 69 meets the requirement, the control body 2 controls the ozone generator to be closed to stop sterilizing.

The working principle and the beneficial effects of the technical scheme are as follows: set up the bacterium detection module respectively at antibiotic board 72, in first holding tank 6 and the second holding tank 69, can be to antibiotic board 72, the bacterium of first holding tank 6 and second holding tank 69 and circumstances such as peculiar smell carry out comparatively accurate assurance, seek the average value of three local bacterium quantity according to predetermined algorithm again, can reach comprehensive condition and predict, calculate according to ozone generator's ozone output again, calculate the sterilization time of needs through ozone output, accurate control is carried out to the rethread control body, intelligent degree has been improved, both realized disinfecting fast, the waste that ozone sterilization time overlength caused has been avoided again, and the multifunctional vacuum cleaner has high practicality.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides an intelligence house electric fire bucket is with stoving clothing auto-power-off device, includes electric fire bucket, its characterized in that: the electric fire bucket is composed of a box body (1) and a control body (2), supporting legs (3) are uniformly distributed on the lower surface of the box body (1), a heating cavity (4) is formed in the box body (1), carbon fiber heating pipes (5) are fixedly mounted on the front inner wall and the rear inner wall of the heating cavity (4), an automatic power-off mechanism is arranged in the box body (1), and the automatic power-off mechanism comprises a heating mechanism and a drying mechanism;

the heating mechanism comprises a first accommodating groove (6), and the first accommodating groove (6) is arranged in the box body (1);

the drying mechanism comprises a functional box (7);

the heating mechanism is used for converting electric energy into heat energy through the carbon fiber heating pipe (5), then transferring the heat energy to the inside of the function box (7), drying clothes placed in the function box (7), and controlling the electric fire barrel to be automatically powered off by the drying mechanism after the drying is finished.

2. The intelligent household automatic clothes drying power-off device for the electric fire bucket is characterized in that: carbon fiber heating pipe (5) and control body (2) electric connection, the material of supporting leg (3) is made for silicon carbide ceramic material, and is a plurality of first holding tank (6) use the axis of box (1) to be the annular array and distribute as the array center, heating chamber (4) interior roof is seted up and is heating hole (8) that the rectangle array distributes, and is a plurality of the interior roof of heating hole (8) all link up and extend to four the inner bottom wall of first holding tank (6), it is a plurality of the inner bottom wall of first holding tank (6) is all seted up and is swivelling chute (61) that the rectangle array distributes.

3. The intelligent household automatic clothes drying power-off device for the electric fire bucket is characterized in that: it is a plurality of rotatory ball (62) have all been cup jointed to the inner wall of swivelling chute (61), and are a plurality of spout (63) that are the symmetric distribution are all seted up to the interior roof of first holding tank (6), and are a plurality of spout (63) use two to have electric telescopic handle (64) for the equal fixed mounting of a set of interior roof, and are a plurality of electric telescopic handle (64) use two to be a set of equal fixedly connected with dustproof cloth (65) of lower surface, and are a plurality of the equal fixedly connected with counterweight ball (66) of lower surface of dustproof cloth (65).

4. The intelligent household automatic clothes drying power-off device for the electric fire bucket is characterized in that: the two counterweight balls (66) form a group and are in contact with the inner wall of the sliding groove (63), fixing plates (67) are fixedly connected to the outer surfaces of the periphery of the box body (1), the fixing plates (67) correspond to the first accommodating groove (6), the fixing plates (67) are located above the first accommodating groove (6), induction switches (68) are fixedly mounted on the lower surfaces of the fixing plates (67), the induction switches (68) are electrically connected with the electric telescopic rod (64), and second accommodating grooves (69) are formed in the upper surface of the box body (1);

the interior diapire of second holding tank (69) all with a plurality of the fixed intercommunication of interior roof of first holding tank (6), the lower surface of function box (7) is connected with the upper surface fixed of box (1), the fixed cover of inner wall all around of function box (7) has connect heat preservation (71).

5. The intelligent household automatic clothes drying power-off device for the electric fire bucket is characterized in that: the inside of heat preservation (71) is provided with expanded perlite, antibiotic board (72) have been cup jointed to the inner wall of heat preservation (71), the material of antibiotic board (72) is made for silver silica gel material, the interior roof of second holding tank (69) and the fixed intercommunication of inner wall of antibiotic board (72).

6. The intelligent household automatic clothes drying power-off device for the electric fire bucket is characterized in that: inner wall fixedly connected with grid net (73) all around of antibiotic board (72), the material of grid net (73) is made for carbon fiber material, the equal fixedly connected with of left side inner wall and the right side inner wall of antibiotic board (72) is clothes-horse (74) that the rectangular array distributes, the right side fixed surface of function case (7) is connected with removes flavor case (75).

7. The intelligent household automatic clothes drying power-off device for the electric fire bucket is characterized in that: an ozone generator (76) is fixedly installed on the inner bottom wall of the smell removing box (75), a first air inlet pipe (77) is fixedly communicated with the left side surface of the smell removing box (75), and the inner wall of the left side of the first air inlet pipe (77) penetrates through the heat insulating layer (71) and the antibacterial plate (72) and then extends to the inner wall of the antibacterial plate (72).

8. The intelligent household automatic clothes drying power-off device for the electric fire bucket is characterized in that: the inner bottom wall of the first air inlet pipe (77) is fixedly communicated with a second air inlet pipe (78), the surface of the second air inlet pipe (78) is L-shaped, the inner bottom wall of the second air inlet pipe (78) penetrates through the heat preservation layer (71) and the inner wall of the box body (1) and then extends to the inner wall of the second accommodating groove (69), the inner wall of the antibacterial plate (72) is sleeved with a cover plate (79), the upper surface of the cover plate (79) is fixedly connected with a handle (710), the ozone generator (76) and the induction switch (68) are both electrically connected with the control body (2), the back of the functional box (7) is fixedly provided with an induction box (711), the left inner wall of the induction box (711) is fixedly provided with a display screen (714) and a starting switch (715), the back of the induction box (711) is respectively and fixedly provided with a humidity sensor (713), the humidity sensor (713), the display screen (714), the starting switch (715), the single chip microcomputer module (712) and the carbon fiber heating pipe (5) are electrically connected with the control body (2).

9. The operation method of the automatic power-off device for the dried clothes for the intelligent household electric fire bucket according to any one of claims 1 to 8 is characterized by comprising the following steps:

firstly, when a plurality of users get warm, the users take chairs and sit around a box body (1), take off the shoes to lift the feet and put the feet at four first containing grooves (6) on the surface of the box body (1), after induction switches (68) arranged on a fixed plate (67) on the surface of the box body (1) sense the feet of the users, a plurality of electric telescopic rods (64) are controlled to take two as a group to drive dustproof cloth (65) connected with the lower surface of the electric telescopic rods (64) and counterweight balls (66) to do ascending motion on the inner wall of a sliding groove (63), at the moment, the users lift the feet into the first containing grooves (6) to carry out warming together, and the feet of the users can not contact with limbs while warming, in addition, when the users get warm, the feet slide back and forth in the first containing grooves (6), so that the bottoms of the feet of the users contact with a rotating groove (61) and a rotating ball (62) arranged on the inner bottom wall of the first containing grooves (6), thereby carrying out sole rolling massage on the feet of the user and relieving the fatigue of the user;

step two, drying clothes, firstly, a user holds the handle (710) to lift the cover plate (79) to separate the peripheral outer surface of the cover plate (79) from the peripheral inner wall of the antibacterial plate (72), secondly, the user lays the clothes to be dried on the grille net (73) and the multiple clothes drying rods (74), after the clothes are placed, the cover plate (79) is covered, the user rotates a rotary switch of the control body (2) on the electric fire bucket and presses a starting switch (715) on the induction box (711), the rotary switch of the control body (2) controls the carbon fiber heating pipe (5) and the ozone generator (76) to be started, the starting switch (715) controls the humidity sensor (713), the singlechip module (712) and the display screen (714) to be electrified, the carbon fiber heating pipe (5) starts to work, and heat generated by the work of the carbon fiber heating pipe (5) -the heating hole (8) -the first accommodating groove (6) -the second accommodating groove (69) -the antibacterial plate (72) -the grille net (713) -is electrified 73) And clothes on the clothes drying rods (74) are dried and dehumidified, when the humidity sensors (713) detect that the humidity on the grid net (73) and the clothes on the clothes drying rods (74) is lower than the set value of the humidity sensors (713), the humidity sensors (713) transmit signals to the single chip microcomputer module (712), the signals are processed by the single chip microcomputer module (712) and then transmitted to the display screen (714) to display the humidity value, the control body (2) on the electric fire bucket is controlled to automatically power off, and ozone generated by the operation of the ozone generator (76) is arranged to disinfect and deodorize the interiors of the antibacterial plate (72), the first accommodating groove (6) and the second accommodating groove (69) through the first air inlet pipe (77) and the second air inlet pipe (78).

10. The operation method of the automatic power-off device for drying clothes for the intelligent household electric fire bucket according to claim 9,

be equipped with the bacterium detection module on antibiotic board (72), first holding tank (6) and second holding tank (69) respectively, the bacterium detection module is used for detecting bacterium quantity p on antibiotic board (72), first holding tank (6) and second holding tank (69)_iThe bacteria detection module transmits the detected data to the control body (2) in real time:

the control body (2) controls the ozone generator (76) to disinfect and remove peculiar smell in the following modes:

step A1, the bacteria detection module counts the number P of bacteria passing through the antibacterial plate (72) by the following preset algorithm_x：

P_x＝p_i*a*b*t

Wherein p is_iThe number of bacteria detected on the antibacterial plate (72) in unit cross-sectional area and unit time is a, b is the length and width of the antibacterial plate (72) respectively, and t is unit time;

the bacteria detection module counts the number P of bacteria passing through the first holding tank (6) and the second holding tank (69) by the following preset algorithm_yθ：

P_yθ＝p_jθ*c_θ*d_θ*h_θ*t

Wherein P is_yθFor the bacterial count that detects in unit volume and unit interval on first holding tank (6) and second holding tank (69), the value of theta is 1 and 2, represents first holding tank (6) and second holding tank (69) respectively, c_θ、d_θAnd h_θThe length, the money and the height of the first accommodating groove (6) and the second accommodating groove (69) are respectively, and t is unit time;

the average value of the number of bacteria detected on the antimicrobial plate (72), the first holding tank (6), and the second holding tank (69) is:

step A3, the control body (2) controls the time T of the sterilization and disinfection of the ozone generator through the following preset algorithm:

when the sterilizing time of the antibacterial plate (72), the first accommodating groove (6) and the second accommodating groove (69) meets the requirement, the control body (2) controls the ozone generator to be closed to stop sterilizing.