CN111803661A

CN111803661A - Working method of sterilizing lamp system for wardrobe

Info

Publication number: CN111803661A
Application number: CN202010613679.7A
Authority: CN
Inventors: 朱从文; 吕鹤男; 胡聪; 吴芳明; 黄灿明; 杨艳春; 刘玉生
Original assignee: Guangzhou Ledia Lighting Co Ltd
Current assignee: Guangzhou Ledia Lighting Co Ltd
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2020-10-23
Anticipated expiration: 2040-06-30
Also published as: CN111803661B

Abstract

The invention provides a working method of a sterilizing lamp system for a wardrobe, wherein the sterilizing lamp system for the wardrobe comprises an MCU control board, a human body sensor, a signal controller and a sterilizing lamp arranged in the wardrobe, a) a starting switch is turned on, and an infrared transmitting tube and an infrared receiving tube start to work; b) when the wardrobe doors are closed simultaneously, infrared rays emitted by the infrared emission tube are reflected to the infrared receiving tube through the reflection layer, when the infrared receiving tube receives the infrared rays, whether a person exists in the wardrobe is detected through the human body sensor, if the person exists, the signal controller gives a signal to the MCU control panel to control the germicidal lamp to stop working, and if the person does not exist, the signal controller gives a signal to the MCU control panel to control the germicidal lamp to work to sterilize articles in the wardrobe; if the wardrobe door is in a non-closed state, the sterilizing lamp does not work.

Description

Working method of sterilizing lamp system for wardrobe

Technical Field

The invention relates to the technical field of sterilizing wardrobes, in particular to a working method of a sterilizing lamp system for a wardrobe.

Background

Furniture is an essential appliance for human beings to maintain normal life, engage in production practice and develop social activities. The furniture is continuously developed and innovated following the foot steps of the times, and the door is various in types, different in materials, complete in variety and different in purposes. Is one of the indispensable parts of family life. The furniture is composed of four factors of materials, structures, appearance forms and functions, wherein the functions are the leading factors and the power for promoting the development of the furniture; the structure is a backbone and is the basis for realizing the functions. These four factors are interrelated and restrictive. Furniture also has material and appearance form factors, as it is designed and manufactured to meet certain material needs and use purposes. The appearance form of the furniture is used as the external representation of the function and also has the recognition function, thereby having information transmission and symbol meaning; and the aesthetic function of the fabric can be exerted, so that a certain emotional atmosphere is generated, a certain artistic effect is formed, and the aesthetic enjoyment is brought to people. For the present society, the clothing is a necessary article for everyone to decorate and protect the person, can give the person and the family, and is not only a wear, but also an identity, a life attitude and a performance for showing personal charm. The clothes can protect human body and maintain the heat balance of human body so as to adapt to the influence of climate change. At present, along with the increasing living standard, people have more and more clothes, so the wardrobe is also one of the necessary furniture for families.

The patent document with the Chinese patent application number of CN201810683398.1 and the bulletin date of 2018.11.16 discloses an economical intelligent sterilization and dehumidification wardrobe, a wardrobe door is set to be fingerprint unlocking and password unlocking, a display screen for password unlocking is arranged at the upper end of the wardrobe, children are prevented from opening the wardrobe door to enter the wardrobe, the ultraviolet sterilization lamp harms the children during sterilization, if the children unintentionally enter the wardrobe, an infrared sensor can sense the existence of the children, and at the moment, a PLC controller controls ultraviolet rays to stop sterilization; set up the on-time of sterilamp and heating bulb at every turn through display screen and digital keyboard array, and remember through memory cell, when putting the clothing at every turn, pressure sensors can give PLC controller with signal transmission, PLC controller control sterilamp and heating bulb are opened, close once more after the time reaches the default, avoid the waste to the resource, if the clothes is placed for a long time or the dehumidification is not thorough, humidity reaches humidity inductor's default, sterilamp and heating bulb disinfect to the wardrobe once more and remove the tide.

According to the wardrobe, safety measures of fingerprint unlocking and password unlocking are used on the wardrobe door, although the mode is safe, the operation is complicated, and the problems that the fingerprint is not clear and the password is forgotten possibly due to damage of the hand of a user are solved.

Disclosure of Invention

The invention aims to provide a working method of a sterilizing lamp system for a wardrobe.

In order to achieve the purpose, the sterilizing lamp system for the wardrobe comprises an MCU control board, a human body sensor, a signal controller and a sterilizing lamp arranged in the wardrobe, wherein the signal controller is arranged corresponding to the wardrobe door of the wardrobe and comprises a shell, a bottom shell, a starting switch and a signal sensing module; the sterilizing lamp is provided with an MCU control panel, and the signal controller and the human body sensor are connected with the MCU control panel;

a) turning on a starting switch, and starting the infrared transmitting tube and the infrared receiving tube to work;

b) when the wardrobe doors are closed simultaneously, infrared rays emitted by the infrared emission tube are reflected to the infrared receiving tube through the reflection layer, when the infrared receiving tube receives the infrared rays, whether a person exists in the wardrobe is detected through the human body sensor, if the person exists, the signal controller gives a signal to the MCU control panel to control the germicidal lamp to stop working, and if the person does not exist, the signal controller gives a signal to the MCU control panel to control the germicidal lamp to work to sterilize articles in the wardrobe; if the wardrobe door is in a non-closed state, the germicidal lamp does not work.

According to the working method of the sterilizing wardrobe, the signal sensing module is arranged at the position corresponding to the wardrobe door, a group of infrared transmitting tubes and infrared receiving tubes are adopted to complete sensing, when the wardrobe door is closed, signals transmitted by the transmitting tubes are reflected by the infrared receiving tubes through the reflecting layers, then the signals are transmitted to the MCU control board, the sterilizing lamp is controlled to be opened through the MCU control board to sterilize the interior of the wardrobe, when the wardrobe door is opened, the infrared receiving tubes cannot receive the signals, so that the sterilizing lamp is closed, the sterilizing lamp cannot be continuously sterilized, because the infrared rays are transmitted through the reflecting layers, the sterilizing can be started only when the wardrobe door is closed, meanwhile, the wardrobe is internally provided with the human body sensor, when children are in the wardrobe, the human body sensor senses a person, the signals are transmitted to the sterilizing lamp to prevent the sterilizing lamp from being opened, and the sterilizing lamp cannot be opened until the person leaves the wardrobe and closes the wardrobe, the double insurance function is realized.

Furthermore, a window is arranged on the shell, the signal sensing module corresponds to the window, an infrared transmitting tube in the signal sensing module transmits a signal out of the window, and an infrared receiving tube receives the signal from the window under the condition of infrared receiving; when the wardrobe door is closed, the infrared rays emitted by the infrared emission tube are emitted to the infrared receiving tube through the reflecting layer and are received through the infrared receiving tube. Thus, infrared rays are conveniently transmitted and received through the window.

Furthermore, the bactericidal lamp comprises a connecting assembly and bactericidal lamp strips, wherein one end of each bactericidal lamp strip is connected with the connecting assembly, more than two bactericidal lamp strips are arranged, adjacent bactericidal lamp strips are connected through the connecting assembly, one of the two bactericidal lamp strips at the two ends is connected with an electric connecting joint, and the electric connecting joint comprises an MCU control panel; the sterilizing lamp bar comprises a sterilizing lamp holder, a sterilizing light source and a cover plate; the sterilizing lamp holder comprises two side plates and two mounting plates, wherein the mounting plates are connected between the two side plates, an upper groove is formed between the two side plates above the mounting plates, and a lower groove is formed between the two side plates below the mounting plates; the inner side surfaces of the two side plates are respectively provided with a substrate inserting groove, a cover plate inserting groove and a guide groove, the substrate inserting groove and the cover plate inserting groove are both positioned above the mounting plate, the substrate inserting groove is positioned below the cover plate inserting groove, and the guide groove is positioned below the mounting plate; the sterilizing light source is inserted into the substrate inserting groove; the cover plate is inserted into the cover plate insertion groove. This structure couples together germicidal lamp strip through coupling assembling, can not only realize mechanical connection, can realize electric connection moreover, like this, the needs of germicidal lamp length are quick, convenient equipment germicidal lamp more.

Furthermore, one end of the sterilizing light source is provided with a plug hole; the connecting assembly comprises a connecting end plate, a connecting terminal and a connecting pin; the connecting end plate comprises a plug board and a convex block arranged on the plug board; the inserting plate is inserted into the guide groove;

a concave cavity extending to the middle part of the plugboard is arranged in the convex block, an isolating strip extends in the concave cavity along the length direction of the convex block, and a containing groove is formed between the isolating strip and the inner wall of the concave cavity; a supporting block is arranged in the middle of the accommodating groove in the length direction of the concave cavity; the connecting pin is arranged on the supporting block;

the connecting terminal is arranged in the accommodating groove, the connecting pin penetrates through the connecting terminal and then extends into the inserting hole, and the supporting block supports the connecting terminal; the connecting terminal comprises a fixed contact end, a first elastic arm, a second elastic arm, a bending part and a limiting part; first elastic arm extends the back level from the one end below oblique of fixed contact end and extends, and second elastic arm is buckled from first elastic arm and is extended to fixed contact end direction slant after keeping away from the one end of fixed contact end, and the kink is buckled from second elastic arm and is extended to keeping away from fixed contact end direction slant downwardly extending, and spacing portion extends from the kink to keeping away from fixed contact end direction level, the protruding block of upper end protrusion of second elastic arm and kink.

Above-mentioned structure, the plugboard can slide in the guide way, is convenient for install and dismantles coupling assembling. Owing to set up first elastic arm, second elastic arm, like this, after germicidal light source inserts the back, elastic deformation can take place for first elastic arm and second elastic arm, let connecting terminal and the last electric connection piece of germicidal light source realize reliable electrical contact, simultaneously, owing to set up kink and spacing portion, spacing position is in the top of first elastic arm, like this, just can effectual restriction first elastic arm and the deflection of second elastic arm, prevent to warp excessively and let connecting terminal lose elasticity and be difficult to realize reliable electric connection's phenomenon.

Furthermore, first avoidance grooves are formed in the two sides of the isolating strip and one end, located on the supporting block, of the isolating strip respectively, and second avoidance grooves are formed in the positions, opposite to the first avoidance grooves, of the inner wall of the protruding block. Like this, dodge groove easy to assemble and dismantlement connecting terminal through first dodging with the second.

Furthermore, through grooves are respectively arranged on the plugboard and below the convex blocks and the isolating strips, the through grooves are communicated with the concave cavities, and clamping grooves are respectively formed among the plugboard, the convex blocks and the isolating strips; clamping portions are respectively arranged on two sides of the free end of the first elastic arm and clamped into the clamping grooves. Therefore, after the connecting terminal is installed, the connecting terminal can be limited, and the connecting terminal is prevented from being separated from the connecting pin.

Further, arc grooves are respectively formed in the isolating strips and the convex blocks and located on two sides of the connecting pin; and an arc bulge matched with the arc groove is arranged on the periphery of the mounting hole on the fixed contact end. This structure, the technical problem because of not influencing connecting terminal intensity after having set up the mounting hole is solved to the one side, and on the other hand lets the area of contact of connecting terminal and supporting shoe bigger, improves the supporting reliability of supporting shoe to connecting terminal, simultaneously, through the interact in circular arc arch and circular arc groove, can carry out length direction's spacing to connecting terminal.

Furthermore, the electric connection joint also comprises an electric connection seat, a connection lead and a socket; be equipped with the slot in the electricity connection seat, in the MCU control panel inserted the slot, the bottom of MCU control panel was equipped with the conducting strip, and connecting wire passes on electricity connection seat electric connection to MCU control panel, socket electric connection is on connecting wire. Thus, external electrical input can be achieved through the socket.

Furthermore, a magnetic suction block is arranged on the sterilizing lamp. The installation to the bactericidal lamp can be realized through magnetism piece like this, and the installation and the dismantlement of bactericidal lamp are convenient, swift moreover.

The clamping device further comprises a clamping seat, wherein the clamping seat comprises a fixed plate and fixed side plates which are bent and extended from two sides of the fixed plate to the same direction, and the section of the clamping seat is U-shaped; the fixing plate is provided with a fixing hole, the two ends of the fixing hole on the fixing plate are respectively provided with an elastic sheet bent inwards, and the upper end of the fixing side plate is provided with an inwards-concave clamping part for clamping the germicidal lamp. This structure puts the installation that can realize the bactericidal lamp through the card of card portion of holding and bactericidal lamp, in addition, when using with the cooperation of magnetism piece of inhaling, removes the bactericidal lamp, lets the buckle seat in the rear of magnetism piece of inhaling, suppresses the rocking that reduces the bactericidal lamp after the installation through the elasticity of shell fragment to magnetism piece.

Drawings

Fig. 1 is a front view of a sterilizing wardrobe according to the present invention with one side of the wardrobe door removed.

Fig. 2 is an exploded view of the signal sensing module of the present invention.

Fig. 3 is an enlarged view of a point a in fig. 1.

Fig. 4 is a perspective view of the germicidal lamp of the present invention.

Fig. 5 is an exploded view of the germicidal light bar and connection assembly of the present invention.

Fig. 6 is a cross-sectional view of the germicidal lamp of the present invention with the germicidal lamp base removed.

Fig. 7 is a perspective view of the connecting end plate.

Fig. 8 is a perspective view from another perspective of the connecting end plate.

Fig. 9 is a sectional view taken along line B-B in fig. 7.

Fig. 10 is a schematic diagram of a connection terminal.

Fig. 11 is an end view of the germicidal lamp socket of the present invention.

Fig. 12 is an enlarged view taken at C in fig. 5.

Fig. 13 is a middle cross-sectional view of the germicidal light bar and connection assembly along the length.

Fig. 14 is an exploded view of an electrical connection terminal.

Fig. 15 is an exploded view of the electrical connection terminal from another perspective.

FIG. 16 is a perspective view of the magnet block.

Fig. 17 is a perspective view of the buckle holder.

FIG. 18 is a flow chart of the operation method of the wardrobe.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 18, the wardrobe comprises a germicidal lamp system for the wardrobe, wherein the germicidal lamp system for the wardrobe comprises an MCU control board, a human body sensor, a signal controller and a germicidal lamp 1 arranged in a wardrobe 2.

As shown in fig. 1 and 8, the wardrobe further includes a signal controller 3, the signal controller 3 is disposed corresponding to a wardrobe door 21 of the wardrobe 2, in this embodiment, two wardrobe doors 21 are disposed, and a reflective layer is disposed on the wardrobe door corresponding to the signal controller.

As shown in fig. 1 and 2, the signal controller 3 includes a housing 31, a bottom case 32, a start switch 33, and a signal sensing module 34, the bottom case 32 is provided with the signal sensing module 34, the start switch 33 is disposed below the signal sensing module 34, the housing 31 is disposed on the bottom case 32 and covers the signal sensing module 34, the signal sensing module 34 includes an infrared transmitting tube 341 and an infrared receiving tube 342, the signal sensing modules 34 are disposed at two ends of the signal controller 3 and respectively correspond to two wardrobe doors 21, the signal sensing module can start to operate after the start switch 33 is pressed, and a human body sensor (not shown in the figure) is further disposed in the wardrobe 2.

As shown in fig. 2 and 3, a window 311 is provided on the housing 31, and the signal sensing module 34 corresponds to the window 311, so that the infrared transmitting tube in the signal sensing module 34 transmits a signal from the window 311, and in case of being capable of receiving infrared, the infrared receiving tube receives the signal from the window 311.

As shown in fig. 4, 5 and 12, the germicidal lamp 1 includes a connecting assembly 4 and a germicidal lamp strip 5, the connecting assembly 4 is connected to one end of the germicidal lamp strip 5, and when there are more than two germicidal lamp strips 5, the connecting assembly 4 connects the adjacent germicidal lamp strips 5 together and realizes electrical connection.

The connection assembly 4 includes a connection end plate 41, a connection terminal 42, and a connection pin 43.

As shown in fig. 7 and 8, the connection end plate 41 includes a plug plate 411 and a protrusion 412. The plug board 411 comprises a guide plate 4111 and a limit plate 4112 arranged at the bottom of the guide plate 4111, the width of the guide plate 4111 is greater than that of the limit plate 4112, and guide grooves 4113 are formed on two sides of the limit plate 4112 below the guide plate 4111. One end of the guide plate 4111 is provided with a first guide inclined plane 4114, and two sides of one end of the guide plate 4111 are respectively provided with a first chamfer 4115, so that the connecting assembly 4 is conveniently inserted into the germicidal lamp strip 5. A second guiding inclined plane 4116 is arranged on the upper surface of the other end of the guiding plate 4116, and second chamfers 4117 are respectively arranged on two sides of the other end of the guiding plate 4111, so that the germicidal lamp strip 5 connected with the guiding plate can be conveniently inserted.

A third guide inclined plane 4121 is arranged on the upper surface of one end of the lug 412, and third chamfers 4122 are respectively arranged on two sides of one end of the lug 412; a fourth guide inclined surface 4123 is formed on the upper surface of the other end of the projection 412, and fourth chamfers 4124 are formed on both sides of the other end of the projection 412, respectively. The above structure facilitates the insertion of the germicidal lamp strip 5.

The length of the protrusion 412 is smaller than the length of the guide plate 4111, and the width of the protrusion 412 is smaller than the width of the guide plate 4111.

A concave cavity 4125 extending to the middle of the plugboard is arranged in the bump 412, a separation strip 413 extends in the concave cavity 4125 along the length direction of the bump, and a containing groove 414 is formed between the separation strip 413 and the inner wall of the concave cavity 4125; a supporting block 415 is arranged in the middle of the accommodating groove 414 in the length direction of the concave cavity, one end of the supporting block 415 is an inclined plane, and the other end of the supporting block 415 is a right-angle surface; first avoidance grooves 416 are respectively formed in two sides of the isolation bar and at one end of the supporting block 415, and second avoidance grooves 417 are formed in positions, opposite to the first avoidance grooves 416, on the inner wall of the protrusion 412. As shown in fig. 8 and 9, through grooves 4118 are respectively formed on the plug board below the protrusions 412 and the spacers 413, the through grooves 4118 are communicated with the recessed cavities 4125, and slots 419 are respectively formed between the plug board 411 and the protrusions and spacers.

The connecting pin 43 is mounted on the support block 415. Arc grooves 418 are respectively formed on the projections 412 of the spacers 413 at both sides of the connecting pin 43.

As shown in fig. 6 and 10, the connection terminal 42 includes a fixed contact end 421, a first elastic arm 422, a second elastic arm 423, a bending portion 424, and a limiting portion 425. The first elastic arm 422 extends obliquely downward from one end of the fixed contact end 421 and then extends horizontally, the second elastic arm 423 bends from one end of the first elastic arm 422 away from the fixed contact end 421 and then extends obliquely upward toward the fixed contact end 421, the bent portion 424 bends from the second elastic arm 423 and then extends obliquely downward toward the fixed contact end 421, the limiting portion 425 horizontally extends from the bent portion toward the fixed contact end 421, and the second elastic arm and the upper end of the bent portion protrude out of the protrusion 412. The fixed contact end 421 is provided with a mounting hole 4211, and the fixed contact end 421 is provided with an arc protrusion 4212 at the periphery of the mounting hole to be engaged with the arc groove 418. Clamping portions 4221 are respectively arranged on two sides of the free end of the first elastic arm.

As shown in fig. 6 and 12, the two sides of the isolating bar 413 are located in the accommodating groove 414 and are respectively provided with the connecting terminal 421, the connecting pin 43 passes through the mounting hole 4211, and the arc protrusion 4212 is located in the arc groove 418. The baking plate 4221 is clamped into the clamping groove 419 to clamp the connecting terminal, so that the connecting terminal is prevented from being separated from the connecting pin 43. In the present invention, the upper surface of the fixed contact end 421 is flush with the upper surface of the bump or slightly protrudes from the upper surface of the bump. The connecting pin 43 protrudes from the upper surface of the fixed contact terminal.

As shown in fig. 5 to 6 and 11 to 13, the germicidal lamp strip 5 includes a germicidal lamp base 51, a germicidal light source 52 and a cover plate 53.

The germicidal lamp holder comprises two side plates 511 and two mounting plates 512, wherein the mounting plates 512 are connected between the two side plates 511, an upper groove 513 is formed above the mounting plates between the two side plates, and a lower groove 514 is formed below the mounting plates 512 between the two side plates. A locking groove 5111 extending in the length direction is formed in the outer side surface of the side plate, and the section of the locking groove is arc-shaped. The inner side surfaces of the two side plates are respectively provided with a substrate inserting groove 5112, a cover plate inserting groove 5113 and a guide groove 5114, the substrate inserting groove 5112 and the cover plate inserting groove 5113 are both positioned above the mounting plate, the substrate inserting groove 5112 is positioned below the cover plate inserting groove 5113, and the guide groove 5114 is positioned below the mounting plate. An avoidance through groove 5121 is respectively arranged at two ends of the mounting plate.

The germicidal light source 52 includes a substrate 521 and a germicidal lamp 522 disposed on the substrate 521, where the germicidal lamp may be a UVC ultraviolet germicidal lamp, or may be an ultraviolet germicidal lamp including UVC and UVA. The two ends of the bottom of the substrate 521 are respectively provided with an electrical connection plate 523 capable of electrically contacting with the fixed contact end. The substrate is inserted into the substrate insertion groove.

The cover plate 53 is inserted into the cover plate insertion groove 5113.

An insertion hole 5211 into which the connection pin 43 is inserted is provided at one end of the base plate.

As shown in fig. 4, an electrical connector 6 is connected to one end of the germicidal lamp, and the electrical connector 6 includes an electrical connector 61, an MCU control board 62, a connecting wire 63 and a socket 64. The electrical connection socket 61 is provided with a slot 611, the MCU control board 62 is inserted into the slot 611, the bottom of the MCU control board 62 is provided with a conductive plate 621, the connection wire passes through the electrical connection socket and is electrically connected to the MCU control board 62, and the socket 64 is electrically connected to the connection wire 63.

The signal controller 3 is connected with the MCU control board 62.

As shown in fig. 5, 12, 13, and 16, the guide groove 5114 is provided with a magnet block 71, guide blocks 711 are provided on both side surfaces of the magnet block 71, and the guide blocks 711 are located in the guide groove 5144. The mounting plate is provided with a first positioning hole 73, the base plate is provided with a second positioning hole 74 communicated with the first positioning hole, and the magnetic block 71 is penetrated with a positioning pin 72 extending into the first positioning hole and the second positioning hole.

Above-mentioned structure, inhale the piece 71 with magnetism and slide in the guide way 5144 back, through locating pin 72 with inhale the piece 71 with magnetism and fix a position the mounting panel on, prevent that the piece is inhaled to magnetism and slide, inhale the piece and install the back well, inhale the lower surface parallel and level or the protrusion of piece 71 and the lower surface of the lamp stand that disinfects.

The buckle base 8 is further included, as shown in fig. 17, the buckle base 8 includes a fixed plate 81 and a fixed side plate 82 bent and extended from two sides of the fixed plate 81 to the same direction, and the cross section of the buckle base 8 is U-shaped. The fixing plate 81 is provided with a fixing hole 85, the fixing plate 81 is provided with spring pieces 84 bent inward at both ends of the fixing hole, and the upper end of the fixing side plate is provided with a retaining part 83 recessed inward.

The assembling process of the sterilizing lamp comprises the following steps:

(1) the number of the germicidal light bars 5 is selected according to the required length, and two germicidal light bars 5 are selected in the embodiment.

(2) The connecting pin 43 of the connecting assembly 4 is inserted into the insertion hole 5211 at one end of the substrate, and the fixed contact end is brought into contact with the electrical connecting sheet 523 of the substrate.

(3) Insert the light source of disinfecting together with coupling assembling 4 from the one end of the lamp stand that disinfects to let the base plate insert along base plate inserting groove 5112, let the deflector insert along guide way 5114, after the installation, coupling assembling 4 has the one end of second elastic arm, kink and spacing portion and stretches out the lamp stand that disinfects, then inserts the apron. After the step is completed, the substrate inserting groove limits the substrate, and the guide groove limits the connecting assembly, so that reliable electric connection between the fixed contact end and the substrate can be guaranteed.

(4) After step (3) is completed, connecting assemblies are installed on the two bactericidal lamp strips, then one of the connecting assemblies with the bactericidal lamp strips is inserted into one end, where the connecting assembly is not installed, of the other bactericidal lamp strip, in the inserting process, the guide plate is inserted into the guide groove of the other bactericidal lamp strip, and meanwhile, the substrate in the other bactericidal lamp strip is positioned above the connecting assemblies and is electrically connected with the second elastic arm and the bending part through extrusion of the substrate. In this process, owing to set up first elastic arm, the second elastic arm, like this, after the base plate inserts, elastic deformation can take place for first elastic arm and second elastic arm, let connecting terminal and the electric connection piece on the base plate realize reliable electric contact, simultaneously, owing to set up kink and spacing portion, spacing portion is located the top of first elastic arm, like this, just can effectual restriction first elastic arm and the deflection of second elastic arm, prevent to warp excessively and let connecting terminal lose elasticity and be difficult to realize reliable electric connection's phenomenon.

(5) The electric connection terminal 6 is inserted into the connection assembly which is not yet connected in the same manner as the above-described step 4, thereby completing the installation of the germicidal lamp 1.

(6) A plurality of fastener seats 8 are mounted in the wardrobe body by screws through the fixing holes 85.

(7) The mounted germicidal lamp is clamped into the clamping seat 8, and the germicidal lamp is clamped through the matching of the clamping groove 5111 and the clamping part.

(8) Remove the bactericidal lamp, let buckle seat 8 be located the rear of magnetism piece of inhaling, inhale the elasticity suppression of piece through shell fragment 84 to magnetism and reduce rocking after the bactericidal lamp installation.

Certainly, the wardrobe body can be adsorbed on the wardrobe body through the magnetic absorption block on the premise that the buckle seat is not installed.

The working method of the sterilizing lamp system for the wardrobe, as shown in fig. 18, includes the following steps:

a) the start switch 33 is turned on, and the infrared transmitting tube and the infrared receiving tube start to operate.

b) Close two wardrobe doors 21 simultaneously, the infrared ray of infrared transmitting tube transmission passes through the reflection stratum and reflects to the infrared receiving tube on, when infrared receiving tube received the infrared ray, whether someone in detecting the wardrobe through human sensor, if someone, then signal controller gives MCU control panel signal control bactericidal lamp out of work, if detect nobody, then signal controller gives MCU control panel signal control bactericidal lamp work, disinfects to the article in the wardrobe.

In the step b), the germicidal lamp is opened only when the infrared receiving tube corresponding to the wardrobe door receives the signal, otherwise, the germicidal lamp is not opened, namely, if only one wardrobe door is closed, the germicidal lamp is not opened. Therefore, the human body can be better protected from being injured. In addition, the human body sensor is arranged to prevent the bactericidal lamp from being turned on to hurt the human body when a person is in the wardrobe, so that the double-safety function is achieved.

Claims

1. A working method of a sterilizing lamp system for a wardrobe is characterized by comprising the following steps: the sterilizing lamp system for the wardrobe comprises an MCU control board, a human body sensor, a signal controller and a sterilizing lamp arranged in the wardrobe, wherein the signal controller is arranged corresponding to a wardrobe door of the wardrobe and comprises a shell, a bottom shell, a starting switch and a signal sensing module; the sterilizing lamp is provided with an MCU control panel, and the signal controller and the human body sensor are connected with the MCU control panel;

2. The working method of the sterilizing lamp system for the wardrobe as claimed in claim 1, wherein: the shell is provided with a window, the signal sensing module corresponds to the window, an infrared transmitting tube in the signal sensing module transmits a signal out of the window, and an infrared receiving tube receives the signal from the window under the condition of receiving infrared; when the wardrobe door is closed, the infrared rays emitted by the infrared emission tube are emitted to the infrared receiving tube through the reflecting layer and are received through the infrared receiving tube.

3. The working method of the sterilizing lamp system for the wardrobe as claimed in claim 1, wherein: the sterilizing lamp comprises a connecting assembly and two or more sterilizing lamp strips, wherein the connecting assembly is connected to one end of each sterilizing lamp strip; the sterilizing lamp bar comprises a sterilizing lamp holder, a sterilizing light source and a cover plate; the sterilizing lamp holder comprises two side plates and two mounting plates, wherein the mounting plates are connected between the two side plates, an upper groove is formed between the two side plates above the mounting plates, and a lower groove is formed between the two side plates below the mounting plates; the inner side surfaces of the two side plates are respectively provided with a substrate inserting groove, a cover plate inserting groove and a guide groove, the substrate inserting groove and the cover plate inserting groove are both positioned above the mounting plate, the substrate inserting groove is positioned below the cover plate inserting groove, and the guide groove is positioned below the mounting plate; the sterilizing light source is inserted into the substrate inserting groove; the cover plate is inserted into the cover plate insertion groove.

4. The working method of the sterilizing lamp system for the wardrobe as claimed in claim 3, wherein: one end of the sterilizing light source is provided with a plug hole; the connecting assembly comprises a connecting end plate, a connecting terminal and a connecting pin; the connecting end plate comprises a plug board and a convex block arranged on the plug board; the inserting plate is inserted into the guide groove;

5. The working method of the sterilizing lamp system for the wardrobe as claimed in claim 4, wherein: first avoidance grooves are respectively formed in the two sides of the isolating strip and one end, located on the supporting block, of the isolating strip, and second avoidance grooves are formed in the positions, opposite to the first avoidance grooves, of the inner wall of the protruding block.

6. The working method of the sterilizing lamp system for the wardrobe as claimed in claim 4, wherein: through grooves are respectively arranged on the plugboard and below the convex blocks and the isolating strips, the through grooves are communicated with the concave cavities, and clamping grooves are respectively formed among the plugboard, the convex blocks and the isolating strips; clamping portions are respectively arranged on two sides of the free end of the first elastic arm and clamped into the clamping grooves.

7. The working method of the sterilizing lamp system for the wardrobe as claimed in claim 4, wherein: arc grooves are respectively arranged on the isolating strips and the convex blocks at two sides of the connecting pin; and an arc bulge matched with the arc groove is arranged on the periphery of the mounting hole on the fixed contact end.

8. The working method of the sterilizing lamp system for the wardrobe as claimed in claim 1, wherein: the electric connection joint also comprises an electric connection seat, a connection lead and a socket; be equipped with the slot in the electricity connection seat, in the MCU control panel inserted the slot, the bottom of MCU control panel was equipped with the conducting strip, and connecting wire passes on electricity connection seat electric connection to MCU control panel, socket electric connection is on connecting wire.

9. The working method of the sterilizing lamp system for the wardrobe as claimed in claim 1, wherein: the sterilizing lamp is provided with a magnetic suction block.

10. The operating method of the germicidal lamp system for wardrobe as claimed in claim 1 or 9, wherein: the clamping buckle comprises a fixed plate and fixed side plates which are bent and extended from two sides of the fixed plate to the same direction, and the section of the clamping buckle is U-shaped; the fixing plate is provided with a fixing hole, the two ends of the fixing hole on the fixing plate are respectively provided with an elastic sheet bent inwards, and the upper end of the fixing side plate is provided with an inwards-concave clamping part for clamping the germicidal lamp.