CN113481702A - Power supply switching method and switching structure of steam appliance and steam appliance - Google Patents

Abstract

The application relates to a steam appliance power supply switching method, a switching structure and a steam appliance, relating to the field of household appliances, and comprising a connector connected to the steam appliance in a plugging and pulling manner, and a locking assembly arranged on a base and detachably connected with the connector; the connector is transversely connected to the base in a sliding mode and is in limit clamping connection with the locking assembly, and the connector is longitudinally inserted into the steam appliance to charge the steam appliance; the steam appliance transversely slides to one side far away from the base to drive the connector to synchronously slide, and the connector is separated from being clamped with the base; the side of the steam appliance far away from the ground slides longitudinally to separate the connector. This application has the influence that reduces the electric wire and to whole use, improves the effect of using the flexibility.

Description

Power supply switching method and switching structure of steam appliance and steam appliance

Technical Field

The present application relates to the field of household appliances, and in particular, to a steam appliance power supply switching method, a switching structure and a steam appliance.

Background

Steam appliances include garment care type steam products such as steam brushes, steam irons, garment steamers, and the like.

In the related art, as disclosed in chinese patent No. CN111394973A, a steam brush includes a casing, a heating pot assembly, a power supply assembly, a handle, and a wire take-up assembly. The handle or the shell is provided with a wire running port, the power supply assembly comprises a power wire and a conductive assembly, and the power wire penetrates through the wire running port and is electrically connected with the conductive assembly. The wire take-up assembly is arranged in the inner cavity of the shell and comprises a wire take-up frame and a reset piece, and the reset piece is used for driving the wire take-up frame to rotate so that the power wire is wound on the wire take-up frame through the wire routing port.

In view of the above-mentioned related technologies, the inventor believes that the steam appliance needs to be taken off the base and connected to the commercial power through the electric wire for supplying power when in use, and once the length of the electric wire is exceeded, the steam appliance cannot be used continuously, and there is room for improvement.

Disclosure of Invention

In order to reduce the influence of an electric wire on the overall use and improve the use flexibility, the application provides a power supply switching method and a power supply switching structure of a steam appliance and the steam appliance.

In a first aspect, the present application provides a steam appliance power supply switching structure, which adopts the following technical scheme:

a power supply switching structure of a steam appliance comprises a connector connected to the steam appliance in a plugging and pulling manner, and a locking assembly arranged on a base and detachably connected with the connector;

the steam appliance transversely slides to one side far away from the base to drive the connector to synchronously slide, the connector is separated from being clamped with the base, and the connector is connected with the steam appliance to supply commercial power for the steam appliance;

the connector is transversely connected to the base in a sliding mode and is in limit clamping connection with the locking assembly, and the connector is longitudinally inserted into the steam appliance to heat a heating body preset in the steam appliance; the steam appliance is longitudinally pulled out to separate the steam appliance from the connector on the base, and the steam appliance is powered by the rechargeable battery pack.

The connecting head is symmetrically provided with sliding blocks connected with the sliding grooves in a sliding mode, one side, close to the sliding grooves, of each sliding block is further provided with a guide surface, and the sliding blocks are provided with locking holes for the locking assemblies to be inserted and locked.

Through adopting above-mentioned technical scheme, through the use of connector to supply power for steam utensil, and steam utensil supplies power for rechargeable battery package, and the locking Assembly fixes between with connector and the base simultaneously, thereby has improved the degree of cooperation between the two, and the one hand is through horizontal or fore-and-aft sliding, thereby switches rechargeable battery's charge-discharge mode, reduces the influence of electric wire to whole use, improves and uses the flexibility. Through the setting of spout, the use of cooperation slider to make and be connected fixedly between connector and the base, and the setting of guide face, the slider of being convenient for slides in to the spout, improves the convenience of operation, and the setting of lockhole, and the joint of each other of locking subassembly improves the stability after fixing.

Optionally, the locking assembly includes:

the mounting cylinder is arranged on one side of the base, which is far away from the sliding chute;

the inserting cylinder is limited in the mounting cylinder in a sliding manner;

the limiting head is arranged on one side of the insertion cylinder close to the sliding chute, protrudes out of the base and is clamped with the lock hole;

the locking pressure spring is arranged between the insertion cylinder and the locking cover and drives the limiting head to be inserted out of the installation cylinder;

the locking cover is arranged on the mounting cylinder and used for limiting the sliding position of the insertion cylinder;

at least two locking blocks are arranged and are arranged on one side of the mounting cylinder, which is far away from the locking compression spring;

the locking buckle is arranged on the locking cover and is clamped and fixed with the locking block;

the installation barrel is provided with a sliding groove for inserting the insertion barrel to slide, the insertion barrel is provided with an assembly groove for installing a locking pressure spring, the installation barrel is provided with a through hole for the limiting head to penetrate, the through hole communicates the sliding groove with the sliding groove, the locking block is further provided with a first guide surface for locking and buckling, the first guide surface inclines towards the locking pressure spring from the installation barrel to the locking cover, and the locking buckle is provided with a second guide surface mutually guided with the first guide surface.

Through adopting above-mentioned technical scheme, slide in red through inserting a section of thick bamboo at an installation section of thick bamboo, cooperate the use of locking pressure spring again to the spacing head that will insert on the section of thick bamboo can wear out to the perforation direction, thereby improves holistic stability in use. And the locking buckle on the locking cover is matched with the locking block in the mounting cylinder to fix the whole body, so that the whole firmness is further improved, and the practicability is high.

Optionally, the connector includes:

the shell is inserted and connected to the steam appliance and is connected to the base in a sliding manner;

the bottom plate is arranged on the shell and used for closing the cavity;

the connecting seat is arranged on the shell;

the fixing seat is arranged on the connecting seat and is fixedly connected with the shell through a bolt;

the guide seat is arranged on the fixed seat and is tightly pressed and fixed with the shell;

the connecting pressure spring is arranged between the connecting seat and the guide seat;

the locking piece is arranged on the guide seat, protrudes out of the shell and is clamped and fixed with the steam appliance;

the unlocking piece is arranged on the guide seat, protrudes out of the shell and is used for unlocking the locking state of the locking piece;

the recovery pressure spring is arranged on the locking piece and positioned between the locking piece and the guide seat, and drives the locking piece to pop out for clamping;

the metal conducting plate is arranged between the guide seat and the connecting pressure spring and is butted and communicated with the conducting end of the steam appliance;

the metal connecting sheet is arranged on the metal conducting sheet and is used for being connected and conducted with an external wire; the steam appliance is characterized in that a mounting cavity for a guide seat is formed in the shell, a cavity for a connecting seat and a guide seat to be mounted is formed in the shell, the cavity is communicated with the mounting cavity, a moving groove for connecting a pressure spring and a metal conducting strip to slide is formed in the guide seat, a socket for inserting a conductive column in the steam appliance is formed in the shell and the guide seat, a mounting groove for mounting a locking piece is formed in the guide seat, a through hole for unlocking the unlocking piece is formed in the guide seat, and a bayonet for fixing the locking piece in a clamping manner is formed in the steam appliance.

Through adopting above-mentioned technical scheme, casing and bottom plate cooperate each other to form wholly. And the connecting seat cooperatees with the guide holder to supply to connect pressure spring and metal conducting strip and assemble, thereby under the thrust of connecting the pressure spring, make metal conducting strip contradict the intercommunication with the electrically conductive end of steam utensil all the time.

Optionally, the connector further includes:

the limiting block is arranged on one side of the connecting seat close to the guide seat and is inserted and fixed on the guide seat;

the connecting column is arranged on one side of the connecting seat close to the guide seat, and one end of the connecting pressure spring is sleeved and fixed;

the guide post is arranged on one side of the guide seat close to the connecting seat and is used for the metal conductive flat sheet to be inserted and slid;

the guide seat is further provided with a limiting groove for inserting the limiting block, and the metal conductive sheet is further provided with a guide hole for inserting and sliding the guide column.

Through adopting above-mentioned technical scheme, the use of stopper cooperation spacing groove to improve the stability of inserting of connecting seat and guide holder, and the setting of guide post cooperates the use of bullport, the stability of further improvement metal conducting strip.

Optionally, a dust-proof sheet is further disposed between the guide seat and the housing, an open slot corresponding to the socket is disposed on the dust-proof sheet, a movable slot is disposed on one side of the dust-proof sheet close to the housing, and the movable slot is communicated with the open slot.

Through adopting above-mentioned technical scheme, through the setting of dustproof piece to the entering of outside dust has been reduced, and the setting of open slot, the electrically conductive end that supplies steam utensil of being convenient for inserts, and the setting in activity groove is thinned the dustproof piece, thereby further improvement the convenience of operation.

Optionally, the housing is further provided with a wire sheath, the housing is provided with a limiting hole for transmission and limiting of the wire sheath, and the wire sheath is further provided with a limiting ring for limiting with the limiting hole;

and a plurality of folding gaps are also arranged on the wire protecting sleeve.

Through adopting above-mentioned technical scheme, the protection to the electric wire has been improved to the setting of protecting wire cover to spacing hole cooperation spacing ring's use is further fixed protecting wire cover, has improved holistic stability in use, and folding gap's setting has improved holistic use flexibility.

In a second aspect, the present application provides a steam appliance, which adopts the following technical solution:

a steam appliance comprises the power supply switching structure of the steam appliance and further comprises a base, wherein the base comprises a placing bottom plate, a placing side plate and a placing box;

the placing box is provided with a first connecting buckle, the placing side plate is provided with a first buckle groove mutually buckled with the first connecting buckle, the placing box is also provided with a second connecting buckle, and the placing side plate is provided with a second buckle sheet buckled with the second connecting buckle;

the placing side plate is further provided with a third connecting buckle, a third buckle piece mutually buckled with the third connecting buckle is arranged on the placing bottom plate, a fifth connecting buckle is further arranged on the placing bottom plate, a fifth buckle piece mutually buckled with the fifth connecting buckle is further arranged on the placing box, a placing column is further arranged on the placing box, a placing seat mutually matched with the placing column is arranged on the placing bottom plate, and the placing seat and the placing column are fixed through bolts.

Through adopting above-mentioned technical scheme, the base supplies the steam utensil to place the bottom plate, place and survey the curb plate and place and connect fixedly through the mode of joint between the box, improved holistic installation convenience, and carry out simple reinforcement through the bolt at last, with the holistic stability of further improvement, the practicality is strong.

Optionally, a mounting box for mounting components is further arranged on the placing side plate, a mounting cover is further arranged on the mounting box, fourth connecting buckles are symmetrically arranged on the mounting box, and fourth buckling pieces buckled with the fourth connecting buckles are arranged on the mounting cover.

Through adopting above-mentioned technical scheme, the setting of mounting box, the use of cooperation installation lid, further improvement to the stability of other components and parts installations to fix through fourth connector link and fourth cramp between mounting box and the installation lid, improved the efficiency of assembly.

Optionally, a leaning sheet for leaning the steam appliance is further arranged on one side, close to the steam appliance, of the placing box, a connecting block for fixing and pressing the placing side plate is arranged on the leaning sheet, and a connecting groove for inserting and limiting the connecting block is formed in the placing box;

the placing box is also provided with a placing groove for placing the leaning sheet.

Through adopting above-mentioned technical scheme, through the setting of leaning on the piece, supply the steam utensil to place, improved the effect of buffering. And the setting of connecting block, the use of cooperation spread groove and standing groove will lean on the piece to fix, and the practicality is strong.

Optionally, the placing bottom plate is further provided with a placing block, the placing block is provided with a positioning protrusion, the placing bottom plate is provided with a positioning hole for inserting the positioning protrusion, the placing block is symmetrically provided with deformation buckles, and the placing bottom plate is provided with a deformation groove for inserting the deformation buckles into the clamping connection.

Through adopting above-mentioned technical scheme, through the setting of placing the piece, will place the bottom plate and carry out the bed hedgehopping to reduce the wearing and tearing to placing the bottom plate, the bellied setting in addition of location, the use of cooperation locating hole makes and places the piece and carry out preliminary location, cooperation deformation is detained and is fixed with the use in deformation groove, bare-handed operation, and the practicality is strong.

Optionally, the method includes:

acquiring current distance detection information of the base and the steam appliance;

judging whether the current distance detection information is consistent with preset reference distance information or not;

if not, prompting;

if the angle detection information is consistent with the angle detection information, current angle detection information of the steam appliance is obtained;

judging whether the current angle detection information is consistent with preset reference angle information or not;

if the detected values are inconsistent, prompting is carried out, the preset electromagnet is controlled to be conducted, and the iron block preset on the steam appliance is subjected to suction correction;

if the base detection information is consistent with the base detection information, current base detection information is obtained;

judging whether the current base detection information is consistent with preset base reference information or not;

if not, prompting;

and if the charging instruction is consistent with the charging instruction, performing charging instruction.

Through adopting above-mentioned technical scheme, through detecting the distance between base and the steam utensil to judge the position between the two, in case will instruct after the alignment, and also can indicate under the circumstances of not aligning.

Optionally, the method includes:

acquiring current identification detection information arranged on a steam appliance;

judging whether the current identification information is consistent with the preset identification reference information or not;

if the current values are consistent, closing a power supply loop of the base;

if not, the power supply loop of the base is disconnected.

Through adopting above-mentioned technical scheme, through the acquirement to sign detection information to pair steam utensil and base, in case when not pairing, just can not charge, thereby improve holistic security.

In a third aspect, the present application provides a method for switching power supply of a steam appliance, which adopts the following technical scheme:

a power supply switching method of a steam appliance is applied to the steam appliance and comprises a base placed on a desktop and a connector detachably connected to the base, wherein a rechargeable battery pack for supplying power is arranged in the steam appliance, and the power supply switching method comprises the following steps:

acquiring the use state of the steam appliance;

switching a power supply state of the steam appliance according to the use state, wherein the power supply state comprises a wired state and a wireless state;

supplying power to the steam appliance by mains supply according to the wired state;

and supplying power to the steam appliance by a rechargeable battery pack preset in the steam appliance according to the wireless state.

Through adopting above-mentioned technical scheme, through the mode that transversely slides and vertically slide to make the staff through the mode that slides, just can switch the power supply mode of steam utensil, simple to use, the practicality is strong.

Optionally, the method includes:

after the steam appliance is longitudinally inserted into the connector, the insertion of the connector and the steam appliance is prompted, and meanwhile, a heating body preset in the steam appliance is heated;

the steam appliance is longitudinally pulled out to separate the steam appliance from the connector on the base, and the steam appliance is charged by the rechargeable battery pack;

the steam appliance is matched with the connector and transversely plugged on the base so as to realize the combination of the steam appliance with the connector and the base.

Through adopting above-mentioned technical scheme, through the understanding to the plug-in state to the state to connecting is indicateed, and is different through the user state who inserts and extract, thereby switches convenient to use to the power supply of rechargeable battery package.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the influence of the electric wire on the overall use is reduced, and the use flexibility is improved;

2. the mode of switching rechargeable battery individual power supply and using the electric wire improves the flexibility of use.

Drawings

Fig. 1 is a schematic view of the structure of a steam appliance.

FIG. 2 is a schematic view of the steam appliance after being pulled out in the longitudinal direction.

Fig. 3 is an exploded view of the first connector.

Fig. 4 is an exploded view of the second connector.

Fig. 5 is an exploded view of the steam appliance after lateral withdrawal.

Fig. 6 is an exploded view of the first pedestal.

Fig. 7 is an exploded view of the second pedestal.

Fig. 8 is an enlarged schematic view of a portion a in fig. 7.

Fig. 9 is an enlarged schematic view of a portion B in fig. 7.

Description of reference numerals: 1. a connector; 100. a slider; 101. a guide surface; 102. a lock hole; 103. a housing; 104. a base plate; 105. a connecting seat; 107. a fixed seat; 108. a guide seat; 109. connecting a pressure spring; 110. a metal conductive sheet; 111. a metal connecting sheet; 112. a mounting cavity; 113. a cavity; 114. a moving groove; 115. a socket; 116. a limiting block; 117. connecting columns; 118. a guide post; 119. a limiting groove; 120. a guide hole; 121. a dust-proof sheet; 122. an open slot; 123. a movable groove; 124. a wire protecting sleeve; 125. a limiting hole; 126. a limiting ring; 127. folding the gap; 128. a locking member; 129. unlocking the lock; 130. recovering the pressure spring; 131. mounting grooves; 132. a through hole; 133. a bayonet; 2. a base; 200. a chute; 201. placing a bottom plate; 202. placing the side plate; 203. placing the box; 204. a first connecting buckle; 205. a first catching groove; 206. a second connecting buckle; 207. a second cleat; 208. a third connecting buckle; 209. a third cramp; 210. placing the column; 211. a placing seat; 212. mounting a box; 213. installing a cover; 214. a fourth connecting buckle; 215. a fourth cleat; 216. a leaning sheet; 217. connecting blocks; 218. connecting grooves; 219. a placement groove; 220. placing the blocks; 221. positioning the projection; 222. positioning holes; 223. deformation buckles; 224. a deformation groove; 225. a fifth connecting buckle; 226. a fifth cramp; 3. a locking assembly; 300. mounting the cylinder; 301. an insertion cartridge; 302. a limiting head; 303. locking the pressure spring; 304. a locking cover; 305. a locking block; 306. a locking buckle; 307. a sliding groove; 308. assembling a groove; 309. perforating; 310. a first guide surface; 311. a second guide surface; 40. a steam appliance; 41. and a conductive post.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses a steam appliance, which is characterized in that the steam appliance 40 is longitudinally pulled upwards, so that the steam appliance 40 is powered by a built-in rechargeable battery pack; the steam appliance 40 is transversely pulled out backwards so as to be used with an electric wire, electric energy is supplemented to the built-in rechargeable battery pack through commercial power, a heating body is preset in the steam appliance 40, the heating body is also charged in a power-on state, and the use flexibility is improved.

Referring to fig. 1 and 2, a steaming appliance includes a base 2 placed on a table or other flat surface, a connector 1 detachably connected to the base 2, and a steaming appliance 40 detachably connected to the connector 1. A rechargeable battery pack for providing electric energy is arranged in the steam appliance 40, and the connector 1 is connected with the mains supply through a wire and charges the rechargeable battery pack.

Referring to fig. 3 and 4, the connector 1 includes a housing 103, a bottom plate 104, a connecting seat 105, a fixing seat 107, a guiding seat 108, a connecting compression spring 109, a metal conductive sheet 110, a metal connecting sheet 111, a limiting block 116, a connecting column 117, a guiding column 118, a dust-proof sheet 121, a wire sheath 124, a locking piece 128, an unlocking piece 129 and a restoring compression spring 130.

The housing 103 is slidably inserted into the steam appliance 40 and is also slidably retained on the base 2. The housing 103 is provided with a cavity 113 for mounting the connecting seat 105 and the guide seat 108, and the bottom of the housing 103 is welded with the bottom plate 104 by ultrasonic welding, and the housing 103 is fixed by the bottom plate 104.

The housing 103 is further provided with an installation cavity 112 for the guide seat 108 to be inserted and installed, the installation cavity 112 is communicated with the cavity 113, and the guide seat 108 is provided with a moving groove 114 for the metal conducting strip 110 to slide up and down. The metal connecting sheet 111 is integrally disposed on the metal conducting sheet 110, and is connected and conducted with an external wire by welding.

And the connecting compression spring 109 is also positioned in the moving groove 114, the connecting seat 105 is positioned between the guide seat 108 and the bottom plate 104, so that one end of the connecting compression spring 109 is in abutting connection with the metal conducting plate 110, and the other end of the connecting compression spring 109 is in abutting connection with the bottom plate 104. The connecting post 117 is integrally arranged on one side of the connecting seat 105 close to the guide seat 108, so that one end of the connecting pressure spring 109 is sleeved and fixed; one side of the metal conducting plate 110 close to the connection pressure spring 109 protrudes upwards, so that the other end of the connection pressure spring 109 can be installed in a limiting manner.

The guide posts 118 are integrally disposed on the guide base 108 and located in the guide slots, and the conductive metal sheet 110 is provided with guide holes 120 for the guide posts 118 to slide in the guide slots, and the guide holes are matched with the guide slots, so as to improve the stability of the conductive metal sheet 110.

The shell 103 and the guide seat 108 are both provided with a socket 115 for inserting the conductive column 41 on the steam appliance 40, in order to improve the dustproof effect, the dustproof sheet 121 is located between the guide seat 108 and the shell 103, the dustproof sheet 121 is made of rubber, an opening groove 122 corresponding to the socket 115 is formed in the dustproof sheet 121, a movable groove 123 is formed in one side, close to the shell 103, of the dustproof sheet 121, the movable groove 123 is arranged in a cross shape, and the movable groove 123 is communicated with the opening groove 122.

The fixing seat 107 is integrally provided on the connecting seat 105, and the housing 103 and the fixing seat 107 are fastened by bolts to fix the dust-proof piece 121 and the guide seat 108.

The guide seat 108 is provided with a locking member 128, the guide seat 108 is further provided with an unlocking member 129, the unlocking member 129 and the locking member 128 are integrally provided, and the unlocking member 129 protrudes from the housing 103 and is used for unlocking the locking member 128. A restoring pressure spring 130 is arranged between the locking piece 128 and the guide seat 108, and the restoring pressure spring 130 drives the locking piece 128 to pop out and clamp.

The guide seat 108 is further provided with a mounting groove 131 for mounting the locking piece 128 and the recovery pressure spring 130, the guide seat 108 is provided with a through hole 132 for unlocking the unlocking piece 128, the steam appliance 40 is provided with a bayonet 133 for clamping and fixing the locking piece 128, and after the unlocking piece 128 is pressed down, the locking piece 128 is driven to be separated from the bayonet 133 so as to separate the steam appliance 40 from the shell 103 and switch to a wireless state.

The limiting block 116 is integrally disposed on one side of the connecting seat 105 close to the guiding seat 108, and the guiding seat 108 is further provided with a limiting groove 119 for the limiting block 116 to be inserted into, so as to improve stability between the two.

The shell 103 is further provided with a limiting hole 125 for the wire protecting sleeve 124 to transmit limiting, the limiting hole 125 is located on one side of the steam appliance 40 which is transversely pulled out, a limiting ring 126 which is mutually limited with the limiting hole 125 is integrally arranged on the wire protecting sleeve 124, and a plurality of folding gaps 127 are annularly formed in the wire protecting sleeve 124, so that the bending property of the electric wire is improved.

Referring to fig. 5 and 6, the base 2 includes a placement bottom plate 201, a placement side plate 202, and a placement box 203.

Wherein, place box 203 and go up an organic whole and be provided with first connector link 204, and first connector link 204 is the symmetry and sets up and be provided with a plurality ofly, and place and set up the first catching groove 205 of buckling mutually with first connector link 204 on the curb plate 202. The placing box 203 is integrally provided with a second connecting buckle 206, the second connecting buckle 206 is positioned above the first connecting buckle 204, and the placing side plate 202 is integrally provided with a second buckle piece 207 buckled with the second connecting buckle 206.

To improve the stability of the steaming appliance 40 when leaning, a leaning sheet 216 is mounted on the placing box 203. The leaning sheet 216 is made of rubber, a connecting block 217 for fixing and pressing the placing side plate 202 is integrated on the leaning sheet 216, the cross section of the connecting block 217 is arranged in a T shape, and a connecting groove 218 for inserting and limiting the connecting block 217 is formed in the placing box 203 for installing the leaning sheet 216. A placing groove 219 for placing the leaning sheet 216 is opened on one side of the placing box 203 close to the steaming appliance 40 to improve stability.

The third connecting buckles 208 are symmetrically arranged on the placing side plate 202, the third buckling pieces 209 are integrally arranged on the placing bottom plate 201, the third buckling pieces 209 are mutually buckled and fixed with the third connecting buckles 208, and the third buckling pieces 209 and the third connecting buckles 208 are provided with a plurality of connecting buckles which are arranged by workers according to actual conditions.

Place bottom plate 201 an organic whole and be provided with fifth connector link 225, for placing box 203 on an organic whole be provided with fifth cramp 226, fifth cramp 226 and fifth connector link 225 lock fixed mutually, fifth cramp 226 is provided with a plurality ofly with fifth connector link 225, sets up according to actual conditions by the staff.

Referring to fig. 5 and 7, the placing box 203 is integrally provided with a plurality of placing columns 210, and the placing columns 210 are provided; place the integrative seat 211 of placing that is provided with on the bottom plate 201, and place seat 211 and place post 210 and mutually support and the one-to-one, place seat 211 and place and fix through the bolt between the post 210.

Place integrative being provided with mounting box 212 on the curb plate 202, supply the components and parts to install in the mounting box 212, mainly install magnet in this embodiment to install the tongue tube in the steam apparatus 40, thus after steam apparatus 40 leans on to base 2, sense magnet, in order to make systematic judgement.

The mounting box 212 is provided with a mounting cover 213, the mounting box 212 is symmetrically provided with fourth connecting buckles 214, the mounting cover 213 is provided with fourth buckling pieces 215, and the fourth buckling pieces 215 and the fourth connecting buckles 214 are mutually buckled and fixed, so that the magnet is mounted.

The placing bottom plate 201 is provided with at least 3 placing blocks 220, so that the stability of the placing bottom plate 201 is improved, and the number of the placing blocks 220 is preferably 4 in the embodiment.

A positioning protrusion 221 is integrally disposed on one side of the placing block 220 close to the placing bottom plate 201, and a positioning hole 222 for inserting the positioning protrusion 221 is disposed on the placing bottom plate 201. Place an organic whole of piece 220 and be provided with deformation and detain 223, deformation is detained 223 and is to be and use the location arch 221 to be the symmetry setting as the symmetry axis, places and offers on the bottom plate 201 to supply deformation to detain 223 and insert the deformation groove 224 of joint.

Still install locking Assembly 3 on base 2, locking Assembly 3 is used for carrying out the joint with connector 1 spacing. The connecting head 1 is symmetrically provided with sliding blocks 100, the placing box 203 is provided with a sliding groove 200 for the sliding blocks 100 to be inserted and connected, one side of the sliding blocks 100 close to the sliding groove 200 is provided with a guide surface 101, the guide surface 101 is gradually reduced towards the sliding groove 200, and the cross section of one side of the sliding blocks 100 close to the sliding groove 200 is conical

One side of the slider 100 close to the sliding slot 200 is provided with a locking hole 102 for the locking component 3 to be inserted and locked, and when the slider 100 is inserted into the sliding slot 200, the locking component 3 and the locking hole 102 are mutually clamped and fixed.

Referring to fig. 8 and 9, the locking assembly 3 includes a mounting barrel 300, an insertion barrel 301, a retaining head 302, a locking compression spring 303, a locking cover 304, a locking block 305, and a locking buckle 306.

The mounting tube 300 is integrally disposed on the placing box 203 and is located inside the placing box 203, i.e. on a side away from the sliding chute 200. Insert a section of thick bamboo 301 and spacing head 302 and be an organic whole setting, refer to fig. 5, offer on the installation section of thick bamboo 300 and supply the perforation 309 that spacing head 302 wore to establish, spacing head 302 protrusion in base 2 and with the cooperation of hasp joint to offer on the installation section of thick bamboo 300 and supply to insert a gliding groove 307 of 301.

An assembling groove 308 for inserting and installing the locking compression spring 303 is formed in one side of the insertion cylinder 301, which is far away from the limiting head 302, and the other end of the locking compression spring 303 is abutted against the locking cover 304. The locking blocks 305 are integrally disposed on the mounting tube 300 and are symmetrically disposed. The locking buckle 306 is integrally provided on the locking cover 304 and is fixed to the locking block 305 by snap-fitting, thereby fixing the locking compression spring 303.

The locking blocks 305 are in one-to-one correspondence with the locking buckles 306, and at least two are provided, thereby improving the stability of the whole. A first guide surface 310 for inserting the locking buckle 306 is integrally arranged on the locking block 305, and a second guide surface 311 which is mutually guided with the first guide surface 310 is integrally arranged on the locking buckle 306; the first guide surface 310 is inclined in the direction of the locking compression spring 303 from the mounting cylinder 300 to the locking cover 304.

In addition, the detection method for detecting the charging safety condition of the steam appliance comprises the following steps:

step P100: the current distance detection information of the base 2 and the steam appliance 40 is acquired.

The base 2 is provided with a distance measuring sensor, and the distance measuring sensor detects the distance between the base 2 and the steam appliance 40 and outputs the current distance detection information.

Step P101: and judging whether the current distance detection information is consistent with the preset reference distance information.

And judging whether the current distance detection information is consistent with the preset reference distance information.

Step P102: and if the two are not consistent, prompting.

When the current distance detection information is inconsistent with the reference distance information, prompting is performed.

Step P103: if the angle information matches the current angle detection information, the current angle detection information of the steam appliance 40 is acquired.

When the current distance detection information is identical to the reference distance information, the current angle detection information of the steam appliance 40 is acquired by the angle sensor.

Step P104: and judging whether the current angle detection information is consistent with the preset reference angle information.

And judging whether the current angle detection information is consistent with the preset reference angle information.

Step P105: if the detected values are inconsistent, prompting is performed, the preset electromagnet is controlled to be conducted, and the iron block preset on the steam appliance 40 is subjected to suction correction.

When the current angle detection information is inconsistent with the reference angle information, prompting is performed, the preset electromagnet is controlled to be conducted, and an iron block preset on the steam appliance 40 is attracted, so that correction is performed.

Step P106: and if the base detection information is consistent with the base detection information, acquiring the current base detection information.

When the current angle detection information is consistent with the reference angle information, the current base detection information is acquired through the camera, so that whether the current base detection information is a base or not is judged.

Step P107: and judging whether the current base detection information is consistent with the preset base reference information.

And judging whether the current base detection information is consistent with the preset base reference information.

Step P108: and if the two are not consistent, prompting.

If the current base detection information is inconsistent with the base reference information, prompting

Step P109: and if the charging instruction is consistent with the charging instruction, performing charging instruction.

And if the current base detection information is consistent with the base reference information, performing charging indication.

Each base 2 corresponds to a steam appliance 40, and the detection method comprises the following steps:

step Q100: current identification detection information provided on a steam appliance (40) is acquired.

The identifier identifies a current identifier provided on the steam appliance 40, and outputs the identifier.

Step Q101: and judging whether the current identification information is consistent with the preset identification reference information or not.

And judging whether the current identification information is consistent with the preset identification reference information.

Step Q102: if the two are consistent, the power supply loop of the base (2) is closed.

If the current identification information is consistent with the identification reference information, the power supply loop of the base 2 is closed.

Step Q103: if the difference is not the same, the power supply loop of the base (2) is disconnected.

And if the current identification information is inconsistent with the identification reference information, disconnecting the power supply loop of the base 2.

Power switching process of the steam appliance 40:

1. a user holds the steam appliance 40 to transversely slide towards one side far away from the base 2 and drives the connector 1 to transversely slide, so that the connector 1 is separated from the base 2 and is clamped with the locking assembly 3, and a wire is carried for wired use, and under the condition that the connector 1 is connected with mains supply, the mains supply synchronously charges a rechargeable battery pack in the steam appliance 40; after the use, transversely slide and insert to base 2 in, make locking Assembly 3 and the spacing joint of connector 1.

2. The user holds the steam appliance 40 and slides upwards longitudinally, at the moment, the steam appliance 40 is separated from the connector 1, the connector 1 is clamped on the base 2, and at the moment, the rechargeable battery pack in the steam appliance 40 supplies power to the steam appliance 40; after the use, the rechargeable battery pack is longitudinally inserted into the connector 1 in a sliding manner, and the rechargeable battery pack is charged under the condition that the connector 1 is connected with the mains supply.

It will be clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be performed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to perform all or part of the above described functions. For the specific working processes of the system, the apparatus and the unit described above, reference may be made to the corresponding processes in the foregoing method embodiments, and details are not described here again.

Based on the same inventive concept, the embodiment of the invention provides a power supply switching method for a steam appliance, which is applied to the steam appliance 40, and the power supply switching method comprises the following steps:

step 100: the use state of the steaming appliance 40 is acquired.

The steam appliance 40 is connected to the base 2 by the connector 1, and the power supply mode is switched by recognizing the use state of the steam appliance 40.

Step 200: the power supply state of the steam appliance 40 is switched according to the use state, and includes a wired state and a wireless state.

Through the identification of the using state of the steam appliance 40, the power supply state of the steam appliance 40 is switched, wherein the power supply state comprises a wired state and a wireless state, the wired state refers to a state that a rechargeable battery pack built in the steam appliance 40 is in a charging state, and the wired state is connected with the mains supply, namely a wired using mode; the wireless state is a state in which the rechargeable battery pack built in the steam appliance 40 is discharged, and the rechargeable battery pack is not charged at this time, that is, a wireless use mode.

Step 300: the steam appliance 40 is supplied with electric power from the commercial power according to the wired state.

In the wired state, the connector 1 is connected to the commercial power, and the steam appliance 40 is supplied with power.

Step 400: the steam appliance 40 is powered by a rechargeable battery pack preset in the steam appliance 40 according to the wireless state.

In the wireless state, the steam appliance 40 is directly powered by a rechargeable battery pack preset in the steam appliance 40.

Usage state of the steam appliance 40:

after the steam appliance 40 is longitudinally inserted into the connector 1, the insertion of the connector 1 and the steam appliance 40 is prompted, and a heating body preset in the steam appliance 40 is heated;

the steam appliance 40 is longitudinally pulled out to enable the steam appliance 40 to be separated from the connector 1 on the base 2, and the steam appliance is supplied with power by a charging bag;

the steam appliance 40 is transversely inserted into or pulled out of the base 2 in cooperation with the connector 1, so that the combination of the steam appliance 40 with the connector 1 and the base 2 is realized.

It will be clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be performed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to perform all or part of the above described functions. For the specific working processes of the system, the apparatus and the unit described above, reference may be made to the corresponding processes in the foregoing method embodiments, and details are not described here again.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (14)

1. A steam appliance power supply switching structure is characterized in that: comprises a connector (1) which is connected with a steam appliance (40) in a plugging and pulling way, and a locking component (3) which is arranged on a base (2) and is detachably connected with the connector (1);

the steam appliance (40) transversely slides to one side far away from the base (2) to drive the connector (1) to synchronously slide, the connector (1) is separated from being clamped with the base (2), and the connector (1) is connected with the steam appliance (40) to supply commercial power for the steam appliance;

the connector (1) is transversely connected to the base (2) in a sliding mode and is in limit clamping connection with the locking assembly (3), and the connector (1) is longitudinally inserted into the steam appliance (40) to heat a heating body preset in the steam appliance (40); the steam appliance (40) is longitudinally pulled out to enable the steam appliance (40) to be separated from the connector (1) on the base (2), and the steam appliance is powered by the rechargeable battery pack;

still including setting up spout (200) on base (2), the symmetry is provided with slider (100) that slide and be connected with spout (200) on connector (1), one side that is close to spout (200) on slider (100) still is provided with guide face (101), set up lockhole (102) that supply locking subassembly (3) to insert the locking on slider (100).

2. A steam appliance power supply switching structure according to claim 1, wherein: the locking assembly (3) comprises:

the mounting cylinder (300) is arranged on one side, far away from the sliding groove (200), of the base (2);

the insertion cylinder (301) is limited in the installation cylinder (300) in a sliding manner;

the limiting head (302) is arranged on one side, close to the sliding groove (200), of the insertion tube (301), protrudes out of the base (2) and is clamped with the lock hole (102);

a locking pressure spring (303) which is arranged between the insertion cylinder (301) and the locking cover (304) and drives the limiting head (302) to be inserted out of the installation cylinder (300);

a locking cover (304) which is arranged on the mounting cylinder (300) and is used for limiting the sliding position of the insertion cylinder (301);

at least two locking blocks (305) are arranged and are arranged on one side, far away from the locking compression spring (303), of the mounting cylinder (300);

the locking buckle (306) is arranged on the locking cover (304) and is clamped and fixed with the locking block (305);

the installation cylinder (300) is provided with a sliding groove (307) for inserting the cylinder (301) to slide, the insertion cylinder (301) is provided with an assembly groove (308) for installing a locking pressure spring (303), the installation cylinder (300) is provided with a through hole (309) for the limiting head (302) to penetrate, the through hole (309) communicates the sliding groove (200) with the sliding groove (307), the locking block (305) is further provided with a first guide surface (310) for inserting the locking buckle (306), the first guide surface (310) inclines towards the direction of the locking pressure spring (303) from the installation cylinder (300) to the locking cover (304), and the locking buckle (306) is provided with a second guide surface (311) which guides the first guide surface (310) mutually.

3. A steam appliance power supply switching structure according to claim 1, wherein: the connector (1) comprises:

a housing (103) which is inserted into the steam appliance (40) and connected to the base (2) in a sliding manner;

a bottom plate (104) disposed on the housing (103) and used for closing the cavity (113);

a connecting seat (105) arranged on the shell (103);

the fixing seat (107) is arranged on the connecting seat (105) and is fixedly connected with the shell (103) through a bolt;

the guide seat (108) is arranged on the fixed seat (107) and is pressed and fixed with the shell (103);

a connecting pressure spring (109) arranged between the connecting seat (105) and the guide seat (108);

the locking piece (128) is arranged on the guide seat (108), protrudes out of the shell (103) and is clamped and fixed with the steam appliance (40);

an unlocking member (129) which is provided on the guide base (108), protrudes from the housing (103), and is used for unlocking the locking member (128);

the recovery pressure spring (130) is arranged on the locking piece (128), is positioned between the locking piece (128) and the guide seat (108), and drives the locking piece (128) to pop out and clamp;

the metal conducting strip (110) is arranged between the guide seat (108) and the connecting pressure spring (109) and is butted and communicated with the conducting end of the steam appliance (40);

the metal connecting sheet (111) is arranged on the metal conducting sheet (110) and is used for being connected and conducted with an external wire; the steam appliance is characterized in that an installation cavity (112) for a guide seat (108) is formed in the shell (103), a cavity (113) for a connecting seat (105) and the guide seat (108) to be installed is formed in the shell (103), the cavity (113) is communicated with the installation cavity (112), a moving groove (114) for connecting a pressure spring (109) and a metal conducting plate (110) to slide is formed in the guide seat (108), a socket (115) for inserting a conducting post (41) in the steam appliance (40) is formed in the shell (103) and the guide seat (108), an installation groove (131) for installing a locking piece (128) is further formed in the guide seat (108), a through hole (132) for unlocking the unlocking piece (128) is formed in the guide seat (108), and a bayonet (133) for clamping and fixing the locking piece (128) is formed in the steam appliance (40).

4. A steam appliance power supply switching structure according to claim 3, wherein: connector (1) still includes:

the limiting block (116) is arranged on one side, close to the guide seat (108), of the connecting seat (105) and is inserted and fixed on the guide seat (108);

the connecting column (117) is arranged on one side of the connecting seat (105) close to the guide seat (108), and one end of the connecting pressure spring (109) is sleeved and fixed;

the guide post (118) is arranged on one side of the guide seat (108) close to the connecting seat (105) and is used for the metal conductive flat sheet to be inserted and slid;

the guide seat (108) is further provided with a limiting groove (119) for inserting a limiting block (116), and the metal conducting strip (110) is further provided with a guide hole (120) for inserting and sliding a guide column (118).

5. A steam appliance power supply switching structure according to claim 3, wherein: still be provided with dustproof piece (121) between guide seat (108) and casing (103), be provided with on dustproof piece (121) with socket (115) corresponding open slot (122), just one side that is close to casing (103) on dustproof piece (121) is provided with movable groove (123), movable groove (123) communicate with each other with open slot (122).

6. A steam appliance power supply switching structure according to claim 3, wherein: the shell (103) is also provided with a wire protecting sleeve (124), the shell (103) is provided with a limiting hole (125) for the wire protecting sleeve (124) to transmit and limit, and the wire protecting sleeve (124) is also provided with a limiting ring (126) which is mutually limited with the limiting hole (125);

the wire sheath (124) is also provided with a plurality of folding gaps (127).

7. A steam appliance, characterized by: comprises the steam appliance power supply switching structure as claimed in claims 1 to 6, and further comprises a base (2), wherein the base (2) comprises a placing bottom plate (201), a placing side plate (202) and a placing box (203);

a first connecting buckle (204) is arranged on the placing box (203), a first buckle groove (205) mutually buckled with the first connecting buckle (204) is arranged on the placing side plate (202), a second connecting buckle (206) is also arranged on the placing box (203), and a second buckle piece (207) buckled with the second connecting buckle (206) is arranged on the placing side plate (202);

the placing side plate (202) is further provided with a third connecting buckle (208), the placing bottom plate (201) is provided with a third buckle piece (209) mutually buckled with the third connecting buckle (208), the placing bottom plate (201) is further provided with a fifth connecting buckle (225), the placing box (203) is further provided with a fifth buckle piece (226) mutually buckled with the fifth connecting buckle (225), the placing box (203) is further provided with a placing column (210), the placing bottom plate (201) is provided with a placing seat (211) mutually matched with the placing column (210), and the placing seat (211) and the placing column (210) are fixed through bolts.

8. A steaming appliance as claimed in claim 7, wherein: the mounting box (212) for mounting components is further arranged on the placing side plate (202), the mounting box (212) is further provided with a mounting cover (213), the mounting box (212) is symmetrically provided with fourth connecting buckles (214), and the mounting cover (213) is provided with fourth buckling pieces (215) buckled with the fourth connecting buckles (214).

9. A steaming appliance as claimed in claim 7, wherein: a leaning sheet (216) for leaning against the steam appliance (40) is further arranged on one side, close to the steam appliance (40), of the placing box (203), a connecting block (217) for fixing and pressing the placing side plate (202) is arranged on the leaning sheet (216), and a connecting groove (218) for inserting and limiting the connecting block (217) is arranged on the placing box (203);

the placing box (203) is also provided with a placing groove (219) for placing the leaning sheet (216).

10. A steaming appliance as claimed in claim 7, wherein: it places piece (220) still to be provided with on bottom plate (201) to place, it is provided with location arch (221) on piece (220) to place, it supplies protruding (221) male locating hole (222) of location to be provided with on bottom plate (201) to place, it is provided with deformation knot (223) to place the symmetry on piece (220), it supplies deformation knot (223) to insert deformation groove (224) of joint to place to be provided with on bottom plate (201).

11. A steam appliance according to claim 8, wherein: the method comprises the following steps:

acquiring current distance detection information of the base (2) and the steam appliance (40);

judging whether the current distance detection information is consistent with preset reference distance information or not;

if not, prompting;

if the angle detection information is consistent with the angle detection information, current angle detection information of the steam appliance (40) is acquired;

judging whether the current angle detection information is consistent with preset reference angle information or not;

if the detected values are inconsistent, prompting is carried out, the preset electromagnet is controlled to be conducted, and the iron block preset on the steam appliance (40) is subjected to suction correction;

if the base detection information is consistent with the base detection information, the current base (2) detection information is obtained;

judging whether the detection information of the current base (2) is consistent with the preset reference information of the base (2);

if not, prompting;

and if the charging instruction is consistent with the charging instruction, performing charging instruction.

12. A steam appliance according to claim 11, wherein: the method comprises the following steps:

acquiring current identification detection information provided on a steam appliance (40);

judging whether the current identification information is consistent with the preset identification reference information or not;

if the two are consistent, closing a power supply loop of the base (2);

if the difference is not the same, the power supply loop of the base (2) is disconnected.

13. A steam appliance power supply switching method is applied to a steam appliance (40), and is characterized in that: including placing base (2) on the desktop, can dismantle connector (1) of connecting on base (2), be equipped with the rechargeable battery package that provides the electric energy in steam utensil (40), the power supply switching method includes:

acquiring the use state of the steam appliance (40);

switching a power supply state of the steam appliance (40) according to the use state, the power supply state including a wired state and a wireless state;

the steam appliance (40) is powered by commercial power according to the wired state;

the steam appliance (40) is powered by a rechargeable battery pack preset in the steam appliance (40) according to the wireless state.

14. A steam appliance power supply switching method according to claim 13, wherein: the method comprises the following steps:

after the steam appliance (40) is longitudinally inserted into the connector (1), the insertion of the connector (1) and the steam appliance (40) is prompted, and a heating body preset in the steam appliance (40) is heated;

the steam appliance (40) is longitudinally pulled out to separate the steam appliance (40) from the connector (1) on the base (2), and the steam appliance (40) is powered by a rechargeable battery pack;

the steam appliance (40) is matched with the connector (1) and transversely plugged on the base (2) so as to realize the combination of the steam appliance (40) with the connector (1) and the base (2).

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