CN205758313U - A kind of Electromagnetic Heating kettle - Google Patents

Abstract

The utility model discloses a kind of Electromagnetic Heating kettle, including container and for container heating heated base, heated base includes shell, bobbin loader it is provided with in shell, radiator fan, circuit module, temperature sensor, magnet exciting coil it is provided with in bobbin loader, the opening of housing top end is connected to a support plate, prop up support plate and be provided with at least one lobe, bobbin loader is fixing with a support plate to be connected and is positioned at below a support plate, circuit module is positioned at below bobbin loader and is electrically connected with temperature sensor, temperature sensor passes a support plate from the bottom to top, prop up support plate be positioned at the top of heated base and support container.Container of the present utility model is directly heated by magnet exciting coil after being placed on support panel surface, owing to magnet exciting coil is arranged on bobbin loader, and bobbin loader connects fixing support plate, therefore magnet exciting coil can simply, be firmly positioned in heated base, improve the convenience degree of heated base internal spare and accessory parts assembling.This utility model can be applicable to boil water.

Description

A kind of Electromagnetic Heating kettle

Technical field

This utility model relates to household appliance technical field, particularly relates to a kind of Electromagnetic Heating kettle.

Background technology

Electromagnetic Heating kettle generally comprises a heated base and is placed on heated base the container of (interior), utilizes magnet exciting coil that container is carried out the heating of electromagnetic type.At present, the structure within heated base is complex, needs the cooperation of relatively multiple component just can fix magnet exciting coil, and the assembling for heated base is the most unfavorable.

Utility model content

In order to solve the problems referred to above, the purpose of this utility model is to provide a kind of Electromagnetic Heating kettle, its simple in construction, easy to assembly.

This utility model be the technical scheme is that

A kind of Electromagnetic Heating kettle, including container and for container heating heated base, described heated base includes shell, bobbin loader it is provided with in shell, radiator fan, circuit module and temperature sensor, magnet exciting coil it is provided with in bobbin loader, the opening of housing top end is connected to a support plate, described support plate is provided with at least one lobe, described bobbin loader is fixing with a support plate to be connected and is positioned at below a support plate, described circuit module is positioned at below bobbin loader and is electrically connected with temperature sensor, described temperature sensor passes a support plate from the bottom to top, described support plate is positioned at the top of heated base and supports described container.

As further improvement of the utility model, described container includes bottle body and is connected to the five metals chassis of bottle body bottom, outer wall bottom described bottle body is surrounded with annular sleeve, the outer rim on five metals chassis is wrapped in interior and is located by connecting with five metals chassis by described annular sleeve, and described support plate is flexibly connected with described annular sleeve.

As further improvement of the utility model, described support plate also includes the support platform being positioned at surrounding, described lobe is supported platform and is looped around interior and raises up relative to supporting platform thus form boss, and described boss is from the bottom to top through the opening bottom described annular sleeve.

As further improvement of the utility model, described support plate also includes the support platform being positioned at surrounding, described lobe is arranged ringwise in support panel surface thus is formed dimple in the range of the cincture of lobe, described annular sleeve one end abuts and supports platform, the other end wraps up described lobe, and the opening bottom described annular sleeve is positioned at described dimple.

As further improvement of the utility model, described five metals chassis includes the thermal conductive surface in bottom and the first cavity formed in thermal conductive surface periphery and the second cavity between thermal conductive surface and the first cavity.

As further improvement of the utility model, described annular sleeve has the supporting part of direct or indirect support diapire, is provided with positioning element and connects described five metals chassis by described positioning element in annular sleeve.

As further improvement of the utility model, described positioning element includes at least one limit rib and at least one button angle, one end of described limit rib connects annular sleeve inwall, the other end abuts outer end, five metals chassis, described button angle connect annular sleeve inwall and with limit rib interlaced arrangement, the top end face that five metals chassis described in the snapping of described button angle is peripheral, is provided with flexible glue circle between described supporting part and diapire.

As further improvement of the utility model, described bobbin loader is connected fixing with a support plate by bolt, the try to get to the heart of a matter periphery of end face of described support is provided with some locating dowels downwardly extended, the periphery of described bobbin loader is provided with and upwardly extends and position hole with locating dowel one to one, described locating dowel is inserted in hole, location, and described bolt is from the bottom to top through positioning hole and being screwed onto in the screwed hole in locating dowel.

As further improvement of the utility model, described container is furnished with container cover, is removably connected strainer basket bottom described container cover, and described strainer basket is suspended in container.

As further improvement of the utility model, described container is furnished with handle.

The beneficial effects of the utility model are: container of the present utility model is directly heated by magnet exciting coil after being placed on support panel surface, owing to magnet exciting coil is arranged on bobbin loader, and bobbin loader connects fixing support plate, therefore magnet exciting coil can simply, be firmly positioned in heated base, improve the convenience degree of heated base internal spare and accessory parts assembling.

Accompanying drawing explanation

With embodiment, this utility model is further illustrated below in conjunction with the accompanying drawings.

Fig. 1 is structural representation of the present utility model；

Fig. 2 is sectional view of the present utility model；

Fig. 3 is the enlarged diagram of part A in Fig. 2；

Fig. 4 is the first cavity and the schematic diagram of the second cavity；

Fig. 5 is the structural representation of container bottom；

Fig. 6 is the structural representation of annular sleeve；

Fig. 7 is the decomposing schematic representation of heated base；

Fig. 8 is the structural representation of Electromagnetic Heating kettle the second embodiment；

Fig. 9 is the sectional view of Electromagnetic Heating kettle the second embodiment；

Figure 10 is the enlarged diagram of part B in Fig. 9.

Detailed description of the invention

Electromagnetic Heating kettle as depicted in figs. 1 and 2, including container and for container heating heated base.

Heated base has the shell 3 of a tubular, and shell 3 is built-in is equipped with bobbin loader 42, radiator fan 6, circuit module 44 and temperature sensor 43, and magnet exciting coil 41 is wound around and is arranged in bobbin loader 42.The opening on shell 3 top is connected to a support plate 31, and for supporting and positioning vessel, the structure of a support plate 31 can describe later.Bobbin loader 42 is fixing with a support plate 31 to be connected and is positioned at below a support plate 31, and the container on a support plate 31 is heated by the way of cutting magnetic induction line by magnet exciting coil 41.

In general described circuit module 44 is PCB, and it is positioned at below bobbin loader 42 and is electrically connected with temperature sensor 43.The bottom opening of shell 3 is connected to a bottom 33 specifically, and PCB is fixed in bottom 33 upper surface by screw.

Described temperature sensor 43 passes a support plate 31 from the bottom to top, and its part passed can abut container bottom, to detect vessel temp, thus carries out being automatically stopped etc. automatically controlling.

Referring to figs. 1 to Fig. 3, in embodiment, a support plate 31 is positioned at the top of heated base and supports container, and the upper surface i.e. propping up support plate 31 is not less than shell 3 top end face, and being not less than the top of any ingredient of heated base, container is for heat conduction and accommodates the part of liquid all above heated base.

Container includes the bottle body 2 that glass material is made and the five metals chassis 21 being connected to bottle body 2 bottom, and five metals chassis 21 is positioned at the surface of magnet exciting coil 41.Outer wall bottom bottle body 2 is surrounded with ring-type annular sleeve 22; this annular sleeve 22 is higher than five metals chassis 21; and in the outer rim on five metals chassis 21 is all wrapped in; human body and foreign object will not directly touch five metals chassis 21; heat is also not easy from five metals chassis 21 from side to passing out, and plays the heat insulation and effect of protection.Described annular sleeve 22 is located by connecting with five metals chassis 21.

In embodiment, the upper surface of a support plate 31 supports annular sleeve 22, and a support plate 31 is not contact with five metals chassis 21, then, the heat on five metals chassis 21 is not directly transferred to a support plate 31, and the impact on a support plate 31 and heated base is the slightest.

With reference to Fig. 2, Fig. 3 and Fig. 5 and Fig. 6, a support plate 31 is made up of two parts, and be in surrounding respectively supports platform 311 and in middle lobe 312, and lobe 312 is protruding upward relative to support platform 311 thus forms a circular boss 315.Wherein, it is provided with the inclined-plane of transition between support platform 311 and boss 315, it is simple to dripping bottom amount discharge container, thus is further ensured that the upper surface of a support plate 31 normally works.Annular sleeve 22 bottom has the most downwardly convex strong point 221 and utilizes the strong point to abut support platform 311 upper surface.Boss 315 has certain altitude, it can be from the bottom to top through above-mentioned opening 225, and at least it is not less than the top end face of opening 225, this boss 315 is the most spacing for carrying out annular sleeve 22, to this end, the external diameter of boss 315 is slightly less than between the hole wall of the aperture of opening 225, i.e. boss 315 sidewall and opening 225 only has less space, thus boss 315 is only capable of moving radially the least segment distance, but have no effect on annular sleeve 22 from top to bottom be placed on boss 315 surrounding.

With reference to Fig. 3 and Fig. 4, described five metals chassis 21 includes the thermal conductive surface 213 being positioned at bottom and the first cavity 211 formed in thermal conductive surface 213 periphery.Thermal conductive surface 213 is planar sheet, occupies most of area on five metals chassis 21, is positioned at directly over magnet exciting coil 41, is mainly used as electromagnetism heat conduction.First cavity 211 is surrounded by first inwall the 214, second inwall 215 being arranged concentrically and the diapire 216 that connects first inwall the 214, second inwall 215 in bottom, and the second inwall 215 to the first inwall 214 is closer to thermal conductive surface 213.Bottle body can be glass bottle body, pottery bottle body, plastic cement bottle body, five metals bottle body etc., is preferably glass bottle body in embodiment, and the bottom of glass bottle body 2 is mounted and fixed in the first cavity 211 by the way of viscose glue.

The supporting part of described annular sleeve 22, for the diapire 216 of direct or indirect support the first cavity 211.Directly support i.e. supporting part directly contacts with diapire 216 to produce support, and support i.e. also has medium between supporting part and bottom indirectly, and such as solid state medium is to separate both.

With reference to Fig. 3 and Fig. 6, it is additionally provided with in annular sleeve 22 and limits and the positioning element of location the first inwall 214.Described positioning element includes that at least one limit rib 223, each limit rib 223 are radially arranged, its one end connects annular sleeve 22 inwall, and the other end abuts first inwall 214 on five metals chassis 21, limits the radial direction degree of freedom of the first inwall 214.

Described positioning element includes also including that at least one detains angle 222, for limiting the axial freedom of the first inwall 214.Each button angle 222 connect annular sleeve 22 inwall and with limit rib 223 interlaced arrangement, these button angles 222 are positioned at top and the top end face of its lower surface snapping the first inwall 214 of the first inwall 214.Now, in order to ensure that the top end face of the first inwall 214 can prop up button angle 222, flexible glue circle 24 it is provided with between supporting part and diapire 216, it has elasticity, flexible glue circle 24 can be caused after five metals chassis 21 is pressed downward against flexible glue circle 24 to compress, thus the first inwall 214 is put in below button angle 222, removes the downforce on five metals chassis 21 afterwards, the elastic-restoring force of flexible glue circle 24 will upwards push up to buckleing at angle 222 by the first inwall 214.

Transmit to separate the heat of thermal conductive surface 213 and the first cavity 211, thus reduce the damage at glass bottle body 2 and the first cavity 211 viscose glue, five metals chassis 21 is additionally provided with the second cavity 212, second cavity 212 is between thermal conductive surface 213 and the first cavity 211, Open Side Down, thus the first cavity 211 and the second cavity 212 constitute horizontal " S " type, and this shape can be by bending or roll forming.For the mode that thermal conductive surface 213 is connected directly to the first cavity 211, owing to having the first cavity 211, thermal conductive surface 213 to the first cavity 211 has the distance of metal material to be increased, and heat transmission exists loss, to this end, the temperature of the first cavity 211 decreases.

The second above-mentioned cavity 212 is by the second inwall 215 threeth inwall 217 concentric with the second inwall 215 and is connected the roof 218 of the second inwall the 215, the 3rd inwall 217 at top and surrounds, namely first cavity 211 and the second cavity 212 share the second inwall 215, the bottom of the 3rd inwall 217 connects thermal conductive surface 213.Certain interval is there is in the bottom face of thermal conductive surface 213 with the top end face of boss 315, thus reduce the heat radiation to a support plate 31, in other embodiments, a support plate 31 uses similar micro-crystal plate material, the bottom face of thermal conductive surface 213 can also directly contact with the top end face of boss 315, thus improves the thermal efficiency.

In embodiment, with reference to Fig. 7, bobbin loader 42 is connected fixing with a support plate 31 by bolt 5.Specifically, the periphery propping up support plate 31 bottom face is provided with some locating dowels 313 downwardly extended, locating dowel 313 is hollow, inside is internal thread hole, the periphery of bobbin loader 42 is provided with and upwardly extends and position hole 421 with locating dowel 313 one to one, locating dowel 313 is inserted and is positioned in hole 421, and locating dowel 313 outer wall and the inwall laminating of hole 421, location, described bolt 5 is from the bottom to top through positioning hole 421 and being screwed onto in the screwed hole in locating dowel 313.

With reference to figs. 2 and 7; radiator fan 6 is fixed on the sidewall of shell 3 or bottom, is positioned at the lower section of magnet exciting coil 41, and the sidewall of shell 3 or bottom 33 are provided with some louvres 32; just the just air outlet to radiator fan 6 to louvre 32, is mainly used in heat radiation and circuit protection.

In embodiment, with reference to Fig. 2, container is also equipped with container cover 1 and handle 23, is removably connected strainer basket 13 bottom container cover 1, and strainer basket 13 is suspended in container.By the strainer basket 13 added, Folium Camelliae sinensis, health preserving food materials etc. can be placed at strainer basket 13 and brew.

Heated base is also equipped with circuit kit and controls device 7.As depicted in figs. 1 and 2, the governor circuit box 72 being electrically connected with including the control handle 71 and control handle 71 that are arranged on shell 3 sidewall, it is internal that governor circuit box 72 is positioned at shell 3, and a display screen 8 is electrically connected with governor circuit box and is arranged on control handle, stretching out shell 3 from the inside to the outside.

It is with reference to second embodiment of Fig. 8 to Figure 10 is distinguished the above embodiments: the lobe 312 on a support plate 31 is arranged ringwise on support plate 31 surface, thus in the range of the cincture of lobe 312, form dimple 314, annular sleeve 22 extends formation along sidewall 224 to bottom and has the support ring 227 of protrusion, stopper slot 226 it is provided with inside annular sleeve 22, described stopper slot 226 wraps up described lobe 312 clearance fit, carry out container radially positioning, and make the thermal conductive surface 213 of five au base plates 21 be positioned at described dimple 314, wherein, support ring 227 has certain altitude, the support platform 311 of described support dish surrounding is abutted by support ring 227, thermal conductive surface 213 is made not contact the upper surface of dimple 314.

The above be this utility model preferred embodiment, it is not intended that the restriction to this utility model protection domain.

Claims (10)

1. null1. an Electromagnetic Heating kettle，Including container and for container heating heated base，It is characterized in that: described heated base includes shell (3)，Bobbin loader (42) it is provided with in shell (3)、Radiator fan (6)、Circuit module (44) and temperature sensor (43)，Magnet exciting coil (41) it is provided with in bobbin loader (42)，The opening on shell (3) top is connected to a support plate (31)，Described support plate (31) is provided with at least one lobe (312)，Described bobbin loader (42) is fixing with a support plate (31) to be connected and is positioned at support plate (31) lower section，Described circuit module (44) is positioned at bobbin loader (42) lower section and is electrically connected with temperature sensor (43)，Described temperature sensor (43) passes a support plate (31) from the bottom to top，Described support plate (31) is positioned at the top of heated base and supports described container.
2. Electromagnetic Heating kettle the most according to claim 1, it is characterized in that: described container includes bottle body (2) and is connected to the five metals chassis (21) of bottle body (2) bottom, the outer wall of described bottle body (2) bottom is surrounded with annular sleeve (22), the outer rim of five metals chassis (21) is wrapped in interior and is located by connecting with five metals chassis (21) by described annular sleeve (22), and described support plate (31) is flexibly connected with described annular sleeve (22).
3. Electromagnetic Heating kettle the most according to claim 2, it is characterized in that: described support plate (31) also includes being positioned at the support platform (311) of surrounding, described lobe (312) is supported platform (311) and is looped around interior and raises up relative to supporting platform (311) thus form boss (315), described boss (315) is from the bottom to top through the opening (225) of described annular sleeve (22) bottom, and described annular sleeve (22) bottom abuts described support platform (311).
4. Electromagnetic Heating kettle the most according to claim 2, it is characterized in that: described support plate (31) also includes being positioned at the support platform (311) of surrounding, described lobe (312) is arranged ringwise on support plate (31) surface thus is formed dimple (314) in the range of the cincture of lobe (312), described annular sleeve (22) one end abuts and supports platform (311), the other end wraps up described lobe (312), and the opening (225) of described annular sleeve (22) bottom is positioned at described dimple (314).
5. 5. according to the Electromagnetic Heating kettle described in claim 3 or 4, it is characterised in that: described five metals chassis (21) includes the thermal conductive surface (213) being positioned at bottom and the first cavity (211) formed in thermal conductive surface (213) periphery and the second cavity (212) being positioned between thermal conductive surface (213) and the first cavity (211).
6. 6. the Electromagnetic Heating kettle described in claim 5, it is characterized in that: described annular sleeve (22) has the supporting part of direct or indirect support diapire (216), be provided with positioning element in annular sleeve (22) and connect described five metals chassis (21) by described positioning element.
7. Electromagnetic Heating kettle the most according to claim 6, it is characterized in that: described positioning element includes at least one limit rib (223) and at least one button angle (222), one end of described limit rib (223) connects annular sleeve (22) inwall, the other end abuts five metals chassis (21) outer end, described button angle (222) connect annular sleeve (22) inwall and with limit rib (223) interlaced arrangement, the top end face that five metals chassis described in described button angle (222) snapping is peripheral, flexible glue circle (24) it is provided with between described supporting part and diapire (216).
8. Electromagnetic Heating kettle the most according to claim 1, it is characterized in that: described bobbin loader (42) is connected fixing with a support plate (31) by bolt (5), the periphery of described support plate (31) bottom face is provided with some locating dowels (313) downwardly extended, the periphery of described bobbin loader (42) is provided with and upwardly extends and position hole (421) one to one with locating dowel (313), described locating dowel (313) is inserted in hole, location (421), described bolt (5) is from the bottom to top through positioning hole (421) and being screwed onto in the screwed hole in locating dowel (313).
9. Electromagnetic Heating kettle the most according to claim 1 and 2, it is characterized in that: described container is furnished with container cover (1), described container cover (1) bottom is removably connected strainer basket (13), and described strainer basket (13) is suspended in container.
10. Electromagnetic Heating kettle the most according to claim 1 and 2, it is characterised in that: described container is furnished with handle (23).