CN116817328A - Heating device, energy storage power supply, induction cooker and energy storage electric appliance - Google Patents

Abstract

The application discloses a heating device, an energy storage power supply, an electromagnetic oven and an energy storage electric appliance. The energy storage electric appliance comprises a heating device and an energy storage power supply capable of charging and discharging. The heating device is provided with an assembly part and an electric connecting piece and is used for cooking food. The heating device is combined with the energy storage power supply, the energy storage power supply is provided with a mounting piece and an electric connection piece, the mounting piece is matched with the mounting piece to limit the relative movement of the heating device and the energy storage power supply along the combination surface, and the electric connection piece is used for being electrically connected with the electric connection piece so that the energy storage power supply supplies power to the heating device. Under the condition that the heating device needs to cook, the heating device can be stably placed on the energy storage power supply, and the heating device and the energy storage power supply cannot move relatively along the joint surface. Meanwhile, the energy storage power supply is electrically connected with the electric connecting piece to supply power to the heating device. Compared with the existing energy storage electric appliance, the heating device and the energy storage power supply in the energy storage electric appliance can be matched with each other well.

Description

Heating device, energy storage power supply, induction cooker and energy storage electric appliance

Technical Field

The application relates to the technical field of portable energy storage, in particular to a heating device, an energy storage power supply, an electromagnetic oven and an energy storage electric appliance.

Background

Outdoor camping is a life style which is emerging at present, and people usually take an outdoor energy storage power supply to supply power to electric appliances such as a heating device and the like when camping outdoors so as to cook and perform other activities. However, the current heating device cannot be well matched with an energy storage power supply.

Disclosure of Invention

The embodiment of the application provides a heating device, an energy storage power supply, an electromagnetic oven and an energy storage electric appliance, which are at least used for solving the problem that the heating device cannot be matched with the energy storage power supply well.

The energy storage electric appliance of the embodiment of the application comprises a heating device and an energy storage power supply capable of charging and discharging. The heating device is provided with an assembly part and an electric connecting piece and is used for cooking food. The heating device is combined with the energy storage power supply, the energy storage power supply is provided with a mounting part and an electric connection part, the mounting part is matched with the mounting part to limit the relative movement of the heating device and the energy storage power supply along the combination surface, and the electric connection part is used for being electrically connected with the electric connection part so that the energy storage power supply supplies power to the heating device.

In some embodiments, the fitting and the mounting cooperate with the heating device by means of a snap-fit.

In some embodiments, the fitting and the mounting member removably connect the heating device to the stored energy power source by means of a snap-fit connection.

In certain embodiments, the heating device comprises first and second opposite sides, the stored energy power source comprising joined top and side walls, the second side of the heating device being opposite the top wall of the stored energy power source; the assembly part is a clamping hook rotatably arranged on the second side of the heating device, the mounting part is a clamping groove arranged on the side wall of the energy storage power supply, and the clamping hook is clamped with the clamping groove.

In certain embodiments, the heating device comprises first and second opposite sides, the stored energy power source comprising joined top and side walls, the second side of the heating device being opposite the top wall of the stored energy power source; the assembly part is a clamping groove arranged on the side wall of the heating device, the mounting part is a clamping hook rotatably arranged on the second side of the energy storage power supply, and the clamping hook is clamped with the clamping groove.

In some embodiments, the hook includes a connecting portion and a locking portion that are connected in a bending manner, the locking portion is used for locking with the locking groove, and the hook can rotate to switch between a first state and a second state; the assembly part is a clamping hook rotatably arranged on the second side of the heating device, and the mounting part is a clamping groove arranged on the side wall of the energy storage power supply: if the clamping hook is in a first state, the clamping part is clamped with the clamping groove, and if the clamping hook is in a second state, the connecting part is attached to the second side of the heating device; or if the clamping hook is in a first state, the clamping part is clamped in the clamping groove, and if the clamping hook is in a second state, the clamping part is positioned outside the clamping groove; the assembly part is a clamping groove arranged on the side wall of the heating device, and the mounting part is a clamping hook rotatably arranged on the second side of the energy storage power supply: if the clamping hook is in a first state, the clamping part is clamped with the clamping groove, and if the clamping hook is in a second state, the connecting part is attached to the second side of the energy storage power supply; or if the clamping hook is in the first state, the clamping part is clamped in the clamping groove, and if the clamping hook is in the second state, the clamping part is positioned outside the clamping groove.

In certain embodiments, the heating device comprises first and second opposite sides, the stored energy power source comprises first and second opposite sides, and the second side of the heating device is opposite the second side of the stored energy power source; the second side of the heating device is provided with a locating piece, the second side of the energy storage power supply is provided with a limiting piece, and the locating piece is matched with the limiting piece to limit the assembly position of the heating device and the energy storage power supply.

In some embodiments, the positioning element is a protrusion and the limiting element is a groove.

In some embodiments, the positioning element is a groove and the limiting element is a protrusion.

In some embodiments, one of the positioning member and the spacing member is a magnetic member, and the other is a metal capable of being magnetized.

In certain embodiments, the positioning member and the spacing member are both magnetic members.

In some embodiments, one of the electrical connector and the electrical connector is a plug, and the other is an interface, and the plug is plugged into the interface to electrically connect the heating device and the energy storage power source.

In some embodiments, the electrical connection is a receiving coil, the electrical connection is a transmitting coil, and the transmitting coil and the receiving coil cooperate to cause the stored energy power source to power the heating device.

In some embodiments, the electrical connector is an electrical connection terminal and the electrical connector is an electrical connection terminal that contacts the electrical connection terminal to electrically connect the heating device with the stored energy power source.

In certain embodiments, at least one of the heating device and the stored energy power source is provided with a handle for a user to hold.

In some embodiments, at least one of the heating device and the energy storage power supply is provided with a heat dissipation member and/or a heat dissipation through hole communicated with the outside, the heat dissipation member is used for dissipating heat of the heating device and/or the energy storage power supply, and the heat dissipation through hole is used for transmitting heat to the outside.

In certain embodiments, the heating device comprises any one of an induction cooker, an electric rice cooker, an electric oven, an electric bakeware, and an electric fryer.

The heating device is used for cooking food and comprises an assembly part and an electric connecting piece. The assembly part is used for being matched with a clamping hook of a mounting part of the energy storage power supply so as to limit the relative movement of the heating device and the energy storage power supply along the joint surface. The electric connecting piece is used for being electrically connected with the electric receiving piece of the energy storage power supply so that the energy storage power supply supplies power to the heating device.

The energy storage power supply of the embodiment of the application is used for charging and discharging and comprises a mounting piece and a power receiving piece. The mounting piece is used for being matched with a fitting clamping hook of the heating device so as to limit the relative movement of the heating device and the energy storage power supply along the joint surface. The power receiving piece is used for being electrically connected with the electric connecting piece of the heating device so that the energy storage power supply supplies power to the heating device.

The induction cooker of the embodiment of the application comprises an assembly part and an electric connecting piece. The assembly part is used for being matched with the installation part of the energy storage power supply in a clamping mode so as to limit the relative movement of the induction cooker and the energy storage power supply along the joint surface. The electric connecting piece is used for being electrically connected with the electric connecting piece of the energy storage power supply so that the energy storage power supply supplies power to the induction cooker.

In the heating device, the energy storage power supply, the electromagnetic oven and the energy storage electric appliance, the assembly part of the heating device is matched with the installation part of the energy storage power supply, so that the heating device can be stably placed on the energy storage power supply under the condition that the heating device needs to cook, and the heating device and the energy storage power supply cannot move relatively along the joint surface. Meanwhile, under the condition that the heating device is placed on the energy storage power supply, the energy storage power supply is electrically connected with the electric connecting piece to supply power to the heating device. Compared with the existing energy storage electric appliance, the heating device and the energy storage power supply in the energy storage electric appliance can be matched with each other well.

Additional aspects and advantages of the application will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the application.

Drawings

The foregoing and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic diagram of an energy storage appliance according to certain embodiments of the present application;

FIG. 2 is an exploded schematic view of the energy storage appliance of FIG. 1;

FIG. 3 is a schematic diagram of a heating device in an energy storage appliance according to certain embodiments of the present application;

FIG. 4 is a schematic diagram of the connection of a heating device and an energy storage power source according to certain embodiments of the present application;

fig. 5 is a schematic view of a heating device and an energy storage power supply according to some embodiments of the present application, where a positioning member and a limiting member are provided.

Description of main reference numerals:

1000. an energy storage electrical appliance;

100. a heating device; 10. a first side of the heating device; 20. a second side of the heating device; 30. a fitting; 37. a hook; 371. a connection part; 373. an engagement portion; 39. a clamping groove; 40. a positioning piece; 50. an electrical connection; 60. a handle; 70. a heat sink; 80. a heat dissipation through hole;

300. an energy storage power supply; 301. a first side of the energy storage power supply; 302. a second side of the energy storage power supply; 303. a top wall; 304. a sidewall; 305. a mounting member; 3051. a first mounting surface; 3053. a second mounting surface; 307. a limiting piece; 309. and a power receiving piece.

Detailed Description

Embodiments of the present application are described in detail below, and are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present application and are not to be construed as limiting the present application.

In the description of embodiments of the present application, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more of the described features. In the description of the embodiments of the present application, the meaning of "plurality" is two or more, unless explicitly defined otherwise.

Outdoor camping is a life style which is emerging at present, and people usually take an outdoor energy storage power supply to supply power to electric appliances such as a heating device and the like when camping outdoors so as to cook and perform other activities. However, the current heating device cannot be well matched with an energy storage power supply. To solve this problem, the present application provides a heating device 100, an energy storage power supply 300, an induction cooker and an energy storage electrical apparatus 1000 (shown in fig. 1).

Referring to fig. 1, 3 and 4, an energy storage apparatus 1000 according to an embodiment of the application includes a heating device 100 and an energy storage power source 300 capable of charging and discharging. The heating device 100 is provided with a fitting 30 and an electrical connection 50, and the heating device 100 is used for cooking food. The heating device 100 is combined with the energy storage power supply 300, the energy storage power supply 300 is provided with a mounting piece 305 and an electric connection piece 309, the assembly piece 30 is matched with the mounting piece 305 to limit the relative movement of the heating device 100 and the energy storage power supply 300 along the combination surface, and the electric connection piece 50 is used for being electrically connected with the electric connection piece 309 so that the energy storage power supply 300 supplies power to the heating device 100. Wherein, the heating device 100 comprises any one of an induction cooker, an electric oven, an electric baking tray and an electric frying pan. The heating device 100 according to the embodiment of the present application is an induction cooker.

In the energy storage electric appliance 1000 of the present application, the assembly part 30 of the heating device 100 is matched with the mounting part 305 of the energy storage power supply 300, so that the heating device 100 can be stably placed on the energy storage power supply 300 under the condition that the heating device 100 needs to cook, and the heating device 100 and the energy storage power supply 300 cannot relatively move along the joint surface. Meanwhile, in case the heating device 100 is placed on the energy storage power source 300, the energy storage power source 300 is electrically connected to the power receiving member 309 through the electrical connection member 50 to supply power to the heating device 100. Compared with the existing energy storage electric appliance, the heating device 100 and the energy storage power supply 300 in the energy storage electric appliance 1000 of the application can be better matched with each other.

The energy storage device 1000 is further described below with reference to the accompanying drawings.

Referring to fig. 4, in some embodiments, the fitting 30 and the mounting member 305 are engaged by a hook to detachably connect the heating device 100 to the stored energy power source 300.

Referring to fig. 2 and 4, in some embodiments, the heating device 100 includes a first side 10 and a second side 20 opposite to each other, the energy storage power source 300 includes a top wall 303 and a side wall 304 connected to each other, and the second side 20 of the heating device 100 is opposite to the top wall 303 of the energy storage power source 300. In the case where the heating device 100 is combined with the energy storage power supply 300, the combining surface is an abutting surface of the second side 20 of the heating device 100 and the second side 302 of the energy storage power supply 300.

In one embodiment, the assembly 30 is a hook 37 rotatably disposed on the second side 20 of the heating device 100, and the mounting member 305 is a slot 39 disposed on the sidewall 304 of the energy storage power supply 300, where the hook 37 engages with the slot 39.

The fitting 30 and the second side 20 of the heating device 100 may be provided with rotational shafts for connection, and the number of fittings 30 may be, but is not limited to, two, three, four or more. In one example, the number of fittings 30 is two, with two fittings 30 being disposed on opposite sides of the second side 20 of the heating device 100. At this time, the number of the mounting members 305 is two, the two mounting members 305 are disposed on two opposite sides of the sidewall 304 of the energy storage power source 300, and the assembly member 30 is engaged with the corresponding mounting member 305. In another example, the number of fittings 30 is four, and four fittings 30 may be disposed on opposite sides of the second side 20 of the heating device 100. At this time, the number of the mounting pieces 305 may be two or four. In the case where there are two mounting members 305, the two mounting members 305 are provided on opposite sides of the side wall 304 of the energy storage power supply 300, respectively, and the two mounting members 30 on the same side are engaged with one mounting member 305. In the case of four mounting members 305, four mounting members 305 are disposed on opposite sides of the sidewall 304 of the energy storage power supply 300 in pairs, and each mounting member 30 is engaged with a corresponding one of the mounting members 305.

With continued reference to fig. 4, the hook 37 includes a connecting portion 371 and an engaging portion 373, wherein the connecting portion 371 is bent and connected to the engaging portion 373 for engaging with the slot 39, and the hook 37 can rotate to switch between a first state and a second state. The connection portion 371 is rotatable relative to the second side 20 of the heating device 100 to engage the engagement portion 373 with the engagement groove 39 or disengage the engagement portion 373 from the engagement groove 39.

In one example, the engagement portion 373 engages with the engagement groove 39 when the hook 37 is in the first state, and the connection portion 371 engages with the second side 20 of the heating device 100 when the hook 37 is in the second state. When the connection portion 371 is attached to the second side 20 of the heating device 100, the entire heating device 100 occupies a small space, and is convenient to store.

In some embodiments, the engagement portion 373 and the connection portion 371 may be connected relatively stationary, for example, the engagement portion 373 and the connection portion 371 are integrally formed; alternatively, the engagement portion 373 and the connection portion 371 are connected by a connecting member so as to be immovably movable with respect to each other. At this time, when the hook 37 is in the first state, the connection portion 371 is perpendicular to the second side 20 of the heating device 100, the angle between the engagement portion 373 and the connection portion 371 is a right angle or an acute angle, and the engagement portion 373 is engaged with the slot 39 to connect the heating device 100 and the energy storage power supply 300. In the case that the hook 37 is in the second state, the angle between the engaging portion 373 and the connecting portion 371 is kept at a right angle or an acute angle, and the angle between the connecting portion 371 and the second side 20 of the heating device 100 may be 0 ° or 180 °, at this time, the heating device 100 is separated from the energy storage power supply 300.

In other embodiments, the engaging portion 373 may be movably connected with respect to the connecting portion 371, for example, the engaging portion 373 and the connecting portion 371 may be rotatably connected with respect to each other by a connecting member. At this time, when the hook 37 is in the first state, the connection portion 371 is perpendicular to the second side 20 of the heating device 100, the angle between the engagement portion 373 and the connection portion 371 is a right angle or an acute angle, and the engagement portion 373 is engaged with the slot 39 to connect the heating device 100 and the energy storage power supply 300. In the case that the hook 37 is in the second state, the included angle between the connection portion 371 and the second side 20 of the heating device 100 may be 0 ° or 180 °, the engaging portion 373 may rotate relative to the connection portion 371, and the included angle between the engaging portion 373 and the connection portion 371 may be 0 ° or 180 °, at this time, the heating device 100 is separated from the energy storage power source 300.

In another example, if the hook 37 is in the first state, the engaging portion 373 is engaged in the engaging groove 39, and if the hook 37 is in the second state, the engaging portion 373 is located outside the engaging groove 39. When the hook 37 is in the first state, the connection portion 371 is perpendicular to the second side 20 of the heating device 100, an included angle between the engaging portion 373 and the connection portion 371 is a right angle or an acute angle, and the engaging portion 373 is engaged with the slot 39 to connect the heating device 100 and the energy storage power supply 300. In the second state of the hook 37, the connection portion 371 may rotate (spin) about its central axis to separate the engaging portion 373 from the clamping groove 39, so that the heating device 100 is separated from the energy storage power source 300.

In another embodiment, the assembly 30 is a latch 39 disposed on a side wall 304 of the heating device 100, and the mounting member 305 is a latch 37 rotatably disposed on a second side 302 of the energy storage power source 300, and the latch 37 is engaged with the latch 39.

The mounting member 305 and the second side 302 of the stored energy power source 300 may be configured to rotate about a shaft, and the number of mounting members 305 may be, but is not limited to, two, three, four or more. In one example, the number of mounts 305 is two, with two mounts 305 being disposed on opposite sides of the second side 302 of the stored energy power source 300. At this time, the number of the fitting parts 30 is two, the two fitting parts 30 are disposed on opposite sides of the sidewall 304 of the heating device 100, and the mounting parts 305 are engaged with the corresponding fitting parts 30. In another example, the number of mounting members 305 is four, and four mounting members 305 may be disposed on opposite sides of the second side 302 of the stored energy power source 300. At this time, the number of the fittings 30 may be two or four. In the case where there are two fitting members 30, the two fitting members 30 are provided on opposite sides of the side wall 304 of the heating apparatus 100, respectively, and two fitting members 305 on the same side are engaged with one fitting member 30. In the case where there are four fittings 30, four fittings 30 are provided in pairs on opposite sides of the side wall 304 of the heating apparatus 100, and each of the mounts 305 is engaged with a corresponding one of the fittings 30.

The hook 37 includes a connecting portion 371 and an engaging portion 373, wherein the connecting portion 371 is bent and connected with the engaging portion 373, and the engaging portion 373 is engaged with the engaging groove 39, and the hook 37 can rotate to switch between a first state and a second state. The connection portion 371 can rotate relative to the second side 302 of the energy storage power supply 300, so that the engaging portion 373 engages with the clamping groove 39 or the engaging portion 373 is separated from the clamping groove 39.

In one example, if the hook 37 is in the first state, the engaging portion 373 engages with the engaging groove 39, and if the hook 37 is in the second state, the connecting portion 371 is attached to the second side 302 of the energy storage power supply 300. In the case where the connection portion 371 is attached to the second side 302 of the energy storage power supply 300, the space occupied by the energy storage power supply 300 as a whole is small, and storage is facilitated.

In some embodiments, the engagement portion 373 and the connection portion 371 may be connected relatively stationary, for example, the engagement portion 373 and the connection portion 371 are integrally formed; alternatively, the engagement portion 373 and the connection portion 371 are connected by a connecting member so as to be immovably movable with respect to each other. At this time, when the hook 37 is in the first state, the connection portion 371 is perpendicular to the second side 302 of the energy storage power supply 300, the angle between the engagement portion 373 and the connection portion 371 is a right angle or an acute angle, and the engagement portion 373 is engaged with the slot 39, so that the heating device 100 and the energy storage power supply 300 are connected. In the case that the hook 37 is in the second state, the angle between the engaging portion 373 and the connecting portion 371 is kept at a right angle or an acute angle, and the angle between the connecting portion 371 and the second side 302 of the energy storage power supply 300 may be 0 ° or 180 °, at this time, the heating device 100 is separated from the energy storage power supply 300.

In other embodiments, the engaging portion 373 may be movably connected with respect to the connecting portion 371, for example, the engaging portion 373 and the connecting portion 371 may be rotatably connected with respect to each other by a connecting member. At this time, when the hook 37 is in the first state, the connection portion 371 is perpendicular to the second side 302 of the energy storage power supply 300, the angle between the engagement portion 373 and the connection portion 371 is a right angle or an acute angle, and the engagement portion 373 is engaged with the slot 39, so that the heating device 100 and the energy storage power supply 300 are connected. In the case that the hook 37 is in the second state, the included angle between the connection portion 371 and the second side 302 of the energy storage power supply 300 may be 0 ° or 180 °, the engaging portion 373 may rotate relative to the connection portion 371, and the included angle between the engaging portion 373 and the connection portion 371 may be 0 ° or 180 °, at this time, the heating device 100 is separated from the energy storage power supply 300.

In another example, if the hook 37 is in the first state, the engaging portion 373 is engaged in the engaging groove 39, and if the hook 37 is in the second state, the engaging portion 373 is located outside the engaging groove 39. When the hook 37 is in the first state, the connection portion 371 is perpendicular to the second side 302 of the energy storage power supply 300, an included angle between the engaging portion 373 and the connection portion 371 is a right angle or an acute angle, and the engaging portion 373 is engaged with the slot 39, so that the heating device 100 and the energy storage power supply 300 are connected. In the second state of the hook 37, the connection portion 371 may rotate (spin) about its central axis to separate the engaging portion 373 from the clamping groove 39, so that the heating device 100 is separated from the energy storage power source 300.

Referring to fig. 5, in some embodiments, the second side 20 of the heating device 100 is provided with a positioning member 40, the second side 302 of the energy storage power source 300 is provided with a limiting member 307, and the positioning member 40 cooperates with the limiting member 307 to define the assembly position of the heating device 100 and the energy storage power source 300.

The positioning members 40 and the fitting 30 may be disposed at intervals, and the number of the positioning members 40 may be one or more. The limiting members 307 and the mounting members 305 may be disposed at intervals, and the number of the limiting members 307 is the same as the number of the positioning members 40. In one embodiment, the number of positioning members 40 is one, and the positioning members 40 may be disposed at any location on the second side 20 of the heating device 100 other than the fitting 30. The number of the stoppers 307 is also one, and the position of the stopper 307 corresponds to the position of the positioning member 40. At this time, the number of the positioning members 40 and the limiting members 307 is small, the cost can be saved, and the overall weight of the structure is light. In another embodiment, the number of positioning members 40 is plural, and the plurality of positioning members 40 may be uniformly or non-uniformly distributed at any location on the second side 20 of the heating device 100 other than the fitting 30. The number of the stoppers 307 is also plural, and the positions of the stoppers 307 correspond to the positions of the positioning members 40. At this time, the heating device 100 and the energy storage power source 300 are positioned more accurately and connected more firmly.

In one embodiment, the positioning member 40 is a protrusion and the limiting member 307 is a recess. The cross-sectional shape of the positioning member 40 may be, but is not limited to, circular, elliptical, rectangular, or other polygonal shape, etc., and the cross-sectional shape of the stopper 307 corresponds to the cross-sectional shape of the positioning member 40 so that the positioning member 40 and the stopper 307 can be stably engaged. The positioning member 40 and the heating device 100 may be integrally or separately configured. In the case where the positioning member 40 and the heating device 100 are of unitary construction, the positioning member 40 extends from the second side 20 of the heating device 100. In the case where the positioning member 40 and the heating device 100 are of a separate structure, the positioning member 40 may be detachably or non-detachably connected to the second side 20 of the heating device 100. Wherein the detachable mounting mode comprises, but is not limited to, threaded connection, screw connection or buckle connection. Non-removable mounting means include, but are not limited to, welding, glue connection, interference fit, or the like.

In another embodiment, the positioning member 40 is a groove and the limiting member 307 is a protrusion. The cross-sectional shape of the stopper 307 may be, but is not limited to, circular, elliptical, rectangular, or other polygonal shape, etc., and the cross-sectional shape of the positioning member 40 corresponds to the cross-sectional shape of the positioning member 40 so that the positioning member 40 and the stopper 307 can be stably engaged. The limiting member 307 and the energy storage power supply 300 may be in an integral structure or a split structure. In the case where the stopper 307 and the stored energy power supply 300 are integrally formed, the stopper 307 extends from the second side 302 of the stored energy power supply 300. In the case that the stopper 307 and the stored power supply 300 are of a separate structure, the stopper 307 may be detachably or non-detachably connected to the second side 302 of the stored power supply 300. Wherein the detachable mounting mode comprises, but is not limited to, threaded connection, screw connection or buckle connection. Non-removable mounting means include, but are not limited to, welding, glue connection, interference fit, or the like.

In yet another embodiment, one of the positioning member 40 and the stopper 307 is a magnetic member, and the other is a metal capable of being magnetized. The cross-sectional shape of the positioning member 40 may be, but is not limited to, circular, elliptical, rectangular, or other polygonal, etc., and the cross-sectional shape of the stopper 307 corresponds to the cross-sectional shape of the positioning member 40. In one example, the positioning member 40 is a magnetic member, and the stopper 307 is a metal that can be magnetized. The metal capable of being magnetized can be iron, cobalt, nickel and other metals. In another example, the positioning member 40 is a metal that can be magnetized, and the stopper 307 is a magnetic member.

In yet another embodiment, the positioning member 40 and the limiting member 307 are both magnetic members. In one example, the S pole of the positioning member 40 faces the second side 302 of the energy storage power source 300, and the N pole of the limiting member 307 faces the second side of the heating device 100. When the heating device 100 is connected to the energy storage power supply 300, the S pole of the positioning member 40 and the N pole of the stopper 307 attract each other. In another example, the N pole of the positioning member 40 faces the second side 302 of the energy storage power source 300, and the S pole of the limiting member 307 faces the second side of the heating device 100. When the heating device 100 is connected to the energy storage power supply 300, the N pole of the positioning member 40 and the S pole of the stopper 307 attract each other.

Referring to fig. 2 and 3, in one embodiment, one of the electrical connector 50 and the electrical connector 309 is a plug, and the other is an interface, and the plug and the interface are plugged to electrically connect the heating device 100 and the energy storage power source 300. In one example, electrical connector 50 is a plug with wires and electrical connector 309 is an interface. The heating device 100 may be provided with a receiving groove for receiving the plug and the wire, so that the heating device 100 is tidy and has a higher integration level. When the heating device 100 is not in operation, the plug is accommodated in the accommodation groove. In the case that the heating device 100 is connected with the energy storage power supply 300 and the heating device 100 needs to work, the plug extends out of the accommodating groove to be spliced with the interface. In another example, electrical connector 50 is an interface and electrical connector 309 is a plug with wires. The energy storage power supply 300 may be provided with a receiving groove for receiving the plug and the wire, so that the energy storage power supply 300 is tidy. When the heating device 100 is not in operation, the plug is accommodated in the accommodation groove. In the case that the heating device 100 is connected with the energy storage power supply 300 and the heating device 100 needs to work, the plug extends out of the accommodating groove to be spliced with the interface.

In another embodiment, the electrical connection 50 is a receiving coil, the electrical connection 309 is a transmitting coil, and the transmitting coil and the receiving coil cooperate to enable the stored energy power source 300 to power the heating device 100. The electrical connector 50 may be disposed on the second side 20 of the heating device 100 and the electrical connector 309 may be disposed on the second side 302 of the stored energy power source 300. In the case where the heating device 100 is not connected to the energy storage power supply 300, the transmitting coil fails to detect the receiving coil, and the energy storage power supply 300 does not supply power to the heating device 100 at this time. In the case where the heating device 100 is connected to the energy storage power supply 300, the transmitting coil can detect the receiving coil, so that the energy storage power supply 300 supplies power to the heating device 100.

In yet another embodiment, the electrical connector 50 is an electrical connection terminal and the electrical connector 309 is an electrical connection terminal, the electrical connection terminal being in contact with the electrical connection terminal to electrically connect the heating device 100 with the stored energy power source 300. In one example, the electrical connector 50 is disposed on the second side 20 of the heating device 100, and the electrical connector 309 is also disposed on the second side 302 of the energy storage power source 300, where the electrical connector 50 corresponds to the position of the electrical connector 309. In another example, the electrical connector 50 is disposed on the sidewall 304 of the heating device 100, and the electrical connector 309 is also disposed on the sidewall 304 of the energy storage power source 300, where the electrical connector 50 corresponds to the position of the electrical connector 309. In the case where the heating device 100 is not connected to the energy storage power supply 300, the electrical connection terminal is not in contact with the electrical connection terminal, and the energy storage power supply 300 does not supply power to the heating device 100 at this time. In the case where the heating device 100 is connected to the energy storage power supply 300, the electrical connection terminal is in contact with the electrical connection terminal, so that the energy storage power supply 300 supplies power to the heating device 100.

Referring to fig. 3, in some embodiments, at least one of the heating device 100 and the stored energy power source 300 is provided with a handle 60, the handle 60 being for a user to hold. In one embodiment, the heating device 100 is provided with a handle 60, the handle 60 being provided at a side wall 304 of the heating device 100. The number of handles 60 may be one or two, and in the case where the number of handles 60 is one, the handles 60 are provided on any one of the side walls 304 of the heating device 100. In the case where there are two handles 60, the two handles 60 are provided on the opposite side walls 304 of the heating device 100, respectively. In another embodiment, the stored energy power source 300 is provided with a handle 60, the handle 60 being provided at a side wall 304 of the stored energy power source 300. The number of handles 60 may be one or two, and in the case where the number of handles 60 is one, the handles 60 are provided on any one side wall 304 of the stored energy power source 300. In the case where there are two handles 60, the two handles 60 are provided on the opposite side walls 304 of the stored energy power supply 300, respectively. In yet another embodiment, the heating device 100 and the stored energy power source 300 are each provided with a handle 60 to facilitate the handling of the heating device 100 and the stored energy power source 300.

Referring to fig. 2 and 3, in some embodiments, at least one of the heating device 100 and the energy storage power supply 300 is provided with a heat dissipation member 70 and/or a heat dissipation through hole 80 in communication with the outside, the heat dissipation member 70 is used for dissipating heat from the heating device 100 and/or the energy storage power supply 300, and the heat dissipation through hole 80 is used for transmitting heat to the outside.

In one embodiment, the heating device 100 is provided with a heat sink 70. The heat sink 70 may be, but is not limited to, a fan, a blower, a heat conducting member, a heat sink, etc. In another embodiment, the heating device 100 is provided with a heat sink 70 and a heat dissipation through hole 80. The heat dissipation through holes 80 are formed in the side wall 304 of the heating device 100, and the heat dissipation through holes 80 may be formed in a circular shape, an elliptical shape, a rectangular shape, or other polygonal shapes, and the number of the heat dissipation through holes 80 may be one or more. In yet another embodiment, the stored energy power source 300 is provided with a heat sink 70. In yet another embodiment, the energy storage power supply 300 is provided with a heat sink 70 and a heat dissipation through hole 80. The heat dissipation through holes 80 are formed in the side wall 304 of the energy storage power supply 300, and the heat dissipation through holes 80 may be formed in a circular shape, an elliptical shape, a rectangular shape, or other polygonal shapes, and the number of the heat dissipation through holes 80 may be one or more. In yet another embodiment, both the heating device 100 and the stored energy power source 300 are provided with a heat sink 70. The heat sink 70 of the heating device 100 and the heat sink 70 of the energy storage power supply 300 may be the same or different. In still another embodiment, the heating device 100 and the energy storage power supply 300 are provided with the heat sink 70 and the heat dissipation through hole 80. The opening shape of the heat dissipation through hole 80 of the heating device 100 may be the same or different from the opening shape of the heat dissipation through hole 80 of the energy storage power supply 300.

In the energy storage electric appliance 1000 of the present application, the assembly part 30 of the heating device 100 is matched with the mounting part 305 of the energy storage power supply 300, so that the heating device 100 can be stably placed on the energy storage power supply 300 under the condition that the heating device 100 needs to cook, and the heating device 100 and the energy storage power supply 300 cannot relatively move along the joint surface. Meanwhile, in case the heating device 100 is placed on the energy storage power source 300, the energy storage power source 300 is electrically connected to the power receiving member 309 through the electrical connection member 50 to supply power to the heating device 100. Compared with the existing energy storage electric appliance, the heating device 100 and the energy storage power supply 300 in the energy storage electric appliance 1000 of the application can be better matched with each other.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description. Also, other implementations may be derived from the above-described embodiments, such that structural and logical substitutions and changes may be made without departing from the scope of this disclosure.

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the patent. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (14)

1. An energy storage appliance, comprising:

the heating device is provided with an assembly part and an electric connecting piece and is used for cooking food; a kind of electronic device with high-pressure air-conditioning system

The energy storage power supply that can charge and discharge, heating device with energy storage power supply combines, energy storage power supply is equipped with installed part and connects the electric spare, the assembly part with the installed part cooperation is in order to restrict heating device with energy storage power supply follows the relative movement of faying face, electric connection spare be used for with connect the electric spare electricity and be connected, so that energy storage power supply gives heating device power supply.

2. The energy storage appliance of claim 1, wherein the fitting and the mounting member are snap-fit.

3. The energy storage appliance of claim 2, wherein the fitting and the mounting member removably connect the heating device to the energy storage power source by means of a snap-fit connection.

4. The energy storage appliance of claim 3, wherein the heating device comprises first and second opposite sides, the energy storage power source comprising joined top and side walls, the second side of the heating device being opposite the top wall of the energy storage power source;

the assembly part is a clamping hook rotatably arranged on the second side of the heating device, the mounting part is a clamping groove arranged on the side wall of the energy storage power supply, and the clamping hook is clamped with the clamping groove; or (b)

The assembly part is a clamping groove arranged on the side wall of the heating device, the mounting part is a clamping hook rotatably arranged on the second side of the energy storage power supply, and the clamping hook is clamped with the clamping groove.

5. The energy storage appliance of claim 4, wherein the hook comprises a connecting portion and a clamping portion which are connected in a bending manner, the clamping portion is used for being clamped with the clamping groove, and the hook can rotate to switch between a first state and a second state;

the assembly part is a clamping hook rotatably arranged on the second side of the heating device, and the mounting part is a clamping groove arranged on the side wall of the energy storage power supply: if the clamping hook is in a first state, the clamping part is clamped with the clamping groove, and if the clamping hook is in a second state, the connecting part is attached to the second side of the heating device; or if the clamping hook is in a first state, the clamping part is clamped in the clamping groove, and if the clamping hook is in a second state, the clamping part is positioned outside the clamping groove;

the assembly part is a clamping groove arranged on the side wall of the heating device, and the mounting part is rotatably arranged on the condition of a clamping hook on the second side of the energy storage power supply: if the clamping hook is in a first state, the clamping part is clamped with the clamping groove, and if the clamping hook is in a second state, the connecting part is attached to the second side of the energy storage power supply; or if the clamping hook is in the first state, the clamping part is clamped in the clamping groove, and if the clamping hook is in the second state, the clamping part is positioned outside the clamping groove.

6. The energy storage appliance of any one of claims 1-5, wherein the heating device comprises first and second opposite sides, the energy storage power source comprises first and second opposite sides, and the second side of the heating device is opposite the second side of the energy storage power source;

the second side of the heating device is provided with a locating piece, the second side of the energy storage power supply is provided with a limiting piece, and the locating piece is matched with the limiting piece to limit the assembly position of the heating device and the energy storage power supply.

7. The energy storage appliance of claim 6, wherein the energy storage device comprises,

the locating piece is a bulge, and the limiting piece is a groove; or (b)

The locating piece is a groove, and the limiting piece is a protrusion; or (b)

One of the positioning piece and the limiting piece is a magnetic piece, and the other is a metal capable of being magnetized; or (b)

The locating piece and the limiting piece are both magnetic pieces.

8. The energy storage appliance of any one of claims 1-5, wherein,

one of the electric connector and the electric connector is a plug, the other is an interface, and the plug is inserted into the interface to electrically connect the heating device and the energy storage power supply; or (b)

The electric connector is a receiving coil, the electric connector is a transmitting coil, and the transmitting coil and the receiving coil are matched so that the energy storage power supply supplies power to the heating device; or (b)

The electric connecting piece is an electric connecting terminal, and the electric connecting terminal is contacted with the electric connecting terminal to electrically connect the heating device and the energy storage power supply.

9. The energy storage appliance of any one of claims 1-5, wherein at least one of the heating device and the energy storage power source is provided with a handle for a user to hold.

10. The energy storage electrical appliance according to any one of claims 1 to 5, wherein at least one of the heating device and the energy storage power supply is provided with a heat dissipation member and/or a heat dissipation through hole communicated with the outside, the heat dissipation member is used for dissipating heat of the heating device and/or the energy storage power supply, and the heat dissipation through hole is used for transmitting heat to the outside.

11. The energy storage appliance of claim 1, wherein the heating device comprises any one of an induction cooker, an electric rice cooker, an electric oven, an electric bakeware, and an electric fryer.

12. A heating device for cooking food, the heating device comprising:

the assembly part is used for being matched with the mounting part of the energy storage power supply in a clamping hook mode so as to limit the relative movement of the heating device and the energy storage power supply along the joint surface; a kind of electronic device with high-pressure air-conditioning system

The electric connecting piece is used for being electrically connected with the electric connecting piece of the energy storage power supply so that the energy storage power supply supplies power to the heating device.

13. An energy storage power supply for charging and discharging, the energy storage power supply comprising:

the mounting piece is used for being matched with an assembly part of the heating device in a clamping hook mode so as to limit the relative movement of the heating device and the energy storage power supply along the joint surface; a kind of electronic device with high-pressure air-conditioning system

The power receiving piece is used for being electrically connected with the electric connecting piece of the heating device, so that the energy storage power supply supplies power to the heating device.

14. An induction cooker, characterized in that it comprises:

the assembly part is used for being matched with the mounting piece of the energy storage power supply in a clamping way so as to limit the relative movement of the induction cooker and the energy storage power supply along the joint surface; a kind of electronic device with high-pressure air-conditioning system

The electric connecting piece is used for being electrically connected with the power receiving piece of the energy storage power supply so that the energy storage power supply supplies power to the induction cooker.