CN104748178A - Split type microwave oven - Google Patents

Abstract

Translated fromChinese

本发明公开了一种分体式微波炉，包括：微波源模块，微波源模块包括外壳、功率源、电源、控制组件和电磁波引导件，外壳的上表面的一部分向下凹入以限定出凹槽，电磁波引导件与功率源相连；承物盘，承物盘设在凹槽的开口处以限定出封闭的空腔，电磁波引导件的伸出外壳且位于空腔内；腔体模块，腔体模块可分离地设在外壳上；微波屏蔽扼流件；检测装置。根据本发明的分体式微波炉，通过利用腔体模块与微波源模块配合，以在需要时限定出用于加热食物微波加热谐振腔，无需使用分体式微波炉加热食物的功能时，腔体模块可以收纳起来，由此减少了分体式微波炉占用的空间，提高了厨房空间的利用率，满足了用户的使用需求。

The invention discloses a split-type microwave oven, comprising: a microwave source module, the microwave source module includes a housing, a power source, a power supply, a control assembly and an electromagnetic wave guide, a part of the upper surface of the housing is recessed downward to define a groove, The electromagnetic wave guide is connected to the power source; the object tray is arranged at the opening of the groove to define a closed cavity, and the electromagnetic wave guide protrudes from the shell and is located in the cavity; the cavity module, the cavity module can Separately arranged on the shell; a microwave shielding choke; a detection device. According to the split-type microwave oven of the present invention, by using the cavity module to cooperate with the microwave source module to define a microwave heating resonant cavity for heating food when necessary, when the function of heating food without using the split-type microwave oven is required, the cavity module can be accommodated In this way, the space occupied by the split microwave oven is reduced, the utilization rate of the kitchen space is improved, and the use needs of users are met.

Description

Translated fromChinese

分体式微波炉split microwave oven

技术领域technical field

本发明涉及家用电器技术领域，具体而言，尤其涉及一种分体式微波炉。The present invention relates to the technical field of household appliances, in particular to a split-type microwave oven.

背景技术Background technique

相关技术中，市场上主要包括两种一体式微波炉，一种为磁控管功率源输入一体式微波炉，另一种为半导体功率源输入一体式微波炉。其中，磁控管功率源输入一体式微波炉主要包括微波炉腔体、波导、磁控管功率源、高压电源、底板，磁控管功率源固定在波导上，波导与微波炉腔体通过焊接或者铆接固定连接，高压电源固定在底板上；半导体功率源输入一体式微波炉主要包括微波炉腔体、波导、半导体微波馈入装置、同轴电缆、半导体功率源、直流电源，其中半导体功率源通过同轴电缆与半导体微波馈入装置连接，半导体功率源固定在底板上，波导与微波炉腔体通过焊接或者铆接固定连接。In related technologies, there are mainly two types of integrated microwave ovens on the market, one is an integrated microwave oven with a magnetron power source input, and the other is an integrated microwave oven with a semiconductor power source input. Among them, the magnetron power source input integrated microwave oven mainly includes a microwave oven cavity, a waveguide, a magnetron power source, a high-voltage power supply, and a bottom plate. The magnetron power source is fixed on the waveguide, and the waveguide and the microwave oven cavity are fixed by welding or riveting. The high-voltage power supply is fixed on the bottom plate; the semiconductor power source input integrated microwave oven mainly includes a microwave oven cavity, a waveguide, a semiconductor microwave feed-in device, a coaxial cable, a semiconductor power source, and a DC power supply. The semiconductor microwave feed-in device is connected, the semiconductor power source is fixed on the bottom plate, and the waveguide and the cavity of the microwave oven are fixedly connected by welding or riveting.

现有技术中，不管磁控管功率源还是半导体功率源都将微波炉腔体和功率源及其电源集成在一起，集成化程度高，但是整机体积大、重量大，灶台不易放置和移动。In the prior art, regardless of the magnetron power source or the semiconductor power source, the cavity of the microwave oven, the power source and its power supply are integrated together, and the degree of integration is high, but the whole machine is bulky and heavy, and the stove is difficult to place and move .

发明内容Contents of the invention

本发明旨在至少在一定程度上解决相关技术中的技术问题之一。为此，本发明提出一种分体式微波炉，所述分体式微波炉具有占用空间小、方便使用的优点。The present invention aims to solve one of the technical problems in the related art at least to a certain extent. Therefore, the present invention proposes a split-type microwave oven, which has the advantages of small space occupation and convenient use.

根据本发明提供的一种分体式微波炉，包括：微波源模块，所述微波源模块放置在承载物上，所述微波源模块包括外壳、功率源、电源、控制组件和电磁波引导件，所述外壳为微波屏蔽件，所述外壳的上表面的一部分向下凹入以限定出凹槽，所述控制组件和所述电源分别与所述功率源相连，所述功率源和所述电源分别设在所述外壳内，所述电磁波引导件与所述功率源相连且伸出所述外壳；承物盘，所述承物盘设在所述凹槽的开口处且与所述凹槽的侧壁配合以限定出封闭的空腔，所述电磁波引导件的伸出所述外壳的部分位于所述空腔内；腔体模块，所述腔体模块为微波屏蔽件，所述腔体模块可分离地设在所述外壳上以适于与所述外壳之间限定出微波加热谐振腔；微波屏蔽扼流件，所述微波屏蔽扼流件位于所述微波加热谐振腔的外围以在限定出所述微波加热谐振腔时防止微波泄漏；用于检测所述微波加热谐振腔是否发生漏波的检测装置，所述检测装置与所述控制组件相连。A split-type microwave oven according to the present invention includes: a microwave source module, the microwave source module is placed on a carrier, and the microwave source module includes a casing, a power source, a power supply, a control assembly, and an electromagnetic wave guide. The casing is a microwave shielding part, a part of the upper surface of the casing is recessed downwards to define a groove, the control assembly and the power supply are respectively connected to the power source, and the power source and the power supply are respectively set In the housing, the electromagnetic wave guide is connected to the power source and extends out of the housing; the receiving plate is arranged at the opening of the groove and is connected to the side of the groove The walls cooperate to define a closed cavity, and the part of the electromagnetic wave guide protruding from the shell is located in the cavity; the cavity module is a microwave shield, and the cavity module can Separately provided on the shell to be suitable for defining a microwave heating resonant cavity between the shell; a microwave shielding choke, the microwave shielding choke is located on the periphery of the microwave heating resonant cavity to define Preventing microwave leakage when the microwave is heating the resonant cavity; a detection device for detecting whether leakage occurs in the microwave heating resonant cavity, and the detection device is connected with the control component.

根据本发明的分体式微波炉，通过利用腔体模块与微波源模块配合，以在需要时限定出用于加热食物微波加热谐振腔，无需使用分体式微波炉加热食物的功能时，腔体模块可以收纳起来，由此减少了分体式微波炉占用的空间，同时也提高了厨房空间的利用率，满足了用户的使用需求。According to the split-type microwave oven of the present invention, by using the cavity module to cooperate with the microwave source module to define a microwave heating resonant cavity for heating food when necessary, when the function of heating food with the split-type microwave oven is not required, the cavity module can be accommodated In this way, the space occupied by the split-type microwave oven is reduced, and the utilization rate of the kitchen space is also improved to meet the needs of users.

可选地，所述微波屏蔽扼流件设在所述外壳的上表面的其余部分上。Optionally, the microwave shielding choke is provided on the rest of the upper surface of the housing.

在本发明的一个实施例中，所述微波屏蔽扼流件形成为中空且顶部具有开口的环形件，所述腔体模块设在所述外壳上时，所述腔体模块的下表面封闭所述开口。In one embodiment of the present invention, the microwave shielding choke is formed as a hollow ring with an opening at the top, and when the cavity module is arranged on the housing, the lower surface of the cavity module closes the said opening.

可选地，所述微波源模块适于嵌入在所述承载物内。Optionally, the microwave source module is suitable for being embedded in the carrier.

可选地，所述微波源模块可移动地设在所述承载物上。Optionally, the microwave source module is movably arranged on the carrier.

可选地，所述功率源为磁控管或者半导体功率源。Optionally, the power source is a magnetron or a semiconductor power source.

优选地，所述腔体模块形成为中空且底部敞开的半圆形或者方形。Preferably, the cavity module is formed as a hollow semicircle or square with an open bottom.

在本发明的一个实施例中，所述检测装置为用于检测所述微波加热谐振腔外的微波量的传感器。In one embodiment of the present invention, the detection device is a sensor for detecting the amount of microwaves outside the microwave heating resonant cavity.

在本发明的另一个实施例中，所述检测装置包括发出微波信号的发射器和接收驻波的接收器，所述腔体模块设在外壳上以限定出所述微波加热谐振腔时，所述发射器向所述微波加热谐振腔内发出微波信号，所述接收器用于接收反射回的驻波。In another embodiment of the present invention, the detection device includes a transmitter for emitting microwave signals and a receiver for receiving standing waves, and the cavity module is arranged on the shell to define the microwave heating resonant cavity. The transmitter sends microwave signals into the microwave heating resonant cavity, and the receiver is used to receive the reflected standing waves.

优选地，所述承物盘的上表面与所述外壳的上表面的其余部分平齐。Preferably, the upper surface of the tray is flush with the rest of the upper surface of the housing.

附图说明Description of drawings

图1是根据本发明实施例的分体式微波炉的分解示意图；FIG. 1 is an exploded schematic view of a split microwave oven according to an embodiment of the present invention;

图2是根据本发明实施例的分体式微波炉的结构示意图，其中微波源模块设在承载物的上表面上；Fig. 2 is a schematic structural diagram of a split-type microwave oven according to an embodiment of the present invention, wherein the microwave source module is arranged on the upper surface of the carrier;

图3是根据本发明实施例的分体式微波炉的结构示意图，其中微波源模块嵌设在承载物的上，且微波源模块的上表面与承载物的上表面齐平。Fig. 3 is a schematic structural diagram of a split-type microwave oven according to an embodiment of the present invention, wherein the microwave source module is embedded on the carrier, and the upper surface of the microwave source module is flush with the upper surface of the carrier.

附图标记：Reference signs:

分体式微波炉100，split microwave oven 100,

微波源模块110，外壳111，凹槽112，功率源113，电源114，电磁波引导件115，Microwave source module 110, housing 111, groove 112, power source 113, power supply 114, electromagnetic wave guide 115,

承物盘120，空腔121，An object tray 120, a cavity 121,

腔体模块130，微波加热谐振腔131，翻边132，把手133，Cavity module 130, microwave heating resonant cavity 131, flange 132, handle 133,

微波屏蔽扼流件140，开口141，microwave shielding choke 140, opening 141,

承载物200，被加热物体300。The carrier 200 and the object to be heated 300 .

具体实施方式Detailed ways

下面详细描述本发明的实施例，所述实施例的示例在附图中示出。下面通过参考附图描述的实施例是示例性的，旨在用于解释本发明，而不能理解为对本发明的限制。Embodiments of the invention are described in detail below, examples of which are illustrated in the accompanying drawings. The embodiments described below by referring to the figures are exemplary and are intended to explain the present invention and should not be construed as limiting the present invention.

下面参照图1-图3详细描述根据本发明实施例的分体式微波炉100。A split microwave oven 100 according to an embodiment of the present invention will be described in detail below with reference to FIGS. 1-3 .

如图1-图3所示，根据本发明实施例的分体式微波炉100，包括：微波源模块110、承物盘120、腔体模块130、微波屏蔽扼流件140以及检测装置(图未示出)。As shown in FIGS. 1-3 , a split-type microwave oven 100 according to an embodiment of the present invention includes: a microwave source module 110, an object tray 120, a cavity module 130, a microwave shielding choke 140, and a detection device (not shown in the figure). out).

具体而言，微波源模块110放置在承载物200上。这里，承载物200可以为桌面或厨房灶台的操作面。如图1-图3所示，微波源模块110可以包括外壳111、功率源113、电源114、控制组件(图未示出)和电磁波引导件115。其中，外壳111为微波屏蔽件，微波无法穿过外壳111的侧壁而传播到外壳111的外部。外壳111上表面的一部分向下凹入以限定出凹槽112，承物盘120设在凹槽112的开口141处且与凹槽112的侧壁配合以限定出封闭的空腔121。被加热物体300可以放置在承物盘120的上表面上。Specifically, the microwave source module 110 is placed on the carrier 200 . Here, the carrier 200 may be a desktop or an operating surface of a kitchen stove. As shown in FIGS. 1-3 , the microwave source module 110 may include a housing 111 , a power source 113 , a power supply 114 , a control component (not shown in the figure) and an electromagnetic wave guide 115 . Wherein, the housing 111 is a microwave shielding member, and the microwave cannot pass through the side wall of the housing 111 and propagate to the outside of the housing 111 . A portion of the upper surface of the housing 111 is recessed downwards to define a groove 112 . The object tray 120 is disposed at the opening 141 of the groove 112 and cooperates with the sidewall of the groove 112 to define a closed cavity 121 . The heated object 300 may be placed on the upper surface of the object tray 120 .

控制组件和电源114分别与功率源113相连，由此电源114可以为功率源113供电，控制组件可以控制功率源113的启动或停止。为使分体式微波炉100的结构更加紧凑，功率源113和电源114分别设在外壳111内，电磁波引导件115与功率源113相连且伸出外壳111，由此功率源113产生的微波可以通过电磁波引导件115传导至壳体外部。进一步地，电磁波引导件115的伸出外壳111的部分位于空腔121内，如图1-图3所示。The control component and the power source 114 are connected to the power source 113 respectively, so that the power source 114 can supply power to the power source 113 , and the control component can control the start or stop of the power source 113 . In order to make the structure of the split microwave oven 100 more compact, the power source 113 and the power supply 114 are respectively arranged in the housing 111, and the electromagnetic wave guide 115 is connected with the power source 113 and extends out of the housing 111, so that the microwaves generated by the power source 113 can pass through the electromagnetic wave The guide 115 conducts to the outside of the housing. Further, the part of the electromagnetic wave guide 115 protruding from the casing 111 is located in the cavity 121 , as shown in FIGS. 1-3 .

腔体模块130为微波屏蔽件，微波无法穿过腔体模块130，由此微波只能在腔体模块130的内部进行传播。腔体模块130可分离地设在外壳111上以适于与外壳111之间限定出微波加热谐振腔131，承物盘120位于微波加热谐振腔131内以盛放被加热物体300(例如，食物等)。另外，承物盘120可以由透波材料制成，由此空腔121内的微波可以传播至微波加热谐振腔131内。可以理解的是，当需要对食物进行加热时，可以将腔体模块130放置在外壳111的上表面上，以使腔体模块130与外壳111限定出微波加热谐振腔131，控制组件启动功率源113以产生微波，微波通过电磁波引导件115传递至空腔121内，进而进入到微波加热谐振腔131内，从而对食物进行加热。当无需使用分体式微波炉100时，可以将腔体模块130收纳起来，以避免腔体模块130占用厨房的空间，由此不但可以满足用户的使用需求，还可以提高厨房空间的利用率。The cavity module 130 is a microwave shield, and microwaves cannot pass through the cavity module 130 , so the microwave can only propagate inside the cavity module 130 . The cavity module 130 is detachably arranged on the shell 111 to be suitable for defining a microwave heating resonant cavity 131 between the shell 111, and the receiving tray 120 is located in the microwave heating resonant cavity 131 to hold heated objects 300 (for example, food wait). In addition, the object tray 120 can be made of a wave-transparent material, so that the microwaves in the cavity 121 can propagate into the microwave heating resonant cavity 131 . It can be understood that when the food needs to be heated, the cavity module 130 can be placed on the upper surface of the casing 111, so that the cavity module 130 and the casing 111 define a microwave heating resonant cavity 131, and the control assembly starts the power source 113 to generate microwaves, and the microwaves are transmitted into the cavity 121 through the electromagnetic wave guide 115, and then enter into the microwave heating resonant cavity 131, thereby heating the food. When the split-type microwave oven 100 is not needed, the cavity module 130 can be stored to prevent the cavity module 130 from occupying the space of the kitchen, thereby not only meeting the user's use requirements, but also improving the utilization rate of the kitchen space.

另外，还需说明的是，当腔体模块130放置在外壳111上以限定出微波加热谐振腔131时，控制组件启动功率源113后，微波通过电磁波引导件115传递至微波加热谐振腔131内，由于外壳111和腔体模块130均为微波屏蔽件，微波无法传播至微波加热谐振腔131外部，其只能在微波加热谐振腔131内部传播，进而可以对放置在微波加热谐振腔131内的食物进行加热。In addition, it should be noted that when the cavity module 130 is placed on the shell 111 to define the microwave heating resonant cavity 131, after the control component starts the power source 113, the microwaves are transmitted into the microwave heating resonant cavity 131 through the electromagnetic wave guide 115 , since both the shell 111 and the cavity module 130 are microwave shielding parts, the microwave cannot propagate to the outside of the microwave heating resonant cavity 131, and it can only propagate inside the microwave heating resonant cavity 131, and then can be placed in the microwave heating resonant cavity 131 The food is heated.

为防止微波从微波加热谐振腔131内泄露，可以在微波加热谐振腔131的外围设置微波屏蔽扼流件140，以防止在限定出微波加热谐振腔131时发生漏波。为进一步提高分体式微波炉100的安全性，分体式微波炉100可以包括用于检测微波加热谐振腔131是否发生漏波检测装置，检测装置与控制组件相连。可以理解的是，检测装置的检测结果可以传输至控制组件，控制组件可以根据检测结果发出相应的控制指令，即当腔体模块130放置在外壳111上限定出微波加热谐振腔131、且检测装置检测到微波加热谐振腔131有漏波时，控制组件关闭功率源113，分体式微波炉100无法对放置于微波加热谐振腔131内的食物进行加热；当腔体模块130放置在外壳111上限定出微波加热谐振腔131、且检测装置检测到微波加热谐振腔131没有漏波时，控制组件可以启动功率源113，分体式微波炉100可以对放置于微波加热谐振腔131内的食物进行加热。In order to prevent microwaves from leaking from the microwave heating resonant cavity 131 , a microwave shielding choke 140 may be arranged around the microwave heating resonant cavity 131 to prevent leakage when the microwave heating resonant cavity 131 is defined. In order to further improve the safety of the split-type microwave oven 100, the split-type microwave oven 100 may include a detection device for detecting whether a microwave heating resonant cavity 131 has leaked waves, and the detection device is connected to the control component. It can be understood that the detection result of the detection device can be transmitted to the control component, and the control component can issue corresponding control instructions according to the detection result, that is, when the cavity module 130 is placed on the casing 111 to define a microwave heating resonant cavity 131, and the detection device When it is detected that the microwave heating resonant cavity 131 has a wave leakage, the control component turns off the power source 113, and the split microwave oven 100 cannot heat the food placed in the microwave heating resonant cavity 131; When the microwave heating resonant cavity 131 is detected by the detection device that there is no wave leakage in the microwave heating resonant cavity 131 , the control component can start the power source 113 , and the split microwave oven 100 can heat the food placed in the microwave heating resonant cavity 131 .

根据本发明实施例的分体式微波炉100，通过利用腔体模块130与微波源模块110配合，以在需要时限定出用于加热食物微波加热谐振腔131，无需使用分体式微波炉100加热食物的功能时，腔体模块130可以收纳起来，由此减少了分体式微波炉100占用的空间，同时也提高了厨房空间的利用率，满足了用户的使用需求。According to the split-type microwave oven 100 of the embodiment of the present invention, by using the cavity module 130 to cooperate with the microwave source module 110 to define a microwave heating resonant cavity 131 for heating food when needed, there is no need to use the split-type microwave oven 100 to heat food. At this time, the cavity module 130 can be stored, thereby reducing the space occupied by the split-type microwave oven 100, and at the same time improving the utilization rate of the kitchen space to meet the needs of users.

如图1-图3所示，根据本发明的一个实施例，为方便用户使用，微波源模块110可移动地设在承载物200上(如图2所示)。当然，微波源模块110的设置方式并不限于此，例如，微波源模块110适于嵌入在承载物200内(如图3所示)。由此，增加了微波源模块110设置方式，用户可以根据需求放置微波源模块110，从而提高了用户的满意度。进一步地，为提高分体式微波炉100的整体美观性，微波源模块110的上表面与承载物200的上表面齐平。As shown in FIGS. 1-3 , according to an embodiment of the present invention, for the convenience of users, the microwave source module 110 is movably arranged on the carrier 200 (as shown in FIG. 2 ). Of course, the arrangement of the microwave source module 110 is not limited thereto, for example, the microwave source module 110 is suitable for being embedded in the carrier 200 (as shown in FIG. 3 ). Thus, the way of setting the microwave source module 110 is added, and the user can place the microwave source module 110 according to the requirement, thereby improving the satisfaction of the user. Further, in order to improve the overall aesthetics of the split-type microwave oven 100 , the upper surface of the microwave source module 110 is flush with the upper surface of the carrier 200 .

为增加微波源模块110外形美观性，承物盘120的上表面与外壳111的上表面的其余部分平齐。如图1-图3所示，外壳111的上表面上设有凹槽112，承物盘120封闭该凹槽112且承物盘120的上表面与外壳111的上表面齐平。为了使微波均匀地传递至微波加热谐振腔131内，电磁波引导件115的位于空腔121的端部设有天线或搅拌片，从而可以使被加热物体300均匀受热以保证分体式微波炉100的加热效果，满足用户的使用需求。可选地，天线或搅拌片可转动地设在电磁波引导件115的端部。由此，可以进一步提高微波传播的均匀性。In order to increase the aesthetic appearance of the microwave source module 110 , the upper surface of the object tray 120 is flush with the rest of the upper surface of the casing 111 . As shown in FIGS. 1-3 , a groove 112 is provided on the upper surface of the casing 111 , the groove 112 is closed by the object tray 120 and the upper surface of the object tray 120 is flush with the upper surface of the casing 111 . In order to make the microwave evenly transmit into the microwave heating resonant cavity 131, the end of the electromagnetic wave guide 115 located in the cavity 121 is provided with an antenna or a stirring plate, so that the heated object 300 can be heated evenly to ensure the heating of the split microwave oven 100 effect to meet the needs of users. Optionally, an antenna or a stirring plate is rotatably provided at the end of the electromagnetic wave guide 115 . Thus, the uniformity of microwave propagation can be further improved.

微波屏蔽扼流件140设在外壳111的上表面的其余部分上。这里，“外壳111的上表面的其余部分”可以指外壳111的上表面上的、位于微波加热谐振腔131外的部分。进一步地，微波屏蔽扼流件140形成为中空且顶部具有开口141的环形件，腔体模块130设在外壳111上时，腔体模块130的下表面封闭开口141。例如，如图1-图3所示，微波屏蔽扼流件140为形成在外壳111上表面上的环形槽，环形槽的开口朝上(如图1-图3所示的上方)，腔体模块130的下端朝向微波加热谐振腔131外侧延伸出翻边132，当腔体模块130与外壳111限定出微波加热谐振腔131时，翻边132的下端面封闭环形槽的开口。由此，不但可以提高微波屏蔽扼流件140的可靠性，还方便用户使用。A microwave shielding choke 140 is provided on the rest of the upper surface of the housing 111 . Here, "the rest of the upper surface of the housing 111" may refer to a portion of the upper surface of the housing 111 that is located outside the microwave heating resonant cavity 131 . Further, the microwave shielding choke 140 is formed as a hollow ring with an opening 141 at the top, and when the cavity module 130 is disposed on the casing 111 , the lower surface of the cavity module 130 closes the opening 141 . For example, as shown in Figures 1-3, the microwave shielding choke 140 is an annular groove formed on the upper surface of the housing 111, the opening of the annular groove faces upward (upper as shown in Figures 1-3), and the cavity A flange 132 extends from the lower end of the module 130 toward the outside of the microwave heating resonant cavity 131 . When the cavity module 130 and the housing 111 define the microwave heating resonant cavity 131 , the lower end of the flange 132 closes the opening of the annular groove. In this way, not only the reliability of the microwave shielding choke 140 can be improved, but also it is convenient for users to use.

可选地，检测装置为用于检测微波加热谐振腔131外的微波量的传感器。由此，可以节约生产成本，提高产品竞争力。需要说明的是，检测装置的结构并不限于此，例如，检测装置可以包括发出微波信号的发射器和用于接收驻波的接收器。其中，腔体模块130设在外壳111上以限定出微波加热谐振腔131时，发射器向微波加热谐振腔131内发出微波信号，接收器用于接收反射回的驻波。当发射器发出的微波信号与接收器接收到的微波信号相同时，则证明没有漏波；反之，则证明有漏波。由此，可以使检测装置的准确性地检测微波加热谐振腔131是否有漏波，从而提高了分体式微波炉100的安全性，满足了用户的使用需求。Optionally, the detection device is a sensor for detecting the amount of microwaves outside the microwave heating resonant cavity 131 . As a result, production costs can be saved and product competitiveness can be improved. It should be noted that the structure of the detection device is not limited thereto, for example, the detection device may include a transmitter for emitting microwave signals and a receiver for receiving standing waves. Wherein, when the cavity module 130 is arranged on the housing 111 to define the microwave heating resonant cavity 131 , the transmitter sends microwave signals into the microwave heating resonant cavity 131 , and the receiver is used to receive the reflected standing waves. When the microwave signal sent by the transmitter is the same as the microwave signal received by the receiver, it proves that there is no leaky wave; otherwise, it proves that there is a leaky wave. In this way, the detection device can accurately detect whether there is a leaking wave in the microwave heating resonant cavity 131 , thereby improving the safety of the split microwave oven 100 and meeting the needs of users.

另外，如图1-图3所示，为方便用户取放腔体模块130，腔体模块130上可以设有把手133，例如，如图1-图3所示，把手133可以设在腔体模块130的顶部。如图1-图3所示，腔体模块130可以形成为中空且底部敞开的方形或者半圆形。由此，可以增加分体式微波炉100的外形多样性，满足了不同用户的审美需求。可选地，功率源113可以为磁控管功率源113。当然，功率源113的类型并不限于此，例如，功率源113还可以为半导体功率源113。由此，可以使功率源113适用于不同型号的分体式微波炉100，满足不同用户的使用需求。In addition, as shown in Figures 1-3, in order to facilitate the user to take and place the cavity module 130, a handle 133 can be provided on the cavity module 130, for example, as shown in Figures 1-3, the handle 133 can be set on the cavity The top of the module 130. As shown in FIGS. 1-3 , the cavity module 130 may be formed as a hollow square or semicircle with an open bottom. As a result, the variety of shapes of the split-type microwave oven 100 can be increased, satisfying the aesthetic needs of different users. Optionally, the power source 113 may be a magnetron power source 113 . Certainly, the type of the power source 113 is not limited thereto, for example, the power source 113 may also be a semiconductor power source 113 . In this way, the power source 113 can be adapted to different types of split-type microwave ovens 100 to meet the needs of different users.

在本发明的描述中，需要理解的是，术语“上”、“下”、“竖直”、“水平”、“顶”、“底”“内”、“外”、“轴向”、“径向”、“周向”等指示的方位或位置关系为基于附图所示的方位或位置关系，仅是为了便于描述本发明和简化描述，而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作，因此不能理解为对本发明的限制。In describing the present invention, it is to be understood that the terms "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", The orientation or positional relationship indicated by "radial", "circumferential", etc. is based on the orientation or positional relationship shown in the drawings, and is only for the convenience of describing the present invention and simplifying the description, rather than indicating or implying the referred device or element Must be in a particular orientation, be constructed in a particular orientation, and operate in a particular orientation, and therefore should not be construed as limiting the invention.

此外，术语“第一”、“第二”仅用于描述目的，而不能理解为指示或暗示相对重要性或者隐含指明所指示的技术特征的数量。由此，限定有“第一”、“第二”的特征可以明示或者隐含地包括至少一个该特征。在本发明的描述中，“多个”的含义是至少两个，例如两个，三个等，除非另有明确具体的限定。In addition, the terms "first" and "second" are used for descriptive purposes only, and cannot be interpreted as indicating or implying relative importance or implicitly specifying the quantity of indicated technical features. Thus, the features defined as "first" and "second" may explicitly or implicitly include at least one of these features. In the description of the present invention, "plurality" means at least two, such as two, three, etc., unless otherwise specifically defined.

在本发明中，除非另有明确的规定和限定，术语“安装”、“相连”、“连接”、“固定”等术语应做广义理解，例如，可以是固定连接，也可以是可拆卸连接，或成一体；可以是机械连接，也可以是电连接或彼此可通讯；可以是直接相连，也可以通过中间媒介间接相连，可以是两个元件内部的连通或两个元件的相互作用关系，除非另有明确的限定。对于本领域的普通技术人员而言，可以根据具体情况理解上述术语在本发明中的具体含义。In the present invention, unless otherwise clearly specified and limited, terms such as "installation", "connection", "connection" and "fixation" should be understood in a broad sense, for example, it can be a fixed connection or a detachable connection , or integrated; can be mechanically connected, can also be electrically connected or can communicate with each other; can be directly connected, can also be indirectly connected through an intermediary, can be the internal communication of two components or the interaction relationship between two components, Unless expressly defined otherwise. Those of ordinary skill in the art can understand the specific meanings of the above terms in the present invention according to specific situations.

在本说明书的描述中，参考术语“一个实施例”、“一些实施例”、“示例”、“具体示例”、或“一些示例”等的描述意指结合该实施例或示例描述的具体特征、结构、材料或者特点包含于本发明的至少一个实施例或示例中。在本说明书中，对上述术语的示意性表述不必须针对的是相同的实施例或示例。而且，描述的具体特征、结构、材料或者特点可以在任一个或多个实施例或示例中以合适的方式结合。此外，在不相互矛盾的情况下，本领域的技术人员可以将本说明书中描述的不同实施例或示例以及不同实施例或示例的特征进行结合和组合。In the description of this specification, descriptions referring to the terms "one embodiment", "some embodiments", "example", "specific examples", or "some examples" mean that specific features described in connection with the embodiment or example , structure, material or characteristic is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the described specific features, structures, materials or characteristics may be combined in any suitable manner in any one or more embodiments or examples. In addition, those skilled in the art can combine and combine different embodiments or examples and features of different embodiments or examples described in this specification without conflicting with each other.

尽管上面已经示出和描述了本发明的实施例，可以理解的是，上述实施例是示例性的，不能理解为对本发明的限制，本领域的普通技术人员在本发明的范围内可以对上述实施例进行变化、修改、替换和变型。Although the embodiments of the present invention have been shown and described above, it can be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, those skilled in the art can make the above-mentioned The embodiments are subject to changes, modifications, substitutions and variations.

Claims (10)

1. a split type micro-wave oven, is characterized in that, comprising:

Microwave source module, described microwave source module is placed on carrier, described microwave source module comprises shell, power source, power supply, Control Component and electromagnetic wave guiding piece, described shell is micro-wave screening part, a part for the upper surface of described shell is recessed to limit groove downwards, described Control Component is connected with described power source respectively with described power supply, and described power source and described power supply are located in described shell respectively, and described electromagnetic wave guiding piece is connected with described power source and stretches out described shell;

Dish bearing matter, described dish bearing matter is located at the opening part of described groove and coordinates to limit closed cavity with the sidewall of described groove, and the part of stretching out described shell of described electromagnetic wave guiding piece is positioned at described cavity;

Cavity module, described cavity module is micro-wave screening part, and described cavity module is established on the housing to be suitable for limiting heating using microwave resonator between described shell separably;

Micro-wave screening choke, described micro-wave screening choke is positioned at the periphery of described heating using microwave resonator to prevent microwave leakage when limiting described heating using microwave resonator;

Whether the checkout gear of leaky wave occurs for detecting described heating using microwave resonator, and described checkout gear is connected with described Control Component.

2. split type micro-wave oven according to claim 1, is characterized in that, described micro-wave screening choke is located on the remainder of the upper surface of described shell.

3. split type micro-wave oven according to claim 2, is characterized in that, described micro-wave screening choke is formed as hollow and top has the annular element of opening, and when described cavity module is established on the housing, the lower surface of described cavity module closes described opening.

4. split type micro-wave oven according to claim 1, is characterized in that, described microwave source module is suitable for being embedded in described carrier.

5. split type micro-wave oven according to claim 1, is characterized in that, described microwave source module is located on described carrier movably.

6. split type micro-wave oven according to claim 1, is characterized in that, described power source is magnetron or semiconductor power source.

7. split type micro-wave oven according to claim 1, is characterized in that, described cavity module generation is hollow and the semicircle of bottom-open or square.

8. split type micro-wave oven according to claim 1, is characterized in that, described checkout gear is the sensor for detecting the microwave amount outside described heating using microwave resonator.

9. split type micro-wave oven according to claim 1, it is characterized in that, described checkout gear comprises the transmitter sending microwave signal and the receiver receiving standing wave, when described cavity module to be located on shell to limit described heating using microwave resonator, described transmitter sends microwave signal in described heating using microwave resonator, and described receiver is for receiving the standing wave be reflected back.

10. split type micro-wave oven according to claim 1, is characterized in that, the upper surface of described dish bearing matter is concordant with the remainder of the upper surface of described shell.