CN203757797U - Microwave oven and semiconductor microwave generator input/output connection structure thereof - Google Patents

Abstract

The utility model provides a microwave oven and a semiconductor microwave generator input/output connection structure thereof. The semiconductor microwave generator input/output connection structure of the microwave oven comprises a semiconductor microwave generator, a microwave input device and a microwave output device, wherein the semiconductor microwave generator is provided with a microwave signal output port and a microwave signal input port; the microwave signal output port is formed in the front or back of the semiconductor microwave generator; the microwave input device is installed on the semiconductor microwave generator and is connected with the microwave signal input port; the microwave output device is installed on the semiconductor microwave generator and is connected with the microwave signal output port. The semiconductor microwave generator input/output connection structure provided by the utility model effectively reduces the maximum distance between the semiconductor microwave generator and a cooking cavity, thus effectively reducing the volume of the microwave oven and then effectively reducing the manufacturing cost of the microwave oven.

Description

Semiconductor microactuator wave producer input and output syndeton and the micro-wave oven of micro-wave oven

Technical field

The utility model relates to household appliance technical field, more specifically, and the micro-wave oven that relates to a kind of semiconductor microactuator wave producer input and output syndeton for micro-wave oven and contain this semiconductor microactuator wave producer input and output johning knot.

Background technology

Micro-wave oven is the common tool for heating or culinary art, and its principle is to utilize microwave to make the hydrone of food produce the higher-order of oscillation, thereby frictional heat heats or cooking food.Traditional micro-wave oven comprises the parts such as power supply, transformer, magnetron, high-voltage capacitance, cavity, fire door.Wherein, magnetron is to produce the core component of microwave, and it is subject to the excitation of high voltage source to produce microwave, by waveguide transmission and be coupled in the cavity of accommodating food.The magnetron operating voltage of conventional microwave oven is 4000 volts, has Electrical Safety hidden danger, and loss is large, and micro-wave oven shape is also very limited.

Along with technical development, occur adopting semiconductor microactuator wave producer to replace magnetron to produce the semiconductor microwave oven of microwave, semiconductor microactuator wave producer mainly comprises that microwave signal produces circuit and power amplification circuit, draw microwave and passed through certain way feed-in wave guide box from microwave generator by jockey, be finally evenly sent to cavity.This microwave generator adopts full DC low-voltage power supply, Electrical Safety, and loss is little, and long service life can make the shape variation of micro-wave oven simultaneously.

The semiconductor microactuator wave producer syndeton of the micro-wave oven using is at present mainly at signalization input port, the side of microwave generator and signal output, radio frequency connector is connected with it in side, and provides microwave signal to draw microwave signal from pcb board to pcb board (printed circuit board (PCB)) simultaneously.

Radio frequency connector is connected to microwave generator side, makes the ultimate range between microwave generator and culinary art cavity larger, causes the volume of micro-wave oven to increase, thereby has limited the shape of structural design and micro-wave oven, and then strengthened the manufacturing cost of micro-wave oven.

Utility model content

The utility model is intended at least solve one of technical problem existing in prior art.

For this reason, an object of the present utility model is, provides a kind of simple and compact for structure, can effectively shorten the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven of the distance between microwave generator and culinary art cavity.

Another object of the present utility model is, a kind of micro-wave oven is provided, and comprises above-mentioned semiconductor microactuator wave producer input and output syndeton.

For achieving the above object, the utility model first aspect embodiment provides a kind of semiconductor microactuator wave producer input and output syndeton of micro-wave oven, comprise: semiconductor microactuator wave producer, described semiconductor microactuator wave producer is provided with microwave signal delivery outlet and microwave signal input port, and described microwave signal delivery outlet is positioned at front or the back side of described semiconductor microactuator wave producer; Microwave input unit, described microwave input unit is arranged on described semiconductor microactuator wave producer, and is connected with described microwave signal input port; With microwave output device, described microwave output device is arranged on described semiconductor microactuator wave producer, and is connected with described microwave signal delivery outlet.

The semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that the utility model provides, microwave signal delivery outlet is arranged on front or the back side of semiconductor microactuator wave producer, microwave output device is arranged on semiconductor microactuator wave producer with respect to microwave signal delivery outlet, and be connected with microwave signal delivery outlet, be microwave output device with the front of semiconductor microactuator wave producer or the back side is vertical is connected, effectively reduce the ultimate range between semiconductor microactuator wave producer and culinary art cavity, thereby effectively reduce the volume of micro-wave oven, make structural design and the shape simplicity of design of microwave convenient, and then effectively reduce the manufacturing cost of micro-wave oven, the setting of microwave input unit, has ensured that semiconductor microactuator wave producer can receive simultaneously and send microwave signal effectively.

The semiconductor microactuator wave producer input and output syndeton of the micro-wave oven providing according to the utility model in addition, also has following additional technical feature:

According to an embodiment of the present utility model, described semiconductor microactuator wave producer comprises: metal substrate; Printed circuit board (PCB), the back side of described printed circuit board (PCB) is fixedly connected with described metal substrate, described microwave signal delivery outlet and described microwave signal input port are all arranged on described printed circuit board (PCB), and described microwave signal delivery outlet is arranged in the front of described printed circuit board (PCB) or the one side at the back side; And radome, described radome is located at front and the side of described printed circuit board (PCB); Described microwave output device is arranged on described printed circuit board (PCB) through described radome or described metal substrate.

Metal substrate makes to be connected simple and conveniently between printed circuit board (PCB) and heat abstractor, and metal has good thermal conductivity, thereby effectively ensured the radiating effect of printed circuit board (PCB); The setting of radome, has ensured the sealing of semiconductor microactuator wave producer effectively.

According to an embodiment of the present utility model, described microwave output device is the first radio frequency connector, the socket of described the first radio frequency connector is connected with described microwave signal delivery outlet, the plug of described the first radio frequency connector passes described radome or described metal substrate, and is fixedly connected with described radome or described metal substrate by the first ring flange.

Radio frequency connector is simple in structure, easy for installation, has effectively reduced the installation difficulty of semiconductor microactuator wave producer syndeton, has improved the efficiency of assembling of semiconductor microactuator wave producer input and output syndetons; The setting of the first ring flange, on the one hand, has ensured the bonding strength between plug and radome or the metal substrate of the first radio frequency connector, on the other hand, has ensured the sealing between plug and the semiconductor microactuator wave producer of the first radio frequency connector.

According to an embodiment of the present utility model, the socket welding of described the first radio frequency connector or clamping or be screwed onto on described printed circuit board (PCB).

Welding or clamping or be spirally connected and all there is good bonding strength, thus the bonding strength between socket and the printed circuit board (PCB) of the first radio frequency connector effectively ensured.

According to an embodiment of the present utility model, described microwave output device is magnetron output precision, described magnetron output precision comprises: magnetron antenna, the first base plate and the first retainer ring, described the first retainer ring and described the first base plate are set on described magnetron antenna, and one end of described magnetron antenna is connected with described microwave signal delivery outlet through described radome or described metal substrate.

Magnetron output precision comprises magnetron antenna, the first base plate and the first retainer ring, simple in structure, easily processing and manufacturing moulding, thereby effectively reduce the difficulty of processing of microwave output device, and magnetron output precision has, and power is large, efficiency is high, size is little, lightweight and low cost and other advantages, thereby effectively ensured within the predetermined heat time, the food heating in culinary art cavity is abundant, and then has effectively improved product quality.

According to an embodiment of the present utility model, described microwave output device is probe output precision, described probe output precision comprises: probe, the second base plate and the second retainer ring, described the second retainer ring and described the second base plate are set on described probe, and one end of described probe is connected with described microwave signal delivery outlet through described radome or described metallic plate.

Probe output precision comprises probe, the second base plate and the second retainer ring, simple in structure, easily processing and manufacturing moulding, thereby effectively reduce the difficulty of processing of microwave output device, and probe has good microwave conduction efficiency, thereby effectively ensured within the predetermined heat time, the food heating in culinary art cavity is abundant, and then has effectively improved product quality.

According to an embodiment of the present utility model, described microwave input unit is the second radio frequency connector, the socket of described the second radio frequency connector is connected with described microwave signal input port, and the plug of described the second radio frequency connector is positioned at the outside of semiconductor microactuator wave producer.

Radio frequency connector is simple in structure, easy for installation, has effectively reduced the installation difficulty of semiconductor microactuator wave producer syndeton, has improved the efficiency of assembling of semiconductor microactuator wave producer input and output syndetons.

According to an embodiment of the present utility model, described microwave signal input port is positioned at front or the back side or the back side of described printed circuit board (PCB), the plug of described the second radio frequency connector passes described radome or described metal substrate, and is fixedly connected with described radome or described metal substrate by the second ring flange.

The plug of the second radio frequency connector is fixedly connected with radome or metal substrate by the second ring flange, the setting of the second ring flange, on the one hand, ensure the bonding strength between plug and radome or the metal substrate of the second radio frequency connector, on the other hand, ensured the sealing between plug and the semiconductor microactuator wave producer of the second radio frequency connector.

The utility model second aspect embodiment provide a kind of micro-wave oven, comprise: the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that culinary art cavity and the arbitrary embodiment of above-mentioned first aspect provide, the microwave input unit of the semiconductor microactuator wave producer input and output syndeton of described micro-wave oven is connected with described culinary art cavity.

The micro-wave oven that the utility model second aspect embodiment provides, there is the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that the arbitrary embodiment of above-mentioned first aspect provides, therefore, this micro-wave oven has whole beneficial effects of the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that the arbitrary embodiment of above-mentioned first aspect provides, and this micro-wave oven has that volume is little, low cost and other advantages.

According to an embodiment of the present utility model, the semiconductor microactuator wave producer input and output syndeton of described micro-wave oven is positioned on the roof or diapire or sidewall or rear wall of described culinary art cavity.

Semiconductor microactuator wave producer input and output syndeton is positioned on the roof or diapire or sidewall or rear wall of culinary art cavity, make the installation of semiconductor microactuator wave producer syndeton simple and convenient, thereby make the structural design of microwave and shape simplicity of design convenient, and then effectively improved the production efficiency of micro-wave oven.

Additional aspect of the present utility model and advantage will provide in description part below, and part will become obviously from the following description, or recognize by practice of the present utility model.

Brief description of the drawings

Above-mentioned and/or additional aspect of the present utility model and advantage accompanying drawing below combination is understood becoming the description of embodiment obviously and easily, wherein:

Fig. 1 is according to the structural representation of the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven described in the utility model one embodiment.

Wherein, in Fig. 1, the corresponding relation between Reference numeral and component names is:

10 semiconductor microactuator wave producers, 11 metal substrates, 12 printed circuit board (PCB)s, 121 microwave signal delivery outlets, 122 microwave signal input ports, 13 radomes, 21 first radio frequency connectors, the socket of 211 first radio frequency connectors, the plug of 212 first radio frequency connectors, 31 second radio frequency connectors, the socket of 311 second radio frequency connectors, the plug of 312 second radio frequency connectors, 40 first ring flanges, 50 second ring flanges.

Detailed description of the invention

In order more clearly to understand above-mentioned purpose of the present utility model, feature and advantage, below in conjunction with the drawings and specific embodiments, the utility model is further described in detail.It should be noted that, in the situation that not conflicting, the feature in the application's embodiment and embodiment can combine mutually.

A lot of details are set forth in the following description so that fully understand the utility model; but; the utility model can also adopt other to be different from mode described here and implement, and therefore, protection domain of the present utility model is not subject to the restriction of following public specific embodiment.

The 1 semiconductor microactuator wave producer input and output syndeton that the micro-wave oven providing according to some embodiment of the utility model is provided with reference to the accompanying drawings.

As shown in Figure 1, the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that some embodiment of the utility model provide, comprising: semiconductor microactuator wave producer 10, microwave input unit and microwave output device.

Wherein, semiconductor microactuator wave producer 10 is provided with microwave signal delivery outlet 121 and microwave signal input port 122, and microwave signal delivery outlet 121 is positioned at front or the back side of semiconductor microactuator wave producer 10; Microwave input unit is arranged on semiconductor microactuator wave producer 10, and is connected with microwave signal input port 122; Microwave output device is arranged on semiconductor microactuator wave producer 10, and is connected with microwave signal delivery outlet 122.

The semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that the present embodiment provides, microwave signal delivery outlet 121 is arranged on front or the back side of semiconductor microactuator wave producer 10, microwave output device is connected with microwave signal delivery outlet 121, be microwave output device with the front of semiconductor microactuator wave producer 10 or the back side is vertical is connected, effectively reduce the ultimate range between semiconductor microactuator wave producer 10 and culinary art cavity, thereby effectively reduce the volume of micro-wave oven, make structural design and the shape simplicity of design of microwave convenient, and then effectively reduce the manufacturing cost of micro-wave oven, the setting of microwave input unit, has ensured that semiconductor microactuator wave producer can receive simultaneously and send microwave signal effectively.

Preferably, semiconductor microactuator wave producer 10 comprises: metal substrate 11, printed circuit board (PCB) 12 and radome 13;

The back side of printed circuit board (PCB) 12 is fixedly connected with metal substrate 11, and microwave signal delivery outlet 121 and microwave signal input port 122 are all arranged on printed circuit board (PCB) 12, and microwave signal delivery outlet 121 is arranged in the front of printed circuit board (PCB) 12 or the one side at the back side; Radome 13 is located at front and the side of printed circuit board (PCB) 12; Microwave output device is arranged on described printed circuit board (PCB) 12 with respect to microwave signal delivery outlet 122 through radome 13 or metal substrate 11.

Metal substrate 11 makes to be connected simple and conveniently between printed circuit board (PCB) 12 and heat abstractor, and metal has good thermal conductivity, thereby effectively ensured the radiating effect of printed circuit board (PCB) 12; The setting of radome 13, has ensured the sealing of semiconductor microactuator wave producer 10 effectively.

Particularly, microwave output device is the first radio frequency connector 21, the socket 211 of the first radio frequency connector is connected with microwave signal delivery outlet 121, the plug 212 of the first radio frequency connector passes radome 13 or metal substrate 11, and is fixedly connected with radome 13 or metal substrate 11 by the first ring flange 40; Microwave input unit is that the socket 311 of the second radio frequency connector 31, the second radio frequency connectors is connected with microwave signal input port 122, and the plug 312 of the second radio frequency connector is positioned at the outside of semiconductor microactuator wave producer 10.

Radio frequency connector is simple in structure, easy for installation, has effectively reduced the installation difficulty of semiconductor microactuator wave producer 10 syndetons, has improved the efficiency of assembling of semiconductor microactuator wave producer input and output syndetons; The first ring flange 40 arranges, on the one hand, ensure the bonding strength between plug 212 and radome 13 or the metal substrate 11 of the first radio frequency connector, on the other hand, ensured the sealing between plug 212 and the semiconductor microactuator wave producer 10 of the first radio frequency connector.。

Preferably, socket 211 welding of the first radio frequency connector or clamping or be screwed onto on printed circuit board (PCB) 12; Microwave signal input port 122 is positioned at front or the back side or the side of printed circuit board (PCB) 12, and the plug 312 of the second radio frequency connector passes radome 13 or metal substrate 11, and is fixedly connected with radome 13 or metal substrate 11 by the second ring flange 50.

Welding or clamping or be spirally connected and all there is good bonding strength, thus the bonding strength between socket 211 and the printed circuit board (PCB) 12 of the first radio frequency connector effectively ensured; The plug 312 of the second radio frequency connector is fixedly connected with radome 13 or metal substrate 11 by the second ring flange 50, the setting of the second ring flange 50, on the one hand, ensure the bonding strength between plug 312 and radome 13 or the metal substrate 11 of the second radio frequency connector, on the other hand, ensured the sealing between plug 312 and the semiconductor microactuator wave producer 10 of the second radio frequency connector.。

Alternatively, microwave output device is magnetron output precision, magnetron output precision comprises: magnetron antenna, the first base plate and the first retainer ring, the first retainer ring and the first base plate are set on magnetron antenna, and one end of magnetron antenna is connected with microwave signal delivery outlet 121 through radome 13 or metal substrate 11.

Magnetron output precision comprises magnetron antenna, the first base plate and the first retainer ring, simple in structure, easily processing and manufacturing moulding, thereby effectively reduce the difficulty of processing of microwave output device, and magnetron antenna output precision has, and power is large, efficiency is high, size is little, lightweight and low cost and other advantages, thereby effectively ensured within the predetermined heat time, the food heating in culinary art cavity is abundant, and then has effectively improved product quality

Or, microwave output device is probe output precision, probe output precision comprises: probe, the second base plate and the second retainer ring, and the second retainer ring and the second base plate are set on probe, and one end of probe is connected with microwave signal delivery outlet 121 through radome 13 or metallic plate.

Probe output precision comprises probe, the second base plate and the second retainer ring, simple in structure, easily processing and manufacturing moulding, thereby effectively reduce the difficulty of processing of microwave output device, and probe has good microwave conduction efficiency, thereby effectively ensured within the predetermined heat time, the food heating in culinary art cavity is abundant, and then has effectively improved product quality.

The micro-wave oven that another embodiment of the utility model provides, comprise: the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that culinary art cavity and above-mentioned arbitrary embodiment provide, the microwave input unit of the semiconductor microactuator wave producer input and output syndeton of micro-wave oven is connected with culinary art cavity.

The micro-wave oven that the present embodiment provides, there is the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that above-mentioned arbitrary embodiment provides, therefore, this micro-wave oven has whole beneficial effects of the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that above-mentioned arbitrary embodiment provides, and this micro-wave oven has that volume is little, low cost and other advantages.

Preferably, the semiconductor microactuator wave producer input and output syndeton of micro-wave oven is positioned on the roof or diapire or sidewall or rear wall of culinary art cavity.

The semiconductor microactuator wave producer input and output syndeton of micro-wave oven is positioned on the roof or diapire or sidewall or rear wall of culinary art cavity, make the installation of semiconductor microactuator wave producer input and output syndeton of micro-wave oven simple and convenient, thereby make the structural design of microwave and shape simplicity of design convenient, and then effectively improved the production efficiency of micro-wave oven.

In sum, the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven that the utility model provides, microwave signal delivery outlet is arranged on front or the back side of semiconductor microactuator wave producer, microwave output device is connected with microwave signal delivery outlet, be microwave output device with the front of semiconductor microactuator wave producer or the back side is vertical is connected, effectively reduce the ultimate range between semiconductor microactuator wave producer and culinary art cavity, thereby effectively reduce the volume of micro-wave oven, make structural design and the shape simplicity of design of microwave convenient, and then effectively reduce the manufacturing cost of micro-wave oven, it is little that the micro-wave oven that the utility model provides has volume, low cost and other advantages.

In description of the present utility model, the only object for describing of term " first ", " second ", and can not be interpreted as instruction or hint relative importance, unless otherwise clearly defined and limited.

In description of the present utility model, term " installation ", " connection ", " being connected ", " fixing " etc. all should be interpreted broadly, and for example, " connection " can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; " being connected " can be to be directly connected, and also can indirectly be connected by intermediary.For the ordinary skill in the art, can understand as the case may be the concrete meaning of above-mentioned term in the utility model.

In the description of this description, the description of term " embodiment ", " some embodiment ", " specific embodiment " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the feature of this embodiment or example description.In this manual, the schematic statement of above-mentioned term is not necessarily referred to identical embodiment or example.And specific features, structure, material or the feature of description can be with suitable mode combination in any one or more embodiment or example.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. a semiconductor microactuator wave producer input and output syndeton for micro-wave oven, is characterized in that, comprising:

Semiconductor microactuator wave producer, described semiconductor microactuator wave producer is provided with microwave signal delivery outlet and microwave signal input port, and described microwave signal delivery outlet is positioned at front or the back side of described semiconductor microactuator wave producer;

Microwave input unit, described microwave input unit is arranged on described semiconductor microactuator wave producer, and is connected with described microwave signal input port; With

Microwave output device, described microwave output device is arranged on described semiconductor microactuator wave producer, and is connected with described microwave signal delivery outlet.

2. the semiconductor microactuator wave producer input and output syndeton of micro-wave oven according to claim 1, is characterized in that,

Described semiconductor microactuator wave producer comprises:

Metal substrate;

Printed circuit board (PCB), the back side of described printed circuit board (PCB) is fixedly connected with described metal substrate, described microwave signal delivery outlet and described microwave signal input port are all arranged on described printed circuit board (PCB), and described microwave signal delivery outlet is arranged in the front of described printed circuit board (PCB) or the one side at the back side; With

Radome, described radome is located at front and the side of described printed circuit board (PCB);

Described microwave output device is arranged on described printed circuit board (PCB) through described radome or described metal substrate.

3. the semiconductor microactuator wave producer input and output syndeton of micro-wave oven according to claim 2, is characterized in that,

Described microwave output device is the first radio frequency connector, the socket of described the first radio frequency connector is connected with described microwave signal delivery outlet, the plug of described the first radio frequency connector passes described radome or described metal substrate, and is fixedly connected with described radome or described metal substrate by the first ring flange.

4. the semiconductor microactuator wave producer input and output syndeton of micro-wave oven according to claim 3, is characterized in that,

The socket welding of described the first radio frequency connector or clamping or be screwed onto on described printed circuit board (PCB).

5. the semiconductor microactuator wave producer input and output syndeton of micro-wave oven according to claim 2, is characterized in that,

Described microwave output device is magnetron output precision, described magnetron output precision comprises: magnetron antenna, the first base plate and the first retainer ring, described the first retainer ring and described the first base plate are set on described magnetron antenna, and one end of described magnetron antenna is connected with described microwave signal delivery outlet through described radome or described metal substrate.

6. the semiconductor microactuator wave producer input and output syndeton of micro-wave oven according to claim 2, is characterized in that,

Described microwave output device is probe output precision, described probe output precision comprises: probe, the second base plate and the second retainer ring, described the second retainer ring and described the second base plate are set on described probe, and one end of described probe is connected with described microwave signal delivery outlet through described radome or described metallic plate.

7. according to the semiconductor microactuator wave producer input and output syndeton of the micro-wave oven described in any one in claim 2 to 6, it is characterized in that,

Described microwave input unit is the second radio frequency connector, and the socket of described the second radio frequency connector is connected with described microwave signal input port, and the plug of described the second radio frequency connector is positioned at the outside of semiconductor microactuator wave producer.

8. the semiconductor microactuator wave producer input and output syndeton of micro-wave oven according to claim 7, is characterized in that,

Described microwave signal input port is positioned at front or the back side or the side of described printed circuit board (PCB), the plug of described the second radio frequency connector passes described radome or described metal substrate, and is fixedly connected with described radome or described metal substrate by the second ring flange.

9. a micro-wave oven, is characterized in that, comprising:

Culinary art cavity; With

The semiconductor microactuator wave producer input and output syndeton of the micro-wave oven as described in any one in claim 1 to 8, the microwave input unit of the semiconductor microactuator wave producer input and output syndeton of described micro-wave oven is connected with described culinary art cavity.

10. micro-wave oven according to claim 9, is characterized in that,

The semiconductor microactuator wave producer input and output syndeton of described micro-wave oven is positioned on the roof or diapire or sidewall or rear wall of described culinary art cavity.