CN213664901U - Cooking apparatus - Google Patents

Abstract

The utility model provides a cooking device, include: the microwave oven comprises a shell, a microwave oven body and a microwave oven cover, wherein the shell is provided with a cooking cavity, and the wall of the cooking cavity is provided with a microwave emitting port; the light-transmitting cover body is arranged on the cavity wall of the cooking cavity and covers the microwave emitting port. The light-transmitting cover body is not very obtrusive in the cooking cavity, and the problem that the mica sheet is not attractive in the cooking cavity is solved. In addition, the light-transmitting cover body does not need to be further processed, so that the processing difficulty of the product is reduced, and the processing cost of the product is reduced.

Description

Cooking apparatus

Technical Field

The utility model belongs to the technical field of food processing equipment, particularly, relate to a cooking equipment.

Background

The microwave oven is characterized in that a waveguide port for transmitting microwaves to the inner cavity is formed in the cavity wall of the inner cavity of the microwave oven, in order to avoid damage to microwave generation components inside the waveguide port caused by impurities such as food, mica sheets need to be installed at the waveguide port to shield the waveguide port, however, the color of the mica sheets is poor in color matching with the inner cavity, and workers need to further process the mica sheets, so that the processing difficulty is increased, and the production cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art or the correlation technique.

In view of this, the utility model provides a cooking device, include: the microwave oven comprises a shell, a microwave oven body and a microwave oven cover, wherein the shell is provided with a cooking cavity, and the wall of the cooking cavity is provided with a microwave emitting port; the light-transmitting cover body is arranged on the cavity wall of the cooking cavity and covers the microwave emitting port.

The utility model provides a cooking equipment includes the casing and the printing opacity cover body, is provided with the culinary art chamber in the casing, and the culinary art intracavity is used for the culinary art to eat the material, is provided with the microwave emission mouth on the chamber wall in culinary art chamber, and the microwave that the subassembly produced takes place passes through the microwave emission mouth and transmits to the culinary art intracavity to the edible material to the culinary art chamber cooks. The light-transmitting cover body covers the microwave transmitting opening, the light-transmitting cover body enables the food materials to be difficult to penetrate through the microwave transmitting opening to damage the microwave generating assembly due to the fact that the light-transmitting cover body covers the microwave transmitting opening, the service life of the product is prolonged, and the damage rate of the product is reduced. Moreover, because the light-transmitting cover body can be passed through light to see that microwave emitter department still is similar to being the hole column structure in the vision, thereby can not carry out further processing to the light-transmitting cover body for making the color collocation of light-transmitting cover body and culinary art chamber, that is to say, the light-transmitting cover body can not seem very obtrusive at the culinary art intracavity, has solved the mica sheet and has leaded to the not pleasing to the eye problem of product at the culinary art intracavity. In addition, the light-transmitting cover body does not need to be further processed, so that the processing difficulty of the product is reduced, and the processing cost of the product is reduced.

In addition, according to the utility model provides a cooking equipment among the above-mentioned technical scheme can also have following additional technical characteristics:

in one possible design, the light-transmissive envelope includes: a body that is transparent to light and microwaves; the light-emitting cavity is arranged in the body, inert gas is filled in the light-emitting cavity, a fluorescent substance is arranged on the wall of the light-emitting cavity, and the inert gas after absorbing the microwaves can enable the fluorescent substance to generate visible light and/or ultraviolet light.

In this design, the printing opacity cover body includes body and luminous chamber, and the body can see through light and microwave, and the body is difficult for blockking light and microwave production promptly. The body is difficult to produce to stop light to see in the vision that microwave transmission mouth department still is similar to be the hole column structure, thereby can not further process the printing opacity cover body for the colour collocation that makes the printing opacity cover body and culinary art chamber, owing to need not carry out further processing to the printing opacity cover body moreover, reduced the processing degree of difficulty to the product and reduced the processing cost of product. The body is difficult to block the microwave to make the microwave can pass the body and cook the edible material of culinary art intracavity, the microwave is passing the body after, does not have loss or loss less, thereby can guarantee to the culinary art effect of edible material. Luminous intracavity is filled there is inert gas, and inert gas receives the influence of microwave and avalanche ionization and produce ultraviolet ray, and the phosphor receives ultraviolet influence and produces visible light to for the culinary art chamber provides the illumination, from this visible, the utility model provides a translucent cover body can give out light when receiving the microwave action, that is to say, just can make the translucent cover body luminous as long as microwave subassembly begins to work, so need not set up other light sources in the culinary art intracavity, because the translucent cover body does not connect the power just can realize luminous function, has effectively reduced energy consumption. Moreover, when using the lamp body that needs to connect the power, need prevent the lamp body outside the culinary art chamber for the illuminating effect of lamp body is relatively poor, and the utility model discloses in with the printing opacity cover body that sets up in the culinary art intracavity as the light source, can directly throw light on the culinary art intracavity, improve illumination intensity, improve illuminating effect. Moreover, ultraviolet light generated by the inert gas under the influence of microwaves can sterilize and disinfect food materials in the cooking cavity, so that the use safety of the product is improved, and the use experience of a user on the product is improved.

In one possible design, the light-emitting cavity covers part of the microwave-emitting opening.

In this design, it only covers partial microwave emission mouth specifically to have injectd luminous chamber, inert gas in the luminous chamber can absorb partial microwave, if luminous chamber covers whole microwave emission mouth, just also lead to only partial unabsorbed microwave can pass the printing opacity cover body and get into the culinary art chamber, in order to guarantee the culinary art effect to eating the material, luminous chamber only covers partial microwave emission mouth, be equipped with microwave emission mouth department on the body and only can pass through partial microwave, and the part that the microwave emission mouth is not covered by luminous chamber can supply the microwave to pass through and be difficult for absorbing the microwave, make a large amount of microwaves can transmit to the culinary art intracavity, guarantee cooking equipment to the culinary art effect of eating the material, improve user's use and experience.

The light-emitting cavity only covering part of the microwave emitting port can play a role in illumination, and the occupied volume of the light-emitting cavity on the body is limited, so that the material cost can be effectively saved.

In one possible design, the number of light emitting cavities is one; or the number of the light-emitting cavities is multiple, and two adjacent light-emitting cavities in the multiple light-emitting cavities are arranged at intervals.

In this design, the number of light emitting cavities can be adjusted according to the product use requirements. For example, one light-emitting cavity can be arranged, only part of the microwave emitting port is covered by one light-emitting cavity, the light-emitting cavity only covering the part of the microwave emitting port can play a role in illumination, and the occupied volume of the light-emitting cavity on the body is limited, so that the material cost can be effectively saved. The luminous cavity can also be a plurality of, and two adjacent luminous cavity intervals in a plurality of luminous cavities set up, can transmit the microwave in the interval department in two adjacent luminous cavities for the microwave can cook the edible material of culinary art intracavity more uniformly, and a plurality of luminous cavity intervals set up also can improve the quantity of light source, thereby improve illuminating effect.

In one possible design, the body includes: a quartz glass body.

In this design, the material of specifically injecing the body is quartz glass, and quartz glass has the function of passing through light and passing through the microwave, installs the body that quartz glass made in microwave launcher department, can block to eat the material and pass the microwave launcher, can not absorb the microwave moreover yet to guarantee the culinary art effect to the edible material of culinary art intracavity. And because quartz glass has the non-light tight function, when the fluorescence thing of culinary art intracavity is luminous, the bright body that can pass shines to the culinary art intracavity, improves the illuminating effect to the culinary art intracavity. Furthermore, the quartz glass is not easy to fall off chips, so that the influence on food materials is not easy to occur, and the edible safety of the food materials is improved. After accomplishing the culinary art step, the oil stain of part edible material can spatter printing opacity cover body surface, because the quartz glass surface is smooth, can effectively improve the clean convenience to the printing opacity cover body, improves user's use and experiences.

In one possible design, the cooking apparatus further comprises: the containing groove is arranged on the cavity wall of the cooking cavity, and the light-transmitting cover body can be contained in the containing groove.

In this design, when installing the printing opacity cover body, can install the printing opacity cover body to the storage tank in, the storage tank plays limiting displacement to the printing opacity cover body for the printing opacity cover body is difficult for relative casing to rock, thereby can improve the installation stability to the printing opacity cover body. Moreover, the installation and fixation of the light-transmitting cover body can be realized by directly embedding the light-transmitting cover body into the accommodating groove, the light-transmitting cover body does not need to be fixed by other components or the installation hole is processed on the light-transmitting cover body, the installation steps are reduced, and the structural stability of the light-transmitting cover body is ensured. In order to further improve the installation stability to the printing opacity cover body, also can be close storage tank department and set up spacing muscle on the chamber wall in culinary art chamber, spacing muscle can be made by the aluminum product, and deformation takes place easily for spacing muscle, after installing the printing opacity cover body to the storage tank in, pulls spacing muscle again for spacing muscle butt is on the wall in printing opacity cover body orientation culinary art chamber, and spacing muscle restriction printing opacity cover body breaks away from the storage tank, improves the installation stability to the printing opacity cover body.

In one possible design, the cooking apparatus further comprises: the positioning column is arranged on the light-transmitting cover body; the constant head tank is located the chamber wall in culinary art chamber, and the reference column can be pegged graft in the constant head tank.

In this design, when installing the printing opacity cover body, can with the location post plug-in connection of printing opacity cover body one side to the constant head tank in, the constant head tank plays location and limiting displacement to the printing opacity cover body for the printing opacity cover body is difficult for relative casing to rock, thereby can improve the installation stability to the printing opacity cover body. Moreover, the installation and fixation of the light-transmitting cover body can be realized by directly embedding the positioning column into the positioning groove, the light-transmitting cover body does not need to be fixed by other components or the installation hole is processed on the light-transmitting cover body, the installation steps are reduced, and the structural stability of the light-transmitting cover body is ensured. In order to further improve the installation stability to the printing opacity cover body, also can be close printing opacity cover body department on the chamber wall in culinary art chamber and set up spacing muscle, spacing muscle can be made by the aluminum product, and deformation takes place easily for spacing muscle, after with the reference column plug-in connection to the constant head tank in, pulls spacing muscle again for spacing muscle butt is on the wall in printing opacity cover body orientation culinary art chamber, and spacing muscle restriction printing opacity cover body breaks away from the chamber wall in culinary art chamber, improves the installation stability to the printing opacity cover body.

In one possible design, the microwave generating assembly includes: a magnetron for generating microwaves; and the first end of the waveguide tube is connected with the magnetron, and the second end of the waveguide tube is arranged at the microwave transmitting port.

In this design, can produce the microwave in the magnetron, the waveguide pipe is connected with the magnetron, and the microwave passes through the waveguide pipe and transmits to the microwave transmission mouth, and partial microwave influences the luminous and ultraviolet production of printing opacity cover body, throws light on and disinfects the disinfection to the edible material in the culinary art intracavity to the culinary art intracavity.

In one possible design, the cooking apparatus further comprises: the avoiding part is formed by bending the cavity wall of the cooking cavity towards the direction back to the cooking cavity.

In this design, specifically inject the shape in the chamber wall in culinary art chamber, the partial cavity wall in culinary art chamber is buckled to the direction that deviates from the culinary art chamber to form and dodge the portion, dodge the portion and be constructed for sunken form in culinary art intracavity portion, dodge the portion through setting up, increased the holding in culinary art chamber, make the culinary art intracavity can place more edible materials, improve culinary art efficiency and improve user's use and experience.

It can be understood that the volume of the cooking cavity does not need to be increased through the integral increase of the cooking equipment, the function of increasing the volume of the cooking cavity can be realized only by bending the side wall of the cooking cavity in the direction away from the cooking cavity, and the processing cost of the product is reduced.

In one possible design, the cooking apparatus further comprises: the heat dissipation hole is arranged on the avoiding part.

In this design, the louvre communicates the external world and cooks the chamber for the louvre can realize the heat dissipation function, avoids the high temperature of culinary art intracavity to produce the influence to the steady operation of electrical part.

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

Drawings

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

fig. 1 shows a schematic structural diagram of a cooking apparatus according to an embodiment of the present invention;

fig. 2 shows a schematic structural diagram of a cooking apparatus according to another embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 and fig. 2 is:

100 shell, 110 cooking cavity, 120 microwave transmitting port, 130 avoiding part, 140 heat dissipation holes, 200 light-transmitting cover body, 210 body and 220 light-emitting cavity.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A cooking apparatus provided according to some embodiments of the present invention is described below with reference to fig. 1 and 2.

The first embodiment is as follows:

referring to fig. 1 and 2, an embodiment of the present invention provides a cooking apparatus, including: the microwave oven comprises a shell 100 and a light-transmitting cover body 200, wherein the shell 100 is provided with a cooking cavity 110, the cavity wall of the cooking cavity 110 is provided with a microwave emitting port 120, the light-transmitting cover body 200 is arranged on the cavity wall of the cooking cavity 110, and the light-transmitting cover body 200 covers the microwave emitting port 120.

Be provided with cooking cavity 110 in the casing 100, be used for cooking the edible material in the cooking cavity 110, be provided with microwave emission mouth 120 on cooking cavity 110's the chamber wall, the microwave that the microwave generation subassembly produced passes through microwave emission mouth 120 and transmits to cooking cavity 110 in to the edible material in cooking cavity 110 cooks. The light-transmitting cover body 200 covers the microwave emitting port 120, and the light-transmitting cover body 200 shields the microwave emitting port 120, so that food materials are not easy to penetrate through the microwave emitting port 120 and damage the microwave generating assembly, the service life of a product is prolonged, and the damage rate of the product is reduced. Moreover, because the light-transmitting cover body 200 can transmit light, the microwave emitting opening 120 can be visually seen to be still similar to a hole-shaped structure, so that the light-transmitting cover body 200 cannot be further processed in order to match the colors of the light-transmitting cover body 200 and the cooking cavity 110, that is, the light-transmitting cover body 200 cannot be very obtrusive in the cooking cavity 110, and the problem that the mica sheet causes the product to be unattractive in the cooking cavity 110 is solved. Moreover, since the light-transmitting cover body 200 does not need to be further processed, the processing difficulty of the product and the processing cost of the product are reduced.

Example two:

referring to fig. 1 and fig. 2, on the basis of the first embodiment, the light-transmissive cover 200 includes: a body 210 and a light emitting cavity 220, the body 210 being transparent to light and microwaves; the light-emitting cavity 220 is arranged in the body 210, inert gas is filled in the light-emitting cavity 220, a fluorescent substance is arranged on the cavity wall of the light-emitting cavity 220, and the inert gas after absorbing the microwaves can enable the fluorescent substance to generate visible light and/or ultraviolet light.

In this embodiment, the light-transmissive enclosure 200 includes a body 210 and a light-emitting cavity 220, and the body 210 is transparent to light and microwaves, i.e., the body 210 is not easily blocked to light and microwaves. The body 210 is not easy to block light, so that the microwave emitting port 120 is visually seen to be still similar to a hole-shaped structure, the light-transmitting cover body 200 cannot be further processed for matching the colors of the light-transmitting cover body 200 and the cooking cavity 110, and the light-transmitting cover body 200 does not need to be further processed, so that the processing difficulty of products is reduced, and the processing cost of the products is reduced. The body 210 is not easy to block microwaves, so that the microwaves can penetrate through the body 210 to cook the food materials in the cooking cavity 110, and the microwaves do not lose or lose less after penetrating through the body 210, so that the cooking effect on the food materials can be guaranteed. The intussuseption of luminous cavity 220 is filled with inert gas, and inert gas receives the influence of microwave and avalanche ionization and production ultraviolet ray, and the phosphor receives ultraviolet ray's influence and produces visible light to for cooking the chamber 110 provides the illumination, from this visible, the utility model provides a light-transmitting cover body 200 can give out light when receiving the microwave action, that is to say, just can make light-transmitting cover body 200 luminous as long as microwave subassembly begins to work, so need not set up other light sources in cooking the chamber 110, because light-transmitting cover body 200 does not have the connection power just can realize luminous function, has effectively reduced energy resource consumption. Moreover, when using the lamp body that needs to connect the power, need prevent the lamp body outside culinary art chamber 110 for the illuminating effect of lamp body is relatively poor, and the utility model discloses in with the printing opacity cover body 200 that sets up in culinary art chamber 110 as the light source, can directly throw light on in the culinary art chamber 110, improve illumination intensity, improve illuminating effect. Moreover, ultraviolet light generated by the inert gas under the influence of microwaves can sterilize and disinfect food materials in the cooking cavity 110, so that the use safety of the product is improved, and the use experience of a user on the product is improved.

Further, the light emitting cavity 220 covers a portion of the microwave emitting port 120. It only covers part of microwave emission mouth 120 specifically to have limited luminous cavity 220, inert gas in the luminous cavity 220 can absorb partial microwave, if luminous cavity 220 covers whole microwave emission mouth 120, just also lead to only that part unabsorbed microwave can pass through light-permeable cover body 200 and get into culinary art chamber 110, in order to guarantee the culinary art effect to eating the material, luminous cavity 220 only covers part of microwave emission mouth 120, it only can pass through partial microwave to be equipped with microwave emission mouth 120 department on the body 210, and the part that microwave emission mouth 120 is not covered by luminous cavity 220 can supply the microwave to pass through and be difficult for absorbing the microwave, make a large amount of microwaves can transmit to in the culinary art chamber 110, guarantee the culinary art effect of cooking equipment to eating the material, improve user's use experience.

The light emitting cavity 220 only covering a part of the microwave emitting port 120 can play a role of illumination, and the occupied volume of the light emitting cavity 220 on the body 210 is limited, so that the material cost can be effectively saved.

Further, the number of the light emitting cavities 220 is one; or the number of the light emitting cavities 220 is plural, and two adjacent light emitting cavities 220 in the plural light emitting cavities 220 are arranged at intervals.

The number of light-emitting cavities 220 can be adjusted according to the use requirements of the product. For example, one light emitting cavity 220 may be provided, one light emitting cavity 220 only covers part of the microwave emitting port 120, and the light emitting cavity 220 only covering part of the microwave emitting port 120 can perform an illumination function, so that the occupied volume of the light emitting cavity 220 on the body 210 is limited, and the material cost can be effectively saved. The light-emitting cavities 220 can be multiple, two adjacent light-emitting cavities 220 in the multiple light-emitting cavities 220 are arranged at intervals, microwaves can be transmitted at the intervals of the two adjacent light-emitting cavities 220, the microwaves can cook food materials in the cooking cavity 110 more uniformly, and the quantity of light sources can be increased due to the arrangement of the multiple light-emitting cavities 220 at intervals, so that the lighting effect is improved.

Further, the body 210 includes: a quartz glass body 210.

The material that specifically prescribes a limit to body 210 is quartz glass, and quartz glass has the function of passing through light and passing through the microwave, installs body 210 that quartz glass made in microwave emission mouth 120 department, can block to eat material and pass through microwave emission mouth 120, can not absorb the microwave moreover yet to guarantee the culinary art effect to the food material in the cooking chamber 110. And because the quartz glass has the function of light transmission, when the fluorescent object in the cooking cavity 110 emits light, the light can penetrate through the body 210 and irradiate into the cooking cavity 110, and the lighting effect in the cooking cavity 110 is improved. Furthermore, the quartz glass is not easy to fall off chips, so that the influence on food materials is not easy to occur, and the edible safety of the food materials is improved. After accomplishing the culinary art step, the oil stain of part edible material can splash the light-transmitting cover body 200 surface, because the quartz glass surface is smooth, can effectively improve the clean convenience to light-transmitting cover body 200, improves user's use and experiences.

Example three:

referring to fig. 1 and 2, in an embodiment of the above embodiments, the cooking apparatus further includes a containing groove disposed on a cavity wall of the cooking cavity 110, and the light-transmissive cover 200 can be contained in the containing groove.

In this embodiment, when installing the light-transmitting cover body 200, can install the light-transmitting cover body 200 to the storage tank in, the storage tank plays limiting displacement to the light-transmitting cover body 200 for the light-transmitting cover body 200 is difficult for rocking relative casing 100, thereby can improve the installation stability to the light-transmitting cover body 200. Moreover, the installation and fixation of the light-transmitting cover body 200 can be realized by directly embedding the light-transmitting cover body 200 into the accommodating groove, and the light-transmitting cover body 200 does not need to be fixed by other components or installation holes are processed on the light-transmitting cover body 200, so that the installation steps are reduced, and the structural stability of the light-transmitting cover body 200 is ensured. In order to further improve the installation stability to the translucent cover body 200, also can be close storage tank department and set up spacing muscle on the chamber wall of culinary art chamber 110, spacing muscle can be made by the aluminum product, deformation takes place easily for spacing muscle, after installing translucent cover body 200 to the storage tank in, pull spacing muscle again, make spacing muscle butt on the translucent cover body 200 towards the wall of culinary art chamber 110, spacing muscle restriction translucent cover body 200 breaks away from the storage tank, improve the installation stability to translucent cover body 200.

In another specific embodiment of the above embodiment, the cooking apparatus further includes a positioning column and a positioning groove, the positioning column is disposed on the light-transmitting cover 200; the chamber wall in culinary art chamber 110 is located to the constant head tank, and the reference column can be pegged graft in the constant head tank.

In this embodiment, when installing the light-transmitting cover body 200, can insert the positioning column of one side of the light-transmitting cover body 200 into the positioning groove, the positioning groove plays a role in positioning and limiting the light-transmitting cover body 200, so that the light-transmitting cover body 200 is not easy to shake relative to the casing 100, thereby improving the installation stability of the light-transmitting cover body 200. Moreover, the installation and fixation of the light-transmitting cover body 200 can be realized by directly embedding the positioning column into the positioning groove, the light-transmitting cover body 200 does not need to be fixed by other components or the installation hole is processed on the light-transmitting cover body 200, the installation steps are reduced, and the structural stability of the light-transmitting cover body 200 is ensured. In order to further improve the installation stability to the printing opacity cover body 200, also can be close printing opacity cover body 200 department on the chamber wall of culinary art chamber 110 and set up spacing muscle, spacing muscle can be made by the aluminum product, deformation takes place easily for spacing muscle, after in inserting the reference column into the constant head tank, pull spacing muscle again, make spacing muscle butt on the printing opacity cover body 200 towards the wall of culinary art chamber 110, spacing muscle restriction printing opacity cover body 200 breaks away from the chamber wall of culinary art chamber 110, improve the installation stability to printing opacity cover body 200.

Example four:

in the above embodiment, as shown in fig. 1 and 2, the microwave generating assembly includes: a magnetron for generating microwaves and a waveguide; a first end of the waveguide is connected to the magnetron and a second end of the waveguide is provided at the microwave emitting port 120.

In this embodiment, microwaves can be generated in the magnetron, the waveguide is connected to the magnetron, the microwaves are transmitted to the microwave transmitting port 120 through the waveguide, and part of the microwaves affect the light-transmitting cover 200 to emit light and generate ultraviolet rays, so as to illuminate the cooking cavity 110 and sterilize and disinfect the food materials in the cooking cavity 110.

Further, the cooking apparatus further includes a bypass portion 130, and the bypass portion 130 is formed by bending the cavity wall of the cooking cavity 110 in a direction away from the cooking cavity 110.

The shape of the cavity wall of the cooking cavity 110 is specifically limited, and the partial cavity wall of the cooking cavity 110 is bent towards the direction departing from the cooking cavity 110, so that an avoiding part 130 is formed, the avoiding part 130 is constructed into a concave shape in the cooking cavity 110, and the containing of the cooking cavity 110 is increased by arranging the avoiding part 130, so that more food materials can be placed in the cooking cavity 110, the cooking efficiency is improved, and the use experience of a user is improved.

It can be understood that the containing of the cooking cavity 110 is not required to be increased by integrally increasing the volume of the cooking device, and the function of increasing the volume of the cooking cavity 110 can be realized only by bending the side wall of the cooking cavity 110 in the direction away from the cooking cavity 110, so that the processing cost of the product is reduced.

Further, the cooking apparatus further includes heat dissipation holes 140, and the heat dissipation holes 140 are disposed in the avoiding portion 130. The heat dissipation holes 140 communicate with the outside and the cooking cavity 110, so that the heat dissipation holes 140 can realize a heat dissipation function, and the influence of high temperature in the cooking cavity 110 on the stable operation of electric devices is avoided.

Example five:

referring to fig. 1 and 2, in this embodiment, the cooking apparatus is a microwave oven, and specifically includes: a magnetron, a waveguide, a cooking cavity 110 and a light-transmissive enclosure 200. The magnetron is fixed at the wave inlet end of the waveguide tube, the wave outlet of the waveguide tube is connected with the cooking cavity 110, a gap is arranged at the connection position, and the light-transmitting cover body 200 is arranged at the gap position.

The microwave emitted from the magnetron enters the waveguide tube from the wave inlet end of the waveguide tube, then is reflected to the wave outlet of the waveguide tube, and enters the cooking cavity 110 through the gap of the cooking cavity 110 and the transparent cover body 200.

The light-transmissive cover 200 is light-transmissive and wave-transmissive.

The light-transmissive envelope 200 is composed of quartz glass, an inert gas and mercury vapor.

The inert gas is encapsulated in quartz glass, and the light-transmissive cover 200 may be in the shape of a tube, a ring, a square, or other shapes.

When the microwaves pass through the light-transmitting cover 200, a part of the microwaves can directly pass through the quartz glass and enter the cooking cavity 110; a portion of the microwaves are absorbed by the inert gas enclosed in the quartz glass. The inert gas is heated after absorbing the microwaves and excites the mercury to produce light. The generated light may be irradiated to the inside of the cooking cavity 110. The light-transmissive enclosure 200 may be excited to generate ultraviolet light, which may be directed into the cooking chamber 110 to sterilize and disinfect the contents of the cooking chamber 110. The light transmissive enclosure 200 may be positioned at the microwave launch port 120 or the light transmissive enclosure 200 and the microwave launch port 120 may be positioned on opposing walls of the cooking chamber 110.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A cooking apparatus, characterized by comprising:

the microwave oven comprises a shell, a microwave oven body and a microwave oven cover, wherein the shell is provided with a cooking cavity, and the cavity wall of the cooking cavity is provided with a microwave transmitting port;

the light-transmitting cover body is arranged on the cavity wall of the cooking cavity and covers the microwave emitting opening.

2. The cooking apparatus of claim 1, wherein the light transmissive enclosure comprises:

a body that is transparent to light and microwaves;

the light-emitting cavity is arranged in the body, inert gas is filled in the light-emitting cavity, a fluorescent substance is arranged on the wall of the light-emitting cavity, and the inert gas after absorbing the microwaves can enable the fluorescent substance to generate visible light and/or ultraviolet light.

3. The cooking apparatus according to claim 2, wherein the light emitting cavity covers a portion of the microwave emitting port.

4. The cooking apparatus of claim 2,

the number of the light-emitting cavities is one; or

The number of the light-emitting cavities is multiple, and two adjacent light-emitting cavities in the multiple light-emitting cavities are arranged at intervals.

5. The cooking apparatus of claim 2, wherein the body comprises:

a quartz glass body.

6. The cooking apparatus according to any one of claims 1 to 5, further comprising:

the accommodating groove is formed in the cavity wall of the cooking cavity, and the light-transmitting cover body can be accommodated in the accommodating groove.

7. The cooking apparatus according to any one of claims 1 to 5, further comprising:

the positioning column is arranged on the light-transmitting cover body;

the locating slot is arranged on the cavity wall of the cooking cavity, and the locating column can be inserted into the locating slot.

8. The cooking apparatus according to any one of claims 1 to 5, further comprising:

a magnetron for generating microwaves;

and the first end of the waveguide tube is connected to the magnetron, and the second end of the waveguide tube is arranged at the microwave transmitting port.

9. The cooking apparatus according to any one of claims 1 to 5, further comprising:

the avoiding part is formed by bending the cavity wall of the cooking cavity towards the direction departing from the cooking cavity.

10. The cooking apparatus according to claim 9, further comprising:

and the heat dissipation hole is arranged on the avoiding part.

Images