CN106402951B - The door structure of microwave leakage prevention device - Google Patents

Abstract

The invention discloses a kind of door structure of microwave leakage prevention device, including fire door and furnace body, the fire door is mounted on front side of the furnace body；Sealant is provided on the fire door that the furnace body is in contact with the fire door；Microwave absorbing layer is provided on the sealant；It is provided with control lock device on the right side of the fire door, the fire door surface for being provided with the sealant is provided with electromagnetic radiation sensor；The control lock device is connect with the electromagnetic radiation sensor.The present invention is connect by the way that control lock device, control lock device are arranged on the right side of fire door with electromagnetic radiation sensor, is enabled control lock device according to the size of the electromagnetic radiation intensity in microwave leakage prevention device, is opened fire door.Microwave absorbing layer is set on sealant, by absorbing microwave, the problem of avoiding microwave from leakage.

Description

The door structure of microwave leakage prevention device

Technical field

The present invention relates to microwave device field more particularly to a kind of door structures of microwave leakage prevention device.

Background technique

Microwave equipment is a kind of modern devices with microwave heating of food.The equipment is by power supply, magnetron, control circuit It is formed with parts such as cooking cavities.Power supply provides about 4000 volts of high pressures to magnetron, and magnetron continuously generates under power supply excitation Microwave is coupled in cooking cavity using Wave guide system.Near the entrance of cooking cavity, there is a rotatable blender, Because blender is the metal of fan-shaped, there is the reflection of all directions to microwave, so can be microwave after rotating Energy is evenly distributed in cooking cavity, to heat food.

But the problem of microwave current equipment generally existing microwave from leakage, when human body and microwave radiation source apart from it is close when, can With giddy, sleep disturbance, failure of memory, bradycardia, blood pressure decline etc. by excessive radiation energy.

Summary of the invention

In view of this, can prevent microwave from leakage the present invention provides a kind of door structure of microwave leakage prevention device, keep away Exempt from microwave from leakage to cause harm to the human body.

The technical proposal of the invention is realized in this way：

A kind of door structure of microwave leakage prevention device, including fire door and furnace body, before the fire door is mounted on the furnace body Side；

Sealant is provided on the fire door that the furnace body is in contact with the fire door；It is provided on the sealant micro- Wave absorbed layer；

It is provided with control lock device on the right side of the fire door, the fire door surface for being provided with the sealant is provided with electromagnetism Radiation sensor；The control lock device is connect with the electromagnetic radiation sensor.

Preferably, vibration damping muffler is provided on the furnace body.

Preferably, the microwave absorbing layer is provided on the fire door between the sealant.

Preferably, the microwave absorbing layer includes the raw material of following parts by weight：

15~40 parts of ceramic powder；

5~12 parts of stainless steel fibre；

50~80 parts of resin adhesive.

It preferably, include alkyd resin, the 15wt%~35wt% of 30wt%~50wt% in the resin adhesive The titanium dioxide of polyethylene glycol, the zinc oxide of 12wt%~20wt%, the magnesia of 2wt%~10wt% and 1wt%~5wt% Silicon.

Preferably, the stainless steel fibre is made of following raw material, and the C of 0.1wt%~0.8wt%, 0.1wt%~ The B of the Ti of the Si of 1.2wt%, 0.05wt%~0.15wt%, 0.06wt%~0.12wt%, surplus Fe.

Beneficial effects of the present invention are：

The present invention provides a kind of microwave leakage prevention devices, by the way that control lock device, electric control lock dress are arranged on the right side of fire door It sets and is connect with electromagnetic radiation sensor, enable control lock device according to the electromagnetic radiation intensity in microwave leakage prevention device Size opens fire door；Microwave absorbing layer is set on sealant, and microwave absorbing layer can be efficiently avoided by absorbing microwave The problem of microwave from leakage.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of the door structure of microwave leakage prevention device of the present invention.

In figure：

1, furnace body；2, fire door；3, sealant；4, electromagnetic radiation sensor；5, control lock device.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

As shown in Figure 1, a kind of door structure of microwave leakage prevention device provided by the invention, including fire door 2 and furnace body 1, Fire door 2 is mounted on 1 front side of furnace body；Sealant 3 is provided on the fire door 2 that furnace body 1 is in contact with fire door 2；It is provided on sealant 3 Microwave absorbing layer；Control lock device 5 is provided on the right side of fire door 2,2 surface of fire door for being provided with sealant 3 is provided with electromagnetic radiation Sensor 4；Control lock device 5 is connect with electromagnetic radiation sensor 4.

In above-mentioned technical proposal, by the way that control lock device 5 is arranged on the right side of fire door 2, control lock device 5 and electromagnetic radiation are passed Sensor 4 connects, and enables control lock device 5 according to the size of the electromagnetic radiation intensity in microwave leakage prevention device, opens furnace Door 2.Microwave absorbing layer is set on sealant 3, by absorbing microwave, the problem of avoiding microwave from leakage.

In the present invention, the electromagnetic radiation intensity of real time monitoring apparatus is capable of in the setting of electromagnetic radiation sensor 4, works as electromagnetism Radiation intensity can not only remind user far from device when becoming larger, and be easy to use the family on-call maintenance device.

In the present invention, on sealant 3 microwave absorbing layer setting, microwave can be effectively absorbed.

In an embodiment of the present invention, in order to further increase microwave absorbability, it is provided with 2 surface of fire door of sealant 3 It is provided with microwave absorbing layer.

In an embodiment of the present invention, microwave absorbing layer include the ceramic powder of 15~40 parts by weight, 5~12 parts by weight not The resin adhesive of rust steel fibre and 50~80 parts by weight, above-mentioned microwave absorbing layer, which has microwave significantly to absorb and decay, to be made With the problem of can be avoided harm and microwave from leakage of the microwave to human body.

In the present invention, the parts by weight of ceramic powder are 15~40 parts；In an embodiment of the present invention, the weight of ceramic powder Number is 24~32 parts.

In the present invention, the parts by weight of stainless steel fibre are 5~12 parts；In an embodiment of the present invention, stainless steel is fine The parts by weight of dimension are 8~10 parts.

In order to further increase the attenuating of microwave, in an embodiment of the present invention, stainless steel fibre is by following raw material Composition, the Ti of the Si of the C of 0.1wt%%~0.8wt%, 0.1wt%~1.2wt%, 0.05wt%~0.15wt%, The B of 0.06wt%~0.12wt%, surplus Fe.

In the present invention, the parts by weight of resin adhesive are 50~80 parts；In an embodiment of the present invention, resin gluing The parts by weight of agent are 60~70 parts.

In order to improve the assimilation effect to microwave, in an embodiment of the present invention, in resin adhesive include 30wt%~ The alkyd resin of 50wt%, the polyethylene glycol of 15wt%~35wt%, the zinc oxide of 12wt%~20wt%, 2wt%~ The magnesia of 10wt% and the silica of 1wt%~5wt%.

In an embodiment of the present invention, the weight percent of alkyd resin is 30%~50%；In other realities of the invention It applies in example, the weight percent of alkyd resin is 35%~45%.

In an embodiment of the present invention, the weight percent of polyethylene glycol is 15~35%；In other implementations of the invention In example, the weight percent of polyethylene glycol is 20%~30%.

In an embodiment of the present invention, the weight percent of zinc oxide is 12%~20%；In other implementations of the invention In example, the weight percent of zinc oxide is 15%~18%.

In an embodiment of the present invention, the weight percent of magnesia is 2%~10%；In the other embodiment of the present invention In, the weight percent of magnesia is 5%~8%.

In an embodiment of the present invention, the weight percent of silica is 1%~5%；In other implementations of the invention In example, the weight percent of silica is 2%~4%.

In the present invention, the electromagnetic radiation that the electromagnetic radiation sensor 4 being arranged on locking device can incude in furnace body 1 is strong Degree, when the electromagnetic radiation intensity in furnace body 1 is lower than 0.4mW/cm², the locking device on fire door 2 opens.

In order to reduce the vibrational energy of furnace body 1, to reduce the vibration noise of microwave device, in an embodiment of the present invention, Vibration damping muffler is provided on furnace body 1.

In order to further illustrate the present invention, below with reference to embodiment to a kind of microwave leakage prevention device provided by the invention Door structure is described in detail, but they cannot be interpreted as limiting the scope of the present invention.

Embodiment 1

Sealant 3 is provided on the fire door 2 that furnace body 1 is in contact with fire door 2；Sealant 3 and the furnace for being provided with sealant 3 2 surfaces of door are provided with microwave absorbing layer；It is provided with control lock device 5 on the right side of fire door 2, is provided with 2 surface of fire door of sealant 3 It is provided with electromagnetic radiation sensor 4；Control lock device 5 is connect with electromagnetic radiation sensor 4.

Embodiment 2

In embodiment 1 microwave absorbing layer with a thickness of 0.2mm, the formula of microwave absorbing layer is the ceramics by 15 parts by weight Powder, 5 parts by weight stainless steel fibre (in stainless steel fibre include 0.5wt% C, the Ti of the Si of 0.1wt%, 0.15wt%, The Fe of the B of 0.06wt%, 99.19wt%), the alkyd resin of 23.5 parts by weight, the polyethylene glycol of 17.5 parts by weight, 7.5 weight The zinc oxide, the magnesia of 1 parts by weight and the silica of 0.5 parts by weight of part.

During the entire process of heat foods and its heating finish, the electromagnetic radiation detected around microwave leakage prevention device is strong Degree, data show electromagnetic radiation intensity in 0.3mW/cm²Below.

Embodiment 3

In embodiment 1 microwave absorbing layer include with a thickness of 0.1mm, in microwave absorbing layer 40 parts by weight ceramic powder, 12 Parts by weight stainless steel fibre (in stainless steel fibre include 0.8wt% C, the Ti of the Si of 0.6wt%, 0.12wt%, The Fe of the B of 0.09wt%, 98.39wt%), the alkyd resin of 28 parts by weight, the polyethylene glycol of 24 parts by weight, 16 parts by weight oxygen Change zinc, the magnesia of 8 parts by weight and the silica of 4 parts by weight.

During the entire process of heat foods and its heating finish, the electromagnetic radiation detected around microwave leakage prevention device is strong Degree, data show electromagnetic radiation intensity in 0.27mW/cm²Below.

Embodiment 4

In embodiment 1 microwave absorbing layer include with a thickness of 0.15mm, in microwave absorbing layer 24 parts by weight ceramic powder, 8 Parts by weight stainless steel fibre (in stainless steel fibre include 0.6wt% C, the Ti of the Si of 0.8wt%, 0.1wt%, The Fe of the B of 0.08wt%, 98.42wt%), the alkyd resin of 26.4 parts by weight, the polyethylene glycol of 15 parts by weight, 10.8 parts by weight Zinc oxide, the magnesia of 6 parts by weight and the silica of 1.8 parts by weight.

During the entire process of heat foods and its heating finish, the electromagnetic radiation detected around microwave leakage prevention device is strong Degree, data show electromagnetic radiation intensity in 0.29mW/cm²Below.

Embodiment 5

In embodiment 1 microwave absorbing layer include with a thickness of 0.12mm, in microwave absorbing layer 32 parts by weight ceramic powder, 10 The stainless steel fibre of parts by weight (includes the C, the Ti of the Si of 1wt%, 0.08wt%, 0.1wt% of 0.4wt% in stainless steel fibre B, the Fe of 98.42wt%), the oxidation of the alkyd resin of 31.5 parts by weight, the polyethylene glycol of 21 parts by weight, 11.2 parts by weight The silica of zinc, the magnesia of 3.5 parts by weight and 2.8 parts by weight.

During the entire process of heat foods and its heating finish, the electromagnetic radiation detected around microwave leakage prevention device is strong Degree, data show electromagnetic radiation intensity in 0.28mW/cm²Below.

Embodiment 6

In embodiment 1 microwave absorbing layer include with a thickness of 0.18mm, in microwave absorbing layer 28 parts by weight ceramic powder, 9 Parts by weight stainless steel fibre (in stainless steel fibre include 0.1wt% C, the Ti of the Si of 1.2wt%, 0.05wt%, The Fe of the B of 0.12wt%, 98.53wt%) and the alkyd resin of 32.5 parts by weight, the polyethylene glycol of 9.75 parts by weight, 13 weight The zinc oxide, the magnesia of 6.5 parts by weight and the silica of 3.25 parts by weight of part.

During the entire process of heat foods and its heating finish, the electromagnetic radiation detected around microwave leakage prevention device is strong Degree, data show electromagnetic radiation intensity in 0.28mW/cm²Below.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (2)

1. a kind of door structure of microwave leakage prevention device, which is characterized in that including fire door (2) and furnace body (1), the fire door (2) it is mounted on front side of the furnace body (1)；

Sealant (3) are provided on the fire door (2) that the furnace body (1) is in contact with the fire door (2)；The sealant (3) microwave absorbing layer is provided on；

Control lock device (5) are provided on the right side of the fire door (2), the fire door (2) surface for being provided with the sealant (3) is set It is equipped with electromagnetic radiation sensor (4)；The control lock device (5) connect with the electromagnetic radiation sensor (4)；

The microwave absorbing layer is provided on the fire door (2) between the sealant (3)；

The microwave absorbing layer includes the raw material of following parts by weight：

15~40 parts of ceramic powder；

5~12 parts of stainless steel fibre；

50~80 parts of resin adhesive；

The polyethylene glycol of alkyd resin, 15wt%~35wt% in the resin adhesive including 30wt%~50wt%, The silica of the zinc oxide of 12wt%~20wt%, the magnesia of 2wt%~10wt% and 1wt%~5wt%；

The stainless steel fibre is made of following raw material, the Si of the C of 0.1wt%~0.8wt%, 0.1wt%~1.2wt%, The B of the Ti of 0.05wt%~0.15wt%, 0.06wt%~0.12wt%, surplus Fe.

2. door structure as described in claim 1, which is characterized in that be provided with vibration damping muffler on the furnace body (1).