CN214434119U - Hot air structure of disinfection cabinet - Google Patents

Abstract

The utility model particularly relates to a hot-blast structure of sterilizer, including the heat-generating body, wherein: the heat-generating body is equipped with the wind channel that can provide the heat-generating body installation, wind channel one end is equipped with the fan, the wind channel still is equipped with the wind channel mounting panel, the upper surface of wind channel mounting panel is equipped with air intake and air outlet, the fan is towards the air intake, the wind channel other end is linked together with the air outlet, the top of wind channel mounting panel is equipped with hot-blast flow divider, be equipped with in the hot-blast flow divider and separate the fender horizontal bar, separate out left chamber and right chamber at the fender horizontal bar, the air intake still is equipped with the air intake bounding wall, the air outlet still is equipped with the air outlet bounding wall, left intracavity is arranged in to air outlet bounding wall one end, right intracavity is arranged in to air intake bounding wall one end. The utility model has the advantages that: this structure is equipped with the fan through wind channel one end, and the cooperation heat-generating body is implemented the heating, and the cooperation air current forms hot-blastly, implements the reposition of redundant personnel through hot-blast flow distribution plate, and the ability gas flow is efficient and make the inner bag temperature even to promote drying efficiency.

Description

Hot air structure of disinfection cabinet

Technical Field

The utility model relates to a sterilizer technical field, concretely a sterilizer hot air structure.

Background

The disinfection cabinet is a tool for drying, sterilizing, preserving heat and dehumidifying articles such as towels, tableware, clothes, hairdressing tools, medical instruments and the like in an ultraviolet ray, far infrared ray, high temperature, ozone and other modes, and good disinfection equipment can ensure the health and hygiene of food taken by people; wherein, the high-temperature disinfection cabinet adopts a certain heating substance to heat the temperature to 100 ℃ and keep the temperature for more than 15 minutes, thereby achieving the purpose of sterilization, including killing the microorganism organisms including bacteria and viruses; the high-temperature disinfection cabinet generally adopts a far infrared heating mode, an electric heating element heats air or generates radiant heat, after the apparatus is continuously acted for a period of time by high temperature, the protein tissues of microorganisms such as bacteria, viruses and the like on the surface of the apparatus deform, so that the microorganisms are killed, and according to the difference of the sterilization effect, the high-temperature disinfection cabinet can be divided into a first-star disinfection cabinet which can kill bacteria such as escherichia coli, staphylococcus aureus and the like and a second-star disinfection cabinet which can kill hepatitis B virus and poliovirus.

Wherein, electric heating element heats in the sterilizer inner bag, and the tableware that makes to put in the sterilizer inner bag is dried, because the influence of electric heating element position, the unable even heating of tableware in the sterilizer inner bag has the shortcoming that drying efficiency is not high.

Disclosure of Invention

An object of the utility model is to overcome the not enough of above-mentioned prior art, provide one kind can the gas flow efficient and make inner bag temperature even to promote drying efficiency's sterilizer hot air structure.

The utility model discloses a hot-blast structure of sterilizer, including the heat-generating body, wherein: the heat-generating body is equipped with the wind channel that can provide the heat-generating body installation, wind channel one end is equipped with the fan, the wind channel still is equipped with the wind channel mounting panel, the upper surface of wind channel mounting panel is equipped with air intake and air outlet, the fan is towards the air intake, the wind channel other end is linked together with the air outlet, the top of wind channel mounting panel is equipped with hot-blast flow divider, be equipped with in the hot-blast flow divider and separate the fender horizontal bar, separate out left chamber and right chamber at the fender horizontal bar, the air intake still is equipped with the air intake bounding wall, the air outlet still is equipped with the air outlet bounding wall, left intracavity is arranged in to air outlet bounding wall one end, right intracavity is arranged in to air intake bounding wall one end.

Specifically, the air inlet is connected with the fan through an air collecting cover.

Specifically, the hot air splitter plate is square or circular.

Specifically, the barrier cross bars are L-shaped.

The heating body comprises a heat dissipation section bar and a heating pipe, and the heating pipe is arranged in the heat dissipation section bar.

Specifically, the edge of the air collecting cover is provided with a first flange.

Particularly, a second flanging is arranged at the edge of the air outlet enclosing plate.

Specifically, a third flanging is arranged on the edge of the air inlet enclosing plate.

Specifically, the side surface of the hot air splitter plate is provided with a through hole.

Particularly, fourth flanges are arranged on two sides of the air duct mounting plate.

The utility model has the advantages that: this structure is equipped with the fan through wind channel one end, and the cooperation heat-generating body is implemented the heating, and the cooperation air current forms hot-blastly, implements the reposition of redundant personnel through hot-blast flow distribution plate, and the ability gas flow is efficient and make the inner bag temperature even to promote drying efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the first embodiment of fig. 1.

Fig. 3 is a schematic sectional structure view a-a of fig. 2.

Fig. 4 is a schematic structural diagram of the second embodiment of fig. 1.

Fig. 5 is an exploded view of fig. 2.

The following figures are diagrammatic illustrations:

the air conditioner comprises a door body assembly 1, an air outlet coaming plate 2, a baffle cross bar 3, an air inlet coaming plate 4, an air duct 5, a box shell bottom plate 6, a fan 7, an air collecting cover 8, a ballast 9, a circuit board 10, a heating body 11, an air duct mounting plate 12, an air inlet 1201, an air outlet 1202, a fourth flanging 1203, a box shell 13, a box inner through hole 1301, an upper door hinge 14, a lower door hinge 15 and a hot air splitter plate 16.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 to 5, the utility model discloses a hot air structure of disinfection cabinet, including heat-generating body 11, wherein: the heating body 11 is equipped with the wind channel 5 that can provide the installation of heating body 11, 5 one end in wind channel is equipped with fan 7, wind channel 5 still is equipped with wind channel mounting panel 12, the upper surface of wind channel mounting panel 12 is equipped with air intake 1201 and air outlet 1202, fan 7 is towards air intake 1201, the 5 other end in wind channel is linked together with air outlet 1202, the top of wind channel mounting panel 12 is equipped with hot-blast flow distribution plate 16, be equipped with in the hot-blast flow distribution plate 16 and separate fender horizontal bar 3, separate out left chamber and right chamber at fender horizontal bar 3, air intake 1201 still is equipped with air intake bounding wall 4, air outlet 1202 still is equipped with air outlet bounding wall 2, left intracavity is arranged in to air outlet bounding wall 2 one end, right intracavity is arranged in to air intake bounding wall 4 one end.

This structure is equipped with fan 7 through 5 one ends in wind channel, and the cooperation heat-generating body 11 is implemented the heating, and cooperation fan 7 produces the air current and blows to heat-generating body 11 and form hot-blastly to implement the reposition of redundant personnel through hot-blast flow distribution plate, can the gas flow efficient and make the inner bag temperature even, thereby promote drying efficiency.

The fan 7 and the heating element 11 in the air duct 5 are started simultaneously, the air blown by the fan 7 and the heat emitted by the heating element are combined into hot air, the hot air is blown out from the other side of the air duct, is discharged from the air outlet 1202, enters the left cavity through the air outlet surrounding plate 2, and is finally shunted by the hot air shunting plate 16. In addition, the fan 7 is in an operating state to form suction force, and air enters from the air inlet surrounding plate 4 to supplement air for the fan 7.

In the structure, the air inlet 1201 is connected with the fan 7 through the air collecting cover 8. The main function of the air collection hood 8 is to collect air and to replenish the fan 7 with air.

The structure preferably selects the air splitter plate 16 to be square, designers can also select the air splitter plate 16 to be round, and the side surface of the hot air splitter plate 16 is provided with through holes. The through hole is used for air exhaust or air intake.

The baffle horizontal bar 3 of the structure is in an L shape. The barrier cross bars 3 are used for separating, so that the left cavity and the right cavity are independent from each other, and mutual interference is prevented.

The heating body 11 comprises a heat dissipation section bar and a heating pipe, and the heating pipe is arranged in the heat dissipation section bar. The heat emitted by the heating tube is dissipated to the heat dissipation section bar, and the air flow is facilitated to absorb the heat of the heat dissipation section bar.

In the structure, the edge of the wind collecting cover 8 is provided with a first flanging. In the structure, the edge of the air outlet surrounding plate 2 is provided with a second flanging. In the structure, the third flanging is arranged at the edge of the air inlet enclosing plate 4. The first flanging, the second flanging and the third flanging are designed to be convenient to weld or screwed by screws, mounting holes are formed in the first flanging, the second flanging and the third flanging respectively, and the screws can penetrate through the mounting holes conveniently to be fixed. And fourth flanges 1203 are arranged on two sides of the air duct mounting plate 12. The fourth flange 1203 is connected with the outer bottom surface of the disinfection cabinet through screws.

Wherein the hot air structure of the disinfection cabinet shown in figures 2, 3 and 5 is respectively arranged at the lower position in the disinfection cabinet, and hot air can be blown out from the bottom surface of the disinfection cabinet. In addition, the hot air structure of the disinfection cabinet as shown in fig. 4 is respectively installed at the back position in the disinfection cabinet. The hot air can be blown out from the back of the disinfection cabinet, and the circulation of the up-down air flow is implemented. Both the two structures can dry the tableware more quickly and more uniformly.

The disinfection cabinet comprises a door body assembly 1, a cabinet shell bottom plate 6, a ballast 9, a circuit board 10, a cabinet shell 13, an upper door hinge 14 and a lower door hinge 15, the cabinet shell 13 is connected with the door body assembly 1 through the upper door hinge 14 and the lower door hinge 15, a disinfection cabinet hot air structure is respectively arranged at the bottom or the back of the cabinet shell 13, a cabinet inner through hole 1301 is arranged at the inner bottom surface of the cabinet shell 13, a baffle cross bar 3 is arranged at the inner bottom surface of the cabinet shell 13 and positioned between the cabinet inner through holes 1301, an air inlet baffle plate 4 and an air outlet baffle plate 2 are respectively positioned at two sides of the baffle cross bar 3, a hot air splitter plate 16 covers the air inlet baffle plate 4 and the air outlet baffle plate 2 and is fixed on the inner bottom surface of the cabinet shell 13, the ballast 9 is connected with the circuit board 10, a heating body 11 is electrically connected with the circuit board 10, and the ballast 9 is electrically connected with an ultraviolet lamp tube,

when the power is switched on, heat-generating body 11 and fan 7 begin work simultaneously, fan 7 absorbs the wind of sterilizer the inside, and blow into in wind channel 6, and pass heat-generating body 11, wind is heated the back, get into in the sterilizer, an air outlet bounding wall 2 has been installed on air outlet 1202, it makes hot-blast in wind channel 5 exhaust back, wind-force is more concentrated and wind pressure is stronger, make when hot-blast to hot-blast flow divider 16 after can quick wind flow to the inner bag, the inner bag left side, three direction before the inner bag, and the inner bag right side is then that fan 7 continuously absorbs the inside air of inner bag and blows wind channel 6 and heat-generating body 11 heating.

According to the expansion of the heated air, the blown hot air begins to rise in the left area in the disinfection cabinet, the fan 7 in the right area continuously and quickly sucks the gas in the disinfection cabinet, and the gas flows from top to bottom. At this time, the disinfection cabinet is taken out, and the human air flow forms internal circulation.

The present invention is not limited to the above preferred embodiments, and any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a hot-blast structure of sterilizer, includes heat-generating body (11), its characterized in that: the heating body (11) is provided with an air duct (5) capable of providing the installation of the heating body (11), one end of the air duct (5) is provided with a fan (7), the air duct (5) is further provided with an air duct mounting plate (12), the upper surface of the air duct mounting plate (12) is provided with an air inlet (1201) and an air outlet (1202), the fan (7) faces the air inlet (1201), the other end of the air duct (5) is communicated with the air outlet (1202), a hot air splitter plate (16) is arranged above the air duct mounting plate (12), a separating transverse bar (3) is arranged in the hot air splitter plate (16), a left cavity and a right cavity are separated by the separating transverse bar (3), the air inlet (1201) is further provided with an air inlet coaming (4), the air outlet (1202) is further provided with an air outlet coaming (2), one end of the air outlet coaming (2) is arranged in the left cavity, and one end of the air inlet coaming (4) is arranged in the right cavity.

2. A hot air structure of disinfection cabinet as claimed in claim 1, wherein: the air inlet (1201) is connected with the fan (7) through an air collecting cover (8).

3. A hot air structure of disinfection cabinet as claimed in claim 1, wherein: the hot air flow distribution plate (16) is square or round.

4. A hot air structure of disinfection cabinet as claimed in claim 1, wherein: the baffle transverse strips (3) are L-shaped.

5. A hot air structure of disinfection cabinet as claimed in claim 1, wherein: the heating body (11) comprises a heat dissipation section bar and a heating pipe, and the heating pipe is arranged in the heat dissipation section bar.

6. A hot air structure of disinfection cabinet as claimed in claim 2, wherein: the edge of the air collecting cover (8) is provided with a first flanging.

7. A hot air structure of disinfection cabinet as claimed in claim 1, wherein: and a second flanging is arranged at the edge of the air outlet enclosing plate (2).

8. A hot air structure of disinfection cabinet as claimed in claim 1, wherein: and a third flanging is arranged at the edge of the air inlet enclosing plate (4).

9. A hot air structure of disinfection cabinet as claimed in claim 1, wherein: and through holes are formed in the side surface of the hot air flow distribution plate (16).

10. A hot air structure of disinfection cabinet as claimed in claim 1, wherein: and fourth flanges (1203) are arranged on two sides of the air duct mounting plate (12).

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