CN106924781A - The control method of disinfection cabinet and disinfection cabinet - Google Patents

Abstract

The present invention relates to a kind of disinfection cabinet and the control method of disinfection cabinet.Disinfection cabinet includes：Chamber (1) and it is used to close the door (2) of chamber (1)；The air channel (3) connected with chamber (1)；Air channel (3) is including sharing air channel；In interior circulation pattern, air enters shared air channel and returns again to chamber (1) from chamber (1)；In outer circulation pattern, extraneous air enters the chamber (1) via the shared air channel.Disinfection cabinet of the invention has internal air circulation pattern and air outer circulation pattern, and internal air circulation and air outer circulation are realized by air channel, are conducive to air circulation；And internal air circulation and air outer circulation share a ducting system, are conducive to simplifying ducting system.

Description

The control method of disinfection cabinet and disinfection cabinet

【Technical field】

The present invention relates to a kind of disinfection cabinet and the control method of disinfection cabinet.

【Background technology】

Chinese patent CN2843455Y discloses a kind of disinfection cabinet, includes an inner lining, be provided with air inlet and Air outlet, is provided with the wind channel tube of connection top air inlet on the side wall of described inner lining, at least offered on the wind channel tube One air outlet window of connection inner lining；Described wind channel tube is arranged on the madial wall of inner lining, and the upper end of wind channel tube is communicated in Air inlet at the top of inner lining, at least provided with two air outlet windows on wind channel tube；Described inner lining top is respectively arranged with Air outlet, air inlet and the wind channel tube being connected with air inlet, two air outlet windows on wind channel tube are opened in upper and lower two End, and constitute circulating air passage；The blower fan of PTC heaters and wind-guiding is additionally provided with circulating air passage.

The wind channel tube of prior art disinfection cabinet relates only to the air outer circulation pattern for drying, and is not involved with air Interior circulation pattern, when needing to carry out ozone decomposed, cannot form internal air circulation, chamber air velocity of liquid assets in chamber Slowly, the speed of ozone decomposed is influenceed.In addition, prior art wind channel tube structure design is unreasonable, wind channel tube when for outer circulation, Drying efficiency is low.

【The content of the invention】

It is an object of the present invention to overcome technical problem present at least one prior art, there is provided Yi Zhonggai The disinfection cabinet for entering.

To achieve the above object, an aspect of of the present present invention is on a kind of disinfection cabinet, including：Chamber and it is used to close chamber Door；With the air channel of chamber；The air channel includes sharing air channel；In interior circulation pattern, air enters shared from chamber Air channel returns again to chamber；In outer circulation pattern, extraneous air enters the chamber via the shared air channel.

To achieve the above object, another aspect of the present invention is on a kind of disinfection cabinet, including：Chamber；And for outer circulation The outer circulating air duct of pattern, extraneous air enters chamber from outer circulating air duct；Also include the circulate in the wind for interior circulation pattern Road, air returns again to chamber from chamber into interior circulation air channel, and the interior circulation air channel and outer circulating air duct include sharing air channel.

Using this structure, disinfection cabinet has interior circulation pattern and outer circulation pattern, and interior circulation and outer circulation are all logical Cross air channel to realize, there is guiding function to air because air channel has certain shape, air channel can improve air circulation Speed, is conducive to air circulation.On the other hand, because internal air circulation and air outer circulation have shared air channel, improve altogether With the utilization rate in air channel, it is thus advantageous to simplify the ducting system of disinfection cabinet, for example, can reduces ducting system in chamber depth Space hold on direction, and then be conducive to improving the space availability ratio of chamber.

In internal air circulation pattern, the air in chamber is fully circulated by air circulation, be conducive to making chamber Indoor Temperature Degree is more uniform, particularly when there is heater to open, is circulated in chamber interior by air, can accelerate air circulation, The temperature in chamber is set more uniformly and quickly to raise.In air outer circulation pattern, the air inside and outside chamber can be made fully to flow It is logical, the steam in chamber is taken away by air circulation, be conducive to improving tableware drying efficiency.

Interior circulation and outer circulation share air channel, improve the utilization rate for sharing air channel, simplify the structure in air channel, in chamber The space of occupancy is also fewer, improves the utilization rate of the chamber interior space.

According to a kind of exemplary embodiment of the invention, in interior circulation pattern air share the flow direction in air channel with Air is opposite in the flow direction for sharing air channel in outer circulation pattern.Using this structure, interior circulation and outer circulation air are altogether It is in opposite direction with what is flowed in air channel.

According to a kind of exemplary embodiment of the invention, including the first air that the shared air channel and chamber is in fluid communication Communication port, in interior circulation pattern, air returns again to described via first air stream port from chamber into shared air channel Chamber；In outer circulation pattern, extraneous air is passed through by the first air stream port into the chamber after entering the shared air channel. Using this structure, can make to share air channel and chamber in fluid communication by the first air stream port.

According to a kind of exemplary embodiment of the invention, first air stream port is located at the bottom for sharing air channel.

Using this structure, in internal air circulation, after heater is opened, heated air up flows, cold sky Gas flow down.First air stream port is located at and shares air channel bottom, is conducive to cold air to pass through the first air circulation from chamber Mouth enters air channel, promotes air flow, is conducive to internal air circulation.In air outer circulation, extraneous air is added in air channel Chamber is entered by the first air stream port after after thermal heating, the first communication port is arranged on shared air channel bottom, heat is empty Gas can increase into up flowing the path that flows through after chamber, be conducive to taking away the steam in chamber, be conducive to improving outer following The efficiency of ring.

According to a kind of exemplary embodiment of the invention, also including the heater in shared air channel.

Using this structure, in interior circulation pattern, heater is opened, heated air can be along shared air channel toward upstream It is dynamic to return to chamber, it is not necessary to which that the wind-guiding of fan just with spontaneous generation air-flow, and can form internal air circulation, accelerate chamber air The speed of flowing, makes the temperature in chamber quickly raise, and reducing energy consumption.In outer circulation pattern, heater is opened, it is outside Air enters shared air channel and is conducive to chamber through the tableware in chamber by entering chamber, stream of hot air after heating devices heat The drying of interior tableware.

According to a kind of exemplary embodiment of the invention, first air stream in air channel and chamber is also shared including being in fluid communication Port, the heater is located at the top of the first air stream port, in interior circulation pattern, enters from the first air stream port The air for sharing air channel and being heated by heater returns again to chamber along duct flows are shared.

Using this structure, after heater is opened, the air above the first air stream port is initially heated, hot-air Can up be flowed along shared air channel therewith, it is to avoid heat scatters and disappears from the first air stream port.In addition, if heater is set Air against the first air stream port, can hindered by the first air stream port, the speed of air flow is being influenceed, and have Partial heat scatters and disappears from the first air stream port.Using this structure, the speed of air flow can not be influenceed, it is also possible to avoid heat Amount is scattered and disappeared from the first air stream port, so as to accelerate the speed of internal air circulation.

According to a kind of exemplary embodiment of the invention, the outer circulating air duct includes being located at the wind for sharing air channel upstream Road upstream and it is used to be selectively opened or close the valve of the air channel upstream.

Using this structure, the opening and closing to air channel upstream can be realized by the control of valve.When needs are carried out During outer circulation, valve is opened, chamber inner air and outer air is circulated；When not needing outer circulation or being in interior circulation pattern, shutoff valve, Extraneous air is avoided to enter chamber.

According to a kind of exemplary embodiment of the invention, the bottom that air channel is located at the outer circulating air duct is shared.

According to a kind of exemplary embodiment of the invention, including the second air circulation for sharing air channel and chamber is in fluid communication Mouthful, in interior circulation pattern, air is directed to flow to the second air stream port return chamber in shared air channel, in outer circulation pattern, At least most of extraneous air is prevented from flowing to the second air stream port.

Using this structure, in internal air circulation, sharing in air channel, air passes through the second air stream port return cavity Room.In air outer circulation, extraneous air is prevented from flowing to the second air stream port.

According to a kind of exemplary embodiment of the invention, including stop part and it is used to shared air channel and chamber is in fluid communication The second air stream port, the stop part is configured to guide air to flow to the second air stream port from shared air channel, And prevent extraneous air from flowing to the second air stream port when flow direction shares air channel or sharing in air channel.

Using this structure, in internal air circulation, air is guided to flow to the second air from shared air channel by stop part Communication port, thermal loss is caused so as to avoid air from continuing up flowing.Secondly, in air outer circulation pattern, extraneous air It is prevented from flowing to the second communication port, so that extraneous air continues flow down, by entering back into chamber after heating devices heat, So as to avoid extraneous air from just not entering chamber from the second air stream port by heater heating after entering chamber.

According to a kind of exemplary embodiment of the invention, it is attached that the stop part is arranged on the second air stream port in air channel Closely, air channel is divided into air channel upstream and shared air channel by the stop part.

Using this structure, during internal air circulation, stop part is conducive to guide the air stream port of air flow second.Outside air During circulation, stop part is conducive to prevent extraneous air from flowing to the second air stream port.

According to a kind of exemplary embodiment of the invention, the stop part tiltedly extends and including opposite in air channel introversion First inclined-plane and the second inclined-plane against air channel upstream in air channel are shared, in interior circulation pattern, air is being shared in air channel by the One the second air stream port of inclined-plane pilot flow direction, in outer circulation pattern, extraneous air is prevented to flow to the second air by the second inclined-plane Communication port.

Using this structure, during internal air circulation, stop part is conducive to guide the air stream port of air flow second.Outside air During circulation, stop part is conducive to prevent extraneous air from flowing to the second air stream port.

According to a kind of exemplary embodiment of the invention, the air channel includes air channel antetheca and air channel rear wall, described second Air stream port is arranged on the antetheca of air channel, and the stop part is installed on air channel antetheca；Stop part by the second air stream port and Space between the rear wall of air channel is separated into the first port and the second inclined-plane to air channel from the second air stream port to the first inclined-plane Second port of rear wall.

Using this structure, stop part is installed on air channel antetheca, air channel antetheca is usually to be made up of air duct board, is easy to backstop The installation of part.The air channel of second passage port is divided into the first port and the second port by stop part, and air channel is shared during interior circulation Air chamber is entered by the first port, during outer circulation extraneous air by the second port enter share air channel.It is thus possible to Make a set of ducting system while realizing internal air circulation and air outer circulation, improve the utilization rate in air channel.

" air channel antetheca " of the present invention, refers to side of the air channel away from chamber wall, is typically formed by air duct board.

" air channel rear wall " of the present invention, refer to air channel near the side of chamber wall, can be formed by chamber wall, Ke Yiyou Corresponding ducting assembly is formed.

According to a kind of exemplary embodiment of the invention, the air channel rear wall is provided with recessed groove, and the recessed groove has top End, bottom, left end and right-hand member, the end of the stop part are located between the top of recessed groove and bottom, and the stop part is horizontal Fitted with air channel rear wall across the left end and right-hand member of recessed groove and the end of stop part, first port includes the second air stream Port to the first inclined-plane space, second port include stop part end to recessed groove bottom space.

Using this structure, first, in air channel, rear wall sets recessed groove can allow duct space to increase, and be conducive to air stream It is logical；Secondly, in interior circulation pattern, the space of the first port becomes big, is conducive to air to be directed to flow to the second air stream port, Simultaneously as the structure of recessed groove, can further prevent in interior circulation Airflow to air channel upstream；3rd, in outer circulation When, because stop part is fitted with air channel rear wall, can preferably prevent extraneous air from flowing to the second air stream port, simultaneously because The structure of recessed groove, extraneous air can be easy to share air channel from air channel upstream flow direction.

According to a kind of exemplary embodiment of the invention, also including a valve block, the valve block is pivotably coupled to stop The end of block piece, in interior circulation pattern, valve block closes the second port；In outer circulation pattern, extraneous air is incited somebody to action when flowing through air channel Valve block is opened so that the second port is opened.

Using this structure, in internal air circulation, because valve closes the second port, the air for sharing air channel is all drawn Water conservancy diversion is to the second air stream port, it is to avoid energy loss.In air outer circulation, nor affect on extraneous air and enter shared wind Road.

According to a kind of exemplary embodiment of the invention, the stop part may be pivotally mounted to air channel antetheca, be followed interior Ring mode, stop part closes the second port；In outer circulation pattern, extraneous air flows through stop part and opens stop part, makes The second port is obtained to open.

Using this structure, in internal air circulation, stop part closes the second port, and the air for sharing air channel is all drawn Water conservancy diversion is to the second air stream port, it is to avoid energy loss.In air outer circulation, nor affect on extraneous air and enter shared wind Road.

According to a kind of exemplary embodiment of the invention, second air stream port is located at the middle part in air channel.

After heater is opened, heated hot-air can up flow, and cold air can sink, and air-flow is in wind Road center flowing velocity is than very fast.Using this structure, be conducive to air flow, accelerate internal air circulation speed, and it is interior Circulating the air flow pattern for being formed can be than larger, so as to accelerate the rising of chamber indoor temperature.

According to a kind of exemplary embodiment of the invention, also including upper dish basket and lower bowl basket, second air stream port Near against upper dish basket bottom.

Using this structure, first, in internal air circulation, heated air can gather rising along air channel, in air channel Air-flow in opposite upper dish basket bottom vicinity is narrow and speed air flow is fast, by the second communication port against upper dish basket bottom Near portion, be conducive to internal air circulation.

Secondly, in air channel, the temperature highest at heater, in 500 degrees centigrades.Place away from heater Temperature can be reduced accordingly, in opposite upper dish basket bottom vicinity temperature in 270 degrees centigrades, 270 degrees centigrades in air channel Temperature most beneficial for ozone decomposed, ozone can be decomposed in 270 degrees centigrades with moment.Therefore, it is the second communication port is opposite Near upper dish basket bottom, the air for entering chamber from the second communication port can decompose ozone moment, so as to improve ozone decomposed Speed.

3rd, using this structure, in internal air circulation, be conducive to the rising of upper dish basket temperature.In air outer circulation, Be conducive to the rising of lower bowl basket temperature, so as to be conducive to the drying of upper dish basket and lower bowl basket.

According to a kind of exemplary embodiment of the invention, also including air duct board, the air channel is located at air duct board and chamber wall Between.Because chamber wall is the part in air channel, be conducive to simplifying the structure of air duct board, and then be easy to manufacture, favorably In the manufacturing cost for reducing air duct board.

According to a kind of exemplary embodiment of the invention, including the first air circulation for sharing air channel and chamber is in fluid communication Mouthful and the second air stream port, the first air stream port is located at the lower section of the second air stream port, and the shared air channel is from the One air stream port is to being gradually reduced on the direction of the second air stream port.

Using this structure, when disinfection cabinet is in internal air circulation pattern, heater is opened, air channel is entered from chamber Air gathers rising after being heated by heater in air channel, and the second air stream port is flowed to from the first air stream port, and Air-flow is gradually reduced to form vase-like air-flow.Air channel is from the first air stream port to gradually contracting on the direction of the second air stream port Small, i.e., air channel is gradually reduced along the direction of air flow, so that the shape in air channel adapts to the motion state of air-flow.This makes to bring about the desired sensation The stream rate of climb is accelerated, and the speed for forming inner circulating air flowing is accelerated, and accelerates the elevated speed of chamber indoor temperature.

To achieve the above object, the present invention also provides a kind of control method of disinfection cabinet, and the disinfection cabinet includes：Chamber； With the air channel of chamber in fluid communication, the air channel includes the outer circulating air duct and the interior circulation for interior circulation for outer circulation Air channel；Chamber and the air stream port of air channel first and the second air stream port is in fluid communication；Operation internal air circulation pattern, in sky In gas interior circulation pattern, air returns again to chamber after flowing into interior circulation air channel from chamber；Operation air outer circulation pattern, in air In outer circulation pattern, extraneous air flows into chamber after flowing into outer circulating air duct；Wherein, the outer circulating air duct and interior circulation air channel Including sharing air channel.

The method is used, it is possible, firstly, to form internal air circulation in chamber, accelerating cavity indoor air flows make hot sky Gas can accelerate diffusion in chamber, the temperature in chamber is quickly raised.Secondly, can be formed outside air with inside and outside chamber Circulation, accelerating cavity indoor and outdoor air flowing, is conducive to taking away the steam in chamber, and effect well is played to drying.

According to a kind of exemplary embodiment of the invention, air is sharing the flowing side in air channel in internal air circulation pattern To opposite in the flow direction for sharing air channel with the air in air outer circulation pattern.

According to a kind of exemplary embodiment of the invention, in internal air circulation pattern, air is empty via first from chamber Air-flow port enters shared air channel and returns to the chamber via the second air stream port again；It is outside in air outer circulation pattern Air is passed through by the first air stream port into the chamber after entering the shared air channel.

According to a kind of exemplary embodiment of the invention, in interior circulation pattern, it is attached that heating is located at the first air stream port Near air, makes heated air flows upwards and is formed in air channel interior circulation.

Using the method, it is not necessary to set fan in air channel, it is possible to form internal air circulation in chamber, energy is reduced Consumption.

According to a kind of exemplary embodiment of the invention, in interior circulation pattern, start fan, fan blowout air-flow from First air stream port enters air channel, then returns to chamber from the second air stream port.

Using the method, acted on by the wind-guiding of fan, internal air circulation is formed in chamber, make the speed of internal air circulation Rate is accelerated.

According to a kind of exemplary embodiment of the invention, in internal air circulation pattern, outer circulating air duct positioned at share The air channel upstream of air channel upstream is closed.

Using the method, during internal air circulation, extraneous air stream can be avoided from entering air outflow chamber in air channel and air channel Outdoor, causes energy loss.

According to a kind of exemplary embodiment of the invention, in the ozone decomposed stage, internal air circulation pattern is run；In drying In the stage, run air outer circulation pattern.

Using the method, during ozone decomposed, by internal air circulation, accelerate chamber air circulation, promote ozone decomposed. During baking stage, by air outer circulation, the circulation of accelerating cavity indoor and outdoor air is conducive to the steam in chamber to take out of outside chamber, Improve the effect of drying.

【Brief description of the drawings】

Fig. 1 is that the overall structure of disinfection cabinet in accordance with a preferred embodiment of the present invention is schematic, and wherein door is removed；

Fig. 2 is the schematic cross sectional view along A-A directions in Fig. 1,

Fig. 3 is the schematic diagram of the first embodiment of disinfection cabinet air duct board of the present invention；

Fig. 4 is the schematic diagram at another visual angle of air duct board first embodiment；

Fig. 5 is the explosive view of Fig. 4；

Fig. 6 is the partial structurtes explosive view of Fig. 4；

Fig. 7 is the interior circulation operating diagram of a preferred embodiment of the invention disinfection cabinet；

Fig. 8 is the outer circulation operating diagram of a preferred embodiment of the invention disinfection cabinet；

Fig. 9 is the interior circulation operating diagram of disinfection cabinet of the present invention disinfection cabinet after stop part end sets valve block；

Figure 10 is the outer circulation operating diagram of disinfection cabinet of the present invention disinfection cabinet after stop part end sets valve block；

Figure 11 is the interior circulation operating diagram of another structure disinfection cabinet of disinfection cabinet stop part of the present invention；

Figure 12 is the outer circulation operating diagram of another structure disinfection cabinet of disinfection cabinet stop part of the present invention；

Figure 13 is the schematic diagram of the chamber wall partial structurtes for being originally a preferred embodiment of the invention disinfection cabinet；

Figure 14 is the schematic diagram of disinfection cabinet air duct board second embodiment of the present invention；

Figure 15 is the schematic diagram at another visual angle of disinfection cabinet air duct board second embodiment of the present invention；

Figure 16 is the schematic diagram of disinfection cabinet air duct board 3rd embodiment of the present invention；

Figure 17 is the schematic diagram at another visual angle of disinfection cabinet air duct board 3rd embodiment of the present invention；

Reference：

13 air channel 4 of chamber 2 air duct board

The stop part of 5 first 6 second air stream port of air stream port, 7 heater 8

The mounting bracket of 9 fan, 10 valve, 11 recessed groove 12

The upper dish basket of 13 insulating base frame, 14 air inlet, 15 gas outlet 16

The recessed groove top of 17 lower bowl basket, 18 lampshade, 19 chamber wall 111

The air channel upstream of 112 recessed groove bottom 113 recessed groove left end, 114 recessed groove right-hand member 31

The side plate of 32 air channel downstream, 33 first 34 second port of port 41

The flange of 42 installation portion, 71 heating tube, 72 flange plate 721 first

The valve block of 722 first hole, 81 first inclined-plane, 82 second inclined-plane 83

The hole 123U type hole 124U type holes opening of 121 second flange 122 second

The ultraviolet lamp of 43 loophole, 131 through hole 20 on the inside of 125U type holes

【Specific embodiment】

To make have further understanding to the purpose of the present invention, construction, feature and its function, hereby coordinate embodiment detailed It is described as follows.

As depicted in figs. 1 and 2, disinfection cabinet include chamber 1 and be used to close the (not shown) of door 2 of chamber 1, positioned at chamber Upper dish basket 16 and lower bowl basket 17 in room 1.

Disinfection cabinet also includes air duct board 4, and air duct board 4 is installed on the one of chamber wall 19 of chamber 1, and air duct board 4 can be with In chamber 1, it is also possible to outside chamber 1.Air channel 3 is located between air duct board 4 and chamber wall 19, and air channel 3 and chamber 1 It is in fluid communication.

Wherein, air channel 3 may be located in chamber 1, it is also possible to outside chamber 1.Air channel 3 is by air channel antetheca and air channel rear wall Formed, in one embodiment, air channel 3 is formed by air duct board 4, i.e., air duct board 4 does not independently form air channel 3 by chamber wall 19, Air channel antetheca and air channel rear wall are formed by air duct board 4.In an alternative embodiment, air channel 3 is by air duct board 4 and chamber Wall 19 is formed, i.e., air channel antetheca is formed by air duct board 4, air channel rear wall is formed by chamber wall 19.

Disinfection cabinet also includes being in fluid communication first air stream port 5 and the second air stream port 6 in chamber 1 and air channel 3, the One air stream port 5 is located at the lower section of the second air stream port 6, so as to enter the air quilt in air channel 3 from the first air stream port 5 The second air stream port 6 is flowed upwardly toward after heating.Air duct board 4 is from the side of second the 6 to the first air stream port of air stream port 5 There is the slope for extending downwardly upwards.

First air stream port 5 and the second air stream port 6 are arranged on chamber wall 19；In a preferred embodiments, First air stream port 5 and the second air stream port 6 are arranged on air duct board 4, so as to avoid punching in inner bag, make chamber 1 Good airproof performance.

As shown in Fig. 2 the first air stream port 5 is located at the bottom in air channel 3, the second air stream port 6 is located in air channel 3 Portion.In a preferred embodiment, the first air stream port 5 is against near the bottom of lower bowl basket 17, the second air stream port 6 pairs Near the bottom of upper dish basket 16.

Disinfection cabinet also includes being in fluid communication air inlet 14 and the gas outlet 15 in chamber 1 and the external world, and air inlet 14 is located at air channel 3 Top and be in fluid communication with air channel 3, outside air by air inlet 14 into chamber 1 again by gas outlet 15 return outward Boundary.Air inlet 14 and gas outlet 15 can be arranged on the roof of chamber 1；In an alternative embodiment, air inlet 14 and goes out Gas port 5 can also be arranged on other walls of chamber 1.

Air channel 3 includes air channel upstream 31 and air channel downstream 32.Air channel upstream 31 is included from the second air stream port 6 up Air channel, air channel upstream 31 not only includes the air channel in the chamber 1, and when chamber 1 is externally provided with air channel, air channel upstream 31 is also wrapped Include the air channel outside chamber 1；Air channel downstream 32 includes the air channel from the second air stream port 6 down.

As shown in FIG. 7 and 8, air channel upstream 31 sets fan 9, and fan 9 can drive air to enter air channel 3 from the external world.

Air channel upstream 31 also sets up the valve 10 for selecting to close and open air channel upstream 31, when need open air channel upstream When 31, valve 10 is opened；When needing to close air channel upstream 31, shutoff valve 10.

As shown in figure 3, from the direction of first the 5 to the second air stream port of air stream port 6, air channel 3 is gradually reduced, I.e. air channel downstream 32 is gradually reduced.

As shown in Figure 4 and Figure 5, disinfection cabinet also includes the heater 7 in chamber 1, and heater 7 is arranged on first The vicinity of air stream port 5, in a preferred embodiment, heater 7 is arranged on the top of the first air stream port 5, from Up flowing returns to chamber 1 to chamber 1 after the first air stream port 5 is heated into the air in air channel 3 by heater 7.

Heater 7 is located in air channel 3, and heater 7 is installed on air duct board 4, In an alternative embodiment, plus Thermal 7 can also be arranged on chamber wall 19.

Air duct board 4 has the side plate 41 being bent to form backward, and in a preferred embodiment, heater 7 is installed on side Plate 41.With at least one mounting bracket 12, mounting bracket 12 is fixed on side plate 41 by screw and/or buckle.Heating dress Put 7 and side plate 41 is installed on by mounting bracket 12, two mounting brackets 41, the two of heater 7 are preferably fixed on side plate 41 End is separately fixed in mounting bracket 12.

As shown in figure 5, heater 7 includes heating tube 71 and flange plate 72, flange plate 72 is located at the side of heating tube 71 For fixing heating tube 71.

Mounting bracket 12 is used to for heater 7 to be installed to side plate 41, can there is various different structures.In an implementation In example, mounting bracket 12 has at least one U-shaped hole 123, and heating tube 71 is connected in U-shaped hole 123, and preferably heating tube 71 is straight Footpath is less than the diameter of U-shaped hole opening 124 and more than the diameter of U-shaped hole inner side 125.Mounting bracket 12 is by metal material or plastics It is made, with certain elastic force, when heating tube 71 is installed, U-shaped hole opening 124 is outwardly against deformation, so that heating tube 71 is worn Cross U-shaped hole opening 124 to be contained in U-shaped hole inner side 125, U-shaped hole opening 124 resiles.Using this structure, even if not using Screw is fixed, and heating tube 71 will not also come off from U-shaped hole 123.

Flange plate 72 has the first flange 721 that bending is formed, and the first flange 721 has the first hole 722.The peace Dress support 12 has the second flange 121 that bending is formed, and the second flange 121 has second hole corresponding with the first hole 722 122, screw is each passed through the first hole 722 and the second hole 122 and flange plate 72 and mounting bracket 12 links together, so as to will add Thermal 7 is fixed in mounting bracket 12.Flange plate 72 and mounting bracket 12 are fixed by screw, so that heater 7 More stably it is installed on side plate 41.

Insulating base frame 13 is set in the side of the leading-out terminal of heater 7, insulating base frame 13 is installed on air duct board side plate 41.Absolutely Edge pedestal 13 has through hole 131, and the leading-out terminal of attachment means 7 is contained in insulating base frame 13, the electric wire of the leading-out terminal of heater 7 Through through hole 131 from the other end of insulating base frame 13 out, it is to avoid electric leakage.Insulating base frame 13 can be made up of elastomeric material, excellent Select insulating base frame 13 to be made of ceramic material, the heat-proof quality of ceramic material is relatively good, electric wire can be avoided aging at high temperature Electric leakage, will not produce sharp aroma under high temperature.

In another embodiment replaced, heater 7 includes optical wave tube, including one is used for launch optical wave tube The reflective box of light wave of focus light, optical wave tube is arranged in the reflective box of light wave, and the upside of the reflective box of light wave has opening, opens Mouth is for the heat of the reflective box of light wave to be scattered in chamber 1.

As shown in figure 5, air duct board 4 also include be isolated with air channel 3, the installation portion 42 for installing electrical part.3, air channel In the zone line of air duct board 4, the installation portion 42 includes the first installation portion and the second installation portion, is separately positioned on air channel 3 Two ends.

Electrical part include ultraviolet lamp 20, cable and other need be arranged on air duct board 4 electrical part.Ultraviolet lamp 20 are removably mounted on installation portion 42 by mounting bracket 12.Ultraviolet lamp 20 is installed on air duct board 4, air duct board 4 can be with Ultraviolet lamp 20 is played a protective role, it is not necessary to be separately provided ultraviolet lamp protective cover again, simplify the structure of air duct board 4.

Air duct board 4 and side plate 41 are provided with loophole 43, and loophole 13 can have different shapes, ultraviolet lamp 20 pairs Loophole 43, the ultraviolet for launching ultraviolet lamp 20 is irradiated to chamber 1 by loophole 43.The both sides of air duct board set respectively Loophole 43 is equipped with, loophole 43 has multiple and vertically into paliform setting.

The second embodiment of air duct board 4, exists with the first embodiment identical of above-mentioned air duct board 4 place as shown in FIG. 14 and 15 This is repeated no more, and only discusses the places different from the first embodiment of air duct board 4.Installation portion 42 is located at the front end in air channel 3, ultraviolet Lamp 20 is installed on the front side in air channel 3, and the lampshade 18 and air duct board 4 for ultraviolet lamp 20 are one.Loophole 43 has many Individual and be arranged side by side in the horizontal direction, loophole 43 is arranged on the top of air duct board 4.

The 3rd embodiment of air duct board 4, local with the first embodiment identical of above-mentioned air duct board 4 as shown in Figure 16 and Figure 17 Will not be repeated here, only discuss the places different from the first embodiment of air duct board 4.Air duct board 4 forms air channel 3, ultraviolet lamp 20 It is installed on the lampshade 18 of ultraviolet lamp.Lampshade 18 is installed on the front side in air channel 3, and ultraviolet lamp 20 is located at the front end in air channel 3.Lampshade 18 have multiple printing opacity skies 43, and ultraviolet lamp 20 passes through loophole against loophole 43, the ultraviolet for launching ultraviolet lamp 20 43 are irradiated to chamber 1.

Disinfection cabinet has internal air circulation pattern and air outer circulation pattern, and interior circulation pattern refers in chamber 1 in air Interior circulation, outer circulation pattern refers to that air is circulated in chamber 1 and between chamber 2 is outer.At in the ozone decomposed stage, air is run Interior circulation pattern；In baking stage, air outer circulation pattern is run.

In Fig. 7 to Figure 12, the signified direction of arrow is the direction of air flow.

Fig. 7 is the operating diagram of the internal air circulation in chamber 1.When internal air circulation, close and be located at air channel upstream 31 valve 10, prevents air from the inside and outside circulation of chamber 1.Open heater 7, the air quilt near the inner heating device 7 of air channel 3 Heating, the hot-air after being heated can up flow along air channel 3, chamber 1 be returned to by the second air stream port 6, in chamber 1 Cold air can sink and enter air channel 3 by first air stream port 5 of the bottom of air channel 3, formed in chamber 1 and followed in air Ring, accelerates the flowing of the air of chamber 1, the temperature in chamber 1 is quickly raised, so as to accelerate dividing for ozone in the ozone decomposed stage Solution.

Wherein, in internal air circulation, the air in air channel 3 is entered from chamber 1, after being heated by heater 7, air is in wind Gather rising in road 3, the second air stream port 6 is flowed to from the first air stream port 5, and air-flow is gradually reduced to form vase-like Air-flow.From the direction of first the 5 to the second air stream port of air stream port 6, air channel 3 is gradually reduced, so that air channel 3 Shape adapts to the motion state of air-flow, accelerates the air-flow rate of climb, and the speed for forming inner circulating air flowing is accelerated, and makes chamber The interior elevated speed of temperature is accelerated.

In an alternative embodiment, during internal air circulation, can start fan 9, drive air from the first air stream Port 5 enters air channel 3, then returns to chamber from the second air stream port 6.

Fig. 8 is in the inside and outside operating diagram for carrying out air outer circulation of chamber 1.When air outer circulation, open and be located at wind The valve 10 of road upstream 31, starts the fan 9 positioned at air channel upstream 31, drives outside air to enter air channel upstream by air inlet 14 31 subsequently into air channel downstream 32, by after the heating of heater 7, the hot-air after being heated passes through the first air stream port 5 Into chamber 1, hot-air flows through lower bowl basket 17 and upper dish basket 16 in chamber 1, then returns to the external world by gas outlet 15.It is logical Air outer circulation is crossed, the steam in chamber can be taken to the external world, particularly hot-air and lower bowl basket 17 and upper is flowed through in the chamber 1 Bowl basket 16, is conducive to the water evaporation of tableware to be taken to outside chamber 1 by air outer circulation into vapor, is conducive to the drying of tableware, Improve the drying efficiency of tableware.

As can be seen from Figures 7 and 8, the interior circulation air channel for internal air circulation pattern mainly includes air channel downstream 32, In interior circulation pattern, air returns again to chamber 1 by the first air stream port 5 from chamber 1 into air channel downstream 32；For sky The outer circulating air duct of gas outer circulation pattern mainly includes air channel upstream 31 and air channel downstream 32, and extraneous air passes through outer circulating air duct Into chamber 1.Interior circulation air channel and outer circulating air duct have shared air channel, and air channel downstream 32 is interior circulation air channel and outer circulation wind The shared air channel in road.First air stream port 5 is located at the bottom for sharing air channel, and heater 7 is located at and shares in air channel, is conducive to Internal air circulation and air outer circulation.

In interior circulation pattern air share air channel flow direction with outer circulation pattern air in shared air channel Flow direction it is opposite.In interior circulation pattern, air is to flow to the second air stream from the first air stream port 5 in shared air channel Port 6；In outer circulation pattern, air is to flow to the first air stream port 5 from the second air stream port 6 in shared air channel.

In internal air circulation pattern, air is that (air channel downstream 32) is directed to flow to the second air circulation in shared air channel Mouth 6；In air outer circulation pattern, at least most of extraneous air is prevented from flowing to the second air stream port 6, so that outside Then air enters chamber 1 into air channel downstream 32 is flowed mostly to behind air channel upstream 31 by the first air stream port 5.

Stop part 8 is set in the air channel 3, and stop part 8 is configured to guide air from shared air channel (i.e. air channel downstream 32) flow to the second air stream port 6, and prevent extraneous air when flow direction shares air channel (i.e. air channel downstream 32) or in shared wind The second air stream port 6 is flowed in road (i.e. air channel downstream 32).

As shown in Fig. 2 stop part 8 tiltedly extends in the introversion of air channel 3, and with the inclined-plane of the tilted extension in air channel 3, bag Include the first inclined-plane 81 against air channel downstream 32 and the second inclined-plane 82 against air channel upstream 31.In interior circulation pattern, air exists Share in air channel by the second air stream port of pilot flow direction 6 of the first inclined-plane 81, in outer circulation pattern, extraneous air is by the second inclined-plane 82 prevent to flow to the second air stream port 6.

Stop part 8 is located at the vicinity of the second air stream port 6, and in a preferred embodiment, stop part 8 is located at second At air stream port 6 or the second air stream port 6 top.

Air channel 3 includes air channel antetheca and air channel rear wall, and air channel antetheca formed by air duct board 4, air channel rear wall by air duct board 4 or Person's chamber rear wall 12 is formed.Stop part 8 is set on air channel antetheca, i.e. air duct board 4；In an alternative embodiment, stop part 8 Can also be arranged on the rear wall of air channel, i.e., on the chamber wall 19 in air channel 3.

Stop part 8 is located between the second air stream port 6 and chamber wall 19, and stop part 8 is by the second air stream port 6 and chamber Space between locular wall 19 is separated into from first port 33 on second the 6 to the first inclined-plane of air stream port 81 and from the second inclined-plane 82 To the second port 34 of chamber wall 19.

In a preferred embodiment, as shown in figure 13, it is being provided with recessed groove on the chamber rear wall 12 in air channel 3 11, recessed groove 11 can have different shapes, preferably rectangle.Recessed groove 11 have top 111, bottom 112, left end 113 with And right-hand member 114.The end of stop part 8 is located between the top 111 of recessed groove 11 and bottom 112, and stop part 8 is left across recessed groove 113 and right-hand member 114, and the end of stop part 8 is held to be fitted with chamber rear wall 12.Second air stream port 6 is arrived chamber by stop part 8 The space of room rear wall 12 be divided into from first port 33 on second the 6 to the first inclined-plane of air stream port 81 and the end of stop part 8 to Second port 34 of recessed groove bottom 112.

During internal air circulation, the air for entering air channel downstream 32 from chamber 1 returns to chamber 1 by the first port 33；Air During outer circulation, the air for entering air channel upstream 31 from the external world enters air channel downstream 32 by the second port 34, then by first Air stream port 5 enters chamber 1.

Valve block 83 is set in the end of stop part 8, valve block 83 is pivotably mounted on the end of stop part 8.Such as Fig. 9 institutes Show, during internal air circulation, valve block 83 due to self gravitation effect, can nature fall and contacted with chamber rear wall 19, so as to by the Two ports 34 are closed, and are heated by heater 7 into the air in air channel downstream 32 by the first air stream port 5 from chamber 1 Afterwards, hot-air is understood all by the first port 33 into chamber 1 without flowing to air channel upstream 31, so as to avoid thermal loss. As shown in Figure 10, during air outer circulation, the fan 9 of air channel upstream 31 is started, the air for entering air channel upstream 31 from the external world can be by Valve block 83 blows afloat, and so as to the second port 34 be opened, air is flowed to air channel downstream by the second port 34 from air channel upstream 31 32, by entering chamber 1 by the first air stream port 5 after the heating of heater 7, the external world is then returned to by gas outlet 15.

In an alternative embodiment, stop part 8 is pivotably mounted in air channel 3 by spring.As shown in figure 11, In interior circulation pattern, stop part 8 is located at initial position and closes the second port 34, makes to enter air channel downstream 32 from chamber 1 Air chamber is all entered by the first port 33, it is to avoid energy loss；As shown in figure 11, in outer circulation pattern, start The fan 9 of air channel upstream 31, the power that the extraneous air into upstream air channel 31 flows through the generation of stop part 8 opens stop part 8, from And open the second port 34, air is entered air channel downstream 32 by air port 34 from air channel upstream 31, filled by heating Chamber 1 is entered by the first air stream port 5 after putting 7 heating, the external world is then returned to by gas outlet 15.

Present invention further teaches a kind of control method of disinfection cabinet, including：

Operation internal air circulation pattern, in internal air circulation pattern, air is returned again after flowing into interior circulation air channel from chamber 1 Return chamber 1；

Operation air outer circulation pattern, in air outer circulation pattern, extraneous air flows into chamber after flowing into outer circulating air duct Room 1；

Wherein, the outer circulating air duct and interior circulation air channel include sharing air channel.

Air exists in the flow direction for sharing air channel with the air in air outer circulation pattern in internal air circulation pattern The flow direction for sharing air channel is opposite.

In internal air circulation pattern, air enters via the first air stream port 5 from chamber 1 and shares air channel again via the Two air stream ports 6 return to the chamber 1；In air outer circulation pattern, extraneous air is passed through by first after entering shared air channel Air stream port 5 enters the chamber 1.

In interior circulation pattern, air of the heating near the first air stream port 5 makes heated air to upstream Move and be formed in the interior circulation of air channel 3.

In interior circulation pattern, start fan 9, the air-flow of the blowout of fan 9 enters air channel 3 from the first air stream port 5, then Chamber 1 is returned from the second air stream port 6.

In internal air circulation pattern, the air channel upstream 31 positioned at shared air channel upstream of outer circulating air duct 3 is closed.

The present invention is been described by by above-mentioned related embodiment, but above-described embodiment is only to implement example of the invention. It must be noted that, the embodiment for having disclosed is not limiting as the scope of the present invention.On the contrary, do not depart from it is of the invention spirit and In the range of the change made and retouching, belong to scope of patent protection of the invention.

Claims (28)

1. a kind of disinfection cabinet, including chamber (1) and it is used to close the door (2) of chamber (1)；

The air channel (3) connected with chamber (1)；

Characterized in that, the air channel (3) is including sharing air channel；

In interior circulation pattern, air enters shared air channel and returns again to chamber (1) from chamber (1)；It is outside in outer circulation pattern Air enters the chamber (1) via the shared air channel.

2. a kind of disinfection cabinet, including

Chamber (1)；And

For the outer circulating air duct of outer circulation pattern, extraneous air enters chamber (1) from outer circulating air duct；

Characterized in that, also including the interior circulation air channel for interior circulation pattern, air enters interior circulation air channel again from chamber (1) Chamber (1) is returned to, the interior circulation air channel and outer circulating air duct include sharing air channel.

3. disinfection cabinet as claimed in claim 1 or 2, it is characterised in that air is sharing the stream in air channel in interior circulation pattern Dynamic direction is opposite in the flow direction for sharing air channel with the air in outer circulation pattern.

4. disinfection cabinet as claimed in claim 1 or 2, it is characterised in that including the shared air channel and chamber (1) is in fluid communication The first air stream port (5), in interior circulation pattern, air enters from chamber (1) via first air stream port (5) Shared air channel returns again to the chamber (1)；In outer circulation pattern, extraneous air is passed through by the first sky after entering the shared air channel Air-flow port (5) enters the chamber (1).

5. disinfection cabinet as claimed in claim 4, it is characterised in that first air stream port (5) is positioned at shared air channel Bottom.

6. disinfection cabinet as claimed in claim 1 or 2, it is characterised in that also including the heater in shared air channel (7)。

7. disinfection cabinet as claimed in claim 6, it is characterised in that also share the of air channel and chamber (1) including being in fluid communication One air stream port (5), the heater (7) positioned at the top of the first air stream port (5), in interior circulation pattern, from First air stream port (5) enters the air for sharing air channel and being heated by heater (7) and returns again to chamber along duct flows are shared Room (1).

8. disinfection cabinet as claimed in claim 2, it is characterised in that the outer circulating air duct includes being located at and shares air channel upstream Air channel upstream (31) and it is used to be selectively opened or close the valve (10) of the air channel upstream (31).

9. disinfection cabinet as claimed in claim 2, it is characterised in that share the bottom that air channel is located at the outer circulating air duct.

10. disinfection cabinet as claimed in claim 1 or 2, it is characterised in that share air channel and chamber (1) including being in fluid communication Second air stream port (6), in interior circulation pattern, air is directed to flow to the second air stream port (6) return in shared air channel Chamber (1), in outer circulation pattern, at least most of extraneous air is prevented from flowing to the second air stream port (6).

11. disinfection cabinets as claimed in claim 1 or 2, it is characterised in that be in fluid communication altogether including stop part (8) and being used to With air channel and second air stream port (6) of chamber (1), the stop part (8) is configured to guide air from shared wind Road flows to the second air stream port (6), and prevents extraneous air from flowing to second when flow direction shares air channel or sharing in air channel Air stream port (6).

12. disinfection cabinets as claimed in claim 11, it is characterised in that the stop part (8) is arranged on the second sky in air channel (3) Near air-flow port (6), air channel (3) are divided into air channel upstream (31) and air channel downstream (32) by the stop part (8).

13. disinfection cabinets as claimed in claim 12, it is characterised in that the stop part (8) tiltedly extends in air channel (3) introversion And including the first inclined-plane (81) against air channel downstream (32) and the second inclined-plane (82) against air channel upstream (31), including Circulation pattern, air is being shared in air channel by the first inclined-plane (81) the second air stream port of pilot flow direction (6), in outer cyclic module Formula, extraneous air is prevented to flow to the second air stream port (6) by the second inclined-plane (82).

14. disinfection cabinets as claimed in claim 13, it is characterised in that the air channel (3) includes air channel antetheca and air channel rear wall, Second air stream port (6) is arranged on the antetheca of air channel, and the stop part (8) is installed on air channel antetheca；Stop part (8) will Space between second air stream port (6) and air channel rear wall is separated into from the second air stream port (6) to the first inclined-plane The second port (34) of one port (33) and the second inclined-plane to air channel (3) rear wall.

15. disinfection cabinets as claimed in claim 14, it is characterised in that air channel (3) rear wall is provided with recessed groove (11), described Recessed groove (11) is with top (111), bottom (112), left end (113) and right-hand member (114), the end of the stop part (8) Between the top (111) and bottom (112) of recessed groove (11), the stop part (8) is across recessed groove left end (113) and the right side The end of end (114) and stop part (8) is fitted with air channel rear wall, and first port (33) includes the second air stream port (6) to the space of the first inclined-plane (81), second port (34) includes stop part (8) end to recessed groove bottom (112) Space.

16. disinfection cabinets as claimed in claim 15, it is characterised in that also including a valve block (83), the valve block (83) can The end of stop part (8) is pivotally connected to, in interior circulation pattern, valve block (83) closes the second port (34)；In outer circulation Pattern, extraneous air opens valve block (83) when flowing through air channel (3) so that the second port (34) is opened.

17. disinfection cabinets as claimed in claim 14, it is characterised in that the stop part (8) may be pivotally mounted to air channel (3) Antetheca, in interior circulation pattern, stop part (8) closes the second port (34)；In outer circulation pattern, extraneous air flows through stop part (8) and by stop part (8) open so that the second port (34) is opened.

18. disinfection cabinets as claimed in claim 10, it is characterised in that second air stream port (6) is positioned at air channel (3) Middle part.

19. disinfection cabinets as claimed in claim 10, it is characterised in that also including upper dish basket (16) and lower bowl basket (17), described Near opposite upper dish basket (16) bottom of two air stream ports (6).

20. disinfection cabinets as claimed in claim 1 or 2, it is characterised in that also including air duct board (4), the air channel (3) is located at Between air duct board (4) and chamber wall (19).

21. disinfection cabinets as claimed in claim 1 or 2, it is characterised in that share air channel and chamber (1) including being in fluid communication First air stream port (5) and the second air stream port (6), the first air stream port (5) is positioned at the second air stream port (6) Lower section, the shared air channel is gradually reduced from the first air stream port (5) to the direction of the second air stream port (6).

A kind of 22. control methods of disinfection cabinet, the disinfection cabinet includes chamber (1)；

The air channel (3) being in fluid communication with chamber (1), the air channel (3) is including the outer circulating air duct for outer circulation and is used for The interior circulation air channel of interior circulation；

Chamber (1) and the air stream port (5) of air channel (3) first and the second air stream port (6) is in fluid communication；

Characterized in that,

Operation internal air circulation pattern, in internal air circulation pattern, air is returned again to after flowing into interior circulation air channel from chamber (1) Chamber (1)；

Operation air outer circulation pattern, in air outer circulation pattern, extraneous air flows into chamber after flowing into outer circulating air duct (1)；

Wherein, the outer circulating air duct and interior circulation air channel include sharing air channel.

23. methods as claimed in claim 22, it is characterised in that air is sharing the stream in air channel in internal air circulation pattern Dynamic direction is opposite in the flow direction for sharing air channel with the air in air outer circulation pattern.

24. methods as claimed in claim 22, it is characterised in that in internal air circulation pattern, air from chamber (1) via First air stream port (5) enters shared air channel and returns to the chamber (1) via the second air stream port (6) again；Outside air In circulation pattern, extraneous air is passed through by the first air stream port (5) into the chamber (1) after entering the shared air channel.

25. methods as claimed in claim 22, it is characterised in that in interior circulation pattern, heating is located at the first air circulation Mouth (5) air nearby, makes heated air flows upwards and is formed in air channel (3) interior circulation.

26. methods as claimed in claim 22, it is characterised in that in interior circulation pattern, start fan (9), and fan (9) blows The air-flow for going out enters air channel (3) from the first air stream port (5), then returns to chamber (1) from the second air stream port (6).

27. such as method as claimed in claim 22, it is characterised in that in internal air circulation pattern, outer circulating air duct (3) Air channel upstream (31) positioned at shared air channel upstream is closed.

28. methods as claimed in claim 22, it is characterised in that in the ozone decomposed stage, run internal air circulation pattern； Baking stage, runs air outer circulation pattern.