CN108236726A - Disinfection cabinet - Google Patents

Abstract

The present invention relates to a kind of disinfection cabinets.Disinfection cabinet includes chamber and the air duct with the chamber；The air duct includes interior circulation air path and outer circulating air duct；In interior circulation pattern, air-flow returns again to the chamber from the chamber into the interior circulation air path；In outer circulation pattern, extraneous air enters the chamber via the outer circulating air duct；The interior circulation air path and the outer circulating air duct are at least partially isolated.So as to which the thermal current in interior circulation pattern is used effectively, and accelerates ozone decomposed, can also reduce influence of the high temperature hot gas stream to outer circulating air duct, reduces the heat-resisting quantity requirement of outer circulating air duct material.

Description

Disinfection cabinet

【Technical field】

The present invention relates to a kind of disinfection cabinets.

【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 the inner lining, is at least offered on the wind channel tube The air outlet window of one connection inner lining；The 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；It is respectively arranged at the top of the inner lining 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 up and down two End, and constitute circulating air channel；The wind turbine of PTC heating units and wind-guiding is additionally provided on circulating air channel.

The wind channel tube of prior art disinfection cabinet relates only to the air outer circulation pattern for drying, is not involved with air Interior circulation pattern when needing to carry out ozone decomposed, can not form internal air circulation, chamber air velocity of liquid assets in chamber Slowly, the rate of ozone decomposed is influenced.

【Invention content】

It is an object of the present invention to overcome at least one technical problem in the prior art, provide a kind of improved Disinfection cabinet.

The present invention is about a kind of disinfection cabinet.Disinfection cabinet includes：Chamber and the air duct with the chamber；The air duct Including interior circulation air path and outer circulating air duct；It is characterized in that, in interior circulation pattern, air-flow enters from the chamber in described Circulation air path returns again to the chamber；In outer circulation pattern, extraneous air enters the chamber via the outer circulating air duct； The interior circulation air path and the outer circulating air duct are at least partially isolated.

So as to, in interior circulation pattern, into interior circulation air path air-flow return chamber when be at least largely prevented from flowing To outer circulating air duct, this not only reduces influence of the air-flow in interior circulation air path to outer circulating air duct, but also in interior circulation air path Air-flow be used effectively, it is energy saving, improve energy utilization rate.In particularly interior circulation pattern, the air-flow of interior circulation air path Very high by temperature after heating, this can not only cause thermal current to be used effectively so that the indoor temperature of chamber rises too high Faster, accelerate ozone decomposed, reduce the time of ozone decomposed, and shadow of the high temperature hot gas stream to outer circulating air duct can be reduced It rings, reduces the heat-resisting quantity requirement of outer circulating air duct material, reduce material cost.

" interior circulation air path and outer circulating air duct are at least partially isolated " of the present invention, refers to interior circulation air path and outer circulation wind Road is at least partly not communicated with.

According to a kind of exemplary embodiment of the present invention, further include the air duct board for being used to form the air duct, it is described in follow The projection section of ring air duct and the outer circulating air duct in the left and right wind direction of the air duct board does not overlap.

According to a kind of exemplary embodiment of the present invention, the interior circulation air path and the outer circulating air duct are in the air duct Downstream have share air duct, the interior circulation air path and the outer circulating air duct are completely isolated above the shared air duct. This can reduce the influence between interior circulation air path and outer circulating air duct.

According to a kind of exemplary embodiment of the present invention, further include and the chamber and the interior circulation air path is in fluid communication Gas outlet, in interior circulation pattern, air-flow in the interior circulation air path it is at least most of be conducted through the gas outlet into Enter the chamber.This so that in interior circulation pattern the air-flow in interior circulation air path is at least most of to pass through gas outlet return cavity Room avoids air-flow from entering outer circulating air duct and influences outer circulation.

According to a kind of exemplary embodiment of the present invention, further include and the chamber and the interior circulation air path is in fluid communication Gas outlet, in interior circulation pattern, the air-flow of interior circulation air path is prevented from flowing to outer circulating air duct when flowing through gas outlet.This is prevented Air flow direction outer circulating air duct in interior circulation air path, influence of the air-flow of circulation air path to outer circulating air duct in reduction.

According to a kind of exemplary embodiment of the present invention, the heating unit in air duct, the interior circulated air are further included Road is located at the top of the heating unit, and the outer circulating air duct is located above the side of heating unit.So as in interior circulation pattern In, the air-flow that interior circulation air path is entered from chamber up moves return chamber after heating devices heat；In outer circulation pattern In, the air-flow for being externally entering outer circulating air duct enters chamber after heating devices heat, dries tableware.

According to a kind of exemplary embodiment of the present invention, in interior circulation pattern, at least big portion after heated device heating Air-flow is divided to enter interior circulation air path；In outer circulation pattern, extraneous air at least most of entrance after heating devices heat The chamber.

So as in interior circulation pattern, the air-flow of interior circulation air path be avoided to enter outer circulating air duct, this is not only avoided interior follow Air-flow in ring impacts outer circulating air duct, and the utilization rate of circulation air path air-flow, energy saving in raising；In outer circulated air In road, the air-flow of outer circulating air duct is avoided to enter interior circulation air path, this is not only avoided the air-flow inner loop air duct in outer circulation It impacts, improves the utilization rate of outer circulating air duct air-flow, it is energy saving；

According to a kind of exemplary embodiment of the present invention, the wind turbine positioned at outer circulating air duct is further included, the extension set is located at The upstream of outer circulating air duct；When wind turbine is opened, the air-flow into outer circulating air duct at least most of is prevented from flowing to interior cycle Air duct.So as in outer circulation pattern, the air-flow of outer circulating air duct be avoided to enter interior circulation air path, reduce inner loop air duct Influence, and improve the utilization rate of the energy, it is preferably energy saving.

According to a kind of exemplary embodiment of the present invention, at least one opening is set in the upstream of outer circulating air duct.So as to, It, also can be via opening if the air-flow after the heating of heated device has small part to enter outer circulating air duct in interior circulation pattern Into the chamber without entering outer circulating air duct entirely, influence of the thermal current to outer circulating air duct is reduced, is preferably reduced outer The temperature of circulation air path so as to reduce the requirement of the heat-resisting quantity of outer circulating air duct material, reduces outer circulating air duct material cost.

According to a kind of exemplary embodiment of the present invention, the opening is located at outer circulating air duct close to the top of the chamber Position.

According to a kind of exemplary embodiment of the present invention, air duct board is further included, the air duct is located at the air duct board and institute It states between chamber wall；The downstream of the interior circulation air path have air channel barrier, the air channel barrier be located at the air duct board with Between the chamber wall, gas channel is formed between the air duct board and the air channel barrier.So as in interior circulation pattern In, be conducive to form air-flow in gas channel, and improve the interior efficiency recycled.

According to a kind of exemplary embodiment of the present invention, further include and the chamber and the interior circulation air path is in fluid communication Gas outlet, the air channel barrier are located at the lower section of gas outlet；In interior circulation pattern, enter the interior circulated air from the chamber The air-flow in road returns to the chamber by the gas outlet again via the gas channel.This is conducive to interior cycle.

According to a kind of exemplary embodiment of the present invention, air duct board and the air channel barrier in air duct, institute are further included Interior circulation air path is stated between the air duct board and the air channel barrier.

According to a kind of exemplary embodiment of the present invention, the air channel barrier has at least one to the recessed of air duct sunken inside Concave portion.

By setting the recessed portion to air duct sunken inside in ducting assembly, this is conducive in air duct cohesion heat-collecting capacity.It is special It is not in disinfection cabinet in circulation pattern, air-flow is assembled in air duct, is conducive to air-flow and is recycled in air duct so that chamber is indoor Temperature can be rapidly heated.If disinfection cabinet is ozonization, after disinfection, high temperature can accelerate ozone decomposed, shorten ozone The time of decomposition.

According to a kind of exemplary embodiment of the present invention, the heating unit being arranged in air duct, the recessed portion are further included It is arranged near the heating unit.So as to which air-flow is increased in air duct by temperature after heating devices heat, in heating unit Near setting recessed portion be more advantageous to aggregation heat, more conducively interior cycle so that chamber temp increases faster.

According to a kind of exemplary embodiment of the present invention, further include and the chamber and the interior circulation air path is in fluid communication Air inlet, in interior circulation pattern, the indoor air of chamber enters interior circulation air path via air inlet；The depressed area in Near the air inlet.So as to laggard by heating devices heat via the air-flow of air inlet in disinfection cabinet in circulation pattern Enter interior circulation air path, recessed portion is arranged near accelerator, and aggregation heat is conducive to air-flow and is moved in circulation air path.

According to a kind of exemplary embodiment of the present invention, further include and the chamber and the interior circulation air path is in fluid communication Gas outlet and the stop part above the gas outlet, the stop part are close to the chamber rear wall.

So as to, in circulation pattern, the thermal current in prevention in circulation air path enters outer circulating air duct by stop part, this Influence of the high temperature gas flow to outer circulating air duct is not only reduced, reduces the temperature of outer circulating air duct, and reduces outer circulating air duct material The temperature tolerance requirement of material, reduces material cost.

【Description of the drawings】

Fig. 1 is the integrally-built schematic diagram of a preferred embodiment of the invention disinfection cabinet；

Fig. 2 is the overall structure diagram of a preferred embodiment of the invention ducting assembly；

Fig. 3 be Fig. 2 along the sectional view of A-A；

Fig. 4 Fig. 2 is the overall structure diagram of presently preferred embodiment ducting assembly；

Fig. 5 is sectional views of the Fig. 4 along B-B；

Fig. 6 is cycle operation schematic diagram in a preferred embodiment of the invention disinfection cabinet.

Reference numeral：

22 outer circulating air duct of circulation air path in 1 chamber, 2 air duct 21

23 gas channel, 3 ducting assembly, 31 air duct board, 32 air channel barrier

33 air duct backboard, 34 stop part, 4 recessed portion, 5 gas outlet

6 air inlet, 7 heating unit, 8 wind turbine 24 shares air duct

【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 shown in Figure 1, disinfection cabinet includes chamber 1 and the ducting assembly 3 in chamber 1.

Fig. 2 and Fig. 3 is a preferred embodiment of ducting assembly 3, and Fig. 4 and Fig. 5 are another preferred realities of ducting assembly Apply example.As shown in the figure, disinfection cabinet further includes the air duct 2 between the wall of ducting assembly 3 and chamber 1, air duct 2 and chamber 1 flow Body connects.

Air duct 2 includes interior circulation air path 21 and outer circulating air duct 22.Interior circulation air path 21 and at least portion of outer circulating air duct 22 Separate from, so as to which the air-flow of, interior circulation air path 21 reduces the influence to outer circulating air duct 22, the air-flow drop in outer circulating air duct 22 The influence in low inner loop air duct.In disinfection cabinet carries out during cycle, air-flow returns again to chamber from chamber 1 into interior circulation air path 21 Room 1.When disinfection cabinet carries out outer circulation, extraneous air returns again to outside via outer circulating air duct 22 into chamber 1.

As shown in Figures 2 to 5, disinfection cabinet include the air inlet 6 that chamber 1 and air duct 2 is in fluid communication and gas outlet 5 and Heating unit 7 near air inlet 6.In a preferred real-time mode, gas outlet 5 is inverted " V " shape；Another replaces Embodiment in, gas outlet 5 can also be other shapes.

In a preferred embodiment, heating unit 7 is located at the top of air inlet 6.In interior circulation pattern, air-flow exists At least most of gas outlet 5 that is conducted through returns to chamber 1 in interior circulation air path 21, and the air-flow in interior circulation air path 21 flows through out It is prevented from flowing to outer circulating air duct 22 during gas port 5, the air-flow of interior circulation air path 21 is at least most of to be prevented from flowing to outer circulation wind Road 22.

As shown in the figure, ducting assembly 3 has at least one recessed portion 4 to 2 sunken inside of air duct, recessed portion 4 is located at heating Near device 7 and air inlet 6.In a preferred embodiment, recessed portion 4 by circulation air path in being formed 21 ducting assembly 3 inside 21 sunken insides of circulation air path are formed.

In recycling inside, as shown in fig. 6, entering the air of interior circulation air path 21 by heating from chamber 1 by air inlet 6 Device 7 forms thermal current after heating, due to being equipped with recessed portion 4 in air inlet 6 and heating unit attachment.Recessed portion 4 can be assembled Heat, so that gas flow temperature increases to obtain faster higher, thermal current passes through gas outlet 5 and returns to chamber 1 so that 1 temperature of chamber Increase to obtain faster higher.If disinfection cabinet is ozonization, after disinfection, high temperature can accelerate ozone decomposed, shorten ozone The time of decomposition improves user experience.

A preferred embodiment of ducting assembly 3 is described below, as shown in Figures 2 and 3.

As shown in figure 3, air duct 2 includes interior circulation air path 21 and outer circulating air duct 22, interior circulation air path 21 is located at heating and fills 7 top is put, outer circulating air duct 22 is located above the side of heating unit 2, and interior circulation air path 21 and outer circulating air duct 22 are in air duct 2 Downstream have share air duct 24.Heating unit 7 and air inlet 6, which are located at, to be shared in air duct 24, i.e. heating unit 7 and air inlet 6 Positioned at the downstream in air duct 2.

Interior circulation air path 21 and outer circulating air duct 22 are at least partially isolated.As shown in the figure, interior circulation air path 21 and outer circulation Being partly or completely isolated other than the shared air duct 24 of air duct 22, i.e., interior circulation air path 21 and outer circulating air duct 22 are in shared wind The upstream in road 24 is completely isolated, and interior circulation air path 21 and outer circulating air duct 22 are not communicated in the top for sharing air duct 24.

The projection of interior circulation air path 21 and outer circulating air duct 22 on the left and right directions of air duct board 31 does not overlap.It is interior such as Fig. 2 Circulation air path 21 and outer circulating air duct 22 do not overlap completely in the top for sharing air duct 24, interior circulation air path 21 and outer circulating air duct 22 have interval between the top for sharing air duct 24.

In interior circulation pattern, the air shared in air duct 2 is entered from chamber 1 and forms heat after the heating of heating unit 7 Air-flow, at least most of thermal current are up moved into the upstream of interior circulation air path 21, thermal current only and its a small amount of part into Enter outer circulating air duct 22, the air-flow of interior circulation air path returns to chamber 1 via gas outlet 5 again.So as to, in interior circulation pattern, warp At least most of air-flow enters interior circulation air path 21 after heating unit 7 heats, this can not only cause thermal current to be used effectively, So that the temperature in chamber 1 rises too high faster, accelerate ozone decomposed, reduce the time of ozone decomposed, improve user experience, And influence of the high temperature hot gas stream to outer circulating air duct can be reduced, reduce the heat-resisting quantity requirement of outer circulating air duct material, drop Low material cost.

As shown in the figure, further include the wind turbine 8 positioned at 22 upstream of outer circulating air duct.In outer circulation pattern, wind turbine 8 is opened, Outer gas stream enters the upstream of outer circulating air duct 22, and air-flow is moved into the shared shape after heating devices heat of air duct 24 down Outside is returned again into chamber 1 into thermal current is at least most of, the humid air in chamber 1 is taken out of, realizes the drying of tableware.From And in outer circulation pattern, when wind turbine 8 is opened, it is prevented from following in flow direction into 22 air-flow of outer circulating air duct is at least most of Ring channel, extraneous air is at least most of after the heating of heating unit 7 to enter chamber 1, this not only reduces outer circulation and internally follows The influence in ring air duct 21, and improve drying efficiency.

As shown in the figure, ducting assembly 3 includes air duct board 31 and the air duct backboard 33 with 31 one of air duct board, 2, air duct Between air duct board 31 and air duct backboard 33.Wherein, recessed portion 4 is formed on air duct backboard 33.In one embodiment, air duct Plate 31 and air duct backboard 33 are integrally formed；In another embodiment, air duct backboard 33 is connected to air duct board 31.

As shown in Figures 2 and 3, recessed portion 4 is formed from air duct backboard 33 to 2 sunken inside of air duct, and recessed portion 4 can be assembled Heat, in interior circulation pattern, the air into interior circulation air path 21 forms thermal current, high temperature after the heating of heating unit 7 The heat of thermal current is assembled in recessed portion, so that gas flow temperature rises too high faster, accelerates interior recycle so that chamber 1 Interior temperature increases faster.So as to accelerate ozone decomposed, shorten the time of ozone decomposed, improve user experience.

Ducting assembly 3 another preferred embodiment is described below, as shown in Figure 4 and Figure 5.Portion same as the previously described embodiments Point details are not described herein.

As shown in Figures 4 and 5, air duct 2 includes interior circulation air path 21 and outer circulating air duct 22, interior circulation air path 21 and outer circulation Air duct 22 has positioned at the shared air duct 24 in 2 downstream of air duct, and heating unit 7 and air inlet 6 are located in shared air duct 24.At one In preferred embodiment, interior circulation air path 21 is to share air duct 24.

Ducting assembly 3 includes air duct board 31 and the air channel barrier 32 positioned at interior 21 downstream of circulation air path.Air channel barrier 32 Between the wall of air duct board 31 and chamber 1, and gas channel 23, air-flow are formed between air duct board 31 and air channel barrier 32 Channel 23 is a part for interior circulation air path 21, and interior circulation air path 21 is between air duct board 31 and air channel barrier 32.

Air channel barrier 32 is located at the lower section of gas outlet 5, in interior circulation pattern, enters the interior cycle from the chamber 1 The air-flow in air duct 21 returns to the chamber 1 by the gas outlet 5 again via the gas channel 23.

There is at least one recessed portion 4 in air duct 2.In one embodiment, recessed portion 4 is from air channel barrier 32 to air duct 2 Sunken inside is formed.In an alternative embodiment, 4 air duct board 31 of recessed portion are formed to 2 sunken inside of air duct.

As shown in figure 4, having at least one opening 9 in the upstream of outer circulating air duct 32, opening 9 is arranged on air duct board 31 On.In a preferred embodiment, opening 9 is located at outer circulating air duct 32 and leans at the top position of abluminal compartment 1.In a replacement Embodiment in, opening 9 can also be located at outer circulating air duct 22 other positions.

As shown in Figure 3 and Figure 4, stop part 34 is provided in the top of gas outlet 5, stop part 34 is located in the air duct 2, Stop part 34 extends from the air duct board 31 and is close to the wall of the chamber 1.In a preferred embodiment, stop part 34 From air duct board 31 to 2 infolding bending of air duct into In an alternative embodiment, stop part 34 can also be an independent portion Part is installed on air duct board 31.

Stop part 34 is configured to that air in air duct 21 is guided to flow to the gas outlet 5 in interior circulation pattern 21, prevents Air-flow in interior circulation air path 21 enters outer circulating air duct by stop part 34.

As shown in fig. 6, in disinfection cabinet in circulation pattern, enter in interior circulation air path 21 from chamber 1 by air inlet 6 Air is thermally formed thermal current by heating unit 7, and thermal current up moves in gas channel 23, enters chamber by gas outlet 5 Room 1.Since stop part 34 is close to the wall of chamber 1, most of air-flow is conducted through gas outlet 5 and returns to chamber 1, even if having Small part air-flow is entered by the both sides of stop part 34 after outer circulating air duct 22 also can return again to chamber by opening 9.So as to this The influence of influence of the thermal current to outer circulating air duct, particularly 22 upstream of outer circulating air duct can be reduced, so as to reduce outer circulation The high temperature resistant requirement of air duct upstream, reduces low cost materials.

In disinfection cabinet outer circulation pattern, wind turbine 8 is opened, outer gas stream enters the upstream of outer circulating air duct 22, and air-flow leads to The both sides for crossing stop part 34 enter and share air duct 24, and air-flow enters chamber 1 and returns again to outside, chamber after the heating of heating unit 7 Humid air in room 1 is taken out of, realizes the drying of tableware.

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

Claims (15)

1. a kind of disinfection cabinet, the air duct (2) connected including chamber (1) and with the chamber (1)；

The air duct (2) includes interior circulation air path (21) and outer circulating air duct (22)；

It is characterized in that, in interior circulation pattern, air-flow returns again to institute from the chamber (1) into the interior circulation air path (21) State chamber (1)；In outer circulation pattern, extraneous air enters the chamber (1) via the outer circulating air duct (22)；In described Circulation air path (21) and the outer circulating air duct (22) are at least partially isolated.

2. disinfection cabinet as described in claim 1, which is characterized in that further include the air duct board for being used to form the air duct (2) (31), the projection of the interior circulation air path (21) and the outer circulating air duct (22) in the left and right wind direction of the air duct board (31) Part does not overlap.

3. disinfection cabinet as described in claim 1, which is characterized in that the interior circulation air path (21) and the outer circulating air duct (22) have in the downstream of the air duct (2) and share air duct (24), the interior circulation air path (21) and the outer circulating air duct (22) it is completely isolated above the shared air duct (24).

4. disinfection cabinet as described in claims 1 to 3, which is characterized in that further include and the chamber (1) and described interior is in fluid communication The gas outlet (5) of circulation air path (21), in interior circulation pattern, air-flow at least most of quilt in the interior circulation air path (21) Guiding returns to the chamber (1) by the gas outlet (5).

5. disinfection cabinet as described in claims 1 to 3, which is characterized in that further include and the chamber (1) and described interior is in fluid communication The gas outlet (5) of circulation air path (21), in interior circulation pattern, the quilt when air-flow of interior circulation air path (21) flows through gas outlet (5) Prevention flows to outer circulating air duct (22).

6. disinfection cabinet as described in claims 1 to 3 further includes the heating unit (7) in air duct (2), the interior cycle Air duct (21) is positioned at the top of the heating unit (7), and the outer circulating air duct (22) is above the side of heating unit (7).

7. disinfection cabinet as claimed in claim 6, which is characterized in that in interior circulation pattern, after heated device (7) heating extremely Few major part air-flow enters interior circulation air path (21)；In outer circulation pattern, extraneous air by heating unit (7) heating after extremely It is few most of into the chamber (1).

8. disinfection cabinet as described in claim 1, which is characterized in that further include the wind turbine (8) positioned at outer circulating air duct (22), institute State the upstream that extension set is located at outer circulating air duct (22)；When wind turbine (8) is opened, the air-flow into outer circulating air duct (22) is at least big Part is prevented from flowing to interior circulation air path (21).

9. disinfection cabinet as described in claim 1, which is characterized in that setting is at least one in the upstream of outer circulating air duct (22) opens Mouth (9).

10. disinfection cabinet as claimed in claim 9, which is characterized in that the opening (9) is positioned at outer circulating air duct (22) close to institute State the top position of chamber (1).

11. disinfection cabinet as described in claim 1, which is characterized in that further include air duct board (31), the air duct (2) is positioned at institute Between the wall for stating air duct board (31) and the chamber (1)；There is air channel barrier (32) in the downstream of the interior circulation air path (21), The air channel barrier (32) is between the air duct board (31) and the chamber (1) wall, in the air duct board (31) and described Gas channel ((23) is formed between air channel barrier (32).

12. disinfection cabinet as claimed in claim 11, which is characterized in that further include and the chamber (1) and described interior is in fluid communication The gas outlet (5) of circulation air path (21), the air channel barrier (32) is positioned at the lower section of gas outlet (5)；In interior circulation pattern, from The air-flow that the chamber (1) enters the interior circulation air path (21) passes through the gas outlet again via the gas channel (23) (5) chamber (1) is returned.

13. disinfection cabinet as described in claim 1, which is characterized in that further include air duct board (31) and in air duct (2) Air channel barrier (32), the interior circulation air path (21) is between the air duct board (31) and the air channel barrier (32).

14. disinfection cabinet as claimed in claim 13, which is characterized in that the air channel barrier (32) has at least one to air duct (2) recessed portion (4) of sunken inside.

15. disinfection cabinet as described in claim 1, which is characterized in that further include and the chamber (1) is in fluid communication and described interior follows The gas outlet (5) in ring air duct (21) and the stop part (34) above the gas outlet (5), the stop part (34) are close to The rear wall of the chamber (1).