CN209153245U - A kind of steam condensation structure for steam box - Google Patents

Abstract

The utility model relates to a kind of steam condensation structures for steam box, including air exhauster, the air exhaust passage being connected to the air outlet of air exhauster and with the condensation chamber of steam inlet, the condensation chamber is arranged in the top of air exhaust passage and shares the thermally conductive bottom wall of its energy with the air exhaust passage, and, at least side side wall on the condensation chamber in addition to bottom wall is equipped with accumulation of heat interlayer, the liquid of energy accumulation of heat is equipped in the accumulation of heat interlayer, which can absorb the heat for being passed through the steam of above-mentioned condensation chamber.It can be air-cooled to the steam progress for entering condensation chamber by air exhaust passage in the utility model, bottom wall i.e. thermally conductive by condensation chamber energy, the heat for being passed through the steam of condensation chamber is taken away using the cold wind in air exhaust passage, liquid can absorb the heat for being passed through the steam of above-mentioned condensation chamber in accumulation of heat interlayer simultaneously, accumulation of heat interlayer can absorb the heat of steam in this way, to realize that the condensation to steam substantially improves the condensation effect to steam that is, by air-cooled and water cooling double action.

Description

A kind of steam condensation structure for steam box

Technical field

The utility model relates to steam box field more particularly to a kind of steam condensation structures for steam box.

Background technique

Containing a large amount of vapor in the efflux gas of steam box, this some vapor can take away a large amount of heat in discharge, Condensation can be generated when encountering extraneous cold air, leads to occur a large amount of condensed water on the body of steam box.It not only will affect in this way User experience, and will lead to containing a large amount of steam in the air in kitchen, so that the environment in kitchen becomes moist through.

To solve the above problems, cooperating wind-guiding generally by cross flow fan or spiral case blower as gas-powered source at present The use of plate to suck extraneous cold air, and is mixed with the vapor being discharged in steam box liner, to reach reduction exhaust temperature The effect of degree.This method utilizes the driving of centrifugal blower, by mixing with cold air, achievees the purpose that reduce delivery temperature, but It is the function of condensed water in gas after cannot collecting cooling, condensed water can be made to be gathered on the mounting plate of steam box in this way, condensed water Aggregation can cause to corrode to metal on a mounting board for a long time, in addition, to the condensation effect of steam in the way of cold wind mixing Also bad, it needs to be further improved.

Summary of the invention

It is good that technical problem to be solved in the utility model provides a kind of steam condensation effect for the prior art Steam condensation structure for steam box.

Technical solution adopted by the utility model to solve the above technical problems is as follows: a kind of steam for steam box condenses knot Structure, it is special including air exhauster, the air exhaust passage being connected to the air outlet of air exhauster and with the condensation chamber of steam inlet Sign is that the condensation chamber is arranged in the top of air exhaust passage and shares the thermally conductive bottom wall of its energy with the air exhaust passage, also, should At least side side wall on condensation chamber in addition to bottom wall is equipped with accumulation of heat interlayer, and the liquid of energy accumulation of heat is equipped in the accumulation of heat interlayer, The liquid can absorb the heat for being passed through the steam of above-mentioned condensation chamber.

Hot steam has the characteristics that move upwards, for the heat for enabling steam in accumulation of heat interlayer preferably absorption condensation chamber, The accumulation of heat interlayer is arranged on the roof of condensation chamber.

To keep the structure of accumulation of heat interlayer simple, facilitate processing and manufacturing, the steam condensation structure in the utility model further includes Interlayer plate body, the interlayer plate body are arranged in the lower section of the roof of condensation chamber and enclose to set to form cavity in the roof, which is Above-mentioned accumulation of heat interlayer.

Preferably to transmit heat, the bottom wall of the interlayer plate body and condensation chamber is heat-conducting.

Preferably, the height of the accumulation of heat interlayer is 2~5mm, so that accumulation of heat interlayer is relatively thin, be conducive to absorb heat Amount.

Preferably, it is described can the liquid of accumulation of heat be water, inlet opening is offered on the roof of the accumulation of heat interlayer, on side wall Apopore is offered, and the area of above-mentioned inlet opening is greater than the area of apopore.

Preferably, the area of the inlet opening is 5/3~10/3 times of the area of apopore, it is not only able to maintain storage in this way The mobility of water body in hot interlayer, the heat that water body is absorbed constantly is pulled away with flowing, and can guarantee storage There is certain resistance at apopore before hot interlayer is not completely filled in, so as to make to accumulate cold water more as far as possible in accumulation of heat interlayer, And then guarantee to absorb more heats.

It is controlled for the water outlet preferably to accumulation of heat interlayer, the steam condensation structure of the utility model further includes steam hair Raw device, the water outlet is connected to above-mentioned steam generator by outlet pipe, and is provided with solenoid valve on the outlet pipe.

Preferably, the setting position of the solenoid valve is lower than above-mentioned accumulation of heat interlayer, also, the difference in height of the two is 20 ~400mm.So in normal operation, the water that heat is absorbed in accumulation of heat interlayer can be by the folding of above-mentioned solenoid valve, benefit With the gravity for the water that apopore flows out, flows in steam generator and generate steam.In addition, after a duty cycle, If the water in water tank is not fully used, the water in the accumulation of heat interlayer of top can also be made all to flow out by the folding of solenoid valve, To be avoided that the hidden danger such as burn into is rotten occur in accumulation of heat interlayer and water route for water extended residual.

Preferably, the steam condensation structure of the utility model further includes water tank and intake pump, the water inlet of the intake pump Mouth is connected to radiator fluid, and the water outlet of water inlet is connected to by water receiving pipe with above-mentioned inlet opening, and is equipped on the water receiving pipe The check valve communicated with atmosphere.Water in water tank can so successfully flowed into accumulation of heat interlayer, and the water in accumulation of heat interlayer is not Water tank can be back to.

Compared with the prior art, the advantages of the utility model are: can be to entrance by air exhaust passage in the utility model The steam of condensation chamber carries out air-cooled, i.e., thermally conductive by condensation chamber energy bottom wall, is passed through using the cold wind in air exhaust passage to take away The heat of the steam of condensation chamber, while accumulation of heat interlayer is provided on condensation chamber, the liquid of energy accumulation of heat is equipped in accumulation of heat interlayer, it should Liquid can absorb the heat for being passed through the steam of above-mentioned condensation chamber, and such accumulation of heat interlayer can absorb the heat of steam, thus realization pair The condensation of steam.The utility model substantially improves the condensation effect to steam by air-cooled and water cooling double action.

Detailed description of the invention

Fig. 1 is the schematic diagram of steam condensation structure in the utility model；

Fig. 2 is the cross-sectional view of the partial structurtes of steam condensation structure in the utility model；

Fig. 3 is the cross-sectional view of another partial structurtes of steam condensation structure in the utility model；

Fig. 4 is the hydrographic chart using the steam box for the steam condensation structure having in the utility model.

Specific embodiment

The utility model is described in further detail below in conjunction with figure embodiment.

As shown in figures 1-4, a kind of steam condensation structure for steam box, including air exhauster 71, wind deflector 72, condensation Chamber 5, steam generator 2, intake pump 3 and water tank 4.The top of steam box liner 1 is arranged in above-mentioned wind deflector 72, encloses and sets to be formed Air exhaust passage 70, one end of the air exhaust passage 70 are air draft arrival end 701, and the other end is wind exhausting outlet end 702, said exhaust machine 71 settings are connected to said exhaust channel 70 in said exhaust arrival end 701, the i.e. air outlet of exhaust fan 71.

Further, above-mentioned condensation chamber 5 is arranged in the top of air exhaust passage 70 and shares its bottom with the air exhaust passage 70 with this Wall, the i.e. a part of the bottom wall of condensation chamber 5 as the roof of air exhaust passage 70, above-mentioned bottom wall is heat-conducting in the present embodiment, Specifically, which is metal, and remembers that above-mentioned bottom wall is the first metal plate 53.Since the first metal plate 53 is simultaneously A part of above-mentioned wind deflector 72, the lower section of the first metal plate 53 are said exhaust channel 70, and such exhaust fan 71 generates Cold wind can take away and be passed through the steam of condensation chamber 5 and be transferred to the heat of the first metal plate 53, and then realize to steam in condensation chamber 5 Condensation.Above-mentioned first metal plate 53 is inclined relative to horizontal setting in the present embodiment, and lowest part offers discharge outlet 51, The discharge outlet 51 can be connected to water tank 4 (as described below) or be connected to above-mentioned steam generator 2, to realize condensed water It recycles.

To be better achieved the condensation to the steam for being passed through condensation chamber 5, in the present embodiment, on condensation chamber 5 in addition to bottom wall At least side side wall is equipped with accumulation of heat interlayer 6, the liquid of energy accumulation of heat is equipped in the accumulation of heat interlayer 6, which, which can absorb, is passed through The heat of the steam of above-mentioned condensation chamber 5, accumulation of heat interlayer 6 can absorb the heat of steam, to realize the condensation to steam.Specifically Ground, the steam condensation structure in the present embodiment further includes interlayer plate body, which is arranged under the roof of condensation chamber 5 The Fang Bingyu roof, which encloses, to be set to form cavity, which is above-mentioned accumulation of heat interlayer 6.The interlayer plate body is also Heat Conduction Material, thus It can make to be passed through in the heat transfer to interlayer plate body of the steam of condensation chamber 5, the liquid of the energy accumulation of heat in accumulation of heat interlayer 6 can take away biography The heat being handed on interlayer plate body.Preferably, above-mentioned interlayer plate body is also metal material, and is denoted as the second metal plate 52.This reality It applies in example, the roof of the second metal plate 52 and condensation chamber 5 is arranged in parallel and the size of the two matches, and the accumulation of heat interlayer 6 Thickness (i.e. its height) be 2~5mm, i.e., Formation cross-section product is big and thin layer that thickness is small, is conducive to the absorption of accumulation of heat interlayer 6 in this way The heat of steam.

To realize recycling to the liquid in accumulation of heat interlayer 6, it is preferable that the liquid of above-mentioned energy accumulation of heat is water, described Inlet opening 61 is offered on the roof of accumulation of heat interlayer 6, apopore 62 is offered on side wall, and the area of above-mentioned inlet opening 61 is big In the area of apopore 62, specifically, the area of inlet opening 61 is 5/3~10/3 times of the area of apopore 62, so not only It is able to maintain the mobility of water body in accumulation of heat interlayer 6, the heat that water body is absorbed constantly is pulled away with flowing, and Can guarantee accumulation of heat interlayer 6 not to be completely filled at preceding apopore 62 has certain resistance, so as to make to accumulate to the greatest extent in accumulation of heat interlayer 6 The more cold water of amount, and then guarantee to absorb more heats.

To be recycled to the water for absorbing heat in accumulation of heat interlayer 6, above-mentioned apopore 62 and 2 fluid of steam generator Connection, the apopore 62 and above-mentioned steam generator 2 are in fluid communication, and the meaning being in fluid communication herein is as follows: when steam generator 2 When with accumulation of heat 6 setting spaced apart of interlayer, can by additional pipe or pipeline connection (outlet pipe 92 in Fig. 1), when When steam generator 2 and accumulation of heat interlayer 6 are closely arranged, discharge outlet can also directly be connected to (figure omits) with steam generator 2.

In the present embodiment, the apopore 62 of above-mentioned accumulation of heat interlayer 6 is connected to steam generator 2 by outlet pipe 92, for more It the water outlet of accumulation of heat interlayer 6 is controlled well, is provided with solenoid valve 82 on above-mentioned outlet pipe 92, and solenoid valve 82 is set Seated position is lower than above-mentioned accumulation of heat interlayer 6, and the height difference H of the two is 20~400mm.So in normal operation, accumulation of heat is pressed from both sides The water that heat is absorbed in layer 6 can be flowed to by the folding of above-mentioned solenoid valve 82 using the gravity for the water that apopore 62 flows out Steam is generated in steam generator 2.It, can also be with if the water in water tank 4 is not fully used in addition, after a duty cycle By the folding of solenoid valve 82, flow out the water in top accumulation of heat interlayer 6 all, to be avoided that water extended residual is pressed from both sides in accumulation of heat The hidden danger such as burn into is rotten occur in layer 6 and water route.

Further, the steam condensation structure of the present embodiment further includes water tank 4 and intake pump 3, the water inlet of the intake pump 3 (meaning being in fluid communication herein is same as described above) is in fluid communication with water tank 4, the water outlet of intake pump 3 by water receiving pipe 91 with it is upper The connection of inlet opening 61 is stated, and the check valve 81 communicated with atmosphere is installed on the water receiving pipe 91.The water in water tank 4 can be made suitable in this way It is flowed into accumulation of heat interlayer 6 sharply, and the water in accumulation of heat interlayer 6 will not be back to water tank 4.

Claims (10)

1. a kind of steam condensation structure for steam box is connected to including air exhauster (71), with the air outlet of air exhauster (71) Air exhaust passage (70) and condensation chamber (5) with steam inlet (54), which is characterized in that the condensation chamber (5) setting exists The top of air exhaust passage (70) simultaneously shares the thermally conductive bottom wall of its energy with the air exhaust passage (70), also, bottom is removed on the condensation chamber (5) At least side side wall outside wall is equipped with accumulation of heat interlayer (6), and the liquid of energy accumulation of heat, the liquid are equipped in the accumulation of heat interlayer (6) The heat for being passed through the steam of above-mentioned condensation chamber (5) can be absorbed.

2. steam condensation structure as described in claim 1, which is characterized in that the accumulation of heat interlayer (6) is arranged in condensation chamber (5) Roof on.

3. steam condensation structure as claimed in claim 2, which is characterized in that it further include interlayer plate body, interlayer plate body setting The roof of condensation chamber (5) lower section and enclose to set to form cavity with the roof, which is above-mentioned accumulation of heat interlayer (6).

4. steam condensation structure as claimed in claim 3, which is characterized in that the bottom wall of the interlayer plate body and condensation chamber (5) It is heat-conducting.

5. steam condensation structure as claimed in claim 3, which is characterized in that the height of the accumulation of heat interlayer (6) is 2~5mm.

6. steam condensation structure as claimed in claim 3, which is characterized in that the liquid of the energy accumulation of heat is water, the accumulation of heat It offers inlet opening (61), is offered on side wall apopore (62) on the roof of interlayer (6), and the face of above-mentioned inlet opening (61) Product is greater than the area of apopore (62).

7. steam condensation structure as claimed in claim 6, which is characterized in that the area of the inlet opening (61) is apopore (62) 5/3~10/3 times of area.

8. steam condensation structure as claimed in claims 6 or 7, which is characterized in that further include steam generator (2), it is described go out Water hole (62) is connected to above-mentioned steam generator (2) by outlet pipe (92), and is provided with solenoid valve on the outlet pipe (92) (82)。

9. steam condensation structure as claimed in claim 8, which is characterized in that the setting position of the solenoid valve (82) is lower than upper It states accumulation of heat interlayer (6), also, the difference in height of the two is 20~400mm.

10. steam condensation structure as claimed in claims 6 or 7, which is characterized in that it further include water tank (4) and intake pump (3), The water inlet of the intake pump (3) and water tank (4) are in fluid communication, the water outlet of intake pump (3) by water receiving pipe (91) with it is above-mentioned Inlet opening (61) connection, and the check valve (81) communicated with atmosphere is installed on the water receiving pipe (91).