CN205191537U - Cabinet is evaporated in steam generator and gas - Google Patents

Abstract

The utility model relates to a cabinet is evaporated in steam generator and gas. Wherein, steam generator include the shell, set up in the outside heat source of shell includes still that the holding is in the inside a plurality of edges of shell the board of bending that the length direction of shell extends is organized, each the board of bending group all includes the edge the length direction of shell extends and is dentate a plurality of first bend board and a plurality of second board of bending, each the first board of bending is bent with corresponding second, and the board is symmetrical each other to be set up and docks each other to it forms the thermal medium runner that a plurality of heating medium of being used for flowed through to make each first second of bending the board and corresponding bend between the board, the inner wall of shell with between the outer wall of a plurality of board groups of bending to and be formed with the water storage space between adjacent two boards groups of bending. The utility model discloses an it is simple and convenient that cabinet processing is evaporated in steam generator and gas, and the thermal efficiency is high, and exhaust tail gas temperature is lower, and also greatly reduced of the noise that produces.

Description

A kind of steam generator and gas combustion steaming cabinet

Technical field

The utility model relates to steamer apparatus field, more particularly, relates to a kind of steam generator and gas combustion steaming cabinet.

Background technology

In prior art, gas combustion steaming cabinet adopts thermal source as heater usually, and the high-temperature flue gas produced by fuel gas buring in thermal source is heated the water in steamer, makes water become steam, thus heats the food in steamer.Mainly there is following problem in current gas combustion steaming cabinet: the high-temperature flue gas major part that 1) thermal source produces directly is discharged outside in air by chimney, it can cause the increase of waste gas and contaminated environment, and easily cause damage to periphery electric equipment, and environment temperature can rise thus; 2) need at substantial heat energy, the utilization rate of its flue gas is low, causes that the temperature of steam is lower or steamer internal temperature hoisting velocity is slower; 3) noise produced is larger.

Fig. 1 shows a kind of common steam generator 10 of steamer in prior art.As shown in Figure 1, this kind of steam generator 10 comprise there is air blast function air blast thermal source 11, be arranged at the steam chest 12 above air blast thermal source 11 and be arranged on steam chest 12 top and the chimney 13 be communicated with this steam chest 12.Wherein, steam water courage (not shown) is arranged in this steam chest 12.When using this kind of steam generator 10 to produce steam, its difficulty of processing is comparatively large, and heat exchange area is few, and the offgas outlet temperatures as high of discharge 400 DEG C, causes environment temperature severe; Its thermal efficiency is lower, only has 60%; In addition, it can cause the noise up to 90dB, affects working environment.

Another kind of steam generator 20 after Fig. 2-3 shows in prior art and improves the thermal efficiency.As Figure 2-3, this kind of steam generator 20 comprises thermal source 21, S needle recuperator 22 and chimney 23.Wherein, in S needle recuperator 22, shape blast pipe S-shaped substantially 24 is provided with.When adopting this kind of steam generator 20 to manufacture steam, the embodiment shown in its thermal efficiency ratio Fig. 1 increases, and reaches about 80%; Offgas outlet temperature can be down to 320 DEG C; In addition, noise also can be reduced to 70dB.But because blast pipe 24 is S-shaped, its difficulty of processing is large.In addition, see Fig. 3, the cross-sectional area of this blast pipe is comparatively thick, causes flue gas to be difficult to be delivered in water in the process of circulation.Therefore, its thermal efficiency is still lower.

Utility model content

The technical problems to be solved in the utility model is, for the defect of prior art, provides a kind of steam generator and has the gas combustion steaming cabinet of this kind of steam generator.

The utility model solves the technical scheme that its technical problem adopts: provide a kind of steam generator, comprise shell, be arranged at the thermal source of described housing exterior, it is characterized in that, also comprise the bending plate group of the multiple extensions of the length directions along described shell being contained in described enclosure;

Bending plate group described in each includes the length direction extension along described shell and multiple first bending plate in dentation and multiple second bending plate; First bending plate described in each and the second corresponding bending plate are mutually symmetrical and arrange and mutually dock, to make to form multiple heat medium flow channel flowed through for heating medium between each the first bending plate and second bending plate of correspondence; Between the inwall of described shell and the outer wall of described multiple bending plate group, and be formed with water space between adjacent two bending plate groups;

Described heat medium flow through described heat medium flow channel time, described thermal medium by the hydrothermal exchange of described first bending plate and described second bending plate and described water space to obtain hot water or steam.

In addition, be technical solution problem, the utility model also provides a kind of steam generator further, comprises shell, is arranged at the thermal source of described housing exterior, also comprises the bending plate group of the multiple extensions of the length directions along described shell being contained in described enclosure;

Bending plate group described in each includes the length direction extension along described shell and multiple first bending plate in dentation and multiple second bending plate; First bending plate described in each and the second corresponding bending plate are mutually symmetrical and arrange and mutually dock, to make to form multiple heat medium flow channel flowed through for heating medium between each the first bending plate and second bending plate of correspondence; Between the inwall of described shell and the outer wall of described multiple bending plate group, and be formed with water space between adjacent two bending plate groups;

The first turbulent sheet that multiple length direction along described shell is intervally installed is provided with in described first bending plate; Also the second turbulent sheet that multiple length direction along described shell is intervally installed is provided with in described second bending plate; In same heat medium flow channel, described first turbulent sheet and described second turbulent sheet interval alternating with each other on the length direction of described shell is arranged.

In an embodiment, described first bending plate comprises first main part with multiple spaced first grooves, and is connected to the first junction surface of described first main part both sides; Described second bending plate comprises second main part with multiple spaced second grooves, and is connected to the second junction surface of described second main part both sides;

Described first groove and described second groove are aimed to form described heat medium flow channel, and described first junction surface is fixedly connected with described second junction surface.

In an embodiment, be connected to each other by the first connecting portion between adjacent two described first grooves, and be connected to each other by the second connecting portion between adjacent two described second grooves; At described first groove and corresponding described second groove on time, described first connecting portion and corresponding described second connecting portion are welded to one another.

Preferably, the cross sectional shape of described first groove and described second groove is triangle, rectangle or trapezoidal, and to make, the cross sectional shape of described heat medium flow channel is rhombus, rectangle or square.

In an embodiment, when the cross sectional shape of described first groove and described second groove is triangle, adjacent two described first grooves intersect at the first intersection point; Adjacent two described second grooves intersect at the second intersection point; Described first intersection point and described second intersection point are welded to one another.

In an embodiment, described first turbulent sheet comprises the first installation portion and the first rake; Described first rake is fitted on the sidewall of described first bending plate, and relatively described first installation portion of described first rake tilts to extend in the middle part of corresponding heat medium flow channel with predetermined angle.

In an embodiment, described shell comprise hollow pedestal, be fixed on described pedestal and be around in the shell wall around multiple described bending plate group, and lid is located at the end cap on described bending plate group top; Multiple described bending plate group is fixed on described pedestal, and the described heat medium flow channel surrounded by multiple described bending plate group and described pedestal communicate with each other also offer water inlet on described shell wall, and described shell wall also offers steam (vapor) outlet.

Preferably, described thermal medium is conduction oil or flue gas; Described thermal source is burner, high-temperature gas or liquid.

For technical solution problem, the utility model also provides a kind of gas combustion steaming cabinet further, it steam generator described arbitrarily before comprising.

Implement steam generator of the present utility model and gas combustion steaming cabinet, there is following beneficial effect: by adopting the mode of bending to arrange bending plate group, therefore only need time processing can be shaped heat medium flow channel and water space simultaneously, process simple and convenient.The form of multiple heat medium flow channel makes that the spacing between thermal medium and water is little and heat exchange area is large, and promote the heat exchange between thermal medium and water further by the turbulent sheet be alternately obliquely installed, its thermal efficiency is high, causing thermal medium (especially flue tail gas) temperature of discharge lower, effectively can preventing the environmental pollution caused because discharging high-temperature tail gas; The noise produced also reduces greatly.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the structural representation of a kind of steam generator of the prior art;

Fig. 2 is the structural representation of another kind of steam generator of the prior art;

Fig. 3 is the sectional view of the steam generator blast pipe in Fig. 2;

Fig. 4 is the stereogram of the steam generator in the utility model one embodiment;

Fig. 5 is the structural representation after the steam generator in Fig. 4 removes shell;

Fig. 6 is the sectional view of the bending plate group of steam generator in Fig. 4;

Fig. 7 is the internal structure schematic diagram of the steam generator in Fig. 4;

Fig. 8 is the top view of the steam generator in Fig. 4;

Fig. 9 is the interior section structural representation of the bending shape blast pipe with turbulent sheet.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Fig. 4-5 shows the steam generator 30 in the utility model one embodiment.See Fig. 4-5, this steam generator 30 comprises shell 31, is arranged at the thermal source 32 (see Fig. 7) of this shell 31 outside, and the bending plate group 33 that the multiple length directions along shell 31 being contained in this shell 31 inside extend.Wherein, each bending plate group 33 includes the length direction extension along shell 31 and multiple first bending plate 331 in dentation and multiple second bending plate 332.In the present embodiment, this steam generator is vertical, and the length direction of shell is vertical direction; But according to other embodiments of the present utility model, this steam generator can also be horizontal, and now, the length direction of shell is arranged in the horizontal direction.

Wherein, each the first bending plate 331 and the second corresponding bending plate 332 are mutually symmetrical and arrange and mutually dock, and make thus to form multiple heat medium flow channel 34 flowed through for heating medium between each the first bending plate 331 and second bending plate 332.Therefore, in the utility model one embodiment, the first bending plate 331 and the second bending plate 332 form the heat medium flow channel 34 of above-mentioned straight-tube shape each other quickly and easily, and it is easy to process.In addition, between the inwall and the outer wall of multiple bending plate group 33 of shell 31, and water space 35 (see Fig. 7) is formed with between adjacent two bending plate groups 33; Be filled with water in this water space 35, thus without the need to additionally arranging water courage, further simplify the processing of this steam generator 30.When thermal medium is discharged through heat medium flow channel 34, thermal medium by the hydrothermal exchange of the first bending plate 331 and the second bending plate 332 and water space 35 to obtain temperature required hot water or steam.

Wherein, this thermal source 32 is preferably burner, high-temperature gas or liquid in the present embodiment, with the thermal medium produced or input temp is higher.Thermal medium is then preferably flue gas or conduction oil.

Fig. 4-5 particularly illustrates the structure of shell 31.As illustrated in figures 4-5, this shell 31 comprises pedestal 311, is fixed on pedestal 311 and is around in the shell wall 312 around multiple bending plate group 33, and lid is located at the end cap 313 on bending plate group 33 top.

Wherein, pedestal 311 is arranged at bottom, for carrying above-mentioned multiple bending plate groups 33 in bottom, and can bear the heating-up temperature provided of self-heat power 32.Particularly, bending plate group 33 is fixed on pedestal 311, and the multiple heat medium flow channel surrounded by multiple bending plate group 33 and said base 311 communicate with each other.

When thermal medium is flue gas, the bottom of pedestal 311 is opening shape, does not arrange the base plate of sealing, and the opening bottom pedestal 311 can be set to thermal medium entrance (not shown), and thermal source 32 is just to the thermal medium entrance of this pedestal 311; And multiple bending plate group 33 also passes end cap 313 further, thus the end of this heat medium flow channel is made to form thermal medium outlet.Therefore, in use, flue gas can be passed in pedestal 311 by thermal medium entrance from thermal source 32, and through multiple heat medium flow channels 34 that multiple bending plate group 33 is formed, discharges from above-mentioned heat medium flow channel finally by this thermal medium outlet.

And when thermal medium is conduction oil, then the bottom of pedestal 311 is provided with base plate (not shown), and on the sidewall of pedestal 311, form thermal medium entrance, thermal source 32 is just to the base plate of pedestal 311; In addition, also thermal medium outlet is set in the end of end cap 313.Therefore, in use, conduction oil enters in pedestal 311 by thermal medium entrance, and makes the intensification of this conduction oil form high temperature heat conductive oil by the heating of thermal source 32; Subsequently, high temperature heat conductive oil flows through heat medium flow channel 34, and is flowed out by thermal medium outlet.In addition, now this thermal medium outlet also can be communicated with retracting device (not shown) further, and the recovery that refluxed by conduction oil re-uses.

Further, shell wall 312 is around in multiple bending plate group 33 around, and shell wall 312 also offers steam (vapor) outlet 312a, to be exported by steam.Between the inwall and the outer wall of multiple bending plate group 33 of shell wall 312, and be formed with above-mentioned water space 35 between adjacent two bending plate groups 33, water can be contained in this water space 35 thus.The formation of this water space 35 realizes without the need to extra element, and only needs to rely on existing bending plate group 33 and shell 31 to realize, and therefore can simplify the processing of whole steam generator 30.In addition, shell wall 312 offers water inlet 312b, for being flowed into by water in water space 35; And on shell wall 312, also preferably can set out mouth of a river (not shown), for by with thermal medium heat exchange after hot water discharge.In a preferred embodiment, this delivery port can be communicated with outlet pipe, and outlet pipe can be provided with magnetic valve; And water outlet is provided with temperature sensor, for detecting the water temperature of water outlet.This temperature sensor is electrically connected with magnetic valve, and magnetic valve is also electrically connected with external control circuit.When water outlet water temperature reaches preset temperature, control circuit Controlling solenoid valve is opened, thus this water being heated to preset temperature is discharged by this delivery port.

In the present embodiment, see Fig. 4-6, each bending plate group 33 forms by the second bending plate 332 docking of the first bending plate 331 substantially in dentation and respective amount.In the present embodiment, the first bending plate 331 and the second bending plate 332 to be mutually symmetrical setting about a symmetry axis; And the first bending plate 331 and the second bending plate 332 all can be formed by multiple presetting position bending onboard by an entire plate.

Specifically as Figure 4-Figure 6, this first bending plate 331 comprises the first main part 331a and is connected to the first junction surface 331b of the first main part both sides.Wherein, the first main part 331a is arranged at intervals with multiple first groove 331c, and is connected to each other by the first connecting portion 331d between adjacent two the first groove 331c.

And the second bending plate 332 comprises the second main part 332a and be connected to the second junction surface 332b of the second main part both sides.Wherein, the second main part 332a is arranged at intervals with multiple second groove 332c, and is connected to each other by the second connecting portion 332d between adjacent two the second groove 332c.

Add man-hour, first the first bending plate 331 and the second bending plate 332 can be formed the dentation shown in Fig. 6 by the mode of bending.Subsequently, the first bending plate 331 and the second bending plate 332 are docked each other, and the first groove 331c and the second groove 332c is aligned with each other, a heat medium flow channel can be formed to make often to organize between the first corresponding groove 331c and the second groove 332c.In addition, the first junction surface 331b and the second junction surface 332b are such as fixed to one another by the mode of welding and are connected, and the first connecting portion 331d and the second corresponding connecting portion 332d is such as fixed to one another connection by the mode of welding.In this way, can make to enclose heat medium flow channel between the first bending plate 331 and the second bending plate 332.

In the present embodiment, the cross sectional shape of this first groove 331c and the second groove 332c is triangle, can Formation cross-section shape be rhombus, rectangle or trapezoidal heat medium flow channel 34 thus.But according in other embodiments of the present utility model, the shape of this first groove 331c and the second groove 332c can also be rectangle or trapezoidal etc., can Formation cross-section shape be rectangle, square or erose heat medium flow channel 34 thus.

In the present embodiment, when the cross sectional shape of the first groove 331c and the second groove 332c is triangle, two adjacent the first groove 331c intersect at the first intersection point; Two adjacent the second groove 332c intersect at the second intersection point; And the first intersection point and the second intersection point are welded to one another.In addition, in the present embodiment, the first groove 331c can be established to be intersected each other to form by the first bending section 331e and the second bending section 331f, and the second groove 332c is intersected each other to form by the 3rd bending section 332e and the 4th bending section 332f.Then now, the first bending section 331e and the angle between the first bending plate 331 and the symmetry axis of the second bending plate 332 are preferably 30 ° ~ 60 °, and are preferably 45 °.And same with the angle between above-mentioned symmetry axis preferably 30 ° ~ 60 ° of the 3rd bending section 332e, and be preferably 45 °.

As Figure 7-9, in order to improve the heat exchange efficiency of thermal medium and water, in the present embodiment, the spaced first turbulent sheet 36 of multiple length direction along shell is also provided with further at the first bending plate 331, and on the second bending plate 332, be also provided with the spaced second turbulent sheet 37 of multiple length direction along shell further, and in same heat medium flow channel 34, one first turbulent sheet 36 is also inserted with between adjacent two the second turbulent sheets 37 on the length direction of shell, make in each heat medium flow channel 34 thus, on the length direction of shell, the first turbulent sheet 36 and the second turbulent sheet 37 interval alternating with each other are arranged.Wherein, the flow direction of thermal medium can be as depicted by the arrows in figure 7.

Wherein, each first turbulent sheet 36 all tilts to extend in the middle part of the heat medium flow channel of correspondence from the sidewall of the first bending plate 331.And each second turbulent sheet 37 all tilts to extend in the middle part of the heat medium flow channel of correspondence from the sidewall of the second bending plate 337.

In the present embodiment, this first turbulent sheet 36 comprises the first installation portion 361a and the first rake 361b.This first turbulent sheet 36 to be fixed on the first bending plate 331 (in the present embodiment by the first installation portion 361a laminating, as shown in Figure 9, when the first groove shapes is triangle, this first installation portion 361a can be fitted on the second bending section 331f), and the first rake 361b angularly tilts to extend in the middle part of corresponding heat medium flow channel relative to this first installation portion 361a.In the present embodiment, the angle between this first rake 361b and the first installation portion 361a is preferably 120 ° ~ 150 °, and is preferably 135 °.

And the similar of the structure of the second turbulent sheet 37 and the first turbulent sheet 36, and the second turbulent sheet 37 tilts to extend in the middle part of the heat medium flow channel of correspondence from the 3rd bending section 332e.

Therefore, in same heat medium flow channel 34, in the flow process of thermal medium, thermal medium can pass alternately between the first turbulent sheet 36 and the second turbulent sheet 37, make this thermal medium can produce in this heat medium flow channel 34 thus rotate and form turbulent flow, extend the time of staying of thermal medium in heat medium flow channel 34, greatly strengthen the heat exchange between this thermal medium and the water in water space 35, the heat exchange efficiency of whole steam generator can be improved thus.

When processing steam generator, first metallic plate (such as steel plate) bending of monoblock is formed the first corresponding bending plate 331 and the second bending plate 332, and be combined into bending plate group 33 by the mode of welding.Subsequently the plurality of bending plate group 33 is inserted on pedestal 311 respectively, and shell wall 312 is around in bending plate group 33 around.Subsequently by pouring into water in the water space 35 of water inlet between adjacent bending plate group 33 and between shell wall 312 and bending plate group 33, finally add a cover end cap 313.

When using this steam generator, first providing temperature by thermal source 32, heating to produce thermal medium (such as high temperature heat conductive oil or flue gas) to medium.Heat medium flow through pedestal 311 and heat medium flow channel 34 time, thermal medium by the hydrothermal exchange of the first bending plate 331 and the second bending plate 332 and water space 35 to obtain hot water or steam.As obtained steam, then steam can export further by steam (vapor) outlet 312a, can thus be follow-up equipment (such as gas combustion steaming cabinet) and provides required steam; As obtained hot water, this hot water can be made to be discharged by delivery port, recycle for follow-up.

Above-mentioned steam generator structure is simple, only needs time processing can be shaped heat medium flow channel and water space simultaneously, processes simple and convenient.The form of multiple heat medium flow channel makes the spacing between thermal medium and water little and heat exchange area is large, and promotes the heat exchange between thermal medium and water further by the turbulent sheet be alternately obliquely installed, and its thermal efficiency is high.

When using steam generator provided by the utility model, when employing flue gas is only 120 DEG C, far below the offgas outlet temperature that the steam generator shown in Fig. 1-3 produces as its offgas outlet temperature during thermal medium.In addition, its thermal efficiency can up to 95%, and noise can be reduced to 50dB.As can be seen here, using its exhaust temperature of discharging of steam generator of the present utility model lower, effectively can preventing the environmental pollution caused because discharging high-temperature tail gas; In addition, its thermal efficiency is higher; The noise produced also reduces greatly.

The utility model still further provides a kind of gas combustion steaming cabinet, and this gas combustion steaming cabinet have employed above-mentioned steam generator to produce steam or hot water.

By reference to the accompanying drawings embodiment of the present utility model is described above, but the utility model is not limited to above-mentioned detailed description of the invention, above-mentioned detailed description of the invention is only schematic, instead of it is restrictive, those of ordinary skill in the art is under enlightenment of the present utility model, not departing under the ambit that the utility model aim and claim protect, also a lot of form can be made; These all belong within protection of the present utility model.

Claims (10)

1. a steam generator, comprises shell, is arranged at the thermal source of described housing exterior, it is characterized in that, also comprises the bending plate group of the multiple extensions of the length directions along described shell being contained in described enclosure;

Bending plate group described in each includes the length direction extension along described shell and multiple first bending plate in dentation and multiple second bending plate; First bending plate described in each and the second corresponding bending plate are mutually symmetrical and arrange and mutually dock, to make to form multiple heat medium flow channel flowed through for heating medium between each the first bending plate and second bending plate of correspondence; Between the inwall of described shell and the outer wall of described multiple bending plate group, and be formed with water space between adjacent two bending plate groups;

Described heat medium flow through described heat medium flow channel time, described thermal medium by the hydrothermal exchange of described first bending plate and described second bending plate and described water space to obtain hot water or steam.

2. steam generator according to claim 1, is characterized in that, is provided with the first turbulent sheet that multiple length direction along described shell is intervally installed in described first bending plate; Also the second turbulent sheet that multiple length direction along described shell is intervally installed is provided with in described second bending plate; In same heat medium flow channel, described first turbulent sheet and described second turbulent sheet interval alternating with each other on the length direction of described shell is arranged.

3. steam generator according to claim 1 and 2, described first bending plate comprises first main part with multiple spaced first grooves, and is connected to the first junction surface of described first main part both sides; Described second bending plate comprises second main part with multiple spaced second grooves, and is connected to the second junction surface of described second main part both sides;

Described first groove and described second groove are aimed to form described heat medium flow channel, and described first junction surface is fixedly connected with described second junction surface.

4. steam generator according to claim 3, is characterized in that, is connected to each other between adjacent two described first grooves by the first connecting portion, and is connected to each other by the second connecting portion between adjacent two described second grooves; At described first groove and corresponding described second groove on time, described first connecting portion and corresponding described second connecting portion are welded to one another.

5. steam generator according to claim 4, is characterized in that, the cross sectional shape of described first groove and described second groove is triangle, rectangle or trapezoidal, and to make, the cross sectional shape of described heat medium flow channel is rhombus, rectangle or square.

6. steam generator according to claim 5, is characterized in that, when the cross sectional shape of described first groove and described second groove is triangle, adjacent two described first grooves intersect at the first intersection point; Adjacent two described second grooves intersect at the second intersection point; Described first intersection point and described second intersection point are welded to one another.

7. steam generator according to claim 1, is characterized in that, described first turbulent sheet comprises the first installation portion and the first rake; Described first rake is fitted on the sidewall of described first bending plate, and relatively described first installation portion of described first rake tilts to extend in the middle part of corresponding heat medium flow channel with predetermined angle.

8. steam generator according to claim 1, is characterized in that, described shell comprise hollow pedestal, be fixed on described pedestal and be around in the shell wall around multiple described bending plate group, and lid is located at the end cap on described bending plate group top; Multiple described bending plate group is fixed on described pedestal, and the described heat medium flow channel surrounded by multiple described bending plate group and described pedestal communicate with each other; Described shell wall also offers water inlet, and described shell wall also offers steam (vapor) outlet.

9. steam generator according to claim 1, is characterized in that, described thermal medium is conduction oil or flue gas; Described thermal source is burner, high-temperature gas or liquid.

10. a gas combustion steaming cabinet, is characterized in that, comprises the steam generator according to any one of claim 1-9.