CN207162504U - High efficiency energy-saving steam boiler stove - Google Patents

Abstract

The utility model discloses a kind of high efficiency energy-saving steam boiler stove, including pot；Pot is sticked to form by shell, heat-insulation layer and inner casing, and inner casing bottom is combustion chamber, and top is vaporium, and heat conduction baffle is provided between combustion chamber and vaporium, and heat conduction baffle is step type；Water-supply-pipe is provided with vaporium, water-supply-pipe is above heat conduction baffle, and water-supply-pipe is provided with multiple atomizers；Vaporium side wall is provided with return pipe, and return pipe is provided with water pump and the first magnetic valve；The first level sensor and the second level sensor are provided with vaporium side wall；First level sensor, the second level sensor, water pump and the first magnetic valve are electrically connected with the controller；Also include waste hot gas temporary storage cavity, waste hot gas temporary storage cavity passes through the first airway tube and combustion chamber.Water can be rapidly converted into steam by the high efficiency energy-saving steam boiler stove, improve operating efficiency, reduce energy resource consumption；Utilization is collected to waste hot gas, is reduced and is wasted, reduces cost.

Description

High efficiency energy-saving steam boiler stove

Technical field

Steam boiler field is the utility model is related to, more particularly to a kind of high efficiency energy-saving steam boiler stove.

Background technology

Boiler is a kind of energy conversion, and the energy inputted to boiler has chemical energy, electric energy, high-temperature flue gas in fuel The form such as heat energy, and pass through boiler and change, outwards steam, high-temperature water or organic heat carrier of the output with certain heat energy, production The boiler of raw steam is referred to as steam boiler；Existing steam boiler enters to the water being largely stored in advance in stove in the course of the work Row is prolonged to be heated to promote the generation of steam, and has the preheating of one section of long period before boiling water changes into steam Process, increase consumption；This kind of steam boiler transformation efficiency is low, and energy resource consumption is big, and producing a large amount of used heat when also burning does not utilize, Cause to waste, improve production cost.

Utility model content

The defects of in order to overcome prior art, technical problem to be solved in the utility model are to propose a kind of efficiently section Energy steam boiler, it uses atomization type to supply water, and can quickly convert water to steam, improves operating efficiency；And it is provided with used heat Gas reuse means, the energy is saved, reduces cost.

To use following technical scheme up to this purpose, the utility model：

The utility model provide a kind of high efficiency energy-saving steam boiler stove, the heat-insulation layer and the shell from inside to outside according to It is secondary to be close to set；The inner casing bottom is combustion chamber, and top is vaporium, is provided with and inclines between the combustion chamber and the vaporium The heat conduction baffle tiltedly placed, the heat conduction baffle are step type；Led with the waste hot gas temporary storage cavity by first the combustion chamber Tracheae connects；Water-supply-pipe is provided with the vaporium, the water-supply-pipe is located above the heat conduction baffle, and on the water-supply-pipe Provided with multiple atomizers；The vaporium side wall is provided with return pipe, one end of the return pipe and the steam chambers, And link position, at the heat conduction baffle lower end, the other end of the return pipe connects with one end of the water-supply-pipe, The return pipe is provided with water pump and the first magnetic valve；The vaporium madial wall is provided with the first level sensor and the second water Level sensor, first level sensor and second level sensor are respectively positioned on above the delivery port of the return pipe, And second level sensor is higher than first level sensor；First level sensor, second water level pass Sensor, the water pump and first magnetic valve are electrically connected with the controller；

In the utility model preferably technical scheme, the waste hot gas temporary storage cavity side wall is provided with the second airway tube, institute State the second airway tube and be provided with gas purifier, the gas purifier electrically connects with the controller.

In the utility model preferably technical scheme, between the gas purifier and the waste hot gas temporary storage cavity Second airway tube is provided with the 3rd magnetic valve, and the 3rd magnetic valve electrically connects with the controller.

In the utility model preferably technical scheme, isocon, the isocon are provided with the waste hot gas temporary storage cavity Second solenoid valve, the second solenoid valve and institute are provided with by the first pipeline communication, first pipeline with the water-supply-pipe State controller electrical connection.

In the utility model preferably technical scheme, in addition to water supply installation, the water supply installation pass through second pipe Connected with the isocon.

In the utility model preferably technical scheme, baroceptor, the gas are provided with the waste hot gas temporary storage cavity Pressure sensor electrically connects with the controller.

In the utility model preferably technical scheme, institute's steam chamber upper wall is provided with vapour-discharge tube, in the steaming Vapour discharge pipe is provided with steam-water separator with the steam chamber upper wall connectivity part.

In the utility model preferably technical scheme, burner, and the combustion are installed in the side wall of the combustion chamber The port of burner is in the combustion chamber.

In the utility model preferably technical scheme, the bottom of pot body is provided with multiple support feets.

The beneficial effects of the utility model are：

High efficiency energy-saving steam boiler stove provided by the utility model, burner operation, combustion chamber are in heat under the condition of high temperature Amount reaches heat conduction baffle, at the same water supply installation by water along pipeline, sprayed through atomizer, water is high by the heat conduction baffle Steam is rapidly converted under temperature effect；Operating efficiency is substantially increased, reduces energy resource consumption；It can be received in waste hot gas temporary storage cavity simultaneously Collect the waste heat gas of the inside and outside row in combustion chamber, and be used, reduce and waste, reduce cost.

Brief description of the drawings

Fig. 1 is the structural representation for the high efficiency energy-saving steam boiler stove that the utility model embodiment provides.

In figure：

1st, pot；2nd, shell；3rd, heat-insulation layer；4th, inner casing；5th, heat conduction baffle；6th, the first level sensor；7th, backwater；8th, water Pump；9th, the second level sensor；10th, the first magnetic valve；11st, atomizer；12nd, water-supply-pipe；13rd, vaporium；14th, steam is discharged Pipe；15th, steam-water separator；16th, second solenoid valve；17th, the first pipeline；18th, waste hot gas temporary storage cavity；19th, baroceptor；20、 First airway tube；21st, isocon；22nd, the 3rd magnetic valve；23rd, the second airway tube；24th, gas purifier；25th, second pipe； 26th, water supply installation；27th, burner；28th, support feet；29th, combustion chamber；30th, controller.

Embodiment

Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by embodiment.

As shown in figure 1, a kind of acid condensate recovery device is provided in embodiment, including pot 1 and waste hot gas are kept in Chamber 18；The pot 1 includes shell 2, heat-insulation layer 3 and inner casing 4, the inner casing 4, the heat-insulation layer 3 and the shell 2 by It is close to set successively from inside to outside；The bottom of inner casing 4 is combustion chamber 29, and top is vaporium 13, the combustion chamber 29 with it is described Tilted-putted heat conduction baffle 5 is provided between vaporium 13, the heat conduction baffle 5 is step type；The combustion chamber 29 with it is described Waste hot gas temporary storage cavity 18 is connected by the first airway tube 20；Water-supply-pipe 12, the water-supply-pipe 12 are provided with the vaporium 13 Above the heat conduction baffle 5, and the water-supply-pipe 12 is provided with multiple atomizers 11；The side wall of vaporium 13 is provided with Return pipe 7, one end of the return pipe 7 connects with the vaporium 13 and link position is close to the lower end of heat conduction baffle 5 Place, the other end of the return pipe 7 connect with one end of the water-supply-pipe 12, and the return pipe 7 is provided with the electricity of water pump 8 and first Magnet valve 10；The madial wall of vaporium 13 is provided with the first level sensor 6 and the second level sensor 9, first water level Sensor 6 and second level sensor 9 are respectively positioned on above the delivery port of the return pipe 7, and second level sensor Device 9 is higher than first level sensor 6；First level sensor 6, second level sensor 9, the water pump 8 And first magnetic valve 10 electrically connects with controller 30；

Above-mentioned high efficiency energy-saving steam boiler stove, equipment start, and burner 27 is under the control of the controller 30 in combustion chamber 29 Burning work is carried out, heat energy reaches vaporium 13 by heat conduction baffle 5；Water enters under the effect of water supply installation 26 along pipeline simultaneously Enter in water-supply-pipe 12, sprayed by the atomizer 11 on the water-supply-pipe 12, by rapid steaming when water contacts the heat conduction baffle 5 Hair forms steam；When the conversion rate of heat conduction baffle 2 is slower than spray rate, part water is evaporated, and part water is along described The ladder of heat conduction baffle 5 is slowly accumulated downstream to the junction of the heat conduction baffle 5 and inner casing 4, water, and being arrived when water accumulation can When being detected by the second level sensor 9, the controller 30 controls the water supply installation 26 to stop supplying water, and controls backwater Water pump 8 on pipe 7 starts to be opened with the first magnetic valve 10, and the water of accumulation is in the case where the water pump 8 acts on along the return pipe 7 Into the water-supply-pipe 12, circulation sprinkling is carried out, until water accumulating volume is less than the first level sensor 6, the controller 30 controls Stop the water pump 8 with closing first magnetic valve 10, and control the water supply installation 26 to run again；It is meanwhile described Burning produces waste hot gas along the first airway tube 20 into waste hot gas temporary storage cavity 18 in combustion chamber 29, and the waste hot gas is kept in With recycling.

Optionally, can be adjusted correspondingly on the water-supply-pipe 12 according to the size or shape of the combustion chamber 29, And the number of the atomizer 11 on the water-supply-pipe 12 can be depending on the heat supply situation of Actual combustion room 29.

Further, the side wall of waste hot gas temporary storage cavity 18 is provided with the second airway tube 23, on second airway tube 23 Provided with gas purifier 24, the gas purifier 24 electrically connects with the controller 30；Described in waste hot gas passes through before arranging outside Gas purifier 24, ensure to be free of dusty gas, environmental protection in efflux gas.

Further, second airway tube 23 between the gas purifier 24 and the waste hot gas temporary storage cavity 18 The 3rd magnetic valve 22 is provided with, the 3rd magnetic valve 22 electrically connects with the controller 30；The normality of 3rd magnetic valve 22 It is to be in closure state, the waste hot gas by discharge in the combustion chamber 29 is controlled in the waste hot gas temporary storage cavity 18, reduced Heat losses.

Further, isocon 21, the isocon 21 and the water-supply-pipe 12 are provided with the waste hot gas temporary storage cavity 18 Connected by the first pipeline 17, first pipeline 17 is provided with second solenoid valve 16, the second solenoid valve 16 and the control Device 30 processed electrically connects；When water flows through the isocon 21, the waste hot gas heat in the waste hot gas temporary storage cavity 18 can be effectively absorbed Become warm water, it is easier to evaporated.

Further, in addition to water supply installation 26, the water supply installation 26 pass through second pipe 25 and the isocon 21 Connection；The water supply installation supplies water enters the isocon along the second pipe 25, quick during isocon described in water approach Heat absorption, improve waste heat utilization.

Further, be provided with baroceptor 19 in the waste hot gas temporary storage cavity 18, the baroceptor 19 with it is described Controller 30 electrically connects；In order to prevent the air pressure of waste hot gas temporary storage cavity 18 too high, when intracavitary air pressure reaches the air pressure sensing During 19 arranges value of device, the controller 30 controls the 3rd magnetic valve 22 to open, and is depressurized.

Further, the upper wall of vaporium 13 is provided with vapour-discharge tube 14, in the vapour-discharge tube 14 and the steaming The upper wall connectivity part of steam chest 13 is provided with steam-water separator 15；Steam caused by the vaporium 13 is discharged by vapour-discharge tube 14, and And under the centrifugation of the steam-water separator 15, ensure that the steam of outer row meets production requirement.

Further, burner 27 is installed, and the port of the burner 27 exists in the side wall of the combustion chamber 29 In the combustion chamber 29；The burner 27 burns, and providing energy for boiler converts water to steam.

The utility model is described with reference to the preferred embodiments, and those skilled in the art know, is not departing from this reality In the case of with new spirit and scope, various changes or equivalence replacement can be carried out to these features and embodiment.This reality It is not limited to the particular embodiment disclosed with new, other embodiments fallen into claims hereof all belong to In the scope of the utility model protection.

Claims (9)

1. A kind of 1. high efficiency energy-saving steam boiler stove, it is characterised in that：Including pot (1) and waste hot gas temporary storage cavity (18)；

   The pot (1) includes shell (2), heat-insulation layer (3) and inner casing (4), the inner casing (4), the heat-insulation layer (3) and The shell (2) is close to set from inside to outside successively；

   Inner casing (4) bottom is combustion chamber (29), and top is vaporium (13), the combustion chamber (29) and the vaporium (13) tilted-putted heat conduction baffle (5) is provided between, the heat conduction baffle (5) is step type；

   The combustion chamber (29) is connected with the waste hot gas temporary storage cavity (18) by the first airway tube (20)；

   Water-supply-pipe (12) is provided with the vaporium (13), the water-supply-pipe (12) is located above the heat conduction baffle (5), and institute State water-supply-pipe (12) and be provided with multiple atomizers (11)；

   Vaporium (13) side wall is provided with return pipe (7), and one end and the vaporium (13) of the return pipe (7) connect Logical and link position is at the heat conduction baffle (5) lower end, the other end and the water-supply-pipe of the return pipe (7) (12) one end connection, the return pipe (7) are provided with water pump (8) and the first magnetic valve (10)；

   Vaporium (13) madial wall is provided with the first level sensor (6) and the second level sensor (9), first water Level sensor (6) and second level sensor (9) are respectively positioned on above the delivery port of the return pipe (7), and described second Level sensor (9) is higher than first level sensor (6)；

   First level sensor (6), second level sensor (9), the water pump (8) and first magnetic valve (10) electrically connected with controller (30).
2. 2. high efficiency energy-saving steam boiler stove according to claim 1, it is characterised in that：

   Waste hot gas temporary storage cavity (18) side wall is provided with the second airway tube (23), and second airway tube (23) is provided with gas Clarifier (24), the gas purifier (24) electrically connect with the controller (30).
3. 3. high efficiency energy-saving steam boiler stove according to claim 2, it is characterised in that：

   It is provided with second airway tube (23) between the gas purifier (24) and the waste hot gas temporary storage cavity (18) 3rd magnetic valve (22), the 3rd magnetic valve (22) electrically connect with the controller (30).
4. 4. high efficiency energy-saving steam boiler stove according to claim 1, it is characterised in that：

   Isocon (21), the isocon (21) and the water-supply-pipe (12) are provided with the waste hot gas temporary storage cavity (18) by the One pipeline (17) connects, and first pipeline (17) is provided with second solenoid valve (16), the second solenoid valve (16) with it is described Controller (30) electrically connects.
5. 5. high efficiency energy-saving steam boiler stove according to claim 4, it is characterised in that：

   Also include water supply installation (26), the water supply installation (26) is connected by second pipe (25) with the isocon (21).
6. 6. high efficiency energy-saving steam boiler stove according to claim 1, it is characterised in that：

   Baroceptor (19), the baroceptor (19) and the controller are provided with the waste hot gas temporary storage cavity (18) (30) electrically connect.
7. 7. high efficiency energy-saving steam boiler stove according to claim 1, it is characterised in that：

   Vaporium (13) upper wall is provided with vapour-discharge tube (14), in the vapour-discharge tube (14) and the vaporium (13) Upper wall connectivity part is provided with steam-water separator (15).
8. 8. high efficiency energy-saving steam boiler stove according to claim 1, it is characterised in that：

   Burner (27) is installed, and the port of the burner (27) is in the burning in the side wall of the combustion chamber (29) In room (29).
9. 9. high efficiency energy-saving steam boiler stove according to claim 1, it is characterised in that：

   Pot (1) bottom is provided with multiple support feets (28).