CN105674337A

CN105674337A - Heating stove for indoor building

Info

Publication number: CN105674337A
Application number: CN201610101685.8A
Authority: CN
Inventors: 张日龙
Original assignee: Individual
Current assignee: Jinhua City Straw And Environmental Protection Technology Consulting Co Ltd
Priority date: 2016-02-24
Filing date: 2016-02-24
Publication date: 2016-06-15
Anticipated expiration: 2036-02-24
Also published as: CN107289463A; CN107246631A; CN107327875A; CN107339714A; CN105674337B

Abstract

The invention discloses a heating stove for an indoor building. The heating stove for the indoor building comprises a stove wall, wherein a flue is formed in the side wall at the top part of the stove wall; a combustion chamber, a water jacket and a light blocking layer are arranged in the stove wall; the combustion chamber is arranged in a frustum shape and communicated with the flue; the water jacket wraps the combustion chamber and the flue; the light blocking layer wraps the water jacket; a water inlet and a water outlet are connected in the water jacket; a heating tube which extends to the middle part of the combustion chamber is arranged on the water jacket; thermal insulating layers are arranged on the stove wall and the outer surface of the flue respectively; a stove hole which is communicated with the combustion chamber is formed in the top part of the stove wall; an ash storage chamber is formed in the bottom of the stove wall; an interlayer is arranged between the ash storage chamber and the combustion chamber; more than one through holes are formed in the interlayer; and more than one baffles are arranged on the inner wall of the flue. The heating stove for the indoor building is simple in design and high in heat energy utilization ratio and working efficiency.

Description

A kind of interior architecture heating stove

Technical field

The present invention relates to a kind of interior architecture heating stove.

Background technology

Heating stove is China's common apparatus for indoor heating among the people. General heating stove is all with coal as fuel, arranges one section of water pipe in body of heater, the external radiator of this water pipe. During use, water filling in first water service pipe, then lights a fire in stove, by the water in flame heating furnace body inner conduit, then by hot water at the internal recycle of pipeline and radiator, reaches the object in indoor heating.

Coal heating stove economy is economical again, is widely used in not having the rurbania of central heating condition and vast Rural areas. Current heating stove comprises furnace shell, is provided with burner hearth in furnace shell, is provided with water jacket between furnace shell and burner hearth, inferior footpath on burner hearth, and water jacket is also the cylindrical water jacket in upper inferior footpath, and it is slow that the water heat exchange efficiency in this kind of structure water jacket is not high, water heats up, and heating cost is higher.

At present, domestic heating stove is taking coal, bavin etc. as fuel mostly, and the body of heater of major part heating stove is that metal is made, and owing to the temperature in body of heater is higher, the temperature at heat trnasfer rear furnace body outer wall also can be very high, therefore is easy to occur situation about being burned because of carelessness.

Summary of the invention

The technical problem to be solved in the present invention is to provide the high interior architecture heating stove of a kind of simplicity of design, heat utilization rate height and working efficiency.

For solving the problems of the technologies described above, the present invention adopts following technical scheme:

A kind of interior architecture heating stove, includes furnace wall, top, described furnace wall sidewall is provided with flue, and inside, described furnace wall is provided with combustion chamber, water jacket and light barrier layer, described combustion chamber is that frustum is arranged, described combustion chamber is connected with flue, described water jacket wraps up combustion chamber and flue, described light barrier layer wraps up water jacket, described water jacket is connected with water-in and water outlet, described water jacket is provided with the heating tube extended in the middle part of combustion chamber, described furnace wall and flue outside surface are provided with thermofin, top, described furnace wall is provided with the fire door with combustion chamber, it is provided with ash storage room bottom described furnace wall, it is provided with interlayer between described ash storage room and combustion chamber, being provided with more than one through hole on described interlayer, described flue inner wall is provided with the traverse baffle of more than a piece, described thermofin is by 30 40 parts, the diatomite of proportioning by weight, urea-formaldehyde resin 20 28 parts, cement 22 24 parts, fluorine protein 12 18 parts, Betulinic acid 16 18 parts, silicon-dioxide 20 22 parts, zirconium dioxide 16 18 parts, water glass 12 14 parts, Sodium Silicofluoride 10 12 parts, third polyene 16 20 parts, titanium dioxide 24 26 parts, SODIUMNITRATE 16 18 parts, 10 16 parts, phosphoric acid hydrogen two aluminium, polystyrene 16 18 parts and 20 30 parts, water are made.

Further, described water jacket is provided with temperature sensor, it is possible to understand the temperature of water in water jacket, be beneficial to control.

Further, described water-in is provided with variable valve, is beneficial to adjustment water intake velocity.

Further, described ash storage room is that drawer type is arranged, easy cleaning ash storage room.

Further, described water-in and water outlet are provided with more than one, it is to increase working efficiency.

The manufacture method of thermofin, includes following step:

1) get 30 40 parts, diatomite to send in pulverizing tank, adopt the method for physics, lead to into high pressure gas, by the effect of air-flow, diatomite clashes in pulverizing is filled with, and pulverizes, makes powder, for subsequent use;

2) by step 1) in diatomite powder send in negative ion agitator, negative ion agitator discharges positive ion, diatomite anion releasing, by the adsorption between negative ions, forms diatom ooze, for subsequent use;

3) get urea-formaldehyde resin 20 28 parts, cement 22 24 parts and fluorine protein 12 18 parts feeding stirring high speed and stir 20 30min, send in well heater and be heated to 80 90 DEG C, continue 12 hours, for subsequent use;

4) Betulinic acid 16 18 parts, silicon-dioxide 20 22 parts and zirconium dioxide 16 18 parts are put into stirrer and carry out strong stirring, stir evenly, then send in the dry kiln of 200 300 DEG C dry, continue 20 30min, for subsequent use;

5) get water glass 12 14 parts, Sodium Silicofluoride 10 12 parts, the third polyene 16 20 parts, titanium dioxide 24 26 parts and 20 30 parts, water, send in stirrer and stir evenly, be made into the raw material ball that radius is 5 8mm, for subsequent use;

6) get SODIUMNITRATE 16 18 parts, 10 16 parts, phosphoric acid hydrogen two aluminium and polystyrene 16 18 parts, send into and stirrer stirs evenly, for subsequent use;

7) by step 2), step 3), step 4), step 5) and step 6) in obtained raw material send into and stirrer stir evenly, send in well heater, temperature rises to 60 80 DEG C, continue 20 30min, it is cooled to room temperature again, the thermofin of interior architecture heating stove can be obtained.

The useful effect of the present invention is: this interior architecture heating stove simplicity of design, and combustion chamber is that frustum is arranged, and the water of water jacket internal upper part can fully be heated by flame envelope, and water heat-up rate is fast, it is to increase working efficiency and heat utilization rate; The temperature that thermofin can effectively control furnace body outer wall is set in body of heater, prevents the accident scalded by furnace body outer wall, it is to increase security; Water jacket is provided with the heating tube risen in the middle part of combustion chamber, it is possible to improve utilization efficiency of heat energy and working efficiency further.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of interior architecture heating stove of the present invention.

Embodiment

Embodiment one

With reference to shown in Fig. 1, a kind of interior architecture heating stove, include furnace wall 1, top, described furnace wall 1 sidewall is provided with flue 2, inside, described furnace wall 1 is provided with combustion chamber 3, water jacket 4 and light barrier layer 11, described combustion chamber 3 is arranged in frustum, described combustion chamber 3 is connected with flue 2, described water jacket 4 wraps up combustion chamber 3 and flue 2, described light barrier layer 11 wraps up water jacket 4, described water jacket 4 is connected with water-in 5 and water outlet 6, described water jacket 4 is provided with the heating tube 7 extended in the middle part of combustion chamber 3, described furnace wall 1 and flue 2 outside surface are provided with thermofin 14, top, described furnace wall 1 is provided with the fire door 13 being connected with combustion chamber 3, it is provided with ash storage room 8 bottom described furnace wall 1, it is provided with interlayer 9 between described ash storage room 8 and combustion chamber 3, described interlayer 9 is provided with more than one through hole 10, described flue 2 inwall is provided with the traverse baffle 12 of more than a piece.

Described water jacket 4 is provided with temperature sensor (not shown), it is possible to understand the temperature of water in water jacket 4, be beneficial to control.

Described water-in 5 is provided with variable valve (not shown), is beneficial to adjustment water intake velocity.

Described ash storage room 8 is drawer type setting, easy cleaning ash storage room 8.

Described water-in 5 and water outlet 6 be provided with more than one, it is to increase working efficiency.

The manufacture method of thermofin 14:

1) get 30 parts, diatomite to send in pulverizing tank, adopt the method for physics, lead to into high pressure gas, by the effect of air-flow, diatomite clashes in pulverizing is filled with, and pulverizes, makes powder, for subsequent use;

3) get urea-formaldehyde resin 20 parts, cement 22 parts and fluorine protein 12 part and send into stirring high speed stirring 20min, send in well heater and be heated to 80 DEG C, continue 1 hour, for subsequent use;

4) Betulinic acid 16 parts, silicon-dioxide 20 parts and zirconium dioxide 16 parts are put into stirrer and carry out strong stirring, stir evenly, then send in the dry kiln of 200 DEG C dry, continue 20min, for subsequent use;

5) get water glass 12 parts, Sodium Silicofluoride 10 parts, the third polyene 16 parts, titanium dioxide 24 parts and 20 parts, water, send in stirrer and stir evenly, be made into the raw material ball that radius is 5mm, for subsequent use;

6) get SODIUMNITRATE 16 parts, 10 parts, phosphoric acid hydrogen two aluminium and polystyrene 16 parts, send into and stirrer stirs evenly, for subsequent use;

7) by step 2), step 3), step 4), step 5) and step 6) in obtained raw material send into and stirrer stir evenly, send in well heater, temperature rises to 60 DEG C, continue 20min, it is cooled to room temperature again, the thermofin 14 of interior architecture heating stove can be obtained.

Embodiment two

The manufacture method of thermofin 14:

1) get 35 parts, diatomite to send in pulverizing tank, adopt the method for physics, lead to into high pressure gas, by the effect of air-flow, diatomite clashes in pulverizing is filled with, and pulverizes, makes powder, for subsequent use;

3) get urea-formaldehyde resin 24 parts, cement 23 parts and fluorine protein 15 part and send into stirring high speed stirring 25min, send in well heater and be heated to 85 DEG C, continue 1.5 hours, for subsequent use;

4) Betulinic acid 17 parts, silicon-dioxide 21 parts and zirconium dioxide 17 parts are put into stirrer and carry out strong stirring, stir evenly, then send in the dry kiln of 250 DEG C dry, continue 25min, for subsequent use;

5) get water glass 13 parts, Sodium Silicofluoride 11 parts, the third polyene 18 parts, titanium dioxide 25 parts and 25 parts, water, send in stirrer and stir evenly, be made into the raw material ball that radius is 6.5mm, for subsequent use;

6) get SODIUMNITRATE 17 parts, 13 parts, phosphoric acid hydrogen two aluminium and polystyrene 17 parts, send into and stirrer stirs evenly, for subsequent use;

7) by step 2), step 3), step 4), step 5) and step 6) in obtained raw material send into and stirrer stir evenly, send in well heater, temperature rises to 70 DEG C, continue 25min, it is cooled to room temperature again, the thermofin 14 of interior architecture heating stove can be obtained.

Embodiment three

The manufacture method of thermofin 14:

1) get 40 parts, diatomite to send in pulverizing tank, adopt the method for physics, lead to into high pressure gas, by the effect of air-flow, diatomite clashes in pulverizing is filled with, and pulverizes, makes powder, for subsequent use;

3) get urea-formaldehyde resin 28 parts, cement 24 parts and fluorine protein 18 part and send into stirring high speed stirring 30min, send in well heater and be heated to 90 DEG C, continue 2 hours, for subsequent use;

4) Betulinic acid 18 parts, silicon-dioxide 22 parts and zirconium dioxide 18 parts are put into stirrer and carry out strong stirring, stir evenly, then send in the dry kiln of 300 DEG C dry, continue 30min, for subsequent use;

5) get water glass 14 parts, Sodium Silicofluoride 12 parts, the third polyene 20 parts, titanium dioxide 26 parts and 30 parts, water, send in stirrer and stir evenly, be made into the raw material ball that radius is 8mm, for subsequent use;

6) get SODIUMNITRATE 18 parts, 16 parts, phosphoric acid hydrogen two aluminium and polystyrene 18 parts, send into and stirrer stirs evenly, for subsequent use;

7) by step 2), step 3), step 4), step 5) and step 6) in obtained raw material send into and stirrer stir evenly, send in well heater, temperature rises to 80 DEG C, continue 30min, it is cooled to room temperature again, the thermofin 14 of interior architecture heating stove can be obtained.

Experimental example

Select embodiment one, embodiment two, implement sample and the common building heating stove of three, be divided into 4 groups, test the behaviour in service of each group of heating stove.

Comparing result sees the following form:

It thus is seen that the interior architecture heating stove in the present invention's three experimental examples is compared with common building heating stove, all there is remarkable lifting at water jacket heat-up rate and heat utilization rate, and heating stove surface temperature is lower.

The above, be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, and any change of expecting without creative work or replacement, all should be encompassed in protection scope of the present invention.

Claims

1. an interior architecture heating stove, it is characterised in that: including furnace wall, top, described furnace wall sidewall is provided with flue, inside, described furnace wall is provided with combustion chamber, water jacket and light barrier layer, described combustion chamber is that frustum is arranged, described combustion chamber is connected with flue, described water jacket wraps up combustion chamber and flue, described light barrier layer wraps up water jacket, described water jacket is connected with water-in and water outlet, described water jacket is provided with the heating tube extended in the middle part of combustion chamber, described furnace wall and flue outside surface are provided with thermofin, top, described furnace wall is provided with the fire door with combustion chamber, it is provided with ash storage room bottom described furnace wall, it is provided with interlayer between described ash storage room and combustion chamber, being provided with more than one through hole on described interlayer, described flue inner wall is provided with the traverse baffle of more than a piece, described thermofin is by 30 40 parts, the diatomite of proportioning by weight, urea-formaldehyde resin 20 28 parts, cement 22 24 parts, fluorine protein 12 18 parts, Betulinic acid 16 18 parts, silicon-dioxide 20 22 parts, zirconium dioxide 16 18 parts, water glass 12 14 parts, Sodium Silicofluoride 10 12 parts, third polyene 16 20 parts, titanium dioxide 24 26 parts, SODIUMNITRATE 16 18 parts, 10 16 parts, phosphoric acid hydrogen two aluminium, polystyrene 16 18 parts and 20 30 parts, water are made.

2. interior architecture heating stove according to claim 2, it is characterised in that: described water jacket is provided with temperature sensor.

3. interior architecture heating stove according to claim 3, it is characterised in that: described water-in is provided with variable valve.

4. interior architecture heating stove according to claim 4, it is characterised in that: described ash storage room is that drawer type is arranged.

5. interior architecture heating stove according to claim 5, it is characterised in that: described water-in and water outlet are provided with more than one.