CN105674337B

CN105674337B - A kind of interior architecture heating stove

Info

Publication number: CN105674337B
Application number: CN201610101685.8A
Authority: CN
Inventors: 罗志诚
Original assignee: Jinhua City Straw And Environmental Protection Technology Consulting Co Ltd
Current assignee: Jinhua City, straw and Environmental Protection Technology Consulting Co. Ltd.
Priority date: 2016-02-24
Filing date: 2016-02-24
Publication date: 2017-10-20
Anticipated expiration: 2036-02-24
Also published as: CN107289463A; CN107339714A; CN107246631A; CN105674337A; CN107327875A

Abstract

The present invention discloses a kind of interior architecture heating stove, include furnace wall, flue is provided with the furnace wall top sidewall, the furnace wall is internally provided with combustion chamber, water jacket and light barrier layer, the combustion chamber is set in frustum, the combustion chamber is connected with flue, the water jacket is wrapped in combustion chamber and flue, the light barrier layer is wrapped in water jacket, water inlet and delivery port are connected with the water jacket, the heating tube extended in the middle part of combustion chamber is provided with the water jacket, the furnace wall and flue outer surface are provided with thermal insulation layer, the fire door with combustion chamber is provided with the top of the furnace wall, the furnace wall bottom is provided with Dust Storage Room, interlayer is provided between the Dust Storage Room and combustion chamber, more than one through hole is provided with the interlayer, more than one piece of deflection plate is provided with the flue inner wall；Interior architecture heating stove design is simple, heat utilization rate is high and operating efficiency is high.

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 among the people for heating of house.General heating stove be all with coal as fuel, One section of water pipe, the external radiator of the water pipe are set in body of heater.In use, water filling in first feed pipe, then lights a fire in stove, By the water in water pipe in flame heating furnace body, then reach and take indoors in the interior circulation of pipeline and radiator by hot water Warm purpose.

The material benefit again of coal heating stove economy, is widely used in the rurbania without central heating condition and vast agriculture Village area.Current heating stove includes being provided with burner hearth in furnace shell, furnace shell, is provided with inferior on water jacket, burner hearth between furnace shell and burner hearth Footpath, water jacket is also cylindrical water jacket isometrical up and down, and the water heat exchange efficiency in such a structure water jacket is not high, water heating is slow, heating Cost is higher.

At present, Domestic heating stove is that, for fuel, and the body of heater of most of heating stove is made up of metal mostly with coal, bavin etc., , also can be very high in the temperature of heat transfer rear furnace body outer wall because the temperature in body of heater is higher, therefore it is easy to imprudence quilt occur The situation of scald.

The content of the invention

Simple, heat utilization rate height and the high room of operating efficiency are designed the technical problem to be solved in the present invention is to provide a kind of Interior building heating stove.

In order to solve the above technical problems, the present invention is adopted the following technical scheme that：

A kind of interior architecture heating stove, includes and is provided with furnace wall, the furnace wall top sidewall in flue, the furnace wall Portion sets combuster, water jacket and light barrier layer, and the combustion chamber is set in frustum, and the combustion chamber is connected with flue, The water jacket is wrapped in combustion chamber and flue, and the light barrier layer, which is wrapped on water jacket, the water jacket, to be connected with water inlet and go out The heating tube extended in the middle part of combustion chamber is provided with the mouth of a river, the water jacket, the furnace wall and flue outer surface are provided with heat-insulated Be provided with the fire door with combustion chamber at the top of layer, the furnace wall, the furnace wall bottom is provided with Dust Storage Room, the Dust Storage Room with It is provided between combustion chamber on interlayer, the interlayer and is provided with more than one through hole, one piece is provided with the flue inner wall More than deflection plate, the thermal insulation layer is by 20-28 parts of 30-40 parts of diatomite, the Lauxite, the cement that match by weight 22-24 parts, -18 parts of fluorine protein 12,16-18 parts of betulic acid, 20-22 parts of silica, 16-18 parts of zirconium dioxide, sodium metasilicate 12-14 parts, 10-12 parts of prodan, 16-20 parts of the third polyene, 24-26 parts of titanium dioxide, 16-18 parts of sodium nitrate, phosphoric acid hydrogen two aluminium 20-30 parts of 10-16 parts, 16-18 parts of polystyrene and water are made.

Further, temperature sensor is provided with the water jacket, it will be appreciated that the temperature of water jacket reclaimed water, beneficial to control.

Further, regulating valve is provided with the water inlet, beneficial to regulation water intake velocity.

Further, the Dust Storage Room is set for drawer type, easy cleaning Dust Storage Room.

Further, the water inlet and delivery port are provided with more than one, improve operating efficiency.

The manufacture method of thermal insulation layer, includes following steps：

1) take 30-40 parts of feedings of diatomite to crush in tank, using the method for physics, be passed through gases at high pressure, by air-flow Effect, diatomite is hit in filling is crushed, and is crushed, powder is made, standby；

2) by step 1) in diatomite powder feeding anion agitator in, cation, silicon are discharged in anion agitator Diatomaceous earth discharges anion, by the suction-operated between negative ions, forms diatom ooze, standby；

3) 20-28 parts of Lauxite, -18 parts of feeding stirring high speed stirring 20- of 22-24 parts of cement and fluorine protein 12 are taken 80-90 DEG C is heated in 30min, feeding heater, continues 1-2 hours, it is standby；

4) 16-18 parts of 16-18 parts of betulic acid, 20-22 parts of silica and zirconium dioxide are put into mixer and carried out Strong stirring, stirs, and is re-fed into 200-300 DEG C of dry kiln and dries, and continues 20-30min, standby；

5) 12-14 parts of sodium metasilicate, 10-12 parts of prodan, 16-20 parts of the third polyene, 24-26 parts of titanium dioxide and water 20- are taken 30 parts, send into mixer and stir, be fabricated to the raw material ball that radius is 5-8mm, it is standby；

6) take in 16-18 parts of 16-18 parts of sodium nitrate, 10-16 parts of phosphoric acid hydrogen two aluminium and polystyrene, feeding mixer and stir Uniformly, it is standby；

7) by step 2), step 3), step 4), step 5) and step 6) in stir equal in obtained raw material feeding mixer Even, in feeding heater, temperature rises to 60-80 DEG C, continues 20-30min, is cooled to room temperature, you can obtained interior architecture is adopted The thermal insulation layer of radiator.

Beneficial effects of the present invention are：Interior architecture heating stove design is simple, and combustion chamber is set for frustum, makes water jacket The water of internal upper part can be heated fully by flame envelope, and water programming rate is fast, improves operating efficiency and heat utilization rate；Set in body of heater Thermal insulation layer can effectively control the temperature of furnace body outer wall, prevent the accident scalded by furnace body outer wall, improve security； The heating tube risen in the middle part of combustion chamber is provided with water jacket, utilization efficiency of heat energy and operating efficiency can be further improved.

Brief description of the drawings

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

Embodiment

Embodiment one

Shown in reference picture 1, a kind of interior architecture heating stove includes and is provided with furnace wall 1, the top sidewall of furnace wall 1 Flue 2, the furnace wall 1 is internally provided with combustion chamber 3, water jacket 4 and light barrier layer 11, and the combustion chamber 3 is set in frustum, The combustion chamber 3 is connected with flue 2, and the water jacket 4 is wrapped in combustion chamber 3 and flue 2, and the light barrier layer 11 wraps up dampening The heating for being provided with water inlet 5 and delivery port 6, the water jacket 4 and extending to the middle part of combustion chamber 3 is connected with set 4, the water jacket 4 Pipe 7, the furnace wall 1 and the outer surface of flue 2 are provided with thermal insulation layer 14, and the top of furnace wall 1 is provided with the stove connected with combustion chamber 3 Mouth 13, the bottom of furnace wall 1 is provided with Dust Storage Room 8, and interlayer 9, the interlayer 9 are provided between the Dust Storage Room 8 and combustion chamber 3 On be provided with more than one piece of deflection plate 12 be provided with more than one through hole 10, the inwall of flue 2.

Temperature sensor (not shown) is provided with the water jacket 4, it will be appreciated that the temperature of the reclaimed water of water jacket 4, beneficial to control.

Regulating valve (not shown) is provided with the water inlet 5, beneficial to regulation water intake velocity.

The Dust Storage Room 8 is set for drawer type, easy cleaning Dust Storage Room 8.

The water inlet 5 and delivery port 6 are provided with more than one, improve operating efficiency.

The manufacture method of thermal insulation layer 14：

1) take 30 parts of feedings of diatomite to crush in tank, using the method for physics, be passed through gases at high pressure, the work by air-flow With diatomite is hit in filling is crushed, and is crushed, powder is made, standby；

3) 20 parts of Lauxite, 22 parts of cement and fluorine protein 12 part feeding stirring high speed stirring 20min, feeding heating are taken 80 DEG C are heated in device, continues 1 hour, it is standby；

4) 16 parts of 16 parts of betulic acid, 20 parts of silica and zirconium dioxide are put into mixer and carry out strong stirring, Stir, be re-fed into 200 DEG C of dry kiln and dry, continue 20min, it is standby；

5) 20 parts of 12 parts of sodium metasilicate, 10 parts of prodan, 16 parts of the third polyene, 24 parts of titanium dioxide and water are taken, mixer is sent into In stir, be fabricated to radius be 5mm raw material ball, it is standby；

6) take in 16 parts of 16 parts of sodium nitrate, 10 parts of phosphoric acid hydrogen two aluminium and polystyrene, feeding mixer and stir, it is standby With；

7) by step 2), step 3), step 4), step 5) and step 6) in stir equal in obtained raw material feeding mixer Even, in feeding heater, temperature rises to 60 DEG C, continues 20min, is cooled to room temperature, you can interior architecture heating stove is made Thermal insulation layer 14.

Embodiment two

The manufacture method of thermal insulation layer 14：

1) take 35 parts of feedings of diatomite to crush in tank, using the method for physics, be passed through gases at high pressure, the work by air-flow With diatomite is hit in filling is crushed, and is crushed, powder is made, standby；

3) 24 parts of Lauxite, 23 parts of cement and fluorine protein 15 part feeding stirring high speed stirring 25min, feeding heating are taken 85 DEG C are heated in device, continues 1.5 hours, it is standby；

4) 17 parts of 17 parts of betulic acid, 21 parts of silica and zirconium dioxide are put into mixer and carry out strong stirring, Stir, be re-fed into 250 DEG C of dry kiln and dry, continue 25min, it is standby；

5) 25 parts of 13 parts of sodium metasilicate, 11 parts of prodan, 18 parts of the third polyene, 25 parts of titanium dioxide and water are taken, mixer is sent into In stir, be fabricated to radius be 6.5mm raw material ball, it is standby；

6) take in 17 parts of 17 parts of sodium nitrate, 13 parts of phosphoric acid hydrogen two aluminium and polystyrene, feeding mixer and stir, it is standby With；

7) by step 2), step 3), step 4), step 5) and step 6) in stir equal in obtained raw material feeding mixer Even, in feeding heater, temperature rises to 70 DEG C, continues 25min, is cooled to room temperature, you can interior architecture heating stove is made Thermal insulation layer 14.

Embodiment three

The manufacture method of thermal insulation layer 14：

1) take 40 parts of feedings of diatomite to crush in tank, using the method for physics, be passed through gases at high pressure, the work by air-flow With diatomite is hit in filling is crushed, and is crushed, powder is made, standby；

3) 28 parts of Lauxite, 24 parts of cement and fluorine protein 18 part feeding stirring high speed stirring 30min, feeding heating are taken 90 DEG C are heated in device, continues 2 hours, it is standby；

4) 18 parts of 18 parts of betulic acid, 22 parts of silica and zirconium dioxide are put into mixer and carry out strong stirring, Stir, be re-fed into 300 DEG C of dry kiln and dry, continue 30min, it is standby；

5) 30 parts of 14 parts of sodium metasilicate, 12 parts of prodan, 20 parts of the third polyene, 26 parts of titanium dioxide and water are taken, mixer is sent into In stir, be fabricated to radius be 8mm raw material ball, it is standby；

6) take in 18 parts of 18 parts of sodium nitrate, 16 parts of phosphoric acid hydrogen two aluminium and polystyrene, feeding mixer and stir, it is standby With；

7) by step 2), step 3), step 4), step 5) and step 6) in stir equal in obtained raw material feeding mixer Even, in feeding heater, temperature rises to 80 DEG C, continues 30min, is cooled to room temperature, you can interior architecture heating stove is made Thermal insulation layer 14.

Experimental example

From embodiment one, embodiment two, the sample and common building heating stove for implementing three, it is divided into 4 groups, test each group is adopted The behaviour in service of radiator.

Comparing result see the table below：

As can be seen here, the interior architecture heating stove in three experimental examples of the invention is compared with common building heating stove, in water Set programming rate and heat utilization rate are obviously improved, and heating stove surface temperature is lower.

The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any The change or replacement expected without creative work, should all cover within the scope of the present invention.

Claims

1. a kind of interior architecture heating stove, it is characterised in that：Include and be provided with flue in furnace wall, the furnace wall top sidewall, The furnace wall is internally provided with combustion chamber, water jacket and light barrier layer, and the combustion chamber is set in frustum, the combustion chamber with Flue is connected, and the water jacket is wrapped in combustion chamber and flue, the light barrier layer be wrapped on water jacket, the water jacket be connected with into The heating tube extended in the middle part of combustion chamber is provided with the mouth of a river and delivery port, the water jacket, the furnace wall and flue outer surface are set The fire door being provided with the top of thermal insulation layer, the furnace wall with combustion chamber is equipped with, the furnace wall bottom is provided with Dust Storage Room, described It is provided between Dust Storage Room and combustion chamber on interlayer, the interlayer and is provided with more than one through hole, is set in the flue inner wall It is equipped with more than one piece of deflection plate, the thermal insulation layer is by 30-40 parts of the diatomite, the Lauxite 20-28 that match by weight Part, 22-24 parts of cement, -18 parts of fluorine protein 12,16-18 parts of betulic acid, 20-22 parts of silica, 16-18 parts of zirconium dioxide, 12-14 parts of sodium metasilicate, 10-12 parts of prodan, 16-20 parts of the third polyene, 24-26 parts of titanium dioxide, 16-18 parts of sodium nitrate, phosphoric acid 20-30 parts of 10-16 parts of two aluminium of hydrogen, 16-18 parts of polystyrene and water are made.

2. interior architecture heating stove according to claim 1, it is characterised in that：TEMP is provided with the water jacket Device.

3. interior architecture heating stove according to claim 1, it is characterised in that：Regulating valve is provided with the water inlet.

4. interior architecture heating stove according to claim 1, it is characterised in that：The Dust Storage Room is set for drawer type.

5. interior architecture heating stove according to claim 1, it is characterised in that：The water inlet and delivery port are provided with one More than individual.