CN206145730U - Biological kitchen of environmental protection and energy saving that utilizes glycerine to conduct heat - Google Patents

Abstract

The utility model discloses a biological kitchen of environmental protection and energy saving that utilizes glycerine to conduct heat belongs to the wastes material field of recycling, aims at solving current low, the inflexible problem of biological kitchen heating effect, including casing (1), fuel intake pipe (3), oxygen inlet pipe (4), outlet duct (2), burning platform (5), glycerine case (6), casing (1) inside heating chamber that is, intake pipe (3) shen ru connect to casing and burning platform (5) cong the bottom of casing (1), casing (1) that oxygen inlet pipe (4) are connected through the bottom of casing is inside, outlet duct (2) is connected to the upper end in heating chamber, burning bench end tail glycerine case (6), the glycerine chamber pass through heat -transfer pipe (7) and water tank (8) and connect, part that the heat -transfer pipe gos deep into the water tank is bending structure, the utility model discloses a biological kitchen can be used in in industry and the family life.

Description

A kind of environmental protection and energy saving biology stove of utilization glycerol heat transfer

Technical field

This utility model is related to biological raw material and utilizes field, is specifically a kind of biological stove of environmental protection and energy saving.

Background technology

In recent years, the development and utilization to biomass stove is increasingly subject to people's attention, and progressively obtains Promotion and application.At present on the market the species of biomass kitchen range is a lot, has a kind of technical scheme of biomass stove generally to include There are a stove frame and the stove core in the stove frame, the stove core has a straight-cylindrical chamber of a kitchen range and is sleeved on the stove Cooking stove set outside thorax, is air supply chamber between the chamber of a kitchen range and cooking stove set, and the tube wall top of the chamber of a kitchen range is provided with wind pushing hole, The cooking stove set bottom is provided with the appendix of connecting fan, and the cooking stove set is provided with smoke exhaust pipe at stove mouth；The stove frame Insulation material is filled between the stove core.There is following deficiency in use in this biomass stove：

1st, current biological stove is primarily directed to the biological raw materials such as straw, aobvious to have for gas raw materials such as biogas；

2nd, current biological stove is concentrated mainly on direct-fired mode, this meeting heat conduction all right equipment where burner hearth Heated thing；

3rd, current mode of heating is uneven, and energy utilization rate is low.

Utility model content

The purpose of this utility model is：For above-mentioned problem, there is provided a kind of environmental protection section of utilization glycerol heat transfer The biological stove of energy so that equipment heating is flexible, heat utilization rate is high.

The technical solution adopted in the utility model is as follows：

The utility model discloses a kind of environmental protection and energy saving biology stove of utilization glycerol heat transfer, including housing, fuel air pipe, Oxygen intake pipe, escape pipe, combustion platform, glycerol case, enclosure interior is heating chamber,

Described air inlet pipe is deep into housing and combustion platform connection, the bottom that oxygen intake pipe passes through housing from the bottom of housing The enclosure interior of portion's connection, the upper end connection escape pipe of heating chamber, combustion platform upper end tail glycerol case, described glycerol chamber is by passing Heat pipe and water tank connect, and it is warp architecture that heat-transfer pipe gos deep into the part of water tank.

Used as improvement, described combustion platform is provided with burner, and the quantity of described burner is 2-13.

As improvement, agitating device is provided with described glycerol case, agitating device includes the stirring of motor and motor connection Axle, the stirring vane above shaft.

Used as improvement, described heat-transfer pipe is provided with oil pump.

Used as improvement, described heat-transfer pipe and the inwall of the junction of glycerol case is provided with deceleration projection.

As improvement, in described water tank micro pump is provided with.

As improvement, separation net is provided with described water tank, described separation net is used for heat-transfer pipe and water body upper end.

Used as improvement, described stirring vane is prepared by heat-proof macromolecule composite, and described heat-proof macromolecule is combined Material includes 100 parts of thermoset substrate resin, and carborundum 5-10 parts, Cobalto-cobaltic oxide 1-5 parts, coupling agent 0.5-5 parts, metal is fine Dimension 10-50 parts.

As improvement, described thermoset substrate resin be phenolic resin, Lauxite, melamine formaldehyde resin, Epoxy resin, unsaturated-resin, polyurethane, one kind of polyimides.

As improvement, metallic fiber be stainless steel fibre, copper fiber, aluminum fiber, nickel fiber, the one of high temperature alloy fiber Kind；

Described coupling agent is KH550, KH560, KH570, KH792, DL602, DL171.

The preparation method of described polymer composite is as follows：

Step 1：Carborundum, Cobalto-cobaltic oxide are weighed, in ultrasonic disperse to cyclohexane solvent, is continued in ultrasound wave dispersion Lower addition coupling agent, at 60 DEG C -80 DEG C, stirring reaction 4h, then centrifugation, it is vacuum dried after obtain coupling agent Modified inorganic Heat Conduction Material；

Step 2：Metallic fiber is made into the short silk that length is 0.2-1 mm；

Step 3：The metallic fiber of step 2 is kept into 10min under 500 DEG C of high temperature, room temperature is cooled in 20s afterwards；

Step 4：Inorganic material after metallic fiber and step 1 after step 3 and matrix resin are mixed, is squeezed in twin screw Go out machine extruding pelletization, polymer composite is obtained.

In molding, composite is down in mould, pressurize, molding.

In sum, as a result of above-mentioned technical proposal, the beneficial effects of the utility model are：

By the way of biological stove disclosed in this utility model is using heating chamber and heated object phase separation, in this mode of heating Under, the additional space of heating intracavity can be effectively saved, also heating surface (area) (HS is greatly improved, exchange heat in this utility model Pipe and water tank use warp architecture, and both contacts area are very big, in this case the homogeneous heating of water tank, Under uniform mode of heating, heated object can reach the problem specified in most fast mode；

In existing technology, bad being placed on combustion platform of material that the distinct issues for existing are exactly is heated, Since combustion platform flame temperature it is too high, two come because space etc. limits, and it is highly difficult to move calandria, and this utility model is effective Solve this not enough；

When heating to glycerol, the uniformity of heating is most important, and this is accomplished by being stirred glycerol, and one As it is main by way of metal puddler, but metal puddler density is big, poor toughness, stirring is very good, and this practicality It is new that such a macromolecular material is disclosed in preferred scheme, with higher heat-resisting quantity, toughness and intensity, make There is splendid effect used in puddler.

Description of the drawings

Fig. 1 is structural representation of the present utility model；

Labelling in figure：1- housings, 2- escape pipes, 3- fuel air pipes, 4- oxygen intake pipes, 5- combustion platforms, 501- burnings Mouth, 6- glycerol casees, 601- motors, 602- shafts, 603- stirring vanes, 7- heat-transfer pipes, 701- deceleration projections, 702- oil pumps, 8- water tanks, 801- micro pumps, 802- separation nets.

Specific embodiment

Below in conjunction with the accompanying drawings, this utility model is described in detail.

In order that the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with accompanying drawing and enforcement Example, is further elaborated to this utility model.It should be appreciated that specific embodiment described herein is only to explain This utility model, is not used to limit this utility model.

Specific embodiment 1：As shown in figure 1, the utility model discloses a kind of environmental protection and energy saving of utilization glycerol heat transfer are biological Stove, including housing 1, fuel air pipe 3, oxygen intake pipe 4, escape pipe 2, combustion platform 5, glycerol case 6, the inside of housing 1 is heating Chamber,

Described air inlet pipe 3 is deep into housing from the bottom of housing 1 and combustion platform 5 connects, and oxygen intake pipe 4 passes through housing Bottom connection housing 1 inside, the upper end of heating chamber connection escape pipe 2, combustion platform upper end tail glycerol case 6, described glycerol Chamber is connected by heat-transfer pipe 7 and water tank 8, and it is warp architecture that heat-transfer pipe gos deep into the part of water tank.

Described combustion platform 5 is provided with burner 501, and the quantity of described burner is 2-13.

6 are provided with agitating device in described glycerol case, and agitating device includes the shaft of motor 601 and motor connection 602nd, the stirring vane 603 above shaft 602.

Described heat-transfer pipe 7 is provided with oil pump 702.

Described heat-transfer pipe 7 and the inwall of the junction of glycerol case is provided with deceleration projection 701.

Micro pump 801 is provided with described water tank.

Separation net 802 is provided with described water tank, described separation net 802 is located at heat-transfer pipe and water body upper end.

Described stirring vane is prepared by heat-proof macromolecule composite, and described heat-proof macromolecule composite includes heat 100 parts of solidity matrix resin, 5 parts of carborundum, 1 part of Cobalto-cobaltic oxide, 0.5 part of coupling agent, 10 parts of metallic fiber.

Described thermoset substrate resin is phenolic resin.

Metallic fiber is stainless steel fibre；

Described coupling agent is KH550.

The preparation method of described polymer composite is as follows：

Step 1：Carborundum, Cobalto-cobaltic oxide are weighed, in ultrasonic disperse to cyclohexane solvent, is continued in ultrasound wave dispersion Lower addition coupling agent, at 60 DEG C, stirring reaction 4h, then centrifugation, it is vacuum dried after obtain coupling agent modified Inorganic Heat Conduction Material；

Step 2：Metallic fiber is made into the short silk that length is 0.2mm；

Step 3：The metallic fiber of step 2 is kept into 10min under 500 DEG C of high temperature, room temperature is cooled in 20s afterwards；

Step 4：Inorganic material after metallic fiber and step 1 after step 3 and matrix resin are mixed, is squeezed in twin screw Go out machine extruding pelletization, polymer composite is obtained.

In molding, composite is down in mould, pressurize, molding.

Specific embodiment 2：As shown in figure 1, the utility model discloses a kind of environmental protection and energy saving of utilization glycerol heat transfer are biological Stove, including housing 1, fuel air pipe 3, oxygen intake pipe 4, escape pipe 2, combustion platform 5, glycerol case 6, the inside of housing 1 is heating Chamber,

Described air inlet pipe 3 is deep into housing from the bottom of housing 1 and combustion platform 5 connects, and oxygen intake pipe 4 passes through housing Bottom connection housing 1 inside, the upper end of heating chamber connection escape pipe 2, combustion platform upper end tail glycerol case 6, described glycerol Chamber is connected by heat-transfer pipe 7 and water tank 8, and it is warp architecture that heat-transfer pipe gos deep into the part of water tank.

Described combustion platform 5 is provided with burner 501, and the quantity of described burner is 2-13.

6 are provided with agitating device in described glycerol case, and agitating device includes the shaft of motor 601 and motor connection 602nd, the stirring vane 603 above shaft 602.

Described heat-transfer pipe 7 is provided with oil pump 702.

Described heat-transfer pipe 7 and the inwall of the junction of glycerol case is provided with deceleration projection 701.

Micro pump 801 is provided with described water tank.

Separation net 802 is provided with described water tank, described separation net 802 is located at heat-transfer pipe and water body upper end.

Described stirring vane is prepared by heat-proof macromolecule composite, and described heat-proof macromolecule composite includes heat 100 parts of solidity matrix resin, 10 parts of carborundum, 5 parts of Cobalto-cobaltic oxide, 5 parts of coupling agent, 50 parts of metallic fiber.

Described thermoset substrate resin is Lauxite.

Metallic fiber is aluminum fiber；

Described coupling agent is KH560.

The preparation method of described polymer composite is as follows：

Step 1：Carborundum, Cobalto-cobaltic oxide are weighed, in ultrasonic disperse to cyclohexane solvent, is continued in ultrasound wave dispersion Lower addition coupling agent, at 80 DEG C, stirring reaction 4h, then centrifugation, it is vacuum dried after obtain coupling agent modified Inorganic Heat Conduction Material；

Step 2：Metallic fiber is made into the short silk that length is 1 mm；

Step 3：The metallic fiber of step 2 is kept into 10min under 500 DEG C of high temperature, room temperature is cooled in 20s afterwards；

Step 4：Inorganic material after metallic fiber and step 1 after step 3 and matrix resin are mixed, is squeezed in twin screw Go out machine extruding pelletization, polymer composite is obtained.

In molding, composite is down in mould, pressurize, molding.

Specific embodiment 3：As shown in figure 1, the utility model discloses a kind of environmental protection and energy saving of utilization glycerol heat transfer are biological Stove, including housing 1, fuel air pipe 3, oxygen intake pipe 4, escape pipe 2, combustion platform 5, glycerol case 6, the inside of housing 1 is heating Chamber,

Described air inlet pipe 3 is deep into housing from the bottom of housing 1 and combustion platform 5 connects, and oxygen intake pipe 4 passes through housing Bottom connection housing 1 inside, the upper end of heating chamber connection escape pipe 2, combustion platform upper end tail glycerol case 6, described glycerol Chamber is connected by heat-transfer pipe 7 and water tank 8, and it is warp architecture that heat-transfer pipe gos deep into the part of water tank.

Described combustion platform 5 is provided with burner 501, and the quantity of described burner is 2-13.

6 are provided with agitating device in described glycerol case, and agitating device includes the shaft of motor 601 and motor connection 602nd, the stirring vane 603 above shaft 602.

Described heat-transfer pipe 7 is provided with oil pump 702.

Described heat-transfer pipe 7 and the inwall of the junction of glycerol case is provided with deceleration projection 701.

Micro pump 801 is provided with described water tank.

Separation net 802 is provided with described water tank, described separation net 802 is located at heat-transfer pipe and water body upper end.

Described stirring vane is prepared by heat-proof macromolecule composite, and described heat-proof macromolecule composite includes heat 100 parts of solidity matrix resin, 8 parts of carborundum, 3 parts of Cobalto-cobaltic oxide, 1 part of coupling agent, 30 parts of metallic fiber.

Described thermoset substrate resin is melamine formaldehyde resin.

Metallic fiber is high temperature alloy fiber；

Described coupling agent is KH792.

The preparation method of described polymer composite is as follows：

Step 1：Carborundum, Cobalto-cobaltic oxide are weighed, in ultrasonic disperse to cyclohexane solvent, is continued in ultrasound wave dispersion Lower addition coupling agent, at 75 DEG C, stirring reaction 4h, then centrifugation, it is vacuum dried after obtain coupling agent modified Inorganic Heat Conduction Material；

Step 2：Metallic fiber is made into the short silk that length is 0.8 mm；

Step 3：The metallic fiber of step 2 is kept into 10min under 500 DEG C of high temperature, room temperature is cooled in 20s afterwards；

Step 4：Inorganic material after metallic fiber and step 1 after step 3 and matrix resin are mixed, is squeezed in twin screw Go out machine extruding pelletization, polymer composite is obtained.

In molding, composite is down in mould, pressurize, molding.

Specific embodiment 4：As shown in figure 1, the utility model discloses a kind of environmental protection and energy saving of utilization glycerol heat transfer are biological Stove, including housing 1, fuel air pipe 3, oxygen intake pipe 4, escape pipe 2, combustion platform 5, glycerol case 6, the inside of housing 1 is heating Chamber,

Described air inlet pipe 3 is deep into housing from the bottom of housing 1 and combustion platform 5 connects, and oxygen intake pipe 4 passes through housing Bottom connection housing 1 inside, the upper end of heating chamber connection escape pipe 2, combustion platform upper end tail glycerol case 6, described glycerol Chamber is connected by heat-transfer pipe 7 and water tank 8, and it is warp architecture that heat-transfer pipe gos deep into the part of water tank.

Described combustion platform 5 is provided with burner 501, and the quantity of described burner is 2-13.

6 are provided with agitating device in described glycerol case, and agitating device includes the shaft of motor 601 and motor connection 602nd, the stirring vane 603 above shaft 602.

Described heat-transfer pipe 7 is provided with oil pump 702.

Described heat-transfer pipe 7 and the inwall of the junction of glycerol case is provided with deceleration projection 701.

Micro pump 801 is provided with described water tank.

Separation net 802 is provided with described water tank, described separation net 802 is located at heat-transfer pipe and water body upper end.

Described stirring vane is prepared by heat-proof macromolecule composite, and described heat-proof macromolecule composite includes heat 100 parts of solidity matrix resin, 5 parts of carborundum, 5 parts of Cobalto-cobaltic oxide, 0.5 part of coupling agent, 50 parts of metallic fiber.

Described thermoset substrate resin is epoxy resin.

Metallic fiber is nickel fiber；

Described coupling agent is DL602.

The preparation method of described polymer composite is as follows：

Step 1：Carborundum, Cobalto-cobaltic oxide are weighed, in ultrasonic disperse to cyclohexane solvent, is continued in ultrasound wave dispersion Lower addition coupling agent, at 60 DEG C, stirring reaction 4h, then centrifugation, it is vacuum dried after obtain coupling agent modified Inorganic Heat Conduction Material；

Step 2：Metallic fiber is made into the short silk that length is 1 mm；

Step 3：The metallic fiber of step 2 is kept into 10min under 500 DEG C of high temperature, room temperature is cooled in 20s afterwards；

Step 4：Inorganic material after metallic fiber and step 1 after step 3 and matrix resin are mixed, is squeezed in twin screw Go out machine extruding pelletization, polymer composite is obtained.

In molding, composite is down in mould, pressurize, molding.

Specific embodiment 5：As shown in figure 1, the utility model discloses a kind of environmental protection and energy saving of utilization glycerol heat transfer are biological Stove, including housing 1, fuel air pipe 3, oxygen intake pipe 4, escape pipe 2, combustion platform 5, glycerol case 6, the inside of housing 1 is heating Chamber,

Described air inlet pipe 3 is deep into housing from the bottom of housing 1 and combustion platform 5 connects, and oxygen intake pipe 4 passes through housing Bottom connection housing 1 inside, the upper end of heating chamber connection escape pipe 2, combustion platform upper end tail glycerol case 6, described glycerol Chamber is connected by heat-transfer pipe 7 and water tank 8, and it is warp architecture that heat-transfer pipe gos deep into the part of water tank.

Described combustion platform 5 is provided with burner 501, and the quantity of described burner is 2-13.

6 are provided with agitating device in described glycerol case, and agitating device includes the shaft of motor 601 and motor connection 602nd, the stirring vane 603 above shaft 602.

Described heat-transfer pipe 7 is provided with oil pump 702.

Described heat-transfer pipe 7 and the inwall of the junction of glycerol case is provided with deceleration projection 701.

Micro pump 801 is provided with described water tank.

Separation net 802 is provided with described water tank, described separation net 802 is located at heat-transfer pipe and water body upper end.

Described stirring vane is prepared by heat-proof macromolecule composite, and described heat-proof macromolecule composite includes heat 100 parts of solidity matrix resin, 10 parts of carborundum, 1 part of Cobalto-cobaltic oxide, 5 parts of coupling agent, 10 parts of metallic fiber.

Described thermoset substrate resin is polyurethane.

Metallic fiber is high temperature alloy fiber；

Described coupling agent is DL171.

The preparation method of described polymer composite is as follows：

Step 1：Carborundum, Cobalto-cobaltic oxide are weighed, in ultrasonic disperse to cyclohexane solvent, is continued in ultrasound wave dispersion Lower addition coupling agent, at 80 DEG C, stirring reaction 4h, then centrifugation, it is vacuum dried after obtain coupling agent modified Inorganic Heat Conduction Material；

Step 2：Metallic fiber is made into the short silk that length is 0.2mm；

Step 3：The metallic fiber of step 2 is kept into 10min under 500 DEG C of high temperature, room temperature is cooled in 20s afterwards；

Step 4：Inorganic material after metallic fiber and step 1 after step 3 and matrix resin are mixed, is squeezed in twin screw Go out machine extruding pelletization, polymer composite is obtained.

In molding, composite is down in mould, pressurize, molding.

Specific embodiment 6：As shown in figure 1, the utility model discloses a kind of environmental protection and energy saving of utilization glycerol heat transfer are biological Stove, including housing 1, fuel air pipe 3, oxygen intake pipe 4, escape pipe 2, combustion platform 5, glycerol case 6, the inside of housing 1 is heating Chamber,

Described air inlet pipe 3 is deep into housing from the bottom of housing 1 and combustion platform 5 connects, and oxygen intake pipe 4 passes through housing Bottom connection housing 1 inside, the upper end of heating chamber connection escape pipe 2, combustion platform upper end tail glycerol case 6, described glycerol Chamber is connected by heat-transfer pipe 7 and water tank 8, and it is warp architecture that heat-transfer pipe gos deep into the part of water tank.

Described combustion platform 5 is provided with burner 501, and the quantity of described burner is 2-13.

6 are provided with agitating device in described glycerol case, and agitating device includes the shaft of motor 601 and motor connection 602nd, the stirring vane 603 above shaft 602.

Described heat-transfer pipe 7 is provided with oil pump 702.

Described heat-transfer pipe 7 and the inwall of the junction of glycerol case is provided with deceleration projection 701.

Micro pump 801 is provided with described water tank.

Separation net 802 is provided with described water tank, described separation net 802 is located at heat-transfer pipe and water body upper end.

Described stirring vane is prepared by heat-proof macromolecule composite, and described heat-proof macromolecule composite includes heat 100 parts of solidity matrix resin, 5 parts of carborundum, 3 parts of Cobalto-cobaltic oxide, 5 parts of coupling agent, 10 parts of metallic fiber.

Described thermoset substrate resin is polyimides.

Metallic fiber is high temperature alloy fiber；

Described coupling agent is DL171.

The preparation method of described polymer composite is as follows：

Step 1：Carborundum, Cobalto-cobaltic oxide are weighed, in ultrasonic disperse to cyclohexane solvent, is continued in ultrasound wave dispersion Lower addition coupling agent, at 80 DEG C, stirring reaction 4h, then centrifugation, it is vacuum dried after obtain coupling agent modified Inorganic Heat Conduction Material；

Step 2：Metallic fiber is made into the short silk that length is 0.3 mm；

Step 3：The metallic fiber of step 2 is kept into 10min under 500 DEG C of high temperature, room temperature is cooled in 20s afterwards；

Step 4：Inorganic material after metallic fiber and step 1 after step 3 and matrix resin are mixed, is squeezed in twin screw Go out machine extruding pelletization, polymer composite is obtained.

In molding, composite is down in mould, pressurize, molding.

The performance detection of the composite that embodiment 1-6 is provided is as follows：

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit this utility model Any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in this utility model Protection domain within.

Claims (7)

1. the environmental protection and energy saving biology stove that a kind of utilization glycerol conducts heat, it is characterised in that including housing（1）, fuel air pipe（3）、 Oxygen intake pipe（4）, escape pipe（2）, combustion platform（5）, glycerol case（6）, housing（1）Inside is heating chamber,

Described air inlet pipe（3）From housing（1）Bottom be deep into housing and combustion platform（5）Connection, oxygen intake pipe（4）Pass through The housing of the bottom connection of housing（1）Inside, the upper end connection escape pipe of heating chamber（2）, combustion platform upper end tail glycerol case（6）, Described glycerol chamber passes through heat-transfer pipe（7）And water tank（8）Connection, it is warp architecture that heat-transfer pipe gos deep into the part of water tank.

2. the environmental protection and energy saving biology stove that glycerol according to claim 1 conducts heat, it is characterised in that described combustion platform（5） It is provided with burner（501）, the quantity of described burner is 2-13.

3. the environmental protection and energy saving biology stove that glycerol according to claim 1 conducts heat, it is characterised in that described glycerol case（6） Agitating device is inside provided with, agitating device includes motor（601）With the shaft of motor connection（602）, positioned at shaft（602） Stirring vane above（603）.

4. the environmental protection and energy saving biology stove that glycerol according to claim 3 conducts heat, it is characterised in that described heat-transfer pipe（7） It is provided with oil pump（702）.

5. the environmental protection and energy saving biology stove that glycerol according to claim 4 conducts heat, it is characterised in that described heat-transfer pipe（7） Deceleration projection is provided with the inwall of the junction of glycerol case（701）.

6. the environmental protection and energy saving biology stove that glycerol according to claim 1 conducts heat, it is characterised in that be provided with described water tank Micro pump（801）.

7. the environmental protection and energy saving biology stove that glycerol according to claim 6 conducts heat, it is characterised in that be provided with described water tank Separation net（802）, described separation net（802）For heat-transfer pipe and water body upper end.