CN216897414U - Novel household gas stove waste fire regenerator - Google Patents

Abstract

A novel household gas stove waste fire regenerator is characterized in that 10-50 circular air inlets are integrally formed at the lower end of the side wall of a circular air inlet bottom basin, an annular heat insulation cotton layer is paved on the inner side wall of a circular pad basin, a resistance wire support basin is installed above the annular heat insulation cotton layer, 3-9 circles of support sheets protruding upwards are integrally formed on the inner side wall of the resistance wire support basin, each circle of support sheets can be used for paving a resistance wire, and the support sheet located at the outermost circle inclines towards the inner diameter direction; the annular heat-insulating cotton layer is clamped between the resistance wire supporting basin and the circular cushion basin, and a clamping seam is fastened by welding to form a combination body; resistance wire, resistance wire support basin, the cotton layer of annular heat preservation, circular pad basin combination form the bearing mechanism, and bearing mechanism top-down from the last basin mouth embedding of circular air inlet end basin, the firm screens in the last basin mouth of circular air inlet end basin of bottom outer fringe of bearing mechanism. The utility model has the characteristics of novel structure, higher heat conduction efficiency and more energy saving.

Description

Novel household gas stove waste fire regenerator

Technical Field

The utility model belongs to the field of cooker accessories, and relates to a novel household gas stove waste fire regenerator.

Background

The existing commonly used household gas stove has the problems of slow heat conduction, slow temperature rise and high energy consumption, thereby affecting the cooking efficiency of the pot body.

In addition, the existing commonly used household gas stove not only can spray a large amount of hot gas in the cooking process, but also can cause a large amount of flame to escape, and the condition not only can cause the temperature around the stove to be high so as to cause the loss of a large amount of heat energy, but also can cause a large amount of waste of natural gas.

Disclosure of Invention

In order to solve the problems, the utility model provides a novel waste fire regenerator of a household gas stove, which is arranged in a stove mouth of the household gas stove.

In order to achieve the above purpose, the utility model provides the following specific technical measures: a novel household gas stove waste fire regenerator comprises a circular air inlet bottom basin, a circular cushion basin, an annular heat insulation cotton layer, a resistance wire supporting basin and a resistance wire, and is characterized in that,

the top surface and the bottom surface of the circular air inlet bottom basin are both open so as to form an upper basin opening and a lower basin opening, the diameter of the upper basin opening of the circular air inlet bottom basin is larger than that of the lower basin opening of the circular air inlet bottom basin, 10-50 circular air inlet holes are integrally formed at the lower end of the side wall of the circular air inlet bottom basin, and the 10-50 circular air inlet holes are annularly and equidistantly arranged;

the top surface and the bottom surface of the circular cushion basin are both open so as to form an upper port and a lower port, the aperture of the upper port of the circular cushion basin is larger than the aperture of the lower port of the circular cushion basin, and the lower port of the circular cushion basin is used as a convection port;

an annular heat-insulating cotton layer is laid on the inner side wall of the circular cushion basin;

the resistance wire supporting basin is arranged above the annular heat-insulating cotton layer, the top surface and the bottom surface of the resistance wire supporting basin are both open so as to form a top opening and a bottom opening, and the caliber of the top opening of the resistance wire supporting basin is larger than that of the bottom opening of the resistance wire supporting basin;

3-9 circles of supporting sheets protruding upwards are integrally formed on the inner side wall of the resistance wire supporting basin, each circle of supporting sheet is formed by 5-15 clamping sheets which are arranged at equal intervals, the supporting sheets located on the outer circle and the adjacent inner circle are distributed in a staggered mode, each circle of supporting sheet can be used for laying one resistance wire, and the supporting sheet located on the outermost circle inclines towards the inner diameter direction, so that the resistance wire is prevented from sliding towards the outer edge direction;

the annular heat-insulating cotton layer is clamped between the resistance wire supporting basin and the circular pad basin, and the clamped seam is fastened by welding to form a combined body;

resistance wire, resistance wire support basin, the cotton layer of annular heat preservation, circular pad basin combination form bearing mechanism, and bearing mechanism top-down from the last basin mouth embedding of circular air inlet end basin, the bottom outer fringe of bearing mechanism can firmly the screens in the last basin mouth of circular air inlet end basin.

The pot body is arranged right above the supporting mechanism.

The utility model can completely recycle the waste fire in the combustion process, thereby effectively reducing the loss of the fuel gas, and has the advantages of wind resistance, skid resistance, heat collection, higher heating speed, energy saving and environmental protection.

The utility model has the advantages of novel structure, higher heat conduction efficiency and more energy saving.

The utility model is further illustrated by the following figures and examples.

Drawings

FIG. 1 is a sectional perspective view of an exploded structure of the present invention;

fig. 2 is a perspective view of the integral combination connecting structure of the present invention.

In the figure: 1-circular air inlet bottom basin, 11-circular air inlet holes, 2-circular cushion basin, 3-annular heat preservation cotton layer, 4-resistance wire support basin, 41-clamping sheet and 5-resistance wire.

Detailed Description

As shown in figures 1 and 2, the novel household gas stove waste fire regenerator comprises a circular air inlet bottom basin 1, a circular cushion basin 2, an annular heat preservation cotton layer 3, a resistance wire supporting basin 4 and a resistance wire 5, and is characterized in that,

the top surface and the bottom surface of the circular air inlet bottom basin 1 are both open so as to form an upper basin opening and a lower basin opening, the diameter of the upper basin opening of the circular air inlet bottom basin 1 is larger than that of the lower basin opening of the circular air inlet bottom basin 1, 10-50 circular air inlet holes 11 are integrally formed at the lower end of the side wall of the circular air inlet bottom basin 1, and the 10-50 circular air inlet holes 11 are annularly and equidistantly arranged;

the top surface and the bottom surface of the circular cushion basin 2 are both open to form an upper port and a lower port, the aperture of the upper port of the circular cushion basin 2 is larger than the aperture of the lower port of the circular cushion basin 2, and the lower port of the circular cushion basin 2 is used as a convection port;

an annular heat-insulating cotton layer 3 is paved on the inner side wall of the circular cushion basin 2;

the resistance wire supporting basin 4 is arranged above the annular heat-insulating cotton layer 3, the top surface and the bottom surface of the resistance wire supporting basin 4 are both open so as to form a top opening and a bottom opening, and the caliber of the top opening of the resistance wire supporting basin 4 is larger than that of the bottom opening of the resistance wire supporting basin 4;

3-9 circles of supporting sheets protruding upwards are integrally formed on the inner side wall of the resistance wire supporting basin 4, each circle of supporting sheets is formed by 5-15 clamping sheets 41 which are arranged at equal intervals, the supporting sheets located on the outer circle and the adjacent inner circle are distributed in a staggered mode, each circle of supporting sheets can be used for laying one resistance wire 5, and the supporting sheet located on the outermost circle inclines towards the inner diameter direction, so that the resistance wire is prevented from sliding towards the outer edge direction;

the annular heat-insulating cotton layer 3 is clamped between the resistance wire supporting basin 4 and the circular pad basin 2, and the clamped seam is fastened by welding to form a combined body;

resistance wire 5, resistance wire support basin 4, the cotton layer of annular heat preservation 3, the combination of circular pad basin 2 form bearing mechanism, and bearing mechanism top-down imbeds from the last basin mouth of circular air inlet end basin 1, and the firm screens in the last basin mouth of circular air inlet end basin 1 of bottom outer fringe of bearing mechanism can.

Claims (1)

1. A novel household gas stove waste fire regenerator comprises a circular air inlet bottom basin (1), a circular cushion basin (2), an annular heat preservation cotton layer (3), a resistance wire support basin (4) and a resistance wire (5),

the top surface and the bottom surface of the circular air inlet bottom basin (1) are both open so as to form an upper basin opening and a lower basin opening, the opening diameter of the upper basin opening of the circular air inlet bottom basin (1) is larger than the opening diameter of the lower basin opening of the circular air inlet bottom basin (1), 10-50 circular air inlet holes (11) are integrally formed at the lower end of the side wall of the circular air inlet bottom basin (1), and the 10-50 circular air inlet holes (11) are annularly and equidistantly arranged;

the top surface and the bottom surface of the circular cushion basin (2) are both open to form an upper port and a lower port, the diameter of the upper port of the circular cushion basin (2) is larger than that of the lower port of the circular cushion basin (2), and the lower port of the circular cushion basin (2) is used as a convection port;

an annular heat-insulating cotton layer (3) is paved on the inner side wall of the circular cushion basin (2);

the resistance wire supporting basin (4) is arranged above the annular heat-insulating cotton layer (3), the top surface and the bottom surface of the resistance wire supporting basin (4) are both open so as to form a top opening and a bottom opening, and the caliber of the top opening of the resistance wire supporting basin (4) is larger than that of the bottom opening of the resistance wire supporting basin (4);

3-9 circles of supporting sheets protruding upwards are integrally formed on the inner side wall of the resistance wire supporting basin (4), each circle of supporting sheets is formed by arranging 5-15 clamping sheets (41) at equal intervals, the supporting sheets located on the outer circle and the adjacent inner circle are distributed in a staggered mode, each circle of supporting sheets can be used for laying one resistance wire (5), and the supporting sheet located on the outermost circle inclines towards the inner diameter direction;

the annular heat-insulating cotton layer (3) is clamped between the resistance wire supporting basin (4) and the circular cushion basin (2), and the clamped seam is fastened by welding to form a combined body;

resistance wire (5), resistance wire support basin (4), annular heat preservation cotton layer (3), circular pad basin (2) combination form bearing mechanism, and bearing mechanism top-down from the last basin mouth embedding of circular air inlet end basin (1), the firm screens in the last basin mouth of circular air inlet end basin (1) of bottom outer fringe of bearing mechanism.

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