CN107191974B - Infrared kitchen range burner - Google Patents

Abstract

The infrared cooker burner comprises a burner, an infrared combustion disc, a decorative ring, a central pressing sleeve, an ignition induction device, a flow dividing seat and a flow dividing piece, wherein the flow dividing seat comprises an upper central tube, an inner sleeve and an outer sleeve, and the flow dividing seat is detachably matched with the burner; the upper part of the upper central tube is provided with a central hole of the infrared combustion disc, the inner sleeve supports the infrared combustion disc, and the infrared combustion disc is matched with the shoulder support; the inner sleeve passes through the central hole of the shunt, and a gap is formed between the radial edge of the shunt and the outer sleeve; the cylinder body is inserted into the upper central tube, the flanging part compresses the infrared combustion disk, the outer sleeve is inserted into the decorative ring, and the inner ring pressing plate of the decorative ring compresses the infrared combustion disk. Due to the adoption of the structure, the flow dividing seat is positioned above the liquid receiving disc, and a gap between the flow dividing seat and the liquid receiving disc is arranged to prevent the temperature in the bottom shell of the kitchen range; the burner is convenient to clean; and the fuel gas and the air are uniformly mixed, so that the energy is saved and the energy efficiency is high.

Description

Infrared kitchen range burner

Technical Field

The invention relates to a kitchen range burner, in particular to an infrared burner.

Background

At present, the prior art relates to an infrared cooker burner which comprises a burner, an infrared burning disc, a decorative ring, a central pressing sleeve and an ignition induction device, wherein the infrared burning disc is in a circular ring shape; the central press sleeve comprises a cylinder body and a flanging part. There are problems: the temperature of the kitchen range bottom shell is high, and potential safety hazards exist.

Disclosure of Invention

The purpose of the invention is that: the infrared cooker burner is provided, and has the advantages of low temperature, safety and reliability in a cooker bottom shell; the burner is convenient to clean, the combustion is sufficient, and the energy is saved.

The invention is realized in the following way: an infrared cooker burner comprises a burner, an infrared burning disc, a decorative ring, a central pressing sleeve and an ignition induction device, wherein the infrared burning disc is annular; the central pressing sleeve comprises a cylinder body and a flanging part; the special feature is that: the furnace end comprises a central cavity with upper and lower openings, an inner ring air inlet cavity surrounding the central pipe, an inner injection pipe communicated with the inner ring air inlet cavity, an outer ring air inlet cavity surrounding the inner ring air inlet cavity and an outer injection pipe;

the device also comprises a flow dividing seat and a flow dividing piece, wherein the flow dividing seat comprises an upper central tube, an inner sleeve and an outer sleeve, the upper central tube is connected with the inner sleeve to form an inner ring air outlet cavity, the inner sleeve is connected with the outer sleeve to form an outer ring air outlet cavity, and a shoulder is arranged on the inner wall of the outer sleeve;

the splitter has a central aperture;

the lower end of the upper central tube is inserted into the upper end of the central cavity, the inner ring air outlet cavity is communicated with the inner ring air inlet cavity, the outer ring air outlet cavity is communicated with the outer ring air inlet cavity, and the split seat is detachably matched with the burner; the upper part of the upper central tube is provided with a central hole of the infrared combustion disc, the inner sleeve supports the infrared combustion disc, and the infrared combustion disc is matched with the shoulder support; the inner sleeve passes through the central hole of the shunt, and a gap is formed between the radial edge of the shunt and the outer sleeve; the cylinder body is inserted into the upper central tube, the flanging part compresses the infrared combustion disk, the outer sleeve is inserted into the decorative ring, and the inner ring pressing plate of the decorative ring compresses the infrared combustion disk.

The infrared cooker burner is characterized in that: the upper central tube and the inner sleeve are fixedly connected together through a plurality of inner radial ribs, and an inner air guide hole is formed by the upper central tube and the inner sleeve between two adjacent inner radial ribs; the inner sleeve and the outer sleeve are fixedly connected together through a plurality of outer radial ribs, and an outer air guide hole is formed by the inner sleeve and the outer sleeve between two adjacent outer radial ribs;

the inner radial rib and the outer radial rib are on a radial line;

the flow dividing piece comprises a fixed seat and a flow dividing cavity, the flow dividing cavity is provided with a lower opening and an outer opening, and a side wall plate of the flow dividing cavity wall is an inverted cone frustum-shaped curved surface;

the fixing base and the distribution cavity are alternately arranged, the fixing base is fixedly connected with the outer radial ribs, and the lower opening of the distribution cavity is opposite to the outer air guide holes.

The infrared cooker burner is characterized in that: the lower end of the inner sleeve is provided with an inner inverted cone frustum-shaped flow guiding sleeve, and the lower end of the outer sleeve is provided with an outer inverted cone frustum-shaped flow guiding sleeve;

the inner radial rib is connected with the upper central tube and the inner inverted cone-shaped guide sleeve, and the outer radial rib is connected with the inner sleeve and the outer inverted cone-shaped guide sleeve.

The infrared cooker burner is characterized in that: the lower ends of the inner inverted cone frustum-shaped flow guiding sleeve and the outer inverted cone frustum-shaped flow guiding sleeve are respectively provided with an inner annular interface and an outer annular interface;

the inner ring is inserted into an outer wall plate of the inner ring air inlet cavity, and the outer wall plate supports an inner inverted cone frustum-shaped guide sleeve;

the outer annular connector is inserted into an outer annular wall plate of the outer air inlet cavity of the outer ring, and the outer annular wall plate supports the outer inverted cone-shaped guide sleeve.

The infrared cooker burner is characterized in that: the liquid receiving device comprises a furnace end, a liquid receiving disc and a liquid receiving device, wherein an annular supporting table is arranged on the peripheral surface of the furnace end, and a connecting seat is arranged at the radial edge of the annular supporting table; the upper end of the furnace end penetrates through the through hole on the bottom plate of the liquid receiving disc to extend out, the annular supporting table supports the liquid receiving disc, and the screw penetrates through the liquid receiving disc to be screwed with the connecting seat.

The infrared cooker burner is characterized in that: a boss is arranged on the bottom plate of the liquid receiving disc, and a through hole is arranged on the boss;

a plurality of circular arc-shaped primary air holes surrounding the through holes are arranged on the boss;

the diameter of the flow dividing seat is larger than or equal to that of the boss.

The infrared cooker burner is characterized in that: the ignition induction device comprises an electric insulation cylinder seat, a power terminal and a discharge piece, wherein the discharge piece comprises a circular plate part and at least two discharge needles surrounding the circular plate part;

the power terminal is arranged in the electric insulation cylinder seat and extends out from two ends, the upper end of the power terminal is connected with the circular plate part, and the discharge needle is opposite to the flanging part of the central pressing sleeve; the central pressing sleeve is used as a power receiving electrode; the discharge member acts as a thermocouple.

The infrared cooker burner is characterized in that: and a heat dissipation cavity with a lower opening is formed between the outer inverted truncated cone-shaped flow guide sleeve and the lower part of the outer sleeve.

The infrared cooker burner adopts the structure that the flow dividing seat is positioned above the liquid receiving disc, and the gap between the flow dividing seat and the liquid receiving disc is arranged to prevent the temperature in the cooker bottom shell; the burner is convenient to clean; and the fuel gas and the air are uniformly mixed, so that the energy is saved and the energy efficiency is high.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a view a-a of fig. 1.

Fig. 3 is a view B-B of fig. 1.

Fig. 4 is a perspective view of the present invention.

Fig. 5 is one of the exploded perspective views of the present invention.

Fig. 6 is a second perspective exploded view of the present invention.

Fig. 7 is a perspective view of the diverter seat of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1, 2 and 3, the infrared cooker burner comprises a burner head 1, an infrared combustion disc 2, a decorative ring 3, a central pressing sleeve 4 and an ignition induction device 5, wherein the infrared combustion disc 2 is in a circular ring shape; the center jacket 4 includes a cylindrical body 41 and a burring 42.

The furnace end 1 comprises a central cavity 11 with upper and lower openings, an inner ring air inlet cavity 12 surrounding the central pipe, an inner injection pipe 13 communicated with the inner ring air inlet cavity, an outer ring air inlet cavity 14 surrounding the inner ring air inlet cavity and an outer injection pipe 15;

the device also comprises a flow dividing seat 6 and a flow dividing piece 7, wherein the flow dividing seat 6 comprises an upper central tube 61, an inner sleeve 62 and an outer sleeve 63, the upper central tube 61 is connected with the inner sleeve 62 to form an inner ring air outlet cavity, the inner sleeve 62 is connected with the outer sleeve 63 to form an outer ring air outlet cavity, and a shoulder is arranged on the inner wall of the outer sleeve 63;

the shunt 7 has a central aperture;

the lower end of the upper central tube 61 is spliced with the upper end of the central cavity 11, the inner ring air outlet cavity is communicated with the inner ring air inlet cavity 12, the outer ring air outlet cavity is communicated with the outer ring air inlet cavity 14, and the split seat 6 is detachably matched with the burner 1, so that the burner can be cleaned conveniently; the upper part of the upper central tube 61 is provided with a central hole of the infrared combustion disk 2, the annular supporting table of the upper central tube 61 supports the infrared combustion disk 2, the inner sleeve 62 supports the infrared combustion disk 2, and the infrared combustion disk 2 is matched with the shoulder support; the inner sleeve 62 passes through the central hole of the shunt member 7 with a gap between the radial edge of the shunt member 7 and the outer sleeve 63; the cylinder 41 is inserted into the upper central tube 61, the flange 42 presses the infrared combustion disk 2, the outer sleeve 63 is inserted into the decorative ring 3, and the inner ring pressing plate 31 of the decorative ring 3 presses the infrared combustion disk 2.

The upper central tube 61 and the inner sleeve 62 are fixedly connected together through a plurality of inner radial ribs 621, and the upper central tube 61 and the inner sleeve 62 between two adjacent inner radial ribs 621 form an inner air guide hole; the inner sleeve 62 and the outer sleeve 63 are fixedly connected together through a plurality of outer radial ribs 631, and the inner sleeve 62 and the outer sleeve 63 between two adjacent outer radial ribs 631 form an outer air guide hole;

inner radial rib 621 and outer radial rib 631 are on a radial line;

the shunt piece 7 comprises a fixed seat 71 and a shunt cavity 72, the shunt cavity 72 is provided with a lower opening and an outer opening, and a side wall plate of the wall of the shunt cavity 72 is an inverted cone frustum-shaped curved surface;

the fixed seat 71 and the split flow cavity 72 are arranged at intervals, the fixed seat 71 is fixedly connected with the outer radial rib 631, and the lower opening of the split flow cavity 72 is opposite to the outer air guide hole; by adopting the structure, the mixed gas of the fuel gas and the air in the outer ring air inlet cavity can be stabilized and uniformly mixed.

An inner inverted truncated cone-shaped guide sleeve 622 is arranged at the lower end of the inner sleeve 62, and an outer inverted truncated cone-shaped guide sleeve 632 is arranged at the lower end of the outer sleeve 63;

the inner radial rib 612 is connected to the upper center tube 61 and the inner inverted truncated cone shaped deflector sleeve 622, and the outer radial rib 631 is connected to the inner sleeve 62 and the outer inverted truncated cone shaped deflector sleeve 632.

The lower opening heat dissipation cavity 64 is formed between the outer inverted truncated cone-shaped flow guiding sleeve 632 and the lower part of the outer sleeve 63.

The lower ends of the inner inverted cone frustum-shaped flow guiding sleeve 622 and the outer inverted cone frustum-shaped flow guiding sleeve 632 are respectively provided with an inner annular interface 6221 and an outer annular interface 6321;

the inner ring is inserted into an outer wall plate of the inner ring air inlet cavity, and the outer wall plate supports an inner inverted cone frustum-shaped guide sleeve;

the outer annular connector is inserted into an outer annular wall plate of the outer air inlet cavity of the outer ring, and the outer annular wall plate supports the outer inverted cone-shaped guide sleeve.

As a further improvement of the invention: the liquid receiving device further comprises a liquid receiving disc 8, an annular supporting table 16 is arranged on the peripheral surface of the furnace end 1, and a connecting seat 17 is arranged at the radial edge of the annular supporting table; the upper end of the furnace end 1 passes through a through hole 81 on the bottom plate of the liquid receiving disc 8 and extends out, and a gap is reserved between the flow dividing seat 6 and the liquid receiving disc 8; the annular supporting table 16 supports the liquid receiving disc 8, and screws penetrate through the liquid receiving disc 8 and are screwed with the connecting seat 17.

A boss 82 is arranged on the bottom plate of the liquid receiving disc 8, and a through hole 81 is arranged on the boss 82;

the boss 82 is provided with a plurality of circular arc-shaped primary air holes 83 surrounding the through holes;

the diameter of the shunt seat 6 is larger than or equal to the diameter of the boss 82; or the area of the split-flow seat 6 is larger than or equal to the area of the boss 82; by adopting the structure, the upper air inlet of the infrared burner is realized. Liquid is also prevented from entering the bottom shell of the kitchen range through the circular arc-shaped primary air holes 83.

As a further improvement of the invention: the ignition sensing means 5 comprises an electrically insulating cylinder base 51, a power terminal 52 and a discharge piece 53, the discharge piece 53 comprising a circular plate portion 531 and at least two discharge needles 532 surrounding the circular plate portion;

the power terminal 52 is arranged in the electric insulation cylinder seat 51 and extends out from two ends, the upper end of the power terminal 52 is connected with the circular plate part 531, and the discharge needle 532 is opposite to the flanging part 42 of the central pressure sleeve 4; the central pressing sleeve 4 is used as a power receiving electrode; the discharge member 53 serves as a thermocouple.

In use, the ignition control device is operated, the discharge member 53 is electrified, the discharge needle 532 discharges, the flanging part 42 serves as the other pole, and the ignition is matched with each other; after ignition, the discharge member is de-energized and serves as a temperature sensor or thermocouple.

What has been described above is merely a preferred embodiment of the present invention. It should be noted that modifications and variations can be made by those skilled in the art without departing from the principles of the present invention, which is also considered as being within the scope of the present invention.

Claims (4)

1. An infrared cooker burner comprises a burner, an infrared burning disc, a decorative ring, a central pressing sleeve and an ignition induction device, wherein the infrared burning disc is annular; the central pressing sleeve comprises a cylinder body and a flanging part; the method is characterized in that: the furnace end comprises a central cavity with upper and lower openings, an inner ring air inlet cavity surrounding the central cavity, an inner injection pipe communicated with the inner ring air inlet cavity, an outer ring air inlet cavity surrounding the inner ring air inlet cavity and an outer injection pipe;

the device also comprises a flow dividing seat and a flow dividing piece, wherein the flow dividing seat comprises an upper central tube, an inner sleeve and an outer sleeve, the upper central tube is connected with the inner sleeve to form an inner ring air outlet cavity, the inner sleeve is connected with the outer sleeve to form an outer ring air outlet cavity, and a shoulder is arranged on the inner wall of the outer sleeve;

the splitter has a central aperture;

the lower end of the upper central tube is inserted into the upper end of the central cavity, the inner ring air outlet cavity is communicated with the inner ring air inlet cavity, the outer ring air outlet cavity is communicated with the outer ring air inlet cavity, and the split seat is detachably matched with the burner; the upper part of the upper central tube is provided with a central hole of the infrared combustion disc, the inner sleeve supports the infrared combustion disc, and the infrared combustion disc is matched with the shoulder support; the inner sleeve passes through the central hole of the shunt, and a gap is formed between the radial edge of the shunt and the outer sleeve; the cylinder body is inserted into the upper central tube, the flanging part compresses the infrared combustion disc, the outer sleeve is inserted into the decorative ring, and the inner ring pressing plate of the decorative ring compresses the infrared combustion disc;

the upper central tube and the inner sleeve are fixedly connected together through a plurality of inner radial ribs, and an inner air guide hole is formed by the upper central tube and the inner sleeve between two adjacent inner radial ribs; the inner sleeve and the outer sleeve are fixedly connected together through a plurality of outer radial ribs, and an outer air guide hole is formed by the inner sleeve and the outer sleeve between two adjacent outer radial ribs;

the inner radial rib and the outer radial rib are on a radial line;

the flow dividing piece comprises a fixed seat and a flow dividing cavity, the flow dividing cavity is provided with a lower opening and an outer opening, and a side wall plate of the flow dividing cavity wall is an inverted cone frustum-shaped curved surface;

the fixed seat and the shunt cavity are alternately arranged, the fixed seat is fixedly connected with the outer radial rib, and the lower opening of the shunt cavity is opposite to the outer air guide hole;

the lower end of the inner sleeve is provided with an inner inverted cone frustum-shaped flow guiding sleeve, and the lower end of the outer sleeve is provided with an outer inverted cone frustum-shaped flow guiding sleeve;

the inner radial rib is connected with the upper central tube and the inner inverted cone-shaped guide sleeve, and the outer radial rib is connected with the inner sleeve and the outer inverted cone-shaped guide sleeve;

the lower ends of the inner inverted cone frustum-shaped flow guiding sleeve and the outer inverted cone frustum-shaped flow guiding sleeve are respectively provided with an inner annular interface and an outer annular interface;

the inner annular interface is inserted into an outer wall plate of the inner annular air inlet cavity, and the outer wall plate supports an inner inverted cone frustum-shaped guide sleeve;

the outer annular connector is inserted into an outer annular wall plate of the outer annular air inlet cavity, and the outer annular wall plate supports an outer inverted cone frustum-shaped guide sleeve;

the liquid receiving device comprises a furnace end, a liquid receiving disc and a liquid receiving device, wherein an annular supporting table is arranged on the peripheral surface of the furnace end, and a connecting seat is arranged at the radial edge of the annular supporting table; the upper end of the furnace end penetrates through the through hole on the bottom plate of the liquid receiving disc to extend out, the annular supporting table supports the liquid receiving disc, and the screw penetrates through the liquid receiving disc to be screwed with the connecting seat.

2. The infrared cooktop burner of claim 1, wherein: a boss is arranged on the bottom plate of the liquid receiving disc, and a through hole is arranged on the boss;

a plurality of circular arc-shaped primary air holes surrounding the through holes are arranged on the boss;

the diameter of the flow dividing seat is larger than or equal to that of the boss.

3. The infrared cooktop burner of claim 1 or 2, wherein: the ignition induction device comprises an electric insulation cylinder seat, a power terminal and a discharge piece, wherein the discharge piece comprises a circular plate part and at least two discharge needles surrounding the circular plate part;

the power terminal is arranged in the electric insulation cylinder seat and extends out from two ends, the upper end of the power terminal is connected with the circular plate part, and the discharge needle is opposite to the flanging part of the central pressing sleeve; the central pressing sleeve is used as a power receiving electrode; the discharge member acts as a thermocouple.

4. The infrared cooktop burner of claim 1, wherein: and a heat dissipation cavity with a lower opening is formed between the outer inverted truncated cone-shaped flow guide sleeve and the lower part of the outer sleeve.

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