CN214664395U

CN214664395U - Novel infrared burner

Info

Publication number: CN214664395U
Application number: CN202022688201.9U
Authority: CN
Inventors: 刘凯; 陈琦; 潘叶江
Original assignee: Vatti Co Ltd
Current assignee: Vatti Co Ltd
Priority date: 2020-11-19
Filing date: 2020-11-19
Publication date: 2021-11-09
Anticipated expiration: 2030-11-19

Abstract

The utility model discloses a novel infrared burner, including furnace end, combustion body subassembly and the ignition module who has ignition portion, the furnace end is equipped with inner ring air cavity, outer loop air cavity, draws in and penetrates the pipe and draw outward and penetrate the pipe, combustion body subassembly lid is located the top of furnace end, wherein ignition module's ignition portion sets up draw outward and penetrate the pipe perhaps interior gas outlet top of penetrating the pipe. The utility model discloses a novel infrared burner, through the ignition portion with the subassembly of igniteing set up in draw penetrate the pipe or draw the gas outlet top of penetrating the pipe outward for the combustor when igniteing, near the ignition portion can reach fast and ignite required gas concentration, is showing the speed that improves the success of igniteing and ignites the success rate, promotes user's use and experiences.

Description

Novel infrared burner

Technical Field

The utility model relates to a combustor technical field especially relates to a novel infrared burner.

Background

The infrared range is popular in the market due to better heating uniformity during cooking, lower CO emission in tail gas, better wind resistance and higher thermal efficiency, but the infrared range loses the advantage in the aspect of thermal efficiency gradually along with the improvement of the thermal efficiency of the atmospheric type cooker in recent years.

The minimum fire thermal power of the existing two-ring infrared stove is large, the cooking experience is poor in application scenes such as small fire heat preservation, soup cooking, porridge cooking and the like in a kitchen, the thermal power is too large in a heat preservation scene, and the minimum fire is more than 550w in scenes such as soup cooking/porridge cooking and the like, so that the two-ring infrared stove is easy to overflow. In addition, the ignition success rate of the existing igniter is low, and the ignition success rate is not high, so that the use experience of a user is influenced.

Disclosure of Invention

The utility model discloses aim at solving one of the problems that exist among the current correlation technique at least to a certain extent, for this reason, the utility model provides a novel infrared burner improves and ignites the success rate height, promotes user's culinary art and experiences.

According to the novel infrared burner provided by the above, the technical scheme is as follows:

a novel infrared burner comprises a burner head, a burner body assembly and an ignition assembly with an ignition part, wherein the burner head is provided with an inner ring air cavity, an outer ring air cavity, an inner ejector pipe and an outer ejector pipe; or the ignition device also comprises a central through hole penetrating through the furnace end and the combustion body assembly, the ignition assembly is arranged at the central through hole, the upper end of the ignition assembly extends to the position above the central through hole, and the ignition part is positioned above the air outlet of the inner injection pipe.

In some embodiments, the bottom of the inner ring air cavity is higher than the air outlet of the inner ejector tube, the furnace end is further provided with an air outlet channel, the upper end and the lower end of the air outlet channel are respectively communicated with the air outlets of the inner ring air cavity and the inner ejector tube, and the ignition part is arranged right above the air outlet channel.

In some embodiments, the horizontal cross-sectional area of the air outlet channel is less than one third of the horizontal cross-sectional area of the inner ring air cavity, and is greater than or equal to the air outlet area of the inner ejector tube.

In some embodiments, the burner is further provided with an air outlet channel, the upper end and the lower end of the air outlet channel are respectively communicated with the outer ring air cavity and the air outlet of the outer injection pipe, and the ignition part is arranged above the air outlet channel.

In some embodiments, the height of the inner ring air cavity is less than the height of the outer ring air cavity, and the bottom of the inner ring air cavity is higher than the bottom of the outer ring air cavity.

In some embodiments, a height difference Δ H between the bottom of the inner ring air cavity and the bottom of the outer ring air cavity is greater than one half of a height H of an inner ring wall of the outer ring air cavity and less than three quarters of the height H of the inner ring wall of the outer ring air cavity.

In some embodiments, the burner body assembly includes a gas distribution plate connected to the burner and having an inner gas distribution chamber communicating with the inner ring gas chamber and an outer gas distribution chamber communicating with the outer ring gas chamber, and the inner gas distribution chamber has a gas outlet with a radial width greater than or equal to 45mm and less than 68 mm.

In some embodiments, the burner body assembly further comprises an inner cup disposed within the gas distributor and dividing the gas distributor into the inner gas distribution chamber and the outer gas distribution chamber, and an inner diameter of an upper end surface of the inner cup is less than 68 mm.

In some embodiments, the inner cup body comprises an air inlet section and an air outlet section which are connected with each other, the inner diameter of the air inlet section is smaller than that of the air outlet section, and the inner diameter of the air outlet section is 50 mm-55 mm.

In some embodiments, a fixing seat located at the edge of the central through hole is arranged at the bottom of the furnace end, the fixing seat is arranged close to the inner injection pipe, and the ignition assembly is mounted at the central through hole and detachably connected with the fixing seat.

Compared with the prior art, the utility model discloses an at least including following beneficial effect:

the utility model discloses a novel infrared burner, through the ignition portion with the subassembly of igniteing set up in draw penetrate the pipe or draw the gas outlet top of penetrating the pipe outward for the combustor when igniteing, near the ignition portion can reach fast and ignite required gas concentration, is showing the speed that improves the success of igniteing and ignites the success rate, promotes user's use and experiences.

Drawings

FIG. 1 is a schematic structural diagram of a burner according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a burner in an embodiment of the invention;

FIG. 3 is a top view of the burner of the embodiment of the present invention;

FIG. 4 is a schematic structural view of the air distribution plate and the inner cup body in the embodiment of the present invention;

FIG. 5 is a front view of the inner cup in an embodiment of the present invention;

fig. 6 is an exploded view of the burner according to the embodiment of the present invention.

Detailed Description

The present invention is illustrated by the following examples, but the present invention is not limited to these examples. To the embodiment of the present invention, modify or replace some technical features, without departing from the spirit of the present invention, it should be covered in the technical solution scope of the present invention.

Referring to fig. 1-3, the present embodiment provides a novel infrared burner, including a burner 1, a burner body assembly 2 and an ignition assembly 3 having an ignition portion 31, the burner 1 is provided with an inner ring air cavity 11 having an opening at the top, an outer ring air cavity 12 having an opening at the top, an inner injection pipe 13 and an outer injection pipe 14, the inner injection pipe 13 is communicated with the inner ring air cavity 11, the outer injection pipe 14 is communicated with the outer ring air cavity 12, and the burner body assembly 2 covers the top of the burner 1 and covers the top openings of the inner ring air cavity 11 and the outer ring air cavity 12. There are two ways of mounting the ignition module 3: firstly, the ignition assembly 3 is arranged at the radial outer side of the combustion body assembly 2, and the ignition part 31 is positioned above the air outlet of the outer injection pipe 14; firstly, the combustor still includes the central through-hole 4 that runs through furnace end 1 and combustion body subassembly 2, and ignition module 3 is installed in central through-hole 4 department and its upper end extends to the top of central through-hole 4, and ignition portion 31 is located and draws the gas outlet top of penetrating pipe 13 in.

It can be seen that the novel infrared burner of this embodiment, set up the ignition portion 31 through firing subassembly 3 and draw in the gas outlet top that penetrates pipe 13 or draw outward and penetrate pipe 14 for the combustor is when igniteing, and near 31 can reach the required gas concentration of lighting fast of ignition portion, is showing the speed that improves the success of igniting and ignites the success rate, promotes user's use and experiences.

Referring to fig. 2-3, the ignition portion 31 is disposed above the air outlet of the inner injection pipe 13 in this embodiment. Specifically, the bottom of inner ring air cavity 11 is higher than the gas outlet of interior injection pipe 13, furnace end 1 still is equipped with outlet channel 15, the upper and lower both ends of outlet channel 15 communicate the gas outlet of inner ring air cavity 11 and interior injection pipe 13 respectively, ignition portion 31 sets up directly over outlet channel 15, thus, make the gas that flows from interior injection pipe 13, pass through outlet channel 15 earlier, and then transmit to interior injection pipe 13, under outlet channel 15's guide effect, can guarantee that near ignition portion 31 can reach the required gas concentration of lighting a fire fast, not only do benefit to and shorten the required time of successful ignition, still do benefit to and improve and ignite the success rate. In other embodiments, when the ignition portion 31 is disposed above the air outlet of the outer ejector tube 14, the outer annular air cavity 12 and the air outlet of the outer ejector tube 14 may be designed to communicate with each other through the air outlet passage 15, and the ignition portion 31 is disposed above the air outlet passage 15, so as to ensure that the gas concentration required for ignition can be quickly reached near the ignition portion 31.

Preferably, the horizontal sectional area of this embodiment outlet channel 15 is less than the third of the horizontal sectional area of inner ring air cavity 11, and is more than or equal to the gas outlet area of interior ejector pipe 13, like this, guarantee outlet channel 15's setting, can not influence the effect of drawing of inner ring gas and upwards transmitting on the one hand, the inner ring air cavity 11 is filled fast through outlet channel 15 earlier to the gas of being convenient for, upwards transmit to burning body subassembly 2 top burning again, on the other hand guarantees that near 31 can reach the required gas concentration of lighting fast of igniting.

Referring to fig. 2, it is preferable that the height of the inner ring air chamber 11 is smaller than the height of the outer ring air chamber 12, and the bottom of the inner ring air chamber 11 is higher than the bottom of the outer ring air chamber 12. Therefore, firstly, the bottom of the inner ring air cavity 11 and the bottom of the outer ring air cavity 12 are staggered in the vertical direction by a larger size, the volume of the inner ring air cavity 11 is further reduced, and compared with a furnace head with the same height of the inner ring air cavity 11 and the outer ring air cavity 12, when the furnace head 1 is cast, waste gas generated by sand cores of the outer ring air cavity 12 is easy to discharge, the bad gas waste rate of the furnace head 1 can be obviously reduced, and the manufacturing performance of the furnace head 1 is better. Secondly, the volume of outer ring air cavity 12 is bigger relatively, is convenient for outer ring air cavity 12 to undertake the mixed gas function of the most load of combustor for infrared furnace end's primary air coefficient is higher, does benefit to and promotes outer ring fire combustion's sufficiency and stability. Thirdly, the area of the burner 1 below the inner ring air cavity 11 can be hollowed, which is beneficial to reducing the casting material of the burner 1 and leading the manufacturing cost to be lower.

More preferably, the height difference Δ H between the bottom of the inner ring air cavity 11 and the bottom of the outer ring air cavity 12 is greater than one half of the height H of the inner ring wall of the outer ring air cavity 12 and less than three quarters of the height H of the inner ring wall of the outer ring air cavity 12, i.e. three quarters of the height H of the inner ring wall of the outer ring air cavity 12

Therefore, the furnace end 1 is simpler to cast, the waste gas generated by the sand core positioned on the radial inner side of the outer ring air cavity 12 is easier to discharge, and the casting success rate of the furnace end 1 is higher.

Referring to fig. 2 and 4, specifically, the burner body assembly 2 includes a gas distribution plate 21 and a burner plate 23, the gas distribution plate 21 is connected to the burner 1 and has an inner gas distribution chamber 211 and an outer gas distribution chamber 212, the inner gas distribution chamber 211 is communicated with the inner gas distribution chamber 11, the outer gas distribution chamber 212 is communicated with the outer gas distribution chamber 12, and the radial width of the gas outlet of the inner gas distribution chamber 211 is greater than or equal to 45mm and less than 68 mm. The combustion plate 23 is disposed in the gas-distributing disk 21 to cover the top outlets of the inner gas-distributing chamber 211 and the outer gas-distributing chamber 212. In this embodiment, the radial width of the air outlet of the inner air-dividing cavity 211 refers to the distance between the inner annular wall of the inner air-dividing cavity 211 and the outer annular wall thereof in the radial direction, the inner diameter of the outer annular wall of the inner air-dividing cavity 211 refers to the distance between the outer annular wall of the inner air-dividing cavity 211 and the central axis of the central through hole 4, and the inner diameter of the inner annular wall of the inner air-dividing cavity 211 refers to the distance between the inner annular wall of the inner air-dividing cavity 211 and the central axis of the central through hole 4. It can be seen from this that, because the outer rampart internal diameter of company's current infrared burner's interior air cavity 211 is 68mm usually, this embodiment is through the interior air cavity size that designs for being less than current infrared burner's interior air cavity size with the size of interior air cavity 211, can also present under red prerequisite guaranteeing the small fire, can realize that the minimum fire reduces to 300w from 550w, has increaseed the margin that the firepower was adjusted, makes the product experience better when cooking scenes such as small fire heat preservation, a kind of deep pot hot water, a kind of deep pot congee, avoid appearing the overflow pot phenomenon.

Specifically, the burner body subassembly 2 still includes interior cup 22, interior cup 22 sets up in minute gas dish 21 and its lower extreme butt or connect the bottom inboard of minute gas dish 22, the bottom of upper end butt burner plate 24, make interior cup 22 can divide into minute gas dish 21 and divide air cavity 211 and outer air cavity 212 in being independent of each other, the internal diameter of interior cup 22 up end is less than 68mm, and be greater than 35mm, thus, make the interior ring fire region of burner plate 24 littleer, guarantee that the interior ring small fire of burner plate 24 can also present the red of infrared burner, the product keeps warm at the small fire simultaneously, can not overflow the pot when making a deep pot hot water or congee. In the present embodiment, the inner diameter of the inner cup 22 refers to the horizontal spacing between the inner cup 22 and the central axis of the central through hole 4.

Referring to fig. 5, specifically, the inner cup 22 includes an air inlet section 221 and an air outlet section 222 which are connected to each other, an inner diameter R1 of the air inlet section 221 is smaller than an inner diameter R2 of the air outlet section 222, and an inner diameter R2 of the air outlet section 222 is 50mm to 55mm, so that the inner diameter R2 of the air outlet section 222 is reduced from the existing 68mm to 50mm to 55mm, and on the premise that the small fire can also be red, the minimum fire can be reduced from 550w to 300w, the situation that the small fire is not easy to overflow during cooking is ensured, and the cooking experience of a user is improved.

More specifically, the inner cup 22 further includes a connecting section 223, and the air inlet section 221 and the air outlet section 222 are fixedly connected through the connecting section 223. In this embodiment, the connecting section 223 is an arc structure that can play a guiding role, so as to guide the mixture of the air inlet section 221 to the air outlet section 222. Preferably, the connection section 223 is integrally formed with the air inlet section 221 and the air outlet section 222, respectively, so as to facilitate rapid machining and forming, improve connection strength, and prevent air leakage at the connection.

Referring to fig. 6, in particular, the burner 1 is provided with a lower central hole 17, and the burner assembly 2 is correspondingly provided with an upper central hole 24, the upper central holes 24 communicating with the lower central hole 17 and together defining the central through hole 4 when the burner assembly 2 is connected to the burner 1. In addition, 1 bottom of furnace end is equipped with the fixing base 16 that is located 4 edges of central through-hole, fixing base 16 draws in drawing in to penetrate pipe 13 and arranges, ignition module 3 is installed in 4 departments of central through-hole and it still has support 32, ignition module 3 passes through support 32 and is connected with fixing base 16 can dismantle, thus, draw in through drawing pipe 13 to be close to with fixing base 16 design and arrange, make ignition module 3 connect when fixing base 16, ignition module 3 draws the gas outlet of pipe 13 in being close to more, and then guarantee that ignition portion 31 of ignition module 3 can be accurate sit in the gas outlet top of interior injection pipe 13, make the product when igniteing, near 31 can reach required gas concentration of lighting fast of ignition portion.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims

1. The novel infrared combustor comprises a furnace end (1), a combustion body assembly (2) and an ignition assembly (3) with an ignition part (31), wherein the furnace end (1) is provided with an inner ring air cavity (11), an outer ring air cavity (12), an inner injection pipe (13) and an outer injection pipe (14), the inner injection pipe (13) is communicated with the inner ring air cavity (11), the outer injection pipe (14) is communicated with the outer ring air cavity (12), the combustion body assembly (2) is arranged at the top of the furnace end (1) in a covering mode, the novel infrared combustor is characterized in that the ignition assembly (3) is arranged on the radial outer side of the combustion body assembly (2), and the ignition part (31) is located above an air outlet of the outer injection pipe (14);

or the ignition device further comprises a central through hole (4) penetrating through the furnace end (1) and the combustion body assembly (2), the ignition assembly (3) is installed at the central through hole (4) and the upper end of the ignition assembly extends to the upper portion of the central through hole (4), and the ignition portion (31) is located above the air outlet of the inner injection pipe (13).

2. The novel infrared burner according to claim 1, wherein the bottom of the inner ring air cavity (11) is higher than the air outlet of the inner injection pipe (13), the burner (1) is further provided with an air outlet channel (15), the upper end and the lower end of the air outlet channel (15) are respectively communicated with the air outlets of the inner ring air cavity (11) and the inner injection pipe (13), and the ignition part (31) is arranged right above the air outlet channel (15).

3. The novel infrared burner as claimed in claim 2, characterized in that the horizontal cross-sectional area of the air outlet channel (15) is less than one third of the horizontal cross-sectional area of the inner ring air cavity (11) and is greater than or equal to the air outlet area of the inner ejector tube (13).

4. The novel infrared burner as claimed in claim 1, wherein the burner (1) is further provided with an air outlet channel (15), the upper end and the lower end of the air outlet channel (15) are respectively communicated with the outer ring air cavity (12) and the air outlet of the outer ejector tube (14), and the ignition portion (31) is arranged above the air outlet channel (15).

5. A novel infrared burner according to claim 1, characterized in that the height of the inner ring air chamber (11) is smaller than the height of the outer ring air chamber (12), and the bottom of the inner ring air chamber (11) is higher than the bottom of the outer ring air chamber (12).

6. A novel infrared burner according to claim 5, characterized in that the height difference Δ H between the bottom of the inner ring air cavity (11) and the bottom of the outer ring air cavity (12) is more than half of the height H of the inner ring wall of the outer ring air cavity (12) and less than three quarters of the height H of the inner ring wall of the outer ring air cavity (12).

7. The novel infrared burner as claimed in any one of claims 1 to 6, characterized in that the burner body assembly (2) comprises a gas distribution disc (21), the gas distribution disc (21) is connected with the burner head (1) and has an inner gas distribution chamber (211) and an outer gas distribution chamber (212), the inner gas distribution chamber (211) is communicated with the inner ring gas chamber (11), the outer gas distribution chamber (212) is communicated with the outer ring gas chamber (12), and the radial width of the gas outlet of the inner gas distribution chamber (211) is greater than or equal to 45mm and less than 68 mm.

8. The novel infrared burner as claimed in claim 7, characterized in that the burner body assembly (2) further comprises an inner cup (22), the inner cup (22) is arranged in the gas distribution plate (21) and divides the gas distribution plate (21) into the inner gas distribution chamber (211) and the outer gas distribution chamber (212), and the inner diameter of the upper end surface of the inner cup (22) is smaller than 68 mm.

9. The novel infrared burner as claimed in claim 8, characterized in that the inner cup (22) comprises an air inlet section (221) and an air outlet section (222) which are connected with each other, the inner diameter of the air inlet section (221) is smaller than that of the air outlet section (222), and the inner diameter of the air outlet section (222) is 50 mm-55 mm.

10. The novel infrared burner as claimed in claim 1, characterized in that a fixing seat (16) is provided at the bottom of the burner (1) and located at the edge of the central through hole (4), the fixing seat (16) is arranged close to the inner injection pipe (13), and the ignition assembly (3) is installed at the central through hole (4) and detachably connected with the fixing seat (16).