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CN-122015136-A - High flame concave surface stove core electric fire stove

CN122015136ACN 122015136 ACN122015136 ACN 122015136ACN-122015136-A

Abstract

A high-flame concave-surface electric fire stove changes the plane stove core design of the existing electric fire stove into a concave-surface stove core design, three groups of multi-ring mutually inclined plasma pipes are arranged on the concave surface of the electric fire stove, and a concave wind drum and an air inlet valve are designed, so that plasma generated by the inclined plasma pipes is sprayed obliquely at a high speed, high-temperature flame is generated, when the flame generated by the three mutually inclined plasma pipes meets, the flame can rise upwards, charged particles in the flame are mutually attracted to form high flame, and the radian of the concave-surface stove core is consistent with that of a matched large concave-surface pot, so that the upper part of the bottom surface of the matched large concave-surface pot is uniformly heated, and the problem that the large concave-surface pot cannot be used by the plane stove core electric fire stove is solved.

Inventors

  • WANG KAIBIN

Assignees

  • 王开彬

Dates

Publication Date
20260512
Application Date
20260124

Claims (7)

  1. 1. A high flame concave stove core electric fire stove (1) is characterized by comprising a concave-convex pot ring (2), a concave surface air drum upper plate (3), a plasma tube (4), an electric fire stove surface (5), a power line (6), a power line plug (6-1), an air door adjusting key (7), a flow adjusting switch (8), a power switch (9), a stove foot (10), a nozzle (11), a concave surface stove core (12), an electric fire stove bottom plate (13), an electric fire stove high frequency generator integrated control system (14), three groups of three steel needles (30) in the center of the series connection stove core high voltage wire (15), a first group of three steel needles (30) high voltage wire (16) in the series connection, a second group of three steel needles (30) high voltage wire (17) in the series connection, a third group of three steel needles (30) high voltage wire (18) in the series connection, a fixing bolt (19), a telecommunication line (20), a power line (21), a telecommunication line (22), a stand column (23), a fan (24), a concave surface air drum shell (25), a concave surface air drum bottom plate (26), a stand column (27), an insulating ceramic tube (28), a steel needle (30), a straight line (32) and a straight line air inlet pipe (32), the high-flame concave-surface electric fire stove (1) is characterized in that a concave-convex pot ring (2) is fixed on an electric fire stove surface (5), a power wire (6) is fixed on the back of the high-flame concave-surface electric fire stove (1), one end of the power wire (6) is connected with an electric fire stove high-frequency generator integrated control system (16), the other end of the power wire is connected with a plug (6-1), and an air door adjusting key (7) is fixed on the front of the high-flame concave-surface electric fire stove (1), Four stove feet (10) are fixed at four corners below an electric fire stove surface (5), an electric fire stove high-frequency generator integrated control system (14) is fixed on the right side inside a high-flame concave stove core electric fire stove (1), a concave stove core (12) and a fan (24) are fixed on four left upright posts (27) through fixing bolts (19), a wind drum shell (25) is fixed on a concave wind drum bottom plate (26), An insulating ceramic tube (28), a steel needle (29) is fixed in the insulating ceramic tube (28), a steel needle head (30) protrudes out of the outer end of the insulating ceramic tube (28), a steel needle head (41) is inserted into an inclined plasma tube (4), a plurality of ventilation holes (36) and four screw holes (39) are formed in the central part of a concave wind drum bottom plate (26), four fixing lugs are formed in a semi-spherical shell (31), the semi-spherical shell (31) is fixed on the concave wind drum bottom plate (26) through the four fixing lugs (38) and the screw holes (39) by self-tapping screws (37), the ventilation holes (36) are buckled in the semi-spherical shell (31), an air inlet pipe (32) is fixed on one side of the semi-spherical shell (31), an air door (34) is arranged between an air inlet pipe (32) and a fan (24), two upright posts (23) are fixed on the outer side surface of an air drum shell (25), a sliding rail (35) is fixed on the two upright posts (23), a linear motion module (33) is sleeved on the sliding rail (35), the air door (34) is fixed below the linear motion module (33), one end of a telecommunication line (20) is connected with the linear motion module (33), the other end of the telecommunication line (22) is connected with an air door adjusting key (7), one end of the telecommunication line (22) is connected with the air door adjusting key (7), the other end of the telecommunication line is connected with an electric fire stove high-frequency generator integrated control system (14), one end of the electric wire (20) is connected with a fan (24), the other end of the electric wire is connected with an electric fire stove high-frequency generator integrated control system (14), a concave wind drum upper plate (3) is fixed on a wind drum shell (25), three groups of three mutually inclined plasma pipes (4) are fixed at the center of the concave wind drum upper plate (3), the three groups of three mutually inclined plasma pipes (4) are taken as the center, a first ring of three mutually inclined plasma pipes (4) are fixed in the concave wind drum upper plate (3), a second ring of three mutually inclined plasma pipes (4), a third ring of three mutually inclined plasma pipes (4) are connected, and an N ring of three mutually inclined plasma pipes (4), high-voltage wires (15) are connected with the three groups of three steel needles (30) in series and are packaged, high-voltage wires (16) are connected with the first ring of three steel needles (30) in series and packaged, high-voltage wires (17) are connected with the second ring of three groups of three mutually inclined plasma pipes (30) in series and packaged, high-voltage wires (18) are connected with the third ring of three groups of three mutually inclined plasma pipes (30) in series and packaged, the three groups of three mutually inclined plasma pipes (4) are sequentially positioned in the three groups of three mutually inclined plasma pipes (4) through a rotary switch (8), the high-voltage electricity of the steel needle (29) in the second circle of the plurality of groups of three mutually inclined plasma pipes (4), the high-voltage electricity of the steel needle (29) in the third circle of the plurality of groups of three mutually inclined plasma pipes (4), and the high-voltage electricity of the steel needle (29) in the Nth circle of the plurality of groups of three mutually inclined plasma pipes (4) are sequentially electrified.
  2. 2. The electric fire stove (1) with the high flame concave stove core according to claim 1, wherein a plurality of ventilation holes (36) are formed in the center of the concave air drum bottom plate (26), the ventilation holes (36) are buckled in the hemispherical shell (31), an air inlet pipe (32) is fixed on one side of the hemispherical shell (31), and an air door (34) is arranged between the air inlet pipe (32) and the fan (24).
  3. 3. The high flame concave core electric fire stove (1) according to claim 1, wherein the concave radian of the concave core (12) is consistent with the matched concave radian of the large concave pot.
  4. 4. The high flame concave core electric fire stove (1) according to claim 1, wherein each group is formed by combining three plasma pipes (4) in a mutually inclined mode according to the concave radian of the concave wind drum upper plate (3).
  5. 5. The high flame concave core electric fire stove (1) according to claim 1, wherein the concave wind drum (40) is composed of a concave wind drum upper plate (3), a concave wind drum shell (25) and a concave wind drum bottom plate (26).
  6. 6. The high-flame concave-surface stove core electric fire stove (1) according to claim 1, wherein the high-voltage electricity of the steel needles (29) in the three groups of three mutually inclined plasma pipes (4) positioned at the center position on the concave-surface stove core (12) is sequentially connected by rotating the flow regulating switch (8), the high-voltage electricity of the steel needles (29) in the first ring of the three groups of mutually inclined plasma pipes (4), the high-voltage electricity of the steel needles (29) in the second ring of the three groups of mutually inclined plasma pipes (4), the high-voltage electricity of the steel needles (29) in the third ring of the three groups of mutually inclined plasma pipes (4), and the high-voltage electricity of the steel needles (29) in the nth ring of the three groups of mutually inclined plasma pipes (4) are sequentially electrified.
  7. 7. The high-flame concave core electric fire stove (1) according to claim 1, wherein each group of three plasma tubes (4) is inclined with respect to each other, and flames ejected from the nozzles (11) of the three plasma tubes (4) intersect with each other.

Description

High flame concave surface stove core electric fire stove Technical Field The invention belongs to the technical field of high-flame concave-surface stove core electric fire stove and manufacturing. Background At present, the electric fire stove used by people is designed as a planar stove core, and plasma pipes are arranged on a plane in parallel, so that the electric fire stove is a planar stove core, flames sprayed by adjacent plasma pipes cannot cross and meet each other, flame temperatures cannot be overlapped, the electric fire stove is low in flame, firepower is insufficient, flames can only contact the bottom of a large concave pan and cannot contact the upper part of the bottom surface of the pan, the heating surface of the large concave pan is limited, and therefore, the large concave pan cannot be used, and the application range of the electric fire stove is severely limited. Disclosure of Invention In order to overcome the defects in the prior art, the high-flame concave-surface stove core electric fire stove effectively solves the problems by unique designs of concave surface, mutually inclined plasma tube, concave surface wind drum and air inlet valve of the stove core of the electric fire stove. The scheme is that the existing planar stove core design is changed into a concave stove core design, plasma pipes are arranged on a concave surface in a mutually inclined grouping way, plasma generated by the inclined plasma pipes is sprayed at a high speed in an inclined way, so that inclined high-temperature flame is generated, when flames generated by adjacent mutually inclined plasma pipes meet, flame temperature superposition leads to more severe combustion, ambient air temperature is raised faster, heat convection effect is enhanced, namely, the rising speed of hot air is accelerated, the flames of the hot air can rise upwards, charged particles in the flames are mutually attracted to form higher flames, the overall flames are higher than single independent flames, and firepower is enhanced. In addition, the plasma tube is fixed on the concave air drum, so that the height and quality of flame can be regulated by regulating the current and the air inflow, the radian of the concave cooker core is consistent with that of the matched large concave cooker, the upper part of the bottom surface of the large concave cooker can be uniformly heated, the problem that the large concave cooker cannot be used by the electric fire cooker with the planar cooker core is solved, and meanwhile, the generation of byproducts such as ozone, nitrogen oxides and the like is reduced. The technical scheme for achieving the aim is that the electric fire stove comprises a concave-convex pot ring (2), a concave-surface wind drum upper plate (3), a plasma tube (4), an electric fire stove surface (5), a power line (6), a power line plug (6-1), a throttle adjusting key (7), a current adjusting switch (8), a power switch (9), a stove foot (10), a nozzle (11), a concave-surface wind stove core (12), an electric fire stove bottom plate (13), an electric fire stove high-frequency generator integrated control system (14), three groups of three steel needles (30) in the center of a series stove core high-voltage line (15), a first group of three steel needles (30) high-voltage line (16) in series, a second group of three steel needles (30) high-voltage line (17) in series, a third group of three steel needles (30) high-voltage line (18) in series, a fixing bolt (19), a telecommunication line (20), a power line (21), a telecommunication line (22), a stand column (23), a fan (24), a concave-surface wind drum shell (25), a concave-surface wind drum bottom plate (26), a stand column (27), an insulating ceramic tube (28), a steel needle (29), a steel needle (30), a semi-spherical air inlet (35), a linear air inlet guide rail (32), self-tapping screw (37), fixed lug (38), screw hole (39), concave wind drum (40) and steel needle point (41) to form high flame concave stove core electric fire stove (1). The electric fire stove is structurally characterized in that a concave-convex pot ring (2) is fixed on an electric fire stove surface (5), a power line (6) is fixed on the back of a high-flame concave stove core electric fire stove (1), one end of the power line (6) is connected with an electric fire stove high-frequency generator integrated control system (16), the other end of the power line is connected with a plug (6-1), an air door adjusting key (7), a current adjusting switch (8) and a power switch (9) are fixed on the front of the high-flame concave stove core electric fire stove (1), four stove feet (10) are fixed at four corners below the electric fire stove surface (5), an electric fire stove high-frequency generator integrated control system (14) is fixed on the right side inside the high-flame concave stove core electric fire stove (1), a concave stove core (12) and a fan (24) are fixed on four left upright posts (27) through