KR102398269B1 - Gas stove with multi-division radial arrangement type head structure - Google Patents

Abstract

The present invention relates to a gas range having a multi-segmented radial arrangement head structure. In order to increase heating efficiency, the gas range having the multi-segmented radial arrangement head structure of the present invention comprises: a base member (10); a gas supply member (60); a crater seating table (30); a central crater (40); a border crater (50); a gas control member (20); and a controller (80). The present invention relates to the gas range having the multi-segment radial arrangement head structure, increasing the heating efficiency.

Description

Gas stove with multi-division radial arrangement type head structure

The present invention relates to a gas range having a multi-division radial arrangement type head structure, and more particularly, a central crater is installed on the center side of a crater seating table supplied with gas, and a rim crater is radially formed around the central crater. It relates to a gas range having a multi-division radiation arrangement type head structure that is installed to increase heating efficiency by generating gas flames on both the center side and the edge side of a crater seating table.

In general, a gas range is a device for efficiently burning gas fuel to use heat and high temperature, and there are various types ranging from a small-scale used in a home stove to a large-scale industrial burner used in a boiler of a thermal power plant. do.

Among them, in the case of a gas range used for home use, as suggested in "Gas range with a harmful gas blocking function" of Korean Patent Laid-Open No. 10-2021-0081520, it is formed in a structure in which a gas flame is generated from the edge of the gas burner.

In this structure, a convection method is used in which the edge side of the heating vessel is heated and the heating material is raised from the edge side of the heating vessel to gather in the center. There was a problem in that it was inappropriate to use when it was required.

In the present invention, a structure of a central crater and a rim crater for realizing such a structure is suggested while enabling rapid heating with heating efficiency.

Patent Publication No. 10-2021-0081520

Accordingly, the present invention was devised to eliminate the above-mentioned problems. A central crater is installed on the center side of the crater mounting table supplied with gas, and a rim crater is installed radially from the central crater as the center of the crater mounting table. It was completed as a technical task with an emphasis on a gas stove having a multi-division radiation arrangement type head structure to increase heating efficiency by generating gas flames on both the side and the edge side.

In the present invention for achieving the above technical problem, in configuring a gas range having a multi-division radiation arrangement type head structure, the upper plate 12 is formed in the form of a rectangular flat plate, and installation holes are installed on both sides of the upper plate 12 . (11) the base member 10 is formed symmetrically; A housing box 15 having an accommodation space is fixedly provided on the lower side of the upper plate 12, and a gas connection pipe 92 connected to an external gas hose is provided at the lower center of the bottom of the accommodation box 15, A plurality of lower legs 19 fixed to the ground are fixed to the lower side of the housing 15 and are provided on the lower housing 15 of the installation through-hole 11 to provide the gas connection pipe 92 . A gas supply member 60 for dividing and moving the gas supplied through the; The gas supply member 60 is connected to the gas connection pipe 92 through a first connection pipe 67 and an extension connection pipe 67a, and is centered on the lower central side of the installation through hole 11 on the housing 15 . A side supply nozzle (61) is provided, and a spark pin (95) and a flame detection pin (97) are respectively provided to be spaced apart from the central side supply nozzle (61), and a second connection pipe is provided to the gas connection pipe (92). A plurality of them are formed at regular intervals on the ring-shaped supply pipe 71 connected through (77), and the rim-side supply nozzle 72 is provided radially with the center-side supply nozzle 61 as the center, and the ring-shaped supply pipe 71 is provided. a plurality of support pins 79 are fixedly connected to the outside of the crater holder 30 and are mounted on the upper side of the gas supply member 60; The crater seat 30 is provided with a central supply hole 37 communicating with the central supply nozzle 61 at the center, and an insert tube body 56 communicating with the rim side supply nozzle 72 is centrally supplied. It is provided radially with the ball 37 as the center, and the connecting rod 34 extends vertically downward to the lower side of the insert tube body 56 and is provided to receive and wrap the rim side supply nozzle 72, and the central supply hole (37) the central crater 40 to be seated on; The central crater 40 is provided with a closed upper plate 41 on the upper side, and a tube body 45 having a plurality of gas injection holes 46 on the lower side of the upper plate 41, the The rim crater 50 coupled to the cannula body 56; The rim crater 50 is provided with a closed top plate 52 on the upper portion, and inclined portions 53 are formed to extend downwardly and outwardly of the top plate 52 , and are formed on the inclined portions 53 at regular intervals. A plurality of gas injection holes 54 are formed with the a gas control member 20 provided with control valves 21 on both sides; A gas range having a multi-division radial arrangement type head structure, characterized in that it includes; a controller (80) connected to the gas supply member (60) and the gas control member (20) to control the supply and control of gas to provide.

At this time, the protective tube body 35 is provided around the center supply hole 37, and the female screw part 36a is formed on the inner periphery of the protective tube body 35, and the central crater 40 of A male screw portion 45a is formed on the lower outer periphery side of the tube body 45, so that the male screw portion 45a and the female screw portion 36a are screwed to each other, and the outer periphery of the protective tube body 35 and the center By providing the crater 40 so that the outer periphery of the tubular body 45 has the same diameter, the central crater 40 is configured to be screwed while seated on the upper side of the protective tubular body 35 .

In addition, the tubular body 45 of the central crater 40 is formed in a downwardly extending form with an outer peripheral surface extending toward the lower side, and the gas injection hole 46 is formed in an upwardly inclined form from the inner end to the outer end. characterized in that

In addition, the gas injection hole 46 has the same diameter at the inner end and the outer end, and the diameter decreases from the inner end and the outer end toward the middle side, and moves from the outer end of the gas injection hole 46 . It is characterized in that it is configured to increase the velocity of the gas.

In addition, the support pin fixing cover 32 is vertically downwardly formed at regular intervals on the lower part of the rim side of the crater seat 30 so that the support pin 79 is received and frictionally supported, and the plurality of support pin fixing covers ( 32), a plurality of heat dissipation members 33 are provided at regular intervals between the heat dissipation members 33 to radiate heat from the central crater 40 and the edge crater 50 to the outside, characterized in that do.

In addition, the horizontal bottom portion 51a is formed in a circular shape from the lower end of the inclined portion 53 of the rim crater 50 to the outside, and the upper rotation control wall 51 is upwardly from the edge of the horizontal bottom portion 51a. ) is extended, and spaced apart from the lower side of the upper rotation control wall 51, a lower support body 59 having the same diameter as the upper rotation control wall 51 is provided, the upper rotation control wall 51 and A connection body 58 having a smaller diameter than the upper rotation control wall 51 is provided between the lower supports 59, and the gas moving through the gas injection hole 54 on the inclined part 53 is adjusted to the upper rotation. It is characterized in that it is configured to be supplied upward along the inner surface of the wall (51).

And, the upper rotation control wall 51 is formed in a shape that is reduced outwardly from the lower side toward the upper side, so that the gas moving through the gas injection hole 54 on the inclined part 53 is inclined upwardly inwardly. It is characterized in that it is configured to be supplied upwardly with a small concentration along the inner surface of the rotation control wall (51).

According to the present invention, the central crater is installed on the central side of the crater seating table supplied with gas, and the rim crater is installed radially around the central crater, so that gas flames are emitted on both the center side and the edge side of the crater seating table. There is an effect such as being able to increase the heating efficiency by generating it.

1 is a plan view and a side view of a gas stove having a multi-division radiation arrangement type head structure according to the present invention
2 is an exemplary perspective view of a crater seating table in which a central crater and a rim crater according to the present invention are installed;
3 is a perspective view illustrating a state in which a spark pin and a temperature sensing pin are protrudingly installed on the crater seat of FIG. 2;
4 is an exemplary view of an exploded state of FIG. 2
5 is a perspective view and a side cross-sectional view of the central crater according to the present invention
6 is a perspective view and a side cross-sectional view of an edge crater according to the present invention
7 to 9 are plan views showing a connection configuration of a gas supply unit and a gas control unit according to the present invention
10 and 11 are exemplary views of a modified embodiment according to the present invention;

Hereinafter, specific contents for carrying out the present invention will be described in more detail with reference to the accompanying drawings.

The present invention installs a central crater on the central side of a crater seating table receiving gas, and radially installs a rim crater around the central crater so that gas flames are generated on both the center side and the rim side of the crater seat. It relates to a gas range having a multi-division radiation arrangement type head structure to increase heating efficiency. Referring to FIGS. 1 to 11 , the base member 10, the gas supply member 60, the crater seat 30, and the center It comprises a crater 40 , a rim crater 50 , a gas control member 20 and a controller 80 .

First, as shown in FIG. 1, a base member 10 on which an upper plate 12 is formed in the form of a rectangular flat plate is provided for the implementation of the present invention.

The base member 10 is for installing the gas supply member 60, the crater seat 30, the central crater 40, the rim crater 50, the gas control member 20 and the controller 80 to be described later. As a member, in more detail, a housing 15 having an accommodating space is fixed to the lower side of the upper plate 12 , and a gas connection pipe connected to an external gas hose in the lower center of the bottom of the housing 15 . A plurality of lower legs 19 fixed to the ground are fixedly provided on the lower side of the accommodation box 15 .

The gas supply member 60 provided on the base member 10 is provided on the receiving box 15 on the lower side of the installation through hole 11 as shown in FIG. 7 and is supplied through the gas connection pipe 92 . It is configured to move the divided gas.

The gas supply member 60 is connected to the gas connection pipe 92 through the first connection pipe 67 and the extension connection pipe 67a, as shown in FIGS. 8 and 9, through an installation through-hole ( 11), a central side supply nozzle 61 is provided on the lower central side, and a spark pin 95 and a flame detection pin 97 are respectively provided to be spaced apart from the central side supply nozzle 61, and the gas connection pipe A plurality of the ring-shaped supply pipe 71 connected to the 92 through the second connection pipe 77 are formed at regular intervals, and the edge side supply nozzle 72 is provided radially with the center side supply nozzle 61 as the center. and a plurality of support pins 79 are fixedly connected to the outside of the ring-shaped supply pipe 71 .

At this time, the spark pin 95 and the flame detection pin 97 are respectively installed on the connection mounts 96 and 98 provided between the central side supply nozzle 61 and the ring-shaped supply pipe 71, as shown in FIG. As such, it is exposed to the upper portion of the through hole 31 formed on the crater mounting table 30 .

Meanwhile, as shown in FIGS. 1 and 2 , a crater mounting table 30 is provided on the upper side of the gas supply member 60 to be seated.

The crater seat 30 is provided with a center supply hole 37 communicating with the central supply nozzle 61 at the center as shown in FIGS. 3 and 4, and communicating with the edge side supply nozzle 72 The inserted tube body 56 is provided radially with the center supply hole 37 as the center, and the connecting rod 34 extends vertically downward to the lower side of the inserted tube body 56 to accommodate and wrap the edge side supply nozzle 72 . catalog is provided.

At this time, in the connecting rod 34, the center side supply nozzle 61 is formed in the same shape in addition to the edge side supply nozzle 72 to accommodate and wrap the edge side supply nozzle 72 and the center side supply nozzle 61. ) in order to ensure firm acceptability of the connecting rod 34 for the rim side supply nozzle 72 and the center side supply nozzle on the lower side of the rim side supply nozzle 72 and the center side supply nozzle 61 as shown in FIG. 11 . A lower seat plate 69 having an upper seat plate 68 larger than the diameter of the nozzle 61 and on the ring-shaped supply pipe 71 on the lower side of the upper seat plate 68 is larger than the diameter of the upper seat plate 68 ) is provided. Then, a stepped groove portion 34b is formed in a stepped manner inward from the lower surface 34a of the connecting rod 34, so that the lower surface 34a of the connecting rod 34 is a lower seat plate 69 of the ring-shaped supply pipe 71. and the stepped groove portion 34b is made to be in close contact with the upper seating plate 68, that is, to be wrapped while being accommodated in multiple stages, thereby increasing water solubility.

In addition, although not shown at this time, if a vertical protrusion is formed on the lower side of the lower surface 34a and an insertion groove is formed on the lower seat plate 69 corresponding thereto, the mutual coupling force can be increased by being inserted into each other. .

And, as shown in FIGS. 4 and 5 , a central crater 40 seated on the central supply hole 37 is provided. The central crater 40 is provided with a closed upper plate 41 on the upper side, and a tube body 45 having a plurality of gas injection holes 46 on the lower side of the upper plate 41 .

At this time, as shown in FIG. 4 , a protective tube body 35 is provided around the center supply hole 37 , and a female screw part 36a is formed on the inner periphery of the protective tube body 35 , and the center A male screw part 45a is formed on the lower outer periphery side of the tube body 45 of the crater 40, so that the male screw part 45a and the female screw part 36a are screwed to each other, and the outer side of the protective tube body 35 By providing such that the diameters of the periphery and the outer periphery of the central crater 40 are the same, the central crater 40 is screwed while seated on the upper side of the protective tubular body 35 .

The tubular body 45 of the central crater 40 is formed in a downwardly extended form in which the outer circumferential surface is extended toward the lower side as in the side sectional view of FIG. 5, but as a modified embodiment of the tubular body 45 ), the gas injection hole 46 formed on the tube body 45 is formed in an upwardly inclined shape from the inner end to the outer end, thereby moving the gas moving through the gas injection hole 46 upward. It can be implemented to be advantageous in that the flame is transmitted upward.

As another modified embodiment, as shown in (b) of FIG. 10, the gas injection hole 46 has the same diameter at the inner end and the outer end, and the diameter decreases from the inner end and the outer end to the middle side. , it can be configured to increase the speed of the gas moving from the outer end of the gas injection hole (46).

Meanwhile, as shown in FIGS. 4 and 6 , the rim crater 50 is coupled to the cannulated body 56 .

The rim crater 50 is provided with a closed top plate 52 on the upper portion, and inclined portions 53 are formed to extend downwardly and outwardly of the top plate 52 , and are formed on the inclined portions 53 at regular intervals. A plurality of gas injection holes 54 are formed.

At this time, the horizontal bottom part 51a is formed in a circular shape from the lower end of the inclined part 53 of the rim crater 50 to the outside, and the upper rotation control wall 51 is upwardly from the edge of the horizontal bottom part 51a. ) is extended, and spaced apart from the lower side of the upper rotation control wall 51, a lower support body 59 having the same diameter as the upper rotation control wall 51 is provided, the upper rotation control wall 51 and The upper rotation control wall 51 is provided with a connecting body 58 having a small diameter between the lower support bodies 59 to ensure rotation controllability of the rim crater 50 and the upper rotation control wall 51 ), the gas moving through the gas injection hole 54 is supplied vertically upward along the inner surface of the upper rotation control wall 51, so that the gas flame can be intensively supplied to the vertically upward side.

The upper rotation control wall 51 is not shown as another modified embodiment, but is formed in a shape that is reduced outward from the lower side to the upper side, and the gas moves through the gas injection hole 54 on the inclined part 53 . It can be configured to be supplied upwardly with a small concentration along the inner surface of the virtual upward inwardly inclined upper rotation control wall 51 .

On the other hand, as shown in FIGS. 7 and 8, it is connected to the first connector pipe 67 and the second connector pipe 77 to adjust the gas supply on both sides of the upper plate 12 of the base member 10. A gas control member 20 provided with a valve 21 is provided.

The gas control member 20 is provided with control valves 21 on both sides of the substrate as shown in FIG. 7 , and control guide portions 22 are formed on the substrate on the outer side of the rim of each control valve 21 , the both sides A display unit 23 is provided between the control valves 21 to check the control state.

And, as shown in FIG. 8 , a controller 80 is provided that is connected to the gas supply member 60 and the gas control member 20 to control the supply and control of gas.

The controller 80 is connected to the control sensor unit 81 and the electric wire 82 provided in the gas control member 20, and the controller 80 is connected to the spark pin 95 by the electric wire 62a, When the control valve 21 connected to the control sensor unit 81 is pressed down, an electrical signal is transmitted through the wire 82 , the controller 80 and the wire 62a to generate a spark at the spark pin 95 . .

And, when the control valve 21 is rotated counterclockwise by 90° (MAX position) in the drawing, the first connection pipe 67 and the edge side supply nozzle 72 communicated with the central side supply nozzle 61 are Since gas is supplied to the communicating second connection pipe 77, at the same time, the central crater 40 and the edge side supply nozzle ( The edge crater 50 connected to 72) is sequentially ignited.

Then, when the control valve 21 is rotated further by 90° (MIN position) in the counterclockwise direction in the drawing, the supply of gas is maintained in the first connection pipe 67 communicating with the central supply nozzle 61 and , by blocking the supply of gas to the second connection pipe 77 connected to the edge-side supply nozzle 72 , it can be used to ignite only the central crater 40 connected to the central-side supply nozzle 61 .

The flame detection pin 97 provided together with the spark pin 95 is a first wire 64a and It is operated by being connected to the second wire (64b).

At this time, the spark pin 95 and the flame detection pin 97 are respectively installed on the connection mounts 96 and 98 provided between the central side supply nozzle 61 and the ring-shaped supply pipe 71, as shown in FIG. As such, it is exposed to the upper portion of the through hole 31 formed on the crater mounting table 30 .

On the other hand, in the present invention, referring to FIGS. 4 and 8 , the support pin fixing cover 32 is vertically downwardly formed at regular intervals on the lower portion of the edge of the crater mounting table 30 so that the support pins 79 are A plurality of heat dissipating members 33 are provided at regular intervals between the plurality of support pin fixing covers 32 to be frictionally supported while being accommodated, and a central crater 40 and a rim crater 50 are provided between the heat dissipating members 33 . ) can be configured to radiate heat to the outside.

Although the present invention described above has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art. should be made clear. Accordingly, the true technical protection scope of the present invention should be construed by the appended claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: base member 11: installation hole
12: top plate 15: accommodation box
19: lower leg 20: gas control member
21: control valve 30: crater seat
34: connecting rod 37: center supply hole
40: central crater 41: top plate
45: tube body 46: gas injection hole
50: frame crater 52: top plate
53: inclined part 54: gas injection hole
56: inserted tube body 60: gas supply member
61: center side supply nozzle 67: first connection pipe
67a: extension connector 71: ring-type supply pipe
72: edge side supply nozzle 77: second connection pipe
79: support pin 80: controller
92: gas connection pipe 95: spark pin

Claims (7)

In configuring a gas range having a multi-division radiation arrangement type head structure,
A base member 10 in which the upper plate 12 is formed in the form of a rectangular flat plate, and the installation through-holes 11 are symmetrically formed on both sides of the upper plate 12; A housing box 15 having an accommodation space is fixedly provided on the lower side of the upper plate 12, and a gas connection pipe 92 connected to an external gas hose is provided at the lower center of the bottom of the accommodation box 15, A plurality of lower legs 19 fixed to the ground are fixedly provided on the lower side of the receiving box 15,
a gas supply member (60) provided on the lower side housing body (15) of the installation through hole (11) to divide and move the gas supplied through the gas connection pipe (92); The gas supply member 60 is connected to the gas connection pipe 92 through a first connection pipe 67 and an extension connection pipe 67a, and is centered on the lower central side of the installation through hole 11 on the housing 15 . A side supply nozzle (61) is provided, and a spark pin (95) and a flame detection pin (97) are respectively provided to be spaced apart from the central side supply nozzle (61), and a second connection pipe is provided to the gas connection pipe (92). A plurality of them are formed at regular intervals on the ring-shaped supply pipe 71 connected through (77), the rim-side supply nozzle 72 is provided radially with the center-side supply nozzle 61 as the center, and the ring-shaped supply pipe 71 A plurality of support pins 79 are fixedly connected to the outside of the
a crater seat 30 provided to be seated on the upper side of the gas supply member 60; The crater seat 30 is provided with a central supply hole 37 communicating with the central supply nozzle 61 at the center, and an insert tube body 56 communicating with the rim side supply nozzle 72 is centrally supplied. It is provided radially with the ball 37 as the center, and the connecting rod 34 extends vertically downward to the lower side of the insert tube body 56 and is provided to receive and wrap the rim side supply nozzle 72,
a central crater 40 seated on the central supply hole 37; The central crater 40 is provided with a closed upper plate 41 on the upper side, and a tube body 45 having a plurality of gas injection holes 46 on the lower side of the upper plate 41,
a rim crater 50 coupled to the cannula body 56; The rim crater 50 is provided with a closed top plate 52 at an upper portion, and an inclined portion 53 is formed to extend downwardly and outwardly of the top plate 52 , and is formed on the inclined portion 53 at a predetermined interval. A plurality of gas injection holes 54 are formed with
A gas control member having control valves 21 on both sides of the upper plate 12 of the base member 10 so as to be connected to the first connection pipe 67 and the second connection pipe 77 to control the supply of gas. (20);
and a controller (80) connected to the gas supply member (60) and the gas control member (20) to control gas supply and control.
According to claim 1,
A protective tube body 35 is provided around the center supply hole 37, and a female screw part 36a is formed on the inner periphery of the protective tube body 35,
A male screw portion 45a is formed on the lower outer periphery side of the tube body 45 of the central crater 40, so that the male screw portion 45a and the female screw portion 36a are screwed to each other,
By providing the outer periphery of the protective tube body 35 and the central crater 40 with the same diameter as the outer periphery of the tube body 45 , the central crater 40 is screwed while seated on the upper side of the protective tube body 35 . A gas range having a multi-division radiation arrangement type head structure, characterized in that it is configured so that it becomes possible.
3. The method of claim 2,
The tubular body 45 of the central crater 40 is formed in a downwardly extending form with an outer peripheral surface extending toward the lower side, and the gas injection hole 46 is formed in an upwardly inclined form from the inner end to the outer end. A gas range having a multi-division radial arrangement type head structure.
4. The method of claim 3,
The gas injection hole 46 has the same diameter at the inner end and the outer end, and the diameter decreases from the inner end and the outer end toward the middle side, and the gas moves from the outer end of the gas injection hole 46 . Gas range having a multi-division radial arrangement type head structure, characterized in that configured to increase the speed of the.
5. The method of claim 4,
The support pin fixing cover 32 is vertically downwardly formed on the lower edge of the crater seating table 30 at regular intervals so that the support pin 79 is received and frictionally supported,
A plurality of heat dissipation members 33 are provided at regular intervals between the plurality of support pin fixing covers 32, so that the heat generated by the central crater 40 and the edge crater 50 between the heat dissipation members 33 is discharged to the outside. A gas range having a multi-division radiation arrangement type head structure, characterized in that it is configured to diverge.
6. The method of claim 5,
A horizontal bottom part 51a is formed in a circular shape from the lower end side of the inclined part 53 of the rim crater 50 to the outside, and the upper rotation control wall 51 moves upward from the edge of the horizontal bottom part 51a. It is formed to extend and is spaced apart from the lower side of the upper rotation control wall 51 and a lower support body 59 having the same diameter as the upper rotation control wall 51 is provided, and the upper rotation control wall 51 and the lower support body A connection body 58 having a smaller diameter than the upper rotation control wall 51 is provided between the 59, and the gas moving through the gas injection hole 54 on the inclined portion 53 moves to the upper rotation control wall ( 51) gas range having a multi-division radiation arrangement type head structure, characterized in that it is configured to be supplied upward along the inner surface.
7. The method of claim 6,
The upper rotation control wall 51 is formed in a shape that is reduced outwardly from the lower side toward the upper side, so that the gas moving through the gas injection hole 54 on the inclined part 53 is inclined upward to control the upper rotation. A gas range having a multi-division radiation arrangement type head structure, characterized in that it is configured to be supplied upwardly by being slightly concentrated along the inner surface of the wall (51).

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