JP3101220B2 - Gas burner - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas burner in which a flame blows out from an outer flame hole formed on an outer peripheral portion of an annular burner at an interval in a circumferential direction and is directed upward from horizontal. , By reducing the contact between the flame and the burner in the outer flame hole, suppressing the temperature rise of the burner, improving the supply of secondary air to the obliquely upward outer flame hole, and also increasing the temperature of the top plate It relates to a technique to be suppressed.

[0002]

2. Description of the Related Art Conventionally, the direction of flame blowing from an outer flame hole is directed upward from the horizontal, as in JP-A-6-281116 and JP-A-8-145316 shown in FIG. Therefore, it is intended to spread the thermal power from the outer periphery of the gas burner to the wide area of the pot bottom as much as possible. And
The tip of the outer flame hole 1a in the direction in which the flame was blown out was oriented vertically. In a general burner cap 18 as shown in FIG. 9B, an eave-shaped projection 18a
In this method, the burner is heated with a large contact area with the flame.

Since the end of the outer flame hole 1a in the direction in which the flame is blown out is oriented vertically, the edge of the hole contacts the flame over a long portion with respect to the flame extending obliquely upward. Therefore, the burner is heated by the flame, and the temperature of the burner itself increases. When the burner is overheated, the durability of the burner itself decreases.

On the other hand, in recent years, a gas stove in which a top plate is continuously connected to a burner has been proposed. As described above, when a series of top plates are connected to a burner, the temperature of the top plate also rises considerably. For example, in the case of a glass top plate, the temperature of the top plate portion near the burner is heated to 230 ° C. or higher. As described above, since the temperature of the top plate near the burner is heated to 230 ° C. or higher in the glass top plate, high heat resistance is required for the material of the top plate, and crystallized glass having high heat resistance is used. Must be done, which is costly.

[0005] In addition, even if a metal top plate is subjected to a surface treatment such as Teflon, the top plate material and the surface treatment material must have high heat resistance. Further, there is a problem that the broth spilled on the top plate is liable to stick and the housewife and the like have poor careability.

[0006]

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem completely, and in a gas burner in which the direction of blowing of the flame is directed higher than the horizontal, the flame is formed even at the upper edge of the outer flame hole. The contact area between the burner and the burner is reduced, the temperature rise of the burner is suppressed, the durability of the burner itself against the temperature is increased, and the secondary air can be sufficiently supplied to the upward flame hole, and It can prevent infiltration and the like from entering, prevent clogging of the outer flame hole, and further suppress the temperature rise due to heat transfer from the burner to the top plate when the top plate is connected to the burner. It is an object of the present invention to provide a gas burner that can reduce the degree of heat resistance required for a surface treatment material when a surface treatment such as Teflon is performed and can reduce sticking of boil-over.

[0007]

According to the first aspect of the present invention, the direction in which the flame is blown out from the outer flame hole 1a formed on the outer peripheral portion of the annular burner 1 at intervals in the circumferential direction is larger than the horizontal direction. A gas burner that faces upward, wherein a hole edge 1b at a tip end of the outer flame hole 1a in a flame blowing direction is above the hole edge 1b.
Also substantially perpendicular to the blowing direction of the flame, including the peripheral portion 1q, Ba
A horizontal surface 1r is formed on the upper surface of the outer peripheral portion of the
The upper edge of the hole edge 1b of 1a is close to the upper surface of the burner 1, and a burner cover 25 is provided above the burner 1 so as to face the upper surface of the burner 1 and to reach directly above the outer flame hole 1a. It is characterized by the following.

According to the second aspect of the present invention, the outer flame hole 1 formed on the outer peripheral portion of the annular burner 1 at intervals in the circumferential direction.
a is a gas burner in which the direction in which the flame is blown from a is directed above the horizontal, and the tip of the outer flame hole 1a in the direction in which the flame is blown is substantially orthogonal to the direction in which the flame is blown out.
A recess 1f is formed on the outer surface of the partition 1d between the upper surface and the upper surface of the burner 1.

According to a third aspect of the present invention, a burner cover 25 is provided above the burner 1 so as to face the upper surface of the burner 1 and to extend directly above the outer flame hole 1a. . The invention according to claim 4 is characterized in that the extending portion 2 is integrally formed on the outer peripheral portion of the metal burner 1.

In the structure of the first aspect, the outer flame hole 1a is
The hole edge 1b at the tip in the direction of blowing out the flame is the hole edge 1b.
Substantially perpendicular to the direction in which the flame blows out, including the peripheral portion 1q
A horizontal surface 1r is formed on the upper surface of the outer peripheral portion of the burner 1.
The edge 1b of the outer flame hole 1a is close to the upper surface of the burner 1, and the upper edge of the outer flame hole 1a also comes into contact with the flame blown out from the outer flame hole 1a and the hole edge 1b at the tip of the outer flame hole 1a. And the heat transfer from the upwardly directed flame to the burner 1 is effectively reduced. The burner cover 25 prevents the simmering or the like from dropping into the outer flame hole 1a while preventing the outer flame hole 1a from dripping.
a, the secondary air rising in the center hole of the annular burner 1 with the combustion in the a, is supplied between the burner 1 and the burner cover 25 to the outer flame hole 1a via the horizontal surface 1r of the outer peripheral portion , By such a good supply of the secondary air, the flame is prevented from contacting the burner 1 and the heating of the burner 1 is reduced while increasing the combustion efficiency.

According to the second aspect of the present invention, the secondary air which has risen through the central hole of the burner 1 with the combustion of the flame in the outer flame hole 1a is separated by the partition 1d between the outer flame holes 1a.
The upper surface of the outer surface of the burner 1 is opened and smoothly introduced into the recess 1f connected to the upper surface of the burner 1. By providing a sufficient supply of secondary air, the flame is reduced from touching the burner 1 and the burner 1
The heat transfer to the burner 1 is effectively reduced, and the temperature rise of the burner 1 itself is suppressed.

In the structure of the third aspect, in addition to the operation of the second aspect, the burner cover 25 prevents the boiled or the like from dropping into the outer flame hole 1a while preventing the burning in the outer flame hole 1a. The secondary air rising along the central hole of the annular burner 1 is supplied to the outer flame hole 1a through the space between the burner 1 and the burner cover 25. By synergy with dent 1f,
Supply the secondary air more and more sufficiently. By performing good combustion and supplying a sufficient amount of secondary air, the contact of the flame with the burner is reduced, and the temperature rise of the burner itself is suppressed.

In the structure of the fourth aspect, in addition to the function of any one of the first to third aspects, heat from the flame of the burner 1 is received by the extension portion 2 and is transferred to the burner main body 17. This suppresses a rise in the temperature of the top plate near the burner 1.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below in detail with reference to the drawings. FIG. 1A is a schematic sectional view of a main part of the present invention, and FIG. 1B is a perspective view of the main part, and FIG.
Is an explanatory view, FIG. 2 is a schematic sectional view of a gas stove, and FIG.
(A) is a schematic plan view, and (b) is a front view.

As shown in FIG. 2, a peripheral portion of a top plate 5 made of a thin steel plate or glass is mounted on a casing 6 via a sealing member 28, and is bonded with an adhesive if necessary. Is fixed. When the top plate 5 is made of glass, the inner edge of the top plate 5 is at the position of the imaginary line L in FIG. 3A, and when the top plate 5 is made of a thin steel plate, a stove is used. The size is to cover substantially the entire upper surface. The top plate 5 has openings 4 at, for example, three locations. The burner 1 faces the opening 4, and the burner 1 is attached to the top plate 5. Mixer tube 1 for burner 1
2 are connected. For example, a sealing material 9 made of synthetic resin is interposed between the burner 1 and the opening 4 of the top plate 5,
The broth or the like spilled on the top plate 5 is prevented from entering the inside of the casing 6 through the opening 4. In the figure, reference numeral 13 denotes an ignition projection, which is a spark plug (not shown).
Are disposed facing each other, and an ignition chamber 14 formed in the burner 1 is provided.
In this case, ignition is attempted. In the vicinity of the opening 4 of the top plate 5 and on the periphery of the burner 1, a goto 8 is provided. In the figure, 15 is a counter, and 16 is a grill exhaust port. The design of such a gas stove A can be variously changed.

The burner 1 is composed of a burner main body 17 and a burner cap 18 mounted on the burner main body 17. Both the burner main body 17 and the burner cap 18 are made of aluminum die-cast. As shown in FIG. 5, an engagement cylinder 1h is suspended from a burner cap 18 formed in a substantially umbrella shape when a hole 1g for guiding secondary air is passed through the center. On the back surface of the burner cap 18, the inner peripheral partition portion 1 i and the outer peripheral partition portion 1 are spaced apart in the circumferential direction.
d is formed. In the burner main body 17, a gas passage 1m is formed between the inner cylindrical body 1j and the outer cylindrical body 1k, and an opening 1n is formed in communication with the gas passage 1m.
The mixing tube 12 is connected to the opening 1n. Mixing tube 1
2 is also made of aluminum die-cast.

Thus, the burner cap 18 is attached to the inner cylindrical body 1j that is erected upward in the burner main body 17.
The engagement tubular body 1h hanging downward is inserted and engaged while maintaining airtightness, and the receiving portion 1o of the burner cap 18 is placed on the internal tubular body 1j of the burner main body 17, The burner cap 18 is positioned, and thus the combustion gas that has passed through the mixing pipe 12 passes through the gas passage 1m of the burner main body 17 and is divided by the partitions 1i and 1d on the back surface of the burner cap 18, and the partition 1d. , 1d, is blown out from the outer flame hole 1a, and the burner body 1
The fuel is ignited in the ignition chamber 14 formed between the burner 1 and the burner cap 18, and a flame is formed in the outer flame holes 1 a at intervals in the circumferential direction of the burner 1.

The upper end surface of the burner body 17 and the back surface of the burner cap 18 are inclined upward, so that the combustion gas is
a is blown upward from the horizontal. The outer edge 1b of the outer flame hole 1a in the direction in which the flame is blown out is connected to the adjacent partition 1 of the burner cap 18.
d, 1d of the dikes 1e, 1e and the upper surface of the burner cap 18
A substantially inverted U-shape is formed with the peripheral portion 1q . As shown in FIG. 1, the hole edge 1b of the outer flame hole 1a is substantially perpendicular to the direction of blowing out the combustion gas from the outer flame hole 1a. The upper surface of the burner cap 18 is formed on a climbing slope 1p, and a horizontal plane 1r is formed following the climbing slope 1p. The upper edge of the outer edge 1b of the outer flame hole 1a is close to the horizontal surface 1r which is the upper surface of the burner 1.

As described above, the portion which is substantially perpendicular to the direction of the combustion gas blowout from the outer flame hole 1a and in which the flame blown out from the outer flame hole 1a comes into contact with the edge 1b of the tip of the outer flame hole 1a. And the heat transfer from the flame to the burner 1 is reduced. The upper edge of the outer flame hole 1a is close to the upper surface of the burner 1, and the upper edge of the outer flame hole 1a is also removed from the outer flame hole 1a. There is less contact between the flame to be blown out and the edge 1b of the tip of the outer flame hole 1a, and heat transfer from the upward flame to the burner 1 is effectively reduced. Thus, the temperature rise of the burner 1 itself can be suppressed, and the temperature of the burner 1 is lower than that of the conventional burner, so that the durability of the burner 1 itself against the temperature can be improved.

As shown in FIG. 5, the upper surface of the partitions 1d, 1d between the outer flame holes 1a formed at intervals in the circumferential direction of the burner cap 18 is open at the upper end, and the horizontal surface of the upper surface of the burner 1 is opened. 1r and 1 on the other side
A recess 1f from which e, 1e, and 1e protrude is formed. Thus, with the burning of the flame in the outer flame hole 1a,
The secondary air that has passed through the central hole 1g of the annular burner 1 is along the ascending inclined surface 1c and the horizontal surface 1r of the upper surface of the burner 1 as shown by an arrow X in FIG. As described above, the secondary air flows into the recess 1f of the outer surface of the partition 1d between the outer flame holes 1a, 1a, and travels through the partition 1d between the outer flame holes 1a, 1a to dissipate more secondary air than before. , And the combustion efficiency in the outer flame hole 1a is increased. By supplying such a large amount of secondary air, it is possible to suppress the flame from coming into contact with the hole edge 1b of the external flame hole 1a, but rather to move the flame away from the hole edge 1b of the external flame hole 1a, and from the flame to the burner 1. It reduces the heat transfer.

As shown in FIG. 6, a ring-shaped extending portion 2 is formed in a series on the upper outer peripheral portion of the burner main body 17. A step is formed on the outer peripheral portion of the extending portion 2 to form a top plate receiving portion 3. An annular groove 19 is formed on the upper surface of the outer peripheral portion of the extension 2. Screw holes 20 are formed in the groove bottom of the annular groove 19 at intervals in the circumferential direction. A collar portion 22 extends from a holding ring 21 fitted into the annular groove 19. Thus, the holding ring 21 is fitted into the annular groove 19, and the screw 23 is inserted into the through hole 37 of the holding ring 21.
By screwing into the screw holes 20, the peripheral portion of the opening 4 of the top plate 5 placed on the top plate receiving portion 3 is pressed and fixed by the collar 22. The sealing material 9 is filled in the concave groove 29 formed in the top plate receiving portion 3.

The annular extension 2 formed on the periphery of the burner 1 in series with the burner 1
The heat from the flame of the burner 1 is received by the extension portion 2 and is transferred to the burner main body 17, thereby suppressing a rise in the temperature of the top plate near the burner 1. Therefore, the top plate 5
When a thin steel plate is used, deformation due to thermal expansion can be reduced without the need for a structure for heat insulation and heat insulation, and even when the surface of the thin steel plate is treated with fluorine coating or the like, the top plate 5 The temperature rise can be suppressed, and the durability of the coating layer can be improved. And top plate 5
In the case where is made of glass, expensive crystallized glass may not be used, a general tempered glass can be used, and the cost can be reduced. In addition, it is possible to suppress boil-over from strongly sticking to the top plate 5.

As shown in FIG. 8, the goto 8 is made of metal and is formed by radially welding a substantially U-shaped support piece 26 to an annular central plate serving as a burner cover 25. A positioning protrusion 27 extends from the lower end of the through-hole 3.
7 is inserted into the counterbore portion 24 of the drive 7 and positioning of the drive 8 is performed. In this case, the positioning protrusion 27 is
May be inserted into a cross-shaped operation hole in the head of the camera.
In the figure, reference numeral 30 denotes a sensor for detecting the temperature of the bottom of the pan, which detects the temperature of the bottom of the pan and shuts off the gas supply based on the detection result.

As shown in FIG. 1, when the burner 8 is positioned and placed on the burner 1, the burner cover 25 is placed above the burner 1 so that the ascending inclined surface 1c of the burner 1 and the horizontal surface 1c.
r and just above the outer flame hole 1a. Thus, the outer flame hole 1 is formed by the burner cover 25.
The secondary air that rises in the central hole 1g of the annular burner 1 as it burns in the outer flame hole 1a while preventing boiling and the like from dropping to the upper surface of the burner 1 The air is supplied to the outer flame hole 1a through the space between the inclined surface 1c and the horizontal surface 1r and the burner cover 25, so that the supply of the secondary air to the upward outer flame hole 1a can be performed smoothly and sufficiently. . By the supply of the secondary air, the flame can be prevented from wrapping around the horizontal surface 1r of the burner cap 18, and in this regard, the burner cap 18 can be suppressed from being heated by the flame.
That is, the temperature rise of the burner 1 is reduced. In this case, the secondary air supply can be performed more sufficiently by the synergistic effect of the induction operation of the secondary air between the burner cover 25 and the burner 1 and the induction operation by the recess 1f.

[0025]

According to the first aspect of the present invention, there is provided a gas burner in which the direction in which the flame is blown out from an outer flame hole formed in the outer peripheral portion of the annular burner at an interval in the circumferential direction is higher than horizontal. The tip of the flame outlet direction in the outer flame hole
The hole edge of the burner is substantially perpendicular to the direction in which the flame is blown, including the peripheral portion above the hole edge, and a horizontal plane is formed on the upper surface of the outer peripheral portion of the burner
The upper edge of the outer rim of the outer flame hole is close to the upper surface of the burner, and the burner cover is provided above the burner, facing the upper surface of the burner and reaching right above the outer flame hole.
The edge of the tip of the outer flame hole in the flame blowing direction is the hole edge.
It is almost perpendicular to the direction of the flame
A horizontal surface is formed on the upper surface of the outer periphery of the
Is close to the upper surface of the burner, and even at the upper edge of the outer flame hole, there is less contact between the flame that blows out from the outer flame hole and the hole edge of the tip of the outer flame hole, and the flame that faces upward moves from the upward flame to the burner. The heat transfer of the burner can be effectively reduced, the temperature rise of the burner itself can be suppressed, and the temperature of the burner decreases as compared with the conventional one, so that the durability of the burner itself against the temperature can be improved. In addition, the burner cover facing the upper surface of the burner has reached just above the outer flame hole, and it is possible to prevent the boil and the like from dropping into the outer flame hole while preventing the outer flame hole from dropping. The secondary air that rises in the center hole of the annular burner with the combustion in the above is supplied to the outer flame hole through the horizontal plane of the outer peripheral portion between the burner and the burner cover, and Smooth supply of secondary air to flame holes In addition, the combustion can be performed well, the combustion can be performed well, and the sufficient supply of the secondary air can reduce the contact of the flame with the burner. In this regard, the heat transfer to the burner can be effectively reduced. And the temperature rise of the burner itself can be suppressed.

According to the second aspect of the present invention, there is provided a gas burner in which the direction in which the flame is blown out from an outer flame hole formed at an outer peripheral portion of the annular burner at a circumferential interval with an interval therebetween is higher than horizontal. Since the tip of the flame blowing direction in the outer flame hole is substantially perpendicular to the flame blowing direction, the outer surface of the partition between the outer flame holes is formed with a dent that is open at the upper end and continues to the upper surface of the burner, The secondary air that has risen through the central hole of the burner due to the burning of the flame in the outer flame hole smoothly flows into the recess open at the upper end and connected to the upper surface of the burner on the outer surface of the partition between the outer flame holes. In this way, a large amount of secondary air can be supplied from both sides of the outer flame hole, the combustion efficiency in the outer flame hole can be increased, and the sufficient supply of secondary air prevents the flame from touching the burner. Can be reduced,
Also in this respect, there is an advantage that heat transfer to the burner can be effectively reduced, and a rise in temperature of the burner itself can be suppressed.

According to the third aspect of the present invention, in addition to the effect of the second aspect, the burner cover is provided above the burner so as to face the upper surface of the burner and to extend directly above the outer flame hole. The burner cover prevents the boil and the like from dropping into the outer flame hole, while the secondary air that rises in the center hole of the annular burner with combustion in the outer flame hole is burner and the burner. It is supplied to the outer flame hole through the gap between the cover and the synergy with the dent,
The supply of the secondary air can be performed more sufficiently, the combustion can be performed well, and the sufficient supply of the secondary air can reduce the contact of the flame with the burner. This has the advantage that the heat transfer of the burner can be effectively reduced and the temperature rise of the burner itself can be suppressed.

According to the fourth aspect of the present invention, in addition to the effects of any one of the first to third aspects, since the extension portion is integrally formed on the outer peripheral portion of the metal burner, it is integrated with the burner. As a result, the heat from the flame of the burner is received by the extension and transferred to the burner body by the extension formed on the outer periphery of the burner, thereby increasing the temperature of the top plate near the burner. Therefore, when the top plate is made of a thin steel plate or an aluminum plate, the deformation due to thermal expansion can be reduced without requiring a structure for heat protection and heat insulation, and the thin steel plate and the aluminum plate Even when the surface is treated with a fluorine coating or the like, the temperature rise of the top plate can be suppressed, so that there is an advantage that the durability of the coating layer can be improved. When the top plate is made of glass, it is possible to suppress a rise in temperature in the vicinity of the burner of the glass top plate, prevent the top plate from breaking due to heat, and add expensive crystallized glass to the top plate itself. It is not necessary to use, it is possible to use general tempered glass, it can reduce the cost, and it can also prevent boiled spills from sticking to the top plate, and also suppress the temperature rise of the top plate The sealing material used to fill the gap between the opening of the top plate and the burner does not require high heat resistance, making it possible to use a material with relatively low heat resistance and spilling on the top plate There is an advantage that it is possible to suppress the infiltration of the soup into the casing of the stove, to prevent the inside of the casing from being stained, and to improve the careability, safety and durability.

[Brief description of the drawings]

FIG. 1 shows an embodiment of the present invention, in which (a) is a schematic sectional view, (b) is a perspective view showing a partition between outer flame holes,
(C) is an explanatory view.

FIG. 2 is a schematic sectional view.

3A is a schematic plan view, and FIG. 3B is a front view.

4A is a perspective view of a burner, and FIG. 4B is a partially enlarged cross-sectional view.

FIG. 5 shows a burner cap constituting the burner;
(A) is a perspective view from the front side, and (b) is a perspective view from the back side.

FIG. 6 is a perspective view of a burner main body.

7A and 7B show a holding ring, wherein FIG. 7A is a perspective view from the front side, and FIG. 7B is a perspective view from the back side.

FIG. 8 is a perspective view of Gotoku.

9A and 9B are schematic cross-sectional views of a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Burner 1a Outer flame hole 1d Partition part 1f Depression 1p Climbing slope 1r Horizontal plane 5 Top plate 25 Burner cover

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-8-261415 (JP, A) JP-A-6-50513 (JP, A) JP-A-10-169918 (JP, A) 11765 (JP, B2) Jikyo 62-22742 (JP, Y2) Jikgyo 4-35688 (JP, Y2) (58) Fields investigated (Int. Cl. ⁷ , DB name) F23D 14/06

Claims (4)

(57) [Claims] 1. A gas burner in which a flame blows out from an outer flame hole formed on an outer peripheral portion of an annular burner at an outer peripheral portion with a space therebetween in a circumferential direction, and is directed upward from horizontal. The edge of the hole at the tip in the blowing direction is the
, Including the outer periphery of the burner
A horizontal plane is formed on the upper surface of the burner, and the upper edge of the hole edge of the outer flame hole is close to the upper surface of the burner, and a burner cover is provided above the burner, facing the upper surface of the burner and directly above the outer flame hole. A gas burner characterized by being used. 2. A gas burner in which a flame blows out from an outer edge hole formed on an outer peripheral portion of an annular burner at an outer circumferential portion with a space therebetween in a circumferential direction, and is directed upward above horizontal. A gas burner characterized in that a front end of the gas burner is substantially perpendicular to a direction in which the flame is blown out, and a recess is formed on an outer surface of the partition between the outer edge holes, the recess being open at the upper end and continuing to the upper surface of the burner. 3. The gas burner according to claim 2, wherein a burner cover is provided above the burner so as to face the upper surface of the burner and to extend directly above the outer flame hole. 4. The gas burner according to claim 1, wherein an extension is formed integrally with an outer peripheral portion of the metal burner.