CA2552116A1 - Gas stove burner - Google Patents

Abstract

The principle of the burner is to increase the speed of the gas stream in the gas stove burner and to heat up. The projecting ridges along the inner gas pipe and the cylinder serve to form an array of the gas stream. The curved round and disproportional shape like a bowl in the cylinder and the curved ridges sloping at the front and bending over to the back surround the gas stream coming out from the gas pipe so the gas stream in the cylinder changes the direction and speed up directly to the gas holes. The dense and solid projecting ridges at the center of the cylinder help maintain and heat up the inner frame. The inner side of the cover disk possessing respective big and small projecting ridges between inner and outer gas holes speed up the gas stream and reduce the reflection force. The appropriated voids size or holes on the wings of the gas stove frame let the cold air from outside come in to accomplish better the combustion.

Description

.ti .... . . .i ., , Gas Stove Burner OBJECTS OF THE INVENTION

This present invention relates to a gas stove burner utilizing high pressure gaseous fuel energy for cooking, heating and any other various purposes. The main purpose of the present invention is to force the gas stream flow out from the gas holes at the higher speed, produce heat power considerably by diverting the horizontal section of the gas stream coming out from the gas pipe into the vertical section after passing through the cylinder and increase the speed of the gas stream in the cylinder by means of compressing, forming an array of the gas stream, reducing impact and friction of the gas stream in the gas pipe and cylinder before spreading out upwardly to the cover disk which is designed for compressing and forming the array of the gas stream.
Therefore, the speed of the gas stream coming out from the gas holes is considered as the latest portion which is needed for the highest speed and combustion purpose. Moreover, the gas stove frame is designed to store heat and produce cold air (oxygen) in order to help accomplish the combustion, consume less quantity of gas, and reduce the lampblack and pollution during the combustion.

FIELD RELATED TO THE INVENTION

The subject field related to the construction of the present invention is aerodynamic engineering which focuses on the motion of the gas stream moving from the gas pipe to the cylinder and speeding up before reaching the cover disk and spreading out upwardly to the gas holes. Another related field is engineering eering concerning the gas stove along with the combustion, storage of heat and cold air (oxygen) that serve to accomplish the combustion more perfectly.

õ , ,., , BACKGROUND AND RELATED SUBJECT FIELD

The high pressure gas stove burner generally possesses the inner shape of the gas pipe which is similar to the ordinary pipe. It is connected with the cylinder having the doughnut shape, flat surface and hollow cylinder shape at the center of the cylinder.

When the gas stream passes through the gas pipe and the cylinder and then surrounds the cylinder shape, it will lose a large amount of speed because it loses speed in the gas pipe, hits the cylinder shape in the cylinder and loses the vertical section of speed. Moreover, the gas stream flows along the flat surface of the cylinder which is covered with the cover disk which the shape looks like a doughnut when seen from the top view. On the cover disk, there is a set of holes where gas can spread out upwardly for combustion purpose. As a result, the inner flat surface of the cover disk will make the gas stream, which passes through from all parts, lose power and speed before reaching the holes because it hits the inner surface of the cover disk. Furthermore, the gas stream will be reflected and lose a large amount of speed while passing through the gas pipe, cylinder and cover disk before spreading out upwardly to the gas holes. Thus, this causes less heat power than usual. The covered gas burner frame which has dense and solid wing lets cold air enter insufficiently which produces the lampblack during the combustion.

For these reasons, the gas stove frame is created to force the gas stream come out from the gas holes at the higher speed by changing the direction and adjusting speed of the gas stream in the cylinder and the cover disk in order to produce the most intense heat power, consume less gas, reduce the lampblack produced by the uncompleted combustion as well as develop the gas stove frame.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG.1 is a perspective view of the ordinary gas stove burner.

FIG.2 is a perspective view illustrating the devices of the gas stove burner according to the present invention.

FIG.3 is a part of cross section view of the ordinary cylinder illustrating the motion of the gas stream in the gas pipe and the cylinder.

FIG.4 is a side cross section view of the gas pipe and cylinder.

FIG. 5 is a side cross section view of the motion of the gas stream in the gas pipe and cylinder.

FIG.6 is a view of the central area of the cylinder and the motion of the gas stream.

FIG.7 is a part of cross section view of the inner side of the cylinder at the same side of gas pipe.

FIG.8 is a part of cross section view of the inner side of the cylinder at the opposite side of the gas pipe.

FIG.9 is a top view of the cylinder.

FIG.10 is a part of cross section view of the cylinder according to the present invention illustrating the inner side and the motion of the gas stream in the gas pipe.

FIG.11 is a part of cross section view of the cylinder according to the present invention illustrating all the directions of the gas stream in the gas pipe and cylinder.

FIG. 12 is a side cross section view of the ordinary cover disk of the gas stove burner illustrating the motion of the gas stream.

FIG.13 is a perspective view of the ordinary cover disk of the gas stove burner when overturned.

. i . . .i. . i li a :.... a I I !, I , a." ., I, , 11 FIG. 14 is a perspective view of the ordinary cover disk of the gas stove burner when turned up.

FIG. 15 is a side cross section view of the cover disk of the gas stove burner according to the present invention illustrating the motion of the gas stream.

FIG. 16 is a perspective view of the cover disk according to the present invention when overturned.

FIG. 17 is a perspective view of the inner side of the cover disk according to the present invention.

FIG. 18 is a half section view illustrating the inner side of the cover disk according to the present invention and the motion of the gas stream.

FIG. 19 is a view of the motion of the gas stream in the cover disk according to the present invention.

FIG.20 is a view of the lifting movement of the heat around the inner flame.
SPECIFIC DEFINITION

FIG.1 illustrates the ordinary gas stove burner which comprises principal devices as follows : valve (1), venturi opening (2) and air adjusting plate (3) which is utilized to adjust air based upon the requirement. After that, the gas will pass through the gas pipe (4) into cylinder (5) and cover disk (6) and spread out upwardly to the inner (7) and outer (8) gas holes for combustion purpose. The gas stove frame (9) serves to guard wind and maintain heat. Some types of gas stove may possess more than one aforementioned devices based upon design and purpose of the utilization, such as, two valves, two gas pipes or more, shapes of the cylinder or a number of gas holes, etc.

FIG.2 illustrates the devices of the gas stove burner according to the present invention which are similar to those of the ordinary gas stove burner, but the differences , .I. .. .n ..6,..1,. ,1 ,.

are composed the inner surface and some outer parts which help adjust speed and change the direction of the gas stream while passing the gas pipe (10), cylinder (11), cover disk (12) and spreading out upwardly to the inner (13) and outer (14) gas holes. As a result, the gas stream can speed up considerably around the gas holes. In addition, making the holes (70) on the wings (69) of the gas stove frame (15) can let outside air come in for the more completed combustion.

FIG.3 illustrates a part of cross section view of the ordinary cylinder illustrating the motion of the gas stream in the gas pipe (4) and cylinder (5). When the gas stream (16) of the ordinary gas stove burner flows out from the valve or nozzle (1), it will move through the gas pipe (4) before reaching the cylinder (5) which the cylinder shape (17) is installed. This portion of the gas stream will hit the cylinder shape in the cylinder (17). Therefore, the gas stream (16) will lose some degree of speed.

FIG.4,5,6 and 10 illustrate the cylinder according to the present invention of which the inner gas pipe (10) is designed to possess the projecting ridges along the lower (18) and upper (19) surfaces of the gas pipe which is tied to the venturi opening (2). The lower projecting ridges (18) have respective small and big sizes and elevate (76) until the cylinder shape of the cylinder (23) which serve to enlarge the inner surface of the gas pipe in order to increase the rate of the flow and form the array of the gas stream (20) which moves from the venturi opening to the gas pipe. The elevated projecting ridges serve to separate the gas stream (20) into two ways (21) (22) in order to escape from hitting the cylinder shape in the cylinder (23). Some degree of the gas stream coming out from the gas pipe will flow along the projecting ridges (76). Therefore, the gas stream (24) elevates to the opening of the cylinder at the same side of the gas pipe (25).

FIG.4, 5, and 11 illustrate the upper projecting ridges (19) of the inner surface of the gas pipe (10) which serve to separate and form the array of the gas stream u, ,,. 1 , i y (20) in the upper side of the gas pipe (10) by means of separating into two ways (26) (27) before reaching the cylinder (25). This portion of the gas stream will be mentioned later.
FIG.4, 5, and 6 illustrate the motion of the gas stream (21) (22) after passing through the gas pipe (10). This portion of the gas stream will elevate to the opening of the cylinder at same side of the gas pipe (25) supported by the arc ridges (37) of both sides which are fixed on the floor of the cylinder (11) and serve to surround the direction of the gas stream (21) (22). These arc ridges have the specific characteristic : the curved up at the front (28) and slightly curve over the middle part of the cylinder(29) and elevate (30) to the cylinder at the opposite side of the gas pipe (33). This specific characteristic of the curved surface (37) serves to force the gas stream (21) (22), being separated into two ways, change the direction and elevate to the opening of the cylinder (25) and speed up considerably because the gas stream flows over the curved up at the front. At the same time, the rest portion of the gas stream which encircle the cylinder shape in the cylinder (23) and the curved slopes (29) (30). Thus, the gas stream becomes faster considerably (31) (32) because this gas stream flows over the curved up until the opening of the cylinder at the opposite side of the gas pipe (33).

FIG.3 illustrates the inner side of the ordinary cylinder which the flat floor has equivalent (35) and proportional level (36) of the same side of the gas pipe and its opposite side which is looked like a doughnut as seen from the top view.
Moreover, the gas stream (16), encircling the cylinder shape in the cylinder (17), loses some degree of speed because while flowing along the flat floor, the gas stream (16) moves in parallel to the floor and does not elevate itself to the opening of the cylinder.

FIG. 7 and 8 illustrate the inner sides of the cylinder according to the present invention that the inner wall is round and curved like a bowl (34). It also serves to reduce variation and increase lifting force of the gas stream (21) (22) (31) (32) so that the . 11 L = I 1 4. , .1 ...

gas stream does not lose much degree of speed and can elevate to the whole opening of the cylinder. The inner shape of the cylinder is slightly narrower and elevates until the opening of the cylinder at the opposite side of the gas pipe (33) as shown in FIG.4 and 5 which serve to increase speed of the gas stream (31) (32) before elevating to the opening of the cylinder at the middle (38) and the opposite side of the gas pipe (33).

FIG. 9,10 and 11 illustrate the inner side and the motion of the gas stream according to the present invention. The gas stream (31), moving to the right side, speeds up more considerably because the inner side of the cylinder becomes slightly narrower and elevates to the opening of the cylinder at the opposite side of the gas pipe (33) until the projecting ridges, which serve to separate the gas stream (39), are tied to the surface of the cylinder around the opening of the cylinder at the opposite side of the gas pipe (33). These projecting ridges (39) look like a wedge as seen from the top view and like curved slopes as seen from a cross side. They turn the sharp rim (40) towards the direction of the gas stream (31). The position of the sharp end (40) is nearly around the middle opening of the cylinder (38). The projecting ridges (39) are perforated with two ditches (44) where the gas stream (31) separates into three ways. The first portion of the gas stream (31) elevate over the curve of the projecting ridges (39) and becomes the gas stream (41) which moves to the opening of the cylinder (33). And the rest portion of the gas stream (31) is forced to separate into two ways (42) (43), flows directly to the inner (13) and outer (14) gas holes around the opening of the cylinder (33) and speeds up considerably because the gas stream is compressed and becomes slightly narrower. The gas stream (32) moving along the two ditches on the left side has the same direction as the gas stream (31). See the direction of the gas stream (73) (74) (75) as shown in FIG. 9 and 11.

FIG. 1 and 3 illustrate the cylinder of the ordinary gas stove burner which looks like a doughnut when seen from the top view because there is a hole or space in the , , . ~

middle (45), which causes loss of heat produced by the flame in the inner gas holes (7) while combusting. Thus, the gas stove burner loses some degree of heat around the holes or spaces (45).

FIG. 10 and 20 illustrate the cylinder of the gas stove burner according to the present invention which is designed to store heat of the inner flame (46) by making the dense and solid holes (47) in the middle of the cylinder and the curved slopes (48) which serve to maintain heat (50) produced by the inner flame (46) and spinning around (49), so the inner flame heats up (50) (increasing heat may be done by making either the dense and solid or different levels ditches. Heat (50) can thus spin around.) The middle of the cylinder is perforated (51) for fixing knots (52) in order to tie the cylinder with the surface so that the gas stove burner does not move while operating.

FIG. 12, 13 and 14 illustrate the cover disk which the inner size is proportional (53) and the inner surface is flat (56). When the gas stream (57) passes through the cylinder, it (57) will hit the inner cover disk (56) which the surface is flat.

The speed of the gas stream (57) reduces because the gas stream mostly reflects itself before reaching the inner (7) and outer (8) gas holes.

FIG. 18 and 19 illustrate the inner side of the cover disk according to the present invention which is designed in disproportion and for the specific characteristic.
The inner side of the cover disk close to the gas pipe (54) has normal size and becomes slightly narrower on both vertical and horizontal sections until the opposite side of the gas pipe (55) which serve to force the gas stream (26) (27), coming out from the top of the gas pipe, speed up until the cover disk at the opposite side of the gas pipe (55) because the gas stream is compressed.

FIG. 5, 16 and 17 illustrate the cover disk according to the present invention which the inner surface is designed for the specific characteristic. The projecting ridges . , .i. ......,. õ,.. ,i ..

(59) (60) before reaching the gas holes (13) (14) which serve to reduce reflection force under the cover disk and form an array of the gas stream (61) which comes out from the cylinder and moves directly towards the inner (13) and outer (14) gas holes.
The gas stream can speed up before reaching the inner (13) and outer (14) gas holes because it flows along the surface of the projecting ridges (59) (60) which curve over the gas holes.
The gas stream (72) spreading out from the gas holes is as needed.

FIG. 18 and 19 illustrate the inner side of the cover disk of the gas stove burner according to the 'present invention which the projecting ridges (59) are round and curved. In addition, the circular projecting ridges (60) tie together between the inner (13) and outer (14) gas holes. The curved and round projecting ridges are at the same side as the gas pipe (54) and curve slightly over until the opposite side of the gas pipe (55). On these projecting ridges (59) (60), there are respective small and big projecting ridges (62) overlying one another. These ridges (62) will turn the small size towards the same side of the gas pipe (54). The specific characteristic is making the ditches (63) (64) around the inner (13) and outer (14) gas holes which consider as the spaces of the gas stream which have big and small sizes respectively. These spaces serve to compress the gas stream coming out from the top of the gas pipe (26) (27) better viewed in FIG. 18.
The gas stream flows out through the ditches (63) (64) around the inner (13) and outer (14) gas holes in order to increase the speed of the gas stream (26) (27) before spreading out widely to the gas holes until the opposite side of the cover disk (55). See the direction of the gas stream (65) (66) in FIG. 19. The projecting ridges (59) (60) (62) also serve to increase the speed and reduce reflection force of the gas stream (21) (22) (24) (31) (32) (41) (42) (43) (73) (74) (75) which comes out from the opening of the cylinder before reaching the inner (13) and outer (14) gas holes.

. L . - II .I.= 1 FIG. 16 explains when utilizing the gas stove burner, the user can put the cover disk on the gas stove burner properly. See the sign (67) which indicates the correct positioning of the cover disk at the back of the cover disk.

FIG.1 illustrate the ordinary gas stove frame (9) of the ordinary gas stove burner which has dense and solid wings (68) serving to store heat when the utensil is sitting on and the combustion is starting. The combustion does not accomplish completely because no outside air or oxygen enters in this operation. Moreover, the heat is not complete and produces the lampblack while combusting.

FIG.2 illustrates the gas stove frame (15) according to the present invention which is designed to have the specific characteristic: its wings (69) having the appropriated voids size or suitable set of holes (70) which let outside air or oxygen (71) from outside get in for accomplishing the combustion, reduce the lampblack and eliminate food stain. As a result, the wings of the gas stove frame (69) are not easily broken. The force, which hits the wings of the gas stove frame (69), will expand through these hole (70).

Any improvement can be done by the specialists of the related fields and does not affect any purposes of the invention as prescribed in the tenancy.

THE BEST PROCEDURE OF THE INVENTION
As mentioned all above.

THE UTILIZATION OF THE INVENTION IN THE INDUSTRIAL PRODUCTION

Gas is fuel energy of which the price becomes higher. If there a great number of products each time, it will reduce cost of production. By means of mounding many sets of cast iron, the gas stove burner made from this type of iron will have the same standard-level quality and can be utilized widely in families, restaurants, government ! . .. . . I ! 11 .

agencies, hotels, industries because this can help the country save gas for cooking and protect the environment.

Claims (8)

1. The gas stove burner comprises the valve (1) which distributes gas by the nozzle. The gas stream passes through the venturi opening (2), the gas pipe (10) into the cylinder (11) and the cover disk (12) and spreading out upwardly to the inner (13) and outer (14) gas holes. Its specific characteristic is the projecting ridges (18) aligning along one line or more in the gas pipe (10). The ridge (18) in the lower surface of the gas pipe (10) has respective small and big sizes from the opening of the gas pipe (10) and have curved slopes elevating (76) to the cylinder shape in the cylinder (23) which serve to enlarge the inner surface of the gas pipe, increase the rate of the flow and form an array of the gas stream (20) in the gas pipe (10). The curved projecting ridges (76) is used to separate the gas stream (20) into two ways (21) (22) in order to escape from hitting the cylinder shape in the cylinder (23). Moreover, this ridge is the passage of the gas stream from the gas pipe (20). See the direction of the gas stream (24) which diverts the movement and speeds up by elevating to the opening of the cylinder at the side of the gas pipe (25). The ridges projecting out from the cylinder shape (23) are used to reduce the impact of the gas stream (20), which comes out from the gas pipe (10) as well as to separate or divert the gas stream (20) in the gas pipe (10) into two ways or more.

2. The gas stove burner defined in claim 1 wherein the cylinder (5) has the specific characteristic: the inner side of the cylinder (11) has a curved and round shape like a bowl (34) which serves to reduce variation and friction of the gas stream (21) (22) (31) (32) while encircling the cylinder shape of the cylinder (23) and force the gas stream (21) (22) (31) (32) elevate to the opening of the cylinder.

The inner side of the cylinder (11) surrounding the cylinder shape of the cylinder (23) has disproportional inner size and length of the opening of the cylinder. The inner size and length of the opening of the cylinder which is close to the gas pipe (25) is normal and becomes narrower on both sides of the cylinder shape in the cylinder (23) until the opening of the cylinder at the opposite side of the gas pipe (33) which serve to force the gas stream (21) (22) (31) (32) encircle the cylinder shape in the cylinder (23) and divert the direction towards the opening of the cylinder. In addition, the gas stream is compressed in order to speed up until the opening of the cylinder at the opposite side of the gas pipe (33).

3. The gas stove burner in claim 2 wherein the cylinder (11) has the specific characteristic. In the cylinder (11), there are circular projecting ridges (37) which the front section (28) is curved up and slightly curves curve over the middle part of the cylinder (38) before elevating (30) to the cylinder at the opposite side of the gas pipe (33) encircling the gas stream (21) (22) coming out from the gas pipe (10) which serve to adjust and increase the speed of the gas stream (21) (22) which is forced to elevate to the opening of the cylinder at the same side of the gas pipe (25). The rest portion of the gas stream flows over the curved slopes (29) (30), speeds up (31) (32) and elevates to the opening of the cylinder at the opposite side of the gas pipe (33).

4. The gas stove burner in claim 3 wherein the cylinder (11) has the specific characteristic. The surface of the cylinder (11) around the opening of the cylinder at the opposite side of the gas pipe (33) has the projecting ridges which separate the gas stream (39), serve to encircle the gas stream (31) (32). These projecting ridges have curved and projecting shape when seen from the top view and look like a wedge when seen from the top view by turning the sharp rim (40) towards the direction of the gas stream (31) (32) which serve to force the first portion of the gas stream (31) (32) elevate along the circular and curved surface (39) and speed up considerably. The rest portion of the gas stream (31) (32) is separated into two ways and moves directly to the inner (13) and outer (14) gas holes. The projecting ridges on the surface of the cylinder around the opening of the cylinder at the opposite side of the gas pipe (33) force the gas stream (32) (33) speed up, separate or elevate to the gas holes.

5. The gas stove burner in claim 4 wherein the cylinder (11) has the specific characteristic: the holes or empty spaces of the dense and solid cylinder (47) and the curved slopes (48) serve to store heat and provide heat power produced from the inner flame (46) spinning around (49) in order to help the central flame (50) heat up. The density and the different level of the middle of the cylinder allow the heat spin and lift up around the center of the cylinder.

6. The gas stove burner in claim 1 wherein the cover disk (12) has the specific characteristic. The inner size of the cover disk is not equivalent.
The inner size of the disk close to the gas pipe (54) is normal and becomes narrower on both vertical and horizontal sections at the opposite side of the gas pipe (55). The inner size of the cover disk serves to force the gas stream (26) (27), coming out from the gas pipe and the opening of the cylinder at the same side of the gas pipe (25) be compressed in order to increase the speed until the cover disk at the opposite side of the gas pipe (55).

7. The gas stove burner in claim 6 wherein the cover disk (12) has the specific characteristic. The inner side of the cover disk has projecting ridges (59) (60) between the inner (13) and outer (14) gas holes which serve to reduce the reflection force, form an array and increase the speed of the gas stream coming out from the opening of the cylinder as well as force the gas stream move directly to the inner (13) and outer (14) gas holes. The projecting ridges under the cover disk serving to reduce reflection force or form an array or increase the speed of the gas stream before reaching the inner (13) or outer (14) gas holes.

The inner side of the cover disk has projecting ridges (62) overlying other projecting ridges (59) (60) between the inner (13) and outer (14) gas holes.
Between the projecting ridges (59) (60) (62) tying together, there are the ditches which are the passages of the gas stream (63) (64). These ditches have respective big and small sizes along the lines in the cover disk around the inner (13) and outer (14) gas holes which serve to compress the gas stream (26) (27) coming out from the gas pipe and speed it up before spreading out widely to the gas holes (13) (14) until the opposite side of the cover disk (55). The projecting ridges also serve to increase the speed and reduce reflection force of the gas stream (21)(22)(24)(31)(32)(41)(42)(43)(73)(74)(75) which comes out from the whole opening of the cylinder (25)(33)(38) before reaching the inner (13) and outer (14) gas holes.

8. The gas stove burner in claim 1-7 wherein the gas stove frame (15) has the specific characteristic: there are the appropriated voids size or the suitable set of holes (70) on the wings (69) of the gas stove frame which serve to let cold air or oxygen (71) from outside get in for accomplishing the combustion more completely.