KR102590743B1 - Flame of gas burner Vertical centralized radial gas distribution outlet - Google Patents

Abstract

The present invention relates to a vertical concentrated flame radiating gas distribution port of a gas burner. The flame is concentrated and radiated in the vertical direction rather than spreading horizontally through the fire bowl, thereby rapidly increasing the temperature of the heating vessel and shortening the cooking preparation time. In order to ensure that the gas is connected vertically to the lower part of each of the multiple fire pits so that the gas is directly connected to each fire pit at the desired location, and to concentrate the fire power caused by the flame radiated through the vertical communication structure, A horizontal distribution port (20) connected to a supply pipe (12) connected to the gas cylinder of the gas burner (10); A plurality of vertical moving pipes (22) are provided on the distribution port (20) spaced apart from each other, and male threaded portions (23) are formed at the upper ends of the vertical moving pipes (22), respectively, and the distribution port (20) has a “C” shape. An internal communication is formed in the shape of a ruler or “ㅁ”, an outer extension pipe (16) is formed at one corner of the distribution port (20), and a nut (14) is installed between the outer extension pipe (16) and the supply pipe (12). They are coupled and fixed to each other through, and the distribution port 20 is fixedly installed on the top of a plurality of vertical installation stands 26 in a horizontally spaced state parallel to the inner bottom side of the gas burner 10, and the distribution port 20 A communication preparation part 21 is formed on each corner and the middle of each side, a through hole is formed in the communication preparation part 21 at a point required by design, and then the vertical moving pipe 22 is installed vertically, A crater (30) having a plurality of injection holes (33) screwed to the male thread portion (23) of the vertical moving pipe (22); A through hole 41 formed on the center side of the crater 30 to receive gas supplied through the vertical moving pipe 22 and deliver it to the injection hole 33; A female thread portion 43 is formed on the inner periphery of the through hole 41 and is configured to be screwed to the male thread portion 23 of the vertical moving pipe 22 located at the bottom, and the communication preparation portion 21 protrudes. It is in the form of a circular pipe, and a hemispherical marking groove 71 is formed on the upper side of the communication preparation part 21 in a closed state, and is located in the marking groove 71 of the communication preparation part 21 at a point required for design. After drilling the through hole, the vertical moving pipe 22 is configured to be installed vertically, and a concave groove 72 is formed on the inner surface of the distribution port 20 located on the vertical lower side of the display groove 71. By forming the inner surface of the volleyball 20 and the concave groove 72 to be separated, the inner surface of the distribution port 20 is prevented from being damaged by drilling within the concave groove 72 during drilling of the marking groove 71. It is characterized by being composed.

Description

Flame of gas burner Vertical centralized radial gas distribution outlet}

The present invention relates to a vertically concentrated flame radiating gas distribution port of a gas burner. More specifically, the flame is concentrated and radiated in the vertical direction rather than spreading horizontally through the fire bowl, thereby rapidly increasing the temperature of the heating vessel and reducing the cooking preparation time. In order to shorten the fire, the gas is connected vertically to the lower part of each of the multiple fire pits so that the gas is directly connected to each fire pit at the desired location, and at the same time, the fire power caused by the flame radiated through the vertical communication structure is concentrated. It relates to a vertical concentrated radial gas distribution port that allows the flame of a gas burner to be discharged.

Generally, portable burners use gas, gasoline, etc. as a fuel source and are used to cook food at home or outdoors by placing a cooking vessel on it.

In the structure of a conventional portable burner, the fire pit from which the flame is emitted is provided with a spark pin 152 on the upper side of the insulator 151, as shown in FIG. 1, and the end of the spark pin 152 is the flame ball of the burner 112. It is located toward the (114) side. At this time, in order to lower the pressure of the gas sprayed from the flame hole 114, a pressure regulating plate 131 with micropores 132 is provided.

In the prior art, a typical burner 112 is installed singly at the center of a portable burner. More specifically, a plurality of flame balls 114 are formed on the edge of the burner 112 to control the flame balls 114. The flame expands and radiates upward diagonally.

In this way, since the single burner 112 is installed at the center of the portable burner, a single gas is supplied without the need for a gas distribution port. According to this structure, since the fire bowl 112 with a large surface area is used through a single gas supply, the flame expands in the horizontal direction, so there is a problem that the fire power is weak and it cannot be used only for heating water.

In addition, even when a plurality of craters 112 are provided, a gas expansion port is provided and used. According to this structure, since gas is supplied to each burner 112 after expansion and movement, the gas supply quality is reduced, making it difficult to obtain the required fire power.

Registered Patent No. 10-2248357

Accordingly, the present invention was created to eliminate the above-mentioned problems. The purpose is to rapidly increase the temperature of the heating vessel by causing the flame to radiate in a vertical direction instead of spreading horizontally through the fire bowl, thereby shortening the cooking preparation time. A gas burner that allows gas to be connected vertically to the lower part of each of the multiple burners so that the gas can be directly connected to each burner at the desired location, while also concentrating the fire power of the flame emitted through the vertical communication structure. It was completed as a technical task with a focus on the flame vertical concentrated radiation gas distribution port.

The present invention for achieving the above technical problem is to construct a flame vertical centralized radial gas distribution port of a gas burner, wherein the horizontal distribution port is connected to the supply pipe 12 connected to the gas cylinder of the gas burner 10. (20); A plurality of vertical moving pipes (22) are provided on the distribution port (20) spaced apart from each other, and male threaded portions (23) are formed at the upper ends of the vertical moving pipes (22), respectively, and the distribution port (20) has a “C” shape. An internal communication is formed in the shape of a ruler or “ㅁ”, an outer extension pipe (16) is formed at one corner of the distribution port (20), and a nut (14) is installed between the outer extension pipe (16) and the supply pipe (12). They are coupled and fixed to each other through, and the distribution port 20 is fixedly installed on the top of a plurality of vertical installation stands 26 in a horizontally spaced state parallel to the inner bottom side of the gas burner 10, and the distribution port 20 A communication preparation part 21 is formed on each corner and the middle of each side, a through hole is formed in the communication preparation part 21 at a point required by design, and then the vertical moving pipe 22 is installed vertically, A crater (30) having a plurality of injection holes (33) screwed to the male thread portion (23) of the vertical moving pipe (22); A through hole 41 formed on the center side of the crater 30 to receive gas supplied through the vertical moving pipe 22 and deliver it to the injection hole 33; A female thread portion 43 is formed on the inner periphery of the through hole 41 and is configured to be screwed to the male thread portion 23 of the vertical moving pipe 22 located at the bottom, and the communication preparation portion 21 protrudes. It is in the form of a circular pipe, and a hemispherical marking groove 71 is formed on the upper side of the communication preparation part 21 in a closed state, and is located in the marking groove 71 of the communication preparation part 21 at a point required for design. After drilling the through hole, the vertical moving pipe 22 is configured to be installed vertically, and a concave groove 72 is formed on the inner surface of the distribution port 20 located on the vertical lower side of the display groove 71. By forming the inner surface of the volleyball 20 and the concave groove 72 to be separated, the inner surface of the distribution port 20 is prevented from being damaged by drilling within the concave groove 72 during drilling of the marking groove 71. It provides a flame vertical concentrated radial gas distribution port of a gas burner, which is characterized in that it is configured.

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In addition, a nut member ( 24) is provided so that the nut member 24 is screwed onto the male thread portion 74.

In addition, the machining safety display groove portion 71a is formed inside the marking groove portion 71 with a second horizontal width (w2) narrower than the first horizontal width (w1) of the marking groove portion (71) and the concave groove portion (72). is further formed, and a processing safety concave groove portion (72a) is further formed inside the concave groove portion (72).

In addition, the vertical installation stand 26 is formed in a height-adjustable structure, and the vertical installation stand 26 is provided with a lower adjuster 26a on the inner bottom surface of the gas burner 10, and the lower adjuster ( 26a), an upper support 26b is provided and fixed to the lower side of the distribution port 20, and a bolt member 81 connected to the lower adjuster 26a and the upper support 26b is provided. It is characterized in that the height of the vertical installation stand (26) is adjusted by rotating the lower adjuster (26a) on the bolt member (81).

In addition, the fire bowl 30 has a closed horizontal top plate 31 formed at the top, and an inclined surface 32 is formed to extend downward and slanted outward from the horizontal top plate 31, and a flame is formed on the inclined surface 32. A plurality of injection holes 33 are formed radially, and a horizontal lower plate 34 is formed horizontally outward from the lower end of the inclined surface 32, so that the flame radiated through the injection holes 33 is transmitted to the horizontal lower plate. It moves along the surface of the horizontal lower plate 34, and a vertical wall 35 is formed vertically upward from the outer edge of the horizontal lower plate 34, so that the flame moved along the horizontal lower plate 34 is concentrated in the vertical upward direction. The inner periphery (33a) of the injection hole (33) is formed diagonally upward toward the vertical wall (35) facing the outside, and the outer extension line (33b) of the top dead center (P1) of the inner periphery (33a) ) It is characterized in that it is configured to limit the formation height of the vertical wall 35 by configuring it so that the inner upper edge portion (P2) of the vertical wall 35 is located on the vertical wall 35.

According to the present invention described above, in order to rapidly increase the temperature of the heating vessel and shorten the cooking preparation time by causing the flame to be concentrated and radiated in the vertical direction rather than spreading horizontally through the fire bowl, the flame is integrated into the lower side of the plurality of fire bowls. By allowing the gas to communicate vertically, the gas is directly connected to each fire pit at a desired location, which has the effect of concentrating the fire power caused by the flame radiated through the vertical communication structure.

Figure 1 is an example of a fire bowl in the prior art.
Figures 2 and 3 are exemplary diagrams of a gas burner equipped with a flame vertical concentrated radiation gas distribution port according to the present invention.
Figures 4 and 5 are exemplary diagrams showing the internal state of the gas burner according to the present invention.
Figure 6 is an illustration of the gas distribution port and crater installation state according to the present invention.
Figure 7 is an exemplary embodiment of a crater according to the present invention.
Figures 8 and 9 are exemplary cross-sectional views of the gas distribution port according to the present invention.
10 and 11 are exemplary diagrams of a modified gas distribution port according to the present invention.
Figures 12 and 13 are exemplary embodiments of the fire bowl according to the present invention.

Hereinafter, specific details for implementing the present invention will be described in more detail with reference to the attached drawings.

The present invention allows the flame to be concentrated and radiated in the vertical direction rather than spreading horizontally through the fire bowl, thereby rapidly increasing the temperature of the heating vessel and shortening the cooking preparation time. In order to shorten the cooking preparation time, gas is vertically integrated into the lower part of the plurality of fire bowls. It relates to a flame vertical concentrated radiation type gas distribution port of a gas burner that allows gas to be directly connected to each fire port at a desired location by communicating, and also allows the fire power of the flame radiated through the vertical communication structure to be concentrated, as shown in FIG. 2 With reference to Figures 13, it includes a gas burner 10, a distribution port 20, a crater 30, and a through hole 41.

In order to implement the flame vertical concentrated radiation gas distribution port of the gas burner of the present invention, first, as shown in Figures 2 and 3, a horizontal branch connected to the supply pipe 12 connected to the gas cylinder of the gas burner 10 Volleyball (20) is provided.

In addition, as shown in FIGS. 4 and 5, a plurality of vertical moving pipes 22 are provided on the distribution port 20 to be spaced apart, and male thread portions 23 are formed at the upper ends of the vertical moving pipes 22, respectively.

Looking at the distribution port 20 in more detail, as shown in FIGS. 5 and 8, the distribution port 20 is formed with an internal communication in the shape of a “ㄷ” or “ㅁ” shape. A communication preparation part 21 is formed on each corner and the middle part of each side, a through hole is formed in the communication preparation part 21 at a point required by design, and then the vertical moving pipe 22 is configured to be installed vertically. .

To implement this, in more detail, an outer extension pipe 16 is formed at one corner of the distribution port 20, and the outer extension pipe 16 and the supply pipe 12 are coupled and fixed to each other through a nut 14. The distribution port 20 is fixedly installed on the top of a plurality of vertical installation stands 26 in a horizontally spaced state parallel to the inner bottom of the gas burner 10, and each corner and angle of the distribution port 20 A communication preparation part 21 is formed on the middle part of the side, a through hole is formed in the communication preparation part 21 at a point required for design, and then the vertical moving pipe 22 is configured to be installed vertically.

The distribution port 20 has a plurality of communication preparation parts 21 formed on the upper side to communicate with the interior of the distribution port 20, so that the vertical moving pipe 22 can be selectively connected as needed. .

In addition, the communication preparation part 21 was implemented to ensure installation stability by being formed on the corner side of the distribution port 20, which is formed in a “ㄷ” or “ㅁ” shape, and on the middle side of each side.

And, as shown in Figures 2 to 4, the upper side of the gas burner 10 is provided with a burner 30 having a plurality of injection holes 33 screwed to the male thread 23 of the vertical moving pipe 22, As shown in FIG. 12, a through hole 41 is provided at the center of the crater 30 to receive gas through the vertical moving pipe 22 and transmit it to the injection hole 33. A female thread portion 43 is formed on the inner periphery of and is configured to be screwed to the male thread portion 23 of the vertical moving pipe 22 located at the bottom.

Looking further at the configuration of the present invention described above, first, as shown in FIGS. 2 and 3, a spark plug 83 is provided near the crater 30 to ignite the crater 30, and a spark plug 83 is provided on the outside of the crater 30. A support portion 85 is provided so that the heating container is seated while protecting the crater 30. In the present invention, the support portion 85 is implemented to be formed in a diamond shape. In addition, a control valve 81 for ignition and control of gas is provided on the front side of the gas burner 10.

Meanwhile, as shown in FIGS. 5 and 8, the communication preparation part 21 is in the form of a protruding circular tube, and a hemispherical display groove 71 is formed on the upper side of the communication preparation part 21 to be closed. , a through hole is drilled in the marking groove 71 of the communication preparation part 21 at a point required for design, and then the vertical moving pipe 22 is configured to be installed vertically.

At this time, as shown in FIG. 9, a concave groove 72 is formed on the inner surface of the distribution port 20 located on the vertical lower side of the display groove portion 71, so that the inner surface of the distribution port 20 and the concave groove portion 72 are formed. By forming it to be separated, when drilling the marking groove 71 through the processing tool 2, it is drilled within the concave groove 72 to prevent damage to the inner surface of the distribution port 20 and to form a through hole 79. Processing and formation are possible.

And, as shown in FIGS. 5 and 8, a male thread portion 74 is formed on the outer periphery of the communication preparation portion 21, and the lower end of the vertical moving pipe 22 is vertically coupled to the upper side of the communication preparation portion 21. A nut member 24 having a female thread portion is provided, so that the nut member 24 is screwed onto the male thread portion 74.

Meanwhile, as a modified embodiment of the present invention, as shown in FIG. 10, the display groove portion ( A machining safety display groove portion 71a is further formed inside the concave groove portion 71), and a machining safety concave groove portion 72a is further formed inside the concave groove portion 72.

At this time, the machining safety indication groove portion 71a is formed to be spaced apart from the marking groove portion 71 by the vertical separation height 71b, that is, is formed stepwise, so that it can function as a guide for the machining tool 2.

According to this configuration, a processing tool (2) having a diameter suitable for the second width (w2) is used, and as a result, a processing safety display groove portion (71a) and a processing safety concave groove portion (72a) are formed. Since only w2) is processed, it has a more advantageous configuration in preventing damage to the inner surface of the distribution port 20.

As another modified embodiment of the present invention, the vertical installation stand 26 can be formed in a height-adjustable structure as shown in Figure 11. In this case, the vertical installation stand 26 is installed on the lower side of the inner bottom surface of the gas burner 10. An adjuster 26a is provided, and an upper support 26b is provided spaced apart from the upper side of the lower adjuster 26a and is fixed to the lower side of the distribution port 20, and the lower adjuster 26a and By providing a bolt member 81 connected to the upper support 26b, the height of the vertical installation stand 26 can be adjusted by rotating the lower adjuster 26a on the bolt member 81.

According to this configuration, as shown in FIGS. 2 and 3, the height of the cooking surface 30 can be set as desired by the user, thereby improving usability.

On the other hand, the fire bowl 30 of the present invention is a unique configuration of the present invention for causing the flame to be concentrated and radiated in the vertical direction rather than spreading horizontally. Looking at its shape in detail, it has a closed shape at the top as shown in FIG. 12. A horizontal top plate 31 is formed, and an inclined surface 32 is formed to extend downward and slanted outward of the horizontal top plate 31, and a plurality of injection holes 33 through which flame is emitted are radially formed on the inclined surface 32. is formed, and a horizontal lower plate 34 is formed horizontally outward from the lower end of the inclined surface 32 so that the flame emitted through the injection hole 33 moves along the surface of the horizontal lower plate 34, A vertical wall 35 is formed vertically upward at the outer edge of the horizontal lower plate 34 so that the flame moved along the horizontal lower plate 34 is concentrated in the vertically upward direction.

Through this configuration of the fire bowl 30, the flame is not spread horizontally or diagonally but is concentrated and radiated in the vertical upper direction and is transmitted vertically to the heating container, thereby rapidly increasing the temperature of the heating container and increasing heat transfer efficiency.

In order to increase its heat transfer efficiency, more specifically, as shown in Figure 12 (a), the injection hole 33 is formed in a circular shape. In this case, as shown in Figure 12 (b), the inner periphery of the injection hole 33 is formed. (33a) is formed diagonally upward toward the vertical wall 35 facing the outside, and is formed at the upper inner edge of the vertical wall 35 on the outer extension line 33b of the top dead center (P1) of the inner periphery 33a. By configuring (P2) to be located, the height of the vertical wall 35 is limited.

This is to position the inner upper edge (P2) of the vertical wall (35) through the outer extension line (33b) of the top dead center (P1) of the inner periphery (33a), thereby increasing the upward angle of the inner periphery (33a). By adjusting the height of the vertical wall 35, it is possible to make it longer.

And, as shown in Figure 13, a vertical extension part 38 is further extended on the lower side of the horizontal lower plate 34 of the fire bowl 30, and a female thread part 43 is formed on the inner periphery of the vertical extension part 38. And the horizontal extension part 37 is further extended outward from the lower end of the vertical extension part 38, so that the crater 30 in which the vertical extension part 38 and the horizontal extension part 37 are further extended is formed. It can be configured to be stably coupled to the vertical movement pipe 22, and in addition, a length extension 50 is further provided between the crater 30 and the vertical movement pipe 22, and the length extension 50 is A vertical tube body 53 having a female thread 52 formed on the inner periphery, an upper coupling part 57 extending from the upper end of the vertical tube body 53 and having a male thread 56 formed on the outer periphery, and the vertical tube body 53. The lower end of the tube body 53 is composed of an extension part 54 that extends obliquely downward outward, so that the upper engaging part 57 of the length extension unit 50 is inside the vertical extension part 38 of the crater 30. It can be screwed together, and the vertical tube body 53 of the length extension unit 50 can be configured to be stably screwed on the vertical moving tube 22.

At this time, the extension 54 has a shape inclined downward outward, and for the stability of the extension, it is desirable to bend the finishing edge 55 extending vertically downward at the lower end of the extension 54.

According to the flame vertical concentrated radiation type gas distribution port of the gas burner of the present invention as described above, the flame is concentrated and radiated in the vertical direction rather than spreading horizontally through the fire bowl, thereby rapidly increasing the temperature of the heating vessel and shortening the cooking preparation time. In order to shorten the heat, the gas is connected vertically to the lower part of each of the multiple burners so that the gas is directly connected to each burner at the desired location, and the fire power generated by the flame emitted through the vertical communication structure can be concentrated. There will be.

The present invention described above has been described with reference to an embodiment shown in the drawings, but this is merely illustrative, and various modifications and other equivalent embodiments can be made by those skilled in the art. should be clarified. Therefore, the true technical protection scope of the present invention should be interpreted in accordance with the attached claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

10: gas burner 12: supply pipe
20: distribution port 22: vertical movement pipe
23: male thread 30: crater
41: through hole 43: female thread part

Claims (7)

In constructing the flame vertical concentrated radiation gas distribution port of the gas burner,
a horizontal distribution port (20) connected to a supply pipe (12) connected to the gas cylinder of the gas burner (10); A plurality of vertical moving pipes (22) are provided on the distribution port (20) spaced apart from each other, and male threaded portions (23) are formed at the upper ends of the vertical moving pipes (22), respectively, and the distribution port (20) has a “C” shape. An internal communication is formed in the shape of a ruler or “ㅁ”, an outer extension pipe (16) is formed at one corner of the distribution port (20), and a nut (14) is installed between the outer extension pipe (16) and the supply pipe (12). They are coupled and fixed to each other through, and the distribution port 20 is fixedly installed on the top of a plurality of vertical installation stands 26 in a horizontally spaced state parallel to the inner bottom side of the gas burner 10, and the distribution port 20 A communication preparation part 21 is formed on each corner and the middle of each side, a through hole is formed in the communication preparation part 21 at a point required by design, and then the vertical moving pipe 22 is installed vertically,
A crater (30) having a plurality of injection holes (33) screwed to the male thread portion (23) of the vertical moving pipe (22);
A through hole 41 formed on the center side of the crater 30 to receive gas supplied through the vertical moving pipe 22 and deliver it to the injection hole 33; A female thread 43 is formed on the inner periphery of the through hole 41 and is screwed to the male thread 23 of the vertical moving pipe 22 located at the bottom,
The communication preparation part 21 is in the form of a protruding circular tube, and a hemispherical display groove 71 is formed on the upper side of the communication preparation part 21 to be closed, and the point communication preparation part ( After drilling a through hole in the display groove 71 of 21), the vertical moving pipe 22 is configured to be installed vertically,
A concave groove 72 is formed on the inner surface of the distribution port 20 located on the vertical lower side of the display groove portion 71 so that the inner surface of the distribution port 20 and the concave groove portion 72 are separated, A flame vertical concentrated radial gas distribution port of a gas burner, characterized in that it is configured to prevent damage to the inner surface of the distribution port (20) by drilling within the recessed groove portion (72) when drilling the display groove portion (71).
delete delete According to paragraph 1,
A nut member 24 having a male thread portion 74 formed on the outer periphery of the communication preparation portion 21 and a female thread portion at the lower end of the vertical moving pipe 22 vertically coupled to the upper side of the communication preparation portion 21. A flame vertical centralized radial gas distribution port of a gas burner, characterized in that it is provided and configured so that the nut member 24 is screwed on the male thread portion 74.
According to clause 4,
A machining safety display groove portion 71a is further formed inside the display groove portion 71 with a second width w2 narrower than the first width w1 of the display groove portion 71 and the concave groove portion 72. A flame vertical concentrated radial gas distribution port of a gas burner, characterized in that it is formed and a processing safety concave groove portion (72a) is further formed inside the concave groove portion (72).
According to clause 5,
The vertical installation stand 26 is formed in a height-adjustable structure, and the vertical installation stand 26 is provided with a lower adjuster 26a on the inner bottom surface of the gas burner 10, and the lower adjuster 26a It is provided with an upper support (26b) spaced apart from the upper side and is fixed to the lower side of the distribution port (20), and is provided with a bolt member (81) connected to the lower adjuster (26a) and the upper support (26b). , A flame vertical concentrated radial gas distribution port of a gas burner, characterized in that the height of the vertical installation stand (26) is adjusted by rotating the lower adjuster (26a) on the bolt member (81).
According to clause 6,
The fire bowl 30 has a closed horizontal top plate 31 formed at the top, and an inclined surface 32 is formed to extend downward and slanted outward from the horizontal top plate 31, and a flame is emitted on the inclined surface 32. A plurality of injection holes 33 are formed radially, and a horizontal lower plate 34 is formed horizontally outward from the lower end of the inclined surface 32, so that the flame radiated through the injection holes 33 is transmitted to the horizontal lower plate 34. ), and a vertical wall 35 is formed vertically upward from the outer edge of the horizontal lower plate 34 so that the flame moved along the horizontal lower plate 34 is concentrated in the vertical upward direction. And, the inner periphery (33a) of the injection hole (33) is formed diagonally upward toward the vertical wall (35) facing the outside, and is located on the outer extension line (33b) of the top dead center (P1) of the inner periphery (33a). A flame vertical concentrated radial gas distribution port of a gas burner, characterized in that it is configured to limit the formation height of the vertical wall (35) by configuring the edge inner upper end (P2) of the vertical wall (35) to be located at.

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