JP7086810B2 - Combustion device and bonfire device - Google Patents

Description

The present invention relates to a combustion device and a bonfire device.

Runners may relay bonfires that burn fuel at the Olympic Games and the National Sports Festival. As a prior art, for example, a torch that uses a liquefied fuel and uses a combustion flame that vaporizes and burns the liquefied fuel for a bonfire relay has been proposed (see, for example, Patent Document 1). Further, as a prior art, for example, a combustion device for a torch provided with a sponge arranged in a container for accommodating liquid fuel and at least one internal mesh, and the liquid fuel is reliably held in the container by the sponge has been proposed. (See, for example, Patent Document 2).

Japanese Patent No. 4177925 JP-A-2017-98223

However, for example, in a combustion device using liquefied gas, valves, nozzles, pipes, and the like are complicatedly configured, and the number of parts may increase. For example, a combustion device using liquefied gas has a container (tank) for accommodating liquefied gas, adjusts the fuel to be burned with a plurality of valves, and discharges gas from a nozzle through a pipe that can obtain a predetermined gas flow rate. By letting it take in air and burning the gas. In this case, it may be difficult to change the fuel itself because it is necessary to set the conditions of the gas flow rate and the flow path according to the fuel to be used.

In addition, a combustion device using liquefied gas needs to prevent gas from leaking from the connection portion of each member, which may require a complicated and elaborate member. For example, when a combustion device using liquefied gas is used for a torch, if the torch is dropped and the piping is deformed or a valve breaks down, it may cause a misfire, a fire, an explosion, or the like. Therefore, a combustion device using a liquefied gas may have a possibility of a decrease in reliability against misfire, an increase in weight, a limitation on the fuel that can be used, and the like.

Further, in a combustion device using a liquid fuel, for example, when a fuel such as hydrophilic ethanol soaked in a sponge or the like is exposed to rainfall, the fuel concentration may decrease and the fire may be extinguished. Further, there is a problem that even if a combustion device using liquid fuel is simply provided with a rain shield, there is a high possibility that the fire will be extinguished under strong winds.

The present invention has been made in view of the above, and an object of the present invention is to provide a combustion device and a bonfire device capable of preventing fire extinguishing due to wind and rain with a simple configuration.

In order to solve the above-mentioned problems and achieve the object, in the combustion device according to one aspect of the present invention, the first vent provided at the lower part and the second vent provided at the upper part provide fuel. A main combustion chamber connected by a non-combustible fuel absorber that holds it by absorbing it to form a tubular space inside, and one or more third vents are provided, and at least the type of fuel generated by the fuel. It is possible to reduce the direct infiltration of rainfall while ensuring ventilation to the sub-combustion chamber in which a part of the space that enables combustion is connected to the space of the main combustion chamber and at least the third vent. It is characterized by having a rainproof part.

Further, in the combustion apparatus according to one aspect of the present invention, the sub-combustion chamber is provided at least one of the upper side and the lower side of the fuel absorber.

Further, in the combustion apparatus according to one aspect of the present invention, the main combustion chamber has a tubular first member provided with the fuel absorber and a tubular narrow tubular portion narrower than the first member. It is characterized in that it is composed of a second member forming the auxiliary combustion chamber above the fuel absorber.

Further, in the combustion apparatus according to one aspect of the present invention, the fuel is a mixture of a non-hydrophilic biojet fuel or a biodiesel fuel.

Further, in the combustion device according to one aspect of the present invention, the rainproof portion is characterized in that a flame color reaction member that causes a flame color reaction is held in the vicinity of the second vent.

Further, in the combustion apparatus according to one aspect of the present invention, the main combustion chamber is characterized in that the fuel absorber is separable.

Further, in the combustion device according to one aspect of the present invention, the rainproof portion is characterized by having a rainwater flow path for passing rainwater in the main combustion chamber.

Further, the bonfire device according to one aspect of the present invention is characterized by having the combustion device and a support for supporting the combustion device at an end portion having a predetermined length.

Further, in the bonfire device according to one aspect of the present invention, the support is characterized by having a blower device that blows air from below to the first vent.

Further, the bonfire device according to one aspect of the present invention is characterized in that the combustion device has a substantially spherical outer shape.

Further, the bonfire device according to one aspect of the present invention has the second vent and the third vent according to the operation of the user so as to prevent the combustion of the fuel in the main combustion chamber and the sub-combustion chamber. It is characterized by further having a blocking portion that blocks ventilation against the air.

According to the present invention, it is possible to prevent fire extinguishing due to wind and rain with a simple configuration.

It is a figure which shows the structural example of the bonfire device which concerns on one Embodiment. It is a figure which illustrates the state which exposed the upper part of the combustion apparatus main body which the combustion apparatus of the bonfire apparatus which concerns on one Embodiment has. It is a perspective view which illustrates the appearance of the combustion apparatus main body. It is a side view which illustrates the side surface of the combustion apparatus main body. It is sectional drawing which illustrates the cross section of the combustion apparatus main body. (A) is a cross-sectional view showing a state of a combustion device main body when a strong wind blows from above and from the side while the combustion device main body is burning liquid fuel. (B) is a perspective view showing the state of the combustion device main body when a strong wind blows from above and from the side while the combustion device main body is burning the liquid fuel. It is a perspective view which illustrates the appearance of the combustion apparatus which concerns on one Embodiment. It is a side view which illustrates the side surface of the combustion apparatus which concerns on one Embodiment. It is sectional drawing which illustrates the cross section of the combustion apparatus which concerns on one Embodiment. It is an exploded perspective view which illustrates each part constituting the combustion apparatus which concerns on one Embodiment. It is sectional drawing which shows the state which the combustion apparatus which concerns on one Embodiment is burning a liquid fuel. It is a figure which illustrates the state which relay ignition of the bonfire is performed using the bonfire device which concerns on one Embodiment. It is sectional drawing which shows the structure of the modification of the combustion apparatus which concerns on one Embodiment. It is a figure which shows the structural example of the bonfire device which concerns on one Embodiment. It is a perspective view which shows the structure of the combustion apparatus accommodated in the support shown in FIG. 14 and the periphery thereof. It is a perspective view which illustrates the appearance of the combustion apparatus which concerns on one Embodiment. It is a side view which illustrates the side surface of the combustion apparatus. It is sectional drawing which illustrates the cross section of the combustion apparatus which concerns on one Embodiment. It is an exploded perspective view which illustrates each part constituting the combustion apparatus which concerns on one Embodiment. It is an exploded perspective view which illustrates the structure of the combustion apparatus which concerns on one Embodiment and its surroundings. It is a perspective view which illustrates the appearance of the lower operation bar. It is a perspective view which illustrates the appearance of a clasp. (A) is a figure which shows the state at the time of combustion of the combustion apparatus in a bonfire apparatus. (B) is a figure which shows the state at the time of extinguishing fire of the combustion apparatus in a bonfire apparatus. It is an enlarged perspective view which shows the periphery of the lower operation rod at the time of combustion of a combustion apparatus. It is an enlarged perspective view which shows the periphery of the lower operation rod at the time of extinguishing a fire of a combustion apparatus. (A) is an enlarged view showing a state at the time of combustion of a combustion device in a bonfire device. (B) is an enlarged view showing a state at the time of extinguishing a fire of a combustion device in a bonfire device. It is a figure which shows the structural example of the bonfire device which concerns on one Embodiment. It is a perspective view which illustrates the appearance of the combustion apparatus which concerns on one Embodiment. It is a side view which illustrates the side surface of the combustion apparatus which concerns on one Embodiment. It is sectional drawing which illustrates the cross section of the combustion apparatus which concerns on one Embodiment. It is an exploded perspective view which illustrates each part constituting the combustion apparatus which concerns on one Embodiment. It is an exploded perspective view which illustrates the structure of the bonfire device including a combustion device and its surroundings. (A) is a figure which shows the state at the time of combustion of the combustion apparatus in a bonfire apparatus. (B) is a figure which shows the state at the time of extinguishing fire of the combustion apparatus in a bonfire apparatus. (A) is a figure which shows the position of the lower end of the operation plate at the time of combustion of a combustion apparatus. (B) is a figure which shows the position of the lower end of the operation plate at the time of extinguishing a fire of a combustion apparatus. (A) is a figure which shows the periphery of the combustion device at the time of combustion of a bonfire device. (B) is a figure which shows the periphery of the combustion device at the time of extinguishing a fire of a bonfire device.

Hereinafter, an embodiment of the bonfire device 1 will be described in detail with reference to the drawings.

FIG. 1 is a diagram showing a configuration example of a bonfire device 1 according to an embodiment. The bonfire device 1 has, for example, a configuration in which a combustion device 3 is supported at one end of a support 2 having a predetermined length. The support 2 has, for example, a support 20 and a coupling 22. The bonfire device 1 may be provided with a decorative member or the like on the outside.

The support portion 20 supports the combustion device 3 at a predetermined height, for example, by being held by a runner who relays the bonfire. Since the bonfire device 1 is held by the runner so that the combustion device 3 is located above, each part constituting the bonfire device 1 is assumed to have the combustion device 3 arranged at the upper end as shown in FIG. The arrangement of is shown.

The coupling portion 22 is a member that couples the support portion 20 and the combustion device 3, and is provided with a plurality of intake ports 220 below. Each of the intake ports 220 is provided to take in outside air below the combustion device 3 supported by the support 2.

FIG. 2 is a diagram illustrating a state in which the upper portion of the combustion device main body 4 included in the combustion device 3 of the bonfire device 1 according to the embodiment is exposed. The combustion device main body 4 burns, for example, a liquid fuel described later, for example, using the outside air taken in from the intake port 220. Further, the inside of the support portion 20 may have a blower device 24 provided with a fan (not shown) that blows air from below to the combustion device main body 4. The blower 24 improves the function of the combustion device main body 4 to burn the liquid fuel, and makes it possible to let the flame out from the end of the combustion device 3 even when the bonfire device 1 is turned upside down. ..

Next, the configuration of the combustion device main body 4 will be described with reference to FIGS. 3 to 5.

FIG. 3 is a perspective view illustrating the appearance of the combustion device main body 4. FIG. 4 is a side view illustrating the side surface of the combustion device main body 4. FIG. 5 is a cross-sectional view illustrating the cross section of the combustion device main body 4. As shown in FIGS. 3 to 5, the combustion device main body 4 has a first member 40 and a second member 42.

The first member 40 is, for example, a cylindrical member provided with a vent 400 at the lower portion and a vent 402 at the upper portion. For example, the first member 40 is made of a metal such as aluminum, stainless steel (SUS), or copper. The first member 40 is not limited to being a cylindrical member, and may be provided with a vent 400 at the lower portion and a vent 402 at the upper portion. Further, the vent 400 does not have to be provided at the lower end corresponding to the bottom of the first member 40, and may be provided at the lower end of the side surface of the first member 40, for example.

Further, the first member 40 is provided with, for example, a nonflammable fuel absorbing material 404 that absorbs and holds liquid fuel in a cylindrical shape along the inner surface. The fuel absorber 404 has a cylindrical space formed therein, and connects the vent 400 and the vent 402. For example, the fuel absorber 404 is provided so that the upper end thereof is located below the vent 402. The fuel absorbent 404 is, for example, a nonflammable carbon felt that absorbs and holds a large amount of liquid fuel by a capillary phenomenon, a cloth-based member, a sponge-based member, or the like. The fuel absorber 404 may be formed in a rectangular shape and wound along the inner surface of the first member 40, or thin materials may be stacked and wound. The fuel absorbent 404 may be fixed to the first member 40 from the inside by a nonflammable elastic member, or may be fixed by a rivet or the like.

If the inner area (combustion area) of the fuel absorber 404 is large, the flame emitted from the combustion device main body 4 is also large. Further, if the inner area of the fuel absorber 404 is small, the flame emitted from the combustion device main body 4 is also small. The relationship between the inner area of the fuel absorber 404 and the size of the flame has been confirmed by experiments.

Further, the amount (capacity) of the liquid fuel held by the fuel absorbing material 404 is determined by the thickness of the fuel absorbing material 404, for example, if the amount of liquid fuel absorbed per unit thickness of the fuel absorbing material 404 is determined. At this time, if the fuel absorber 404 is thick, the combustion time by the combustion device main body 4 becomes long. Further, when the fuel absorber 404 is thin, the combustion time by the combustion device main body 4 is also shortened. For example, about 50 ml of the liquid fuel is injected into the fuel absorber 404 by a syringe or the like.

The liquid fuel held by the fuel absorber 404 is, for example, a biofuel such as biomass ethanol that does not impose an environmental load. The biomass ethanol may be, for example, a sugar raw material such as sugar cane or sugar beet, a starchy raw material such as corn or rice, or a cellulosic raw material. Further, the liquid fuel may be composed of two or more kinds of biomass ethanol. Further, the first member 40 may be coated or fixed with, for example, gelled solid fuel instead of liquid fuel along the inner surface.

If the fuel absorber 404 is a flammable member, the fuel absorber 404 itself burns, so that the flame cannot be adjusted by adjusting the liquid fuel. Further, when the fuel absorber 404 burns, it is considered that the flame color and the combustion condition are affected depending on the components of the fuel absorber 404, but if it does not react significantly by combustion, the influence on the flame is considered to be. It is considered to be negligible. However, the fuel absorber 404 is not good as a material that reacts with liquid fuel.

The second member 42 is attached so as to be a cap for the first member 40, and the side surface is inclined so that the upper portion has a diameter smaller than the outer diameter of the first member 40. For example, the second member 42 is formed of a metal such as aluminum, stainless steel, or copper, and is screwed to the first member 40.

Further, the second member 42 is formed with a tubular narrow tubular portion 420 inside. The narrow cylindrical portion 420 is provided with a vent 422 at the lower portion and a vent 424 at the upper portion. A groove portion 424a is provided at the upper end of the second member 42 so that a connecting member 56, which will be described later, is fitted. Then, the narrow tubular portion 420 forms a cylindrical space narrower than the cylindrical space formed inside the first member 40 above the first member 40.

Further, in the second member 42, for example, an annular space is formed around the narrow cylindrical portion 420 so as to form an auxiliary combustion chamber 426 above the fuel absorber 404. The second member 42 is provided with a plurality of vents 428 on the outer peripheral surface thereof, and when attached to the first member 40, the second member 42 has an annular auxiliary combustion chamber 426 that can be ventilated above the fuel absorber 404. Form. The sub-combustion chamber 426 has, for example, a small space capable of burning at least a fire type by the liquid fuel held by the fuel absorber 404, and a part of the space is connected to the space inside the first member 40. ..

As described above, in the combustion apparatus main body 4, the second member 42 is attached to the first member 40, so that the vent 400 is used as the first vent at the lower end and the vent 424 is used as the second vent at the upper end. The configuration is provided with a tubular main combustion chamber 430 connected by a fuel absorber 404 in which a tubular space is formed. The inner surface of the main combustion chamber 430 has a combustion surface of the fuel absorber 404. Therefore, when the combustion device main body 4 is ignited by the liquid fuel vaporized from the fuel absorber 404, the liquid causes a chimney effect and continuously raises a flame with good visibility upward from the second member 42. Burn the fuel.

Next, the function of the combustion device main body 4 will be described with reference to FIG.

FIG. 6 is a diagram illustrating the functions of the combustion device main body 4. FIG. 6A is a cross-sectional view showing a state of the combustion device main body 4 when a strong wind blows from above and from the side while the combustion device main body 4 is burning the liquid fuel. FIG. 6B is a perspective view showing a state of the combustion device main body 4 when a strong wind blows from above and from the side while the combustion device main body 4 is burning the liquid fuel.

The combustion apparatus main body 4 has an air flow path passing through the main combustion chamber 430 and an auxiliary combustion chamber 426 that ventilates by a vent 428, and strong wind blows from above and from the side when burning liquid fuel. If so, the flame extending upward from the vent 424 may approach extinguishing the fire. When the flame is completely extinguished, the fire is extinguished. However, the combustion apparatus main body 4 can maintain the fire type by using the air passing through the vent 428 in the sub-combustion chamber 426 by the liquid fuel mainly vaporized from the upper end of the fuel absorber 404. That is, even if the combustion device main body 4 receives wind from the outside, it is possible to prevent fire extinguishing by leaving a fire source in the sub-combustion chamber 426.

In the experiment, it has been confirmed that the combustion device main body 4 does not extinguish the fire even if it receives a wind from a blower having a wind speed of 30 m / s or more from the side and directly above while burning the liquid fuel. As described above, the combustion device main body 4 has a function of preventing fire extinguishing against wind from above and from the side by providing the auxiliary combustion chamber 426.

Next, the overall configuration of the combustion device 3 will be described with reference to FIGS. 7 to 10.

FIG. 7 is a perspective view illustrating the appearance of the combustion device 3. FIG. 8 is a side view illustrating the side surface of the combustion device 3. FIG. 9 is a cross-sectional view illustrating the cross section of the combustion device 3. FIG. 10 is an exploded perspective view illustrating each part constituting the combustion device 3. The parts constituting the combustion device 3 are not limited to the configurations shown in FIGS. 7 to 10, and may have different shapes or may be integrated in any combination.

As shown in FIGS. 7 to 10, the combustion device 3 has, for example, a configuration in which a rainproof portion 5 is attached to the combustion device main body 4. The rainproof portion 5 has a case lid 50, a crater 52, a rain shield member 54, and a connecting member 56, and has a function of blocking direct intrusion of rainfall into the combustion device main body 4 while ensuring ventilation. ..

The case lid 50 is provided with an opening 500 at the upper part and an opening 502 at the lower part to prevent direct intrusion of wind and rain into the ventilation port 428 of the combustion device main body 4 while ensuring ventilation. .. Further, the case lid 50 is provided with a ventilation port 504 at the upper portion, and the ventilation performance for the ventilation port 428 is improved. For example, the case lid 50 is made of a metal such as aluminum, stainless steel, or copper.

The crater 52 has a vent 424 so that the opening 520 provided at the lower portion is coupled to the second member 42 via the connecting member 56 to prevent rainfall from entering the combustion device main body 4 from the vent 424. While covering, it emits a flame when the liquid fuel is burned. However, since the crater 52 is provided with, for example, four vents 522 and secures ventilation to the vents 424, it is not possible to prevent all rainfall on the vents 424 by itself. For example, the crater 52 is made of a metal such as aluminum, stainless steel, or copper.

Further, the crater 52 holds a flame reaction member that causes a flame reaction inside. For example, the flame reaction member may be fixed to the crater 52 by a refractory putty or the like (not shown). The flame reaction member may be, for example, NaCl or the like, and may be fixed in a region where the temperature becomes high. When the flame reaction member is NaCl, the flame color is generally orange to yellow. The crater 52 does not have to hold the flame reaction member when the member itself is made of copper (including the case of plating) that easily causes a flame reaction.

The rain shield member 54 is formed so as to cover the vent 522 of the crater 52 while ensuring ventilation to the vent 424 by the opening 540 provided at the lower portion, and is attached to the crater 52. There is. For example, the rain shield member 54 is made of a metal such as aluminum, stainless steel, or copper. The crater 52 and the rain shield member 54 may be integrally formed. Further, since the crater 52 and the rain shield member 54 are made of metal, it is possible to evaporate some rain by heating.

The connecting member 56 is provided with a vent 560 at the bottom and a vent 562 at the top. For example, the connecting member 56 is made of a metal such as aluminum, stainless steel, or copper. Then, the lower portion of the connecting member 56 is fitted to the second member 42, so that the crater 52 to which the rain shield member 54 is attached is coupled to the second member 42. The connecting member 56 may be configured to be coupled to another member as a screw member. When the connecting member 56 is fitted to the second member 42, the main combustion chamber 430 is extended so that the upper end thereof is not the vent 424 but the vent 562.

Further, the narrow cylindrical portion 420 of the second member 42 to which the connecting member 56 is connected also has a function as a rainwater guide for preventing the fuel absorber 404 from getting wet due to rainfall from above. The narrow cylindrical portion 420 can also evaporate some rainwater when it is heated by the combustion of liquid fuel. Further, the connecting member 56, together with the crater 52 and the rain shield member 54, prevents rain from directly entering the vent 504 of the case lid 50.

In this way, in the combustion device 3, since the rainproof unit 5 blocks the direct infiltration of rainfall into the combustion device main body 4, it is possible to prevent the liquid fuel from being diluted or cooled by rain. , Fire extinguishing can be prevented.

FIG. 11 is a diagram showing a state in which the combustion device 3 is burning the liquid fuel. In the combustion device 3, when the liquid fuel vaporized from the fuel absorber 404 starts to burn, air having a temperature higher than that of the outside air exists in the main combustion chamber 430. Since the hot air has a lower density than the cold air, buoyancy is generated in the air in the main combustion chamber 430. As a result, the combustion device 3 raises the warm air together with the vaporized liquid fuel while drawing the external cold air from the vent 400 into the main combustion chamber 430.

In the combustion device 3, since the space B in the narrow tubular portion 420 is narrower than the space A in the first member 40, the air flow is adjusted and accelerated, and the flame emitted from the crater 52 is converged. It becomes a strong firepower. Further, since the combustion device 3 causes a flame color reaction by the flame color reaction member held in the crater 52 located in the high temperature space C, a flame having higher visibility can be raised above the crater 52.

FIG. 12 is a diagram illustrating a state in which relay ignition of a bonfire is performed using the bonfire device 1 according to the embodiment. As shown in FIG. 12, the igniting bonfire device 1 can perform relay ignition by bringing the combustion devices 3 close to each other with respect to another igniting bonfire device 1.

As described above, the bonfire device 1 according to the embodiment has a main combustion chamber 430 holding fuel inside, an auxiliary combustion chamber 426 connected to the space inside the main combustion chamber 430, and a rainproof portion 5. This makes it possible to prevent fire extinguishing due to wind and rain with a simple configuration.

Next, a modification of the combustion device 3 will be described.

FIG. 13 is a cross-sectional view showing the configuration of a modified example of the combustion device 3 (combustion device 3a). In the combustion device 3a shown in FIG. 13, substantially the same configuration as each part constituting the above-mentioned combustion device 3 is designated by the same reference numeral.

As shown in FIG. 13, the combustion device 3a has a configuration in which a rainproof portion 5a is attached to, for example, the combustion device main body 4a. The combustion device main body 4a has a first member 40 and a second member 42a.

The second member 42a is attached so as to be a cap for the first member 40, and the side surface is inclined so that the upper portion has a diameter smaller than the outer diameter of the first member 40. Further, the second member 42a is formed with a tubular narrow tubular portion 420a inside. The narrow cylindrical portion 420a is provided with a vent 422a at the lower portion and a vent 425 at the upper portion. Then, the narrow tubular portion 420a forms a cylindrical space narrower than the cylindrical space formed inside the first member 40 above the first member 40.

Further, in the second member 42a, for example, an annular space is formed around the narrow cylindrical portion 420a so as to form an auxiliary combustion chamber 426a above the fuel absorber 404. The second member 42a is provided with a plurality of vents 428a on the side surface thereof, and when attached to the first member 40, forms an annular auxiliary combustion chamber 426a that can be ventilated above the fuel absorber 404. do. The sub-combustion chamber 426a has, for example, a small space capable of burning at least a fire type by the liquid fuel held by the fuel absorber 404, and a part of the space is connected to the space in the first member 40. ..

In this way, in the combustion device main body 4a, the second member 42a is attached to the first member 40, so that the vent 400 is the first vent at the lower end and the vent 425 is the second vent at the upper end. It is configured to include a connected main combustion chamber 430a. Therefore, when the combustion device main body 4a is ignited by the liquid fuel vaporized from the fuel absorber 404, the liquid causes a chimney effect and continuously raises a flame with good visibility upward from the second member 42a. Burn the fuel.

The rainproof portion 5a has a case lid 50a, a rain receiving portion 550, and a rainwater flow path 552, and has a function of blocking direct intrusion of rainfall into the combustion device main body 4a while ensuring ventilation. The case lid 50a is provided with an opening 500a at the upper part and an opening 502a at the lower part to prevent direct intrusion of wind and rain into the ventilation port 428a of the combustion device main body 4a while ensuring ventilation. .. Further, the case lid 50a may be provided with the same ventilation port as the above-mentioned ventilation port 504.

The rain receiving portion 550 has a function of receiving rainfall from above the combustion device main body 4a and the case lid 50a and flowing it to the rainwater flow path 552. That is, the rain receiving portion 550 and the rainwater flow path 552 function as a funnel. The rainwater that has passed through the rainwater flow path 552 may be accommodated in the bonfire device 1. The rain receiving portion 550 and the rainwater flow path 552 may be fixed to the bonfire device 1, and the fixing place and method may be arbitrarily determined.

As described above, the bonfire device 1 according to the embodiment has a main combustion chamber 430a holding fuel inside, an auxiliary combustion chamber 426a connected to the space in the main combustion chamber 430a, and a rainproof portion 5a. This makes it possible to prevent fire extinguishing due to wind and rain with a simple configuration.

In the present embodiment, the bonfire device 1 exemplifies a case where the inside is cylindrical, but it has a polygonal shape such as an elliptical shape, a triangular shape, or a square shape, or a streamlined shape (teardrop shape). ) And so on.

Next, the bonfire device 1b according to another embodiment will be described.

FIG. 14 is a diagram showing a configuration example of the bonfire device 1b according to another embodiment. The bonfire device 1b has, for example, a configuration in which a combustion device 3b is supported at one end of a support 2b having a predetermined length. The support 2b has, for example, a plurality of vents 20b and holes 22b.

The support 2b supports the combustion device 3b to a predetermined height, for example, by being held by a runner who relays the bonfire. Since the bonfire device 1b is held by the runner so that the combustion device 3b is located above, each part constituting the bonfire device 1b assumes that the combustion device 3b is arranged at the upper end as shown in FIG. The arrangement of is shown.

The vent 20b is open so as to allow downward ventilation of the combustion device 3b. The hole 22b is open to allow the runner and other users to press the button 80. The button 80 is provided to operate a fire extinguishing mechanism for extinguishing the bonfire of the bonfire device 1b according to the operation of the runner and other users.

FIG. 15 is a perspective view showing the configuration of the combustion device 3b housed in the support 2b shown in FIG. 14 and its surroundings. The combustion device 3b is housed in an outer cylinder 60 and is supported by an upper operating rod 62, a lower operating rod 70, a grip core material 64, and the like. The outer cylinder 60 is provided with a plurality of vents 602 at the lower portion, and the upper operation rod 62 is penetrated together with the fixing member 600 connected to the lower end. The grip core material 64 is provided with a button 80. The details of the outer cylinder 60, the upper operation rod 62, the lower operation rod 70, the grip core material 64, and the like will be described later with reference to FIG. 20 and the like.

Next, the configuration of the combustion device 3b will be described with reference to FIGS. 16 to 19.

FIG. 16 is a perspective view illustrating the appearance of the combustion device 3b. FIG. 17 is a side view illustrating the side surface of the combustion device 3b. FIG. 18 is a cross-sectional view illustrating the cross section of the combustion device 3b. FIG. 19 is an exploded perspective view illustrating each part constituting the combustion device 3b. As shown in FIGS. 16 to 19, the combustion device 3b has a configuration in which a rainproof portion 5b is attached to the upper part of the combustion device main body 4b.

The container 40b is, for example, a cylindrical member provided with a vent 400b at the bottom and a vent 402b at the top. For example, the container 40b is made of a metal such as aluminum, stainless steel (SUS), or copper. The container 40b is not limited to being a cylindrical member, and may be provided with a vent 400b at the lower portion and a vent 402b at the upper portion. Further, the vent 400b does not have to be provided at the lower end corresponding to the bottom of the container 40b, and may be provided at the lower end of the side surface of the container 40b, for example. Further, a plurality of pins 410b are fitted in the lower portion of the container 40b.

Further, in the container 40b, for example, the middle material 42b is detachably housed inside. The middle material 42b is a non-combustible fuel absorbent material in which, for example, a non-hydrophilic biojet fuel or a biodiesel fuel absorbs a liquid fuel mixed with bioethanol to hold the fuel and forms a tubular space inside. Is. For example, the liquid fuel is a mixed fuel in which 80 to 90 vol% of ethanol and 1 to 20 vol% of the main component are kerosene. Visibility is improved when the proportion of biojet fuel or biodiesel fuel mixed is increased.

The middle material 42b connects the vent 400b and the vent 402b by a cylindrical space formed inside. Further, the middle material 42b is provided with a step on the inside of the upper portion so as to be lower than the vent 402b, and an annular space is formed so as to form an auxiliary combustion chamber 426b together with the cap 44b.

The middle material 42b is, for example, a nonflammable carbon felt that absorbs and retains a large amount of liquid fuel due to a capillary phenomenon, a cloth-based member, a sponge-based member, or the like. The middle material 42b may be formed in a rectangular shape and wound along the inner surface of the container 40b, or thin materials may be stacked and wound. The middle material 42b may be fixed to the container 40b from the inside by a nonflammable elastic member, or may be fixed to the container 40b by a rivet or the like.

If the inner area (combustion area) of the middle material 42b is large, the flame emitted from the combustion device main body 4b also becomes large. Further, if the inner area of the middle material 42b is small, the flame emitted from the combustion device main body 4b is also small. The relationship between the inner area of the middle material 42b and the size of the flame has been confirmed by experiments.

The cap 44b is attached to the upper part of the container 40b, and the upper part is inclined on the side surface so as to have a diameter smaller than that of the ventilation port 402b of the container 40b. For example, the cap 44b is made of a metal such as aluminum, stainless steel, or copper and is screwed to the container 40b.

Further, the cap 44b has a tubular portion 440b formed inside. The tubular portion 440b is provided with a vent 442b at the lower portion and a vent 444b at the upper portion. A groove is provided in the upper part of the cap 44b so that the rain shield member 54b, which will be described later, is fitted. The cap 44b is formed with, for example, an annular space around the tubular portion 440b so as to form an auxiliary combustion chamber 426b together with the middle material 42b. Further, the cap 44b is provided with a plurality of vents 446b on the outer peripheral surface thereof. Then, when the cap 44b is attached to the container 40b, an annular auxiliary combustion chamber 426b that can be ventilated above the middle material 42b is formed together with the middle material 42b. The sub-combustion chamber 426b has, for example, a small space capable of burning at least a fire with the liquid fuel held by the middle material 42b, and a part of the space is connected to the space inside the container 40b.

As described above, the combustion chamber main body 4b is internally provided with the cap 44b attached to the container 40b, for example, with the vent 400b as the first vent at the lower end and the vent 444b as the second vent at the upper end. It is configured to include a tubular main combustion chamber 430b connected by a middle member 42b in which a tubular space is formed. The inner surface of the main combustion chamber 430b has a combustion surface of the middle material 42b. Therefore, when the combustion device main body 4b is ignited by the liquid fuel vaporized from the middle material 42b, the liquid fuel is burned so as to generate a chimney effect and continuously raise a flame with good visibility upward from the cap 44b. Let me.

The rainproof portion 5b is configured by stacking an inner material 52b and a rain shield member 54b, and is fitted to the upper part of the cap 44b to ensure ventilation to the vent 446b of the cap 44b and the like, while rain is subordinated. It has a function of blocking direct intrusion into the combustion chamber 426b or the like.

The rain shield member 54b is provided with an opening 540b at the upper part and an opening 542b at the lower part to reduce wind and rain on the combustion device main body 4b while ensuring ventilation to the combustion device main body 4b. The inner material 52b and the rain shield member 54b are made of a metal such as aluminum, stainless steel, or copper.

In this way, in the combustion device 3b, the rainproof portion 5b blocks the direct intrusion of rainfall into the sub-combustion chamber 426b of the combustion device main body 4b, and the middle material 42b holds the non-hydrophilic liquid fuel or the like. Therefore, extinguishing the fire caused by wind and rain can be prevented by the auxiliary combustion chamber 426b.

Next, the fire extinguishing mechanism included in the bonfire device 1b will be described.

FIG. 20 is an exploded perspective view illustrating the configuration of the combustion device 3b and its surroundings. As described above, the combustion device 3b is housed in the outer cylinder 60 to which the fixing member 600 is connected. The fixing member 600 fixes the outer cylinder 60 in the support 2b. An upper operation rod 62 connected to the grip core material 64 is movably penetrated through the outer cylinder 60. The upper operating rod 62 is connected to the combustion device 3b via the lower adapter 66 and the upper adapter 68.

For example, the lower adapter 66 is connected to the upper adapter 68 via a spacer 662 fixed by a screw 660. The spacer 662 forms a space in the outer cylinder 60. The upper adapter 68 makes it possible to connect the combustion device 3b via the coil spring 682. For example, the upper adapter 68 fixes a combustion device 3b that is pushed in while being rotated by a plurality of guides 680 that guide a plurality of pins 410b provided at the lower portion of the combustion device 3b and a coil spring 682.

The upper operation rod 62 is connected to the lower part of the lower adapter 66. The upper operation rod 62 penetrates the outer cylinder 60 and the fixing member 600, and is connected to the connecting plate 642 by a screw 640. Further, the lower operation rod 70 is connected to the connecting plate 642 by the screw 644. The connecting plate 642 is provided so as to reduce the conduction of heat from the combustion device 3b.

The lower end of the lower operation rod 70 is inserted into the hole 650 provided in the grip core material 64, and is fastened to the grip core material 64 by the clasp 72. As shown in FIG. 21, the lower operation rod 70 is formed with a first through hole 700 and a second through hole 702, and a pore 704 is provided between the first through hole 700 and the second through hole 702. Has been done.

As shown in FIG. 22, the clasp 72 (FIG. 20) has a shaft portion 724 and a thin shaft 726 formed between the front end 720 and the rear end 722. A leaf spring 652 (FIG. 20) is attached to the rear end 722 of the clasp 72. The leaf spring 652 is fixed to the grip core material 64 by the screw 654. The tip 720 of the clasp 72 is penetrated through, for example, the first through hole 700 of the lower operation rod 70 in the hole 656 of the grip core material 64, and the button 80 is attached.

The peripheral components of the combustion device 3b are made of metal such as aluminum, stainless steel (SUS), and copper, except for the grip core material 64 made of resin, for example.

Next, the operation of the fire extinguishing mechanism in the bonfire device 1b will be described.

FIG. 23 is a diagram showing states of the combustion device 3b in the bonfire device 1b at the time of combustion and at the time of extinguishing the fire. FIG. 23A is a diagram showing a state of the combustion device 3b in the bonfire device 1b at the time of combustion. FIG. 23B is a diagram showing a state of the combustion device 3b in the bonfire device 1b at the time of extinguishing the fire. As shown in FIG. 23, the bonfire device 1b extinguishes the combustion by the combustion device 3b by lowering the combustion device 3b in the outer cylinder 60.

Specifically, as shown in FIG. 24, at the time of combustion of the combustion device 3b in the bonfire device 1b, the shaft portion 724 of the clasp 72 is fitted into the first through hole 700 of the lower operation rod 70, and FIG. As shown in a), the combustion device 3b is arranged at a predetermined position in the bonfire device 1b, and the liquid fuel can be burned. The bonfire device 1b is configured so that when the user pushes the button 80, the combustion device 3b is lowered downward to extinguish the fire.

Specifically, as shown in FIG. 25, when the button 80 is pushed in during the combustion of the combustion device 3b in the bonfire device 1b, the clasp 72 has the fine shaft 726 thinned from the first through hole 700 of the lower operation rod 70. It will move to the second through hole 702 through the hole 704. That is, the combustion device 3b is lowered together with the lower operation rod 70 and the upper operation rod 62.

FIG. 26 is an enlarged view showing the states of the combustion device 3b in the bonfire device 1b at the time of combustion and at the time of extinguishing the fire. FIG. 26A is an enlarged view showing a state at the time of combustion of the combustion device 3b in the bonfire device 1b. FIG. 26B is an enlarged view showing a state of the combustion device 3b in the bonfire device 1b at the time of extinguishing the fire. As shown in FIG. 26, in the bonfire device 1b, when the button 80 is pushed in, the combustion device 3b is lowered in the outer cylinder 60, so that the container 40b closes each of the vents 602 of the outer cylinder 60 to prevent the combustion device 1b. The rain portion 5b and the outer cylinder 60 block each of the vent holes 446b of the cap 44b. That is, the outer cylinder 60 serves as a blocking portion that blocks ventilation to each of the vent 400b and the vent 446b according to the operation of the user so as to prevent the combustion of the liquid fuel in the main combustion chamber 430b and the sub-combustion chamber 426b. There is.

In this way, the bonfire device 1b is extinguished by blocking the ventilation to each of the vent 400b and the vent 446b of the combustion device 3b. Further, in the bonfire device 1b, after the fire is extinguished, the clasp 72 is pushed back again by the leaf spring 652 and fixed.

Next, the bonfire device 1c according to another embodiment will be described.

FIG. 27 is a diagram showing a configuration example of the bonfire device 1c according to another embodiment. The bonfire device 1c has, for example, a configuration in which a combustion device 3c is supported at one end of a support 2c having a predetermined length. The support 2c has, for example, two side plates 20c and a grip 22c.

The support 2c supports the combustion device 3c to a predetermined height, for example, by being held by a runner who relays the bonfire. Since the bonfire device 1c is held by the runner so that the combustion device 3c is located above, as shown in FIG. 27, it is assumed that the combustion device 3c is arranged at the upper end, and each part constituting the bonfire device 1c. The arrangement of is shown.

Each of the side plates 20c is provided with a plurality of vents 200c, and a notch 202c is provided at the lower portion. The vent 200c is open so as to allow downward ventilation of the combustion device 3c. The notch 202c is cut so as to allow the runner and other users to press the button 80c. The button 80c is provided to operate a fire extinguishing mechanism for extinguishing the bonfire of the bonfire device 1c according to the operation of the runner and other users.

Next, the configuration of the combustion device 3c will be described with reference to FIGS. 28 to 31.

FIG. 28 is a perspective view illustrating the appearance of the combustion device 3c. FIG. 29 is a side view illustrating the side surface of the combustion device 3c. FIG. 30 is a cross-sectional view illustrating the cross section of the combustion device 3c. FIG. 31 is an exploded perspective view illustrating each part constituting the combustion device 3c. As shown in FIGS. 28 to 31, the outer shape of the combustion device 3c is substantially spherical. Each part constituting the combustion device 3c is made of a metal such as aluminum, stainless steel (SUS), and copper, except for the middle material 46c described later.

The lower case 40c is formed, for example, in a hemispherical shape on the lower side, and is provided with two vents 400c at the lower part. Further, two brackets 402c for connecting to the inner side surface of the side plate 20c are welded to the lower case 40c. The upper case 41c is formed, for example, in a hemispherical shape on the upper side, and a vent 410c is provided in the upper part. The combustion device 3c has a substantially spherical outer shape by connecting the lower case 40c and the upper case 41c.

Further, in the lower case 40c, the fixing member 42c is fixed inside, for example, by welding. The fixing member 42c is used to fix the lower case 40c and the two baffle plates 43c by welding.

The two baffle plates 43c are fixed at different angles in the lower case 40c to create airflows in different directions and to adjust the airflows to prevent misfire. The lower female screw ring 44c is an annular member welded to the lower case 40c to provide a female screw mechanism and screwed to the connecting portion 45c. The upper female screw ring 47c is an annular member welded to the upper case 41c to provide a female screw mechanism and screwed to the connecting portion 45c.

The connecting portion 45c is a member of both male threads and is screwed to the lower female thread ring 44c and the upper female thread ring 47c. Further, the connecting portion 45c is provided with, for example, a circularly open vent 450c, and the middle material 46c can be held in the upper case 41c by being screwed to the upper case 41c via the upper female screw ring 47c. It has been made.

The middle material 46c is a non-combustible fuel absorbing material such as felt that holds a non-hydrophilic biojet fuel or a liquid fuel mixed with biodiesel fuel to form a tubular space inside. Is. For example, the liquid fuel is a mixed fuel in which 80 to 90 vol% of ethanol and 1 to 20 vol% of the main component are kerosene. The middle material 46c is configured so that a cylindrical space having a vent 460c at the bottom and a vent 462c at the top can be created inside.

The middle material 46c forms a main combustion chamber 464c by connecting the ventilation port 450c of the connecting portion 45c and the ventilation port 410c of the upper case 41c by the tubular space formed inside. Further, the middle material 46c constitutes an auxiliary combustion chamber 430c, which is a space in which the lower end is annularly connected between the baffle plate 43c and the lower case 40c. The middle material 46c may be formed by laminating a plurality of annular felts.

The straightening vane 48c is an annular member that controls the wind flowing in from the vent 410c of the upper case 41c and reduces the direct contact of rainfall with the middle material 46c. The fixing member 49c is an annular member for fixing the straightening vane 48c to the upper case 41c.

As described above, the combustion device 3c has a combustion surface on the inner surface of the middle material 46c. Therefore, when the combustion device 3c is ignited by the liquid fuel vaporized from the middle material 46c, it causes a chimney effect and continuously raises a flame with good visibility upward from the vent 410c of the upper case 41c. Burn liquid fuel.

Further, in the combustion device 3c, for example, the vent 450c (or the vent 460c) is used as the first vent at the lower end, and the vent 410c is used as the second vent at the upper end, and a cylindrical space is formed inside. It is configured to include a combustion chamber 464c. Further, the combustion device 3c is provided with two vents 400c as third vents, and at least a part of the space that enables combustion of the fire type by the liquid fuel is connected to the space of the main combustion chamber 464c. Room 430c is configured. That is, the auxiliary combustion chamber 430c is provided at least one above or below the middle material 46c.

The lower case 40c is covered by the upper case 41c above the position where the vent 400c is provided. That is, the upper case 41c also functions as a rainproof portion for reducing the direct intrusion of rainfall into at least two vents 400c while ensuring ventilation.

Therefore, in the combustion device 3c, the upper case 41c blocks the direct infiltration of rainfall into the auxiliary combustion chamber 430c, and the middle material 46c holds the non-hydrophilic liquid fuel or the like, so that the fire extinguishing due to wind and rain can be extinguished. It can be prevented by the auxiliary combustion chamber 430c.

Next, the overall configuration of the bonfire device 1c will be described in detail.

FIG. 32 is an exploded perspective view illustrating the configuration of the bonfire device 1c including the combustion device 3c and its surroundings. The bonfire device 1c is provided with a fire extinguishing mechanism for extinguishing the bonfire of the bonfire device 1c according to the operation of the user while holding the combustion device 3c in the area surrounded by the two side plates 20c coupled to the grip 22c. There is.

The screw 300c is a member for fixing the bracket 402c welded to the combustion device 3c and the support portion 204c welded to the side plate 20c. The support portion 204c can also fix the pin 806c that supports the movable portion 804c that moves the closing member 802c that can close the ventilation port 400c of the lower case 40c, and the coil spring 808c that urges the movable portion 804c. Has been made. The closing member 802c may be, for example, a refractory cloth. The pin 806c is fixed to the support portion 204c together with the fixing member 807c to swingably support the movable portion 804c.

The button 80c is positioned by the cap 812c so as to hold down the lower end of the operation plate 810c while being urged from below by the coil spring 800c. The operation plate 810c includes, for example, two flat plates extending upward facing each other.

The peripheral components of the combustion device 3c are made of metal such as aluminum, stainless steel (SUS), and copper, except for the grip 22c made of resin, the button 80c, and the cap 812c.

FIG. 33 is a diagram showing the states of the combustion device 3c in the bonfire device 1c at the time of combustion and at the time of extinguishing the fire. FIG. 33A is a diagram showing a state of the combustion device 3c in the bonfire device 1c at the time of combustion. FIG. 33B is a diagram showing a state of the combustion device 3c in the bonfire device 1c at the time of extinguishing the fire. As shown in FIG. 33, the bonfire device 1c is configured so that the combustion by the combustion device 3c can be extinguished by pushing the button 80c downward.

Next, the fire extinguishing mechanism included in the bonfire device 1c will be described in detail.

FIG. 34 is a diagram showing the displacement of the lower end of the operation plate 810c when the user of the bonfire device 1c pushes the button 80c downward. FIG. 34A is a diagram showing the position of the lower end of the operation plate 810c during combustion of the combustion device 3c. FIG. 34B is a diagram showing the position of the lower end of the operation plate 810c when the combustion device 3c is extinguished.

As shown in FIG. 34 (a), when the combustion device 3c is burning the liquid fuel, the button 80c positions the lower end of the operation plate 810c at a predetermined position while being urged from below by the coil spring 800c. ing.

On the other hand, as shown in FIG. 34 (b), when the button 80c is pushed downward by the user, the lower end of the operation plate 810c is displaced downward.

FIG. 35 is a diagram showing the periphery of the combustion device 3c when the bonfire device 1c is burned and when the fire is extinguished. FIG. 35A is a diagram showing the periphery of the combustion device 3c at the time of combustion of the bonfire device 1c. FIG. 35B is a diagram showing the periphery of the combustion device 3c when the fire extinguishing device 1c is extinguished.

As shown in FIG. 35 (a), when the bonfire device 1c is burned, the upper ends of the operation plates 810c limit the urging of the coil spring 808c with respect to the movable portion 804c, respectively, and the vent 400c of the lower case 40c is opened. Has been done. That is, the combustion device 3c can burn the liquid fuel by the intake air from the vent 400c.

On the other hand, when the button 80c is pushed downward by the user (see FIG. 34 (b)), the urging of the coil spring 808c with respect to the movable portion 804c is not limited as shown in FIG. 35 (b). , Each of the vents 400c of the lower case 40c is closed by the closing member 802c. In this way, the combustion device 3c is extinguished by blocking the intake air from the vent 400c. That is, the closing member 802c is a blocking portion that blocks the ventilation to the ventilation port 400c according to the operation of the user so as to prevent the combustion of the liquid fuel in the main combustion chamber 464c and the auxiliary combustion chamber 430c.

1,1b, 1c ... bonfire device, 2,2b, 2c ... support, 20 ... support, 22 ... joint, 24 ... blower, 220 ... intake port, 3,3a, 3b, 3c ... Combustion device, 4,4b ... Combustion device body, 40 ... First member, 40b ... Container, 40c ... Lower case, 400, 402, 400b, 402b, 400c ... Vent, 404 ... Fuel absorber, 41c ... Upper case, 410c ... Vent, 42, 42a ... Second member, 42b ... Middle material, 420, 420a ... Narrow tubular part, 422,422a, 424,425 ... Vent, 424a ... Groove, 426,426a ... Auxiliary combustion chamber, 428,428a ... Vent, 43c ... Baffle plate, 430, 430a, 430b ... Main combustion chamber, 430c ... Sub-combustion chamber, 44b ... Cap, 440b ... Cylindrical part, 442b, 446b ... Vent, 45c ... -Connecting part, 450c ... Vent, 46c ... Middle material, 460c, 462c ... Vent, 464c ... Main combustion chamber, 5,5a, 5b ... Rainproof part, 50,50a ... Case lid, 500, 500a, 502, 502a ... Opening, 504 ... Vent, 52 ... Crate, 520 ... Opening, 522 ... Vent, 54, 54b ... ... Rain shield member, 540, 540b ... Opening, 56 ... Connecting member, 560, 562 ... Ventilation port, 550 ... Rain receiving part, 552 ... Rainwater flow path, 60 ... -Outer cylinder, 602 ... Ventilation port, 62 ... Upper operation rod, 64 ... Grip core material, 70 ... Lower operation rod, 72 ... Clasp, 80, 80c ... Button, 802c ... Closing member, 804c ... Movable part, 800c, 808c ... Coil spring, 810c ... Operation plate

Claims (11)

The first vent provided at the bottom and the second vent provided at the top are connected by a non-combustible fuel absorber that holds the fuel by absorbing it and forms a cylindrical space inside. The main combustion chamber and
A sub-combustion chamber in which one or more third vents are provided and a part of the space capable of burning at least the fire with the fuel is connected to the space of the main combustion chamber.
A combustion device characterized by having, at least the third vent, a rainproof portion that reduces direct intrusion of rainfall while ensuring ventilation. In the combustion apparatus according to claim 1,
The sub-combustion chamber
A combustion device provided at least above or below the fuel absorber. In the combustion apparatus according to claim 1 or 2.
The main combustion chamber
The first tubular member provided with the fuel absorber and
A combustion device including a second member having a cylindrical narrow tubular portion narrower than the first member and forming the auxiliary combustion chamber above the fuel absorber. In the combustion apparatus according to any one of claims 1 to 3.
The fuel is
A combustion device characterized by a mixture of non-hydrophilic biojet fuel or biodiesel fuel. In the combustion apparatus according to any one of claims 1 to 4.
The rainproof part is
A combustion device characterized by holding a flame color reaction member that causes a flame color reaction in the vicinity of the second vent. In the combustion apparatus according to any one of claims 1 to 5.
The main combustion chamber
A combustion device characterized in that the fuel absorber is separable. In the combustion apparatus according to any one of claims 1 to 6.
The rainproof part is
A combustion device characterized by having a rainwater flow path for passing rainwater in the main combustion chamber. The combustion device according to any one of claims 1 to 7.
A bonfire device having a support having a predetermined length to support the combustion device at an end. In the bonfire device according to claim 8,
The support is
A bonfire device having a blower device for blowing air from below to the first vent. In the bonfire device according to claim 8 or 9.
The combustion device is
A bonfire device characterized by its substantially spherical outer shape. In the bonfire device according to any one of claims 8 to 10.
It is characterized by further having a blocking portion for blocking ventilation to the second vent and the third vent according to the operation of the user so as to prevent the combustion of the fuel in the main combustion chamber and the sub-combustion chamber. A bonfire device.

Images