JP5742071B2 - Supply / exhaust top, exhaust top and combustion equipment - Google Patents

Description

  The present invention relates to a technique for appropriately supplying and exhausting a combustion apparatus including a burner such as a gas burner.

  As an example of the supply / exhaust system of the combustion apparatus, there is a so-called double pipe supply / exhaust system. As an air supply / exhaust top used in this system, for example, there is one disclosed in Patent Document 1, and its structure is simplified and shown in FIG. The supply / exhaust top Ta shown in the figure has a configuration in which a supply cylinder 8 is fitted on the lower end side of an exhaust cylinder 9 extending in the vertical direction. The supply cylinder 8 is formed with an intake port 80 around the exhaust cylinder 9 for taking in outside air as combustion air. The exhaust tube 9 is a member for causing the exhaust gas to flow upward and to flow out from the front end opening (upper end opening) 90, and an umbrella-shaped cover portion 95 is provided above the exhaust tube 9. Yes. A cylindrical wall portion 96 in which a plurality of exhaust ports 91 are formed is provided around the cover portion 95. According to such a configuration, since the upper portion of the tip opening 90 of the exhaust tube 9 is covered by the cover portion 95, rainwater is prevented from entering the exhaust tube 9 from the tip opening 90. Further, according to the double pipe supply / exhaust system, the outside air that has flowed into the supply cylinder 8 from the supply port 80 is heated by the exhaust gas that passes through the exhaust cylinder 9, so that it is supplied to a burner (not shown). The temperature of combustion air becomes high, and the effect which makes the combustion efficiency in a burner favorable is also acquired.

  However, the prior art still has room for improvement as described below.

  That is, the exhaust gas that has traveled upward in the exhaust tube 9 and has flowed out of the tip opening 90 is discharged to the outside through the exhaust port 91, but the exhaust port 91 is only provided in the cylindrical wall 96. Absent. Of the space surrounded by the cylindrical wall portion 96, the upper region of the exhaust tube 9 is closed by the cover portion 95, and the exhaust gas flowing upward from the tip opening portion 90 collides with the cover portion 95. Then, after making a U-turn downward, the exhaust port 91 is reached. For this reason, the above-described supply / exhaust top Ta has a problem that the exhaust resistance increases.

  The present inventors have conceived a new supply / exhaust top Tb having a structure as shown in FIG. 9A as a means for solving the above-described problems. In the supply / exhaust top Tb, a communication path 97 for guiding a part of the exhaust gas flowing out from the front end opening 90 of the exhaust tube 9 to above the cover portion 95 between the cylindrical wall portion 96 and the cover portion 95. Is provided. Further, a top plate portion 98 is provided above the cover portion 95. The top plate portion 98 has an exhaust port 92 for discharging the exhaust gas that has passed upward through the communication passage 97 to the outside. According to such a configuration, the exhaust gas is discharged not only from the exhaust port 91 (first exhaust port) but also from the exhaust port 92 (second exhaust port), so that the exhaust resistance can be reduced. It is.

However, the above-described supply / exhaust top Tb may cause the following problems. That is, when the air supply / exhaust top Tb is installed and used outdoors, as shown in FIG. 9B, there is a case where the wind blown down is received from substantially directly above the air supply / exhaust top Tb. Upon receiving such blown-down wind, air having a low oxygen concentration containing a large amount of exhaust gas discharged from the exhaust ports 91 and 92 descends and flows into the air supply port 80. This air is finally supplied to the burner. On the other hand, when the exhaust port 92 is formed in a simple circular shape, for example, the exhaust gas tends to be diffused substantially uniformly over the entire area around the exhaust port 92. Therefore, when the above-described wind blows down, a large amount of air having a low oxygen concentration easily flows into the air supply port 80. If such a situation occurs, the combustion state of the burner becomes unstable, and vibration combustion may occur. Therefore, it is desired not to cause such a fear.

JP 2008-64379 A

  The present invention has been conceived under the circumstances as described above, and can reduce exhaust resistance and supply low oxygen concentration air containing a large amount of exhaust gas when receiving wind in a specific direction. An object of the present invention is to provide a supply / exhaust top, an exhaust top, and a combustion device that can appropriately prevent or suppress the phenomenon that the combustion state of the burner becomes unstable due to a large amount flowing into the mouth.

  In order to solve the above problems, the present invention takes the following technical means.

An air supply / exhaust top provided by the first aspect of the present invention includes an exhaust pipe for circulating exhaust gas from a base end side to a tip end side, and a front end opening of the exhaust pipe facing the front end opening of the exhaust pipe. a cover portion for covering the part, and this surrounds the cover portion, and a first cylindrical wall portion forming an exhaust port for discharging the outflowing exhaust gas to the outside from the distal end opening portion of the exhaust pipe, An air supply / exhaust top comprising: a supply cylinder configured to allow outside air to flow into an inside from an intake port formed on a base end side of the first exhaust port, wherein the cylindrical wall A communication path that is provided in a space surrounded by a portion and guides a part of the exhaust gas that has flowed out from the tip opening of the exhaust pipe to a region on the tip side of the cover portion; and on the tip side of the cover portion A first exhaust gas for exhausting the exhaust gas located and passing through the communication passage. A top plate portion provided with an exhaust port, and the top plate portion connects the center of the exhaust tube and the first exhaust port when viewed in the axial length direction of the exhaust tube. A first region corresponding to a region on a straight line and a peripheral region thereof, and a second region other than the first region, and the second exhaust port has a second opening ratio higher than an opening ratio in the first region. The first exhaust port is provided with a plurality in the circumferential direction of the cylindrical wall portion so as to have a smaller opening ratio in the region. A plurality of regions are also provided, and the second exhaust port is formed in a non-circular shape having a plurality of vertices or tops that are locally extended from the center of the second exhaust port. cage, wherein the plurality of vertices or apex, that is located in said plurality of first regions It is a symptom.

According to such a configuration, the following effects can be obtained.
First, the exhaust operation of exhaust gas to the outside is performed from the second exhaust port provided in the top plate portion in addition to the first exhaust port provided in the cylindrical wall portion. For this reason, exhaust resistance can be reduced.
Second, even when the supply / exhaust top receives wind in the axial length direction from the distal end side to the proximal end side, it is possible to allow air having a high oxygen concentration to flow into the intake port. That is, in order to facilitate understanding, a specific example will be described in which the supply / exhaust top is provided upright in the vertical direction (vertical direction) and the exhaust gas is discharged upward from the second exhaust port. In this supply / exhaust top, the amount of exhaust gas discharged to the upper side and the side of the first region is increased, and the amount of exhaust gas discharged to the upper side and the side of the second region can be reduced. For this reason, an atmosphere having a low oxygen concentration is formed above and on the side of the first region, but an atmosphere having a high oxygen concentration can be formed above and on the side of the second region. Under such circumstances, when blown-down wind blows from above the supply / exhaust top, air with a low oxygen concentration flows in part, but mainly air with a high oxygen concentration is sent to the air supply port. Is possible. As a result, it is possible to appropriately prevent or suppress the combustion state of the burner of the combustion apparatus from becoming unstable due to insufficient oxygen concentration.

Further , according to such a configuration, the effect intended by the present invention can be appropriately obtained by a simple means having a structure in which the second exhaust port is formed in a non-circular shape having a plurality of apexes or apexes.

The air supply / exhaust top provided by the second aspect of the present invention includes an exhaust pipe for circulating exhaust gas from the base end side to the tip end side, and a front end opening of the exhaust pipe facing the front end opening of the exhaust pipe. A cover portion covering the portion, a cylindrical wall portion surrounding the cover portion and forming a first exhaust port for discharging the exhaust gas flowing out from the tip opening of the exhaust tube to the outside, An air supply / exhaust top comprising: a supply cylinder configured to allow outside air to flow into an inside from an intake port formed on a base end side of the first exhaust port, wherein the cylindrical wall A communication path that is provided in a space surrounded by a portion and guides a part of the exhaust gas that has flowed out from the tip opening of the exhaust pipe to a region on the tip side of the cover portion; and on the tip side of the cover portion A first exhaust gas for exhausting the exhaust gas located and passing through the communication passage. A top plate portion provided with an exhaust port, and the top plate portion connects the center of the exhaust tube and the first exhaust port when viewed in the axial length direction of the exhaust tube. A first region corresponding to a region on a straight line and a peripheral region thereof, and a second region other than the first region, and the second exhaust port has a second opening ratio higher than an opening ratio in the first region. The first exhaust port is provided with a plurality in the circumferential direction of the cylindrical wall portion so as to have a smaller opening ratio in the region. Each of the regions includes a plurality of second exhaust ports, and the second exhaust ports include a plurality of second exhaust ports provided so that all or part of the second exhaust ports are located in the plurality of first regions. It is characterized by being .

  According to such a configuration, the effect intended by the present invention can be appropriately obtained by simple means having a structure in which a plurality of second exhaust ports are provided.

The exhaust top provided by the third aspect of the present invention includes an exhaust pipe for circulating exhaust gas from the base end side to the tip end side, the tip opening of the exhaust pipe facing the tip opening of the exhaust pipe a cover portion for covering the surrounds the periphery of the cover portion, and said a first cylindrical wall portion forming an exhaust port for discharging exhaust gas which flows out from the opening at the distal end of the exhaust tube to the outside, the An exhaust top that is provided in a space surrounded by the cylindrical wall portion and has a portion of the exhaust gas that has flowed out from the front end opening of the exhaust tube at the front end side of the cover portion. And a top plate portion provided with a second exhaust port that is located on the tip side of the cover portion and exhausts the exhaust gas that has passed through the communication passage. The top plate portion is viewed in the axial direction of the exhaust stack. A first region corresponding to a linear region connecting the center of the exhaust tube and the first exhaust port and a peripheral region thereof; and a second region other than the first region, and the second exhaust port. Is provided such that the aperture ratio in the second region is smaller than the aperture ratio in the first region , and the first exhaust ports are spaced in the circumferential direction of the cylindrical wall portion. A plurality of the first and second regions are also provided, and the second exhaust port is locally increased in distance from the center of the second exhaust port. Further, it is formed in a non-circular shape having a plurality of vertices or tops, and the plurality of vertices or tops are located in the plurality of first regions .
The exhaust top provided by the fourth aspect of the present invention includes an exhaust pipe for circulating the exhaust gas from the base end side to the tip end side, the tip opening of the exhaust pipe facing the tip opening of the exhaust pipe And a cylindrical wall portion that surrounds the periphery of the cover portion and forms a first exhaust port for exhausting the exhaust gas flowing out from the tip opening of the exhaust tube to the outside. An exhaust top that is provided in a space surrounded by the cylindrical wall portion and has a portion of the exhaust gas that has flowed out from the front end opening of the exhaust tube at the front end side of the cover portion. And a top plate portion provided with a second exhaust port that is located on the tip side of the cover portion and exhausts the exhaust gas that has passed through the communication passage. The top plate portion is viewed in the axial direction of the exhaust stack. A first region corresponding to a linear region connecting the center of the exhaust tube and the first exhaust port and a peripheral region thereof; and a second region other than the first region, and the second exhaust port. Is provided such that the aperture ratio in the second region is smaller than the aperture ratio in the first region, and the first exhaust ports are spaced in the circumferential direction of the cylindrical wall portion. A plurality of the first and second regions are also provided, and the second exhaust port is entirely or partially located in the plurality of first regions. It has a plurality of second exhaust ports provided in.

The exhaust top having such a configuration can be appropriately used as a component device of the supply / exhaust top provided by the first or second aspect of the present invention. Moreover, it replaces with such a use aspect, it attaches to a combustion apparatus so that it may become a specific relationship with respect to the air inlet provided in the combustion apparatus, and is provided by the 1st or 2nd side surface of this invention. It is also possible to obtain the same effect as described for the supply / exhaust top.

The combustion apparatus provided by the fifth aspect of the present invention includes a burner, an air supply port for taking in outside air supplied to the burner as combustion air, an exhaust port for discharging exhaust gas to the outside, among the air inlet and the air outlet comprises a supply and exhaust top or the exhaust top having at least said exhaust port, and a combustion apparatus, as the supply and exhaust top or exhaust top, a first aspect of the present invention Alternatively, the supply / exhaust top provided by the second side surface or the exhaust top provided by the third or fourth side surface is used.

According to such a configuration, it is possible to obtain the same effect as that provided by the supply / exhaust top or the exhaust top provided by any one of the first to fourth aspects of the present invention.

  Other features and advantages of the present invention will become more apparent from the following description of embodiments of the present invention with reference to the accompanying drawings.

It is sectional drawing which shows schematic structure of an example of the combustion apparatus provided with the air supply / exhaust duct which concerns on this invention. (A) is a top view of the air supply / exhaust top shown in FIG. 1, (b) is the principal part sectional drawing. (A) is a principal part perspective view which shows the effect | action of the air supply / exhaust top shown in FIG. 1, (b) is plane explanatory drawing of (a). (A) is principal part sectional drawing which shows the other example of this invention, (b) is a plane explanatory drawing of (a). (A)-(c) is a top view which shows the other example of this invention. (A), (b) is a top view which shows the other example of this invention. It is a principal part schematic sectional drawing which shows the other example of this invention. It is principal part sectional drawing which shows an example of a prior art. (A), (b) is principal part sectional drawing which shows the comparative example with this invention.

  Hereinafter, preferred embodiments of the present invention will be specifically described with reference to the drawings.

  1 to 3 show an embodiment of a combustion apparatus to which the present invention is applied. The combustion apparatus C of the present embodiment is configured as a hot water supply apparatus, and includes a combustion apparatus main body 1 and a supply / exhaust top T1.

  As shown well in FIG. 1, the combustion apparatus body 1 includes a burner 11 housed in a case 10, a heat exchanger 12, a fan 13 having a motor M, and an outer case 19 surrounding them. Yes. The burner 11 is a gas burner that burns fuel gas, for example, and the fan 13 supplies combustion air to the burner 11. The heat exchanger 12 performs heat recovery from the combustion gas generated by the burner 11 and performs hot water heating. For example, the heat exchanger 12 is configured by using a finned tube, and the hot water flowing through the tube is heated by the combustion gas. After being heated, it is supplied to a desired hot water supply destination. The upper part of the case 10 is provided with a combustion gas outlet 14 and a combustion air inlet 15 after heat recovery, and a base end portion of the supply / exhaust top T1 is connected to these portions. . Combustion air that has flowed into the inlet 15 from the supply / exhaust top T <b> 1 passes through the duct portion 16 and is sucked into the fan 13.

  The air supply / exhaust top T <b> 1 is provided on the upper surface of the outer case 19 so as to stand in a substantially vertical direction, and is disposed outdoors. The supply / exhaust top T1 includes an exhaust tube 2, a supply cylinder 3, a cover portion 4, a cylindrical wall portion 5 in which a plurality of first exhaust ports 51 are formed, and a top plate in which a second exhaust port 62 is formed. A portion 6 is provided, and each of these portions is configured by using a metal plate such as a stainless steel plate. However, the specific material of each part of the supply / exhaust top T1 is not limited.

  The supply cylinder 3 is loosely fitted at a position near the lower portion of the exhaust cylinder 2, and a gap formed between the supply cylinder 3 and the exhaust cylinder 2 is an air flow passage 31. The upper opening 30 of the supply cylinder 3 is covered with a cover body 32 to prevent rainwater and dust from entering the inside. A gap region between the cover body 32 and the supply cylinder 3 is an air supply port 33, and the air supply port 33 is formed over the entire circumference of 360 degrees on the outer periphery of the exhaust tube 2. The negative pressure of the fan 13 acts on the air supply port 33, and the outside air around the air supply port 33 is sucked into the fan 13 and used as combustion air. The air supply port 33 is at a lower height than the first and second exhaust ports 51 and 62, but this arrangement is discharged from the first and second exhaust ports 51 and 62 in a normal state. This is preferable in order to avoid that the exhaust gas is sucked into the air supply port 33.

In the exhaust cylinder 2, the exhaust gas that has passed through the outlet 14 proceeds upward, and the exhaust gas is configured to flow out from the front end opening 20 of the exhaust cylinder 2 upward. The cover portion 4 is a portion that is located above the tip opening portion 20 and covers the tip opening portion 20 and has, for example, a conical shape to prevent rainwater and dust from entering the exhaust pipe 2. To play a role. The tubular wall portion 5 has a substantially cylindrical shape surrounding the upper end portion of the exhaust tube 2 and the periphery of the cover portion 4. The cylindrical wall portion 5 also serves to prevent rainwater and the like from entering the exhaust tube 2. A plurality of first exhaust ports 51 are formed in the cylindrical wall portion 5 at a position lower than the cover portion 4. In the present embodiment, a total of three first exhaust ports 51 are provided at substantially the same angular interval in the circumferential direction of the cylindrical wall portion 5 (see FIG. 2A).

  As clearly shown in FIG. 2B, the space 50 surrounded by the cylindrical wall portion 5 is provided with a communication path 52 that can guide the exhaust gas to the upper side of the cover portion 4. . In the present embodiment, the communication path 52 is formed as a gap between the outer peripheral edge of the cover portion 4 and the cylindrical wall portion 5. Instead, for example, a hole portion that penetrates the cover portion 4 in the vertical direction. This hole can be used as the communication path 52. The communication passage 52 also functions as a passage for dropping rain water that has fallen on the cover portion 4 to below the cover portion 4. The lower opening of the cylindrical wall portion 5 is closed by a bottom cover 58, and the bottom cover 58 has a hole (for allowing rainwater that has flowed down through the communication path 52 to flow downward) (Not shown) is provided as appropriate.

  The top plate portion 6 is for closing a part of the upper portion of the cylindrical wall portion 5, and the second exhaust port 62 is provided in the top plate portion 6 as described above. As shown in FIG. 2 (a), the second exhaust port 62 has, for example, three top portions 62a, a triangular shape having apexes, or the like, and each of the three top portions 62a has a ceiling. It is located in the first region A1 of the plate part 6. Here, the first region A1 corresponds to the center O of the exhaust tube 2 and each first exhaust in a plan view of the top plate portion 6 (corresponding to an example of “view of axial direction of exhaust tube” in the present invention). This is an area corresponding to the area on the straight line L connecting the mouth 51 and its peripheral area. The other area of the top plate portion 6 is the second area A2. The plurality of first and second regions A <b> 1 and A <b> 2 are alternately arranged in the circumferential direction of the top plate portion 6. Of the peripheral edge of the top plate 6, the edge width s1 in the first area A1 is relatively small, whereas the edge width s2 in the second area A2 is larger. The second exhaust port 62 is provided so that the aperture ratio in the second region A2 is smaller than the aperture ratio in the first region A1. Here, the “opening ratio” is a ratio of the opening area of the second exhaust port 62 occupying the first region A1 or the second region A2.

  Next, the operation of the combustion apparatus C provided with the above-described supply / exhaust top T1 will be described.

  First, in a state in which the burner 11 is driven and burned, the exhaust gas passing through the exhaust tube 2 flows upward from the tip opening 20 and collides with the lower surface of the cover 4. Part of the exhaust gas that has U-turned downward due to this collision is discharged from the plurality of first exhaust ports 51 to the outside of the side. On the other hand, the other part of the exhaust gas passes upward through the communication passage 52 and is discharged from the second exhaust port 62 to the upper outside. Thus, if exhaust gas is discharged from the second exhaust port 62 in addition to the first exhaust port 51, the exhaust resistance can be reduced.

Since the second exhaust port 62 has the configuration described with reference to FIG. 2A, when exhaust gas is discharged from the second exhaust port 62, the first region of the top plate portion 6 is used. The amount of exhaust gas is large above A1, and the amount of exhaust gas is small above the second region A2. As described above, when the exhaust gas distribution varies, the low oxygen concentration air does not exist uniformly in the upper region of the supply / exhaust top T1, and the exhaust gas is contained above the second region A2. A small amount of air with high oxygen concentration can be actively created. Therefore, as indicated by reference numeral N1 in FIG. 3, even if a phenomenon occurs in which the wind blows down almost directly above the supply / exhaust top T1, a part of the oxygen supply port 33 with a low oxygen concentration that contains a large amount of exhaust gas is generated. Air flows in, but mainly air with a high oxygen concentration flows in. The second region A2 is arranged so as not to overlap the first exhaust port 51 in plan view. Therefore, it is also appropriate that a large amount of exhaust gas discharged from the first exhaust port 51 is mixed before the air with a high oxygen concentration above the second region A2 descends and reaches the air supply port 33. To be suppressed. As a result, it is ensured that air with a high oxygen concentration is appropriately introduced into the air supply port 33, the drive combustion property of the burner 11 is maintained in a good state, and the possibility of causing vibration combustion is eliminated or reduced. Is possible.

  In addition, as a means for suppressing the low oxygen concentration air existing above and to the side of the first region A1 from entering the air supply port 33, the air supply port 33 corresponds to the first region A1. It is also effective to partially block the portion to be performed (region located immediately below the first region A1). Therefore, such means can be further applied in the embodiment or the embodiment described later.

  4 to 6 show another embodiment of the present invention. In these drawings, elements that are the same as or similar to those in the above embodiment are given the same reference numerals as in the above embodiment.

  In the embodiment shown in FIG. 4, the exhaust top T2 and the air supply duct 3A are not combined in a double pipe system, and they are arranged side by side and connected to a combustion apparatus main body (not shown). . The exhaust top T2 is different from the supply / exhaust top T1 of the above embodiment in that it does not include the supply cylinder 3 and the cover body 32, but the other basic configuration is the same as that of the supply / exhaust top T1 ( The distance between the first exhaust port 51 and the first region A1 is different, and the shape of the second exhaust port 62 is different). The air supply duct 3A has portions corresponding to the supply cylinder 3 and the cover body 32 of the above-described supply / exhaust top T1, and sucks outside air from the air supply port 33, and the outside air is burned in the burner ( (Not shown).

  In the present embodiment, although the air supply port 33 is located on one side of the exhaust pipe 2, the effect intended by the present invention can also be obtained. That is, above and around the exhaust top T2, on the basis of the same principle as described in the above embodiment, it corresponds to the first region A1 and the region where the amount of exhaust gas is large and the second region A2. In addition, it is possible to form a region with a small amount of exhaust gas (see FIG. 3B). For this reason, when the wind blows down from above the exhaust top T2, it is possible to set so that air in a region where the amount of exhaust gas is small flows to the supply duct 3A side. Therefore, it is preferable to increase the oxygen concentration of the air supplied to the burner from the air supply port 33 and to stabilize the drive combustion of the burner. As shown in FIG. 4, the first exhaust ports 51 (also the first region A1) may be provided at positions far from the air supply duct 3A, not at substantially the same interval in the circumferential direction.

  In the embodiment shown in FIG. 5A, the second exhaust port 62 formed in the top plate portion 6 is formed in a substantially cross shape in plan view having four top portions 62a. The four apexes 62a are respectively located in a total of four first regions A1. In the present embodiment, a total of four first exhaust ports 51 (not shown in FIGS. 5 and 6) are provided (the first exhaust ports 51 exist immediately below the first region A1). As can be understood from the present embodiment, the number of the first exhaust ports 51 is not limited. Correspondingly, the specific shape of the second exhaust port 62 can be changed as appropriate.

  In the embodiment shown in FIG. 5B, the width s3 of the edge in the second region A2 of the top plate 6 is increased, and the opening area of the second exhaust port 62 in the second region A2 is increased. It is quite small. Further, the entire opening area of the second exhaust port 62 is also considerably reduced. Even with such a configuration, the effect intended by the present invention can be obtained. In the present invention, the specific value of the opening area of the second exhaust port 62 is not limited.

  In the embodiment shown in FIG. 5C, the top plate portion 6 has a rectangular shape in plan view. Although omitted in the drawings, the cylindrical wall 5 and the exhaust cylinder 2 are rectangular. The plurality of first exhaust ports 51 are provided at the four corners of the cylindrical wall portion 5. The second exhaust port 62 has a substantially cross shape in plan view, and the four top portions 62 a are located in the vicinity of the four corner portions of the top plate portion 6. In the present embodiment, although the top plate portion 6 and the cylindrical wall portion 5 are not circular or cylindrical, the basic configuration is the same as that of the above-described supply / exhaust top T1, etc. Can achieve the intended effect. As understood from the present embodiment, the cylindrical member such as the exhaust tube and the cylindrical wall portion referred to in the present invention can be formed into a cylindrical shape other than the cylindrical shape.

  In the embodiment shown in FIG. 6, the top plate portion 6 is provided with a plurality of second exhaust ports 62. In FIG. 6A, each second exhaust port 62 has a form extending thinly from the region near the center of the top plate 6 toward the outer peripheral edge. In FIG. 5B, each second exhaust port 62 has a circular shape located near the outer peripheral edge of the top plate portion 6. In these embodiments, each of the second exhaust ports 62 is located in the first region A1.

  As shown in FIG. 6, even in the case where the second exhaust ports 62 are provided dispersed in a plurality of locations, exhaust gas is exhausted intensively above the first region A1, and the second region A2 It is possible to secure a space with a high oxygen concentration atmosphere above. When a plurality of second exhaust ports 62 are provided, their specific shapes are not limited and can be formed in various shapes different from the shapes shown in FIGS. 6 (a) and 6 (b).

  In the embodiment shown in FIG. 7, the exhaust top T <b> 3 is attached to the outer case 19 of the combustion apparatus main body 1 in a posture that extends substantially horizontally. The exhaust top T3 has the same configuration as the exhaust top T2 shown in FIG. An air supply port 33a is provided on the side surface of the outer case 19 so as to be positioned below the exhaust top T3. The air supply port 33a is a part for taking in outside air and sending it into a burner (not shown) of the combustion apparatus main body 1.

  In the present embodiment, as indicated by reference numeral N2, when horizontal wind acts on the exhaust top T3, the low oxygen concentration air containing a large amount of exhaust gas is prevented from flowing into the air supply port 33a. Is possible. The configuration of this embodiment is basically the same as the configuration in which the exhaust top T2 and the air supply duct 3A shown in FIG. Therefore, based on the same principle as described in the embodiment of FIG. 4, it is possible to inhale air with a high oxygen concentration that does not contain a large amount of exhaust gas into the air supply port 33a. As will be understood from the present embodiment, the exhaust top or the supply / exhaust top does not necessarily have to be provided in a vertically standing posture, such as a substantially horizontal posture or an obliquely standing posture. It may be provided in the posture.

  The present invention is not limited to the contents of the above-described embodiment. The specific configuration of each part of the supply / exhaust top, the exhaust top, and the combustion apparatus according to the present invention can be varied in design in various ways.

  In the present invention, as is understood from the embodiments shown in FIGS. 5 and 6, the second exhaust port may be either one or a plurality, and its specific shape is not limited. In short, the second exhaust port may be provided so that the aperture ratio in the second region of the top plate portion is smaller than the aperture ratio in the first region. The first region is a region corresponding to a region on a straight line connecting the center of the exhaust tube and the first exhaust port and its peripheral region in the axial direction of the exhaust tube in the top plate portion, The second region is a region other than the above, but here, the “view in the axial direction” is specifically a plan view when the exhaust stack stands in the vertical direction, and the exhaust region is exhausted. When the cylinder is laid down in the horizontal direction, it is a side view.

  The combustion device referred to in the present invention is not limited to the one configured as a hot water supply device, and may be configured as a combustion device for a hot air device or for incineration, for example, and a specific application is not limited. . The burner may be an oil burner that burns fuel oil, for example, instead of the gas burner.

A1 First region A2 Second region C Combustion device T1 Supply / exhaust top T2, T3 Exhaust top O Center (exhaust tube in the axial direction view)
L straight line (connecting the center O and the first exhaust port when viewed in the axial direction)
2 Exhaust cylinder 3 Supply cylinder 4 Cover part 5 Cylindrical wall part 6 Top plate part 11 Burner 20 Tip opening part 33, 33a Air supply port 50 Space part 51 First exhaust port 52 Communication path 62 Second exhaust port 62a Top part (Of the second exhaust)

Claims (5)

An exhaust pipe for circulating exhaust gas from the base end side to the tip end side;
A cover portion facing the tip opening of the exhaust tube and covering the tip opening;
A first outlet cylindrical wall portion which forms a to surround the periphery, and discharges the exhaust gas flowing out from the distal end opening portion of the exhaust pipe to the outside of the cover portion,
A supply cylinder capable of allowing outside air to flow into the inside from an air supply port formed on the base end side of the first exhaust port;
An air supply / exhaust top comprising:
A communication path that is provided in a space portion surrounded by the cylindrical wall portion and guides a part of the exhaust gas flowing out from the front end opening of the exhaust pipe to a region on the front end side of the cover portion;
A top plate portion provided with a second exhaust port that is located on the tip side of the cover portion and exhausts the exhaust gas that has passed through the communication path;
Further comprising
The top plate portion includes a first region corresponding to a region on a straight line connecting the center of the exhaust tube and the first exhaust port, and a peripheral region thereof, as viewed in the axial direction of the exhaust tube, A second region of
The second exhaust port is provided such that the aperture ratio in the second region is smaller than the aperture ratio in the first region ,
A plurality of the first exhaust ports are provided at intervals in the circumferential direction of the cylindrical wall portion, and a plurality of each of the first and second regions are provided,
The second exhaust port is formed in a non-circular shape having a plurality of vertices or apexes whose distance from the center of the second exhaust port is locally increased.
The plurality of vertices or apexes are located in the plurality of first regions . An exhaust pipe for circulating exhaust gas from the base end side to the tip end side;
A cover portion facing the tip opening of the exhaust tube and covering the tip opening;
A cylindrical wall portion that surrounds the periphery of the cover portion and forms a first exhaust port for exhausting the exhaust gas flowing out from the tip opening of the exhaust tube to the outside;
A supply cylinder capable of allowing outside air to flow into the inside from an air supply port formed on the base end side of the first exhaust port;
An air supply / exhaust top comprising:
A communication path that is provided in a space portion surrounded by the cylindrical wall portion and guides a part of the exhaust gas flowing out from the front end opening of the exhaust pipe to a region on the front end side of the cover portion;
A top plate portion provided with a second exhaust port that is located on the tip side of the cover portion and exhausts the exhaust gas that has passed through the communication path;
Further comprising
The top plate portion includes a first region corresponding to a region on a straight line connecting the center of the exhaust tube and the first exhaust port, and a peripheral region thereof, as viewed in the axial direction of the exhaust tube, A second region of
The second exhaust port is provided such that the aperture ratio in the second region is smaller than the aperture ratio in the first region,
A plurality of the first exhaust ports are provided at intervals in the circumferential direction of the cylindrical wall portion, and a plurality of each of the first and second regions are provided,
The second exhaust port has a plurality of second exhaust ports provided so that all or part of the second exhaust ports are positioned in the plurality of first regions. . An exhaust pipe for circulating exhaust gas from the base end side to the tip end side;
A cover portion facing the tip opening of the exhaust tube and covering the tip opening;
A cylindrical wall portion that surrounds the periphery of the cover portion and forms a first exhaust port for exhausting the exhaust gas flowing out from the tip opening of the exhaust tube to the outside;
An exhaust top comprising:
A communication path that is provided in a space portion surrounded by the cylindrical wall portion and guides a part of the exhaust gas flowing out from the front end opening of the exhaust pipe to a region on the front end side of the cover portion;
A top plate portion provided with a second exhaust port that is located on the tip side of the cover portion and exhausts the exhaust gas that has passed through the communication path;
Further comprising
The top plate portion includes a first region corresponding to a region on a straight line connecting the center of the exhaust tube and the first exhaust port, and a peripheral region thereof, as viewed in the axial direction of the exhaust tube, A second region of
The second exhaust port is provided such that the aperture ratio in the second region is smaller than the aperture ratio in the first region,
A plurality of the first exhaust ports are provided at intervals in the circumferential direction of the cylindrical wall portion, and a plurality of each of the first and second regions are provided,
The second exhaust port is formed in a non-circular shape having a plurality of vertices or apexes whose distance from the center of the second exhaust port is locally increased.
The exhaust top, wherein the plurality of vertices or tops are located in the plurality of first regions . An exhaust pipe for circulating exhaust gas from the base end side to the tip end side;
A cover portion facing the tip opening of the exhaust tube and covering the tip opening;
A first outlet cylindrical wall portion which forms a to surround the periphery, and discharges the exhaust gas flowing out from the distal end opening portion of the exhaust pipe to the outside of the cover portion,
An exhaust top comprising:
A communication path that is provided in a space portion surrounded by the cylindrical wall portion and guides a part of the exhaust gas flowing out from the front end opening of the exhaust pipe to a region on the front end side of the cover portion;
A top plate portion provided with a second exhaust port that is located on the tip side of the cover portion and exhausts the exhaust gas that has passed through the communication path;
Further comprising
The top plate portion includes a first region corresponding to a region on a straight line connecting the center of the exhaust tube and the first exhaust port, and a peripheral region thereof, as viewed in the axial direction of the exhaust tube, A second region of
The second exhaust port is provided such that the aperture ratio in the second region is smaller than the aperture ratio in the first region ,
A plurality of the first exhaust ports are provided at intervals in the circumferential direction of the cylindrical wall portion, and a plurality of each of the first and second regions are provided,
The exhaust top having a plurality of second exhaust ports provided so that all or part of the second exhaust ports are located in the plurality of first regions . With a burner,
An intake port for taking in outside air supplied as combustion air to the burner;
An exhaust port for discharging exhaust gas to the outside;
Among the air supply port and the exhaust port , a supply / exhaust top or an exhaust top having at least the exhaust port ,
A combustion device comprising:
A combustion apparatus, wherein the supply / exhaust top according to claim 1 or 2 or the exhaust top according to claim 3 or 4 is used as the supply / exhaust top or the exhaust top.

Images