JPH0518569Y2 - - Google Patents
Info
- Publication number
- JPH0518569Y2 JPH0518569Y2 JP1988079397U JP7939788U JPH0518569Y2 JP H0518569 Y2 JPH0518569 Y2 JP H0518569Y2 JP 1988079397 U JP1988079397 U JP 1988079397U JP 7939788 U JP7939788 U JP 7939788U JP H0518569 Y2 JPH0518569 Y2 JP H0518569Y2
- Authority
- JP
- Japan
- Prior art keywords
- nozzle
- burner
- plate
- combustion air
- air holes
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 238000002485 combustion reaction Methods 0.000 claims description 27
- 239000000446 fuel Substances 0.000 claims description 15
- 239000007788 liquid Substances 0.000 claims description 11
- 239000007921 spray Substances 0.000 claims description 11
- 230000000087 stabilizing effect Effects 0.000 claims description 10
- 238000004519 manufacturing process Methods 0.000 description 3
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 2
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- 238000005452 bending Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 229910052742 iron Inorganic materials 0.000 description 1
- 239000003350 kerosene Substances 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 238000011084 recovery Methods 0.000 description 1
- 238000009423 ventilation Methods 0.000 description 1
Landscapes
- Pressure-Spray And Ultrasonic-Wave- Spray Burners (AREA)
Description
【考案の詳細な説明】
〔産業上の利用分野〕
本考案は、温水ボイラー等に使用する液体燃料
噴霧バーナに関する。[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a liquid fuel spray burner used in hot water boilers and the like.
この種の液体燃料噴霧バーナは、例えば一般に
マンシヨンと呼称される建物などの家庭用の給湯
機のためのバーナであつて、灯油を燃料として用
いるためにガスを使用する場合に比べ経費を著し
く軽減できるのであるが、バーナは狭いバルコニ
ーなどに設置されるので、小型、軽量であり、か
つ、燃焼音が低いことが要求される。かかる要請
に答えるべく、本出願人は一つの液体燃料噴霧バ
ーナを開発した。それは、第5図を参照すると、
液体噴霧用ノズル31を備えた第1の筒体33に
ノズル口32より前方に中央孔34および挽回羽
根35を有する保炎板36を、また後方に第1の
後方空気孔37を有する第1の端板38を備え、
これらで燃料噴霧室39を、保炎板36の前方周
囲に複数個の第1の空気孔41を有する第2の筒
体40と第1の筒体33の外周に複数個の第2の
空気孔42を有する第2の端板43とで、混合燃
料室44を、第3の筒体45と第2の端板43
と、第1の筒体33の外周に複数個の第2の後方
空気孔46を有する第3の端板47と圧力調整室
48を、第2の筒体40、第3の筒体45、第4
の筒体49、第1の端板38、第3の端板47と
で通気路53を各々構成し、第4の筒体49は風
道50を介して送風機52に接続され、混合燃焼
室に一次空気と二次空気とを調整して供給す
る構成としたことを特徴とするものである。この
バーナにおいては、保炎板全周に均一に燃焼用空
気を送り、炎の均一化と安定化を図る為に保炎板
と送風機の燃焼用空気吹出口との距離を十分と
り、また風道の断面積を十分にとり、かつ、風道
を曲げる、などの手段をとることによつて効率的
な燃焼を得るという目的を達している。
This type of liquid fuel spray burner is a burner for domestic water heaters, such as those in buildings commonly called condominiums, and it uses kerosene as fuel, which significantly reduces costs compared to using gas. However, since the burner is installed on a narrow balcony, it is required to be small, lightweight, and produce low combustion noise. In order to meet this demand, the present applicant has developed a liquid fuel spray burner. Referring to Figure 5, it is
A first cylindrical body 33 equipped with a liquid spray nozzle 31 is provided with a flame stabilizing plate 36 having a central hole 34 and a recovery blade 35 in front of the nozzle opening 32, and a first rear air hole 37 in the rear thereof. an end plate 38;
The fuel spray chamber 39 is formed by a second cylindrical body 40 having a plurality of first air holes 41 around the front side of the flame stabilizing plate 36 and a plurality of second air holes around the outer periphery of the first cylindrical body 33. A second end plate 43 having a hole 42 forms a mixed fuel chamber 44 between a third cylinder body 45 and a second end plate 43.
and a third end plate 47 having a plurality of second rear air holes 46 on the outer periphery of the first cylinder 33 and a pressure adjustment chamber 48, a second cylinder 40, a third cylinder 45, Fourth
The cylindrical body 49, the first end plate 38, and the third end plate 47 each constitute a ventilation passage 53, and the fourth cylindrical body 49 is connected to a blower 52 via an air passage 50, and the fourth cylindrical body 49 is connected to a blower 52 through an air passage 50, and It is characterized by having a configuration in which primary air and secondary air are adjusted and supplied. In this burner, combustion air is sent uniformly around the entire circumference of the flame-holding plate, and in order to make the flame uniform and stable, there is a sufficient distance between the flame-holding plate and the combustion air outlet of the blower. The purpose of achieving efficient combustion is achieved by ensuring a sufficient cross-sectional area of the road and by bending the wind channel.
前記したバーナによつて所期の目的は達成され
たのであるが、保炎板と送風機の燃焼用空気吹出
口との距離を十分とり、風道の断面積を十分と
り、かつ、風道を曲げて使用している為に、風
量・風圧損失が大きくなるのみならず、バーナ全
体のコンパクト化が図れず、さらには構造が複雑
となつて製造コストを下げることが困難であるな
どの問題があることが判明した。
Although the intended purpose was achieved with the burner described above, it was necessary to maintain a sufficient distance between the flame-holding plate and the combustion air outlet of the blower, to ensure a sufficient cross-sectional area of the air passage, and to close the air passage. Since the burner is bent, it not only increases the air volume and wind pressure loss, but also makes it impossible to make the entire burner compact, and furthermore, the structure becomes complicated, making it difficult to reduce manufacturing costs. It turns out that there is something.
そこで本考案は上述した事実に鑑みなされたも
のであり、送風機の吹出口と保炎板との距離を短
くし、簡単な構造でありながら炎の均一化と安定
化を図ることが出来る液体燃料噴霧バーナを提供
することを目的とする。 Therefore, the present invention was developed in view of the above-mentioned facts, and it is a liquid fuel that shortens the distance between the blower outlet and the flame-holding plate, and is capable of uniformizing and stabilizing the flame despite its simple structure. The purpose is to provide a spray burner.
上記課題は、中央に液体燃料噴霧ノズル2を支
持し該ノズルのまわりから燃焼用空気をとり入れ
る燃焼空気導入口9を設けたバーナケーシング1
の中央に、先端ノズル2を取付けたノズルアダプ
ター3と整流板14とを同軸に取付け、該整流板
14にはその周縁に沿う複数の外側の空気孔16
と該外側の空気孔16に同心状に配置された複数
の内側の空気孔16が設けられてなり、ノズル2
の前方には保炎板20およびドラフトチユーブ2
1を設け、バーナケーシング1に送風機7を直接
に連絡してなり、燃焼空気導入口9を通つて供給
される燃焼空気は、外側の空気孔16を通り保炎
板20の外側へ流れるとともに内側の空気孔16
を通りノズル2へ向けて流れ、片よることなく均
一に整流されることを特徴とする液体燃料噴霧バ
ーナ。
The above problem is solved by a burner casing 1 that supports a liquid fuel spray nozzle 2 in the center and is provided with a combustion air inlet 9 that takes in combustion air from around the nozzle.
A nozzle adapter 3 with a tip nozzle 2 attached thereto and a rectifying plate 14 are coaxially attached to the center of the rectifying plate 14, and the rectifying plate 14 has a plurality of outer air holes 16 along its periphery.
A plurality of inner air holes 16 are provided concentrically with the outer air hole 16, and the nozzle 2
There is a flame holding plate 20 and a draft tube 2 in front of the
1 is provided, and a blower 7 is directly connected to the burner casing 1. Combustion air supplied through the combustion air inlet 9 flows to the outside of the flame stabilizing plate 20 through the outer air hole 16, and also to the inside. air hole 16
A liquid fuel atomizing burner characterized in that the liquid fuel flows through the nozzle 2 and is uniformly rectified without deviation.
この様に構成することによつて、ノズルアダプ
ター3は整流板14をはさんでその中心を保ちな
がらバーナケーシング1の中心軸線上に一体的に
取付けられ、送風機7もバーナケーシング1に直
接取付けられるので寸法精度が上がり、風量・風
圧損失も小さくなり、保炎板に均一に燃焼用空気
を送ることが出来るので炎の均一化と安定化が図
れ、簡単に組立てられるので製造コストも安くな
り、バーナ全体をコンパクトにすることが出来
る。
With this configuration, the nozzle adapter 3 is integrally installed on the central axis of the burner casing 1 while maintaining its center across the rectifying plate 14, and the blower 7 is also directly installed on the burner casing 1. This increases dimensional accuracy, reduces air volume and wind pressure loss, and allows the combustion air to be sent uniformly to the flame-holding plate, making the flame uniform and stable.As it is easy to assemble, manufacturing costs are also low. The entire burner can be made compact.
〔実施例〕
以下、本考案を図示の実施例について詳細に説
明する。[Embodiments] Hereinafter, the present invention will be described in detail with reference to illustrated embodiments.
第1図〜第4図において、1はバーナケーシン
グでその中心部にノズル2を取付けるノズルアダ
プター3を固定するノズルアダプター取付部4を
有し、該ノズルアダプター取付部4は支持脚5で
支持されている。 In FIGS. 1 to 4, reference numeral 1 denotes a burner casing, which has a nozzle adapter attachment part 4 in its center for fixing a nozzle adapter 3 to which a nozzle 2 is attached, and the nozzle adapter attachment part 4 is supported by support legs 5. ing.
前記ノズルアダプター取付部4にはノズルアダ
プター3を固定するノズルアダプター固定孔6を
形成し、ノズルアダプター取付部4のまわりには
燃焼用空気を送る送風機7の吹出口8の開口寸法
にほゞ等しい燃焼空気導入口9を設ける。 A nozzle adapter fixing hole 6 for fixing the nozzle adapter 3 is formed in the nozzle adapter mounting part 4, and around the nozzle adapter mounting part 4, the opening size is approximately equal to the opening size of the air outlet 8 of the blower 7 that sends combustion air. A combustion air inlet 9 is provided.
10はバーナケーシングの送風機取付面で、送
風機7を固定する送風機固定ネジ孔11が設けら
れている。 10 is a blower mounting surface of the burner casing, and a blower fixing screw hole 11 for fixing the blower 7 is provided therein.
12はバーナケーシングのフランジで、バーナ
ケーシングを固定するバーナケーシング固定ネジ
孔13が設けられている。本実施例では、バーナ
ケーシング1はアルミダイキヤストで肉厚約3mm
で一体に製作した。 12 is a flange of the burner casing, and a burner casing fixing screw hole 13 for fixing the burner casing is provided therein. In this embodiment, the burner casing 1 is made of die-cast aluminum with a wall thickness of approximately 3 mm.
Manufactured in one piece.
14は整流板で、ノズルアダプター3が中心に
来る様にノズルアダプター固定孔6とピツチを備
えた整流板固定孔15と複数の空気孔16とが形
成されている。整流板14の平面図である第3図
を参照すると、整流板14にはその周縁に沿う複
数の外側の空気孔16と、この外側の空気孔16
の配列の内側に外側の空気孔16とほぼ同心状に
複数の内側の空気孔16が形成されている。かゝ
る空気孔16を数多く設けることにより、整流板
14は、燃焼空気導入口9を通つて供給される燃
焼空気を、外側の空気孔16を通り保炎板20の
外側へ向けて、また内側の空気孔16を通りノズ
ル2へ向けて流し、それによつて燃焼空気が片よ
ることなく均一に整流される。 Reference numeral 14 denotes a current plate, which has a nozzle adapter fixing hole 6, a current plate fixing hole 15 with a pitch, and a plurality of air holes 16 so that the nozzle adapter 3 is centered. Referring to FIG. 3, which is a plan view of the current plate 14, the current plate 14 has a plurality of outer air holes 16 along its periphery, and the outer air holes 16.
A plurality of inner air holes 16 are formed substantially concentrically with the outer air holes 16 inside the array. By providing a large number of such air holes 16, the current plate 14 directs the combustion air supplied through the combustion air inlet 9 to the outside of the flame stabilizing plate 20 through the outer air holes 16. The combustion air flows through the inner air hole 16 toward the nozzle 2, thereby uniformly rectifying the combustion air without deviation.
本実施例では整流板14を0.6mmの鉄板をプレ
スで製作した。ノズル2を取付けたノズルアダプ
ター3は整流板14をはさんでバーナケーシング
1にネジ17で固定され、送風機7はバーナケー
シング1にネジ18で固定される。 In this example, the rectifying plate 14 was manufactured by pressing a 0.6 mm iron plate. The nozzle adapter 3 to which the nozzle 2 is attached is fixed to the burner casing 1 with screws 17 across the rectifying plate 14, and the blower 7 is fixed to the burner casing 1 with screws 18.
バーナケーシング1はバーナベース19をはさ
み、保炎板20を有するドラフトチユーブ21と
ネジ(図示なし)で一体化固定される。22は風
道、23は送油管、24は着火用電極である。 The burner casing 1 sandwiches the burner base 19 and is integrally fixed to a draft tube 21 having a flame stabilizing plate 20 with screws (not shown). 22 is an air passage, 23 is an oil pipe, and 24 is an ignition electrode.
次に、上記の様に構成された装置の作用につい
て説明する。送風機7を駆動させると、燃焼空気
が風道22を通り、吹出口8から燃焼空気導入口
9を通り整流板14に当り、拡散され空気孔16
および整流板14の外周バーナケーシング1との
隙間を通り、ドラフトチユーブ21内を通り、保
炎板20に送られる。ポンプPを駆動させて燃料
をノズル2から噴霧させ着火電極24によつて着
火させれば、その噴炎は保炎板20で旋回保持さ
れ、燃焼用空気を混合され火炎となり燃焼する。 Next, the operation of the device configured as described above will be explained. When the blower 7 is driven, combustion air passes through the air duct 22, passes through the air outlet 8 and the combustion air inlet 9, hits the baffle plate 14, and is diffused into the air holes 16.
It passes through the gap between the rectifying plate 14 and the outer peripheral burner casing 1, passes through the draft tube 21, and is sent to the flame stabilizing plate 20. When the pump P is driven to spray fuel from the nozzle 2 and the fuel is ignited by the ignition electrode 24, the flame is held in rotation by the flame holding plate 20, mixed with combustion air, and becomes a flame and burns.
ここでノズル2、整流板14、燃焼空気導入口
9はバーナケーシング1の中心軸線上に取付けら
れているので、保炎板20に送られる燃焼用空気
は円周上に均一に供給され、炎が均一化され、安
定化される。また風道22が極端に短く曲りもな
いので、風量、風圧の損失も少なく、全体をコン
パクトにまとめることが出来ると同時に、組立も
簡単になり製造コストを下げることが出来る。 Here, since the nozzle 2, the current plate 14, and the combustion air inlet 9 are installed on the central axis of the burner casing 1, the combustion air sent to the flame stabilizing plate 20 is uniformly supplied on the circumference, and the flame is homogenized and stabilized. Further, since the air passage 22 is extremely short and has no bends, there is little loss in air volume and wind pressure, and the entire structure can be made compact, and at the same time, assembly is simple and manufacturing costs can be reduced.
なお、整流板14の外径寸法をバーナケーシン
グ1の内径寸法にほゞ合わせほとんど隙間をなく
して、空気孔16のみから燃焼用空気を供給して
も良い。 Incidentally, the outer diameter of the baffle plate 14 may be approximately matched to the inner diameter of the burner casing 1 so that there is almost no gap, and the combustion air may be supplied only from the air holes 16.
以上のように本考案によれば、ノズルアダプタ
ー、送風機、バーナケーシングの寸法精度が向上
し、風量・風圧損失が小になり、炎の均一化と安
定化が実現されるとともに、コストの低減、バー
ナ全体の小型化に有効である。
As described above, according to the present invention, the dimensional accuracy of the nozzle adapter, blower, and burner casing is improved, the air volume and wind pressure loss are reduced, the flame is made uniform and stable, and the cost is reduced. This is effective in downsizing the entire burner.
第1図は本考案一実施例の内部構造を示す断面
図、第2図はバーナケーシング1の背面図、第3
図は整流板14の平面図、第4図はノズルアダプ
ター取付部4のまわりの詳細図、第5図は本出願
人が開発した液体燃料噴霧バーナの縦断面図であ
る。
図中、1はバーナケーシング、2はノズル、3
はノズルアダプター、4はノズルアダプター取付
部、5は支持脚、6はノズルアダプター固定孔、
7は送風機、8は吹出口、9は燃焼空気導入口、
10は送風機取付面、11は送風機固定ネジ孔、
12はフランジ、13はバーナケーシング固定ネ
ジ孔、14は整流板、15は整流板固定孔、16
は空気孔、17はネジ、18はネジ、19はバー
ナベース、20は保炎板、21はドラフトチユー
ブ、22は風道、23は送油管、24は着火用電
極、を示す。
Fig. 1 is a sectional view showing the internal structure of one embodiment of the present invention, Fig. 2 is a rear view of the burner casing 1, and Fig. 3 is a rear view of the burner casing 1.
The figure is a plan view of the rectifying plate 14, FIG. 4 is a detailed view around the nozzle adapter mounting portion 4, and FIG. 5 is a longitudinal sectional view of the liquid fuel spray burner developed by the applicant. In the figure, 1 is the burner casing, 2 is the nozzle, and 3
is a nozzle adapter, 4 is a nozzle adapter mounting part, 5 is a support leg, 6 is a nozzle adapter fixing hole,
7 is a blower, 8 is a blower outlet, 9 is a combustion air inlet,
10 is the blower mounting surface, 11 is the blower fixing screw hole,
12 is a flange, 13 is a burner casing fixing screw hole, 14 is a rectifier plate, 15 is a rectifier plate fixing hole, 16
17 is an air hole, 17 is a screw, 18 is a screw, 19 is a burner base, 20 is a flame holding plate, 21 is a draft tube, 22 is an air passage, 23 is an oil pipe, and 24 is an ignition electrode.
Claims (1)
のまわりから燃焼用空気をとり入れる燃焼空気導
入口9を設けたバーナケーシング1の中央に、先
端ノズル2を取付けたノズルアダプター3と整流
板14とを同軸に取付け、 該整流板14にはその周縁に沿う複数の外側の
空気孔16と該外側の空気孔16に同心状に配置
された複数の内側の空気孔16が設けられてな
り、 ノズル2の前方には保炎板20およびドラフト
チユーブ21を設け、 バーナケーシング1に送風機7を直接に連絡し
てなり、燃焼空気導入口9を通つて供給される燃
焼空気は、外側の空気孔16を通り保炎板20の
外側へ流れるとともに内側の空気孔16を通りノ
ズル2へ向けて流れ、片よることなく均一に整流
されることを特徴とする液体燃料噴霧バーナ。[Claims for Utility Model Registration] A nozzle in which a tip nozzle 2 is attached to the center of a burner casing 1 which supports a liquid fuel spray nozzle 2 in the center and is provided with a combustion air inlet 9 that takes in combustion air from around the nozzle. The adapter 3 and the rectifier plate 14 are installed coaxially, and the rectifier plate 14 has a plurality of outer air holes 16 along its periphery and a plurality of inner air holes 16 arranged concentrically with the outer air holes 16. A flame stabilizing plate 20 and a draft tube 21 are provided in front of the nozzle 2, and a blower 7 is directly connected to the burner casing 1, so that combustion air is supplied through the combustion air inlet 9. A liquid fuel spray burner characterized in that the flow passes through the outer air holes 16 to the outside of the flame stabilizing plate 20, and also flows towards the nozzle 2 through the inner air holes 16, and is uniformly rectified without deviation. .
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1988079397U JPH0518569Y2 (en) | 1988-06-17 | 1988-06-17 |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1988079397U JPH0518569Y2 (en) | 1988-06-17 | 1988-06-17 |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH027423U JPH027423U (en) | 1990-01-18 |
JPH0518569Y2 true JPH0518569Y2 (en) | 1993-05-18 |
Family
ID=31304277
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP1988079397U Expired - Lifetime JPH0518569Y2 (en) | 1988-06-17 | 1988-06-17 |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0518569Y2 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR101293513B1 (en) * | 2006-04-26 | 2013-08-06 | 가부시키가이샤 니뽕 에너지 겐쿠쇼 | Flame injection device |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6218809U (en) * | 1985-07-18 | 1987-02-04 |
-
1988
- 1988-06-17 JP JP1988079397U patent/JPH0518569Y2/ja not_active Expired - Lifetime
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6218809U (en) * | 1985-07-18 | 1987-02-04 |
Also Published As
Publication number | Publication date |
---|---|
JPH027423U (en) | 1990-01-18 |
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