JPH0776605B2 - Liquid fuel combustor core lifting device - Google Patents
Liquid fuel combustor core lifting deviceInfo
- Publication number
- JPH0776605B2 JPH0776605B2 JP5462392A JP5462392A JPH0776605B2 JP H0776605 B2 JPH0776605 B2 JP H0776605B2 JP 5462392 A JP5462392 A JP 5462392A JP 5462392 A JP5462392 A JP 5462392A JP H0776605 B2 JPH0776605 B2 JP H0776605B2
- Authority
- JP
- Japan
- Prior art keywords
- lead
- core
- lever
- ignition
- adjustment
- 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
Description
【0001】[0001]
【産業上の利用分野】本発明は、液体燃料燃焼器、例え
ば石油ストーブの芯昇降装置に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid fuel combustor, for example, an oil stove lead lifting device.
【0002】[0002]
【従来の技術】従来の対震自動消火機能を有する液体燃
料燃焼器の芯昇降装置においては、その対震自動消火機
能との関連において、直接的に芯の上昇をレバー操作式
で行う機能とは別に、燃焼量調節のために芯露出長の微
調節を行う機構が設けられていた。2. Description of the Related Art In a conventional liquid fuel combustor wick lifting device having an anti-seismic automatic fire extinguishing function, in relation to the anti-seismic automatic fire extinguishing function, a function of directly raising the wick by lever operation Separately, there was provided a mechanism for finely adjusting the exposed length of the core in order to adjust the combustion amount.
【0003】[0003]
【発明が解決しようとする課題】従来のような液体燃料
燃焼器の芯昇降装置の微調節機構ではダイヤル式摘みを
回転操作する構成であったため、構造が複雑で高価とな
る欠点があった。However, the conventional fine adjustment mechanism of the lead lifting device for the liquid fuel combustor has a structure in which the dial type knob is rotated and operated, so that the structure is complicated and expensive.
【0004】また、点火操作レバーと芯上昇調節操作レ
バーとが別々であるため、レバー操作が面倒であった。Further, since the ignition operating lever and the core rising adjusting operating lever are separate, the lever operation is troublesome.
【0005】さらに、これらのレバーを芯調節軸の周り
に回動自在に設けて円弧運動を行なわせる場合は、芯上
昇調節操作と点火操作のいずれの操作性も悪く、しか
も、これらのレバーのガイド編は、大型化になるといっ
た欠点があった。Further, when these levers are rotatably provided around the lead adjusting shaft to perform the circular arc motion, neither the lead raising adjusting operation nor the ignition operation is inferior in operability, and moreover, these levers have a poor operability. The guide version had the drawback of becoming larger.
【0006】本発明は、上記した点に鑑がみなされたも
ので、芯の上昇操作を行う機構と、燃焼量調節のために
芯露出長の微調節を行う機構との大部分を共通化可能に
すると共に、両機構共レバー操作式とし、かつ一回のレ
バー操作のみで芯上昇操作と芯点火操作とを同時に可能
とすることにより、構造が簡単安易でかつ使い易い液体
燃料燃焼器の芯昇降装置を提供しようとするものであ
る。The present invention has been made in view of the above points. Most of the mechanism for raising the wick and the mechanism for finely adjusting the wick exposure length for adjusting the combustion amount are made common. In addition to making it possible, both mechanisms are lever-operated, and the core raising operation and the core ignition operation can be performed at the same time with only one lever operation, so that the structure of the liquid fuel combustor is simple and easy to use. It is intended to provide a core lifting device.
【0007】[0007]
【課題を解決するための手段】以上のような課題を解決
するために、燃料吸上用芯を昇降するために正逆回転す
る芯調節軸と、鉛直方向への直線的な押下げ動作により
芯調節軸を芯上昇方向へ回動させるための芯上昇調節操
作レバーと、該芯上昇調節操作レバーの押下げ動作を芯
調節軸の回動運動に変換するよう芯調節軸と芯上昇調節
操作レバーとを連係する連係機構と、芯調節軸を芯下降
方向へ回動させるように付勢する芯下降スプリングと、
芯上昇調節操作レバーによって上昇した芯を芯上昇調節
操作レバーによる調節範囲で昇降可能に係止する係止手
段と、前記芯に近接した点火位置と芯から離間した解除
位置とに切換可能とされ常時解除位置側に強制された点
火装置と、鉛直方向への直線的な押下げ動作により該点
火装置を解除位置から点火位置に切換える点火操作レバ
ーと、該点火操作レバーを上方へ付勢する復帰スプリン
グとを備え、前記芯上昇調節操作レバー及び点火操作レ
バーは同一ガイドに上下に配置され、前記芯上昇調節操
作レバーは点火操作レバーの押下げ動作により同時に押
下げ可能とされると共に点火操作レバーの上方復帰後に
前記ガイド内で上下可能とされたものである。In order to solve the above-mentioned problems, a lead adjusting shaft that rotates forward and backward to raise and lower a fuel suction lead, and a linear pushing operation in the vertical direction are used. A core lifting adjustment operating lever for rotating the core adjusting shaft in a core lifting direction, and a core adjusting shaft and a core lifting adjusting operation for converting a pushing-down operation of the core lifting adjustment operating lever into a rotational movement of the core adjusting shaft. A linking mechanism that links the lever, a core lowering spring that urges the core adjusting shaft to rotate in the core lowering direction,
A locking means for locking the wick that has been raised by the wick raising adjustment operating lever so as to be able to move up and down within a range adjustable by the wick raising adjusting operating lever, and an ignition position close to the wick and a release position separated from the wick. An ignition device that is always forced to the release position, an ignition control lever that switches the ignition device from the release position to the ignition position by a linearly downward pushing operation, and a return that urges the ignition control lever upward. A spring, and the core raising adjustment operating lever and the ignition operating lever are vertically arranged on the same guide, and the core raising adjustment operating lever can be pushed down simultaneously by the pushing operation of the ignition operating lever and the ignition operating lever. The upper and lower parts can be moved up and down in the guide after returning upward.
【0008】[0008]
【作用】振動感知部分のセット操作は、図2において、
セットレバー32の右遊端部32aを上方向に引き上げ
る。すると、第四ピン33を中心に左遊端部に突設され
た第五ピン34が反時計方向に回転し、これに連動した
作動板28は第三ピン24を中心に時計方向に回転す
る。同時に作動板28は可動板23に設けられた爪27
を押し、可動板23は第三ピン24を中心に時計方向に
回転する。そして可動板23の先端に突設された第一係
止突子25が、係止板20の案内孔22内を移動し第一
係止部22aに引っ掛かり振動感知部分がセットされ
る。このとき、作動板28の爪31はスプリング30に
よって、時計方向に回転し、弾性保持板44から離れた
状態になる。Operation: The operation of setting the vibration sensing part is as shown in FIG.
The right free end 32a of the set lever 32 is pulled upward. Then, the fifth pin 34 projecting from the left free end of the fourth pin 33 rotates in the counterclockwise direction, and the operating plate 28 interlocked with this rotates in the clockwise direction about the third pin 24. . At the same time, the operating plate 28 is the claw 27 provided on the movable plate 23.
Then, the movable plate 23 rotates clockwise around the third pin 24. Then, the first locking protrusion 25 provided at the tip of the movable plate 23 moves in the guide hole 22 of the locking plate 20 and is caught by the first locking portion 22a to set the vibration sensing portion. At this time, the claw 31 of the operating plate 28 is rotated clockwise by the spring 30 and is separated from the elastic holding plate 44.
【0009】次に燃料吸上用芯5を上昇位置にセットす
る操作は、点火操作レバー54を図2の上方位置54A
から図5の下方位置54Bまで下降させる。すると、点
火操作レバー54に連結された第一摺動体51は、第二
摺動体52を押しながら芯上昇調節操作レバー57を上
方位置57Aから下方位置57Bまで下降させ、第二摺
動体52の突子58に挿入された芯上昇・芯調節共通レ
バー47を芯下降姿勢47Aから芯上昇姿勢47Bまで
下方に押し下げる。このとき、芯上昇・芯調節共通レバ
ー47の透孔49には、連動板37の右端に突設された
第六ピン39が揺動板40の小判形の遊動孔43を介し
て挿入されているため、芯上昇・芯調節共通レバー47
は第七ピン48を中心に小判形の遊動孔43の下端部の
範囲まで移動したのち、連動軸受け35の貫通孔35a
を中心に時計方向に回転する。同時に揺動板40は芯下
降姿勢40Aから芯上昇姿勢40Bまで回転し、左遊端
部に突設された第二係止突子41が弾性保持板44の案
内孔46内を移動し第二係止部46aに引っ掛かかるの
で、弾性保持板44も非係止姿勢44Aから係止姿勢4
4Bに切換り、セットされる。連動板37に固定された
連動軸受け35に固定筒60で固定されている芯調節軸
7も時計方向に回転し、芯調節軸7に固定された回転ア
ーム8が時計方向に回転し、その両端部の第一ピン9が
芯ホルダー係着片6の切欠溝6a内で摺動しながら、芯
ホルダー4を押し上げるため、芯5が上がりセットされ
る。Next, the operation of setting the fuel wick 5 to the raised position is to move the ignition control lever 54 to the upper position 54A in FIG.
To the lower position 54B in FIG. Then, the first sliding body 51 connected to the ignition operating lever 54 lowers the core rising adjustment operating lever 57 from the upper position 57A to the lower position 57B while pushing the second sliding body 52, and the second sliding body 52 is projected. The common core raising / core adjusting lever 47 inserted in the child 58 is pushed downward from the core lowering posture 47A to the core raising posture 47B. At this time, the sixth pin 39 projecting from the right end of the interlocking plate 37 is inserted into the through hole 49 of the common core raising / center adjusting lever 47 through the oval free hole 43 of the swing plate 40. Therefore, the common lever 47
Moves to the range of the lower end portion of the oval floating hole 43 about the seventh pin 48, and then the through hole 35a of the interlocking bearing 35.
Rotate clockwise around. At the same time, the oscillating plate 40 rotates from the core lowering posture 40A to the core raising posture 40B, and the second locking protrusion 41 projecting from the left free end moves in the guide hole 46 of the elastic holding plate 44 and moves to the second position. Since the locking portion 46a is caught, the elastic holding plate 44 also moves from the non-locking posture 44A to the locking posture 4A.
Switch to 4B and set. The core adjusting shaft 7 fixed by the fixed cylinder 60 to the interlocking bearing 35 fixed to the interlocking plate 37 also rotates clockwise, and the rotating arm 8 fixed to the core adjusting shaft 7 rotates clockwise, and both ends thereof. Since the first pin 9 of the part pushes up the lead holder 4 while sliding in the notch groove 6a of the lead holder engaging piece 6, the lead 5 is set up.
【0010】また、図6の様に、上記の点火操作レバー
54の摘み63の押し下げにより、押下片55は突子7
6を押し下げるので、リンク73は回転してその一端は
上昇し、アーム70も上方へ回転し、スプリング69に
抗してヒータ66を芯に接近させるので、芯は点火され
る。Further, as shown in FIG. 6, by pushing down the knob 63 of the ignition operating lever 54, the pushing piece 55 is moved to the protrusion 7.
6 is pushed down, the link 73 rotates and one end thereof rises, the arm 70 also rotates upward, and the heater 66 approaches the wick against the spring 69, so that the wick is ignited.
【0011】なお、点火操作レバー54から手を離して
押し下げを解除すると、これと第一摺動体51とは復帰
スプリング56によって上方にもどされ、また同時に、
図6の様に、押下片55は上昇するので、復帰スプリン
グ69の力により自動点火装置65の各部品も元の位置
にもどされる。When the ignition control lever 54 is released and the pushing is released, this and the first sliding body 51 are returned upward by the return spring 56, and at the same time,
As shown in FIG. 6, since the push-down piece 55 rises, each component of the automatic ignition device 65 is returned to its original position by the force of the return spring 69.
【0012】[0012]
【実施例】以下、本発明の一実施例を図面に基づいて説
明する。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.
【0013】図1は燃料タンク部分を含む芯昇降装置の
一部で分解斜視図で、1は中央部に芯内筒2を立設され
た燃料タンクで、芯内筒2と芯外筒3との間には芯ホル
ダー4を有する燃料吸上用芯5が上下摺動自在に介挿さ
れている。6は、前記芯ホルダー4の中腹部外周面に装
着された芯ホルダー係着片で、前後二箇所に装着されて
おり、中央部に切欠溝6aを有している。この切欠溝6
aには、芯調節軸7に連結された回転アーム8の両端部
に固着された第一ピン9が挿入される。前記芯調節軸7
の一端は、燃料タンク1に設けられた孔10に挿入さ
れ、また他端部は、燃料タンク1の対辺部の孔11に芯
調節軸受けナット12で固定された芯調節軸受け13の
中央の貫通孔に挿入される。14は油もれ防止のための
パッキンで、芯調節軸受け13と芯調節軸受けナット1
2の間に固定される。15は芯外パッキンで燃料タンク
1と芯外筒3の間に固定される。2aは芯天板で芯内筒
2上部に固定される。FIG. 1 is an exploded perspective view of a part of a lead elevating device including a fuel tank portion. Reference numeral 1 is a fuel tank in which a core inner cylinder 2 is erected in a central portion, and a core inner cylinder 2 and a core outer cylinder 3 are provided. A fuel wick 5 having a wick holder 4 is vertically slidable between and. Reference numeral 6 denotes a core holder engaging piece attached to the outer peripheral surface of the middle portion of the core holder 4, which is attached to front and rear two places and has a notch groove 6a in the central portion. This notch groove 6
First pins 9 fixed to both ends of a rotary arm 8 connected to the lead adjusting shaft 7 are inserted into a. The core adjusting shaft 7
Has one end inserted into a hole 10 provided in the fuel tank 1, and the other end penetrates the center of a core adjustment bearing 13 fixed to a hole 11 on the opposite side of the fuel tank 1 with a core adjustment bearing nut 12. Inserted in the hole. 14 is a packing for preventing oil leakage, and includes a core adjusting bearing 13 and a core adjusting bearing nut 1.
Fixed between two. An outer core packing 15 is fixed between the fuel tank 1 and the outer core tube 3. 2a is a core top plate and is fixed to the upper part of the core inner cylinder 2.
【0014】図2は芯昇降装置の芯下降状態の正面図、
図3は同平面図、図4は同分解斜視図、図5は同要部の
芯上昇状態の側面図である。そしてまず図2,3,4の
対震自動消火用の振動感知部分を説明すると、16は、
基板17に連結された支持台18上に載置された重り
で、その下端部には、鎖り19が取付られている。20
は、基板17の第二ピン21に回転自在に軸支されたL
字型の係止板で、その上端の遊端部には前記重り16の
鎖り19の下端部が取付られていると共に、下方の遊端
部の案内孔22の中ほどには第一係止部22aが形成さ
れている。23は、基板17の第三ピン24に軸支され
た可動板で、その遊端部には前記第一係止部22aに接
離自在となる第一係止突子25が突設されていると共
に、遊端部中ほどには、可動板23を常時下方向に附勢
するスプリング26が設けられ、前記第一係止突子25
の反対方向には作動板28を反時計方向のみに回転させ
る爪27が形成されている。前記作動板28は、基板1
7の第三ピン24に可動板23と同時に回転自在に軸支
されており、その遊端部上方には透孔29と常時時計方
向に附勢せしめるスプリング30が設けられていると共
に、遊端部下方には、弾性保持板44を反時計方向のみ
に回転させる爪31が形成されている。32は、基板1
7の第四ピン33に回転自在に軸支されたセットレバー
で、その左方遊端部には、前記作動板28の透孔29に
挿入する第五ピン34が突設されていると共に、右方遊
端部32aには爪が形成され、これにセット摘み61が
挿入されている。FIG. 2 is a front view of the lead elevating device in a lowered state of the lead,
3 is a plan view of the same, FIG. 4 is an exploded perspective view of the same, and FIG. 5 is a side view of a main portion of the same in a raised state. And first, explaining the vibration sensing part for anti-earthquake automatic fire extinguishing of FIGS.
A weight is placed on a support 18 connected to the substrate 17, and a chain 19 is attached to the lower end of the weight. 20
L is rotatably supported by the second pin 21 of the board 17.
The lower end of the chain 19 of the weight 16 is attached to the free end of the upper end of the U-shaped locking plate, and the first engaging member is provided in the middle of the guide hole 22 of the lower free end. A stop 22a is formed. Reference numeral 23 is a movable plate pivotally supported by the third pin 24 of the base plate 17, and a free end of the movable plate is provided with a first locking protrusion 25 that can come into contact with and separate from the first locking portion 22a. In addition, a spring 26 that constantly urges the movable plate 23 downward is provided in the middle of the free end, and the first locking protrusion 25
A claw 27 for rotating the actuating plate 28 only in the counterclockwise direction is formed in the opposite direction. The operating plate 28 is the substrate 1
The third pin 24 of FIG. 7 is rotatably supported at the same time as the movable plate 23. A through hole 29 and a spring 30 for constantly biasing clockwise are provided above the free end of the movable plate 23. A claw 31 for rotating the elastic holding plate 44 only in the counterclockwise direction is formed below the portion. 32 is the substrate 1
7 is a set lever rotatably supported by a fourth pin 33, and a fifth pin 34 to be inserted into the through hole 29 of the operating plate 28 is projectingly provided at the left free end portion thereof. A claw is formed on the right free end portion 32a, and the set knob 61 is inserted therein.
【0015】次に図2〜5の芯昇降部分を説明する。3
5は、基板17の中央部にある円孔36に挿入された連
動軸受けで、その中央部には前記芯調節軸7が挿入固定
される貫通孔35aが形成されている。37は、連動軸
受け35に上下の爪38によって固定された連動板で、
その右端には第六ピン39が突設されている。40は揺
動板で、その中央部に前記連動軸受け35の一端挿入用
の円孔40aが形成され、この円孔40aを中心として
回転自在に連動軸受け35に軸支されている。また揺動
板40の左方遊端部には第二係止突子41が突設されて
いると共に、中ほどには常時下方に附勢せしめる芯下降
スプリング42が設けられている。揺動板40の右方遊
端部には、前記連動板37に突設された第六ピン39が
挿入自在な小判形の遊動孔43が形成されている。44
は、基板17の第八ピン45に軸支された回転自在な弾
性保持板で、その下方遊端部の案内孔46の中ほどには
第二係止部46aが形成され、前記揺動板40の第二係
止突子41が第二係止部46aに接離自在となる様形成
されている。47は、前記揺動板40に第七ピン48に
よって回転自在に軸支された芯上昇・芯調節共通レバー
で、その中央部に前記連動板37に突設された第六ピン
39に挿入可能な透孔49を有していると共に、右方遊
端部にも透孔50が形成されている。そして前記透孔4
9、前記第六ピン39および前記遊動孔43により、前
記揺動板40と、芯調節軸7および連動軸受け35に固
定された連動板37と芯上昇・芯調節共通レバー47と
を芯微調節範囲のみの遊動を許すよう連結する遊動連結
手段Aが構成される。また、遊動連結手段Aを含んで、
前記揺動板40および弾性保持板44により、芯5を燃
焼位置でかつ芯上昇調節操作レバー57による微調節範
囲で昇降可能に係止する係止手段が構成される。Next, the core elevating portion of FIGS. 2 to 5 will be described. Three
Reference numeral 5 denotes an interlocking bearing inserted in a circular hole 36 in the central portion of the substrate 17, and a through hole 35a into which the core adjusting shaft 7 is inserted and fixed is formed in the central portion. 37 is an interlocking plate fixed to the interlocking bearing 35 by upper and lower claws 38,
A sixth pin 39 is projectingly provided on the right end thereof. A rocking plate 40 is formed with a circular hole 40a for inserting one end of the interlocking bearing 35 in the center thereof, and is rotatably supported by the interlocking bearing 35 about the circular hole 40a. A second locking protrusion 41 is provided on the left free end portion of the swing plate 40, and a core lowering spring 42 for constantly urging downward is provided in the middle. An oval play hole 43 into which the sixth pin 39 protruding from the interlocking plate 37 can be inserted is formed at the free end of the oscillating plate 40 on the right side. 44
Is a rotatable elastic holding plate pivotally supported by the eighth pin 45 of the base plate 17, and a second engaging portion 46a is formed in the middle of the guide hole 46 at the lower free end thereof. The second locking protrusion 41 of 40 is formed so as to be able to come into contact with and separate from the second locking portion 46a. Reference numeral 47 is a common core raising / center adjusting lever rotatably supported on the swing plate 40 by a seventh pin 48, and can be inserted into a sixth pin 39 projecting from the interlocking plate 37 at the center thereof. In addition to having a transparent hole 49, a transparent hole 50 is also formed in the right free end portion. And the through hole 4
9. By the sixth pin 39 and the idle hole 43, the swing plate 40, the interlocking plate 37 fixed to the core adjusting shaft 7 and the interlocking bearing 35, and the core raising / core adjusting common lever 47 are finely adjusted. Floating connecting means A for connecting so as to allow only the range to move is constructed. In addition, including the floating connection means A,
The oscillating plate 40 and the elastic holding plate 44 constitute locking means for locking the wick 5 so that it can be moved up and down at the combustion position and within the fine adjustment range by the wick rise adjustment operation lever 57.
【0016】51は第一摺動体で、基板17上に固定さ
れたガイド板53に上下摺動可能に嵌合されている。5
4は第一摺動体51に連結された点火操作レバーで、そ
の基板17の裏側部には、自動点火装置に連動する押下
片55が形成されると共に、第一摺動体51を常時上方
向に附勢する復帰スプリング56が設けられ、かつその
基板17表側の爪には操作摘み63が挿入されている。
57は、第二摺動体52に連結された芯上昇調節操作レ
バーで、その基板17表側の爪には芯調節摘み62が挿
入されている。そして、芯上昇調節操作レバー57は、
点火操作レバー54と同一ガイドであるガイド板53の
溝に案内されると共に点火操作レバー54の下側に配さ
れ、点火操作レバー54の押下げ動作により同時に押下
げ可能とされると共に点火操作レバー54の上方復帰後
に前記ガイドである溝内で上下動可能とされている。そ
して、前記第二摺動体52の下方には前記芯上昇・芯調
節共通レバー47の右方遊端部の透孔50に挿入された
突子58aが形成されている。これにより、芯上昇調節
操作レバー57と点火操作レバー54とは、同一ガイド
内で鉛直方向に直線的に移動可能とされる。また前記燃
料タンク1部分から突出した芯調節軸7は前記連動軸受
け35の貫通孔35aに挿入され、これは芯調節軸固定
筒60で連動軸受け35に固定される。すなわち、芯上
昇調節操作レバー57の押下げ動作は、共通レバー4
7、揺動板40、連動板37、および連動軸受け35か
らなる連係機構により、芯調節軸7の回転運動に変換さ
れる。Reference numeral 51 denotes a first sliding body, which is vertically slidably fitted to a guide plate 53 fixed on the substrate 17. 5
Reference numeral 4 denotes an ignition operation lever connected to the first sliding body 51. A pressing piece 55 interlocking with an automatic ignition device is formed on the back side of the base plate 17 of the ignition operating lever 4 and the first sliding body 51 is always moved upward. A return spring 56 for urging is provided, and an operating knob 63 is inserted into the claw on the front side of the board 17.
Reference numeral 57 denotes a lead-up adjusting operation lever connected to the second sliding body 52, and a lead-adjusting knob 62 is inserted into a claw on the front side of the board 17 thereof. Then, the core raising adjustment operation lever 57 is
The ignition control lever 54 is guided by a groove of a guide plate 53 that is the same guide as the ignition control lever 54, and is disposed below the ignition control lever 54. After the upward return of 54, it can move up and down in the groove as the guide. A protrusion 58a is formed below the second sliding body 52 and is inserted into the through hole 50 at the right free end of the core raising / center adjusting common lever 47. As a result, the lead-up adjustment operating lever 57 and the ignition operating lever 54 can be moved linearly in the vertical direction within the same guide. The lead adjusting shaft 7 protruding from the fuel tank 1 portion is inserted into the through hole 35a of the interlocking bearing 35, which is fixed to the interlocking bearing 35 by the lead adjusting shaft fixing cylinder 60. That is, the pushing down operation of the core raising adjustment operation lever 57 is performed by the common lever 4
A linking mechanism composed of 7, the rocking plate 40, the interlocking plate 37, and the interlocking bearing 35 converts the rotational movement of the lead adjusting shaft 7.
【0017】59は各部品を保護するカバー、64は弾
性保持スプリングで、前記弾性保持板44を確実に作動
させるためにこれを時計方向に附勢するために弾性保持
板44と基板17との間に介装されている。Reference numeral 59 is a cover for protecting the respective parts, and 64 is an elastic holding spring. The elastic holding plate 44 and the substrate 17 are arranged to urge the elastic holding plate 44 in a clockwise direction in order to surely operate the elastic holding plate 44. It is interposed between.
【0018】次に、図6の自動点火装置65の作動機構
を説明すると、点火ヒータ66の支枠66aは第一支板
67に対し横軸68の周りに回転自在に取付られ、かつ
これら66a、67の間には復帰スプリング69が介装
され、前記支枠66aは点火アーム70に横軸71で枢
支され、該アーム70は横軸72で支板67に枢支さ
れ、リンク73の一端がアーム70に係合され、該リン
ク73の一端がアーム70に係合され、リンク73の他
端の突子76は、前記点火操作レバー54の押下片55
お昇降経路に配設されている。Next, the operating mechanism of the automatic ignition device 65 of FIG. 6 will be described. The support frame 66a of the ignition heater 66 is rotatably attached to the first support plate 67 about the horizontal axis 68, and these 66a are also provided. , 67, a return spring 69 is interposed, and the support frame 66a is pivotally supported by an ignition arm 70 by a horizontal shaft 71, and the arm 70 is pivotally supported by a support plate 67 by a horizontal shaft 72 and a link 73 of the link 73. One end of the link 73 is engaged with the arm 70, one end of the link 73 is engaged with the arm 70, and the protrusion 76 at the other end of the link 73 is a pressing piece 55 of the ignition operating lever 54.
It is located on the hoisting path.
【0019】次に自動消火動作について説明する。先ず
振動によって消火する場合は、液体燃料燃焼器を傾けた
りこれに振動を与えると、重り16が前後、左右に動
き、鎖り19を引き上げる。すると、鎖り19に取付ら
れている係止板20が第二ピン21を中心に反時計方向
に回転し、第一係止部22aに掛かっていた可動板23
の遊動部に突設されている第一係止突子25が離脱し、
スプリング26によって可動板23は反時計方向に回転
し、可動板23の爪27により、作動板28を反時計方
向に回転させる。作動板28の上遊端部にある透孔29
も同時に反時計方向に回転し、この透孔29に挿入され
た第五ピン34が時計方向に回転し、第五ピン34を突
設されているセットレバー32が第四ピン33を中心に
時計方向に回転する。作動板28が時計方向に回転する
ことにより、爪31が弾性保持板44を反時計方向に回
転させ、弾性保持板44の案内板46の係止部46aに
係止されている揺動板40は、その左遊端部の第二係止
突子41が離脱するので、芯下降スプリング42により
芯上昇姿勢40Bから芯下降姿勢40Aに切換るべく、
連動軸受け35の貫通孔35aを中心に反時計方向に回
転する。連動板37の第六ピン39は揺動板40の遊動
孔43を介して芯上昇・芯調節共通レバー47の透孔4
9に嵌合しているので、揺動板40はその回転途中に遊
動孔43の下端部にピン39が当たり、反時計方向に回
転する。ピン39を有する連動板37も同方向に回転
し、これに固定された連動軸受け35も同方向に回転す
る。また、第七ピン48で揺動板40に軸支された芯上
昇・芯調節共通レバー47も透孔49に第六ピン39が
挿入されているため、芯下降姿勢47Aまで反時計方向
に回転し、第二摺動体52を押し上げる。固定筒60で
連動軸受け35に固定された芯調節軸7は連動軸受け3
5と同様に反時計方向に回転し、芯調節軸7に固定され
た回転アーム8が反時計方向に回転し、その両端部の第
一ピン9が芯ホルダー係着片6の切欠溝6a内で摺動し
ながら芯ホルだー4を下げるため、芯5が芯内筒2と摺
動しながら降下する。Next, the automatic fire extinguishing operation will be described. First, when extinguishing a fire by vibration, when the liquid fuel combustor is tilted or given vibration, the weight 16 moves back and forth, left and right, and the chain 19 is pulled up. Then, the locking plate 20 attached to the chain 19 rotates counterclockwise around the second pin 21 and the movable plate 23 hanging on the first locking portion 22a.
The first locking protrusion 25 protruding from the floating portion of the
The movable plate 23 is rotated counterclockwise by the spring 26, and the claw 27 of the movable plate 23 rotates the operating plate 28 counterclockwise. Through hole 29 at the upper free end of the operating plate 28
Also rotates in the counterclockwise direction at the same time, the fifth pin 34 inserted in the through hole 29 rotates in the clockwise direction, and the set lever 32 protruding from the fifth pin 34 is rotated around the fourth pin 33. Rotate in the direction. When the operating plate 28 rotates in the clockwise direction, the claw 31 rotates the elastic holding plate 44 in the counterclockwise direction, and the swing plate 40 locked to the locking portion 46a of the guide plate 46 of the elastic holding plate 44. Since the second locking protrusion 41 at the left free end thereof is disengaged, the core lowering spring 42 is used to switch from the core rising posture 40B to the core lowering posture 40A.
It rotates counterclockwise around the through hole 35a of the interlocking bearing 35. The sixth pin 39 of the interlocking plate 37 is passed through the loose hole 43 of the swing plate 40 and the through hole 4 of the common core raising / center adjusting lever 47.
Since the rocking plate 40 is fitted with the pin 9, the pin 39 hits the lower end of the idle hole 43 during the rotation of the rocking plate 40 and rotates counterclockwise. The interlocking plate 37 having the pin 39 also rotates in the same direction, and the interlocking bearing 35 fixed thereto also rotates in the same direction. Further, since the sixth pin 39 is inserted into the through hole 49 of the common core raising / center adjusting lever 47 pivotally supported by the swinging plate 40 by the seventh pin 48, it rotates counterclockwise to the core descending posture 47A. Then, the second sliding body 52 is pushed up. The core adjustment shaft 7 fixed to the interlocking bearing 35 by the fixed cylinder 60 is the interlocking bearing 3
As in the case of 5, the rotating arm 8 fixed to the core adjusting shaft 7 rotates in the counterclockwise direction, and the first pins 9 on both ends of the rotating arm 8 are in the notch groove 6a of the core holder engaging piece 6. Since the lead holder 4 is lowered while sliding with, the lead 5 is lowered while sliding with the inner core tube 2.
【0020】また、通常の消火操作に際しては、セット
レバー32の上方位置にある右遊端部32aを押し下げ
る。すると、第四ピン33を支点にして右遊端部に突設
されている第五ピン34が時計方向に回転する。この第
五ピン34が挿入された透孔29を有する作動板28が
第四ピン33を中心に反時計方向に回転し、遊端部下方
の爪31で弾性保持板44を反時計方向に回転させる。
これ以降の動作は振動によって自動消火する場合と同様
の動作を行う。During a normal fire extinguishing operation, the right free end portion 32a located above the set lever 32 is pushed down. Then, the fifth pin 34 projecting from the right free end portion rotates clockwise with the fourth pin 33 as a fulcrum. The operating plate 28 having the through hole 29 into which the fifth pin 34 is inserted rotates counterclockwise about the fourth pin 33, and the claw 31 below the free end rotates the elastic holding plate 44 counterclockwise. Let
The subsequent operation is the same as the case of automatically extinguishing the fire by vibration.
【0021】なお、セットレバー32の右遊端部32a
を押し下げる押力を解除すれば、可動板23の爪27が
反時計方向に回転しない限り、スプリング30によって
セットレバー32は時計方向に回転し、振動感知部分が
セットされた状態にもどる。上記の様に消火操作を行え
ば、これらの一連の動作が瞬時に行われ、瞬時に消火す
る。The right free end portion 32a of the set lever 32 is
When the pressing force for pushing down is released, unless the claw 27 of the movable plate 23 rotates counterclockwise, the spring 30 rotates the set lever 32 clockwise, and the vibration sensing portion is returned to the set state. If the fire extinguishing operation is performed as described above, a series of these operations are instantaneously performed to extinguish the fire instantly.
【0022】次に、燃焼量調節のための芯露出長微調整
操作について説明すると、図5の様に、下方位置57B
にある芯上昇調節操作レバー57を上方に少し引き上げ
ると、これに連結されている第二摺動体52も引き上げ
られる。第二摺動体52の下方の突子58に挿入された
芯上昇・芯調節共通レバー47は第七ピン48を支点に
して反時計方向に回転する。芯上昇・芯調節共通レバー
47の透孔49に挿入された第六ピン39も揺動板40
の小判形の遊動孔43内で同時に反時計方向に回転し、
第六ピン39を突設されている連動板37と、連動板3
7に固定された連動軸受け35が反時計方向に回転す
る。揺動板40は第二係止突子41が弾性保持板44の
第二係止部46aに係止されているため全く回転しな
い。連動軸受け35に固定筒60で固定された芯調節軸
7も反時計方向に回転し、芯調節軸7に固定された回転
アーム8が反時計方向に回転し、両端部の第一ピン9が
芯ホルダー係着片6の切欠溝6aを摺動しながら芯ホル
ダー4を押し下げるため芯が少し下がる。Next, the operation of fine adjustment of the wick exposure length for adjusting the combustion amount will be explained. As shown in FIG.
When the lead-up adjusting operation lever 57 in the above is pulled up a little, the second sliding body 52 connected thereto is also pulled up. The core-raising / core-adjusting common lever 47 inserted into the protrusion 58 below the second sliding body 52 rotates counterclockwise about the seventh pin 48 as a fulcrum. The sixth pin 39 inserted into the through hole 49 of the common core raising / center adjusting lever 47 also includes the swing plate 40.
Simultaneously rotate counterclockwise in the oval free hole 43 of
The interlocking plate 37 provided with the sixth pin 39 and the interlocking plate 3
The interlocking bearing 35 fixed to 7 rotates counterclockwise. The oscillating plate 40 does not rotate at all because the second locking protrusion 41 is locked to the second locking portion 46a of the elastic holding plate 44. The core adjustment shaft 7 fixed to the interlocking bearing 35 by the fixed cylinder 60 also rotates counterclockwise, the rotation arm 8 fixed to the core adjustment shaft 7 rotates counterclockwise, and the first pins 9 at both ends are rotated. Since the lead holder 4 is pushed down while sliding in the notch groove 6a of the lead holder engaging piece 6, the lead is slightly lowered.
【0023】また芯5を少し下げすぎたときは、芯上昇
調節操作レバー57を少し押し下げる。すると前記と逆
に動作が揺動板40の小判形の遊動孔43の範囲内で行
なわれる。When the lead 5 is lowered a little too much, the lead-up adjusting operation lever 57 is pushed down a little. Then, conversely to the above, the operation is performed within the range of the oval play hole 43 of the rocking plate 40.
【0024】なお、上記実施例では、芯上昇・芯調節共
通レバー47と連動板37とはピン39と透孔49とで
連結され、また共通レバー47と揺動板40とはピン4
8で連結されているが、これは揺動板40の揺動角度に
対する共通レバー47の回転角度の比率を大にするため
である。しかし、その必要性が小さい場合には共通レバ
ー47と連動板37とを一体化しピン48は芯調節軸7
と一致させてもよい。また共通レバー47と連動板37
が図示例の如く別体の場合でも共通レバー47と連動板
37にピン39、透孔49の適当な一方を選択して設け
ればよく、また共通レバー47および連動板37の組
と、揺動板40とは、ピン39と遊動孔43との一方を
選択できる。In the above embodiment, the common core raising / center adjusting lever 47 and the interlocking plate 37 are connected by the pin 39 and the through hole 49, and the common lever 47 and the swinging plate 40 are connected to the pin 4 by the pin 4.
8 are connected to each other in order to increase the ratio of the rotation angle of the common lever 47 to the swing angle of the swing plate 40. However, when the necessity is small, the common lever 47 and the interlocking plate 37 are integrated, and the pin 48 serves as the core adjustment shaft 7.
May be matched with. Also, the common lever 47 and the interlocking plate 37
In the case where the common lever 47 and the interlocking plate 37 are separate bodies as shown in the drawing, it is only necessary to select and provide an appropriate one of the pin 39 and the through hole 49 on the common lever 47 and the interlocking plate 37. As the moving plate 40, one of the pin 39 and the floating hole 43 can be selected.
【0025】なお、上記実施例において、時計方向とは
本発明の正転方向を意味し、また反時計方向とは本発明
の逆転方向を意味する。In the above embodiment, the clockwise direction means the forward rotation direction of the present invention, and the counterclockwise direction means the reverse rotation direction of the present invention.
【0026】[0026]
【発明の効果】以上の説明から明らかな通り、本発明に
よれば、芯上昇調節操作レバーは、点火操作レバーと同
一ガイドに案内されると共に点火操作レバーの下側に配
されているから、点火操作レバーの押下げ動作により芯
上昇調節操作レバーも押下げ可能となり、点火動作と芯
上げ動作を一回のレバー操作のみで同時に行うことがで
きる。As is apparent from the above description, according to the present invention, the lead raising adjustment operation lever is guided by the same guide as the ignition operation lever and is arranged below the ignition operation lever. The push-up operation of the ignition operation lever also allows the push-up operation lever to be pushed down, and the ignition operation and the pull-up operation can be performed simultaneously by only one lever operation.
【0027】[0027]
【0028】また、芯上昇調節操作レバーと点火操作レ
バーとは同一ガイドで鉛直方向へ直線的に案内するた
め、点火操作レバー用のガイドと芯上昇調節操作レバー
用のガイドを別々に2個設ける場合に比べて、左右のガ
イド幅を小にでき、案内機構の構造を簡単にすることが
でき、1個のガイドを形成すればよいので、その加工も
容易に行なえる。Since the lead raising adjustment operating lever and the ignition operating lever are guided linearly in the vertical direction by the same guide, two guides for the ignition operating lever and two guides for the lead raising adjusting operating lever are separately provided. Compared with the case, the width of the left and right guides can be made smaller, the structure of the guide mechanism can be simplified, and since only one guide needs to be formed, the processing can be performed easily.
【0029】さらに、芯上昇調節操作レバーと点火操作
レバーとは、同一ガイドでしかも鉛直方向に直線的に移
動するため、これらのレバーを芯調節軸の周りに回動自
在に設けて円弧運動を行なわせる場合に比べて、芯上昇
調節操作と点火操作のいずれの操作性もよく、しかも、
これらのレバーの左右方向のガイド編も、円弧運動を行
なわせる場合に比べて小にし得、機構の小型化が可能と
なるといった優れた効果がある。Further, since the lead raising adjustment operating lever and the ignition operating lever move linearly in the vertical direction with the same guide, these levers are rotatably provided around the lead adjusting shaft to perform an arc motion. Compared to the case where it is performed, the operability of both the core rising adjustment operation and the ignition operation is good, and moreover,
The guide stitches in the left-right direction of these levers can also be made smaller than in the case of performing an arcuate movement, and there is an excellent effect that the mechanism can be made smaller.
【図1】本発明にかかる液体燃料燃焼器の燃料タンク部
分を含む芯昇降装置の分解斜視図である。FIG. 1 is an exploded perspective view of a lead lifting device including a fuel tank portion of a liquid fuel combustor according to the present invention.
【図2】本発明にかかる液体燃料燃焼器の芯昇降装置で
あって芯下降状態を示す正面図である。FIG. 2 is a front view showing the lead lowering state of the lead lifting device for a liquid fuel combustor according to the present invention.
【図3】本発明にかかる液体燃料燃焼器の芯昇降装置で
あって芯下降状態を示す平面図である。FIG. 3 is a plan view showing a lead lowering state of the lead lifting device for a liquid fuel combustor according to the present invention.
【図4】本発明にかかる液体燃料燃焼器の芯昇降装置で
あって芯下降状態を示す分解斜視図である。FIG. 4 is an exploded perspective view showing a lead descending state of the lead lifting device for a liquid fuel combustor according to the present invention.
【図5】本発明にかかる液体燃料燃焼器の芯昇降装置で
あって芯下降状態を示す一部の芯上昇状態の側面図であ
る。FIG. 5 is a side view of the lead elevating apparatus for the liquid fuel combustor according to the present invention in a part of the lead up state showing the lead down state.
【図6】本発明にかかる液体燃料燃焼器の芯昇降装置で
あって芯下降状態を示す自動点火装置部分の斜視図であ
る。FIG. 6 is a perspective view of an automatic ignition device portion showing a core lowering state of the liquid fuel combustor core lifting device according to the present invention.
5 燃料吸上用芯 7 芯調節軸 35 連動軸受け 37 連動板 40 揺動版 44 弾性保持板 47 芯上昇・芯調節共通レバー 47A 芯上昇・芯調節共通レバー芯下降姿勢 47B 芯上昇・芯調節共通レバー芯上昇姿勢 51 第1摺動体 52 第2摺動体 54 点火操作レバー 54A 点火操作レバーの上方位置 54B 芯上昇下方位置 55 押下片 57 芯上昇調節操作レバー 65 自動点火装置 66 点火ヒータ 76 突子 5 Fuel Suction Core 7 Core Adjusting Shaft 35 Interlocking Bearing 37 Interlocking Plate 40 Swing Plate 44 Elastic Holding Plate 47 Core Raising / Core Adjusting Common Lever 47A Core Raising / Core Adjusting Lever Core Down Position 47B Core Raising / Core Adjusting Common Lever core rising posture 51 First sliding body 52 Second sliding body 54 Ignition operating lever 54A Ignition operating lever upper position 54B Core raising lower position 55 Pushing piece 57 Core raising adjusting operating lever 65 Auto ignition device 66 Ignition heater 76 Protrusion
───────────────────────────────────────────────────── フロントページの続き (72)発明者 乾 嘉雄 大阪府大阪市阿倍野区長池町22番22号 シ ャープ株式会社内 (56)参考文献 特開 昭57−202405(JP,A) 特開 昭57−175712(JP,A) 実開 昭58−189416(JP,U) 実開 昭58−189417(JP,U) 実開 昭59−71015(JP,U) 特公 昭56−10521(JP,B2) ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Yoshio Inui, 22-22 Nagaike-cho, Abeno-ku, Osaka-shi, Osaka Within Sharp Corporation (56) References JP-A-57-202405 (JP, A) JP-A-57 -175712 (JP, A) Actual Open Sho 58-189416 (JP, U) Actual Open Sho 58-189417 (JP, U) Actual Open Sho 59-71015 (JP, U) Japanese Patent Sho 56-10521 (JP, B2) )
Claims (1)
する芯調節軸と、 鉛直方向への直線的な押下げ動作により芯調節軸を芯上
昇方向へ回動させるための芯上昇調節操作レバーと、 該芯上昇調節操作レバーの押下げ動作を芯調節軸の回動
運動に変換するよう芯調節軸と芯上昇調節操作レバーと
を連係する連係機構と、 芯調節軸を芯下降方向へ回動させるように付勢する芯下
降スプリングと、 芯上昇調節操作レバーによって上昇した芯を芯上昇調節
操作レバーによる調節範囲で昇降可能に係止する係止手
段と、 前記芯に近接した点火位置と芯から離間した解除位置と
に切換可能とされ常時解除位置側に強制された点火装置
と、 鉛直方向への直線的な押下げ動作により該点火装置を解
除位置から点火位置に切換える点火操作レバーと、 該点火操作レバーを上方へ付勢する復帰スプリングとを
備え、 前記芯上昇調節操作レバー及び点火操作レバーは同一ガ
イドに上下に配置されて案内され、前記芯上昇調節操作
レバーは点火操作レバーの押下げ動作により同時に押下
げ可能とされると共に点火操作レバーの上方復帰後に前
記ガイド内で上下動可能とされたことを特徴とする液体
燃料燃焼器の芯昇降装置。1. A lead adjusting shaft that rotates forward and backward to raise and lower a lead for sucking fuel, and a lead lift for rotating the lead adjusting shaft in a lead-up direction by a linear downward pushing operation. The adjustment operation lever, a linking mechanism that links the lead adjustment shaft and the lead up adjustment operation lever so as to convert the push-down operation of the lead up adjustment operation lever into the rotational movement of the lead adjustment shaft, and the lead down shaft of the lead adjustment shaft. A core lowering spring for urging the core to move in the direction, locking means for locking the core raised by the core raising adjustment operating lever so as to be able to move up and down within the adjustment range of the core raising adjustment operating lever, An ignition device that can be switched between an ignition position and a release position separated from the core and is always forced to the release position side, and an ignition device that switches the ignition device from the release position to the ignition position by a linear downward pushing operation. Operation lever and this point A return spring for urging the operation lever upward, and the lead raising adjustment operating lever and the ignition operating lever are vertically arranged and guided in the same guide, and the lead raising adjustment operating lever pushes down the ignition operating lever. And a core lifting device for a liquid fuel combustor, wherein the core lifting device is capable of being pushed down at the same time and moved up and down within the guide after the ignition control lever is returned upward.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP5462392A JPH0776605B2 (en) | 1992-03-13 | 1992-03-13 | Liquid fuel combustor core lifting device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP5462392A JPH0776605B2 (en) | 1992-03-13 | 1992-03-13 | Liquid fuel combustor core lifting device |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP4384083A Division JPS59167615A (en) | 1983-03-15 | 1983-03-15 | Wick vertical moving device of liquid fuel burner |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH0571710A JPH0571710A (en) | 1993-03-23 |
| JPH0776605B2 true JPH0776605B2 (en) | 1995-08-16 |
Family
ID=12975875
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP5462392A Expired - Lifetime JPH0776605B2 (en) | 1992-03-13 | 1992-03-13 | Liquid fuel combustor core lifting device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0776605B2 (en) |
Families Citing this family (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP3754132B2 (en) | 1996-07-09 | 2006-03-08 | 日本板硝子株式会社 | Fiber treatment agent for reinforcing rubber, reinforcing fiber, and rubber reinforcement |
| US6664325B1 (en) | 1999-01-14 | 2003-12-16 | Nippon Sheet Glass Co., Ltd. | Fiber processing agent, reinforcing fiber processed by the fiber processing agent and rubber product reinforced by the reinforcing fiber |
-
1992
- 1992-03-13 JP JP5462392A patent/JPH0776605B2/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0571710A (en) | 1993-03-23 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JPH0776605B2 (en) | Liquid fuel combustor core lifting device | |
| JPH0318811Y2 (en) | ||
| JP2572080Y2 (en) | Liquid fuel combustor core lifting device | |
| JPH0325686B2 (en) | ||
| JPH0253687B2 (en) | ||
| JPH0216091Y2 (en) | ||
| JPH0216092Y2 (en) | ||
| KR0117590Y1 (en) | A sewing machine | |
| JPS59189207A (en) | Ascending and descending device of wick for liquid fuel burner | |
| JPH0631297Y2 (en) | Oil-fired appliance heat control device | |
| JP3368086B2 (en) | Thermal control system for gas-burning appliances | |
| JPS6339566Y2 (en) | ||
| JP2688726B2 (en) | Liquid fuel combustor core lifting device | |
| JPH07190310A (en) | Wick vertically moving device for liquid fuel combustion apparatus | |
| JPS5927307Y2 (en) | footrest device | |
| JPH07305802A (en) | Heating power regulator for petroleum combustion appliance | |
| JPH07117207B2 (en) | Oil combustor core lifting device | |
| JPS59173616A (en) | Wick lifting device of liquid fuel burner | |
| JPH0739849B2 (en) | Oil combustor core lifting device | |
| KR0157355B1 (en) | Heating power increasing and decreasing mechanism for gas machinery | |
| JPS6127578Y2 (en) | ||
| JPH0717930Y2 (en) | Liquid fuel combustor core lifting device | |
| JPS59173615A (en) | Wick lifting device of liquid fuel burner | |
| JPH03137404A (en) | Wick lifting and lowering device in kerosene burner | |
| JPS59147916A (en) | Kerosene combustion appliance |