JPS621792B2 - - Google Patents
Info
- Publication number
- JPS621792B2 JPS621792B2 JP16715380A JP16715380A JPS621792B2 JP S621792 B2 JPS621792 B2 JP S621792B2 JP 16715380 A JP16715380 A JP 16715380A JP 16715380 A JP16715380 A JP 16715380A JP S621792 B2 JPS621792 B2 JP S621792B2
- Authority
- JP
- Japan
- Prior art keywords
- paint
- pump
- roller
- pressure
- cylindrical
- 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
Links
- 239000003973 paint Substances 0.000 claims description 90
- 238000000034 method Methods 0.000 claims description 17
- 239000011248 coating agent Substances 0.000 claims description 13
- 238000000576 coating method Methods 0.000 claims description 13
- 238000010422 painting Methods 0.000 claims description 7
- 230000010349 pulsation Effects 0.000 claims description 7
- 238000005086 pumping Methods 0.000 claims description 7
- 230000009471 action Effects 0.000 claims description 3
- 238000010521 absorption reaction Methods 0.000 claims 1
- 239000004744 fabric Substances 0.000 description 5
- 238000012423 maintenance Methods 0.000 description 3
- 238000001514 detection method Methods 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 125000006850 spacer group Chemical group 0.000 description 2
- 238000007592 spray painting technique Methods 0.000 description 2
- 230000008859 change Effects 0.000 description 1
- 230000001112 coagulating effect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 238000007591 painting process Methods 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
- 230000004044 response Effects 0.000 description 1
- 238000005096 rolling process Methods 0.000 description 1
- 239000007921 spray Substances 0.000 description 1
- 230000009466 transformation Effects 0.000 description 1
- 239000011800 void material Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C—APPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C17/00—Hand tools or apparatus using hand held tools, for applying liquids or other fluent materials to, for spreading applied liquids or other fluent materials on, or for partially removing applied liquids or other fluent materials from, surfaces
- B05C17/02—Rollers ; Hand tools comprising coating rollers or coating endless belts
- B05C17/03—Rollers ; Hand tools comprising coating rollers or coating endless belts with feed system for supplying material from an external source or with a reservoir or container for liquid or other fluent material located in or on the hand tool outside the coating roller
- B05C17/0333—Rollers ; Hand tools comprising coating rollers or coating endless belts with feed system for supplying material from an external source or with a reservoir or container for liquid or other fluent material located in or on the hand tool outside the coating roller with pump
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C—APPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C17/00—Hand tools or apparatus using hand held tools, for applying liquids or other fluent materials to, for spreading applied liquids or other fluent materials on, or for partially removing applied liquids or other fluent materials from, surfaces
- B05C17/02—Rollers ; Hand tools comprising coating rollers or coating endless belts
- B05C17/03—Rollers ; Hand tools comprising coating rollers or coating endless belts with feed system for supplying material from an external source or with a reservoir or container for liquid or other fluent material located in or on the hand tool outside the coating roller
- B05C17/0308—Rollers ; Hand tools comprising coating rollers or coating endless belts with feed system for supplying material from an external source or with a reservoir or container for liquid or other fluent material located in or on the hand tool outside the coating roller the liquid being supplied to the inside of the coating roller
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Coating Apparatus (AREA)
- Application Of Or Painting With Fluid Materials (AREA)
Description
【発明の詳細な説明】
本発明は、ローラー式塗装器への塗料圧送方法
に関するものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for pumping paint to a roller-type atomizer.
従来、ローラー式塗装器へ塗料を圧送する方法
としては、加圧タンクを用いる方法が一般に知ら
れているが、作業を一時中断して加圧タンク内へ
の塗料補給を行なわなければならないばかりでな
く、塗料補給後、加圧タンク内を所定圧力まで高
める迄は塗料作業が行なえない。このような欠点
を解消するためには、塗料を直接ポンプでローラ
ー式塗装器へ圧送する方法をとれば良く、ポンプ
の吸入管が投入されている塗料槽内に塗料を適時
に補給するだけで、塗装作業を中断する事なく連
続的に行なえるのである。 Conventionally, the method of using a pressurized tank is generally known as a method of force-feeding paint to a roller-type atomizer, but this requires temporary interruption of work to replenish the paint into the pressurized tank. After replenishing the paint, paint work cannot be performed until the pressure inside the pressurized tank is raised to a specified level. In order to eliminate these drawbacks, it is possible to use a method in which the paint is directly pumped into the roller-type paint device, and all that is required is to replenish the paint in a timely manner into the paint tank into which the pump's suction pipe is inserted. , the painting process can be carried out continuously without interruption.
しかし、このようにポンプで直接塗料を圧送す
る方法は、スプレーガンを使用したスプレー式塗
装方法においては実用化されているが、ローラー
式塗装方法には実例がない。なぜならばスプレー
式塗装方法に用いられる塗料は、比較的粘性が低
く、骨材等の混入されていない、さらさらしたも
のであるから、各種のロータリー式ポンプが問題
なく活用し得るのであるが、ローラー式塗装方法
に用いられる塗料は、粘性が高く、骨材等の混入
された、厚塗りに好ましい塗料が多いため、一般
のロータリー式ポンプは耐用度、メンテナンス等
の点で使用する事ができない。従つてレシプロ式
ポンプを使用する事が考えられたが、吐出圧力が
脈動変化するため、これが塗装むらの原因となる
のを防止するために吐出圧力の脈動吸収手段が必
要となる。さらにローラー式塗装器の手元で塗料
圧送をON,OFF制御する必要があるが、ポンプ
から塗装器までの長い配管中の塗料が重力で塗装
器から流出するのを防止するためにも塗装器の手
元で開閉弁により塗料流路を開閉すると同時にポ
ンプをON,OFFしなければならず、前記開閉弁
に連動するスイツチでポンプの電源回路を開閉さ
せるときには、このスイツチの他に、ポンプと塗
装器の間の長い配管に電気回路用電線を並設する
必要があり、ポンプの吐出流路中にポンプの電源
回路をON,OFFする圧力スイツチを並設すると
きは、特殊な圧力スイツチが必要であるばかりで
なく、この圧力スイツチの塗料圧力検出部におい
て塗料が滞溜、凝固する問題点を解決しなければ
ならない。 However, although this method of directly pumping paint with a pump has been put to practical use in spray painting methods using spray guns, there is no practical example of this method in roller painting methods. This is because the paint used in spray painting methods has a relatively low viscosity and is free of aggregates, so various rotary pumps can be used without problems, but rollers The paints used in this method are often highly viscous, contain aggregates, etc., and are preferred for thick coating; therefore, general rotary pumps cannot be used in terms of durability and maintenance. Therefore, it has been considered to use a reciprocating pump, but since the discharge pressure pulsates, a means for absorbing the pulsation of the discharge pressure is required to prevent this from causing uneven coating. Furthermore, it is necessary to control the paint pressure on and off at the roller-type paint applicator, but in order to prevent the paint in the long piping from the pump to the paint applicator from flowing out of the applicator due to gravity, The pump must be turned on and off at the same time as the paint flow path is opened and closed using an on-off valve, and when the pump's power supply circuit is opened and closed using a switch linked to the on-off valve, in addition to this switch, the pump and the paint sprayer must be turned on and off. Electrical circuit wires must be installed in parallel on the long piping between the pumps, and a special pressure switch is required when installing a pressure switch to turn the pump's power circuit on and off in the pump discharge flow path. In addition, it is necessary to solve the problem that paint accumulates and solidifies in the paint pressure detection part of this pressure switch.
以上のような諸点からレシプロ式ポンプを使用
して塗料を圧送する方法は、加圧タンク利用の方
法に比べて大巾なコスト高になるばかりでなく、
メンテナンスの点でも種々の問題点があると考え
られ、このため従来は、前記のような欠点がある
にも拘わらず加圧タンク利用の圧送方法のみがロ
ーラー式塗装器への塗料圧送方法として実用化さ
れていたに過ぎなかつた。 Due to the above points, the method of using a reciprocating pump to pump paint is not only significantly more expensive than the method of using a pressurized tank, but also
It is thought that there are various problems in terms of maintenance, and for this reason, in the past, despite the above-mentioned drawbacks, the only practical method for pumping paint to roller-type atomizers was using a pressurized tank. It was nothing more than a transformation.
本発明者は、以上のような状況に妥協する事な
くローラー式塗装器へのポンプによる塗料の直接
圧送方法について研究、試行を重ねた結果、空気
圧駆動のダイヤフラム式レシプロポンプが好適な
事、塗料圧力が脈動変化するのを特殊な吸収手
段、例えばコストや滞溜塗料処理の点で問題のあ
る蓄圧タンクを使用しなくとも、実用上全く問題
のない簡易な方法がある事、等を知り得るに至つ
たのである。 The inventor of the present invention has repeatedly researched and tried a method for directly pumping paint to a roller-type paint sprayer without compromising on the above-mentioned circumstances, and has found that a pneumatically driven diaphragm-type reciprocating pump is suitable. You can learn that there is a simple method that does not have any practical problems, without using special means to absorb pulsating changes in pressure, such as pressure storage tanks, which have problems in terms of cost and treatment of accumulated paint. This led to this.
以下添付の例示図に基づいて本発明の好適実施
例を説明すると、第1図において、1はローラー
式塗装器、2はエアーコンプレツサー3から供給
される圧力空気4によつて駆動されるダイヤフラ
ム式レシプロポンプ、5は塗料槽、6は塗料槽5
に投入された塗料吸入管、7はポンプ2の吐出口
とローラー式塗装器1とを接続する塗料圧送管、
8はローラー式塗装器1のハンドル9の上端に付
設した塗料流路開閉弁であつて、押す事により流
路を開く押ボタン10を備えている。 A preferred embodiment of the present invention will be described below with reference to the attached illustrative drawings. In FIG. Diaphragm type reciprocating pump, 5 is paint tank, 6 is paint tank 5
7 is a paint pressure feeding pipe that connects the discharge port of the pump 2 and the roller-type atomizer 1;
Reference numeral 8 denotes a paint passage opening/closing valve attached to the upper end of the handle 9 of the roller-type atomizer 1, and is equipped with a push button 10 that opens the passage when pressed.
第2図乃至第5図に基づいて前記ローラー式塗
装器1を説明すると、11は軸管であつて一端は
エルボ12を介して支持杆兼用塗料供給管13に
接続され、他端部14は閉塞され、周壁には適当
間隔おきに塗料流出口15が設けられている。前
記塗料供給管13は第1図に示すハンドル9に接
続されると共に開閉弁9に連通せしめられる。1
6は軸管11に回転自在に外嵌したローラー本体
であり、17はこのローラー本本体16に嵌装し
た筒状塗装具であつて、筒状の基布18にブラシ
層19を形成したものである。 The roller type paint device 1 will be explained based on FIGS. 2 to 5. Reference numeral 11 is a shaft tube, one end of which is connected via an elbow 12 to a paint supply tube 13 which also serves as a support rod, and the other end 14 is a shaft tube. It is closed, and paint outlet ports 15 are provided at appropriate intervals on the peripheral wall. The paint supply pipe 13 is connected to a handle 9 shown in FIG. 1 and communicated with an on-off valve 9. 1
Reference numeral 6 denotes a roller body rotatably fitted onto the shaft tube 11, and 17 is a cylindrical coating tool fitted onto the roller main body 16, which has a brush layer 19 formed on a cylindrical base fabric 18. It is.
前記ローラー本体16は、2種類の単体20,
21と端末キヤツプ22、端末ボス23、及び結
合線材24から組立てられており、単体20,2
1は、一方の単体20の側壁25から突設のスペ
ーサー26の中央凸部27が他方の単体21の側
壁28に設けた貫通孔に嵌合して、両側壁25,
28間に塗料流出路29を形成し、そして両単体
20,21の開放された内外両周壁30,31及
び32,33どうしは互に雄雌嵌合して、塗料の
流入しない密閉空洞部34を形成している。結合
線材24は、ローラー本体16の遊端にある単体
20から他端の単体20の凸部27が嵌合する貫
通孔を備えた端末ボス23のフランジ部35ま
で、各単体20,21のスペーサー26及びその
中央凸部27を貫通する状態で貫挿され、端部を
屈曲されて各単体20,21及び端末ボス23を
軸方向に結合している。端末キヤツプ22は、単
体20の内部に形成された柱部36のタツプスク
リユー孔37にねじ込まれたタツプスクリユー3
8によつて、遊端の単体20に取付けられてい
る。 The roller main body 16 includes two types of single units 20,
21, a terminal cap 22, a terminal boss 23, and a connecting wire 24.
1, the central convex portion 27 of the spacer 26 protruding from the side wall 25 of one unit 20 fits into the through hole provided in the side wall 28 of the other unit 21, so that both side walls 25,
A paint outflow passage 29 is formed between the parts 28 and the open inner and outer circumferential walls 30, 31 and 32, 33 of both units 20, 21 are mated with each other to form a closed cavity 34 into which no paint can flow. is formed. The bonding wire 24 extends from the single body 20 at the free end of the roller body 16 to the flange portion 35 of the terminal boss 23, which has a through hole into which the convex portion 27 of the single body 20 at the other end fits, and the spacer of each single body 20, 21. 26 and its central convex portion 27, and its ends are bent to connect each unit 20, 21 and the terminal boss 23 in the axial direction. The terminal cap 22 has a tap screw 3 screwed into a tap screw hole 37 of a column 36 formed inside the unit 20.
8, it is attached to the single body 20 at the free end.
各単体20,21の外周壁32,33は、塗料
流出路29のある側が小径となるテーパー状に形
成され、その外表面には、長さ方向及び頂面が軸
心と平行な突条部39が周方向適当間隔おきに突
設されており、筒状塗装具17の筒状基布18と
の間に空所40を形成している。又、各単体2
0,21の内周壁30,31の軸管11に対向す
る内周面には、軸方向と平行な突条部41が周方
向適当間隔おきに突設され、塗料流出路42を軸
管11との間に形成している。 The outer circumferential walls 32, 33 of each unit 20, 21 are formed in a tapered shape with a smaller diameter on the side where the paint outflow path 29 is located, and the outer surface has a protrusion whose length direction and top surface are parallel to the axis. 39 protrude at appropriate intervals in the circumferential direction, and form spaces 40 between the cylindrical coating tool 17 and the cylindrical base fabric 18. Also, each single unit 2
On the inner circumferential surfaces of the inner circumferential walls 30 and 31 of Nos. 0 and 21 facing the shaft pipe 11, protrusions 41 parallel to the axial direction are protruded at appropriate intervals in the circumferential direction. is formed between.
端末ボス23は軸管11に密接して相対回転す
るもので、エルボ12の内端に回転可能に装着し
た袋ナツト43と螺嵌する事により、軸管11に
対する軸方向移動が止められている。前記袋ナツ
ト43は、端末ボス23のフランジ部35との間
で筒状塗装具17における筒状基布18の遊端部
18aを挾着固定する押え盤44及び押しリング
45を軸方向に押圧する。前記筒状基布18の遊
端部18aにはゴム紐が環状に通されている。 The terminal boss 23 rotates relative to the shaft tube 11 in close contact with the shaft tube 11, and is prevented from moving in the axial direction with respect to the shaft tube 11 by screwing into a cap nut 43 rotatably attached to the inner end of the elbow 12. . The cap nut 43 presses in the axial direction a presser plate 44 and a press ring 45 that clamp and fix the free end 18a of the cylindrical base cloth 18 of the cylindrical coating tool 17 between the flange portion 35 of the terminal boss 23. do. A rubber cord is looped through the free end 18a of the cylindrical base fabric 18.
次に前記ダイヤフラム式レシプロポンプ2を第
6図に基づいて説明すると、吸入口46と吐出口
47との間の並列2流路48,49中に、夫々2
段のボールバルブ50,51及び52,53を介
装し、連動軸54によつて連結されたダイヤフラ
ム55,56により区画された2組の室57,5
8及び59,60の内、外側の室57,59を、
前記2段のボールバルブ50,51間及び52,
53間において並列2流路48,49に流路6
1,62を介して接続し、エアーコンプレツサー
3からの圧力空気4を自動切替弁63を介して2
つの内側の室58,60に交互に供給するように
構成している。前記自動切替弁63は図示のよう
に、室60に圧力空気4を供給すると共に室58
を大気に開放する状態とその逆の状態とに、連動
軸54の行程終端において交互に切替えられるよ
うに、該連動軸54に連動連結されている。従つ
て室57,59が、圧力空気4を受けて運動する
ダイヤフラム55,56によつて交互に圧縮、膨
脹し、膨脹時には、開路となるボールバルブ50
又は52によつて塗料槽5内の塗料が塗料吸入管
6、吸入口46、及び流路48,61又は49,
62を介して室57又は59に吸入され、次に室
57又は59が圧縮されたとき、閉路となるボー
ルバルブ50又は52によつて室57又は59内
の塗料が流路60,48又は62,49を介して
吐出口47へ圧送される。 Next, the diaphragm type reciprocating pump 2 will be explained based on FIG.
Two sets of chambers 57, 5 partitioned by diaphragms 55, 56 connected by an interlocking shaft 54 with stage ball valves 50, 51 and 52, 53 interposed therein.
8 and 59, 60, the outer chambers 57, 59,
between the two-stage ball valves 50, 51 and 52;
The flow path 6 is connected to the two parallel flow paths 48 and 49 between 53 and 53.
1 and 62, and the pressurized air 4 from the air compressor 3 is connected to 2 through the automatic switching valve 63.
The two inner chambers 58 and 60 are alternately supplied. The automatic switching valve 63 supplies pressurized air 4 to the chamber 60 and also supplies the chamber 58 as shown in the figure.
It is interlocked and connected to the interlocking shaft 54 so that it can be alternately switched between a state in which the air is exposed to the atmosphere and the opposite state at the end of the stroke of the interlocking shaft 54. Therefore, the chambers 57 and 59 are alternately compressed and expanded by the diaphragms 55 and 56 that move in response to the pressurized air 4, and when the chambers 57 and 59 are expanded, the ball valve 50 is opened.
or 52, the paint in the paint tank 5 is transferred to the paint suction pipe 6, the suction port 46, and the flow path 48, 61 or 49,
62 into the chamber 57 or 59, and then when the chamber 57 or 59 is compressed, the paint in the chamber 57 or 59 is drawn into the flow path 60, 48 or 62 by the ball valve 50 or 52 which becomes a closed path. , 49 to the discharge port 47.
ローラー式塗装器1に付属の開閉弁8を、押ボ
タン10を押して開く事により、ポンプ2から圧
送される塗料は、圧送管7、ハンドル9内の流
路、開閉弁8、支持杆兼用塗料供給管13、及び
エルボ12を介して軸管11内に供給され、各流
出口15より流出する。そしてこの塗料は、流出
路42,29を経てローラー本体16と筒状塗装
具17との間の空所40に流入する。この空所4
0において筒状塗装具17の内周全域に塗料が行
き渡り、そして基布18を貫流してブラシ層19
へ流出する。かかる状態でブラシ層19を被塗装
面に押し付けてローラー本体16を筒状塗装具1
7と共に転動させる事により、塗装が行なわれ
る。塗装を中断するときは、押ボタン10から指
を離して開閉弁8を閉じて軸管11への塗料の供
給を断てば良い。このとき、ポンプ2においてダ
イヤフラム55又は56により圧縮されつつある
室57又は59の塗料圧力が高まり、ダイヤフラ
ム55又は56を介して反対側にある空58又は
60の空気圧力と平衡する事になつて、ダイヤフ
ラム55,56が連動軸54と共に静止する。即
ちポンプ2が自動的にポンプ作用を停止する。 By pressing the push button 10 to open the on-off valve 8 attached to the roller-type atomizer 1, the paint is pumped from the pump 2 through the pressure pipe 7, the flow path in the handle 9, the on-off valve 8, and the paint that also serves as a support rod. It is supplied into the shaft tube 11 via the supply pipe 13 and the elbow 12, and flows out from each outlet 15. This paint then flows into the space 40 between the roller body 16 and the cylindrical coating tool 17 via the outflow channels 42 and 29. This empty space 4
At 0, the paint spreads over the entire inner circumference of the cylindrical paint tool 17, flows through the base fabric 18, and forms the brush layer 19.
leaks to. In this state, the brush layer 19 is pressed against the surface to be painted, and the roller body 16 is moved into the cylindrical coating tool 1.
Coating is carried out by rolling it together with 7. When painting is to be interrupted, all that is required is to release the push button 10, close the on-off valve 8, and cut off the supply of paint to the shaft tube 11. At this time, the paint pressure in the chamber 57 or 59 being compressed by the diaphragm 55 or 56 in the pump 2 increases and becomes equal to the air pressure in the chamber 58 or 60 on the opposite side via the diaphragm 55 or 56. , the diaphragms 55 and 56 stand still together with the interlocking shaft 54. That is, the pump 2 automatically stops pumping.
本発明は以上のように実施し得るものであり、
その特徴は空気圧駆動のダイヤフラム式レシプロ
ポンプにて塗料槽内の塗料をローラー式塗装器
に、塗料圧力の脈動吸収手段を介さずに直接圧送
し、この塗装器には、筒状塗装具に内嵌する回転
ローラー本体の周囲に前記筒状塗装具の内面に当
接して当該筒状塗装具を支持する突条部を突設し
て、隣合う突条部間に於いて前記回転ローラー本
体と筒状塗装具との間に空所を形成し、この空所
にて前記ポンプによる塗料圧力の脈動を吸収せし
めると共に、前記塗装器のハンドルに設けた開閉
弁により塗料流路を開閉し、閉路時には前記ポン
プのダイヤフラム両側室において駆動用空気圧と
塗料圧力とを平衡させてポンプ作用を停止させる
点にある。 The present invention can be implemented as described above,
Its feature is that it uses a pneumatically driven diaphragm reciprocating pump to directly feed the paint in the paint tank to the roller-type paint device without going through any means to absorb paint pressure pulsations. A protrusion is provided protrudingly around the rotating roller body to be fitted, and supports the tubular coating tool by contacting the inner surface of the cylindrical coating tool, and between adjacent protrusions, the rotating roller main body and A space is formed between the cylindrical paint tool and this space absorbs the pulsation of paint pressure caused by the pump, and the paint flow path is opened and closed by an on-off valve provided on the handle of the paint tool. Sometimes, the pump action is stopped by balancing driving air pressure and paint pressure in both chambers of the diaphragm of the pump.
このような本発明によるローラー式塗装器への
塗料圧送方法によれば、ポンプの吸入管が投入さ
れた塗料槽(塗料罐を兼用し得る)に適時塗料を
補給し、又は前記吸入管を塗料の充満した別の塗
料罐に入れ換えるだけで、ロータリー式ポンプで
は圧送できないような塗料でもダイヤフラム式レ
シプロポンプに、よりローラー式塗装器へ良好に
圧送して塗装作業を中断する事なく連続的に行な
える。しかもレシプロ式ポンプであるから吐出塗
料圧力は脈動変化するが、この脈動変化を吸収す
る特別な付属装置を併用しなくとも、ローラー式
塗装器の回転ローラー本体16と筒状塗装具17
との間に形成した空所40に塗料が拡散流動する
事により塗料圧力の脈動変化を十分に吸収せし
め、ポンプからの塗料吐出圧力が脈動変化する事
に原因する塗装むらを確実に解消せしめ得るので
ある。又、ローラー式塗装器のハンドルに設けた
開閉弁8を閉じる事により、ポンプのダイヤフラ
ム両側室57,58又は59,60において駆動
用空気圧と塗料圧力とを平衝させてポンプ作用を
自動停止させるのであるから、前記開閉弁8に連
動するスイツチや長い配線、或いは圧力スイツチ
が不要であり、前記の塗料圧力脈動変化を吸収す
る手段、例えば蓄圧タンクが不要である事と相俟
つて非常に安価に実施し得ると共に、圧力スイツ
チの塗料圧力検出部や前記蓄圧タンク内に塗料が
滞溜凝固するのを防止するための保守作業も不要
となる。 According to the method for pumping paint to a roller-type paint applicator according to the present invention, paint can be replenished in a timely manner to the paint tank (which can also be used as a paint can) into which the suction pipe of the pump is inserted, or the suction pipe can be used to By simply replacing the paint can with another one filled with paint, the diaphragm reciprocating pump can effectively pump paint that cannot be pumped with a rotary pump to a roller paint sprayer, allowing continuous painting without interruption. Ru. Furthermore, since it is a reciprocating pump, the pressure of the discharged paint changes in pulsations, but the rotating roller main body 16 and cylindrical painting tool 17 of the roller-type atomizer do not require the use of a special accessory device to absorb this pulsation change.
By diffusing and flowing the paint into the space 40 formed between the pump and the pump, pulsating changes in paint pressure can be sufficiently absorbed, and uneven coating caused by pulsating changes in the paint discharge pressure from the pump can be reliably eliminated. It is. In addition, by closing the on-off valve 8 provided on the handle of the roller-type atomizer, the driving air pressure and the paint pressure are balanced in the diaphragm chambers 57, 58 or 59, 60 on both sides of the pump, and the pump action is automatically stopped. Therefore, there is no need for a switch linked to the on-off valve 8, long wiring, or a pressure switch, and there is no need for a means to absorb the pulsating changes in paint pressure, such as a pressure accumulator tank, making it very inexpensive. In addition, there is no need for maintenance work to prevent paint from accumulating and coagulating in the paint pressure detection section of the pressure switch or the pressure accumulating tank.
以上の如く本発明は、空所40を備えたローラ
ー式塗装器1と、空気圧駆動のダイヤフラム式レ
シプロポンプ2とを組合せる事によつて、従来実
用化されていなかつたローラー式塗装器へのポン
プによる塗料の直接圧送を極めて経済的に可能な
らしめたもものであつて、塗装業界に貢献すると
ころ甚大である。 As described above, the present invention combines the roller-type atomizer 1 equipped with the cavity 40 and the pneumatically driven diaphragm-type reciprocating pump 2, thereby making it possible to adapt the roller-type atomizer to a roller-type atomizer, which has not been put to practical use in the past. This technology has made it possible to directly pump paint using a pump extremely economically, and it will make a huge contribution to the painting industry.
尚、空所40を形成するための構成を含めてロ
ーラー式塗装器の、特に回転ローラー本体16の
構成は実施例に限定されない。又、ポンプ2の構
成も実施例に限定されない。 Incidentally, the configuration of the roller-type atomizer, especially the configuration of the rotating roller main body 16, including the configuration for forming the void space 40, is not limited to the embodiment. Furthermore, the configuration of the pump 2 is not limited to the embodiment.
第1図は全体の説明図、第2図はローラー式塗
装器を示す一部縦断正面図、第3図は同ローラー
本体一部分の縦断面図、第4図は第2図のA―A
線断面図、第5図は第2図のB―B線断面図、第
6図はポンプの構成説明図である。
1……ローラー式塗装器、2……ダイヤフラム
式レシプロポンプ、3……エアーコンプレツサ
ー、5……塗料槽、8……開閉弁、11……軸
管、16……回転ローラー本体、17……筒状塗
装具、29,42……塗料流出路、40……空
所、46……吸入口、47……吐出口、50〜5
3……ボールバルブ、55,56……ダイヤフラ
ム。
Fig. 1 is an explanatory diagram of the whole, Fig. 2 is a partial longitudinal sectional front view showing the roller type atomizer, Fig. 3 is a longitudinal sectional view of a portion of the roller main body, and Fig. 4 is A-A in Fig. 2.
5 is a sectional view taken along the line BB in FIG. 2, and FIG. 6 is an explanatory diagram of the structure of the pump. 1...Roller type paint device, 2...Diaphragm type reciprocating pump, 3...Air compressor, 5...Paint tank, 8...Opening/closing valve, 11...Shaft pipe, 16...Rotating roller body, 17 ... Cylindrical paint tool, 29, 42 ... Paint outflow path, 40 ... Vacancy, 46 ... Suction port, 47 ... Discharge port, 50-5
3... Ball valve, 55, 56... Diaphragm.
Claims (1)
にて塗料槽内の塗料をローラー式塗装器に、塗料
圧力の脈動吸収手段を介さずに直接圧送し、この
塗装器には、筒状塗装具に内嵌する回転ローラー
本体の周囲に前記筒状塗装具の内面に当接して当
該筒状塗装具を支持する突条部を突設して、隣合
う突条部間に於いて前記回転ローラー本体と筒状
塗装具との間に空所を形成し、この空所にて前記
ポンプによる塗料圧力の脈動を吸収せしめると共
に、前記塗装器のハンドルに設けた開閉弁により
塗料流路を開閉し、閉路時には前記ポンプのダイ
ヤフラム両側室において駆動用空気圧と塗料圧力
とを平衡させてポンプ作用を停止させる事を特徴
とするローラー式塗装器への塗料圧送方法。1 A pneumatically driven diaphragm type reciprocating pump directly pumps the paint in the paint tank to a roller type paint device without going through a paint pressure pulsation absorption means, and this paint device has a cylindrical paint tool fitted inside. A protrusion is protrudingly provided around the rotating roller main body to abut against the inner surface of the cylindrical coating tool and support the cylindrical coating tool, and between adjacent protrusions, the rotating roller main body and the cylindrical A space is formed between the painting device and the paint pressure pulsation caused by the pump is absorbed by this space, and the paint flow path is opened and closed by an on-off valve provided on the handle of the painting device, and when the path is closed, the paint flow path is A method for pumping paint to a roller-type paint applicator, characterized in that driving air pressure and paint pressure are balanced in both chambers of the diaphragm of the pump, and the pump action is stopped.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP16715380A JPS5791773A (en) | 1980-11-27 | 1980-11-27 | Method for sending paint to roller type painting apparatus under pressure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP16715380A JPS5791773A (en) | 1980-11-27 | 1980-11-27 | Method for sending paint to roller type painting apparatus under pressure |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS5791773A JPS5791773A (en) | 1982-06-08 |
JPS621792B2 true JPS621792B2 (en) | 1987-01-16 |
Family
ID=15844399
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP16715380A Granted JPS5791773A (en) | 1980-11-27 | 1980-11-27 | Method for sending paint to roller type painting apparatus under pressure |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS5791773A (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS57207573A (en) * | 1981-06-15 | 1982-12-20 | Kimurashin Kk | Painting method using low viscosity paint |
JPS6275880U (en) * | 1985-10-29 | 1987-05-15 | ||
DE19742888A1 (en) * | 1997-09-29 | 1999-04-01 | Wagner Gmbh J | Application device |
KR20030033288A (en) * | 2001-10-20 | 2003-05-01 | (주)이도전자 | A hand power supply installation of a paint |
-
1980
- 1980-11-27 JP JP16715380A patent/JPS5791773A/en active Granted
Also Published As
Publication number | Publication date |
---|---|
JPS5791773A (en) | 1982-06-08 |
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