M420367 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種超音波震蓋清洗機,尤其是一 過單次清洗作業即可充份洗淨工件各側向表面之創新 波震盪清洗機傾斜式容置筒結構型態設計者。 . 【先前技術】 按,一般非易碎工件(如五金零件)要利用清洗 Φ 行清洗作業時,在清洗筒中並不需加以定位,而且是 工件自由地在槽内充分翻滾變動,使工件_的每個面都 得清洗;然而,對於一些易碎的工件(如陶瓷或其他 物)而言,即無法採用前述清洗機,而必須採用一種 波震盈清洗機來進行清洗,而此種超音波震盥清洗機 清洗工件係呈定位狀態。 所述超音波震盪清洗機之結構型.態,大部份係於 體内部樞組一貫設複數孔的容置筒,令該槽體内部充 φ 洗液後,令該容置筒浸入該槽體内部,且該槽體底部 . 一超音波產生裝置,而該容置筒部係定位配置有若干 ,當該容置筒樞轉翻滾時,該内部的工件即同時受到 產生裝置的超音波作用,以令污物剝離工件,然而, 超音波震盪清洗機於實際應用經驗中發現仍存在下述 點: 由於習知超音波震盪清洗機的容置筒係呈水平軸 組於.槽體内壁二側之狀態,故當該容置筒翻滾枢轉時 沿著一水平轴旋轉狀態,所以該震盪產生裝置所產生 種透 超音 機進 要讓 能獲 易碎 超音 的受 一槽 填清 設有 工件 震盪 此種 問題 向枢 亦呈 的超 M420367 音波僅能對工件的上下向表靣起作周,至於工件的左右側 向表靣根本無法受到清洗,如此造成業者必須透過二次清 洗(即改變工件置向後再清洗一次)才能完全洗淨工件之 情況,如此顯然造成清洗作業工時及成本徒增之問題與缺 弊。 是以,針對上述習知超音波震盪清洗機所存在之問題 * 點,如何開發一種更具理想實用性之創新結構,實使用消 • 費者所殷切企盼,亦係相關業者須努力研發突破之目標及 方向。 有鑑於此,創作人本於多年從事相關產品之製造開發 與設計經驗,針對上述之目標,詳加設計與審慎評估後, 終得一確具實用性之本創作。 【新型内容】 即,本創作之主要目的,係在提供一種超音波震盪清 洗機之傾斜式容置筒;其所欲解決之問題點,係針對習知 ® 工件震蓋.清洗機仍舊存在 '無法在單次清洗作業中充分清洗 到工件各側表面而致徒增清洗作業工時及成本之問題點加 以改良突破; 本創作解決問題之技術特點,係包括:該傾斜式容置 筒係組設於超音波震盪清洗機之槽體框座内壁二側所設二 軸框端,該傾斜式容置筒内部形成有容置空間,傾斜式容 置筒外壁設有複數貫孔貫通該容置空間;且該傾斜式容置 筒二側設有與水平軸線呈傾斜角度的枢轉軸,該二枢轉軸 對應樞設組裝於該槽體内部的二軸樞端,以使該傾斜式容 4 M420367 置筒得以傾斜角度軸枢於 其中一樞轉軸連設一驅動 旋轉運動;又該傾斜式容 位架以將欲清洗之工件加 本創作對照先前技術而言 由於該傾斜式容置筒 動,藉此令震盪產生裝置 ' 向表面起作用之外,工件 ®角度時受到清洗,故本創 淨工件各側向表面,達到 率之實用進步性與較佳產 【實施方式】 請參閱第1至6圖所 之傾斜式容置筒之較佳實 用’在專利申請上並不受 ®式容置筒30在運轉時,係 右各側向達到充份的洗蘇 係包括下述構成: 一槽體10,内部形成 框座11及底部,框座11内 樞端13,且該槽體10之一 其中該槽體10内部可供裝 一震盪產生裝置50, 該震盪產生裝置50所產生 該槽體内部,且該傾斜式容置筒 裝置以帶動傾斜式容置筒呈傾斜 置筒之容置空間内部設有工件定 以定位;藉此創新獨特設計,使 ,大致可達到如下功效: 旋轉時係進行傾斜軸向之旋轉運 之超音波除了能夠對工件的上下 的左右側向表面同樣能夠在傾斜 作透過單次清洗作業即可充分洗 大幅提昇工件清洗品質與清洗效 業利用效益。 示,係本創作超音波震盪清洗機 施例,惟此等實施例僅供說明之 此結構之限制,本創作所揭傾斜 可令欲清洗之工件40的前後及左 與洗淨效果,該傾斜式容置筒30 一清洗空間12,周側圍設形成有 壁二側預定位置設有相對位的軸 側框座11内部形成有驅動箱15, 填清洗液; 其係設於該槽體10之底部,而令 的震盪朝上噴射,其中該震盪產 M420367 生裝置50係為超音波60震 (20 Hz〜20KHz )數倍甚至 能。在液體裡,以每秒數 極小的氣泡,就稱為空洞 態,所以當氣泡破裂時, 波,可將污物剝離物體, 小氣泡再侵入此間隙,破 地循環,使污物剝落,達 ®結構係為習知故不加以贅 一傾斜式容置筒30, 與該容置空間31内外貫設 容置筒30浸入槽體10的清 斜式容置筒30以清洗内部 有與水平轴線呈傾斜角度 樞設組裝於該槽體10内部 置筒30得以傾斜角度軸樞 ^ 置筒30其中一樞轉轴33係 斜式容置筒30呈旋轉運動 一驅動裝置20,係設 包含有一驅動馬達21、一 24、一驅動轴27、二相對 輪26所相對構組而成;復 動輪22,復藉由一皮帶23 24,而該受動輪24係藉由 運動,又該驅動轴27 —側 蘯,超晋波60震盪超過人類聽覺 百倍的周波震動,即超音波60熱 萬次反覆地震動,所產生或消失 現象,而此氣泡有時會成真空狀 會產生極大音壓,形作一股衝擊 而兩者之間產生間隙後,其它的 裂後再次形成一股衝擊波,如此 到洗淨;至於該震盪產生裝置50 述; 其内部形成有容置空間31,外壁 有複數貫孔303 ,以使該傾斜式 洗液時,清洗液可直接滲入該傾 ;繼而該傾斜式容置筒30二側設 的樞轉軸33,二樞轉軸33係對應 的二軸樞端13,以使該傾斜式容 於該槽體10内部,且.該傾斜式容 連設一驅動裝置20,用以帶動傾 i 於該槽體10之驅動箱15内部,其 驅動輪22、一皮帶23 ' —受動輪 軸框部14、一傳動輪25及一從動 其中,該驅動馬達21係帶動一驅 套轉連動該驅動輪22及該受動輪 一驅動軸27及二側軸樞部14樞轉 係進一步連設運轉有一傳動輪25 M420367 ,令該傳動輪25與該驅動軸27呈同步旋轉運動,而該傳動 輪25係連動一從動輪26,該從.動輪26係同軸組裝於該樞轉 軸33,以使該從動輪26係同步帶動該傾斜式容置筒30旋轉 運動; 再者,該傾斜式容置筒30係為概分為可相互樞轉掀啓 的第一筒座301及第二筒座302 ,且該第一筒座301及第 二筒座302之相對掀啓位置係設有一扣合部32,其中該扣 ' 合部32係包含有一枢扣桿321 、枢扣端322及一限位扣3 ® 23,以使該傾斜式容置筒30掀啓後關閉時扣合使用; 至少一工件定位架34,各工件定位架34係穩固配置定 位於該傾斜式容置筒30之容置空間31内部,其中各工件定 位架34係並列配置於該傾斜式容置筒30之容置空間31内部 的限位架35之間,且該工件定位架34内部並設有定位面3 41,其中工件40 (如陶瓷或玻璃)放置於兩個工件定位架 34之間,藉由工件定位面.341的穩固定位,而可防止工件 40 (如陶瓷或玻璃)因轴轉翻動時發生碰撞碎裂。 功效說明: ' 本創作功效增進之事實如下: 本創作所揭「超音波震盪清洗機之傾斜式容置筒」主 要藉由該傾斜式容置筒旋轉時能夠進行軸向傾斜式旋轉運 動之技術特徵,令震盪產生裝置之超音波除了能夠對工件 的上下向表面起作用之外,工件的左右側向表面同樣能夠 在傾斜角度時受到清洗,.故本創作透過單次清洗作業即可 充分洗淨工件各側向表面,達到大幅提昇工件清洗品質與 7 M420367 清洗效率之實用進步性與較佳產業利用效益3 動作說明: 本創作動作說明如下: 藉由傾斜式容置筒旋轉時係 令震盪產生裝置之超音波除了 作用之外,工件的左右側向表 到清洗,故本創作透過單次清 側向表面,達到大幅提昇工件 上述實施例所揭示者係藉 雖透過特定的術語進行說明, 之專利範圍;熟悉此項技術領 之精神與原則後對其進行變更 此等變更與修改,皆應涵蓋於 定之範疇中。 進行傾斜軸向.之旋轉運動, 能夠對工件的上下向表面起 面同樣能夠在傾斜角度時受 洗作業即可充分洗淨工件各 清洗品質與清洗效率。 以具體說明本創作,且文中 當不能以此限定本新型創作 域之人士當可在瞭解本創作 與修改而達到等效目的,而 如后所述申請專利範圍所界 M420367 【圖式簡單說明】 第1圖:係本創作超音波震盪清洗機之剖靣示意圖,其係 顯示該槽體與該傾斜式容置筒之相對位置。 第2圖:係本創作傾斜式容置筒之組合立體圖。 第3圖:係本創作傾斜式容置筒之分解立體圖。 第4圖:係本創作傾斜式容置筒工件定位架與工件之組合 剖視圖。. 第5圖:係本創作超音波震盪清洗機之剖面示意圖之實施 例圖,其係顯示該超音波震盪之實施態樣。 第6圖:係本創作工件定位架與工件超音波清洗之實施例 圖。 【主要元件符號說明】 槽體 框座 12 13 14 15 2 0 2 1 2 2 清洗空間M420367 V. New description: [New technical field] This is a kind of ultrasonic shock cover cleaning machine, especially the innovative wave shock cleaning machine which can fully wash the lateral surfaces of the workpiece after a single cleaning operation. Tilt-type accommodating cylinder structure type designer. [Prior Art] According to the general non-fragile workpiece (such as hardware parts), it is necessary to use the cleaning Φ line cleaning operation, it does not need to be positioned in the cleaning cylinder, and the workpiece is freely tumbling in the groove to make the workpiece _ Each face must be cleaned; however, for some fragile workpieces (such as ceramics or other things), the aforementioned cleaning machine cannot be used, and a wave shock cleaning machine must be used for cleaning. The ultrasonic shock cleaning machine cleans the workpiece in a positioned state. The structure of the ultrasonic oscillating cleaning machine is mostly in the inner hub of the body, and the accommodating cylinder of the plurality of holes is always provided, so that the inside of the tank is filled with φ washing liquid, so that the accommodating cylinder is immersed in the tank. The inside of the body, and the bottom of the tank body. An ultrasonic generating device, and the accommodating cylinder portion is disposed in a plurality of positions. When the accommodating cylinder is pivoted and tumbling, the internal workpiece is simultaneously subjected to ultrasonication of the generating device. In order to let the dirt peel off the workpiece, however, the ultrasonic oscillating cleaning machine has found that the following points still exist in the practical application experience: Since the accommodating cylinder of the conventional ultrasonic oscillating cleaning machine has a horizontal axis group on both sides of the inner wall of the tank State, so that when the accommodating cylinder is pivoted and rotated along a horizontal axis, the oscillating generating device generates a kind of transmissive ultrasonic machine that allows the fragile supersonic to be filled by a slot. The super-M420367 sound wave that oscillates this problem can only be used to lift the up and down direction of the workpiece. As for the left and right side of the workpiece, the surface cannot be cleaned at all, which causes the manufacturer to pass the secondary cleaning (ie, change It is only necessary to clean the workpiece after it has been placed and then cleaned. This obviously causes problems and shortcomings in the cleaning work hours and costs. Therefore, in view of the problems in the above-mentioned conventional ultrasonic oscillating cleaning machine, how to develop an innovative structure that is more ideal and practical, and the use of consumer and consumer eagerly awaits, and the relevant industry must strive to develop breakthrough targets and direction. In view of this, the creator has been engaged in the manufacturing development and design experience of related products for many years. After detailed design and careful evaluation of the above objectives, the creator will have a practical and practical creation. [New content] That is, the main purpose of this creation is to provide a tilt-type accommodating cylinder for an ultrasonic oscillating cleaning machine; the problem to be solved is for the conventional о workpiece shock cover. The cleaning machine still exists' It is impossible to fully clean the surface of each side of the workpiece in a single cleaning operation, and the improvement of the man-hour and cost of the cleaning operation is improved. The technical features of the problem solving of the creation include: the inclined accommodating cylinder group The two-axis frame end disposed on two sides of the inner wall of the slot frame of the ultrasonic oscillating cleaning machine has an accommodating space formed therein, and the outer wall of the inclined accommodating cylinder is provided with a plurality of through holes for the accommodating a pivoting shaft disposed at an oblique angle to the horizontal axis on the two sides of the inclined receiving cylinder, the two pivoting shafts correspondingly pivoting the two-axis pivot end assembled inside the trough body, so that the inclined type is 4 M420367 The tilting angle is pivoted to the pivot shaft of one of the pivot shafts; and the tilting receptacle is used to add the workpiece to be cleaned according to the prior art due to the tilting receptacle Therefore, the shock generating device acts on the surface, and the workpiece® is cleaned at the angle of the workpiece. Therefore, the lateral surface of the workpiece is created, and the practical progress and the yield of the workpiece are achieved. [Embodiment] The preferred embodiment of the inclined accommodating cylinder of Figures 1 to 6 is not subject to the styling cartridge 30 when it is in operation, and the right side of the lavatory accommodating cylinder 30 is fully compliant. The inside of the tank body 10 is provided with a sway generating device 50, and the oscillating generating device 50 is formed. The inside of the tank body, and the inclined accommodating cylinder device is provided with a workpiece to be positioned inside the accommodating space of the slanting accommodating cylinder, and the innovative design is adopted to achieve the following effects: In the case of rotation, the ultrasonic wave is rotated in the tilting direction. In addition to the upper and lower lateral surfaces of the workpiece, the upper and lower lateral surfaces of the workpiece can be fully washed in a single cleaning operation, and the cleaning quality and cleaning efficiency of the workpiece can be greatly improved.The present invention is for the purpose of explaining the structure of the ultrasonic oscillating cleaning machine. However, the embodiments are only for the limitation of the structure. The slanting of the present invention can make the front and rear and the left and the cleaning effect of the workpiece 40 to be cleaned. The accommodating cylinder 30 is a cleaning space 12, and the shaft side frame 11 having a predetermined position on both sides of the wall is formed on the circumference side, and a driving box 15 is formed inside the shaft side frame 11 and is filled with the cleaning liquid; At the bottom, the shock is sprayed upwards, and the shock-producing M420367 device 50 is supersonic 60 (20 Hz~20KHz) several times. In a liquid, a small number of bubbles per second is called a void state, so when the bubble breaks, the wave can peel off the object, and the small bubble then invades the gap, breaking the ground and causing the dirt to peel off. The structure of the structure is a conventional slanted accommodating cylinder 30, and the accommodating cylinder 30 is immersed in the accommodating cylinder 30 and immersed in the slanting accommodating cylinder 30 of the tank body 10 to clean the internal and horizontal axes. The wire is pivotally disposed at an inclined angle. The inner cylinder 30 is tilted at an angle to pivot the cylinder 30. One of the pivot shafts 33 is a rotary accommodating cylinder 30. The driving device 20 is rotated. The drive motor 21, a 24, a drive shaft 27, and two opposite wheels 26 are formed in opposite groups; the double-acting wheel 22 is retracted by a belt 23 24, and the driven wheel 24 is moved by the drive shaft 27 - Side squatting, super-Jinbo 60 shocks more than a hundred times of human hearing vibration, that is, the ultrasonic wave 60 heat repeatedly shocks, produces or disappears, and this bubble sometimes becomes a vacuum will produce a great sound pressure, the shape After a shock and a gap between the two, After the cracking, a shock wave is formed again, so as to be washed; as for the shock generating device 50; an accommodating space 31 is formed therein, and the outer wall has a plurality of through holes 303, so that the washing liquid can be used when the inclined washing liquid is used The tilting shaft 33 is disposed on the two sides of the tilting accommodating cylinder 30, and the two pivoting shafts 33 are corresponding to the two-axis pivoting end 13 so that the inclined type is accommodated inside the tank body 10, and A driving device 20 is disposed on the tilting device for driving the inside of the driving box 15 of the tank body 10. The driving wheel 22, a belt 23' - the driven wheel axle frame portion 14, a transmission wheel 25 and a driven device The driving motor 21 drives the driving wheel 22 and the driving wheel 22 and the driving shaft 27 and the two side pivot portions 14 to further pivotally connect a driving wheel 25 M420367, so that the driving wheel 25 The driving shaft 25 is synchronously rotated, and the driving wheel 25 is coupled to a driven wheel 26, and the driven wheel 26 is coaxially assembled to the pivot shaft 33, so that the driven wheel 26 synchronously drives the inclined receiving portion. The drum 30 is rotated; further, the inclined receiving cylinder 30 is The first cylinder base 301 and the second cylinder base 302 are pivotally pivoted to each other, and the first pivoting position of the first cylinder base 301 and the second cylinder base 302 is provided with a fastening portion 32. The buckle portion 32 includes a pivoting rod 321 , a pivoting end 322 and a limiting buckle 3 ® 23 for engaging the inclined receiving cylinder 30 when the opening and closing of the inclined receiving cylinder 30 is closed; at least one workpiece positioning frame 34 Each of the workpiece positioning frames 34 is disposed in the accommodating space 31 of the slanted accommodating cylinder 30. The workpiece locating frames 34 are arranged side by side in the accommodating space 31 of the slanted accommodating cylinder 30. Between the frame 35, and inside the workpiece positioning frame 34, a positioning surface 341 is provided, wherein a workpiece 40 (such as ceramic or glass) is placed between the two workpiece positioning frames 34, and the workpiece positioning surface 341 is stabilized. Positioning prevents the workpiece 40 (such as ceramic or glass) from colliding when it is turned over. Efficacy Description: 'The facts of this creative effect enhancement are as follows: The slanted accommodating cylinder of the ultrasonic oscillating cleaning machine is mainly used to perform the axial tilting rotary motion when the tilting accommodating cylinder is rotated. The feature makes the ultrasonic wave of the oscillating generating device not only be able to act on the vertical surface of the workpiece, but also the left and right lateral surfaces of the workpiece can be cleaned at the oblique angle. Therefore, the creation can be fully washed by a single cleaning operation. The lateral surface of the net workpiece can greatly improve the cleaning quality of the workpiece and the practical progress of 7 M420367 cleaning efficiency and the better industrial utilization efficiency. 3 Action Description: The description of the creation action is as follows: When the tilting accommodating cylinder rotates, it will oscillate In addition to the action of the ultrasonic wave of the generating device, the left and right sides of the workpiece are cleaned to the surface, so that the creation of the workpiece is greatly enhanced by a single clearing of the lateral surface. The above embodiments are disclosed by specific terms. The scope of patents; after familiarizing with the spirit and principles of this technology, the changes and modifications are changed. It should be covered in the scope of the definition. By rotating the tilting axis, it is possible to wash the workpiece with the cleaning quality and cleaning efficiency by washing the workpiece at the tilt angle. To specifically describe the creation, and those who cannot limit the creation domain of this novel in the text can achieve the equivalent purpose in understanding the creation and modification, and the application scope is M420367 as described later. Fig. 1 is a cross-sectional view showing the ultrasonic shock oscillating cleaning machine of the present invention, which shows the relative position of the groove body and the inclined accommodating cylinder. Fig. 2 is a perspective view of the combination of the slanted accommodating cylinder of the present invention. Fig. 3 is an exploded perspective view of the inclined accommodating cylinder of the present invention. Fig. 4 is a sectional view showing the combination of the workpiece positioning frame and the workpiece of the inclined accommodating cylinder. Fig. 5 is a diagram showing an example of a schematic diagram of a cross-sectional view of the ultrasonic vibration cleaning machine of the present invention, which shows an embodiment of the ultrasonic oscillation. Fig. 6 is a diagram showing an embodiment of the ultrasonic cleaning of the workpiece positioning frame and the workpiece. [Main component symbol description] Slot frame 12 13 14 15 2 0 2 1 2 2 Cleaning space
轴樞端 軸枢部 驅動箱 驅動裝置 驅動馬達 驅動輪 皮帶 受動輪 傳動輪 4 M420367 從動輪 驅動軸 傾斜式容置筒 第一筒座 第二筒座 貫孔 容置空間 扣合部 •樞扣桿 樞扣端 2 6 2 7 3 0 3 0 1 3 0 2 3 0 3 3 1 3 2 3 2 1 3 2 2 限位扣Shaft pivot shaft drive box drive drive motor drive wheel belt drive wheel drive wheel 4 M420367 Drive wheel drive shaft tilting accommodating cylinder first cylinder seat second cylinder seat through hole accommodating space fastening part • pivot rod Pivot button end 2 6 2 7 3 0 3 0 1 3 0 2 3 0 3 3 1 3 2 3 2 1 3 2 2 Limit button
樞轉軸 工件定位架 定位面 限位架 4 工件 震盪產生裝置 超音波 4 0 5 0 6 0 10Pivot axis Workpiece positioning frame Positioning surface Limiting frame 4 Workpiece Oscillation generating device Ultrasonic wave 4 0 5 0 6 0 10