TWI763259B - Press solution bottle - Google Patents

Press solution bottle Download PDF

Info

Publication number
TWI763259B
TWI763259B TW110101650A TW110101650A TWI763259B TW I763259 B TWI763259 B TW I763259B TW 110101650 A TW110101650 A TW 110101650A TW 110101650 A TW110101650 A TW 110101650A TW I763259 B TWI763259 B TW I763259B
Authority
TW
Taiwan
Prior art keywords
airtight
ring
solution bottle
diameter section
button
Prior art date
Application number
TW110101650A
Other languages
Chinese (zh)
Other versions
TW202229130A (en
Inventor
何瑞生
Original Assignee
何瑞生
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by 何瑞生 filed Critical 何瑞生
Priority to TW110101650A priority Critical patent/TWI763259B/en
Application granted granted Critical
Publication of TWI763259B publication Critical patent/TWI763259B/en
Publication of TW202229130A publication Critical patent/TW202229130A/en

Links

Images

Landscapes

  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)

Abstract

本發明係一種按壓式溶液瓶,包括有一溶液瓶本體、一第一氣密環、一第二氣密環、一後套環、一按鈕、一氣密控制桿及一彈簧,該溶液瓶本體內部為一填料空間,該第一氣密環及第二氣密環係設置於填料空間並與溶液瓶本體內壁為氣密設置,且第二氣密環得受按鈕按壓時控制為氣密或導通狀態,透過氣壓連動第一氣密環推移,以壓縮溶液瓶本體內部溶劑來達到出料效果。 The invention relates to a press-type solution bottle, comprising a solution bottle body, a first airtight ring, a second airtight ring, a rear collar, a button, an airtight control rod and a spring. The part is a packing space, the first airtight ring and the second airtight ring are arranged in the packing space and are airtight with the inner wall of the solution bottle body, and the second airtight ring must be controlled to be airtight when the button is pressed Or in the conduction state, the first airtight ring is moved through the air pressure to compress the solvent inside the solution bottle body to achieve the discharge effect.

Description

按壓式溶液瓶 Press solution bottle

本發明係關於一種按壓式溶液瓶,詳而言之係一種應用於小型握拿式溶液瓶之創作,且該溶液瓶內腔具有進氣推移裝置,能以有效率且便利的方式將溶劑擠出。 The present invention relates to a press-type solution bottle, in detail, it is a creation applied to a small grip-type solution bottle, and the inner cavity of the solution bottle is provided with an air intake pushing device, which can squeeze the solvent in an efficient and convenient way. out.

按,習式乳液等液態化妝品,多充填在一化妝瓶中,該化妝瓶之瓶口上並螺合有一按壓噴頭,按壓噴頭再以一管體伸入於化妝瓶內部,當在使用時,即透過手部在按壓噴頭上施力按壓,讓管體能產生吸力,以將瓶內之化妝品汲取出。 Liquid cosmetics such as pressing, habitual lotion, etc. are mostly filled in a cosmetic bottle. The bottle mouth of the cosmetic bottle is screwed with a pressing nozzle, and the pressing nozzle extends into the cosmetic bottle with a tube body. When in use, that is, Press hard on the pressing nozzle with your hand, so that the tube body can generate suction, so as to draw out the cosmetics in the bottle.

然而,習用按壓式汲取式化妝瓶具有諸多缺點,為求化妝瓶能平穩的擺放,其底部一般多設呈平面狀,但若化妝品溶液快要被取用殆盡,該平面狀之底部反而會提供殘留溶液過度擴散的機會,讓化妝品溶液無法匯集到一可被吸取之高度,要汲取殘留的溶液將相對困難,若要乾脆將殘留的溶液連同化妝瓶一起丟棄,又會形成過度之浪費,該將容易讓消費者陷入兩難之困境中。 However, the conventional push-and-draw cosmetic bottle has many disadvantages. In order to ensure that the cosmetic bottle can be placed stably, the bottom of the cosmetic bottle is generally flat. However, if the cosmetic solution is about to be used up, the flat bottom will be Provide an opportunity for excessive diffusion of residual solution, so that the cosmetic solution cannot be collected to a height where it can be absorbed. It will be relatively difficult to absorb the residual solution. If the residual solution is simply discarded together with the cosmetic bottle, it will cause excessive waste. This will easily put consumers into a dilemma.

再者,按壓汲取式化妝瓶其按壓噴頭內部係具有金屬材質之彈簧,而溶液受按壓汲取時係會流經彈簧部位,若化妝瓶內部所填裝的溶劑酸鹼值過高,在長期接觸金屬材質的住況下,則容易造成溶劑變質等缺點。 Furthermore, the press-and-draw cosmetic bottle has a metal spring inside its pressing nozzle, and when the solution is pressed and drawn, it will flow through the spring. In the case of metal materials, it is easy to cause defects such as solvent deterioration.

鑒於習用按壓式汲取式化妝瓶具有諸多缺點,本發明人乃藉由多年從事相關產業的開發經驗,針對現有溶液瓶所面臨的問題深入探討,並積極尋求解決之道,經過長期努力之研究與發展,終於成功的創作出一種按壓式溶液瓶,詳而言之係一種應用於小型握拿式溶液瓶之創作,且該溶液瓶內腔具有進氣推移裝置,能以有效率及便利的方式將溶劑擠 出,且其按壓裝置內部之彈簧結構並未接觸溶劑,能避免溶劑受影響而變質。 In view of the fact that the conventional push-and-draw cosmetic bottle has many shortcomings, the inventor of the present invention has conducted in-depth discussions on the problems faced by the existing solution bottles with years of development experience in related industries, and actively sought solutions. Development, and finally successfully created a press-type solution bottle, which is a kind of creation applied to a small grip-type solution bottle, and the inner cavity of the solution bottle has an air intake pushing device, which can be used in an efficient and convenient way. squeeze the solvent out, and the spring structure inside the pressing device does not contact the solvent, which can prevent the solvent from being affected and deteriorated.

本發明係關於一種按壓式溶液瓶,其係一種應用於小型握拿式溶液瓶之創作,且該溶液瓶內腔具有進氣推移裝置,能以有效率及便利的方式將溶劑擠出。 The invention relates to a push-type solution bottle, which is a creation applied to a small grip-type solution bottle, and the solution bottle has an air intake pushing device in its inner cavity, which can squeeze out the solvent in an efficient and convenient manner.

為達到前述創作目的,本發明「按壓式溶液瓶」係包括有一溶液瓶本體、一第一氣密環、一第二氣密環、一後套環、一按鈕、一氣密控制桿及一彈簧;該溶液瓶本體前端處係形成有一出料嘴,該溶液瓶本體內部為一填料空間,該第一氣密環及第二氣密環係設置於填料空間並與溶液瓶本體內壁為氣密設置,該第二氣密環中心處係形成有一內槽部,且於內槽部其槽底中心處係形成有一供空氣流通於第二氣密環兩側之穿孔,該第二氣密環於內槽部開口內側處係形成有一圈凸環,該後套環係插設於溶液瓶本體後端處,且該後套環於溶液瓶本體內部係形成有一圈內凸環,該按鈕係設置於後套環內圈處,且該按鈕外徑及後套環內徑係保留有空氣流通之間隙; 氣密控制桿係具有一端係穿過內凸環並與按鈕設置之窄徑段,該窄徑段徑寬係略小於內凸環而保留有空氣流通的間隙,該氣密控制桿係具有一迫入設置於內槽部之寬徑段,內槽部係預留有一供寬徑段於穿孔與凸環間位移的行程空間,該寬徑段外徑係形成有一氣流槽,該寬徑段推抵於穿孔時係與穿孔呈現氣密狀態,而寬徑段拉抵於凸環時係透過氣流槽與凸環呈現通氣狀態,該彈簧係環繞氣密控制桿型態且兩端分別彈抵於內凸環及按鈕,當按鈕未按壓時,該氣密控制桿其寬徑段係受彈簧影響常態拉抵於凸環一端 In order to achieve the above-mentioned creative purpose, the "press-type solution bottle" of the present invention includes a solution bottle body, a first airtight ring, a second airtight ring, a rear collar, a button, an airtight control rod and a spring. ; A discharge nozzle is formed at the front end of the body of the solution bottle, the interior of the body of the solution bottle is a packing space, and the first airtight ring and the second airtight ring are arranged in the filling space and are in contact with the inner wall of the solution bottle body. Airtight arrangement, an inner groove is formed at the center of the second airtight ring, and a perforation for air to circulate on both sides of the second airtight ring is formed at the center of the groove bottom of the inner groove. The sealing ring is formed with a ring of convex rings at the inner side of the opening of the inner groove, the rear collar is inserted at the rear end of the solution bottle body, and the rear collar is formed with a circle of inner convex rings inside the solution bottle body, The button is arranged at the inner ring of the rear collar, and the outer diameter of the button and the inner diameter of the rear collar retain a gap for air circulation; The airtight control rod system has a narrow diameter section with one end passing through the inner convex ring and set with the button. The diameter and width of the narrow diameter section is slightly smaller than the inner convex ring and there is a gap for air circulation. The airtight control rod system has a forced Enter the wide-diameter section arranged in the inner groove, and the inner groove reserves a travel space for the displacement of the wide-diameter section between the perforation and the convex ring. When it touches the perforation, it is in an airtight state with the perforation, and when the wide diameter section is pulled against the convex ring, it is in a ventilated state through the air flow groove and the convex ring. The inner convex ring and the button, when the button is not pressed, the wide diameter section of the airtight control rod is normally pulled against one end of the convex ring under the influence of the spring

如此,當按鈕未受按壓態時,該寬徑段係未遮蔽穿孔,外部空氣得經由按鈕及後套環的間隙,與窄徑段與內凸環的間隙,及氣流槽所產生間隙,流通至第一氣密環與第二氣密環之間;當按壓按鈕時,該寬徑段於位移後得遮蔽穿孔,使第一氣密環與第二氣密環之間達到一氣密效果,而第二氣密環持續受氣密控制桿推動同時,透過氣密效果得以等間距 推動第一氣密環壓縮填料空間,以達到擠壓出料的效果;而當鬆脫按鈕後,彈簧得反向帶動寬徑段來拉動凸環處使第二氣密環復位,此同時因寬徑段係分離穿孔,外部空氣恢復可流通至第一氣密環與第二氣密環之間,因此第一氣密環則無氣密效果而有同步復位情形。 In this way, when the button is not pressed, the wide-diameter section does not cover the perforation, and the outside air must pass through the gap between the button and the rear collar, the gap between the narrow-diameter section and the inner convex ring, and the gap created by the air flow groove. to between the first airtight ring and the second airtight ring; when the button is pressed, the wide diameter section has to cover the perforation after displacement, so that an airtight effect is achieved between the first airtight ring and the second airtight ring, The second airtight ring is continuously pushed by the airtight control rod, and at the same time, through the airtight effect, the distance is equal. Push the first airtight ring to compress the packing space to achieve the effect of extruding and discharging; and when the button is released, the spring has to drive the wide-diameter section in the opposite direction to pull the convex ring to reset the second airtight ring. The wide-diameter section is separated through perforations, and the external air can be recovered to flow between the first airtight ring and the second airtight ring, so the first airtight ring has no airtight effect and has a synchronous reset situation.

由前述創作內容可知,本發明按壓式溶液瓶係特別適用於握拿式之小型化妝品溶液罐,且該溶液瓶內腔具有進氣推移裝置,能以氣壓推動原理的方式有效率及便利的將溶劑擠出,且其按壓裝置內部之彈簧結構並未接觸溶劑,能避免溶劑受影響而變質;因此本發明可說是一種相當具有實用性及進步性之創作,相當值得產業界來推廣,並公諸於社會大眾。 As can be seen from the above creation content, the press-type solution bottle of the present invention is especially suitable for a small-sized cosmetic solution tank of the grip type, and the inner cavity of the solution bottle has an air intake pushing device, which can effectively and conveniently The solvent is extruded, and the spring structure inside the pressing device does not contact the solvent, which can prevent the solvent from being affected and deteriorated; therefore, the present invention can be said to be a very practical and progressive creation, which is worthy of promotion in the industry, and public to the public.

1:溶液瓶本體 1: Solution bottle body

11:出料嘴 11: Discharge nozzle

12:填料空間 12: Filler space

2:第一氣密環 2: The first airtight ring

3:第二氣密環 3: The second airtight ring

31:內槽部 31: Inner groove

32:穿孔 32: Perforation

33:凸環 33: convex ring

4:後套環 4: Rear collar

41:內凸環 41: Inner convex ring

5:按鈕 5: Button

6:氣密控制桿 6: Airtight lever

61:窄徑段 61: Narrow diameter section

62:寬徑段 62: wide diameter section

621:氣流槽 621: Airflow slot

622:圓凸部 622: Round convex part

7:彈簧 7: Spring

第一圖係本發明按壓式溶液瓶之立體外觀示意圖。 The first figure is a three-dimensional appearance schematic diagram of the push-type solution bottle of the present invention.

第二圖係本發明按壓式溶液瓶之立體分解示意圖。 The second figure is a schematic exploded perspective view of the press-type solution bottle of the present invention.

第三圖係本發明未按壓按鈕狀態之剖視示意圖。 Figure 3 is a schematic cross-sectional view of the present invention in a state where the button is not pressed.

第四圖係本發明按壓按鈕後狀態之剖視示意圖。 Figure 4 is a schematic cross-sectional view of the present invention after the button is pressed.

第五圖係本發明釋放按鈕後狀態之剖視示意圖。 Figure 5 is a schematic cross-sectional view of the present invention after the button is released.

本發明係關於一種按壓式溶液瓶,其係一種應用於小型握拿式溶液瓶之創作,且該溶液瓶內腔具有進氣推移裝置,能以有效率及便利的方式將溶劑擠出,請參閱第一圖至第四圖所示,本發明「按壓式溶液瓶」係包括有一溶液瓶本體1、一第一氣密環2、一第二氣密環3、一後套環4、一按鈕5、一氣密控制桿6及一彈簧7; The present invention relates to a press-type solution bottle, which is a creation applied to a small grip-type solution bottle, and the solution bottle has an air intake pushing device in the inner cavity, which can squeeze out the solvent in an efficient and convenient way. Referring to Figures 1 to 4, the "press-type solution bottle" of the present invention includes a solution bottle body 1, a first airtight ring 2, a second airtight ring 3, a rear collar 4, a Button 5, an airtight control rod 6 and a spring 7;

該溶液瓶本體1前端處係形成有一出料嘴11,該溶液瓶本體1內部為一填料空間12,該第一氣密環2及第二氣密環3係設置於填料空間12並與溶液瓶本體1內壁為氣密設置,該第二氣密環3中心處係形成有一內槽部31,且於內槽部31其槽底中心處係形成有一供空氣流通於第二氣密環3兩側之穿孔32,該第二氣密環3於內槽部31開口內側處係形成有一圈凸環33,該後套環4係插設於溶液瓶本體1後端處,且該後套環4於溶液瓶本體1內部係形成有一圈內凸環41,該按鈕5係設置於後套環4內 圈處,且該按鈕5外徑及後套環4內徑係保留有空氣流通之間隙; 該氣密控制桿6係具有一端係穿過內凸環41並與按鈕5設置之窄徑段61,該窄徑段61徑寬係略小於內凸環41而保留有空氣流通的間隙,該氣密控制桿6係具有一迫入設置於內槽部31之寬徑段62,透過第二氣密環3為具一定彈性之塑料材質特性,該寬徑段62得由內槽部31具凸環33一側迫入於內槽部31其內部,內槽部31係預留有一供寬徑段62於穿孔31與凸環33間位移的行程空間,該寬徑段62外徑係形成有一氣流槽621,該寬徑段62推抵於穿孔32時係與穿孔32呈現氣密狀態,而寬徑段62拉抵於凸環33時係透過氣流槽621與凸環33呈現通氣狀態,該彈簧7係環繞氣密控制桿6型態且兩端分別彈抵於內凸環41及按鈕5,當按鈕5未按壓時,該氣密控制桿6其寬徑段62係受彈簧7影響常態拉抵於凸環33一端; 如此,當按鈕5未受按壓態時(如第三圖所示),該寬徑段62係未遮蔽穿孔32,外部空氣得經由按鈕5及後套環4的間隙,與窄徑段61與內凸環41的間隙,及氣流槽621所產生間隙,流通至第一氣密環2與第二氣密環3之間;當按壓按鈕5時(如第四圖所示),該寬徑段62於位移後得遮蔽穿孔32,使第一氣密環2與第二氣密環3之間達到一氣密效果,而第二氣密環3持續受氣密控制桿6推動同時,透過氣密效果得以等間距推動第一氣密環2壓縮填料空間12,以達到擠壓出料的效果;而當鬆脫按鈕5後,彈簧7得反向帶動寬徑段62來拉動凸環33處使第二氣密環3復位,此同時因寬徑段62係分離穿孔32,外部空氣恢復可流通至第一氣密環2與第二氣密環3之間,因此第一氣密環2則無氣密效果而有同步復位情形(如第五圖所示)。 A discharge nozzle 11 is formed at the front end of the solution bottle body 1. Inside the solution bottle body 1 is a packing space 12. The first airtight ring 2 and the second airtight ring 3 are arranged in the filling space 12 and are connected with the solution. The inner wall of the bottle body 1 is airtight, an inner groove portion 31 is formed at the center of the second airtight ring 3, and a groove bottom center of the inner groove portion 31 is formed for air to circulate through the second airtight ring. 3. The through holes 32 on both sides, the second airtight ring 3 is formed with a ring 33 at the inner side of the opening of the inner groove portion 31, the rear collar 4 is inserted at the rear end of the solution bottle body 1, and the rear The collar 4 is formed with an inner convex ring 41 inside the solution bottle body 1 , and the button 5 is arranged in the rear collar 4 ring, and the outer diameter of the button 5 and the inner diameter of the rear collar 4 retain a gap for air circulation; The airtight control rod 6 has a narrow diameter section 61, one end of which passes through the inner convex ring 41 and is arranged with the button 5. The diameter and width of the narrow diameter section 61 is slightly smaller than that of the inner convex ring 41 and there is a gap for air circulation. The air-tight control rod 6 has a wide-diameter section 62 that is forced into the inner groove 31 , and the second air-tight ring 3 is a plastic material with a certain elasticity. One side of the ring 33 is forced into the inner groove portion 31. The inner groove portion 31 reserves a travel space for the displacement of the wide-diameter section 62 between the through hole 31 and the convex ring 33. The outer diameter of the wide-diameter section 62 is formed with a In the airflow groove 621, when the wide diameter section 62 pushes against the through hole 32, it is in an airtight state with the through hole 32, and when the wide diameter section 62 is pulled against the convex ring 33, it is in a ventilated state through the air flow groove 621 and the convex ring 33. The spring 7 is in the form of surrounding the airtight control rod 6 and the two ends are respectively bouncing against the inner convex ring 41 and the button 5. When the button 5 is not pressed, the wide diameter section 62 of the airtight control rod 6 is normally affected by the spring 7. Pulled against one end of the convex ring 33; In this way, when the button 5 is not pressed (as shown in the third figure), the wide-diameter section 62 does not cover the through hole 32, and the external air must pass through the gap between the button 5 and the rear collar 4, and the narrow-diameter section 61 and the The gap between the inner convex ring 41 and the gap created by the air flow groove 621 flows between the first airtight ring 2 and the second airtight ring 3; when the button 5 is pressed (as shown in the fourth figure), the wide diameter The section 62 has to cover the through hole 32 after the displacement, so that an airtight effect is achieved between the first airtight ring 2 and the second airtight ring 3, and the second airtight ring 3 is continuously pushed by the airtight control rod 6 and simultaneously penetrates through the airtight ring. The effect is to push the first airtight ring 2 to compress the packing space 12 at equal intervals, so as to achieve the effect of extruding and discharging; and when the button 5 is released, the spring 7 has to drive the wide-diameter section 62 in the opposite direction to pull the convex ring 33. The second airtight ring 3 is reset, and at the same time, because the wide diameter section 62 is separated from the perforation 32, the external air can be restored and circulated between the first airtight ring 2 and the second airtight ring 3. Therefore, the first airtight ring 2 is There is no airtight effect and there is a synchronous reset (as shown in the fifth figure).

進一步而言,該寬徑段62對應穿孔32處係有一圓凸部622;如此,透過圓凸部622其圓形表面造型特性,在與穿孔32推抵時,更具有較佳的氣密效果;此外,值得一提的是,此產品在製造時,當第二氣密環3外徑與溶液瓶本體1內壁如果設計的越緊密,在實施時寬徑段62與穿孔32的氣密效果會越好,因必須賦予較強的力道推移第二氣密環3的同時,寬徑段62與穿孔32阻塞力道會同步放大,氣密效果亦可同步獲得提升。 Further, a circular convex portion 622 is attached to the wide diameter section 62 corresponding to the through hole 32 ; in this way, through the round surface shape characteristics of the circular convex portion 622 , when it pushes against the through hole 32 , it has a better airtight effect. ; In addition, it is worth mentioning that when this product is manufactured, when the outer diameter of the second airtight ring 3 and the inner wall of the solution bottle body 1 are designed more closely, the airtightness between the wide diameter section 62 and the perforation 32 during implementation The effect will be better, because a stronger force must be given to push the second airtight ring 3 at the same time, the blocking force of the wide-diameter section 62 and the perforation 32 will be simultaneously enlarged, and the airtight effect can also be simultaneously improved.

由前述創作內容可知,本發明按壓式溶液瓶係特別適用於握拿式之小型化妝品溶液罐,且該溶液瓶內腔具有進氣推移裝置,能以氣壓推動原理的方式有效率及便利的將溶劑擠出,且其按壓裝置內部之彈簧結構並未接觸溶劑,能避免溶劑受影響而變質。 As can be seen from the above creation content, the press-type solution bottle of the present invention is especially suitable for a small-sized cosmetic solution tank of the grip type, and the inner cavity of the solution bottle has an air intake pushing device, which can effectively and conveniently The solvent is extruded, and the spring structure inside the pressing device does not contact the solvent, which can prevent the solvent from being affected and deteriorated.

由上列所述者僅為用以解釋本發明創作之較佳實施例,並非企圖具以對本發明做任何形式上之限制,是以,凡有在相同之創作精神下所做有關本發明創作之任何修飾或變更者,為其他可據以實施之態樣且具有相同效果者,皆仍應包括在本發明創作意圖保護之範疇內。 The above descriptions are only used to explain the preferred embodiments of the present invention, and are not intended to limit the present invention in any form. Therefore, any creations related to the present invention are made under the same creative spirit. Any modification or alteration of the invention, which is other forms that can be implemented and has the same effect, shall still be included in the scope of protection intended for the creation of the present invention.

綜上所述,本發明創作之「按壓式溶液瓶」,於結構設計及使用實用性上,確實符合實用性,且所揭露之結構創作,亦是具有前所未有之創新構造,所以其具有「新穎性」應無疑慮,又本發明創作可較之習用結構更具功效之增進,因此亦具有「進步性」,其完全符合我國專利法有關發明專利申請之規定,故,爰依法向 鈞局提出專利申請,懇請 鈞局能早日賜予本案專利權,至感德便。 To sum up, the "press-type solution bottle" created by the present invention is indeed practical in terms of structural design and practical use, and the disclosed structural creation also has an unprecedented innovative structure, so it has the "novelty" There should be no doubts about the nature of the invention, and the creation of the invention can be more effective than the conventional structure, so it is also "progressive". For the patent application, I urge the Jun Bureau to grant the patent right to this case as soon as possible.

1:溶液瓶本體 1: Solution bottle body

11:出料嘴 11: Discharge nozzle

12:填料空間 12: Filler space

2:第一氣密環 2: The first airtight ring

3:第二氣密環 3: The second airtight ring

31:內槽部 31: Inner groove

32:穿孔 32: Perforation

33:凸環 33: convex ring

4:後套環 4: Rear collar

41:內凸環 41: Inner convex ring

5:按鈕 5: Button

6:氣密控制桿 6: Airtight lever

61:窄徑段 61: Narrow diameter section

62:寬徑段 62: wide diameter section

621:氣流槽 621: Airflow slot

622:圓凸部 622: Round convex part

7:彈簧 7: Spring

Claims (2)

一種按壓式溶液瓶,係包括有一溶液瓶本體、一第一氣密環、一第二氣密環、一後套環、一按鈕、一氣密控制桿及一彈簧,其中;溶液瓶本體前端處係形成有一出料嘴,該溶液瓶本體內部為一填料空間,該第一氣密環及第二氣密環係設置於填料空間並與溶液瓶本體內壁為氣密設置,該第二氣密環中心處係形成有一內槽部,且於內槽部其槽底中心處係形成有一供空氣流通於第二氣密環兩側之穿孔,該第二氣密環於內槽部開口內側處係形成有一圈凸環,該後套環係插設於溶液瓶本體後端處,且該後套環於溶液瓶本體內部係形成有一圈內凸環,該按鈕係設置於後套環內圈處,且該按鈕外徑及後套環內徑係保留有空氣流通之間隙;氣密控制桿係具有一端係穿過內凸環並與按鈕設置之窄徑段,該窄徑段徑寬係略小於內凸環而保留有空氣流通的間隙,該氣密控制桿係具有一迫入設置於內槽部之寬徑段,內槽部係預留有一供寬徑段於穿孔與凸環間位移的行程空間,該寬徑段外徑係形成有一氣流槽,該寬徑段推抵於穿孔時係與穿孔呈現氣密狀態,而寬徑段拉抵於凸環時係透過氣流槽與凸環呈現通氣狀態,該彈簧係環繞氣密控制桿型態且兩端分別彈抵於內凸環及按鈕,當按鈕未按壓時,該氣密控制桿其寬徑段係受彈簧影響常態拉抵於凸環一端。 A push-type solution bottle includes a solution bottle body, a first airtight ring, a second airtight ring, a rear collar, a button, an airtight control rod and a spring, wherein; the front end of the solution bottle body is A discharge nozzle is formed, the inside of the solution bottle body is a packing space, the first airtight ring and the second airtight ring are arranged in the filling space and airtight with the inner wall of the solution bottle body. An inner groove is formed at the center of the airtight ring, and a perforation for air to circulate on both sides of the second airtight ring is formed at the center of the groove bottom of the inner groove, and the second airtight ring is opened in the inner groove. A ring of convex rings is formed on the inner side, the rear collar is inserted at the rear end of the solution bottle body, and the rear collar is formed with a circular inner convex ring inside the solution bottle body, and the button is arranged on the back cover At the inner ring of the ring, and the outer diameter of the button and the inner diameter of the rear collar retain a gap for air circulation; the air-tight control rod has a narrow-diameter section with one end passing through the inner convex ring and set with the button. The narrow-diameter section The diameter and width are slightly smaller than the inner convex ring and there is a gap for air circulation. The airtight control rod has a wide-diameter section that is forced into the inner groove, and the inner groove is reserved for a wide-diameter section for the through hole and the convex. The stroke space of the displacement between the rings, the outer diameter of the wide-diameter section is formed with an air flow groove, when the wide-diameter section is pushed against the perforation, it is in an airtight state with the perforation, and when the wide-diameter section is pulled against the convex ring, it passes through the air flow groove It is in a ventilating state with the convex ring. The spring is in the form of surrounding the airtight control rod and the two ends bounce against the inner convex ring and the button respectively. When the button is not pressed, the wide diameter section of the airtight control rod is normally affected by the spring. Pull it against one end of the collar. 根據申請專利範圍第1項之按壓式溶液瓶,其中該寬徑段對應該穿孔處係有一圓凸部。 According to the press-type solution bottle of claim 1, wherein the wide-diameter section corresponds to the perforation with a round convex portion.
TW110101650A 2021-01-15 2021-01-15 Press solution bottle TWI763259B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
TW110101650A TWI763259B (en) 2021-01-15 2021-01-15 Press solution bottle

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
TW110101650A TWI763259B (en) 2021-01-15 2021-01-15 Press solution bottle

Publications (2)

Publication Number Publication Date
TWI763259B true TWI763259B (en) 2022-05-01
TW202229130A TW202229130A (en) 2022-08-01

Family

ID=82594062

Family Applications (1)

Application Number Title Priority Date Filing Date
TW110101650A TWI763259B (en) 2021-01-15 2021-01-15 Press solution bottle

Country Status (1)

Country Link
TW (1) TWI763259B (en)

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TW201433510A (en) * 2013-02-21 2014-09-01 Glaspray Engineering & Mfg Co Ltd Press type cosmetic container
US8851330B1 (en) * 2013-03-15 2014-10-07 Sin-Hsiung Chen Press-on cosmetic container
WO2015160371A1 (en) * 2014-04-15 2015-10-22 Aa R&D Llc Press-type dispensing container
CN209097347U (en) * 2018-09-07 2019-07-12 尹学诚 A kind of pressing bottle

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TW201433510A (en) * 2013-02-21 2014-09-01 Glaspray Engineering & Mfg Co Ltd Press type cosmetic container
US8851330B1 (en) * 2013-03-15 2014-10-07 Sin-Hsiung Chen Press-on cosmetic container
WO2015160371A1 (en) * 2014-04-15 2015-10-22 Aa R&D Llc Press-type dispensing container
CN209097347U (en) * 2018-09-07 2019-07-12 尹学诚 A kind of pressing bottle

Also Published As

Publication number Publication date
TW202229130A (en) 2022-08-01

Similar Documents

Publication Publication Date Title
JP7253285B2 (en) Container with pump assembly and contents discharge function
DE19523516C1 (en) Inhaler for administering medication from blister packs
FR2377338A1 (en) Squeezable bottle with valve for dispensing viscous products
US20080017670A1 (en) Pump Dispenser
JP2008162666A (en) Discharging container
TWI763259B (en) Press solution bottle
KR200449631Y1 (en) Hand-operated Dropper
EP2929802B1 (en) Cosmetic container comprising push button having resilient upright nozzle
JP2018500252A (en) Hard shell for compressible tube
TWM613928U (en) Push-type solution bottle
CN212345284U (en) Smoking set
JP2015105116A (en) Container for retort food
KR101570199B1 (en) Pumping type cosmetic vessel
KR101971918B1 (en) A spuit container having a flocking tip with a temporary storage
KR102527875B1 (en) Cosmetic dispenser
CN217533848U (en) Self-sealing press type content bottle
KR100932779B1 (en) Tubular container with remaining amount removal means
US20080047981A1 (en) Pump with a pressure driving head
TWM532210U (en) Pressing type vacuum container for liquid
JP2004203434A (en) Tube container
JP4001361B2 (en) Synthetic resin blow tube
CN210299950U (en) Burette distributor and bottle with same
KR101331846B1 (en) Content discharge receptacle
JPH0356586U (en)
JP3017178U (en) Tube type extrusion container