WO2016138603A1 - 一种玻珠挤压式泡沫泵及泡沫泵产生泡沫的方法 - Google Patents
一种玻珠挤压式泡沫泵及泡沫泵产生泡沫的方法 Download PDFInfo
- Publication number
- WO2016138603A1 WO2016138603A1 PCT/CN2015/000189 CN2015000189W WO2016138603A1 WO 2016138603 A1 WO2016138603 A1 WO 2016138603A1 CN 2015000189 W CN2015000189 W CN 2015000189W WO 2016138603 A1 WO2016138603 A1 WO 2016138603A1
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- WO
- WIPO (PCT)
- Prior art keywords
- liquid
- gas
- foam
- bottle
- squeeze bottle
- Prior art date
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47K—SANITARY EQUIPMENT NOT OTHERWISE PROVIDED FOR; TOILET ACCESSORIES
- A47K5/00—Holders or dispensers for soap, toothpaste, or the like
- A47K5/06—Dispensers for soap
- A47K5/12—Dispensers for soap for liquid or pasty soap
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B11/00—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use
- B05B11/01—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use characterised by the means producing the flow
- B05B11/04—Deformable containers producing the flow, e.g. squeeze bottles
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B11/00—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use
- B05B11/01—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use characterised by the means producing the flow
- B05B11/10—Pump arrangements for transferring the contents from the container to a pump chamber by a sucking effect and forcing the contents out through the dispensing nozzle
- B05B11/1042—Components or details
- B05B11/1043—Sealing or attachment arrangements between pump and container
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05B—SPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
- B05B11/00—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use
- B05B11/01—Single-unit hand-held apparatus in which flow of contents is produced by the muscular force of the operator at the moment of use characterised by the means producing the flow
- B05B11/10—Pump arrangements for transferring the contents from the container to a pump chamber by a sucking effect and forcing the contents out through the dispensing nozzle
- B05B11/1042—Components or details
- B05B11/1052—Actuation means
Definitions
- the present invention relates to a foam pump and a foam pump for producing a foam, and more particularly to a foam pump capable of obtaining a gas-liquid mixed foam by extrusion and a method of producing a foam.
- the invention provides a method for generating foam by a squeeze type foam pump and a foam pump, which produces a foam rich and delicate, and the generated foam can be controlled more or less by squeezing the bottle or squeezing the deformation of the balloon object.
- the overall structure is simple, the function is stable, and it is convenient for people to use, and this is the main purpose of the invention.
- a glass bead squeeze type foam pump which comprises a squeeze bottle and a foam pump body, wherein the foam pump body is inserted in the squeeze bottle, and the squeeze bottle is filled with a liquid
- the foam pump body comprising a gland, an outer cover, a gas-liquid splitting unit, and a gas inlet control unit, wherein the outer cover is connected at a position of the bottle mouth of the squeeze bottle, the outer cover comprising a gland connection end and a squeeze a pressure bottle connection end, the pressure cover is connected to the pressure cover connection end, the squeeze bottle is connected to the squeeze bottle connection end, the pressure cover has a foam channel and a plug rib, the plug rib is inserted in the In the gland connecting end, when the gland is pressed down to deeply insert the insertion rib into the gland connecting end, the bead squeeze foam pump is in a sealed state, and there is no foam from the foam at the moment.
- the channel flows out, and after the gland is pulled up to move the gland upward by a predetermined distance
- the outer cover has a liquid-gas mixing chamber, a foam generating chamber and a return air passage, wherein the liquid-gas mixing chamber is in communication with the foam generating chamber, and when the bead-extruded foam pump is in an open working state, the foam The generating chamber is in communication with the foam passage, the gas-liquid splitting unit is connected below the liquid-gas mixing chamber, and the gas entering control unit is disposed in the return air passage.
- a connecting pipe is disposed under the outer cover, and the gas-liquid splitting unit is sleeved on the connecting pipe, and a bottle inner air inlet passage is formed between an inner surface of the gas-liquid splitting unit and an outer surface of the connecting pipe,
- the inlet passage of the bottle is disposed between the inner cavity of the squeeze bottle and the liquid-gas mixing chamber, and the lower end of the gas-liquid splitting unit is connected with a liquid inlet pipe, and the liquid inlet of the liquid inlet pipe is located at the squeeze bottle Below the liquid level of the medium liquid, an in-bottle inlet passage is provided in the gas-liquid splitting unit, and the in-bottle inlet passage is connected between the inner chamber of the inlet tube and the liquid-gas mixing chamber.
- a ring network is disposed in the foam generating chamber.
- the gas-liquid splitting unit comprises an outer tube and an upper cover, wherein the upper cover is inserted into the outer tube, and a plurality of liquid inlet grooves are formed on an inner surface of the outer tube, and a plurality of the liquid inlet groove rings are arranged around the upper cover
- the inner liquid inlet passage is formed by the outer surface of the upper cover and the inner groove of the liquid inlet.
- the gas enters the control unit as a bead.
- an external force is applied to the squeeze bottle to squeeze the squeeze bottle.
- the liquid in the squeeze bottle is subjected to the pressing force and then rises along the liquid inlet tube and passes through the bottle.
- the liquid passage enters the liquid-gas mixing chamber, at the same time, the gas in the squeeze bottle pushes the gas into the control unit to move the gas into the control unit to close the return air passage, so that the outside of the squeeze bottle The air does not enter the squeeze bottle, and at this moment, the gas in the squeeze bottle is subjected to the pressing force and enters the liquid-gas mixing chamber along the inlet passage of the bottle.
- the liquid in the squeeze bottle is mixed with the gas and continues to rise in the foam generating chamber to form a gas-liquid mixed foam, and finally the gas-liquid mixed foam passes through the foam passage from the glass bead squeeze foam pump. Sprayed out.
- the squeeze bottle elastically recovers, the gas enters the control unit to fall by gravity, and opens the return air passage, so that the air outside the squeeze bottle is replenished into the squeeze bottle, so Cycle back and forth.
- a method for producing a foam by a foam pump comprising the steps of: applying an external force to a squeeze bottle to press the squeeze bottle, at which point the liquid in the squeeze bottle is subjected to the pressing force and then along the liquid inlet tube Rising up and entering the liquid-gas mixing chamber through the liquid inlet channel, at the same time, the gas in the squeeze bottle pushes the gas into the control unit to make the gas enter the control unit and move the closed return air passage to make the squeeze The air outside the pressure bottle does not enter the squeeze bottle. At this moment, the gas in the squeeze bottle is subjected to the pressing force and then enters the liquid gas mixing chamber along the inlet passage of the bottle.
- the liquid in the squeeze bottle is mixed with the gas and continues to rise in the foam generating chamber to form a gas-liquid mixed foam, and finally the gas-liquid mixed foam is ejected from the bead-squeezing foam pump through the foam passage. .
- the squeeze bottle elastically recovers, the gas enters the control unit to fall by gravity, and opens the return air passage, so that the air outside the squeeze bottle is replenished into the squeeze bottle, so Cycle back and forth.
- the in-bottle inlet channel, the in-bottle inlet passage, the gas inlet control unit, the liquid-gas mixing chamber, the foam generating chamber, the return air passage are disposed in the foam pump body, and the foam passage is disposed in the In the gland.
- the foam pump body is inserted in the squeeze bottle, the foam pump body comprises the gland, the outer cover, the gas-liquid splitting unit and the gas inlet control unit, wherein the outer cover is connected to the bottle mouth of the squeeze bottle Positioned, the outer cover includes a gland connecting end and a squeeze bottle connecting end, the gland is connected to the gland connecting end, and the squeeze bottle is connected to the squeeze bottle connecting end, the gland having the foam a channel and a connecting rib, the plug rib being inserted into the connecting end of the gland, and the bead is pressed when the gland is pressed down to deeply insert the connecting rib into the connecting end of the gland
- the foam pump is in a sealed state, at which no foam is flowing out of the foam passage, and the bead squeeze foam is applied after the gland is pulled up to move the gland upward relative to the outer cover by a predetermined distance.
- the pump is in the working state.
- the outer cover has the liquid-gas mixing chamber, the foam generating chamber and the return air passage, wherein the liquid-gas mixing chamber is in communication with the foam generating chamber when the bead-extruded foam pump is in an open working state
- the foam generating chamber is in communication with the foam passage.
- the foam generating chamber is provided with a ring net.
- the gas-liquid splitting unit is connected below the liquid-gas mixing chamber, and the gas entering control unit is disposed in the return air passage.
- a connecting pipe is disposed under the outer cover, the gas-liquid splitting unit is sleeved on the connecting pipe, and an inner air inlet passage is formed between an inner surface of the gas-liquid splitting unit and an outer surface of the connecting pipe,
- the inlet passage of the bottle is connected between the inner cavity of the squeeze bottle and the liquid-gas mixing chamber.
- the lower end of the gas-liquid splitting unit is connected to the liquid inlet pipe, and the liquid inlet port under the liquid inlet pipe is located below the liquid level of the liquid in the squeeze bottle, and the liquid inlet channel is arranged in the gas-liquid splitting unit.
- the bottle inlet passage is connected between the inner cavity of the inlet pipe and the liquid-gas mixing chamber.
- the gas-liquid splitting unit comprises an outer tube and an upper cover, wherein the upper cover is inserted into the outer tube, and a plurality of liquid inlet grooves are formed on an inner surface of the outer tube, and a plurality of the liquid inlet groove rings are arranged around the upper cover
- the inner liquid inlet passage is formed by the outer surface of the upper cover and the inner groove of the liquid inlet.
- the invention has the beneficial effects that the foam produced by the foam pump of the invention is rich and delicate, and the generated foam can be controlled more or less by the amount of deformation of the squeeze bottle or the extruded balloon object, and the overall structure is simple. The function is stable and convenient for people to use.
- Figure 1 is a schematic cross-sectional view of the present invention.
- Figure 2 is a schematic view of the intake of the present invention.
- Figure 3 is a schematic view showing the structure of the outer tube and the upper cover of the present invention.
- a glass bead squeeze type foam pump includes a squeeze bottle 100 and a foam pump body 200, which is inserted in the squeeze bottle 100, and the squeeze bottle 100
- the liquid is filled with a liquid, such as a hand soap, a body wash, etc., and when used, an external force is applied to the squeeze bottle 100, and the squeeze foam pump is driven by the action of the foam pump body 200. It can produce a gas-liquid mixed foam for people to use.
- the foam pump body 200 includes a gland 10, an outer cover 20, a gas-liquid splitting unit 30, and a gas inlet control unit 40, wherein the outer cover 20 is connected at a position of the bottle mouth of the squeeze bottle 100, and the outer cover 20 includes The cap connection end 21 and the squeeze bottle connection end 22 are provided.
- the gland 10 is attached to the gland connecting end 21, and the squeeze bottle 100 is attached to the squeeze bottle connecting end 22.
- the gland 10 has a foam channel 11 and a plug rib 12 which is inserted into the gland connecting end 21 .
- the bead squeeze foam pump When the gland 10 is pressed down to deeply insert the insertion rib 12 into the gland connecting end 21, the bead squeeze foam pump is in a sealed state, and no foam is present from the foam passage 11 at this moment. Flow out.
- the bead squeeze foam pump When the gland 10 is pulled up to move the gland 10 upward by a predetermined distance relative to the outer cover 20, the bead squeeze foam pump is in an open working state.
- the outer cover 20 has a liquid-gas mixing chamber 51, a foam generating chamber 52, and a return air passage 53, wherein the liquid-gas mixing chamber 51 communicates with the foam generating chamber 52 when the bead-extruded foam pump is turned on. In the state, the bubble generating chamber 52 communicates with the foam passage 11.
- a ring net 521 is disposed in the bubble generating chamber 52.
- the gas-liquid splitting unit 30 is connected below the liquid-gas mixing chamber 51.
- the gas entering control unit 40 is disposed in the return air passage 53.
- a connecting pipe 23 is disposed under the outer cover 20, and the gas-liquid splitting unit 30 is sleeved on the connecting pipe 23, and a bottle is formed between the inner surface of the gas-liquid splitting unit 30 and the outer surface of the connecting pipe 23.
- Inner intake passage 300 is formed between the inner surface of the gas-liquid splitting unit 30 and the outer surface of the connecting pipe 23.
- the in-bottle inlet passage 300 is communicated between the inner cavity of the squeeze bottle 100 and the liquid-gas mixing chamber 51.
- the lower end of the gas-liquid splitting unit 30 is connected to a liquid inlet pipe 60, and the lower liquid inlet port of the liquid inlet pipe 60 is located below the liquid level of the liquid in the squeeze bottle 100.
- An in-bottle inlet passage 400 is provided in the gas-liquid splitting unit 30, and the in-bottle inlet passage 400 is communicated between the inner chamber of the inlet pipe 60 and the liquid-gas mixing chamber 51.
- the gas-liquid splitting unit 30 includes an outer tube 31 and an upper cover 32, and the upper cover 32 is inserted into the outer tube 31.
- a plurality of liquid inlet grooves 33 are defined in the inner surface of the outer tube 31, and a plurality of the liquid inlet grooves 33 are annularly disposed around the upper cover 32.
- the in-bottle inlet passage 400 is formed by the outer surface of the upper cover 32 and the inner groove of the inlet tank 33.
- the gas in the squeeze bottle 100 pushes the gas into the control unit 40 to move the gas into the control unit 40 to close the return air passage 53 so that the air outside the squeeze bottle 100 does not enter the Squeeze the bottle 100.
- the gas in the squeeze bottle 100 is subjected to the pressing force and then enters the liquid-gas mixing chamber 51 along the in-cylinder intake passage 300.
- the liquid in the squeeze bottle 100 is mixed with the gas and continues to rise in the foam generating chamber 52 to form a gas-liquid mixed foam, and finally the gas-liquid mixed foam is squeezed from the bead through the foam passage 11. Sprayed in a pressure foam pump.
- the squeeze bottle 100 elastically recovers, the gas enters the control unit 40 to fall by gravity, and opens the return air passage 53 to replenish the air outside the squeeze bottle 100 into the squeeze. In the bottle 100, this cycle is repeated.
- the gas entering control unit 40 is a bead.
- a foam pump producing foam method comprising the steps of: applying an external force to the squeeze bottle 100 to press the squeeze bottle 100, at which point the liquid in the squeeze bottle 100 is subjected to the pressing force
- the inlet pipe 60 rises and enters the liquid-gas mixing chamber 51 through the in-bottle inlet passage 400.
- the gas pushing gas in the squeeze bottle 100 enters the control unit 40 to move the gas into the control unit 40 to move the closed return air passage 53 so that the air outside the squeeze bottle 100 does not enter the squeeze.
- the gas in the squeeze bottle 100 is subjected to the pressing force and enters the liquid-gas mixing chamber 51 along the inlet passage 300 in the bottle, and the squeeze bottle is in the liquid-gas mixing chamber 51.
- the liquid in 100 is mixed with the gas and continues to rise in the foam generating chamber 52 to form a gas-liquid mixed foam, and finally the gas-liquid mixed foam is ejected from the bead squeeze foam pump through the foam passage 11, when the external force is removed
- the squeeze bottle 100 elastically recovers, the gas enters the control unit 40 to fall by gravity, and opens the return air passage 53, so that the air outside the squeeze bottle 100 is replenished into the squeeze bottle 100, so that the cycle is repeated .
- the bottle inlet channel 400, the in-bottle inlet channel 300, the gas inlet control unit 40, the liquid-gas mixing chamber 51, the bubble generating chamber 52, and the return air passage 53 are disposed in the foam pump body 200.
- the foam passage 11 is disposed in the gland 10.
- the foam pump body 200 is inserted into the squeeze bottle 100.
- the foam pump body 200 includes the gland 10, the outer cover 20, the gas-liquid splitting unit 30, and the gas inlet control unit 40, wherein the outer cover 20 is connected.
- the outer cover 20 includes a gland connecting end 21 and a squeeze bottle connecting end 22, and the gland 10 is attached to the gland connecting end 21, and the squeeze bottle 100 is connected.
- the pressure cap 10 has the foam channel 11 and the insertion rib 12, and the insertion rib 12 is inserted into the gland connection end 21 when the gland 10 is pressed down.
- the bead squeeze foam pump When the insertion rib 12 is deeply inserted into the cap connection end 21, the bead squeeze foam pump is in a sealed state, and no foam is discharged from the foam passage 11 at the moment, and when the gland 10 is received After the force is pulled up to move the gland 10 upward relative to the outer cover 20 by a predetermined distance, the bead squeeze foam pump is in an open working state.
- the outer cover 20 has the liquid-gas mixing chamber 51, the foam generating chamber 52 and the return air passage 53, wherein the liquid-gas mixing chamber 51 communicates with the foam generating chamber 52 when the glass bead squeeze foam pump When in the open working state, the foam generating chamber 52 is in communication with the foam passage 11, and the foam generating chamber 52 is provided with a ring net 521, and the gas-liquid splitting unit 30 is connected under the liquid-gas mixing chamber 51, the gas The entry control unit 40 is disposed in the return air passage 53.
- a connecting pipe 23 is disposed under the outer cover 20, and the gas-liquid splitting unit 30 is sleeved on the connecting pipe 23, and the bottle is formed between the inner surface of the gas-liquid splitting unit 30 and the outer surface of the connecting pipe 23.
- the inner intake passage 300 is connected between the inner chamber of the squeeze bottle 100 and the liquid-gas mixing chamber 51.
- the lower end of the gas-liquid split unit 30 is connected to the liquid inlet tube 60.
- the liquid inlet of the liquid inlet pipe 60 is located below the liquid level of the liquid in the squeeze bottle 100, and the liquid inlet channel 400 is disposed in the gas-liquid splitting unit 30, and the liquid inlet channel 400 is connected in the bottle.
- the gas-liquid splitting unit 30 includes an outer tube 31 and an upper cover 32, and the upper cover 32 is inserted into the outer tube 31.
- a plurality of liquid inlet grooves 33 are defined in the inner surface of the outer tube 31, and a plurality of the liquid inlet grooves 33 are annularly disposed around the upper cover 32 by the outer surface of the upper cover 32 and the inside of the liquid inlet groove 33.
- the tank cavity surrounds the in-bottle inlet passage 400.
- the gas entering control unit 40 is a bead.
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- Health & Medical Sciences (AREA)
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- Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
- Closures For Containers (AREA)
Abstract
Description
Claims (7)
- 一种玻珠挤压式泡沫泵,其包括挤压瓶以及泡沫泵体,该泡沫泵体插设在该挤压瓶中,该挤压瓶中灌装有液体,其特征在于:该泡沫泵体包括压盖、外盖、气液分流单元以及气体进入控制单元,其中,该外盖连接在该挤压瓶的瓶口位置处,该外盖包括压盖连接端以及挤压瓶连接端,该压盖连接在该压盖连接端上,该挤压瓶连接在该挤压瓶连接端上,该压盖具有泡沫通道以及插接肋,该插接肋插接在该压盖连接端中,当该压盖受力下压使该插接肋深插在该压盖连接端中的时候该玻珠挤压式泡沫泵处于密封状态,此刻不会有泡沫从该泡沫通道中流出,而当该压盖受力上拉使该压盖相对于该外盖向上移动一额定距离之后,该玻珠挤压式泡沫泵处于打开工作状态,该外盖具有液气混合腔、泡沫产生腔以及回气通道,其中,该液气混合腔与该泡沫产生腔相连通,当该玻珠挤压式泡沫泵处于打开工作状态的时候,该泡沫产生腔与该泡沫通道相连通,该气液分流单元连接在该液气混合腔下方,该气体进入控制单元设置在该回气通道中,该外盖的下方设置有连接管,该气液分流单元套设在该连接管上,在该气液分流单元的内表面与该连接管的外表面之间形成一瓶内进气通道,该瓶内进气通道连通设置在该挤压瓶的内腔与该液气混合腔之间,该气液分流单元的下端连接有进液管,该进液管下进液口位于该挤压瓶中液体的液面以下,在该气液分流单元中设置有瓶内进液通道,该瓶内进液通道连通设置在该进液管的内腔与该液气混合腔之间。
- 如权利要求1所述的一种玻珠挤压式泡沫泵,其特征在于:该泡沫产生腔中设置有环网。
- 如权利要求1所述的一种玻珠挤压式泡沫泵,其特征在于:该气液分流单元包括外管以及上盖,该上盖插接在该外管中,在该外管的内表面上开设有若干进液槽,若干该进液槽环设在该上盖四周,借助该上盖的外表面以及该进液槽的内槽腔围绕形成该瓶内进液通道。
- 如权利要求1所述的一种玻珠挤压式泡沫泵,其特征在于:该气体进入控制单元为玻珠。
- 如权利要求1至4任意一项所述的一种玻珠挤压式泡沫泵,其特征在于:工作的时候,对该挤压瓶施加一外部作用力挤压该挤压瓶,此刻,该挤压瓶中的液体受到该挤压作用力后沿该进液管上升,并通过该瓶内进液通道进入到该液气混合腔中,与此同时,该挤压瓶中的气体上推该气体进入控制单元使该气体进入控制单元上移封闭该回气通道,使该挤压瓶外部的空气不会进入到该挤压瓶中,此刻,该挤压瓶中的气体受到该挤压作用力后沿该瓶内进气通道进入到该液气混合腔中,在该液气混合腔中该挤压瓶中的液体与气体混合并继续上升在该泡沫产生腔中形成气液混合泡沫,最终气液混合泡沫通过该泡沫通道从该玻珠挤压式泡沫泵中喷出,当该外部作用力消除之后,该挤压瓶弹性回复,该气体进入控制单元受重力作用下落,并打开该回气通道,使该挤压瓶外部的空气补充进入到该挤压瓶中,如此循环往复。
- 一种泡沫泵产生泡沫的方法,其特征在于,包括如下步骤:对挤压瓶施加一外部作用力挤压该挤压瓶,此刻,该挤压瓶中的液体受到该挤压作用力后沿进液管上升,并通过瓶内进液通道进入到液气混合腔中,与此同时,该挤压瓶中的气体上推气体进入控制单元使该气体进入控制单元上移封闭回气通道,使该挤压瓶外部的空气不会进入到该挤压瓶中,此刻,该挤压瓶中的气体受到该挤压作用力后沿瓶内进气通道进入到该液气混合腔中,在该液气混合腔中该挤压瓶中的液体与气体混合并继续上升在泡沫产生腔中形成气液混合泡沫,最终气液混合泡沫通过泡沫通道从玻珠挤压式泡沫泵中喷出,当该外部作用力消除之后,该挤压瓶弹性回复,该气体进入控制单元受重力作用下落,并打开该回气通道,使该挤压瓶外部的空气补充进入到该挤压瓶中,如此循环往复,其中,该瓶内进液通道、该瓶内进气通道、该该气体进入控制单元、该液气混合腔、该泡沫产生腔、该回气通道设置在泡沫泵体中,该泡沫通道设置在压盖中,该泡沫泵体插设在该挤压瓶中,该泡沫泵体包括该压盖、外盖、气液分流单元以及该气体进入控制单元,其中,该外盖连接在该挤压瓶的瓶口位置处,该外盖包括压盖连接端以及挤压瓶连接端,该压盖连接在该压盖连接端上,该挤压瓶连接在该挤压瓶连接端上,该压盖具有该泡沫通道以及插接肋,该插接肋插接在该压盖连接端中,当该压盖受力下压使该插接肋深插在该压盖连接端中的时候该玻珠挤压式泡沫泵处于密封状态,此刻不会有泡沫从该泡沫通道中流出,而当该压盖受力上拉使该压盖相对于该外盖向上移动一额定距离之后,该玻珠挤压式泡沫泵处于打开工作状态,该外盖具有该液气混合腔、该泡沫产生腔以及该回气通道,其中,该液气混合腔与该泡沫产生腔相连通,当该玻珠挤压式泡沫泵处于打开工作状态的时候,该泡沫产生腔与该泡沫通道相连通,该泡沫产生腔中设置有环网,该气液分流单元连接在该液气混合腔下方,该气体进入控制单元设置在该回气通道中,该外盖的下方设置有连接管,该气液分流单元套设在该连接管上,在该气液分流单元的内表面与该连接管的外表面之间形成该瓶内进气通道,该瓶内进气通道连通设置在该挤压瓶的内腔与该液气混合腔之间,该气液分流单元的下端连接有该进液管,该进液管下进液口位于该挤压瓶中液体的液面以下,在该气液分流单元中设置有该瓶内进液通道,该瓶内进液通道连通设置在该进液管的内腔与该液气混合腔之间,该气液分流单元包括外管以及上盖,该上盖插接在该外管中,在该外管的内表面上开设有若干进液槽,若干该进液槽环设在该上盖四周,借助该上盖的外表面以及该进液槽的内槽腔围绕形成该瓶内进液通道。
- 如权利要求6所述的一种泡沫泵产生泡沫的方法,其特征在于:该气体进入控制单元为玻珠。
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