WO2017121322A1 - 可调节气态水分子的空气进气处理器 - Google Patents
可调节气态水分子的空气进气处理器 Download PDFInfo
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- WO2017121322A1 WO2017121322A1 PCT/CN2017/070832 CN2017070832W WO2017121322A1 WO 2017121322 A1 WO2017121322 A1 WO 2017121322A1 CN 2017070832 W CN2017070832 W CN 2017070832W WO 2017121322 A1 WO2017121322 A1 WO 2017121322A1
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02M—SUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
- F02M25/00—Engine-pertinent apparatus for adding non-fuel substances or small quantities of secondary fuel to combustion-air, main fuel or fuel-air mixture
- F02M25/022—Adding fuel and water emulsion, water or steam
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23L—SUPPLYING AIR OR NON-COMBUSTIBLE LIQUIDS OR GASES TO COMBUSTION APPARATUS IN GENERAL ; VALVES OR DAMPERS SPECIALLY ADAPTED FOR CONTROLLING AIR SUPPLY OR DRAUGHT IN COMBUSTION APPARATUS; INDUCING DRAUGHT IN COMBUSTION APPARATUS; TOPS FOR CHIMNEYS OR VENTILATING SHAFTS; TERMINALS FOR FLUES
- F23L7/00—Supplying non-combustible liquids or gases, other than air, to the fire, e.g. oxygen, steam
Definitions
- the utility model relates to an air intake processor of a combustion device, in particular to an air intake processor capable of regulating gaseous water molecules.
- the fuel is burned in the combustion equipment for the combustion equipment to operate.
- the explosion combustion of air and fuel is often incomplete, thus generating a lot of waste gas and combustion equipment carbon deposit, when the proper amount of gaseous water
- the molecules can decompose hydrogen and oxygen in a high temperature environment, thereby achieving a combustion-supporting effect, making combustion more complete, reducing exhaust emissions, and removing carbon deposits from combustion equipment.
- the combustion burner includes a bottle body for accommodating water or a mixed liquid of water and ethanol.
- the bottle body is provided with an air inlet tube, the air inlet end of the air inlet tube protrudes from the bottle body, and the air outlet end of the air inlet tube is disposed under the liquid surface of the liquid contained in the bottle body, and the bottle body
- the upper end is further provided with an air outlet pipe for the gas to escape from the bottle body, and the air outlet end of the air outlet pipe is connected to an intake manifold, and is connected to the air return port of a combustion device through the intake manifold.
- the negative pressure generated during the operation of the combustion device directs air into the bottle body to generate bubbles in the liquid, and the surface of the bubble contacts the liquid to generate air containing gaseous water molecules, and guides the gas containing gaseous water molecules.
- the air enters the combustion equipment and mixes with the fuel to explode and burn, and decomposes hydrogen and oxygen at high temperature to achieve the effect of combustion.
- the combustion burner cannot perform gas-liquid separation of gaseous water molecules and liquid water molecules, resulting in gas-liquid separation. Too much gaseous water molecules entering the combustion equipment, After a long period of work, the performance of the combustion equipment is reduced or even the fault is destroyed.
- the utility model of the present invention considers that the existing gaseous molecular combustion improver is necessary for further improvement, and the present invention is produced.
- the purpose of the utility model is to provide an air intake processor capable of regulating gaseous water molecules, which can perform gas-liquid separation of gaseous water molecules and liquid water molecules to achieve the purpose of regulating gaseous water molecules.
- the air intake processor of the present invention for regulating gaseous water molecules includes:
- a main bottle body is provided with a main chamber, and a main air inlet nozzle and a main exhaust air nozzle are disposed above the main bottle body, and the main air inlet nozzle and the main exhaust air nozzle are respectively
- the main chamber is in communication with a main transfer tube coaxially below the main air inlet nozzle, so that the main transfer tube is located in the main chamber;
- a main adjustment plate laterally disposed in the main volume of the main bottle body, and the main adjustment plate partitions the main chamber with a main upper chamber and a main lower chamber, the main adjustment plate corresponding to the main transfer tube a main limiting ring is disposed on the main connecting tube, and the main adjusting plate is disposed on the outer periphery of the main limiting ring to be outwardly downwardly provided with a main guiding inclined surface, the main adjusting plate A main exhaust hole is disposed on the upper portion, and the main exhaust hole is disposed in a staggered manner with the main exhaust nozzle.
- the outer peripheral edge of the main guide inclined surface is provided with a main flange facing the lower ring.
- the main body of the main bottle body is provided with a plurality of main body bodies in a horizontal direction, so that the adjacent main body bodies are respectively separated by a main air chamber, and the plurality of main body bodies are respectively provided with a main air inlet nozzle.
- the plurality of main body bodies are respectively provided with at least one main air hole, and the number of main air holes of each main body body is increased from top to bottom, and the main air holes of the adjacent main body bodies are staggered, wherein the main air inlet is adjacent to the main air inlet.
- the main air inlet nozzle of the main body of the air nozzle is connected to the main transfer tube, and the main air inlet nozzles of the adjacent main body are connected to each other, so that the external air is passed by the main air inlet nozzle and the Multiple main air inlets enter The main lower room.
- main air inlet nozzles respectively have a main intake end and a main exhaust end, and an inner diameter of the main exhaust end corresponds to an outer diameter of the main intake end for the stack of the plurality of main body bodies
- the plurality of main body bodies are respectively provided with a main convex ring on the outer circumference thereof, and the adjacent main body bodies are stacked on each other through the main convex rings, and the main air chambers are respectively formed.
- the method further includes a pair of bottle bodies, the sub-bottle body is provided with a pair of chambers, and the pair of bottle bodies are provided with a pair of air inlet nozzles and a pair of exhaust gas nozzles, the auxiliary air inlet nozzles And the auxiliary exhaust gas nozzle is connected to the auxiliary chamber, and a pair of transfer tubes are coaxially disposed below the auxiliary air inlet nozzle, so that the auxiliary transfer tube of the auxiliary bottle body is located in the auxiliary chamber, and the auxiliary bottle
- the auxiliary exhaust gas nozzle of the body is connected to the main air inlet nozzle of the main bottle body through a first connecting pipe, the auxiliary volume of the auxiliary bottle body is laterally disposed with a pair of adjusting plates, and the auxiliary chamber is separated a secondary upper chamber and a pair of lower chambers, wherein the auxiliary adjusting plate is provided with a pair of limiting rings corresponding to the auxiliary transfer tube of the auxiliary bottle body, and the auxiliary limiting ring of the
- the auxiliary exhaust hole of the auxiliary adjusting plate is staggered with the auxiliary exhaust nozzle, and the outer peripheral edge of the auxiliary guiding inclined surface of the auxiliary adjusting plate faces downward a pair of flanges is disposed, and the auxiliary limiting ring of the auxiliary adjusting plate and the auxiliary connecting pipe of the auxiliary bottle body are connected with an auxiliary air inlet pipe, and the auxiliary air inlet pipe is provided with a plurality of auxiliary plate bodies, and the plurality of auxiliary plates
- the body is laterally disposed in the sub-subjecting chamber of the sub-bottle body, and the adjacent sub-plate bodies are respectively separated by a pair of air chambers, and each of the sub-board bodies is respectively provided with a pair of air inlet nozzles, and each of the sub-board bodies is respectively provided There are at least one pair of air holes, and the number of the auxiliary air holes of each of the sub-boards is increased from top to bottom, and the auxiliary air holes of the adjacent sub-boards are stagg
- each of the auxiliary air inlet nozzles has a pair of intake ends and a pair of exhaust ends, respectively.
- the inner diameter of the auxiliary exhaust end of each of the auxiliary air inlet nozzles corresponds to the outer diameter of the auxiliary air inlet end of the auxiliary air inlet nozzle, so that the plurality of sub-board bodies are stacked and stacked, and the plurality of sub-board bodies respectively
- a pair of convex rings are arranged on the outer circumference of the outer ring, and the adjacent plurality of sub-plate bodies are stacked on each other by the sub-convex rings of the plurality of sub-plate bodies.
- the method further includes an auxiliary bottle body, the auxiliary bottle body is provided with an auxiliary chamber, and the auxiliary bottle body is provided with an auxiliary air inlet nozzle and an auxiliary exhaust air nozzle, the auxiliary air inlet nozzle And the auxiliary exhaust gas nozzle is connected to the auxiliary chamber, and an auxiliary transfer tube is coaxially disposed below the auxiliary air inlet nozzle, so that the auxiliary transfer tube of the auxiliary bottle body is located in the auxiliary chamber, and the auxiliary bottle is simultaneously
- the auxiliary exhaust gas nozzle of the body is connected to the auxiliary air inlet nozzle of the auxiliary bottle body through a second connecting pipe, an auxiliary adjusting plate is laterally disposed in the auxiliary volume of the auxiliary bottle body, and the auxiliary receiving chamber is separated
- the auxiliary upper chamber and the auxiliary lower chamber are provided with an auxiliary limiting ring corresponding to the auxiliary transfer tube of the auxiliary bottle body, and the auxiliary limiting ring of the auxiliary adjusting plate is sleeved on the auxiliary
- Auxiliary exhaust Interlaced with the auxiliary exhaust nozzle, and an auxiliary flange is disposed on the outer circumference of the auxiliary guiding slope of the auxiliary adjusting plate toward the lower ring, and the auxiliary limiting ring of the auxiliary adjusting plate and the auxiliary bottle body are auxiliary
- An auxiliary intake pipe is connected to the transfer pipe, and an auxiliary plate body is disposed under the auxiliary intake pipe.
- the auxiliary plate body is provided with an auxiliary air inlet nozzle, and the auxiliary air inlet nozzle and the auxiliary intake air pipe are away from the auxiliary adjustment plate.
- the auxiliary plate body and the auxiliary lower chamber are surrounded by an auxiliary air chamber, and the auxiliary plate body is provided with a plurality of auxiliary air holes for external air to pass the auxiliary air inlet nozzle, the auxiliary air inlet tube, The auxiliary air inlet nozzle and the plurality of auxiliary air holes enter the auxiliary lower chamber.
- the utility model provides an air intake processor capable of regulating gaseous water molecules, which can be used for accommodating liquid, can be used in a combustion device, and guides external air and liquid to be gas-liquid mixed into gas.
- the air of the water molecules can be used for gas-liquid separation of gaseous water molecules and liquid water molecules to achieve the purpose of regulating gaseous water molecules, and then supplying air containing appropriate amount of gaseous water molecules to the combustion equipment.
- Figure 1 is a perspective view of the present invention.
- Figure 2 is an exploded perspective view of the main bottle body of the present invention.
- Figure 3 is a perspective view of an embodiment of the present invention.
- Figure 4 is an exploded perspective view of the sub-bottle body of the present invention.
- Figure 5 is a schematic view of the use of an embodiment of the present invention.
- Figure 6 is a perspective view of another embodiment of the present invention.
- Figure 7 is a schematic view of the use of another embodiment of the present invention.
- the present invention provides an air intake processor that can adjust gaseous water molecules, and includes:
- a main bottle body 100 is provided with a main chamber 10, and a main air inlet nozzle 20 and a main exhaust air nozzle 30 are disposed above the main bottle body 100.
- the exhaust gas nozzle 30 is in communication with the main chamber 10, and a main transfer tube 11 is coaxially disposed below the main air inlet nozzle 20, so that the main transfer tube 11 is located in the main chamber 10.
- a main adjustment plate 40 is laterally disposed in the main chamber 10 of the main bottle body 100, and the main adjustment plate 40 partitions the main chamber 10 with a main upper chamber 12 and a main lower chamber 13, which Main adjustment plate 40 A main limiting ring 41 is disposed on the main regulating tube 11 , and the main limiting ring 41 is sleeved on the main connecting tube 11 , and the main adjusting plate 40 faces outward from the outer periphery of the main limiting ring 41 .
- the main guide plate 40 is provided with a main exhaust hole 43.
- the main exhaust hole 43 is disposed in a staggered manner with the main exhaust nozzle 30, and the outer circumference of the main guide bevel 42 is disposed.
- the rim-down ring is provided with a main flange 44.
- a plurality of main body bodies 50 are disposed laterally in the main lower chamber 13 of the main bottle body 100, and the adjacent plurality of main body bodies 50 are respectively spaced apart from the main air chamber 51, and each of the main body bodies
- Each of the plurality of main air inlets 52 has a main intake end 521 and a main exhaust end 522, and the inner diameters of the plurality of main exhaust ends 522 substantially correspond to each other.
- An outer diameter of the plurality of main air inlet ends 521 is configured to be stacked on the plurality of main body bodies 50, and the plurality of main body bodies 50 are respectively provided with a main convex ring 53 at an outer circumference thereof.
- the main body 50 is formed by each of the main body cavities 53.
- the main body 50 is respectively provided with at least one main air hole 54 and the main air holes 54 of each of the plurality of main body bodies 50.
- the number is increased from the top to the bottom, and the main air holes 54 of the adjacent plurality of main body bodies 50 are staggered, wherein the main air inlet 52 of the main body 50 adjacent to the main air intake nozzle 20 is
- the main transfer tube 11 is in contact with each other, and the main inlet air nozzles 52 of the adjacent plurality of main body bodies are connected to each other.
- a main base 60 is disposed under the plurality of main body bodies 50.
- the peripheral edge of the main base 60 is adjacent to the main convex ring 53 of the main body 50 adjacent to the main base 60, and the main base 60 is provided with a main body.
- the air nozzle 61 is connected to the main exhaust end 522 of the main air inlet nozzle 52 adjacent to the main base 60, and the main base 60 is provided with a plurality of main through holes 62.
- the main base 60 is provided.
- a main retaining edge 63 is protruded downward from the main air nozzle 61 and the plurality of main through holes 62, and the main retaining edge 63 protrudes from the main base 60 and abuts against the main lower chamber 13 a bottom portion, and the main retaining edge 63 is provided with a main opening 64 through which the external air can enter the main air intake nozzle 20, the plurality of main air inlet nozzles 52, the main air nozzle 61 and the main opening 64. Room 13.
- the air intake processor capable of regulating gaseous water molecules further includes:
- a pair of bottles 200 a sub-tank 200 is disposed in the sub-bottle 200, and an auxiliary air nozzle 220 and a pair of exhaust nozzles 230 are disposed above the sub-bottle 200.
- 220 and the auxiliary exhaust nozzle 230 are in communication with the sub-chamber 210, and a sub-transfer tube 211 is coaxially disposed below the sub-inlet air nozzle 220, so that the sub-transfer tube 211 of the sub-bottle 200 is located at the sub-injector In the chamber 210, the sub exhaust gas nozzle 230 of the sub-bottle body 200 is also in contact with the main intake air nozzle 20 of the main bottle body 100 through a first connecting pipe 300.
- An auxiliary plate 240 is disposed laterally in the sub-chamber 210 of the sub-bottle body 200, and the sub-chamber 210 is separated by a pair of upper chambers 212 and a pair of lower chambers 213.
- the sub-transfer tube 211 of the sub-bottle 200 is provided with a sub-limit ring 241, and the sub-limit ring 241 of the sub-adjusting plate 240 is sleeved on the sub-transfer tube 211 of the sub-bottle 200, and the sub-regulating plate
- the auxiliary guide inclined surface 242 is disposed on the outer peripheral edge of the sub-restricting ring 241 of the auxiliary adjusting plate 240, and the auxiliary guiding inclined surface 242 of the sub-bottle body 200 is provided with a pair of exhausting holes 243.
- the sub exhausting holes 243 of the sub regulating plate 240 are alternately disposed with the sub exhausting nozzles 230, and a pair of flanges 244 are provided on the outer peripheral edge of the sub guiding bevel 242 of the sub regulating plate 240 toward the lower ring.
- An auxiliary air inlet pipe 250 is connected to the auxiliary limiting ring 241 of the auxiliary adjusting plate 240 and the auxiliary transfer pipe 211 of the auxiliary bottle body 200.
- the upper end of the auxiliary air inlet pipe 250 is sleeved on the auxiliary side of the secondary bottle body 200.
- the auxiliary limiting tube 241 is sleeved on the outer side of the upper end of the auxiliary air inlet tube 250.
- a plurality of sub-plates 260 are disposed under the auxiliary air intake pipe 250.
- the plurality of sub-plate bodies 260 are laterally disposed in the sub-subject chamber 213 of the sub-bottle body 200 to adjacent the plurality of sub-plate bodies.
- Each of the plurality of sub-plates 260 is provided with a pair of air inlet nozzles 262, and the plurality of sub-intake air nozzles 262 respectively have an auxiliary air inlet end 2621 and a pair of exhaust end portions 2622.
- the inner diameter of the auxiliary exhaust end 2622 of the gas nozzle 262 substantially corresponds to the outer diameter of the auxiliary air inlet end 2621 of the plurality of sub air inlet nozzles 262, and the plurality of sub-plate bodies 260 can be stacked and stacked.
- the sub-plate body 260 is respectively provided with a pair of convex rings 263 on the outer circumference of the sub-plate body 260, and the adjacent sub-plate bodies 260 are stacked on each other by the sub-protrusion rings 263 of the plurality of sub-plate bodies 260.
- the plurality of sub-plates 260 are respectively provided with at least one pair of air holes 264, and the number of the sub-air holes 264 of each of the plurality of sub-plate bodies 260 is increased from top to bottom, respectively, and adjacent to each of the plurality of sub-holes 260
- the sub-air holes 264 of the plate body 260 are staggered, wherein the sub-inlet air nozzle 262 of the sub-plate body 260 adjacent to the sub-inlet air nozzle 220 is in contact with the sub-transfer tube 211 of the sub-bottle body 200, and the phase
- the sub-intake air nozzles 262 of the plurality of sub-plate bodies 260 adjacent to each other are connected to each other.
- a sub-base 270 is disposed under the plurality of sub-boards 260.
- the peripheral edge of the sub-base 270 is in contact with the sub-protrusion ring 263 of the sub-plate body 260 adjacent to the sub-base 270, and the sub-base 270 is disposed.
- the base 270 further protrudes downwardly from the auxiliary air nozzle 271 and the plurality of auxiliary through holes 272 with a pair of retaining edges 273, and the auxiliary retaining edge 273 protrudes from the auxiliary base 270 and abuts the auxiliary lower chamber
- the bottom rib 273 is provided with a pair of openings 274 for allowing outside air to enter the pair of auxiliary air inlets 220, the plurality of secondary air inlets 262, the secondary air nozzles 271, and the secondary openings 274.
- the lower chamber 213, in the embodiment, the number of the plurality of sub-boards 260 is less than the number of the plurality of main body bodies 50.
- FIG. 5 is a schematic diagram of the use of the embodiment of the present invention.
- the sub-subject chamber 213 of the sub-bottle 200 can accommodate liquid, and the main The exhaust gas nozzle 30 can be connected to the intake port of a combustion device through an intake manifold 400, and the external air is guided by the negative pressure of the combustion device, and the auxiliary air inlet pipe 220 passes through the auxiliary air intake pipe 250,
- the sub-intake air nozzle 262 and the sub-opening 274 of the sub-base 270 enter the sub-subject chamber 213 to be gas-liquid mixed with the liquid to form air containing a large amount of gaseous water molecules, and further pass through the plurality of sub air chambers 261 and the A plurality of sub air holes 264 enter the sub lower chamber 213, and the sub exhaust holes 243 of the sub regulating plate 240 enter the sub upper chamber 212.
- the sub-exhaust hole 243 of the sub-adjusting plate 240 and the sub-exhaust gas nozzle 230 are arranged in a staggered manner, so that air containing a large amount of gaseous water molecules is on the inner wall of the sub-plate body 260, the inner wall of the sub-adjusting plate 240, and the pair.
- the inner wall of the chamber 212 condenses into liquid water molecules, thereby separating a portion of the excess gaseous water molecules from the gas and liquid to form a plurality of air containing a small amount of gaseous water molecules.
- the secondary exhaust gas nozzle 230 of the sub-bottle 200 and the first connecting pipe 300 are used to guide the air containing a small amount of gaseous water molecules by the negative pressure, and the main air inlet nozzle 20 of the main bottle body 100, the plurality of The main air inlet nozzle 52 and the main opening 64 of the main base 60 enter the main lower chamber 13, and the air enters the main lower chamber 13 through the plurality of main air chambers 51 and the plurality of main air holes 54, the air
- the main exhaust hole 43 of the main regulating plate 40 enters the main upper chamber 12, and the main air holes 54 of the plurality of main body bodies 50 are staggered, and the main exhausting holes 43 of the main adjusting plate 40 are
- the main exhaust nozzles 30 are arranged in a staggered manner to further condense the air containing the excessive gaseous water molecules into the inner wall of the main body 50, the inner wall of the main adjusting plate 40, and the inner wall of the main upper chamber 12 to form liquid water molecules, thereby obtaining gas
- the inner wall of the sub-chamber 212, the inner wall of the sub-adjusting plate 240, and the liquid water molecules of the inner walls of the plurality of sub-plate bodies 260 respectively follow the sub-regulating plate 240.
- the auxiliary venting hole 243, the inner wall of the sub-subjecting chamber 213, and the plurality of sub-air holes 264 flow into the sub-subject chamber 213, wherein the liquid water molecules can pass through the sub-opening 274 of the sub-base 270 to perform air again. Gas-liquid mixing.
- FIG. 6 is a perspective view and a schematic view of another embodiment of the present invention.
- the air intake processor capable of regulating gaseous water molecules further includes:
- An auxiliary bottle body 500 is disposed in the auxiliary bottle body 500, and an auxiliary air inlet nozzle 520 and an auxiliary exhaust air nozzle 530 are disposed above the auxiliary bottle body 500.
- the auxiliary air inlet nozzle 530 is provided.
- 520 and the auxiliary exhaust gas nozzle 530 are in communication with the auxiliary chamber 510, and an auxiliary transfer tube 511 is coaxially disposed below the auxiliary air inlet nozzle 520, so that the auxiliary transfer tube 511 of the auxiliary bottle body 500 is located in the auxiliary In the chamber 510, the auxiliary exhaust nozzle 530 of the auxiliary bottle body 500 is in contact with the auxiliary air inlet nozzle 220 of the sub-bottle body 200 through a second connecting pipe 600.
- An auxiliary adjustment plate 540 is disposed laterally in the auxiliary chamber 510 of the auxiliary bottle body 500, and the auxiliary chamber 510 is separated by an auxiliary upper chamber 512 and an auxiliary lower chamber 513.
- the auxiliary adapter tube 511 of the auxiliary bottle body 540 is provided with an auxiliary limiting ring 541, and the auxiliary limiting ring 541 of the auxiliary adjusting plate 540 is sleeved on the auxiliary transfer tube 511 of the auxiliary bottle body 500.
- an auxiliary guiding slope 542 is disposed on the outer circumference of the auxiliary limiting ring 541 of the auxiliary adjusting plate 540, and the auxiliary adjusting plate 540 is provided with an auxiliary exhausting hole 543, and the auxiliary regulating plate 540 is disposed.
- the auxiliary venting opening 543 is staggered with the auxiliary exhausting nozzle 530, and an auxiliary flange 544 is provided on the outer circumference of the auxiliary guiding slope 542 of the auxiliary regulating plate 540 toward the lower ring.
- An auxiliary intake pipe 550 is connected to the auxiliary limit ring 541 of the auxiliary adjusting plate 540 and the auxiliary transfer pipe 511 of the auxiliary bottle body 500.
- the upper end of the auxiliary intake pipe 550 is sleeved on the auxiliary bottle body 500.
- the auxiliary limiting ring 541 of the auxiliary adjusting plate 540 is sleeved outside the upper end of the auxiliary intake pipe 550.
- An auxiliary plate 560 is disposed under the auxiliary intake pipe 550, and the auxiliary plate body 560 is provided An auxiliary air inlet valve 561 is connected to an end of the auxiliary air inlet pipe 550 away from the auxiliary adjusting plate 540, and an auxiliary gas is enclosed between the auxiliary plate body 560 and the auxiliary lower chamber 513.
- the auxiliary plate body 560 is provided with a plurality of auxiliary air holes 563, so that the external air can be used by the auxiliary air inlet nozzle 520, the auxiliary air inlet pipe 550, the auxiliary air inlet nozzle 561, and the plurality of auxiliary air holes 563.
- the auxiliary lower chamber 513 is entered.
- the auxiliary lower chamber 513 of the auxiliary bottle body 500 can accommodate the liquid, and when the combustion device is started, the external air is guided by the negative pressure of the combustion device, and the auxiliary air is taken by the auxiliary air intake.
- the gas nozzle 520 enters the auxiliary lower chamber 513 through the auxiliary intake pipe 550, the auxiliary air inlet 561 and the plurality of auxiliary air holes 563 to perform gas-liquid mixing with the liquid, and forms air containing excess gaseous water molecules.
- the air of the gaseous water molecules condenses into liquid water molecules on the inner wall of the auxiliary adjusting plate 540 and the inner wall of the auxiliary upper chamber 512, thereby separating a small portion of excessive gaseous water molecules by gas and liquid, forming air containing a large amount of gaseous water molecules, and transporting
- the sub-bottle 200 is further gas-liquid separated to generate air containing a small amount of gaseous water molecules, and then the air containing a small amount of gaseous water molecules is continuously transported to the main bottle body 100 by a negative pressure for further improvement.
- the gas-liquid separation thereby generating an air containing an appropriate amount of gaseous water molecules and delivered to the combustion device 400 and explosive combustion fuel mixture through the intake manifold.
- the liquid water molecules of the auxiliary bottle body 500 When the liquid water molecules of the auxiliary bottle body 500 are excessively condensed, the liquid water molecules of the inner wall of the auxiliary upper chamber 512 and the inner wall of the auxiliary adjusting plate 540 respectively follow the auxiliary venting holes 543 of the auxiliary adjusting plate 540 and the auxiliary The inner wall of the lower chamber 513 flows into the bottom of the auxiliary lower chamber 513, wherein the liquid water molecules are again gas-liquid mixed with the air through the auxiliary air holes 563 at the bottom of the auxiliary plate body 560.
- the air intake processor of the utility model can adjust the gaseous water molecules, the main bottle body can accommodate the liquid, and the external air can enter the main bottle body, and the liquid in the main bottle body is gas-liquid mixed to contain
- the air of the gaseous water molecules is then subjected to gas-liquid separation of the gaseous water molecules and the liquid water molecules through the main regulating plate to achieve the purpose of regulating the gaseous water molecules, and then supplying the air containing the appropriate amount of gaseous water molecules to the combustion device.
- the utility model provides an air intake processor capable of regulating gaseous water molecules, which can be used for accommodating liquid, can be used in a combustion device, and guides external air and liquid to be gas-liquid mixed into air containing gaseous water molecules. It is also possible to perform gas-liquid separation of gaseous water molecules and liquid water molecules to achieve the purpose of regulating gaseous water molecules, and then supply air containing appropriate amount of gaseous water molecules to the combustion equipment.
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Abstract
一种可调节气态水分子的空气进气处理器,包括一主瓶体(100)、一副瓶体(200)和一辅助瓶体(500);主瓶体(100)内设有一主容室(10),上方穿设有一主进气气嘴(20)及一主排气气嘴(30),一主调节板(40)横向设于主容室(10)内,且主调节板(40)将主容室(10)分隔有一主上容室(12)与一主下容室(13),同时主调节板(40)设有一主导引斜面(42),主调节板(40)穿设有一主排气孔(43),且主排气孔(43)与主排气气嘴(30)呈交错设置,多个主板体(50)横向设于该主瓶体(100)的主下容室(13)内,令相邻的多个主板体(50)分别间隔有一主气室(51),多个主板体(50)相堆栈卡制,多个主板体(50)的主气孔(54)数量分别由上往下递增,同时相邻的各多个主板体(50)的主气孔(54)呈交错设置,一主底座(60)设于该多个主板体(50)下方;主瓶体(100)、副瓶体(200)及辅助瓶体(500)可单独使用或依次连接使用,该空气进气处理器引导外部空气与液体进行气液混合成含有气态水分子的空气,可对气态水分子以及液态水分子进行气液分离,达到调节气态水分子的目的,再供给含有适量气态水分子的空气给燃烧设备使用。
Description
本实用新型与一种燃烧设备的空气进气处理器有关,特别是指一种可调节气态水分子的空气进气处理器。
关于燃烧设备运作过程中,借由燃油于燃烧设备内爆炸燃烧以供燃烧设备运转作动,然而空气和燃油的爆炸燃烧常常不完全,因而产生许多废气和燃烧设备积碳,当适量的气态水分子于高温环境下能够分解出氢气和氧气,借此以达到助燃的效果,使燃烧更完全,且降低废气排放,清除燃烧设备积碳。
本实用新型的实用新型人于早先开发出一种气态分子助燃器,并获得中国实用新型专利授权公告号第CN203130297U号,该助燃器包含有一瓶体,供容置水或水与乙醇的混合液体,该瓶体穿设有一进气管,该进气管的进气端凸出于该瓶体,且该进气管的出气端设于该瓶体所容置的液体的液面下,该瓶体的上端还设有一出气管,可供气体逃出该瓶体,而该出气管的出气端连接至一进气歧管,并通过该进气歧管连接至一燃烧设备的返气口。
借此,该燃烧设备运转时所产生的负压,导引空气进入该瓶体于液体中产生气泡,借由气泡表面与液体接触,产生含有气态水分子的空气,并引导含有气态水分子的空气进入该燃烧设备内与燃油混合爆炸燃烧,并于高温时分解出氢气和氧气,借此以达到助燃的效果,然而,该助燃器无法对气态水分子以及液态水分子进行气液分离,导致进入该燃烧设备的气态水分子过多,
长时间工作后,使该燃烧设备效能降低甚至故障毁损。有鉴于此,本实用新型的实用新型人于观察到上述缺点后,认为现有的气态分子助燃器实有进一步改进的必要,而遂有本实用新型的产生。
实用新型内容
本实用新型的目的在于提供一种可调节气态水分子的空气进气处理器,可对气态水分子以及液态水分子进行气液分离,达到调节气态水分子的目的。
为达上述目的,本实用新型所提供的可调节气态水分子的空气进气处理器,包括:
一主瓶体,其内设有一主容室,且该主瓶体上方穿设有一主进气气嘴及一主排气气嘴,该主进气气嘴及该主排气气嘴均与该主容室相连通,该主进气气嘴下方同轴设有一主转接管,使该主转接管位于该主容室内;
一主调节板,其横向设于该主瓶体的主容室内,且该主调节板将该主容室分隔有一主上容室与一主下容室,该主调节板对应该主转接管设有一主限位环,且该主限位环套设于该主转接管上,同时该主调节板于该主限位环的外周缘朝外向下环设有一主导引斜面,该主调节板上穿设有一主排气孔,且该主排气孔与该主排气气嘴呈交错设置,该主导引斜面的外周缘朝下环设有一主凸缘。
进一步地,其中,该主瓶体的主下容室内横向设有多个主板体,使相邻的该主板体分别间隔有一主气室,该多个主板体分别设有一主入气气嘴,该多个主板体分别设有至少一主气孔,且各该主板体的主气孔数量分别由上往下递增,同时相邻的各该主板体的主气孔呈交错设置,其中,邻近该主进气气嘴的该主板体的主入气气嘴与该主转接管相接,且相邻的该主板体的主入气气嘴互相连接,使外部空气借由该主进气气嘴以及该多个主入气气嘴进入
该主下容室。
进一步地,其中,该主入气气嘴分别具有一主进气端及一主排气端,且该主排气端的内径对应该主进气端的外径,以供该多个主板体相堆栈卡制,同时该多个主板体分别于其外周缘向下环设有一主凸环,相邻的该主板体通过各该主凸环互相堆栈并分别形成有该主气室。
进一步地,其中,还包括一副瓶体,该副瓶体内设有一副容室,且该副瓶体上方穿设有一副进气气嘴及一副排气气嘴,该副进气气嘴及该副排气气嘴均与该副容室相连通,该副进气气嘴下方同轴设有一副转接管,使该副瓶体的副转接管位于该副容室内,同时该副瓶体的副排气气嘴通过一第一连接管与该主瓶体的主进气气嘴相接,该副瓶体的副容室内横向设有一副调节板,且将该副容室分隔有一副上容室与一副下容室,该副调节板对应该副瓶体的副转接管设有一副限位环,且该副调节板的副限位环套设于该副瓶体的副转接管上,同时该副调节板于该副调节板的副限位环的外周缘朝外向下环设有一副导引斜面,而该副调节板的副导引斜面穿设有一副排气孔,且该副调节板的副排气孔与该副排气气嘴呈交错设置,且该副调节板的副导引斜面的外周缘朝下环设有一副凸缘,同时该副调节板的副限位环与该副瓶体的副转接管连接有一副进气管,且该副进气管下方设有多个副板体,该多个副板体横向设于该副瓶体的副下容室内,使相邻的该副板体分别间隔有一副气室,各该副板体分别设有一副入气气嘴,各该副板体分别设有至少一副气孔,且各该副板体的副气孔数量分别由上往下递增,同时相邻的各该副板体的副气孔呈交错设置,其中,邻近该副进气气嘴的该副板体的副入气气嘴与该副瓶体的副转接管相接,且相邻的该副板体的副入气气嘴互相连接,使外部空气能够借该副进气气嘴、该副进气管以及多个该副入气气嘴进入该副下容室。
进一步地,其中,各该副入气气嘴分别具有一副进气端及一副排气端,
且各该副入气气嘴的副排气端的内径对应该副入气气嘴的副进气端的外径,以供该多个副板体相堆栈卡制,同时该多个副板体分别于其外周缘向下环设有一副凸环,相邻的该多个副板体通过各该多个副板体的副凸环互相堆栈各形成有该副气室。
进一步地,其中,还包括一辅助瓶体,该辅助瓶体内设有一辅助容室,且该辅助瓶体上方穿设有一辅助进气气嘴及一辅助排气气嘴,该辅助进气气嘴及该辅助排气气嘴均与该辅助容室相连通,该辅助进气气嘴下方同轴设有一辅助转接管,使该辅助瓶体的辅助转接管位于该辅助容室内,同时该辅助瓶体的辅助排气气嘴通过一第二连接管与该副瓶体的副进气气嘴相接,该辅助瓶体的辅助容室内横向设有一辅助调节板,且将该辅助容室分隔有一辅助上容室与一辅助下容室,该辅助调节板对应该辅助瓶体的辅助转接管设有一辅助限位环,且该辅助调节板的辅助限位环套设于该辅助瓶体的辅助转接管上,同时该辅助调节板于该辅助调节板的辅助限位环的外周缘朝外向下环设有一辅助导引斜面,而该辅助调节板穿设有一辅助排气孔,且该辅助调节板的辅助排气孔与该辅助排气气嘴呈交错设置,且该辅助调节板的辅助导引斜面的外周缘朝下环设有一辅助凸缘,同时该辅助调节板的辅助限位环与该辅助瓶体的辅助转接管连接有一辅助进气管,且该辅助进气管下方设有一辅助板体,该辅助板体设有一辅助入气气嘴,该辅助入气气嘴与该辅助进气管远离该辅助调节板的一端相接,且该辅助板体与该辅助下容室间围有一辅助气室,该辅助板体穿设有多个辅助气孔,使外部空气借由该辅助进气气嘴、该辅助进气管、该辅助入气气嘴以及该多个辅助气孔进入该辅助下容室。
本实用新型具有的优点在于:
本实用新型提供一种可调节气态水分子的空气进气处理器,可供容置液体,并可使用于一燃烧设备,并引导外部空气与液体进行气液混合成含有气
态水分子的空气,更可对气态水分子以及液态水分子进行气液分离,达到调节气态水分子的目的,再供给含有适量气态水分子的空气给该燃烧设备使用。
图1为本实用新型的立体图。
图2为本实用新型的主瓶体的分解立体图。
图3为本实用新型的实施例的立体图。
图4为本实用新型的副瓶体的分解立体图。
图5为本实用新型的实施例的使用示意图。
图6为本实用新型的另一实施例的立体图。
图7为本实用新型的另一实施例的使用示意图。
下面结合附图和具体实施例对本实用新型作进一步说明,以使本领域的技术人员可以更好的理解本实用新型并能予以实施,但所举实施例不作为对本实用新型的限定。
请参阅图1至图5所示,本实用新型提供一种可调节气态水分子的空气进气处理器,其包括:
一主瓶体100,其内设有一主容室10,且该主瓶体100上方穿设有一主进气气嘴20及一主排气气嘴30,该主进气气嘴20及该主排气气嘴30与该主容室10相连通,另该主进气气嘴20下方同轴设有一主转接管11,使该主转接管11位于该主容室10内。
一主调节板40,其横向设于该主瓶体100的主容室10内,且该主调节板40将该主容室10分隔有一主上容室12与一主下容室13,该主调节板40
对应该主转接管11设有一主限位环41,且该主限位环41套设于该主转接管11上,同时该主调节板40于该主限位环41的外周缘朝外向下环设有一主导引斜面42,该主调节板40上穿设有一主排气孔43,且该主排气孔43与该主排气气嘴30呈交错设置,且该主导引斜面42的外周缘朝下环设有一主凸缘44。
多个主板体50,该多个主板体50横向设于该主瓶体100的主下容室13内,令相邻的该多个主板体50分别间隔有一主气室51,各该主板体50分别设有一主入气气嘴52,该多个主入气气嘴52分别具有一主进气端521及一主排气端522,且该多个主排气端522的内径大致对应该多个主进气端521的外径,可供该多个主板体50相堆栈卡制,同时该多个主板体50分别于其外周缘向下环设有一主凸环53,相邻的该多个主板体50通过各该主凸环53互相堆栈各形成有该主气室51,该多个主板体50分别设有至少一主气孔54,且各该多个主板体50的主气孔54数量分别由上往下递增,同时相邻的各该多个主板体50的主气孔54呈交错设置,其中,邻近该主进气气嘴20的该主板体50的主入气气嘴52与该主转接管11相接,且相邻的该多个主板体的主入气气嘴52互相连接。
一主底座60,其设于该多个主板体50下方,该主底座60的周缘与邻近该主底座60的该主板体50的主凸环53相接,而该主底座60穿设有一主气嘴61,该主气嘴61与邻近该主底座60的该主入气气嘴52的主排气端522相接,且该主底座60设有多个主通孔62,该主底座60于该主气嘴61与该多个主通孔62间更朝下凸设有一主挡缘63,且该主挡缘63凸出于该主底座60,并顶抵于该主下容室13底部,而该主挡缘63设有一主开口64,使外部空气可借该主进气气嘴20、该多个主入气气嘴52、该主气嘴61以及主开口64进入该主下容室13。
请再参阅图3至图5所示,于实施例中该可调节气态水分子的空气进气处理器还包括有:
一副瓶体200,该副瓶体200内设有一副容室210,且该副瓶体200上方穿设有一副进气气嘴220及一副排气气嘴230,该副进气气嘴220及该副排气气嘴230与该副容室210相连通,另该副进气气嘴220下方同轴设有一副转接管211,使该副瓶体200的副转接管211位于该副容室210内,同时该副瓶体200的副排气气嘴230通过一第一连接管300与该主瓶体100的主进气气嘴20相接。
一副调节板240,其横向设于该副瓶体200的副容室210内,且将该副容室210分隔有一副上容室212与一副下容室213,该副调节板240对应该副瓶体200的副转接管211设有一副限位环241,且该副调节板240的副限位环241套设于该副瓶体200的副转接管211上,同时该副调节板240于该副调节板240的副限位环241的外周缘朝外向下环设有一副导引斜面242,而该副瓶体200的副导引斜面242穿设有一副排气孔243,且该副调节板240的副排气孔243与该副排气气嘴230呈交错设置,且该副调节板240的副导引斜面242的外周缘朝下环设有一副凸缘244。
一副进气管250,其同时连接该副调节板240的副限位环241与该副瓶体200的副转接管211,其中,该副进气管250上端套接于该副瓶体200的副转接管211外侧,同时该副调节板240的副限位环241套接于该副进气管250上端外侧。
多个副板体260,其设于该副进气管250下方,该多个副板体260横向设于该副瓶体200的副下容室213内,使相邻的该多个副板体260分别间隔有一副气室261,该多个副板体260分别设有一副入气气嘴262,该多个副入气气嘴262分别具有一副进气端2621及一副排气端2622,且该多个副入气
气嘴262的副排气端2622的内径大致对应该多个副入气气嘴262的副进气端2621的外径,可供该多个副板体260相堆栈卡制,同时该多个副板体260分别于其外周缘向下环设有一副凸环263,相邻的该多个副板体260通过各该多个副板体260的副凸环263互相堆栈各形成有该副气室261,该多个副板体260分别设有至少一副气孔264,且各该多个副板体260的副气孔264数量分别由上往下递增,同时相邻的各该多个副板体260的副气孔264呈交错设置,其中,邻近该副进气气嘴220的该副板体260的副入气气嘴262与该副瓶体200的副转接管211相接,且相邻的该多个副板体260的副入气气嘴262互相连接。
一副底座270,其设于该多个副板体260下方,该副底座270的周缘与邻近该副底座270的该副板体260的副凸环263相接,而该副底座270穿设有一副气嘴271,该副气嘴271与邻近该副底座270的该副入气气嘴262的副排气端2622相接,且该副底座270设有多个副通孔272,该副底座270于该副气嘴271与该多个副通孔272间还朝下凸设有一副挡缘273,且该副挡缘273凸出于该副底座270,并顶抵该副下容室213底部,而该副挡缘273设有一副开口274,使外部空气可借该副进气气嘴220、该多个副入气气嘴262、该副气嘴271以及副开口274进入该副下容室213,于本实施例中,该多个副板体260的数量少于该多个主板体50的数量。
请再同时参阅图5所示,为本实用新型的实施例的使用示意图,于使用该空气进气处理器时,该副瓶体200的副下容室213可供容置液体,而该主排气气嘴30可通过一进气歧管400连接一燃烧设备的进气口,借该燃烧设备的负压引导外部空气,由该副进气气嘴220经该副进气管250、该多个副入气气嘴262以及该副底座270的副开口274,进入该副下容室213与液体进行气液混合成含有大量气态水分子的空气,更通过该多个副气室261以及该
多个副气孔264进入该副下容室213,再由该副调节板240的副排气孔243进入该副上容室212,由于该多个副板体260的副气孔264呈交错设置,且该副调节板240的副排气孔243与该副排气气嘴230呈交错设置,使含有大量气态水分子的空气于该副板体260内壁、该副调节板240内壁以及该副上容室212内壁凝结成液态水分子,进而气液分离部分过多的气态水分子,形成含有少量气态水分子多个空气。
再借负压通过该副瓶体200的副排气气嘴230以及该第一连接管300引导含有少量气态水分子的空气,由该主瓶体100的主进气气嘴20、该多个主入气气嘴52以及该主底座60的主开口64进入该主下容室13,该空气通过该多个主气室51以及该多个主气孔54进入该主下容室13,该空气再由该主调节板40的主排气孔43进入该主上容室12,由于该多个主板体50的主气孔54呈交错设置,且该主调节板40的主排气孔43与该主排气气嘴30呈交错设置,进一步使含有过多气态水分子的空气于该主板体50内壁、该主调节板40内壁以及该主上容室12内壁凝结成液态水分子,进而气液分离部分过多的气态水分子,形成含有适量气态水分子的空气,并通过该进气歧管400输送至该燃烧设备与燃油混合爆炸燃烧。
当该副瓶体200的液态水分子凝结过多时,该副上容室212内壁、该副调节板240内壁以及该多个副板体260内壁的液态水分子,分别随着该副调节板240的副排气孔243、该副下容室213内壁以及该多个副气孔264流入该副下容室213,其中,该液态水分子可通过该副底座270的副开口274可再次与空气进行气液混合。
当该主瓶体100的液态水分子凝结过多时,该主上容室12内壁、该主调节板40内壁以及该多个主板体50内壁的液态水分子,分别随着该主调节板40的主排气孔43、该主下容室13内壁以及该多个主主气孔54流入该主下容
室13,其中,该液态水分子通过该主底座60的主开口64可再次与空气进行气液混合。
请再参阅图6以及图7所示,为本实用新型的另一实施例的立体图以及使用示意图,该可调节气态水分子的空气进气处理器还包括有:
一辅助瓶体500,该辅助瓶体500内设有一辅助容室510,且该辅助瓶体500上方穿设有一辅助进气气嘴520及一辅助排气气嘴530,该辅助进气气嘴520及该辅助排气气嘴530与该辅助容室510相连通,另该辅助进气气嘴520下方同轴设有一辅助转接管511,使该辅助瓶体500的辅助转接管511位于该辅助容室510内,同时该辅助瓶体500的辅助排气气嘴530通过一第二连接管600与该副瓶体200的副进气气嘴220相接。
一辅助调节板540,其横向设于该辅助瓶体500的辅助容室510内,且将该辅助容室510分隔有一辅助上容室512与一辅助下容室513,该辅助调节板540对应该辅助瓶体500的辅助转接管511设有一辅助限位环541,且该辅助调节板540的辅助限位环541套设于该辅助瓶体500的辅助转接管511上,同时该辅助调节板540于该辅助调节板540的辅助限位环541的外周缘朝外向下环设有一辅助导引斜面542,而该辅助调节板540穿设有一辅助排气孔543,且该辅助调节板540的辅助排气孔543与该辅助排气气嘴530呈交错设置,且该辅助调节板540的辅助导引斜面542的外周缘朝下环设有一辅助凸缘544。
一辅助进气管550,其同时连接该辅助调节板540的辅助限位环541与该辅助瓶体500的辅助转接管511,其中,该辅助进气管550上端套接于该辅助瓶体500的辅助转接管511外侧,同时该辅助调节板540的辅助限位环541套接于该辅助进气管550上端外侧。
一辅助板体560,其设于该辅助进气管550下方,该辅助板体560设有
一辅助入气气嘴561,该辅助入气气嘴561与该辅助进气管550远离该辅助调节板540的一端相接,且该辅助板体560与该辅助下容室513间围有一辅助气室562,该辅助板体560穿设有多个辅助气孔563,使外部空气可借该辅助进气气嘴520、该辅助进气管550、该辅助入气气嘴561以及该多个辅助气孔563进入该辅助下容室513。
于使用该空气进气处理器时,该辅助瓶体500的辅助下容室513可供容置液体,当该燃烧设备启动时,借该燃烧设备的负压引导外部空气,由该辅助进气气嘴520经该辅助进气管550、该辅助入气气嘴561以及该多个辅助气孔563,进入该辅助下容室513与液体进行气液混合,并形成含有过量气态水分子的空气,该空气再通过该辅助调节板540的辅助排气孔543进入该辅助上容室512,由于该辅助调节板540的辅助排气孔543与该辅助排气气嘴530呈交错设置,使含有过多气态水分子的空气于该辅助调节板540内壁以及该辅助上容室512内壁凝结成液态水分子,进而气液分离少部分过多的气态水分子,形成含有大量气态水分子的空气,并输送至该副瓶体200进一步气液分离,产生含有少量气态水分子的空气,再持续通过负压将含有少量气态水分子的空气输送至该主瓶体100进行更进一步的气液分离,进而产生含有适量气态水分子的空气,并通过该进气歧管400输送至该燃烧设备与燃油混合爆炸燃烧。
当该辅助瓶体500的液态水分子凝结过多时,该辅助上容室512内壁以及该辅助调节板540内壁的液态水分子,分别随着该辅助调节板540的辅助排气孔543以及该辅助下容室513内壁流入该辅助下容室513底部,其中,该液态水分子通过该辅助板体560底部的辅助气孔563可再次与空气进行气液混合。
再将本实用新型的特征及其可达成的预期优点陈述如下:
本实用新型的可调节气态水分子的空气进气处理器,该主瓶体内可供容置液体,并可供外部空气进入该主瓶体内,与该主瓶体内的液体进行气液混合成含有气态水分子的空气,再通过该主调节板对气态水分子以及液态水分子进行气液分离,达到调节气态水分子的目的,再供给含有适量气态水分子的空气给该燃烧设备使用。
以上所述实施例仅是为充分说明本实用新型而所举的较佳的实施例,本实用新型的保护范围不限于此。本技术领域的技术人员在本实用新型基础上所作的等同替代或变换,均在本实用新型的保护范围之内。本实用新型的保护范围以权利要求书为准。
工业应用性
本实用新型提供一种可调节气态水分子的空气进气处理器,可供容置液体,并可使用于一燃烧设备,并引导外部空气与液体进行气液混合成含有气态水分子的空气,更可对气态水分子以及液态水分子进行气液分离,达到调节气态水分子的目的,再供给含有适量气态水分子的空气给该燃烧设备使用。
Claims (6)
- 一种可调节气态水分子的空气进气处理器,其特征在于,包括:一主瓶体,其内设有一主容室,且该主瓶体上方穿设有一主进气气嘴及一主排气气嘴,该主进气气嘴及该主排气气嘴均与该主容室相连通,该主进气气嘴下方同轴设有一主转接管,使该主转接管位于该主容室内;一主调节板,其横向设于该主瓶体的主容室内,且该主调节板将该主容室分隔有一主上容室与一主下容室,该主调节板对应该主转接管设有一主限位环,且该主限位环套设于该主转接管上,同时该主调节板于该主限位环的外周缘朝外向下环设有一主导引斜面,该主调节板上穿设有一主排气孔,且该主排气孔与该主排气气嘴呈交错设置,该主导引斜面的外周缘朝下环设有一主凸缘。
- 根据权利要求1所述的可调节气态水分子的空气进气处理器,其特征在于,其中,该主瓶体的主下容室内横向设有多个主板体,使相邻的该主板体分别间隔有一主气室,该多个主板体分别设有一主入气气嘴,该多个主板体分别设有至少一主气孔,且各该主板体的主气孔数量分别由上往下递增,同时相邻的各该主板体的主气孔呈交错设置,其中,邻近该主进气气嘴的该主板体的主入气气嘴与该主转接管相接,且相邻的该主板体的主入气气嘴互相连接,使外部空气借由该主进气气嘴以及该多个主入气气嘴进入该主下容室。
- 根据权利要求2所述的可调节气态水分子的空气进气处理器,其特征在于,其中,该主入气气嘴分别具有一主进气端及一主排气端,且该主排气端的内径对应该主进气端的外径,以供该多个主板体相堆栈卡制,同时该多个主板体分别于其外周缘向下环设有一主凸环,相邻的该主板体通过各该主凸环互相堆栈并分别形成有该主气室。
- 根据权利要求1所述的可调节气态水分子的空气进气处理器,其特征 在于,其中,还包括一副瓶体,该副瓶体内设有一副容室,且该副瓶体上方穿设有一副进气气嘴及一副排气气嘴,该副进气气嘴及该副排气气嘴均与该副容室相连通,该副进气气嘴下方同轴设有一副转接管,使该副瓶体的副转接管位于该副容室内,同时该副瓶体的副排气气嘴通过一第一连接管与该主瓶体的主进气气嘴相接,该副瓶体的副容室内横向设有一副调节板,且将该副容室分隔有一副上容室与一副下容室,该副调节板对应该副瓶体的副转接管设有一副限位环,且该副调节板的副限位环套设于该副瓶体的副转接管上,同时该副调节板于该副调节板的副限位环的外周缘朝外向下环设有一副导引斜面,而该副调节板的副导引斜面穿设有一副排气孔,且该副调节板的副排气孔与该副排气气嘴呈交错设置,且该副调节板的副导引斜面的外周缘朝下环设有一副凸缘,同时该副调节板的副限位环与该副瓶体的副转接管连接有一副进气管,且该副进气管下方设有多个副板体,该多个副板体横向设于该副瓶体的副下容室内,使相邻的该副板体分别间隔有一副气室,各该副板体分别设有一副入气气嘴,各该副板体分别设有至少一副气孔,且各该副板体的副气孔数量分别由上往下递增,同时相邻的各该副板体的副气孔呈交错设置,其中,邻近该副进气气嘴的该副板体的副入气气嘴与该副瓶体的副转接管相接,且相邻的该副板体的副入气气嘴互相连接,使外部空气能够借该副进气气嘴、该副进气管以及多个该副入气气嘴进入该副下容室。
- 根据权利要求4所述的可调节气态水分子的空气进气处理器,其特征在于,其中,各该副入气气嘴分别具有一副进气端及一副排气端,且各该副入气气嘴的副排气端的内径对应该副入气气嘴的副进气端的外径,以供该多个副板体相堆栈卡制,同时该多个副板体分别于其外周缘向下环设有一副凸环,相邻的该多个副板体通过各该多个副板体的副凸环互相堆栈各形成有该副气室。
- 根据权利要求4所述的可调节气态水分子的空气进气处理器,其特征 在于,其中,还包括一辅助瓶体,该辅助瓶体内设有一辅助容室,且该辅助瓶体上方穿设有一辅助进气气嘴及一辅助排气气嘴,该辅助进气气嘴及该辅助排气气嘴均与该辅助容室相连通,该辅助进气气嘴下方同轴设有一辅助转接管,使该辅助瓶体的辅助转接管位于该辅助容室内,同时该辅助瓶体的辅助排气气嘴通过一第二连接管与该副瓶体的副进气气嘴相接,该辅助瓶体的辅助容室内横向设有一辅助调节板,且将该辅助容室分隔有一辅助上容室与一辅助下容室,该辅助调节板对应该辅助瓶体的辅助转接管设有一辅助限位环,且该辅助调节板的辅助限位环套设于该辅助瓶体的辅助转接管上,同时该辅助调节板于该辅助调节板的辅助限位环的外周缘朝外向下环设有一辅助导引斜面,而该辅助调节板穿设有一辅助排气孔,且该辅助调节板的辅助排气孔与该辅助排气气嘴呈交错设置,且该辅助调节板的辅助导引斜面的外周缘朝下环设有一辅助凸缘,同时该辅助调节板的辅助限位环与该辅助瓶体的辅助转接管连接有一辅助进气管,且该辅助进气管下方设有一辅助板体,该辅助板体设有一辅助入气气嘴,该辅助入气气嘴与该辅助进气管远离该辅助调节板的一端相接,且该辅助板体与该辅助下容室间围有一辅助气室,该辅助板体穿设有多个辅助气孔,使外部空气借由该辅助进气气嘴、该辅助进气管、该辅助入气气嘴以及该多个辅助气孔进入该辅助下容室。
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