CN210750430U - Miniature gaseous material transferring device - Google Patents

Abstract

The utility model relates to a miniature gaseous material transfer device, it has installed the room that takes place of an oil-gas conversion with the filling mode inside a long form casing, and the oil tank is stored up for one to the residual space, and the room that takes place is drawn the subassembly through one and is should store up the oil tank and gain the working medium material, arouses oil gas by an electric heater of establishing again, and this oil gas is through the pressure effect, and a circulation end is released to outside and is derived in a static state or developments. The utility model provides a portable miniature monomer, leading-in outside electric power convertible gaseous material provides the user and feels the device of rolling out of touching.

Description

Miniature gaseous material transferring device

Technical Field

The utility model relates to a miniature gaseous material transfer-out device.

Background

The device for fragrance diffusion is characterized by that according to the material of conversion agent material it possesses capillary diffusion or electric heating and evaporation design, and said device is an electrically-driven device, its main body is a bottle body capable of receiving liquid agent, and on the bottle mouth a ring-shaped heating element is set, and the inner hole of said heating element is used for providing through-going fibre bundle, and the inner end of said fibre bundle is used for soaking liquid, and its outer end is used for dispersing ambient air.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a miniature gaseous material rolls out device, for providing the miniature monomer of type of following oneself, leading-in outside convertible gaseous material of electric power provides the user, can carry out the inhalation and act on respiratory organ, or the sense of smell rolls out device of feeling.

The utility model discloses a realize like this, a miniature gaseous material roll-out device, it includes:

a long shell with a longitudinal groove inside, wherein one end of the long shell is provided with an upper end opening, the other end is provided with a lower end opening, and the longitudinal groove is respectively communicated with the upper end opening and the lower end opening in the front and the back;

a top cover with a through hole, which covers the upper opening and forms a discharge end;

the generating chamber is integrally positioned in the longitudinal tank body in a filling mode, and the residual space of the filled longitudinal tank body is an oil storage cabin;

a bottom sealing base capable of sealing the lower opening by the lower cover, and having a matching part combined with the matching port, wherein the matching part is recessed inwards to form a lower half chamber, and the lower half chamber and the upper half chamber are matched to form an indoor space;

an electric heating device, which is arranged in the generating chamber, one end of which is exposed out of the electric connecting end at the bottom of the bottom sealing base through an electric wire, the electric connecting end is provided with two relay terminals, one end of each relay terminal is outwards conducted with external electric power, and the inner end of each relay terminal is conducted with the electric heating device through a wire;

a pumping element, having a pumping end penetrating into the oil storage chamber and a switching end located in the generation chamber and being in heat exchange relationship with the electric heating device.

The butt joint port and the butt joint part of the generating chamber are in watertight combination, and a span port is reserved between the butt joint ports for the sucking element to pass through.

The oil storage tank is introduced into the atmospheric pressure through the combined gap of the drawing elements.

The generating chamber is introduced into atmospheric pressure through a balance passage provided in the back cover base.

The top cover is provided with a supply hole for supplying oil agent.

The electric heating device is internally provided with a sleeving space for the outer surface of the exchange end of the drawing element to be sleeved in a contact way.

A heat diffusion element is indirectly arranged between the sleeving space of the electric heating device and the sucking element.

The electric property between the electric heating device and the electric connecting end is conducted through a passive switch, and the passive switch is under the action of gas pressure or is an alternative of a heat-sensitive element.

A release channel for isolating the oil storage tank is communicated between the guide tube of the collecting cover and the through hole of the top cover, the inner end of the release channel is a guide connection generation chamber at the receiving end, and the outer end is a release port coaxially and watertight connected with the through hole of the top cover.

The utility model discloses with the mode of filling, install an oil-gas conversion's emergence room in a long form casing inside, the oil tank is hoarded for the residual space, and the emergence room is gained the working medium material by should hoarding the oil tank through a drawing component, arouses oil gas by the electric heater who establishes again, and this oil gas is through the pressure effect, and the end is outwards derived to circulation, provides the use that the user can the gas nature sense touch.

The utility model discloses a body cell body indulges that this long form casing was established is straight flute profile, and this top cap and back cover base are based on indulging through the direction combination of body cell body, if the texture of implementing is the plastify material, then easily die sinking, and easily assembly production.

The utility model provides an inner space of the electric heating device for the exchange end of the drawing element to contact and cover.

The utility model discloses an this electric heater unit is the registrate space that an electric heating coil formed, provides to draw and draws the component cover to put, and this electric heating coil forms with the coiling mode, and processing is simple and easy.

The utility model discloses an electric heating device establishes between registrate space and the drawing component, has cup jointed a heat diffusion component indirectly, and this heat diffusion component is for having high heat conductivity material, will registrate the partial heat energy of getting in space, spreads to the internal surface.

The utility model discloses a between this electric heater unit and the electric power link, through a passive switch on the electrical property, by the passive switch during operation for passive operation, in the intermittent period of use, can obtain energy-conservation to avoid the excessive accumulated heat of electric heater unit.

The utility model discloses a between the perforation of leading connecting pipe and top cap of mass flow cover, the break-over has a release channel that can keep up the oil tank, and release channel switches on the emergence room, and the outer end combines in the end of releasing at perforation place.

The utility model discloses a relay terminal outer end position that this electric power link was established is equipped with the joint portion, and this joint portion outwards leads to connect has electric property transmission's the element that connects that should lead to connect the element can be plug-in element, or has the electric power transmission line of leading of flexible body.

The utility model discloses this gaseous material's mode of dispersing can be static or dynamic.

Drawings

Fig. 1 is an exploded view of the assembly of the roll-out device of the present invention.

Fig. 2 is a schematic view of the combination relationship of the roll-out device of the present invention.

Fig. 3 is a front view of the combined structure of the roll-out device of the present invention.

Fig. 4 is one of the front views of the combination structure of the roll-out device of the present invention.

Fig. 5 is a schematic view of the electric heating device of the present invention.

Fig. 6 is a cross-sectional view of the structure of the heat diffusion element of the present invention.

Fig. 7 is a schematic view of the electric heating device of the present invention with a passive switch.

Fig. 8 is a schematic view of the combination of the external conductive element of the power connection terminal of the present invention.

FIG. 9 is a schematic view of the oil bin of the present invention with a sealing cover on the outer surface.

Description of the symbols:

oil storage tank-10 long shell-11 with opening at upper end-12

Lower end opening-13 supply hole-14 sealing cover body-15

Roll-out device-100 longitudinal body groove-110 oil agent-L

Generation room-20 collecting cover-21 back cover base-22

Upper half cabin-210 guide pipe-211 involution port-212

Lower half-cabin-220 straddle port-221 involution-222

Electrothermal device-30 electrothermal coil-31 thermal diffusion element-32

Heat conducting surface-33 inner rack-34 inner tooth surface-35

Air groove-36 air holes-37 nesting space-300

Spiral span-310 element for drawing-40 drawing end-41

Exchange end-42 escape channel-50 access tube-51

Collection end-52 let-53 balance channel-60

Conducting pipe-61 electric power connecting end-70 relay terminal-71

Relay terminal-72 lead-73 lead-74

Passive switch-75 combination part-76 top cover-80

Perforation-81 guide-connecting element-90 leakproof sleeve-54

End of flowing and discharging-120 plug-150

Detailed Description

A miniature gaseous substance transferring device is characterized by that in order to provide a portable transferring device capable of transferring gaseous substance by introducing external electric power and providing olfactory sensation, an oil-gas conversion generating chamber is mounted in the interior of long shell body in a filling mode, said generating chamber can obtain working agent material from said oil storage tank, then the electric heating device can be used for exciting oil gas, said oil gas can be outwards discharged from a discharge channel by means of pressure action, so that it can provide user with gaseous sensation, for convenient combination production, the longitudinal tank body of said long shell body is made into the form of straight tank, said top cover and bottom-sealing base are combined according to the longitudinal direction of longitudinal tank body, if its implemented texture is plasticized material, it is easy to open the mould, and on the structure a sleeve space is set in the interior of said electric heating device, and a sucking element is set on the outer surface of exchange end of said sucking element, so that said sucking element can be positioned, and said electric heating device can be made into convenient production, can be an electric heating coil, and a sleeving space formed by the electric heating coil is used for sleeving the drawing element.

The electric heating device is characterized in that a heat diffusion element is indirectly sleeved between a sleeving space and a drawing element, the heat diffusion element is made of high-heat-conductivity materials, the heat energy obtained by the sleeving space is diffused to the inner surface to act on the surface of an included exchange end, an electric control mode is adopted, a passive switch can be arranged between the electric heating device and an electric connecting end, the passive switch is operated passively when working, energy can be saved in the intermittent time period of use, the electric heating device is prevented from being coked due to excessive heat accumulation, in the aspect of leakage prevention, a release channel capable of isolating an oil storage cabin penetrates between a guide connecting pipe of the collecting cover and a through hole of the top cover, the release channel is communicated with a generation chamber, and the outer end of the release channel is combined with a flow discharge end where the through hole is located.

In addition, the outer end of the relay terminal of the power connection terminal is provided with a combination part, the combination part is externally connected with a conductive connection element for electrical transmission in a conductive way, and the conductive connection element can be a plug-in element or a power transmission conductive connection wire with a flexible body section.

The utility model is a small portable type, which is convenient for the introduction of a power supply cooperating with action at any time, and can generate gaseous substances for use, and the dispersing mode is static and dynamic.

The utility model discloses a transfer-out device, for providing portable miniature can generate heat excitation effect through external power, drive oil body molecule free, the device that supplies the sense organ to use, its working power relies on the outside to be leading-in, this external power can adopt any connected mode, and the source of this external power can be according to the power supply that has USB output, 3C action products such as mobile power supply or cell-phone, or can rely on the DC power supply through the conversion in the room, be easily hand-carried, the transfer-out device that can supply individual use at any time and any place, and the liberation of this gaseous state material, but for static state give off, or by multi-functional uses such as the dynamic divergence that external force was drawn out.

The essence of the oil used can be a substance with curative effect, such as essence capable of regulating nerve, or an agent for inhalation treatment of respiratory organs, or a nicotine chemical mixture for smoking cessation assistance, the above-mentioned agent is selected from a low-temperature thermal catalysis agent capable of dispersing molecules, and can be an oily or aqueous synthetic agent, which is collectively referred to as oil in the description.

For the detailed structure and the operation of the present invention, please refer to the following description:

referring to fig. 1, the roll-out device 100 comprises an elongated housing 11 with an elongated exterior shape, a longitudinal tank 110 extending through the interior of the elongated housing in a longitudinal direction, a longitudinal tank 110 extending through the longitudinal tank 110 and outwardly from an upper opening 12 and a lower opening 13 of the elongated housing 11, a top cover 80 having a through hole 81, the top cover 80 covering the upper opening 12, a collecting cover 21 combined with a bottom sealing base 22 in a space of the longitudinal tank 110 to form a generating chamber 20, an upper chamber 210 disposed in the collecting cover 21, a mating port 212 disposed on a lower end surface of the collecting cover 21, the mating port 212 and a mating portion 222 disposed on the bottom sealing base 22 being capable of being hermetically combined, the bottom sealing base 22 having a spanning port 221 recessed inward from the mating portion 222, the spanning port 221 and the upper chamber 210 of the collecting cover 21 being combined to form a generating chamber 20 (please refer to fig. 3), an electric heating device 30 suspended in a space between the upper chamber 210 and the lower chamber 220, the electric heating device 30 is connected to the electric power through the relay terminal 71 and the relay terminal 72 of the electric power connection terminal 70 disposed at the bottom of the back cover base 22, the electric heating device 30 is transversely provided with a fitting space 300, the fitting space 300 is provided for a drawing element 40 to be fitted, the drawing element 40 can straddle a straddle port 221 of the back cover base 22, the periphery of the back cover base 22 can seal the lower end opening 13 of the long housing 11, and the connection pipe 211 disposed on the current collecting cover 21 is connected to the through hole 81.

Referring to fig. 2, after the roll-out apparatus 100 is assembled by the aforementioned structures, the top cover 80 is covered and sealed on the upper opening 12 of the elongated housing 11, the bottom sealing base 22 is sealed on the lower opening 13 of the elongated housing 11, the upper end of the bottom sealing base 22 is combined with the collecting cover 21, the collecting cover 21 is conducted through the through hole 81 of the top cover 80 by the connecting tube 211, and the through hole 81 and the top cover 80 are integrated, including the external appearance of the upper end of the elongated housing 11, and defined as the discharge end 120 of the roll-out apparatus 100.

The drawing end 41 of the drawing element 40 is exposed out of the bottom sealing base 22, the mating port 212 of the collecting cover 21 and the mating portion 222 of the bottom sealing base 22 are watertight, the straddle port 221 of the bottom sealing base 22 provides the drawing element 40 to straddle, a generating chamber 20 is formed in the combined space inside the collecting cover 21 and the bottom sealing base 22, an electric heating device 30 is contained inside the generating chamber 20, the electric heating device 30 is electrically conducted through the bottom end electric connecting end 70, after the longitudinal groove body 110 inside the long shell 11 is placed in the generating chamber 20, the residual space forms an oil storage chamber 10, the oil storage chamber 10 can provide storage of converted oil, and the exposed drawing end 41 is the space invading the oil storage chamber 10.

Referring to fig. 3 (in conjunction with fig. 1), the roll-out device 100 is formed by penetrating a long housing 11 to form a longitudinal tank 110, the upper opening 12 is covered by a top cover 80, the top cover 80 is provided with a supply hole 14, the supply hole 14 can open and close the longitudinal tank 110, the collection cover 21 forming the generating chamber 20 and the bottom sealing base 22 are combined to occupy the space of the longitudinal tank 110, the remaining space of the longitudinal tank 110 is an oil storage tank 10, the oil storage tank 10 is used for storing oil L, the suction end 41 of the suction element 40 is located in the space of the oil storage tank 10 through a spanning port 221, and the exchange end 42 is located in the space of the generating chamber 20 and is sleeved by the sleeving space 300 of the electric heating device 30.

The relay terminals 71 and 72 of the electric power connection terminal 70 are connected to the electric power of the electric heating device 30 via the wires 73 and 74, and the outer ends of the relay terminals 71 and 72 are exposed to allow the electric power to be externally conducted.

The guiding tube 211 of the collecting cover 21 is a through hole 81 that is conducted to the top cover 80, wherein a discharging channel 50 is used to run through, the discharging port 53 of the probing tube 51 is connected to the through hole 81, and forms a discharging end 120 together with the top of the elongated housing 11 including the appearance of the top cover 80, the discharging end 120 can be used for the suction of the lips of the user, the collecting end 52 of the discharging channel 50 is inserted into the generating chamber 20, and a leakage-proof sleeve 54 can be sleeved on the outer portion of the discharging channel 50 for watertight combination, the leakage-proof sleeve 54 can be made of elastic material to prevent the generating chamber 20 including the through hole 81 of the top cover 80 and the discharging channel 50 from being isolated from the oil storage chamber 10.

The generation chamber 20 is formed by the upper half 210 of the current collecting cover 21 and the lower half 220 of the back cover base 22 being combined with the combining part 222 through the combining port 212, the space of the generation chamber 20 is combined with the electric heating device 30, and the electric heating device 30 can be supported and positioned by the conducting wire 73 and the conducting wire 74 and is also picked up by the drawing element 40.

The oil storage chamber 10 is filled with the oil L from the supply hole 14, the oil L contacts the drawing end 41 of the drawing element 40, the drawing end 41 is a capillary drawing function to bring the oil L into the exchanging end 42, the oil L forms an oil film (not shown in the figure) on the surface of the exchanging end 42 by the polymerization force of oil molecules, the oil film is contactable with the engaging space 300 of the electric heating device 30, the electric heating device 30 conducts electricity through the electric connecting end 70 to generate electric heating function, the generated heat molecules exchange heat with the oil film of the exchanging end 42 and catalyze the oil molecules to increase the swimming speed, and form gas molecules after migration, during the formed gas conversion process, due to the change of density, in the space of the generating chamber 20, due to the expansion of molecules, different pressures are generated, and are guided from the connecting pipe 211 to the through hole 81, or pushed to the releasing hole 53 through the accommodating end 52, and emits to the exterior of the discharge end 120 in a static state without external force outside the roll-out device 100, so that the user can smell the odor molecules catalyzed by the generation chamber 20.

By changing the power of the electric heating device 30 or the properties of the oil solution L filled in the chamber, the amount of gas emitted from the generating chamber 20 can be changed, thereby providing different adjustment for the user's taste perception.

The releasing speed of the odor molecules from the discharge end 120 is further changed by the compensation of the atmospheric pressure, the dynamic dispersion operation is formed, the atmospheric pressure can be introduced from a balance channel 60 disposed at the bottom of the back cover base 22, the balance channel 60 is provided with a conducting tube 61, the outer end is contacted with the ambient atmospheric pressure, the inner end is conducted in the generation chamber 20, when the discharge end 120 is sucked by external force, such as a general air extraction device or a user's mouth, the negative pressure generated by the generation chamber 20 is guided by the balance channel 60, the external atmospheric pressure is balanced, the air flow is increased in the passage of the release channel 50, the flow is increased, the releasing speed of the gaseous substance converted by the electric heating device 30 can be increased, and the electric heating device 30 can further increase the power, the heat energy requirement of conversion is satisfied.

The long shell 11 is located at the upper opening 12 of the supply hole 14 for receiving the top cover 80 inner surface movable cover seal, the top cover 80 relative to the supply hole 14 for open and close movable combination, the long shell 11 bottom of the bottom sealing base 22 and the lower opening 13 inner surface, for example, using glue, or ultrasonic fusion fixed combination, or for maintenance convenience, can be sealed bottom base 22 and the lower opening 13 resistance, but its combination must be watertight.

The oil storage chamber 10 stores the oil L, the oil storage chamber 10 is a sealed space, when the oil L is to be delivered toward the exchange end 42, the atmospheric pressure is supplemented inside the oil storage chamber 10, and the atmospheric pressure can be guided to the inside of the oil storage chamber 10 through the straddle port 221 by the capillary action of the drawing element 40, so that the oil L can be guided to the exchange end 42 by releasing, wherein the straddle port 221 connected with the drawing end 41 can also reserve a gap, so that the fluid can be distributed to the outer surface of the exchange end 42 along the gap.

Referring to fig. 4, the electric heating device 30 of the roll-out device 100 is disposed in the generating chamber 20 for simple manufacture, can be set as an electric heating coil 31, two ends of the electric heating coil 31 are respectively guided to the relay terminal 71 and the relay terminal 72 of the power connection terminal 70 through the conducting wire 73 and the conducting wire 74, the electric heating coil 31 is formed by spirally winding, two turns have a spiral span 310 with spiral pitch, a nesting space 300 is formed inside the axial direction, the engaging space 300 is provided for the exchange end 42 of the drawing element 40 to pass through, and the heat generated by the electric heating device 30 acts on the surface of the exchange end 42, by contact operation heat exchange, the oil film of the oil solution L is heated and activated to form gaseous oil gas molecules which are output from the release channel 50, the electrothermal coil 31 is a simple manufacturing method, and the power modulation can be determined by the external power.

Referring to fig. 5, a heat diffusion element 32 is indirectly interposed between the engaging space 300 of the electric heating device 30 and the outer surface of the exchange end 42 of the drawing element 40, the heat diffusion element 32 is made of a material with high thermal conductivity, and the outer surface receives the heat energy of the electric heating device 30, and indirectly heats the body of the heat diffusion element 32 through the heat balance effect, so as to bring the heat mass to the surface of the exchange end 42 for heat exchange therewith.

The heat diffusion element 32 may be a tubular body with an inner circle for receiving the exchange end 42 and a length range with air holes 37 opened transversely for releasing the pressure smoke excited therein from the air holes 37.

The electric heating device 30 is an electric heating coil 31, and air holes 37 are opened between spiral spans 310 of the electric heating coil 31, so that the coil of the electric heating coil 31 does not block the passage of the air holes 37, and the generated heat can be uniformly distributed between the two air holes 37.

Referring to fig. 6, the inner surface of the heat diffusion element 32 is planed radially with air grooves 36, the residual inner tooth surface 35 contacts with the outer surface of the exchange end 42 of the drawing element 40, the air grooves 36 provide the smoke emission path, the heat conduction surface 33 of the heat diffusion element 32 contacts with an electric heating element such as the electric heating coil 31, so that the heat generated by the electric heating coil 31 is guided to the inner tooth strips 34 through the heat conduction surface 33 and is indirectly and uniformly transferred to the inner tooth surface 35 to heat the oil film (not shown) on the surface of the exchange end 42, the smoke emitted from the surface can be emitted through the air grooves 36, or air holes 37 are vertically communicated between the air grooves 36 and the heat conduction surface 33 to assist the smoke inside the air grooves 36 to be emitted outwards, the positions of the air holes 37 are indirectly between the length ranges of the spiral spans 310 as shown in fig. 5.

Referring to fig. 7, the roll-out device 100 is operated by external force through the discharge end 120 to change the internal pressure of the generating chamber 20, such as forming negative pressure, the positive pressure is supplemented by the balance channel 60, the working time of the electric heating device 30 can be determined by a passive switch 75, the passive switch 75 is disposed between the electric heating device 30 and the power connection end 70, the passive switch 75 is a single body acted by gas pressure, the change of the gas flow pressure is sensed according to the sensing of the pressure change, when the path from the balance channel 60 to the generating chamber 20 passes through the passive switch 75, the pressure change is sensed, the passive switch 75 operates to activate the electric power between the power connection end 70 and the electric heating device 30, if the pressure of the generating chamber 20 is balanced with the atmosphere, the passive switch 75 stops working, such that the electric heating device 30 is subjected to external pressure difference, such as under the negative pressure, the passive switch 75 drives the electric heating device 30 to work, therefore, when the dynamic emission operation is performed, the power is supplied to the electric heating device 30 to perform heat exchange, and the intermittent time electric heating device 30 is not used, so that the energy-saving effect is achieved.

The passive switch 75 can also be a thermal-sensitive device, when the discharge end 120 is dynamically operated by external force, the thermal-sensitive effect induces the temperature variation of the airflow, and the generated electronic quantity changes to generate a command current, so as to allocate the operation time of the electric heating device 30.

Referring to fig. 8, the power connection end 70 of the roll-out device 100 may be provided with a connection portion 76 on the outer surface thereof, the connection portion 76 may be connected to an external conductive element, such as a plug, a socket, or an extended wire, the plug or the socket may be a USB conductive element 90, and a jumper wire, the wire body of the jumper wire may be flexibly and plastically deformed, and the deformed cable may support the roll-out device 100 to be fixed at any angular position.

The coupling portion is any magnetic structure that can be inserted, clamped, or magnetically attracted to each other by hands, and the structure is a general design, and will not be described herein, and mainly provides a coupling basis for the conductive connection element 90 to be electrically connected to the power connection terminal 70.

Referring to fig. 9, the bottom sealing base 22 of the long housing 11 of the roll-out apparatus 100 is a sealing top cover 80, a sealing cover 15 can be sleeved on the periphery of the upper half of the body, and the sealing cover 15 can be in a sealing state, so as to assist in preventing oil from leaking out of the oil storage tank 10.

The oil L enters the exchange end 42 from the drawing end 41 of the drawing element 40 and is driven by the electric heating device 30 to be dispersed into a molecular state, under a certain period, when the input power of the electric heating device 30 cannot meet the requirement of dispersing the oil amount drawn into the exchange end 42, the residual oil is accumulated in the generation chamber 20, the capillary action of the exchange end 42 is the normal state of drawing the oil L from the oil storage chamber 10, the oil body 42 is connected with the corner end position of the inner wall of the generation chamber 20, namely, the oil is accumulated, the oil body molecular viscous force is accumulated in a large amount to climb on the inner surface of the generation chamber 20, and the oil excessively accumulated in the generation chamber 20 is leaked out from the release port 53 under the action of the gravity and the spatial corner position where the oil body 100 is located after the oil film is sufficiently climbed.

For immediate anti-blocking, a plug 150 is provided at the outlet of the discharge end 120, such as the discharge outlet 53, to ensure leak-proof during storage.

The plug 150 is configured to be integrally and synchronously operable with the closure cap 15, and the plug 150 also follows the cap seal release outlet 53 when the closure cap 15 is covering the closure discharge end 120.

As mentioned above, the oil excessively accumulated in the generation chamber 20 will extend from the corner position where the exchange end 42 meets the inner surface of the generation chamber 20 to the release channel 50, and in order to prevent the accumulated oil from seeping out from the release channel 50, the release outlet 53 of the release channel 50 is extended into the suspension position of the generation chamber 20 in a deep manner, so that the oil attached to the inner surface of the generation chamber 20 is climbed, and the oil is difficult to pass through the release outlet 53 regardless of the space angle position of the rotating device 100, thereby preventing the oil from seeping out.

Claims (10)

1. A micro gaseous material transferring device is characterized by comprising:

a long shell with a longitudinal groove inside, wherein one end of the long shell is provided with an upper end opening, the other end is provided with a lower end opening, and the longitudinal groove is respectively communicated with the upper end opening and the lower end opening in the front and the back;

a top cover with a through hole, which covers the upper opening and forms a discharge end;

the generating chamber is integrally positioned in the longitudinal tank body in a filling mode, and the residual space of the filled longitudinal tank body is an oil storage cabin;

a bottom sealing base capable of sealing the lower opening by the lower cover, and having a matching part combined with the matching port, wherein the matching part is recessed inwards to form a lower half chamber, and the lower half chamber and the upper half chamber are matched to form an indoor space;

an electric heating device, which is arranged in the generating chamber, one end of which is exposed out of the electric connecting end at the bottom of the bottom sealing base through an electric wire, the electric connecting end is provided with two relay terminals, one end of each relay terminal is outwards conducted with external electric power, and the inner end of each relay terminal is conducted with the electric heating device through a wire;

a pumping element, having a pumping end penetrating into the oil storage chamber and a switching end located in the generation chamber and being in heat exchange relationship with the electric heating device.

2. The apparatus as claimed in claim 1, wherein the chamber has a watertight assembly between the mating port and the mating portion, and a straddle port is reserved between the mating port and the mating portion for the sucking element to straddle.

3. The micro gaseous matter transfer-out apparatus as claimed in claim 1, wherein the oil sump is introduced into the atmospheric pressure through the combined gap of the pumping member.

4. The apparatus for transferring out micro gaseous substances according to claim 1, wherein the generating chamber is introduced into atmospheric pressure through an equalizing passage provided in the back cover base.

5. The micro gaseous material transporting device as claimed in claim 1, wherein the top cover is provided with a supply hole for supplying an oil agent.

6. The apparatus as claimed in claim 1, wherein the electric heating device has a space for accommodating the exchange end of the drawing element.

7. The apparatus as claimed in claim 1, wherein a heat diffusion element is indirectly disposed between the housing space of the electric heating device and the drawing element.

8. The apparatus for transferring out micro gaseous substances according to claim 1, wherein the electric connection between the electric heating means and the electric power connection terminal is electrically conducted through a passive switch.

9. The apparatus for transporting out micro gaseous substances according to claim 8, wherein said passive switch is one of a gas pressure action and a heat sensitive action.

10. The apparatus for transferring out micro gaseous substances according to claim 1, wherein a discharge passage for isolating the oil storage tank is connected in series between the connecting tube of the collecting hood and the through hole of the top cover, the inner end of the discharge passage is a receiving end connecting chamber, and the outer end is a discharge port coaxially and watertight connected to the through hole of the top cover.

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