CN218219129U - Condensate collecting assembly and heating non-combustion device - Google Patents

Abstract

The utility model discloses a condensate collecting component and a heating non-combustion device, wherein the condensate collecting component comprises a liquid storage bin; the sealing element is detachably connected to one end of the liquid storage bin, one end of the sealing element, which is far away from the liquid storage bin, is provided with an air inlet channel, one end of the sealing element, which extends into the liquid storage bin, is provided with an air inlet hole, and the air inlet channel is communicated with the air inlet hole; the heating bin is connected to one end, far away from the sealing element, of the liquid storage bin through a switching channel. The vapour that the heating of aerosol generated matrix formed can flow into the stock solution storehouse through switching channel and meet stock solution storehouse lateral wall and condense into liquid rapidly and store in the stock solution storehouse, and the stock solution storehouse is connected with the sealing member, has prevented the seepage of condensate, compares with the non-burner of conventional heating, has played and has collected the condensate, prevented the problem of condensate seepage to the device surface, has improved user experience.

Description

Condensate collecting assembly and heating non-combustion device

Technical Field

The utility model belongs to the technical field of the heating incombustible, a heating incombustible device of preventing condensate leakage is related to, and specifically speaking relates to a condensate is collected subassembly and is heated incombustible device.

Background

The heating non-Burning (HNB) equipment is a device which heats a heating element by applying electric energy to the heating element to Heat and bake a tobacco product to form aerosol for a user to suck, and compared with the traditional method that the tobacco needs to be heated to more than 800 ℃ to fully burn the tobacco leaves, the heating temperature is lower, generally between 250 and 350 ℃, the heating temperature can enable the tobacco to be in a heating but non-Burning state, the formed aerosol has unique taste, can furthest reduce the harm brought by the Burning of the tobacco, and is paid more and more attention by the consumers.

When the heating non-combustion device heats the aerosol generating substrate, the generated high-temperature gas meets the wall surface of the device and is condensed to form condensate in an oil-water mixing state, the condensate is accumulated to a large extent and then permeates the surface of the device, clothes are easily dirtied, a user needs to manually clean the device, and the user experience is damaged.

In view of the above, there is a need for further improvement of the existing non-combustion heating device to enhance the user experience.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model discloses the technical problem that will solve lies in that there is the problem of condensate seepage in the not burner of current heating to a condensate collection subassembly and the not burner of heating that prevent the condensate seepage are proposed.

In order to solve the technical problem, the technical scheme of the utility model is that:

the utility model discloses the first aspect provides a condensate collection subassembly, it includes:

a liquid storage bin;

the sealing element is detachably connected to one end of the liquid storage bin, one end, far away from the liquid storage bin, of the sealing element is provided with an air inlet channel, one end, far into the liquid storage bin, of the sealing element is provided with an air inlet hole, and the air inlet channel is communicated with the air inlet hole;

and the heating bin is connected with one end of the liquid storage bin, which is far away from the sealing element, through a switching channel.

Preferably, the air inlets are arranged at one end of the sealing element close to the adapter channel, the number of the air inlets is two, and the two air inlets are symmetrically arranged at two sides of the sealing element.

Preferably, a first sealing mechanism is arranged between the liquid storage bin and the switching channel.

Preferably, a second sealing mechanism is arranged between the switching channel and the heating chamber.

Preferably, the sealing element comprises a connecting part, the air inlet channel is arranged at one end, far away from the switching channel, of the connecting part, the air inlet part is arranged at one end, close to the switching channel, of the connecting part, the air inlet hole is formed in the air inlet part, and the air inlet part is communicated with the air inlet channel.

Preferably, the connecting part is connected with the liquid storage bin through a matched thread.

Preferably, one end of the sealing element, which is far away from the liquid storage bin, is connected with a condensate buffer mechanism.

Preferably, be provided with heating member in the heating chamber, switching passageway is including being used for connecting the first switching portion of heating member, being used for connecting the second switching portion of heating chamber and being used for connecting the third switching portion of stock solution storehouse, second sealing mechanism set up in the second switching portion with between the heating chamber.

Preferably, the third adapter part is connected with a positioning piece.

The utility model discloses the second aspect provides a device is not burnt in heating, include the condensate collect the subassembly, still include the power, the power pass through control circuit board connect in the heated warehouses.

Compared with the prior art, the technical scheme of the utility model have following advantage:

(1) The utility model provides a condensate collecting component, which comprises a liquid storage bin; the sealing element is detachably connected to one end of the liquid storage bin, one end, far away from the liquid storage bin, of the sealing element is provided with an air inlet channel, one end, far into the liquid storage bin, of the sealing element is provided with an air inlet hole, and the air inlet channel is communicated with the air inlet hole; the heating bin is connected to one end, far away from the sealing element, of the liquid storage bin through a switching channel. The vapour that the heating of aerosol generated matrix formed can flow into the stock solution storehouse through switching channel and meet stock solution storehouse lateral wall and condense into liquid rapidly and store in the stock solution storehouse, and the stock solution storehouse is connected with the sealing member, has prevented the seepage of condensate, compares with the non-burner of conventional heating, has played and has collected the condensate, prevented the problem of condensate seepage to the device surface, has improved user experience.

(2) The utility model provides a subassembly is collected to condensate, inlet port set up in the one end that the sealing member is close to the switching channel, and the inlet port be two, and two inlet port symmetries set up in the sealing member both sides. This setting mode, under the normal use state equivalently, the inlet port is located the top in stock solution storehouse, and a small amount of condensate can not get into inlet port department, does not influence admitting air.

Drawings

In order to make the content of the invention more clearly understood, the invention will now be described in further detail with reference to specific embodiments thereof, in conjunction with the accompanying drawings, in which

Fig. 1 is an exploded schematic view of a condensate collection assembly provided by an embodiment of the present invention;

fig. 2 is a schematic cross-sectional view of a condensate collection assembly provided by an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a transfer passage in a cold static liquid collecting assembly according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a heating chamber in the condensate collecting assembly provided by the embodiment of the present invention;

fig. 5 is a schematic cross-sectional view of a heating non-combustion apparatus according to an embodiment of the present invention.

The reference numbers in the figures denote: 1-a liquid storage bin; 101-mounting grooves; 2-an aerosol-generating substrate; 3-a seal; 301 — an air intake channel; 302-inlet aperture; 303-a connecting portion; 304-an air intake; 4-a transfer channel; 401-a first transition; 402-a second transition; 4021-a fastener; 403-a third transfer part; 5-heating the bin; 501-heating a bin shell; 5011-card slot; 502-a heating element; 5021-a receptacle; 5022, heating sheet; 6-a first sealing mechanism; 7-a second sealing mechanism; 8-a positioning element; 9-a condensate buffer mechanism; 10-a liquid storage part; 11-a power supply; 12-a power supply bracket; 13-a control circuit board; 14-positioning convex ribs; 15-protective housing.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

In the description of the present invention, it should be understood that the terms "upper" and "lower" are used as the terms of the orientation or the positional relationship based on the drawings, or the orientation or the positional relationship that the product of the present invention is usually placed when using, or the orientation or the positional relationship that the person skilled in the art usually understands, only for the convenience of describing the present invention and simplifying the description, but not for the indication or the suggestion that the device or the element that is referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore, should not be interpreted as the limitation of the present invention.

The terms "first", "second", and the like in the present invention are used only for descriptive distinction and have no special meanings.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "mounted" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

The embodiment provides a condensate collecting assembly, apply to and heat the incombustible device, please refer to fig. 1-4, the condensate collecting assembly that this embodiment provided includes the liquid storage bin 1, the liquid storage bin 1 is used for making the vapour that aerosol produced matrix 2 and forms after heating meet the condensation and condense into the liquid condensate water, and store this condensate water, thus prevent the condensate water seepage to the surface of the incombustible device of heating, make dirty the device, the liquid storage bin 1 is preferably the metal material, it has a cavity storehouse body, the condensate water can be collected and stored in this storehouse body. The one end of stock solution storehouse 1 can be dismantled and be connected with a sealing member 3, sealing member 3 plays the effect that prevents the condensate seepage in the stock solution storehouse 1, and in order not to influence the circulation of air, the one end that stock solution storehouse 1 was kept away from to sealing member 3 has an inlet channel 301, and inlet port 302 has been seted up to the one end in the stock solution storehouse 1 into deeply to sealing member 3, inlet port 302 and inlet channel 301 intercommunication, so, outside gas can get into stock solution storehouse 1 through inlet channel 301, inlet port 302. One end of the liquid storage bin 1, which is far away from the sealing element 3, is connected with a heating bin 5 through a switching channel 4, the heating bin 5 is used for heating the aerosol generating substrate 2, so that the aerosol generating substrate 2 is heated but is not combusted, external gas is transmitted to the heating bin 5 through the air inlet channel 301, the air inlet hole 302 and the switching channel 4 in sequence, and aerosol generated by heating the aerosol generating substrate is sucked by a user together, so that the temperature of the aerosol is reduced, and the taste is improved.

The subassembly is collected to condensate that this embodiment provided, one end through at heated warehouses 5 sets up stock solution storehouse 1, aerosol generation matrix can get into stock solution storehouse 1 through transfer passage 4 in heated warehouses 5 by the vapor that the heating warehouses formed, vapor contact transfer passage 4 and stock solution storehouse 1's lateral wall, the liquid that condenses into fast by the cold, the liquid of formation can be saved in 1 storehouse of stock solution, stock solution storehouse 1 is connected with sealing member 3, the seepage of condensate has been prevented, compare with conventional heating non-combustion apparatus, the collection condensate has been played, prevent the problem of condensate seepage to the device surface, user experience has been improved. When the amount of the condensate in the liquid storage bin 1 is accumulated to a certain extent, the condensate collecting assembly can be inverted, the condensate flows to a position close to the heating bin 5, a part of the condensate is evaporated to dryness under the heating action of the heating bin, and the liquid storage bin 1 can also be separated from the switching channel 4 periodically to pour out or throw out the condensate.

For making the circulation of air smooth, prevent that inlet port 302 from being blockked up by the condensate, as shown in the figure, inlet port 302 sets up in the tip that sealing member 3 is close to switching channel 4, so make the heating not burn when being in normal operating condition, inlet port 302 is in higher position in stock solution storehouse 1, and a small amount of condensate of collecting in the stock solution storehouse 1 is difficult to reach the position of inlet port 302 to the problem of condensate jam inlet port 302 has been avoided. In addition, in this embodiment, the number of the air inlet holes 302 is preferably 2, and the 2 air inlet holes 302 are symmetrically arranged on two sides of the sealing member 3, so that the air intake amount is larger and smoother.

In order to further improve the leakproofness of condensate collection subassembly, prevent the condensate that forms from stock solution storehouse 1 and switching channel 4's clearance seepage, an annular mounting groove 101 has been seted up in stock solution storehouse 1 connection in switching channel 4's one end, be provided with first sealing mechanism 6 in the mounting groove 101, first sealing mechanism 6 is preferably the silica gel sealing washer, this silica gel sealing washer adaptation sets up between mounting groove 101 and switching channel 4 inner wall for stock solution storehouse 1 and switching channel 4 zonulae occludens.

The end of the switching channel 4 remote from the reservoir 1 is connected to the heating chamber 5, wherein the heating chamber 5 comprises a heating chamber housing 501, and a heating element 502 connected to the interior of the heating chamber housing 501, the heating element 502 comprises a housing 5021 for housing the aerosol generating substrate 2 and a heating sheet 5022 for heating the aerosol generating substrate 2, the heating sheet 5022 is disposed in the housing 5021, when the aerosol generating substrate 2 needs to be heated, the heating sheet 5022 is inserted into the interior of the aerosol generating substrate 2, the aerosol generating substrate 2 is housed in the housing 5021, and the heating sheet 5022 generates heat under the heating effect of the heating sheet 5022 to form aerosol for inhalation. The heating chamber housing 501 is covered outside the adapting channel 4, and a second sealing mechanism 7 is disposed between the adapting channel 4 and the heating chamber housing 501, in this embodiment, the second sealing mechanism 7 may also be a silica gel sealing ring.

In order to realize the tight connection between the sealing element 3 and the liquid storage bin 1, please refer to fig. 1-2, in this embodiment, the sealing element 3 specifically includes a connecting portion 303 for connecting the liquid storage bin 1, an air inlet channel 301 is disposed at an end of the connecting portion 303 away from the liquid storage bin 1, the air inlet channel 301 is a hollow cylindrical structure, an air inlet element 304 is disposed at an end of the connecting portion 303 close to the adapting channel 4, the air inlet element 304 is also a hollow cylindrical structure, and the air inlet hole 302 is disposed on the air inlet element 304, so that the air inlet element 304 is communicated with the air inlet channel 301, and further the air inlet hole 302 is communicated with the air inlet channel 301. The connecting part 303 is rotatably connected with the liquid storage bin 1 through a matched thread.

As shown in fig. 3, in order to realize the connection between the liquid storage bin 1 and the heating bin 5, the switching channel 4 includes a first switching portion 401 for connecting the heating element 502, and is integrally formed with the first switching portion 401, and is used for connecting a second switching portion 402 of the heating bin housing 501 and a third switching portion 403 for connecting the liquid storage bin 1, wherein the second sealing mechanism 7 is disposed between the second switching portion 402 and the heating bin housing 501, specifically, the second switching portion 402 has a fastening member 4021, the heating bin housing 501 is correspondingly provided with a clamping slot 5011, and the fastening member 4021 is fittingly clamped in the clamping slot 5011. The first adaptor 401 is a hollow cylinder structure, and has an installation slot 4011, and the accommodating portion 5021 is adapted to be installed in the installation slot. The third adapter 403 is also hollow cylindrical, and has one end connected to the reservoir 1 and the other end connected to the first adapter 401. For the convenience of assembly, the positioning members 8 are further connected to two sides of the third adapting portion 403, and the positioning members 8 are in a strip-shaped structure.

For preventing when not in time clearing up the condensate in the stock solution storehouse 1, the condensate seepage is outside to the non-burner of heating, the one end that stock solution storehouse 1 was kept away from to sealing member 3 still is connected with a cold quiet liquid buffer memory mechanism 9, 9 one end of condensate buffer memory mechanism and sealing member 3 intercommunication, the other end has the through-hole with external intercommunication, so set up, make outside air can get into sealing member 3 through condensate buffer memory mechanism 9, and further get into stock solution storehouse 1, for the memory space that improves the condensate, condensate buffer memory mechanism 9 has a cavity, be provided with stock solution spare 10 in the cavity, in this embodiment, stock solution spare 10 can adopt the stock solution cotton. Through setting up condensate buffer memory mechanism 9, the risk of condensate seepage has further been reduced, when the user forgets to remember the condensate in the clearance stock solution storehouse 1 for a long time, the liquid level of condensate in stock solution storehouse 1 risees gradually, to the position that reaches inlet port 302, and flow out by inlet port 302, the condensate of flowing can get into the condensate buffer memory mechanism 9 of being connected with sealing member 3, save in stock solution spare 10, because the volume that the condensate produced is few in fact, the condensate buffer memory mechanism 9 of addding has prevented the risk of condensate seepage fully.

The embodiment further provides a heating non-combustion device, as shown in fig. 5, which includes the above-mentioned condensate collecting assembly, and further includes a power supply 11 for supplying power to the heating chamber 5, the power supply 11 is installed on a power supply bracket 12, and the power supply 11 and the condensate collecting assembly are separated by a control circuit board 13 at two sides, and at the same time, the condensate collecting assembly is also installed on the power supply bracket 12, specifically, the heating chamber 5 is connected to the top of the power supply bracket 12, and the condensate buffering mechanism 9 is connected to the bottom of the power supply bracket 12. In order to realize the positioning and installation of the condensate collecting assembly, the power supply bracket 12 is further connected with positioning convex ribs 14, the end parts of the third switching parts 403 are adaptive and clamped in the two positioning convex ribs 14, and the end parts of the positioning parts 8 are abutted against one sides of the positioning convex ribs 14 close to the switching channels 4. A protective shell 15 is arranged outside the power supply support 12, and the protective shell 15 is used for collecting components such as the power supply support 12, the power supply 11 and a condensate liquid collecting assembly.

Since the heating device provided by the embodiment employs the condensate collecting assembly, the technical effect of the condensate collecting assembly is also achieved, and details are not described here.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. This need not be, nor should it be exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. A condensate collection assembly, comprising:

a liquid storage bin;

the sealing element is detachably connected to one end of the liquid storage bin, one end, far away from the liquid storage bin, of the sealing element is provided with an air inlet channel, one end, far into the liquid storage bin, of the sealing element is provided with an air inlet hole, and the air inlet channel is communicated with the air inlet hole;

and the heating bin is connected to one end, far away from the sealing piece, of the liquid storage bin through a switching channel.

2. A condensate collection assembly according to claim 1, wherein the inlet apertures are provided at one end of the sealing member adjacent the adaptor channel, and wherein there are two inlet apertures, the two inlet apertures being symmetrically provided on either side of the sealing member.

3. A condensate collection assembly according to claim 2, wherein a first sealing mechanism is provided between the reservoir and the adaptor channel.

4. A condensate collection assembly according to claim 2 or 3, wherein a second sealing mechanism is provided between the adaptor channel and the heating chamber.

5. A condensate collecting assembly according to claim 4, wherein the sealing member comprises a connecting portion, the end of the connecting portion remote from the adaptor channel being provided with the air inlet channel, the end of the connecting portion near the adaptor channel being provided with an air inlet opening in the air inlet, the air inlet opening communicating with the air inlet channel.

6. A condensate collection assembly according to claim 5, wherein the connection portion is connected to the reservoir by a suitable screw thread.

7. A condensate collection assembly according to claim 6, wherein a condensate buffer mechanism is connected to the end of the seal remote from the reservoir.

8. The condensate collection assembly of claim 7, wherein a heating element is disposed within the heating bin, the adapter channel comprises a first adapter portion for connecting to the heating element, a second adapter portion for connecting to the heating bin, and a third adapter portion for connecting to the reservoir, and the second sealing mechanism is disposed between the second adapter portion and the heating bin.

9. A condensate collection assembly according to claim 8, wherein a locating member is connected to the third adaptor portion.

10. A device for heating non-combustibles, comprising a condensate collection assembly according to any one of claims 1 to 9, further comprising a power source, said power source being disposed on one side of said condensate collection assembly, and said power source being connected to said heating compartment by a control circuit board.

Images