CN111195573A - Quantitative feeding heater and heating method thereof - Google Patents

Abstract

The invention discloses a quantitative feeding heater and a heating method thereof, wherein the quantitative feeding heater comprises a coiled material storage device, a rotating shaft, a heating device for heating one unit to be heated of the coiled material storage device, an airflow sensor and a control device, the rotating shaft rotates to enable the unit to be heated to be positioned at the heating device, when the heater is started, the control device rapidly heats the unit to be heated to a set temperature for a user to suck, the airflow sensor detects the inhaled aerosol quantity, and when the inhaled aerosol quantity reaches a preset value, the heating device is controlled to stop heating, so that the heater has a quantitative atomizing function, and the using requirements of the consumer are met. When the device is used, the reel-shaped storage device is controlled by the rotating shaft to convey one of the units to be heated to the heating device, and the heating device heats the units to be heated uniformly, so that useful components in the aerosol are released uniformly in the using process, and the requirement of quantitatively providing the required components is met.

Description

Quantitative feeding heater and heating method thereof

Technical Field

The invention relates to the technical field of heating atomization, in particular to a quantitative feeding heater and a heating method thereof.

Background

Heating atomizing product all is whole continuous heating in the existing market, if in the heating process, when appearing being heated inhomogeneous phenomenon, can make useful component in the aerial fog release inhomogeneous in the use, will not satisfy the demand that the ration provided required component.

For example: "cannabinoids" is a controversial topic that is currently of increasing public concern. While cannabis has long been generally recognized as an illegal "recreational" drug, it has also been used for a long time as a medicine.

When cannabis is used as an illicit recreational drug, the active ingredient Δ 9THC therein is typically delivered to the lungs in the form of an impure non-medicinal aerosol in cannabis-burning smoke, and the aerosolized Δ 9THC entrained in the inhaled smoke is absorbed within seconds and efficiently delivered to the brain. Compared to other routes of administration, inhalation provides a more rapid pharmacological action and peak blood concentration comparable to that of administration by intravenous injection, but is a less invasive technique and therefore requires strict control of the amount of inhalation and extraction of the desired components in a metered dose of cannabis. However, the existing heated aerosol products are not metered and therefore cannot control the aerosol inhalation volume well.

Thus, the prior art has yet to be improved and enhanced.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the present invention provides a quantitative feeding heater and a heating method thereof, which can quantitatively supply materials to be heated to meet the use requirements of users.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a ration feed heater, is including the roll-like storage device that is used for quantitative storage, be used for supplying roll-like storage device to receive the pivot of unreeling, one of them one of which is used for heating roll-like storage device to wait heating element's heating device, air current sensor and controlling means, the pivot rotates and makes and wait that heating element is located heating device department, and when starting the heater, controlling means will wait that heating element heats to set for the temperature fast and supply the user to inhale, and air current sensor detects inspiratory aerial fog volume, and when inspiratory aerial fog volume reaches the default, control heating device stop heating.

The quantitative feeding heater also comprises a rotating device which is connected with a rotating shaft, and the control device controls the rotating device to enable the coiled material storage device to rotate a unit to be heated to the heating device before heating.

The quantitative feeding heater in, roll-like storage device includes that quantitative storage material is rolled up, is unreeled chamber, rolling chamber, it respectively sets up one in chamber and the rolling chamber to unreel the pivot, it presets the interval to unreel to have between chamber and the rolling chamber, heating device sets up unreel between chamber and the rolling chamber.

The quantitative feeding heater in, the quantitative storage book includes a plurality of equidistance, quantitative storage caves, the sealed setting in middle of the storage cave treat the heating unit.

In the quantitative feeding heater, the preset distance is the width of one material storage hole.

In the quantitative feeding heater, the unreeling cavity is provided with a discharge hole for stretching the quantitative storage coil, and the reeling cavity is provided with a feeding hole for stretching the quantitative storage coil.

The quantitative feeding heater in, heating device includes preceding heating plate and back heating plate, preceding heating plate is relative with the back heating plate, and is and predetermines the clearance setting, predetermine the thickness that the clearance is a storage cave.

In the quantitative feeding heater, the heating device further comprises a puncture assembly arranged at the upper part and/or the lower part of the front heating sheet and the rear heating sheet.

In the quantitative feeding heater, the heating device further comprises a front sealing cover covered on the front heating plate and a rear sealing cover covered on the rear heating plate.

A method of heating a metered dose heater as claimed in any preceding claim, comprising the steps of:

the rotating shaft rotates to enable a unit to be heated of the quantitative storage roll to be positioned at the heating device;

the control device heats the heating device to atomize the unit to be heated;

when the inhaled aerosol quantity reaches a preset value, controlling the heating device to stop heating;

the rotating shaft rotates to enable the next unit to be heated to move to the heating device.

Compared with the prior art, the quantitative feeding heater and the heating method thereof provided by the invention have the advantages that when the quantitative feeding heater is used, the roll-shaped material storage device is controlled by the rotating shaft to convey one unit to be heated to the heating device, and the heating device is used for heating the unit to be heated, so that the unit to be heated is heated uniformly, and useful components in aerosol are released uniformly in the using process, and the requirement of quantitatively providing required components is met. And the heater can reach the required temperature quickly by heating the single unit to be heated every time, so that the heater is free from waiting for a long time, and the experience of consumers is improved.

Further, when the inhaled aerosol amount reaches a preset value, the control device controls the heating device to stop heating, and gives a prompt to enable the rotating shaft to automatically or manually rotate the next unit to be heated to the heating device, and the control device can control the heating device to heat to control the daily atomization amount only when the next preset time is reached.

In addition, the electronic cigarette box is simple in structure, easy to operate, convenient to carry and applicable to the field of electronic cigarettes and medical treatment.

Drawings

Fig. 1 is an exploded view of a constant-volume feed heater according to the present invention.

Fig. 2 is a schematic structural view of the constant-volume feeder heater according to the present invention with the upper cover removed.

FIG. 3 is a flow chart of a method of heating a metered feed heater according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "on," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

It should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative to each other or are referred to the normal use state of the product, and should not be considered as limiting.

Referring to fig. 1 and 2, the heater for quantitatively feeding provided by the present invention includes a rolled material storage device 1 for quantitatively storing material, a rotating shaft 2 for winding and unwinding the rolled material storage device 1, a heating device 3 for heating one unit to be heated of the rolled material storage device 1, an air flow sensor (not shown in the figure) and a control device (not shown in the figure), wherein the rolled material storage device 1 is disposed on the rotating shaft 2, and the air flow sensor and the heating device 3 are electrically connected to the control device.

The rotating shaft 2 rotates to enable the unit to be heated to be located at the heating device 3, when the airflow sensor detects airflow (namely airflow sucked by a user), the control device enables the heating device 3 to rapidly heat the unit to be heated to a set temperature for the user to suck, and when the airflow sensor detects that the amount of inhaled aerosol reaches a preset value, the control device controls the heating device 3 to stop heating, so that the heater has a quantitative atomization function, and the use requirements of the consumer are met.

When the device is used, the roll-shaped material storage device 1 is controlled by the rotating shaft 2 to convey one of the units to be heated to the heating device 3, the heating device 3 is used for heating the units to be heated uniformly, and therefore useful components in the aerial fog are released uniformly in the using process, and the requirement of quantitatively providing the required components is met. Furthermore, the heater can reach the required temperature quickly by heating the single unit to be heated every time, so that the heater is prevented from waiting for a long time, and the experience of consumers is improved.

According to the invention, the airflow sensor is used for detecting the airflow, and when whether the amount of the aerosol inhaled by a user reaches a preset value is calculated by combining the flow rate and the time of the aerosol, the control device controls the heating device 3 to stop heating and give a prompt, so that the rotating shaft 2 automatically or manually rotates the next unit to be heated to the heating device 3, the amount of the aerosol inhaled each time can be accurately controlled, and the aerosol inhalation device is convenient to use.

Moreover, when the inhaled aerosol amount reaches a preset value, the control device controls the heating device 3 to stop heating, and then the next preset time (for example, every 24 hours, every 8 hours, or a set timing time, etc.) is needed, and the control device can control the heating device 3 to heat, so as to control the daily atomization amount. For example, when the mist amount of one inhalation reaches the set requirement, the control device counts time and enters a dormant state, and only when the timing time is reached, the control device can be awakened, so that excessive inhalation is avoided, and the aerosol inhalation device is suitable for quantitative medicines such as cannabis.

In this embodiment, the prompting mode may be a voice mode, a buzzer mode, a vibration mode, or the like, so as to prompt the user that the amount of inhaled medicine has reached the requirement. When the coiled material storage device 1 is used up, a user can be prompted to update the coiled material storage device 1 in a voice mode.

Preferably, the unit to be heated is sheet-shaped and attached to the coiled conveying film, and the shape of the heating part of the heating device is the same as that of the unit to be heated, so that the sheet-shaped unit to be heated is heated uniformly during heating, the purposes of rapid heating and uniform atomizing amount are achieved, and harmful components cannot be generated due to nonuniform heating. Meanwhile, the invention also achieves the purpose of quantitative feeding through the coiled material storage device 1, and simultaneously greatly reduces the occupied space, thereby reducing the volume of the heater and facilitating the carrying of consumers.

With continued reference to fig. 1 and 2, the quantitative feeding heater further includes a rotating device 4 coupled to a rotating shaft 2, the rotating device 4 is controlled by a control device, and the control device controls the rotating device 4 to rotate a unit to be heated to the heating device 3 by the coil storage device 1 before heating, so as to automatically complete the quantitative feeding operation.

In this embodiment, the rotating device 4 is a stepping rotating motor, so that the rotating angle of the rotating shaft 2 is the same each time, and each unit to be heated is exactly located at the heating device 3, so that the rotating device 4 can transport a unit to be heated to the heating device 3 at equal intervals. Of course, the rotating device 4 can also be rotated manually, and the specific operation mode can be selected according to actual needs, and is not limited here.

Specifically, roll-like storage device 1 includes that quantitative storage material rolls 10, unreels chamber 11, rolling chamber 12, respectively set up one in unreeling chamber 11 and the rolling chamber 12 pivot 2, it has the predetermined interval to unreel between chamber 11 and the rolling chamber 12, heating device 3 sets up unreel between chamber 11 and the rolling chamber 12, make quantitative storage material rolls 10 when unreeling in the chamber 11, and heating device 3 department is arranged in to one of them a heating unit to do benefit to the heating, and realize quantitative feed, heating device 3 compact structure, be favorable to satisfying the miniaturization of quantitative feed heater.

The unwinding chamber 11 has a discharge port (not shown) through which the constant volume storage material roll extends, and the winding chamber 12 has a feeding port (not shown) through which the constant volume storage material roll extends. When the quantitative storage roll sleeve 10 is used, the quantitative storage roll sleeve 10 is arranged on the rotating shaft 2 in the unwinding cavity 11, one end of the quantitative storage roll sleeve is fixed on the rotating shaft 2 in the winding cavity 12, and the quantitative storage roll sleeve 10 in the unwinding cavity 11 synchronously rotates through the rotation of the rotating shaft 2 in the winding cavity 12 so as to complete feeding and winding actions.

Furthermore, the quantitative feeding heater also comprises a power supply device 5, an upper machine body 6, a lower machine body 7 and an upper cover 8, wherein the power supply device 5 is electrically connected with the control device. The upper machine body 6 is used for accommodating the rolled material storage device 1, the lower machine body 7 is used for accommodating the power supply device 5, the rotating device 4 and the control device (such as a control main board, the control method can be realized by adopting the existing circuit), the upper machine body 6 is clamped with the lower machine body 7, the upper cover 8 can be detachably covered on the upper machine body 6, and the quantitative material storage coil 10 can be conveniently replaced through the upper cover 8. Furthermore, the upper cover 8 is further provided with a suction nozzle 9, so that the unit to be heated is atomized and then is sucked by a consumer through the suction nozzle 9.

Specifically, the ration storage material book 10 still includes a plurality of equidistance, quantitative storage cave 101, sealed setting in the middle of the storage cave 101 wait to heat the unit, wait to heat the unit through equidistance, quantitative setting, make ration storage material book 10 rotate once every, can accurately provide quantitative storage cave 101 to 3 departments of heating device, make the consumer inhale every quantity of the useful composition that the aerial fog that waits to heat the unit heating obtained the same. More specifically, the reservoir 101 may be sealed with an aluminum foil to allow the roll of the metered dose storage material 10 to be bent into a roll shape while providing sealing properties. The unit to be heated may be a flower, leaf, diameter, etc. of a powdered plant.

In this embodiment, the predetermined distance is the width of one storage cavity 101, so that when one storage cavity 101 is conveyed to the heating device 3, the heating device 3 can be covered outside the storage cavity 101, thereby achieving the purpose of rapid and uniform heating.

With reference to fig. 1 and fig. 2, the heating device 3 includes a front heating plate 31 and a rear heating plate 32, the front heating plate 31 is opposite to the rear heating plate 32 and is arranged in a preset gap, the preset gap is the thickness of the storage cavity 101, so that when the storage cavity 101 is conveyed to the heating device 3, the front heating plate 31 and the rear heating plate 32 can abut against the storage cavity 101, which is beneficial to rapidly heating the unit to be heated in the storage cavity 101, so that the quantitative material supply heater can reach the required temperature quickly, avoid waiting for a long time, and improve the use experience of consumers.

Further, the heating device 3 further includes a piercing member (not shown) disposed at an upper portion and/or a lower portion of the front heating plate 31 and the rear heating plate 32, and the upper portion and/or the lower portion of the storage cavity 101 is perforated by the piercing member to facilitate circulation of the heated aerosol.

The heating device 3 further comprises a front sealing cover 33 covering the front heating plate 31 and a rear sealing cover 34 covering the rear heating plate 32, so that heat loss of the front heating plate 31 and the rear heating plate 32 can be avoided, the purpose of rapid and uniform heating is further achieved, heat preservation and heat insulation effects are also achieved, and the upper body 6 is prevented from being scalded and scalding consumers due to heat diffusion.

Based on the above quantitative supply heater, the present invention also provides a heating method of the quantitative supply heater, which comprises the following steps (as shown in fig. 3):

s01, rotating the rotating shaft to enable a unit to be heated of the quantitative storage roll to be positioned at the heating device;

s02, heating the heating device by the control device, and atomizing the unit to be heated;

s03, controlling the heating device to stop heating when the inhaled aerosol quantity reaches a preset value;

and S04, rotating the rotating shaft to move the next unit to be heated to the heating device.

Before step S01, the method further includes manually placing the measured storage rolls into the unwinding chamber, and repeating the above steps until one measured storage roll is used up, and then replacing the next measured storage roll. Please refer to the corresponding embodiment of the constant-volume heater.

In summary, the present invention provides a constant-volume feed heater and a heating method thereof, wherein the constant-volume feed heater, when in use, transports one unit to be heated to the heating device through the rotating shaft controlled roll-shaped storage device, and is heated by the heating device, so that the unit to be heated is heated uniformly, and the useful components in the aerosol are released uniformly in the use process, thereby satisfying the requirement of providing the required components in a constant volume. And the heater can reach the required temperature quickly by heating the single unit to be heated every time, so that the heater is free from waiting for a long time, and the experience of consumers is improved.

Furthermore, when the inhaled aerosol quantity reaches a preset value, the control device controls the heating device to stop heating, and gives a prompt to enable the rotating shaft to automatically or manually rotate the next unit to be heated to the heating device, and the control device can control the heating device to heat when the next preset time is needed, so that the daily atomization quantity is controlled, and the aerosol quantity control device is suitable for quantitative medicines such as hemp.

Further, the ration storage book includes a plurality of equidistance, quantitative storage cave, storage cave middle seal sets up treat the heating unit, treat the heating unit through the equidistance ration setting, make ration storage book rotate once, can provide location, quantitative storage cave, make the consumer inhale every and treat that the quantity of the aerial fog that the heating unit heated obtained is the same.

In addition, the electronic cigarette box is simple in structure, easy to operate, convenient to carry and applicable to the field of electronic cigarettes and medical treatment.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a ration feed heater, its characterized in that, including roll-like storage device that is used for quantitative storage, be used for supplying roll-like storage device to receive the pivot of unreeling, one of them heating device, air current sensor and the controlling means who treats the heating unit that is used for heating roll-like storage device, the pivot rotates and makes and treat that the heating unit is located heating device department, and when starting the heater, controlling means will treat that the heating unit heats to the settlement temperature fast and supply the user to inhale, and air current sensor detects inspiratory aerial fog volume, when inspiratory aerial fog volume reaches the default, control heating device stop heating.

2. The heater of claim 1 further comprising a rotating means coupled to a shaft, the rotating means being controlled by the control means to rotate a unit to be heated from the roll magazine to the heating means prior to heating.

3. The heater of claim 1 or 2, wherein the coiled material storage device comprises a coiled material, an unwinding chamber and a winding chamber, the unwinding chamber and the winding chamber are respectively provided with a rotating shaft, a preset distance is reserved between the unwinding chamber and the winding chamber, and the heating device is arranged between the unwinding chamber and the winding chamber.

4. The heater of claim 3, wherein the magazine reel comprises a plurality of equally spaced, metered magazine pockets with the unit to be heated sealingly disposed therebetween.

5. The heater of claim 4, wherein the predetermined spacing is the width of one pocket.

6. The heater of claim 3, wherein the unwinding chamber has an exit port through which the coil of quantitative storage material extends, and the winding chamber has an entrance port through which the coil of quantitative storage material extends.

7. The heater of claim 3, wherein the heating means comprises a front heating plate and a rear heating plate, the front heating plate being opposite the rear heating plate and being disposed at a predetermined gap, the predetermined gap being a thickness of the reservoir.

8. The heater of claim 7, wherein the heating device further comprises a piercing assembly disposed above and/or below the front and rear heat patches.

9. The heater of claim 7, wherein the heating unit further comprises a front sealing cover covering the front heating plate and a rear sealing cover covering the rear heating plate.

10. A method of heating a metered dose heater as claimed in any one of claims 1 to 9, comprising the steps of:

the rotating shaft rotates to enable a unit to be heated of the quantitative storage roll to be positioned at the heating device;

the control device heats the heating device to atomize the unit to be heated;

when the inhaled aerosol quantity reaches a preset value, controlling the heating device to stop heating;

the rotating shaft rotates to enable the next unit to be heated to move to the heating device.

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