RU132318U1 - VEYPOR (ELECTRONIC INHALER) - Google Patents

Abstract

1. An electronic inhaler containing a tubular body, inside of which an end cap with a central through hole is installed at one end, and an end cap having a landing socket in which an air pressure controller and an LED are installed, and containing at least one technological a hole for communicating the air cavity inside the case with the atmosphere, the case contains a power source in the form of a battery, a plug with a central protrusion directed towards the end cap with a central through hole, and a heating unit, while the plug with a central protrusion contains a through central hole, a source power supply is located between the end cap, in the seat of which the air pressure controller and the LED are installed, and the plug with a central protrusion, an air duct made in the form of a tube is installed on the specified protrusion, between the inner surface of the housing and the lateral surface of the air duct is located filler with liquid installed with a gap to the end cap with a central through hole, the air pressure controller is connected by electric wires to the power source, the heating unit is made in the form of a filament, inside the turns of which there is a wick connected by electric wires to the power source, in the air duct, perpendicular to it axes, technological holes are made for attaching the filament and placing the wick inside it, and the end caps and the plug with a central protrusion are installed in the body by means of an interference connection, characterized in that the end

Description

The utility model relates to the field of satisfying a person’s vital needs, namely inhalation devices, the so-called vapors (the word “vapor” comes from the English verb “vapor”, which means - to vaporize, vapor - an electronic device for generating steam, which may contain nicotine and / or aromatic additives that, when inhaled, cause a sensation of taste), which can be used in the field of combating tobacco dependence, by introducing aromatic substances through the lungs of a person. The proposed electronic inhaler has a tubular shape and is configured to be used to control devices with touch screens.

A technical solution is known RU 116018 U1 (A24F 47/00, published May 20, 2012), of which a disposable electronic cigarette is known, comprising a tubular-shaped case with a battery compartment, in which a power source in the form of a battery is located, and an LED on one inside the case the end of the case, closed by a light diffuser, a control chip connected with an air pressure sensor, as well as a filler with liquid and a heating unit connected through the specified chip and an air pressure sensor with a power source, moreover, an LED, a sensor The air and control microcircuit are located in the housing on one side of the power source, made in the form of a battery, on the other side of which a hole is made in the housing wall for communication with the atmosphere, and a plug with a central hole is located at a distance from the battery, on which an air duct is fixed the side of the other end of the case, closed by an end cap with a central hole, the cavity in the body between the caps is filled with a liquid filler, the end of which is located at a distance from the end howl stub for communication between the cavity in the housing end cap and the filler through a duct and opening in the wall of the housing with the atmosphere, and the heating unit is made in the form of a wick placed in a vehicle with a thread nakalivaya connected by wires to a power source as a battery.

In this solution, a hole for communication with the atmosphere is made in the wall of the housing, which causes an disordered movement of the air flow, and, as a result, noise (whistle) occurs during the tightening process.

The closest analogue to the proposed utility model is the solution RU 124120 U1 (A24F 47/00, published January 20, 2013), which discloses a non-rechargeable electronic cigarette containing a tubular body, inside of which an end cap with a central through hole is installed at one end, and on the opposite - an end cap having a seat socket in which an air pressure controller and an LED are installed, and containing at least one process hole for communicating the air cavity inside the housing with the atmosphere In a black case, a power source in the form of a battery, a plug with a central protrusion directed toward the end plug with a central through hole, and a heating unit are located in the housing, while the plug with a central protrusion contains a through central hole, the power source is located between the end plug, in the landing the socket of which the air pressure controller and LED are installed, and a plug with a central protrusion, an air duct made in the form of a tube is installed on the said protrusion between the inner surface A filler with liquid is located on the side of the casing and the side surface of the duct, installed with a gap to the end cap with a central through hole, the air pressure controller is connected by electric wires to the power source, the heating unit is made as an incandescent filament, inside of the turns of which there is a wick connected by electric wires to the source power supply, in the duct, perpendicular to its axis, made technological holes for mounting the filament and placing the wick inside it, and then end caps and a cap with a central protrusion are installed in the housing by means of an interference fit.

The closest analogue provides a reduction in noise during use, as well as simplification of the design by placing the air pressure controller with an LED in the seat socket, made in the end cap, which is a light diffuser from the LED.

The above devices, designed to generate steam and direct it into the user's lungs, do not provide for the possibility of their use for use as a stylus (stylus is an accessory for controlling devices with touch screens).

The proposed utility model is aimed at achieving a technical result, which consists in expanding the functionality of an electronic inhaler, providing control of devices with touch, surface-capacitive and / or projection-capacitive screens.

The technical result is achieved in that the electronic inhaler contains a tubular body, inside of which an end plug with a central through hole is installed at one end, and an end plug having a seating socket in which the air pressure controller and LED are installed, and containing, according to at least one technological hole for the communication of the air cavity inside the housing with the atmosphere, a power source in the form of a battery, a plug with a central protrusion, are located in the housing, directed towards the end cap with the central through hole, and the heating unit, while the cap with the central protrusion contains a through central hole, the power source is located between the end cap, in the mounting socket of which the air pressure controller and LED are installed, and the cap with the central protrusion, on the specified protrusion is installed duct made in the form of a tube, between the inner surface of the housing and the side surface of the duct is a filler with liquid installed with a gap to the end cap with a central through hole, the air pressure controller is connected by electrical wires to the power source, the heating unit is made as an incandescent filament, inside of the turns of which there is a wick connected by electric wires to the power source, in the duct perpendicular to its axis, technological holes are made for fastening the filament and placing the wick inside it, with end caps and a cap with a central protrusion installed in the housing by connecting with tightness, and the end cap, in which the mounting socket for installing the air pressure controller and the LED, is made of conductive rubber material or conductive woven material or conductive rubber material, on top of which conductive woven material is applied.

The filament is made of nickel-chrome or nickel-titanium alloy.

The filament contains from 4 to 7 turns of a spiral.

The wick is made of silica fiber with a heat resistance of up to 1500 ° C.

The utility model is illustrated by drawings:

Figure 1 is a General view of an electronic inhaler;

Figure 2 is a longitudinal section of an electronic inhaler.

The electronic inhaler consists of a tubular-shaped body, conventionally divided into two compartments: a compartment for accommodating the battery (1) and a steam generator (2) (see Figure 1).

The housing can be made in the form of a hollow cylinder (pipe) with a diameter of 7 to 15 mm. An end cap (3) with a central through hole (4) for air is installed at one end inside the housing, and an air pressure controller (5), an LED (6), and an end cap (7), in which a mounting socket is made for installation, are installed air pressure controller (5) and an LED (6) made of conductive rubber material or conductive woven material or conductive rubber material, on top of which conductive woven material is applied. The end cap (7) serves as a control element (using a contact spot) for devices with touch, surface-capacitive and / or projection-capacitive screens.

A power supply (8) and a silicone plug (9) are located in the housing, on one side of which, in the center, a protrusion (10) is made. The power source is a rechargeable battery with a voltage of 3.7-4.1 V, made using Lithium Polymer or Lithium Ion technology, with a capacity of 100 to 500 mAh. The battery (8) is located between the air pressure controller (5) and the plug (9) with a central protrusion.

The specified plug (9) contains a through central hole (11), and is installed in such a way that the protrusion (10) is directed towards the end plug (3). An air duct (12) made in the form of a tube is installed on said protrusion (10). Between the inner surface of the casing and the side surface of the duct (12) is a filler (13) of a non-woven (mixture of polyester and cotton) fabric with a flavored liquid based on propylene glycol and / or glycerol or with a vegetable flavor. The filler (13) is installed with a gap to the end cap (3) with a central through hole (4) for air. The air pressure controller (5) is connected by electric wires (14) and (15), respectively, with the positive (16) and negative (17) poles of the battery (8). The filament (18) is connected via an electric wire (19) to the negative pole (17) of the battery (8), and on the other hand, by an electric wire (20) through an electric wire (21) is connected to the air pressure controller (5). In turn, the electric wires (19) and (20) pass through the technological holes (22) in the plug (9) and are connected to the filament (18) at points (23) and (24) by the method of resistance welding or crimping.

The battery (8) is installed along the axis of the housing, forming a gap between the inner surface of the housing and the side surface of the battery, a gap between the controller (5) and one end of the battery, and a gap between the plug (9) with the protrusion and the opposite end of the battery. These clearances are necessary to ensure the passage of air, as well as for the placement of wires.

The filament (18) has from four to seven turns of a spiral and is made of a nickel-chromium or nickel-titanium alloy. In the duct (12), perpendicular to its axis, technological holes (25) are made for attaching an incandescent filament (18) with a wick (26) made of silica fiber with heat resistance up to 1500 ° C located inside it.

The air pressure controller (5) and the LED (6) are installed in the seat socket made in the end cap (7), which is a light diffuser from the LED (6). Moreover, the specified plug (7) contains at least one technological hole for communicating the air cavity inside the housing with the atmosphere, formed by an opening (27) running parallel to the axis of the housing and an opening (28) running perpendicular to the axis of the housing.

End plugs (4), (7) and plug (9) with a central protrusion are installed in the housing by connecting with an interference fit, without using glue.

The retention of liquid in its compartment (2) is facilitated by a filler (13) of non-woven fabric and a plug (9).

When connecting the electric wires (19), (20) with the filament (18), rosin and solder are not used. This process is replaced by the method of resistance welding or compression of the contacts with a metal bracket made of environmental and non-toxic materials.

Fastening the elements of the electronic inhaler without the use of glue and using the method of resistance welding or crimping the contacts with a metal bracket ensures environmental friendliness and harmlessness.

Electronic inhaler works as follows.

When the user puffs, air enters the electronic inhaler through the process holes (27) and (28) in the plug (7). Passing through the entire casing of the electronic inhaler, through the gaps between the casing and the battery, and through the technological hole (11) in the silicone plug (9), air enters the compartment of the steam generator (2). The air pressure controller (5) is activated from the flow of passing air, which is connected by electric wires (14) and (15) to the positive (16) and negative (17) poles of the battery (8), respectively. Voltage is applied to the nickel-chrome (nickel-titanium) filament (18). It heats up and transfers heat to the wick (26). Heating the spiral leads to the evaporation of the liquid and mixing it with the air moving inside the inhaler. The resulting vapor mixture enters the oral cavity of the user through the hole (4) in the end cap (3). After tightening, the air pressure controller (5) automatically turns off the battery (8), the voltage in the electric circuit disappears, the spiral stops heating.

Placing the air pressure controller (5) with an LED (6) in the seat socket made in the end cap (7) simplifies the design, since it does not require the installation of a separate housing for the controller.

The body of the electronic inhaler is made of various polymeric materials that facilitate the weight of the finished device, for example: polypropylene, polyvinyl chloride, etc.

The design of the proposed electronic inhaler does not provide for filling the compartment of the steam generator with new liquid and there are no technological connectors or elements through which the battery can be charged. After the battery has run out or the fluid has run out, the inhaler should be disposed of.

The end cap (7), made of conductive rubber material or conductive woven material or conductive rubber material, on top of which conductive woven material is applied, allows the proposed electronic inhaler to control devices with touch, surface-capacitive and / or projection-capacitive screens (telephones , smartphones, tablet computers and other devices that work on the same principle), providing accurate touch and control.

Claims (4)

1. An electronic inhaler comprising a tubular body, inside of which an end cap with a central through hole is installed at one end, and an end cap having a landing socket in which an air pressure controller and an LED are installed, and containing at least one process an opening for the communication of the air cavity inside the housing with the atmosphere, a power source in the form of a battery is located in the housing, a plug with a central protrusion directed towards the end plug with a central through hole, and a heating unit, wherein the plug with the central protrusion comprises a through central hole, the power source is located between the end cap, in the mounting socket of which an air pressure controller and an LED are installed, and the plug with the central protrusion, an air duct is installed on the said protrusion, made in the form of a tube, between the inner surface of the casing and the lateral surface of the duct there is a filler with liquid installed with a gap to the end cap from the central through a hole, the air pressure controller is connected by electrical wires to the power source, the heating unit is made in the form of an incandescent filament, inside of the turns of which there is a wick connected by electric wires to a power source, in the duct perpendicular to its axis, technological holes are made for fastening the filament and placing inside the wick, and the end caps and the cap with a Central protrusion are installed in the housing by connecting with an interference fit, characterized in that the end the plug in which the mounting socket for installing the air pressure controller and the LED is made is made of conductive rubber material or conductive woven material or conductive rubber material, on top of which conductive woven material is applied. 2. The electronic inhaler according to claim 1, characterized in that the filament is made of a nickel-chromium or nickel-titanium alloy. 3. The electronic inhaler according to claim 1, characterized in that the filament contains from 4 to 7 turns of a spiral. 4. The electronic inhaler according to claim 1, characterized in that the wick is made of silica fiber with a heat resistance of up to 1500 ° C.

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