KR101456232B1 - Perfume diffuser using vibration - Google Patents

Abstract

A vibrating-type fragrance generator is disclosed in the present invention. The vibrating direction generator includes an incense source block including a fragrance material and a plurality of piezoelectric vibrators disposed across the incense source block and arranged to be spaced apart from each other.
According to the present invention, a vibrating-type fragrance generator that emits a perfume by using piezoelectric vibrations is provided.

Description

[0002] Perfume diffuser using vibration [0003]

The present invention relates to a vibrating-type incense generator.

According to the piezoelectric effect, when mechanical energy such as pressure or vibration is externally applied to a piezoelectric body such as a piezoelectric ceramic, positive and negative electric charges are generated in the piezoelectric ceramic depending on external force. Conversely, electric energy , The battery energy is converted into the vibration energy to form a vibrator that generates vibration

Conventionally, piezoelectric ceramics are used as the piezoelectric material, which is disadvantageous in that it is vulnerable to brittle fracture due to the characteristics of the ceramic material, resulting in poor durability and is not suitable for a vibrating structure requiring a large vibration.

An object of the present invention is to provide a vibrating-type fragrance generator that emits a perfume by using piezoelectric vibrations.

In order to solve the above-mentioned problems and other problems, according to the present invention,

An incense source block comprising a fragrance material; And

And a plurality of piezoelectric vibrators disposed across the incense source block and spaced apart from each other.

For example, the vibrating-

A drive signal generator for applying a drive signal to the piezoelectric vibrator; And

And a vibration signal detector for taking out a vibration signal from the piezoelectric vibrator and monitoring the vibration state.

For example, the vibrating-

A first switch unit for performing a switching operation on a plurality of piezoelectric vibrators and applying a driving signal to the selected piezoelectric vibrators;

A second switch unit for performing a switching operation on a plurality of piezoelectric vibrators and for drawing out a vibration signal from the selected piezoelectric vibrator; And

And a control unit for controlling the switching operation of the first and second switch units.

For example, the first switch unit performs a switching operation between the plurality of piezoelectric vibrators and the driving signal generating unit,

The second switch unit performs a switching operation between the plurality of piezoelectric vibrators and the vibration signal detecting unit.

For example, when the piezoelectric vibrators include a first piezoelectric vibrator disposed closest to the inside of the surface of the incense source block and a second piezoelectric vibrator disposed next inside of the first piezoelectric vibrator,

The first switch unit electrically connects the first piezoelectric vibrator and the drive signal generator,

The second switch unit electrically connects the second piezoelectric vibrator and the vibration signal detecting unit.

For example, the control unit determines whether the first piezoelectric vibrator is exposed to the surface of the incense-source block, based on the vibration signal of the second piezoelectric vibrator.

For example,

As the first piezoelectric vibrator is determined to have been exposed to the surface of the fragrance source block,

The first switching unit is switched so as to disconnect the connection between the driving signal generating unit and the first piezoelectric vibrator and form a connection with the second piezoelectric vibrator,

The second switch section is switched so as to disconnect the connection between the vibration signal detecting section and the second piezoelectric transducer and form a connection with the third piezoelectric transducer disposed next to the second piezoelectric transducer.

For example,

And outputs a warning message for the removal of the first piezoelectric vibrator as it is determined that the first piezoelectric vibrator is exposed to the surface of the incense source block.

For example,

At least one piezoelectric paper; And

And first and second electrode layers formed on both surfaces of the piezoelectric paper.

For example,

A piezoelectric element comprising a stacked body in which a plurality of units are stacked with a first electrode layer and a second electrode layer formed on both sides of a piezoelectric paper as one unit,

And an insulating layer for electrically insulating between the first and second electrode layers.

For example,

A piezoelectric paper stack in which a plurality of piezoelectric papers are stacked;

A set of first electrode layers extending to one side of the piezoelectric paper stack;

A first connection part for electrically coupling the group of first electrode layers to each other;

A group of second electrode layers extending to the other side of the piezoelectric paper stack; And

And a second connection portion for electrically coupling the group of the second electrode layers to each other.

For example, according to another aspect of the present invention,

A plurality of fragrance generating units including different fragrance materials;

A frame arranged to surround the fragrance generating units;

A plurality of partitions extending in parallel within the frame and defining compartments in which different incense generating units are accommodated; And

And an upper filter and a lower filter arranged to cover openings formed at upper and lower portions of the frame.

For example, the upper filter and the lower filter may be formed,

Permits permeation of gas but has an optional permeability that blocks permeation of the fluid.

For example, terminal regions formed corresponding to each of the plurality of fragrance generation units are formed outside the frame.

For example, the vibrating-

And a driver in which the cartridge is replaceably installed.

For example,

A drive signal generator for applying a drive signal to the incense generating unit selected from the plurality of incense generating units; And

And a vibration signal detection unit for detecting a vibration signal from the selected fragrance generation unit.

For example,

And a blowing fan for forming a flow of air toward the fragrance generating units.

For example,

Further comprising a position fixing portion for fixing the cartridge in place,

The position fixing portion is provided with an electrical connection portion for establishing electrical connection with the terminal region of the cartridge.

For example, the position fixing portion has a container shape for accommodating the lower end portion of the cartridge.

According to the present invention, a vibrating-type fragrance generator that emits a perfume by using piezoelectric vibrations is provided. Particularly, by disposing a plurality of piezoelectric vibrators in a fragrance source block for providing a fragrance component, and driving a vibrator arranged inwardly from the surface gradually in accordance with exhaustion of the fragrance source block due to volatization, Can be kept constant, so that the fragrance intensity can be kept constant over time. It is also possible to determine whether the drive vibrator is exposed to the surface by capturing the vibration signal of the piezoelectric vibrator disposed adjacent to the drive vibrator while advancing the drive vibrator from the surface of the incense source block to the inside with the passage of time, By moving the driving oscillator, the perfume intensity can be uniformly controlled.

Fig. 1 shows a structure of a vibrating-type fragrance generator according to an embodiment of the present invention.
Fig. 2 is a view showing another aspect of the vibrating-type fragrance generator shown in Fig.
Fig. 3 is a view for explaining driving of the vibrating-type fragrance generator shown in Fig.
FIG. 4 is a view showing a vibrating-type fragrance generator according to a comparative example in comparison with the present invention.
Fig. 5 shows a structure of a piezoelectric vibrator that can be applied to an embodiment of the present invention.
Fig. 6 shows a structure of a piezoelectric vibrator that can be applied to another embodiment of the present invention.
7 is an exploded perspective view of a vibrating-type fragrance generator according to another embodiment of the present invention.
Fig. 8 is a view for explaining driving of the vibrating-type fragrance generator shown in Fig.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a vibrating-type incense generator according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view of a vibrating-type incense generator, and Fig. 2 is a side view of Fig. 1, respectively.

The vibrating type fragrance generator includes an incense source block 10 including a fragrance material and a plurality of piezoelectric vibrators P, P1 to P5 (not shown) spaced apart from each other in the incense source block 10, And terminal portions E1 and E2 for applying a drive signal to the piezoelectric vibrator P or for receiving a vibration signal from the piezoelectric vibrator P. [ A driving signal generating unit 120 for applying a driving signal to the piezoelectric vibrator P and a vibration signal detecting unit 110 for obtaining a vibration signal of the piezoelectric vibrator P and analyzing the vibration signal can do.

The driving signal generating unit 120 and the vibration signal detecting unit 110 may be connected to the first and second terminal units E1 and E2 drawn out from the piezoelectric vibrator P. [ The driving signal generating unit 120 may be alternatively connected to the terminal portions E1 and E2 of the piezoelectric vibrator P selected through the first switch unit SW1 and similarly the vibration signal detecting unit 110 Can alternatively be connected to the terminal portions E1 and E2 of the piezoelectric vibrator P selected through the second switch portion SW2. The vibrating-type fragrance generator may further include a controller 150 for controlling the switching operation of the first and second switch units SW and SW2.

As described later, the driving signal generating unit 120 is alternatively connected to any one of the piezoelectric vibrators P selected from the plurality of piezoelectric vibrators P to apply a driving signal. Similarly, the vibration signal detecting unit 110 may be alternatively connected to any one of the plurality of piezoelectric vibrators P to obtain a vibration signal of the selected piezoelectric vibrator P .

The fragrance source block 10 includes a fragrance material and may be provided in the form of a gel-like block. For example, the fragrance source block 10 is gradually evaporated by the plurality of piezoelectric vibrators P arranged across the fragrance source block 10, so that a predetermined fragrance can be emitted. For example, the fragrance source block 10 may gradually evaporate from the surface S adjacent to the outside air to emit a fragrance, and may be gradually exhausted from the surface toward the inside with the passage of time. For example, regarding the arrangement of the incense source block 10 and the piezoelectric transducer P, the piezoelectric transducer P may be disposed across the inside of the incense source block 10. At this time, the piezoelectric vibrators P may be intermittently arranged at a predetermined interval t (Fig. 2) along the thickness direction of the incense source block P.

3 is a view showing the driving state of the piezoelectric vibrator P according to the volatilization of the incense source block 10. Fig. Referring to the drawing, first to fifth piezoelectric vibrators P1 to P5 are sequentially arranged from the surface S toward the inside along the thickness direction of the incense source block 10. [ The incense source block 10 is gradually evacuated and exhausted gradually from the surface S toward the inside and the first piezoelectric element 12 disposed closest to the surface S of the incense source block 10, After the incense source block 10 is exhausted to the position of the vibrator P1, the first piezoelectric resonator P1 can no longer effectively vibrate the incense source block 10. [ At this time, vibration can be effectively applied to the fragrance source block 10 through the second piezoelectric vibrator P2 arranged next inside. Then, after the incense source block 10 is exhausted to the position of the second piezoelectric vibrator P2, vibration is applied to the incense source block 10 through the third piezoelectric vibrator P3 disposed next inside do. By sequentially moving the piezoelectric vibrator (hereinafter referred to as a drive oscillator) capable of imparting effective vibration to the interior from the surface S in accordance with the exhaustion of the incense source block 10 in this manner, The incense source block 10 can be vibrated at a position close to the surface S of the incense source block 10 at all times, thereby achieving a constant smell effect over time.

FIG. 4 shows a vibrating-type fragrance generator according to a comparative example in comparison with the present invention. Referring to the drawings, the vibrating direction generator includes an incense source block 10 'and a piezoelectric vibrator P' disposed across the center of the incense source block 10 '. At this time, the incense source block 10 'is gradually exhausted from the surface S toward the inside. The distance between the surface S of the incense source block 10' and the piezoelectric transducer P ' of the incense source block 10 'is gradually reduced toward the piezoelectric resonator P' as the surface S of the incense source block 10 'gradually becomes closer to the surface of the incense source block 10' (S) is vigorously vibrated, and thus the smell effect appears prominently. This means that the fragrance strength is not kept uniform over time and the fragrance strength is gradually increased. For example, the fragrance strength of the fragrance source block 10 'is hardly sensed at the time of the first operation, and the fragrance strength is excessively strong as the replacement time of the fragrance source block 10' approaches. 4, reference numeral 110 'denotes a drive signal generator.

3, a plurality of piezoelectric vibrators P that are intermittently spaced along the thickness direction of the incense source block 10 are disposed, and the incense source block 10 is disposed on the surface S The piezoelectric vibrator (P, drive oscillator) for adding vibration is gradually moved from the nearest piezoelectric vibrator (P) on the surface (S) to the inner piezoelectric vibrator (P) The surface S of the fragrance source block 10 in which the fragrance is formed according to the volatilization can be excited at a substantially constant position, thereby providing a uniform fragrance effect with a lapse of time, thereby improving the sensibility of the user.

A first switch SW1 may be provided between the terminal portions E1 and E2 of the piezoelectric transducer P and the drive signal generating portion 120. [ The driving signal generating unit 120 is alternatively connected to the terminal portions E1 and E2 of one piezoelectric vibrator P selected from among the plurality of piezoelectric vibrators P via the first switch portion SW1. The piezoelectric vibrator P connected to the drive signal generator 120 through the first switch SW1 functions as a drive oscillator that vibrates in response to a drive signal, I will spread it.

The piezoelectric vibrator P1 exposed to the surface S of the incense source block 10 according to the exhaustion of the incense source block 10 among the plurality of piezoelectric vibrators P arranged across the incense source block 10, Becomes no longer functioning as a driving oscillator, and the piezoelectric vibrator P2 disposed inside the piezoelectric vibrator P2 starts driving. Such replacement of the drive oscillator can be performed through the switching operation of the first switch unit SW1. That is, the first switch unit SW1 blocks the drive signal for the piezoelectric vibrator P1 exposed on the surface S of the incense source block 10, and the piezoelectric vibrator P2, thereby changing the drive oscillator sequentially and applying the drive signal.

Of the plurality of piezoelectric vibrators P, only one of the piezoelectric vibrators P1 forming the electrical connection with the first switch portion SW1 can act as a drive vibrator, and the other piezoelectric vibrator P2 adjacent to the drive vibrator, Can be deflected and deformed together with the drive oscillator to generate a predetermined amount of charge. That is, since the driving oscillator induces a bending deformation in the adjacent another piezoelectric vibrator P2, and a predetermined amount of electric charge is generated from the piezoelectric vibrator P2 whose bending deformation is forced by the piezoelectric effect, By measuring the voltage between the first and second terminal portions E1 and E2, the vibration state can be grasped. Hereinafter, the piezoelectric vibrator P2 disposed adjacent to the drive vibrator and receiving the vibration signal for monitoring the vibration state will be referred to as a driven vibrator.

The vibrating-type fragrance generator may include a vibrating-signal detecting unit 110 for detecting a vibrating signal of the driven vibrator P2. The vibration signal detecting unit 110 forms an electrical connection with the first and second terminal portions E1 and E2 of the driven oscillator P2 and receives a voltage signal between the first and second terminal portions E1 and E2, The vibration state of the driven oscillator P2 can be grasped. For example, from the driven oscillator (P2), a voltage signal having an alternating waveform whose positive polarity and reverse polarity are repeated according to extension / compression according to repetitive bending deformation can be received, and the frequency of the alternating waveform By measuring the amplitude, the vibration state of the driven oscillator P2 can be grasped.

For example, if the drive oscillator P is exposed to the surface S in accordance with the exhaustion of the incense source block 10, the vibration of the drive oscillator P1 can be weakly transmitted to the driven oscillator P2. That is, when the drive oscillator P1 is immersed and immobilized in the incense source block 10, the driven oscillator P2 can be integrally vibrated. However, when the drive oscillator P1 is exposed to the surface, The driven oscillator P2 can not be vibrated effectively. At this time, the vibration signal detecting unit 110 for detecting the vibration signal of the driven oscillator P2 can detect that the vibration of the driven oscillator P2 is attenuated. Based on this, the control unit 150 controls the first switch unit SW1 The piezoelectric vibrator P2 disposed on the next inner side can be replaced with the drive vibrator.

The second switch SW2 may be interposed between the first and second terminal portions E1 and E2 of the vibration signal detecting portion 110 and the piezoelectric vibrator P, It is possible to mediate signal transmission between the vibrator P2 and the vibration signal detector 110. FIG. At this time, the second switch unit SW2 can detect the measurement signal while sequentially changing the passive oscillator P to be measured. When the passive oscillator P is driven in accordance with the switching operation of the second switch unit SW2 Gradually from the surface S of the incense source block 10 to the piezoelectric vibrator P inside.

Hereinafter, the switching operation of the first and second switch units SW1 and SW2 will be described with reference to FIG. The first switch unit SW1 mediates signal transmission between the drive oscillator P1 and the drive signal generator 120 and the second switch unit SW2 mediates signal transmission between the driven oscillator P2 and the vibration signal detector 110 , But the switching times of the first and second switch units SW1 and SW2 may be set to be the same. For example, in the initial stage of driving, the first piezoelectric vibrator P1 disposed closest to the inside of the surface S of the incense source block 10 is used as a driving oscillator to apply a driving signal through the first switch portion SW1 While the second piezoelectric transducer P2 disposed on the inner side is used as a driven oscillator and the vibration signal is detected through the second switch portion SW2.

The control unit 150 determines that the first piezoelectric vibrator P1 is exposed to the surface S of the incense source block 10 at a point of time when the vibration signal detected from the passive oscillator P2 suddenly becomes weak And the second piezoelectric transducer P2 is replaced with the drive transducer in place of the first piezoelectric transducer P1 through the switching operation of the first switch SW1 so that the drive signal is supplied to the second piezoelectric transducer P2 The third piezoelectric vibrator P3 disposed inside the second piezoelectric vibrator P2 is replaced by the driven oscillator in place of the second piezoelectric vibrator P2 through the switching operation of the second switch portion SW2, The vibration signal of the vibrator P3 is detected.

For example, the control unit 150 monitors the vibration signal of the driven oscillator P2 through the vibration signal detection unit 110 and outputs the driving oscillator P1 to the surface of the incense source block 10 S, the drive oscillator P1 and the driven oscillator P2 are sequentially moved inward through the switching operation of the first and second switch portions SW1, SW2. The control unit 150 gradually switches the drive source and the driven oscillator from the surface S of the incense source block 10 inwardly in accordance with the switching operation of the first and second switch units SW1 and SW2, .

If the controller 150 determines that the drive oscillator P1 is exposed to the surface S of the incense source block 10, the control unit 150 removes the piezoelectric oscillator P1 that has completed the utility by transmitting a warning signal to the user . For example, the vibrating-type fragrance generator may include an unillustrated display panel or an audio device, and may output a visual and / or audible warning message to a user according to a determination of the controller 150. [

1 to 3, the incense source block 10 is shown to emit a proper incense through any one surface S, and incense emission does not occur through the other inconsequence, And does not limit the technical scope of the present invention. For example, according to the product design, only one surface S of the incense source block 10 is designed to be exposed, or alternatively, both sides of the incense source block 10 are both exposed . In the latter case, the fragrance source block 10 can be held through the pair of piezoelectric transducers P adjacent to the inside of both sides of the fragrance source block 10, The pair of drive oscillators P having the incense source block 10 can be replaced with the piezoelectric oscillator P arranged next inwardly as time goes by.

5 is a cross-sectional view showing the structure of the piezoelectric vibrator P shown in Fig. 3 in more detail. Referring to the drawings, the piezoelectric vibrator P includes a piezoelectric paper 20 and first and second electrode layers 21 and 22 formed on both surfaces of the piezoelectric paper 20.

The piezoelectric paper 20 is prepared by arranging the cellulose microfibers in a predetermined direction. The piezoelectric paper 20 is prepared by spin-coating a solution of cellulose pulp and arranging it by centrifugal force, arranging it by extrusion, arranging it by electric polarization, The carbon nanotubes are prepared by mixing carbon nanotubes in a cellulose solution in the course of arranging by polarization.

Conventional piezoelectric ceramics are disadvantageous in that they are not susceptible to brittle fracture due to the characteristics of ceramic materials, resulting in poor durability and are not suitable for a piezoelectric structure in which a large vibration is applied. In addition, it is more excellent in piezoelectricity than conventional film type piezoelectric elements (PVDF, polyvinyl defluoride), and it is possible to prevent the environment from being polluted by discharging environmental pollutants even during manufacture or disposal, And it is flexible, so that it is not easily damaged by external impact.

As shown in Fig. 3, in the embodiment of the present invention, the piezoelectric oscillator P which has been exposed to the surface S due to exhaustion of the incense source block 10, It is necessary to lower the manufacturing cost of the piezoelectric ceramic 20, and it may be more advantageous from the viewpoint of cost to use the piezoelectric paper 20 relatively cheaper than the conventional piezoelectric ceramics.

The first and second electrode layers 21 and 22 may be formed on different first and second surfaces of the piezoelectric paper 20, respectively. It is possible to induce the flexural deformation of the piezoelectric paper 20 by applying a driving signal between one surface and the other surface in the thickness direction of the piezoelectric paper 20 through the first and second electrode layers 21 and 22, 20 due to elongation / compressive deformation of the bending moment. The flexural vibration state of the piezoelectric paper 20 can be grasped by measuring the vibration signal corresponding to the voltage difference between the one surface and the other surface of the piezoelectric paper 20 through the first and second electrode layers 21 and 22 . The first and second electrode layers 21 and 22 may be formed of an electrically conductive metal material, a conductive oxide such as ITO, or a conductive material such as a carbon nanotube or a silver nanowire. For example, the first and second electrode layers 21 and 22 may be formed of a thin plate of a metal material such as gold, silver, copper, or aluminum, and may be formed as a coating layer applied to both surfaces of the piezoelectric paper 20 Or may be formed by attaching a tape of a metal material such as gold, silver, copper, or aluminum to both surfaces of the piezoelectric paper 20.

Fig. 6 shows the structure of the piezoelectric vibrator P which can be applied to another embodiment of the present invention. The piezoelectric vibrator P may include a laminate in which a plurality of units are stacked with the first and second electrode layers 31 and 32 formed on both sides of the piezoelectric paper 30 as one unit. More specifically, the piezoelectric vibrator (P) is formed by a multilayer structure in which a plurality of piezoelectric sheets (30) and first and second electrode layers (31, 32) interposed between the piezoelectric sheets (30) . By including the plurality of piezoelectric sheets 30 in this manner, the vibration force of the piezoelectric sheet 30 can be amplified. However, the excitation force of the incense source block 10 is not proportionally increased according to the number of the piezoelectric sheets 30. For example, the piezoelectric sheets 30 having more than five sheets are mechanically offset from each other The piezoelectric paper 30 provided in one piezoelectric vibrator P may be provided in a range of 1 to 5 sheets.

The first and second electrode layers 31 and 32 are interposed between the piezoelectric sheets 30 to apply driving signals to the piezoelectric sheets 30. At this time, the first and second electrode layers 31 and 32 may be elongated on opposite sides of the stack of piezoelectric paper. For example, a plurality of first electrode layers 31 extending long on one side of a piezoelectric paper stack may share the same driving signal through the first connecting portion 41. Similarly, a plurality of elongated second electrode layers 32 on the other side of the piezoelectric paper stack may share the same driving signal through the second connection portion 42. For example, the first and second connection portions 41 and 42 may be formed of a thin plate made of a metal material such as gold, silver, copper, aluminum, or a metal tape. For example, the first and second connection portions 41 and 42 may be formed so that tapes of metal material forming the first and second electrode layers 31 and 32 are overlapped with each other. For example, , And a plurality of electrode layers 31 and 32 arranged so as to overlap with each other can be thermally fused through appropriate heating. The first and second electrode layers 31 and 32, which apply drive signals to the respective piezoelectric sheets 30 through the first and second connection portions 41 and 42, are electrically connected to each other to be energized, The same driving signal can be applied to the driving circuits 30.

The first and second electrode layers 31 and 32 that form an electric field in the thickness direction of the upper piezoelectric paper 30 are formed on the upper and lower surfaces of the upper piezoelectric paper 30, And the first and second electrode layers 31 and 32 that form an electric field in the thickness direction of the lower piezoelectric paper 30 are also disposed on the upper and lower surfaces of the lower piezoelectric paper 30. [ At this time, a lower second electrode layer 32 connected to the upper piezoelectric paper 30 and an upper first electrode layer 31 connected to the lower piezoelectric paper 30 are disposed between the upper and lower piezoelectric paper 30 , An insulating layer 50 is disposed to prevent electrical interference therebetween. The insulating layer 50 may be sandwiched between the first and second electrode layers 31 and 32 between the piezoelectric sheets 30 and more concretely with the different piezoelectric sheets 30.

Regarding the number of the piezoelectric paper 30 provided in the piezoelectric vibrator P, the piezoelectric vibrator P may include one or more piezoelectric paper 30 and not more than five piezoelectric paper 30. The number of the piezoelectric sheets 30 included in the piezoelectric vibrator P can be determined depending on whether or not the incense source block 10 can impart sufficient vibration strength. For example, depending on the material characteristics of the incense source block 10, it is possible to impart a sufficient intensity of vibration to only one piezoelectric paper 30. The plurality of piezoelectric vibrators P intermittently arranged along the thickness direction of the incense source block 10 are each excited with respect to a predetermined thickness of the incense source block 10 so that the arrangement of the piezoelectric vibrators P The plurality of piezoelectric vibrators P arranged relatively densely in accordance with the intervals may be sufficiently excited by only one piezoelectric paper 30, The paper 30 must be provided so that sufficient excitation may be possible.

Fig. 7 shows a vibrating-type fragrance generator according to another embodiment of the present invention. The vibrating-type fragrance generator includes a driver 300 and a cartridge 200 that is replaceably installed in the driver 300.

The cartridge 200 includes a plurality of fragrance generation units 201 for emitting different fragrances, a frame 210 arranged to surround a plurality of fragrance generation units 201, And an upper filter 240 and a lower filter 230 disposed on the upper and lower portions of the frame 210. The upper and lower filters 240,

The frame 210 is formed so as to surround a plurality of fragrance generation units 201 and can form the appearance of the cartridge 200. In the frame 210, a plurality of barrier ribs 220 extending in parallel to one another may be provided. The partition 220 provided inside the frame 210 can define a compartment C in which the incense generating unit 201 is housed. The partition 220 can function to separate the flow of air passing through the fragrance generation unit 201 so that fragrance emitted from each fragrance generation unit 201 is not mixed with each other. The upper and lower openings OP1 and OP2 are formed in the upper and lower chambers of the respective compartments C and the flow of air introduced through the lower opening OP2 is emitted from the incense generating unit 201 And can be discharged to the outside through the upper opening OP1. At this time, the partition 220 separates the flow of the air passing through each incense generating unit 201 so as not to be mixed with each other, so that the fragrance generation unit 201 can emit a unique fragrance. If the structure of the partition 220 is not provided, when the fragrances are mixed with each other, due to the interference of these fragrances, a specific fragrance may not be delivered, or an unintentional completely different fragrance may be generated. For example, the vibrating-type fragrance generator may stimulate a person's olfactory sense to provide a specific image, or may be associated with a visual image, such as a movie presentation, to provide an emotional representation. A good smell and a bad smell are mixed with each other In this case, one of the fragrances may overcome the other fragrance, thereby hindering the complex image transfer, so that the different fragrances are not mixed with each other through the partition 220.

A terminal region 215 may be formed outside the frame 210. For example, the terminal region 215 may be formed corresponding to the angular orientation generating unit 201. For example, the terminal region 215 may be provided with a connection portion for inputting / outputting a driving signal and a vibration signal of the incense generating unit 201. For this purpose, a plurality of terminals may be provided in the terminal region 215 have.

An upper filter 240 and a lower filter 230 may be disposed at upper and lower portions of the frame 210. The upper and lower openings OP1 and OP2 are formed on the upper and lower portions of the frame 210. The upper and lower filters 230 and 240 are disposed on the upper and lower openings OP1 and OP2, As shown in FIG. The upper and lower filters 230 and 240 may have an optional permeability that allows permeation of gas but blocks permeation of the fluid. The flow of air introduced into the compartment C through the lower filter 230 carries the full perfume in the compartment C and is diverted to the outside through the upper filter 240. [ At this time, the upper and lower filters 230 and 240 have selective permeability, so that intrusion of impurities from the outside can be effectively blocked. For example, the upper and lower filters 230 and 240 may be formed of a Gore-Tex material.

3, the fragrance generation unit 201 includes an incense source block 10 and a plurality of piezoelectric transducers P intermittently arranged along the thickness direction of the incense source block 10 And is connected to each of the piezoelectric vibrators P so as to be electrically connected to each other and to apply drive signals to the piezoelectric vibrators P or to take out vibration signals of the respective piezoelectric vibrators P, And two terminal portions E1 and E2. Since the operation of the plurality of piezoelectric vibrators P is as described above, a repetitive description thereof will be omitted. 6, the structure of the piezoelectric vibrator P is such that the first and second electrode layers 31 and 32 electrically connected to the piezoelectric paper 30 and the plurality of piezoelectric paper 30 are alternately Layer structure.

Referring to FIG. 7, the cartridge 200 may be mounted on the driver 300. For example, the cartridge 200 may be replaceably mounted on the driver 300, and may be replaceably installed as the perfume emitting unit 201 accommodated in the cartridge 200 is exhausted. The driver 300 forms an electrical connection with the position fixing portion 310 for fixing the cartridge 200 in the correct position and the terminal region 215 of the cartridge 200, An electric connection unit 315 for outputting a drive signal to the generation unit 201 or for extracting a vibration signal of the incense generation unit 201. [

The position fixing unit 210 can make the electrical connection between the cartridge 200 and the driver 300 stable by positioning the cartridge 200 in the correct position. For example, the position fixing portion 210 may be formed to accommodate a lower portion of the cartridge 200 and may be aligned with the driver 300 by surrounding the rim of the cartridge 200 .

The electrical contact 315 may be formed in a region corresponding to the terminal region 215 of the cartridge 200 and may form an electrical connection with the terminal region 215. For example, the position fixing portion 210 may have a container shape for accommodating the lower end portion of the cartridge 200, and one side of the position fixing portion 210 may have a terminal region 215 And an electrical connection 315 for forming an electrical connection.

The driving unit 300 may include a blowing fan 320 for forcibly forming a flow. For example, the blowing fan 320 may form a flow of air toward the cartridge 200 mounted on the driver 300. The air flow forced by the blowing fan 320 flows into the cartridge 200 through the lower opening OP2 of the cartridge 200 and flows through the upper opening OP1 through the incense generating unit 201 to the outside Can be discharged.

Fig. 8 is a view for explaining driving of the vibrating-type fragrance generator shown in Fig. The vibration type fragrance generator includes a vibration signal detection unit 420 for detecting a vibration signal output from the cartridge 200 through the electrical connection unit 315, And a driving signal generator 410 for applying a driving signal to the driving signal generator 410. 8, the vibration signal detecting unit 420 and the driving signal generating unit 410 are configured separately from the driving unit 300. However, in an embodiment of the present invention, the vibration signal detecting unit 420 420 and the drive signal generator 410 may be included in the driver 300. [

The driving signal generating unit 410 applies a driving signal to the specific fragrance generation unit 201 selected among the plurality of fragrance generation units 201 so that the selected fragrance is diverged. A drive switch SW10 for selectively connecting to the plurality of fragrance generation units 201 is interposed between the electrical contact 315 of the driver 300 and the drive signal generator 410 . The drive switch unit SW10 connects the drive signal generator 410 to the electrical connection unit 315 connected to the selected specific incense generation unit 201 so that the drive signal is outputted to the selected specific incense generation unit 201 . The driving signal generating unit 410 may simultaneously apply a driving signal to the selected two or more fragrance generation units 201. The driving switch unit SW10 may include a driving signal generating unit 410, It is possible to mediate the electrical connection between the fragrance generation units 201.

The vibration signal detecting unit 420 can obtain a vibration signal from the specific fragrance generation unit 201 selected from the plurality of fragrance generation units 201. A detection switch unit SW20 for forming a selective connection with a plurality of fragrance generation units 201 may be interposed between the electrical connection unit 315 of the driver 300 and the vibration signal detection unit 420 have. The detection switch unit SW20 is configured to connect the vibration signal detection unit 420 to the electric connection unit 315 connected to the selected specific fragrance generation unit 201 so that the vibration signal is inputted from the selected specific fragrance generation unit 201 do.

Although the switching operation of the driving switch SW10 and the detecting switch SW20 may be performed separately from each other, for example, the vibration state of the fragrance generation unit 201 to which the driving signal is applied For the purpose of monitoring, the drive switch unit SW10 and the detection switch unit SW20 may form connections with one or more than two fraze generating units 201 that are the same as each other.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, You will understand the point. Therefore, the true scope of protection of the present invention should be defined by the appended claims.

10: incense source block 20,30: piezoelectric paper
21, 31: first electrode layer 22, 32: second electrode layer
41: first connection part 42: second connection part
50: insulating layer 110, 420: vibration signal detecting section
120, 410: drive signal generator 150:
200: Cartridge 210: Frame
215: terminal region 220:
230: lower filter 240: upper filter
300: driver 315: electrical connection
320: blowing fan E1: first terminal portion
E2: second terminal portion OP1: upper opening
OP2: Lower opening P, P1 to P5: Piezoelectric vibrator
SW1: first switch unit SW2: second switch unit
SW10: drive switch unit SW20: detection switch unit
S: Surface of incense source block

Claims (19)

An incense source block comprising a fragrance material; And
And a plurality of piezoelectric vibrators disposed across the incense source block and spaced apart from each other. The method according to claim 1,
A drive signal generator for applying a drive signal to the piezoelectric vibrator; And
And a vibration signal detector for detecting a vibration state by extracting a vibration signal from the piezoelectric vibrator. 3. The method of claim 2,
A first switch unit for performing a switching operation on a plurality of piezoelectric vibrators and applying a driving signal to the selected piezoelectric vibrators;
A second switch unit for performing a switching operation on a plurality of piezoelectric vibrators and for drawing out a vibration signal from the selected piezoelectric vibrator; And
And a control unit for controlling the switching operation of the first and second switch units. The method of claim 3,
The first switch unit performs a switching operation between the plurality of piezoelectric vibrators and the driving signal generating unit,
And the second switch unit performs a switching operation between the plurality of piezoelectric vibrators and the vibration signal detecting unit. 5. The method of claim 4,
And the piezoelectric vibrators include a first piezoelectric vibrator disposed closest to the inside of the surface of the incense source block and a second piezoelectric vibrator disposed next inside of the first piezoelectric vibrator,
The first switch unit electrically connects the first piezoelectric vibrator and the drive signal generator,
And the second switch unit electrically connects the second piezoelectric vibrator and the vibration signal detecting unit. 6. The method of claim 5,
Wherein the control unit determines whether the first piezoelectric vibrator is exposed to the surface of the incense source block based on the vibration signal of the second piezoelectric vibrator. The method according to claim 6,
Wherein,
As the first piezoelectric vibrator is determined to have been exposed to the surface of the fragrance source block,
The first switching unit is switched so as to disconnect the connection between the driving signal generating unit and the first piezoelectric vibrator and form a connection with the second piezoelectric vibrator,
And switches the second switch section so as to disconnect the connection between the vibration signal detecting section and the second piezoelectric transducer and form a connection with the third piezoelectric transducer disposed on the next inner side of the second piezoelectric transducer. 8. The method of claim 7,
Wherein,
And outputs a warning message for the removal of the first piezoelectric transducer as it is determined that the first piezoelectric transducer is exposed to the surface of the incense source block. The method according to claim 1,
The piezoelectric vibrator
At least one piezoelectric paper; And
And the first and second electrode layers formed on both surfaces of the piezoelectric paper. The method according to claim 1,
The piezoelectric vibrator
A piezoelectric element comprising a stacked body in which a plurality of units are stacked with a first electrode layer and a second electrode layer formed on both sides of a piezoelectric paper as one unit,
And an insulating layer for electrically insulating between the first and second electrode layers. The method according to claim 1,
The piezoelectric vibrator
A piezoelectric paper stack in which a plurality of piezoelectric papers are stacked;
A set of first electrode layers extending to one side of the piezoelectric paper stack;
A first connection part for electrically coupling the group of first electrode layers to each other;
A group of second electrode layers extending to the other side of the piezoelectric paper stack; And
And a second connection part for electrically coupling the group of the second electrode layers to each other. delete delete delete delete delete delete delete delete

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