ATOMIZATION APPARATUS AND QUICK ATOMIZATION METHOD

Abstract

An atomization apparatus includes: an atomization sheet for atomizing a drug and having a rated voltage; and a voltage control element, electrically connected to the atomization sheet, for providing a operating voltage for the atomization sheet, wherein the operating voltage is not less than 70 V, and the operating voltage is 60% to 150% of the rated voltage of the atomization sheet, or the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%. A quick atomization method includes: providing an operating voltage to an atomization sheet, wherein the operating voltage is not less than 70 V, and the operating voltage is 60% to 150% of a rated voltage of the atomization sheet, or the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%.

Claims

1-11. (canceled)

12. An atomization apparatus, comprising: an atomization sheet for atomizing a drug and having a rated voltage; a voltage control element, electrically connected to the atomization sheet, for providing an operating voltage for the atomization sheet, wherein the operating voltage is not less than 70 V, and the operating voltage is 60% to 150% of the rated voltage of the atomization sheet.

13. An atomization apparatus, comprising: an atomization sheet for atomizing a drug and having a rated voltage; a voltage control element, electrically connected to the atomization sheet, for providing an operating voltage for the atomization sheet, wherein the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%.

14. The atomization apparatus of claim 12, wherein the voltage control element comprises a power supply and a voltage control circuit, the input terminal of the voltage control circuit is electrically connected to the power supply, and the output terminal of the voltage control circuit is electrically connected to the atomization sheet, and the voltage control circuit can perform step-up processing on the voltage provided by the power supply.

15. The atomization apparatus of claim 13, wherein the voltage control element comprises a power supply and a voltage control circuit, the input terminal of the voltage control circuit is electrically connected to the power supply, and the output terminal of the voltage control circuit is electrically connected to the atomization sheet, and the voltage control circuit can perform step-up processing on the voltage provided by the power supply.

16. The atomization apparatus of claim 14, wherein the voltage control circuit comprises a voltage regulating element, for changing the operating voltage provided to the atomization sheet.

17. The atomization apparatus of claim 15, wherein the voltage control circuit comprises a voltage regulating element, for changing the operating voltage provided to the atomization sheet.

18. The atomization apparatus of claim 16, wherein the voltage regulating element is a transformer, and the turns ratio of the primary coil and the secondary coil of the transformer is adjustable.

19. The atomization apparatus of claim 17, wherein the voltage regulating element is a transformer, and the turns ratio of the primary coil and the secondary coil of the transformer is adjustable.

20. The atomization apparatus of claim 18, wherein the voltage control element further comprises a voltage adjustment knob for manually adjusting the turns ratio of the primary and secondary coil of the transformer.

21. The atomization apparatus of claim 19, wherein the voltage control element further comprises a voltage adjustment knob for manually adjusting the turns ratio of the primary and secondary coil of the transformer.

22. The atomization apparatus of claim 14, wherein the atomization apparatus further comprises: a time control element, electrically connected to the atomization sheet through the voltage control element, for controlling the operating time of the atomization sheet.

23. The atomization apparatus of claim 15, wherein the atomization apparatus further comprises: a time control element, electrically connected to the atomization sheet through the voltage control element, for controlling the operating time of the atomization sheet.

24. The atomization apparatus of claim 22, wherein the operating time of each spray of the atomization sheet is 0.5 to 2 seconds.

25. The atomization apparatus of claim 23, wherein the operating time of each spray of the atomization sheet is 0.5 to 2 seconds.

26. A quick atomization method based on the atomization apparatus according to claim 12, wherein the operating voltage is not less than 70 V, the operating voltage is 60% to 150% of a rated voltage of the atomization sheet, and the atomization sheet performs atomizing treatment on the drug under the operating voltage.

27. A quick atomization method based on the atomization apparatus according to claim 13, wherein the voltage control element provides an operating voltage to the atomization sheet, the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%, and the atomization sheet performs atomizing treatment on the drug under the operating voltage.

28. A quick atomization method of claim 26, wherein the number of sprays of the atomization apparatus is 30 to 240 times.

29. A quick atomization method of claim 27, wherein the number of sprays of the atomization apparatus is 30 to 240 times.

Description

DESCRIPTION OF THE DRAWINGS

[0074] In order to more clearly illustrate the specific embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the specific embodiments or the description of the prior art are briefly introduced below. Obviously, the drawings in the following description are some embodiments of the present invention. For those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

[0075] FIG. 1 is the flow chart of quick atomization method of Example 1.

[0076] FIG. 2 is the flow chart of quick atomization method of Example 2.

[0077] FIG. 3 is the flow chart of quick atomization method of Example 7.

[0078] FIG. 4 is the composition schematic diagram of atomization apparatus of Example 7.

EXAMPLES

[0079] The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are part embodiments of the present invention, but not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by the skilled in the art without creative efforts shall fall within the protection scope of the present invention.

[0080] In the description of the present invention, it should be noted that the orientations or positional relationships indicated by the terms center, up, down, left, right, vertical, horizontal, inside, outside, etc., are based on the orientations or positional relationships shown in the drawings, and are merely for the convenience of describing the present invention and simplify the description, rather than indicating or implying that the device or element referred to must have a particular orientation, be constructed and operate in a particular orientation, and therefore should not be construed as limiting the invention. In addition, the terms first, second, and third are used for descriptive purposes only, and should not be construed to indicate or imply relative importance.

[0081] In the description of the present invention, it should be noted that the terms installation, connected, and connection should be understood in a broad sense unless otherwise specified and limited. For example, it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be directly connected, or it can be indirectly connected through an intermediate medium, or it can be the internal connection of two elements. For those skilled in the art, the specific meanings of the above terms in the present invention can be understood on a case-by-case basis.

[0082] In order to make the structural features and achieved effects of the present invention be further understood and recognized, the preferred embodiments and drawings are used in conjunction with the detailed description, as follows:

Example 1

[0083] An atomization apparatus comprises:

[0084] an atomization sheet for atomizing a drug and having a rated voltage;

[0085] a voltage control element, electrically connected to the atomization sheet, for providing an operating voltage for the atomization sheet, wherein the operating voltage is not less than 70 V, and the operating voltage is 60% to 150% of the rated voltage of the atomization sheet.

[0086] When the operating voltage is not less than 70 V, and the operating voltage is 60% to 150% of the rated voltage of the atomization sheet, the atomization speed can be improved. Combining the spray with the patient's inhalation can shorten the administration time from minutes to seconds, which is extremely convenient to use. High voltage operation for a few seconds a day does not cause the atomization sheet to heat up, nor does it shorten the lifespan too much. When the operating voltage exceeds the rated voltage too much, droplets will be sprayed out from the atomization sheet, the atomized sheet become hot, the proportion of 1-5 m droplets among atomized droplets decreases, and the atomization effect is poor. When the operating voltage does not exceed 150% of the rated voltage, the above situation can be avoided and a high atomization rate can be guaranteed.

[0087] In this example, the voltage control element includes a power supply and a voltage control circuit. One end of the voltage control circuit is electrically connected to the power supply, and the other end of the voltage control circuit is electrically connected to the atomization sheet. The voltage control circuit performs step-up processing on the voltage provided by the power supply. By performing step-up processing on the voltage and inputting it to the atomization sheet, the output voltage of the power supply can be reduced, thereby making the use of the power supply more secure.

[0088] In this example, the voltage control circuit includes a voltage regulating element, and the voltage regulating element is used to change the operating voltage provided to the atomization sheet. The voltage regulating element is provided with a regulating device on the casing.

[0089] In this example, the voltage regulating element is a transformer, and the turns ratio of the primary coil and secondary coil of the transformer is adjustable. That is, the step-up ratio of the voltage control circuit is adjustable. When the output voltage of the power supply is fixed, the operating voltage can be adjusted to not less than 70V, and the operating voltage is 60%150% of the rated voltage of the atomization sheet, which is easy to adjust.

[0090] In this example, the voltage control circuit further includes voltage adjustment knob for manually adjusting the turns ratio of the primary and secondary coil of the transformer. The voltage adjustment knob is set on the casing and can be manually adjusted by turning.

[0091] The atomization device includes a casing and an atomization component. The atomization component is installed inside the casing, and the atomization sheet is installed inside the atomization component. Both the power supply and the voltage control circuit are installed inside the casing and located outside the atomization component.

[0092] A quick atomization method based on the atomization apparatus above is provided in this example. The voltage control element provides an operating voltage to the atomization sheet, wherein the operating voltage is not less than 70 V, and the operating voltage is 60% to 150% of the rated voltage of the atomization sheet. The atomization sheet atomizes the drug under the operating voltage.

[0093] In this example, as shown in FIG. 1, the quick atomization method includes the following steps:

[0094] the power supply provides voltage to the voltage control circuit;

[0095] the voltage control circuit performs step-up processing on the voltage provided by the power supply, which is then transformed into an operating voltage. The operating voltage is not less than 70V, and the operating voltage is 60%150% of the rated voltage of the atomization sheet;

[0096] the voltage control circuit sends the operating voltage to the atomization sheet, and the atomization sheet atomizes the drug under the operating voltage.

[0097] In this example, the voltage control circuit performs step-up processing on the voltage provided by the power supply, which includes the following steps:

[0098] regulating the voltage regulating element in the voltage control circuit to change the operating voltage provided to the atomization sheet.

[0099] In this example, when adjusting a voltage regulating element in a voltage control circuit, the method includes the following steps:

[0100] the turns ratio of the primary and secondary coil of the voltage regulating element is regulated to change the operating voltage provided to the atomization sheet, wherein the voltage regulating element is a transformer.

[0101] In this example, the power supply is selected first, and then a voltage control circuit with a suitable step-up ratio is selected. The output voltage of the power supply is fixed, by regulating the voltage regulating element, the voltage control circuit is controlled so that the operating voltage can be adjusted to not less than 70, and the operating voltage is 60% to 150% of the rated voltage of the atomization sheet, thus the atomization device can meet the need of different populations, different drugs, and different symptoms, and then provide the versatility of the atomization device.

[0102] The voltage control element further includes a voltage adjustment knob for manually adjusting the turns ratio of the primary and secondary coil of the transformer, that is, adjusting the step-up ratio of the voltage control circuit. So that in the condition that the output voltage of the power supply is fixed, the operating voltage can be adjusted to not less than 70V, and the operating voltage is 60% to 150% of the rated voltage of the atomization sheet.

Example 2

[0103] An atomization apparatus comprises:

[0104] an atomization sheet for atomizing a drug and having a rated voltage;

[0105] a voltage control element, electrically connected to the atomization sheet, for providing an operating voltage for the atomization sheet, wherein the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%.

[0106] When the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%, the atomization sheet can work under overload, thereby increasing the atomization rate. The rated voltage of the atomization sheet can be obtained from the product manual of the atomization sheet. When the operating voltage exceeds the rated voltage too much, droplets will be sprayed out from the atomized sheet, the atomized sheet become hot, the proportion of 1-5 m droplets among atomized droplets decreases, and the atomization effect is poor. When the operating voltage does not exceed 150% of the rated voltage, the above situation can be avoided and a high atomization rate can be guaranteed.

[0107] In this example, the voltage control element includes a power supply and a voltage control circuit. The input end of the voltage control circuit is electrically connected to the power supply. The output end of the voltage control circuit is electrically connected to the atomization sheet, and the voltage control circuit can perform step-up processing on the voltage provided by the power supply. By performing step-up processing on the voltage and inputting it to the atomization sheet, the output voltage of the power supply can be reduced, thereby making the use of the power supply more secure.

[0108] In this example, the voltage control circuit includes a voltage regulating element, and the voltage regulating element is used to change the operating voltage provided to the atomization sheet. The voltage regulating element is provided with a regulating device on the casing.

[0109] In this example, the voltage regulating element is a transformer, and the turns ratio of the primary coil and secondary coil of the transformer is adjustable. That is, the step-up ratio of the voltage control circuit can be adjusted. When the output voltage of the power supply is fixed, the operating voltage can be adjusted to a ratio of the rated voltage of the atomization sheet greater than 100% and not greater than 150%.

[0110] In this example, the voltage control element further includes a voltage adjustment knob for manually adjusting the turns ratio of the primary coil and secondary coil of the transformer. The voltage adjustment knob is set on the casing and can be manually adjusted by turning.

[0111] The atomization device includes a casing and an atomization component. The atomization component is installed inside the casing, and the atomization sheet is installed inside the atomization component. Both the power supply and the voltage control circuit are installed inside the casing and located outside the atomization component.

[0112] A quick atomization method based on the atomization apparatus above is provided in this example. The voltage control element provides an operating voltage to the atomization sheet, wherein the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%. The atomization sheet atomizes the drug under the operating voltage.

[0113] In this example, as shown in FIG. 2, the quick atomization method includes the following steps:

[0114] the power supply provides voltage to the voltage control circuit;

[0115] the voltage control circuit performs step-up processing on the voltage provided by the power supply, which is then transformed into an operating voltage. The ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%;

[0116] the voltage control circuit sends the operating voltage to the atomization sheet, and the atomization sheet atomizes the drug under the operating voltage.

[0117] In this example, the voltage control circuit performs step-up processing on the voltage provided by the power supply, which includes the following steps:

[0118] regulating the voltage regulating element in the voltage control circuit to change the operating voltage provided to the atomization sheet.

[0119] In this example, when adjusting a voltage regulating element in a voltage control circuit, the method includes the following steps:

[0120] the turns ratio of the primary and secondary coil of the voltage regulating element is regulated to change the operating voltage provided to the atomization sheet, wherein the voltage adjustment element is a transformer.

[0121] In this example, the power supply is selected first, and then a voltage control circuit with a suitable step-up ratio is selected. The output voltage of the power supply is fixed, by regulating the voltage regulating element, the voltage control circuit is controlled so that the ratio of the operating voltage to the rated voltage of the atomization sheet can be adjusted to greater than 100% and not greater than 150%, thus the atomization device can meet the need of different populations, different drugs, and different symptoms, and then provide the versatility of the atomization device.

[0122] The voltage control element further includes a voltage adjustment knob for manually adjusting the turns ratio of the primary and secondary coil of the transformer, that is, adjusting the step-up ratio of the voltage control circuit. So that in the condition that the output voltage of the power supply is fixed, the ratio of the operating voltage to the rated voltage of the atomization sheet can be adjusted to greater than 100% and not greater than 150%.

Example 3

[0123] By using the atomization device and the quick atomization method in Example 1 or Example 2, the atomization sheets with a rated voltage of 90V commonly used in the market are tested. The results are shown in Table 1 below.

TABLE-US-00001 TABLE 1 When the cumulative The ratio working The rated of the time is voltage operating Movement The The reached, of the voltage to speed proportion cumulative whether atomization Operating the rated Atomization of the of working working sheet voltage voltage speed mist 1 to 5 um time is (v) (V) (%) (mg/s) (cm/s) droplets (s) normal? 90 45.04 50 2.05 4.58 46.42 900 Normal 54.12 60 3.44 11.32 46.35 900 Normal 63.13 70 4.98 12.58 46.44 900 Normal 70.00 78 8.05 12.83 45.95 900 Normal 72.02 80 8.12 13.94 45.91 900 Normal 81.07 90 9.47 14.01 45.87 900 Normal 90.10 100 11.37 16.53 45.81 900 Normal 99.04 110 13.62 18.84 45.22 900 Normal 108.07 120 14.59 19.74 45.16 900 Normal 116.9 130 17.13 21.95 45.18 900 Normal 126.02 140 19.85 23.78 45.38 900 Normal 135.00 150 22.46 25.13 45.11 900 Normal

[0124] All of the atomization sheets used in the table above are the atomization sheets with a rated voltage of 90V commonly used in the market. From the test results in the table above, it can be seen that when the working voltage provided to the atomization sheet is not less than 70V, and the working voltage is 60%150% of the rated voltage of the atomization sheet, or when the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%, the atomization speed of the drug and the movement speed of the mist are effectively improved, especially the atomization speed is significantly improved, and the proportion of 1 to 5 m droplets among atomized droplets remains almost unchanged. When the ratio of the operating voltage to the rated voltage of the atomization sheet is not greater than 150%, the atomization sheet will not be damaged when the cumulative working time is reached, namely when the total sprays are finished. The atomization sheet can be sprayed normally, there are no large droplets, and the atomization sheet is not hot.

Example 4

[0125] The difference between Example 3 and the Example 4 is that:

[0126] the atomization sheets with a rated voltage of 120V commonly used in the market are tested. The results are shown in Table 2 below.

TABLE-US-00002 TABLE 2 When the cumulative The ratio working The rated of the time is voltage operating Movement The The reached, of the voltage to speed proportion cumulative whether atomization Operating the rated Atomization of the of working working sheet voltage voltage speed mist 1 to 5 um time is (v) (V) (%) (mg/s) (cm/s) droplets (s) normal? 120 60.04 50 4.51 11.52 46.32 900 Normal 70.00 58 8.08 12.91 46.28 900 Normal 72.08 60 8.43 13.48 46.87 900 Normal 84.11 70 9.71 15.47 46.21 900 Normal 95.95 80 11.96 16.04 45.98 900 Normal 108.07 90 14.55 18.12 45.62 900 Normal 120.01 100 18.17 19.87 45.81 900 Normal 132.08 110 21.00 23.11 45.69 900 Normal 144.17 120 23.48 25.52 45.78 900 Normal 156.09 130 25.79 27.25 45.85 900 Normal 167.89 140 28.42 29.45 45.33 900 Normal 180.07 150 31.87 32.87 45.28 900 Normal

[0127] All of the atomization sheets used in the table above are the atomization sheets with a rated voltage of 120V commonly used in the market. From the test results in the table above, it can be seen that when the working voltage provided to the atomization sheet is not less than 70V, and the working voltage is 60%150% of the rated voltage of the atomization sheet, or when the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%, the atomization speed of the drug and the movement of the mist are effectively improved, especially the atomization speed is significantly improved, and the proportion of 1 to 5 m droplets among atomized droplets remains almost unchanged. When the ratio of the operating voltage to the rated voltage of the atomization sheet is not greater than 150%, the atomization sheet will not be damaged when the cumulative working time is reached, namely when the total sprays are finished. The atomization sheet can be sprayed normally, there are no large droplets, and the atomization sheet is not hot.

Example 5

[0128] The difference between this example and the Example 1 is that:

[0129] in this example, before the power supply provides voltage to the voltage control circuit, the following steps are further included:

[0130] determining the step-up ratio of the voltage control circuit, and determining the rated voltage of the atomization sheet;

[0131] selecting a power supply with a suitable output voltage according to the step-up ratio and rated voltage to ensure that after the output voltage of the power supply is subjected to the step-up processing of the voltage control circuit, the operating voltage provided to the atomization sheet is not less than 70V, and the operating voltage is 60% to 150% of the rated voltage of the atomization sheet.

[0132] In this example, the power supply is selected first, and then the power supply with the appropriate output voltage is selected. The turns ratio of the primary coil and the secondary coil of the transformer is not adjustable. The step-up ratio of the voltage control circuit is fixed. The step-up ratio of the voltage control circuit can be obtained from the product manual of the voltage control circuit board. The rated voltage of the atomization sheet can be obtained from the product manual of the atomization sheet.

Example 6

[0133] The difference between this example and the Example 2 is that:

[0134] in this example, before the power supply provides voltage to the voltage control circuit, the following steps are further included:

[0135] determining the step-up ratio of the voltage control circuit, and determining the rated voltage of the atomization sheet;

[0136] selecting a power supply with a suitable output voltage according to the step-up ratio and rated voltage to ensure that after the output voltage of the power supply is subjected to the step-up processing of the voltage control circuit, the ratio of the operating voltage to the rated voltage of the atomization sheet is greater than 100% and not greater than 150%.

[0137] In this example, the power supply is selected first, and then the power supply with the appropriate output voltage is selected. The turns ratio of the primary coil and the secondary coil of the transformer is not adjustable. The step-up ratio of the voltage control circuit is fixed. The step-up ratio of the voltage control circuit can be obtained from the product manual of the voltage control circuit board. The rated voltage of the atomization sheet can be obtained from the product manual of the atomization sheet.

Example 7

[0138] The difference between this example and Example 1 or Example 2 is that:

[0139] as shown in FIG. 4, the atomization device further includes a time control element, which is electrically connected to the atomization sheet through a voltage control element, and is used to control the operating time of the atomization sheet.

[0140] The atomization device of the present invention can perform multiple sprays. Before the devices leave the factory, the cumulative working time of the atomization sheet, the working time of the single spray of the atomization sheet, and the number of sprays are fixedly set, that is, the predetermined time limit and the number of sprays are set. The multiplier of the working time of the single spray of the atomization sheet and the number of sprays is equal to the cumulative working time of the atomization sheet. The time control element can control the cumulative working time of the atomization sheet and the working time of a single spray of the atomization sheet.

[0141] In this example, the voltage control element is installed inside the casing and outside the atomization component, and the time control element is installed inside the casing and outside the atomization component.

[0142] In this example, an on-off switch is provided inside the voltage control element. The time control element is connected to the on-off switch. The time control element controls the closing or opening of the on-off switch to realize the operation or stop of the voltage control element, and thus control the working time of the atomization sheet.

[0143] In other example, an on-off switch is provided between the atomization sheet and the voltage control element. The time control element is connected to the on-off switch. The time control element controls the closing or opening of the on-off switch to realize the closing or opening of the power transmission path between the atomization sheet and the voltage control element, and thus control the working time of the atomization sheet.

[0144] In this example, the time control element includes a crystal oscillator or a ceramic oscillator, and the crystal oscillator or the ceramic oscillator is electrically connected to the voltage control element.

[0145] In this example, the time control element is integrated on the voltage control circuit.

[0146] In this example, the operating time of each spray of the atomization sheet is 1.5 seconds, the number of sprays of the atomization device is 120 times, and the cumulative working time of the atomization sheet is 15 to 480 seconds, wherein the multiplier of the working time of the single spray of the atomization sheet and the number of sprays is equal to the cumulative working time of the atomization sheet.

[0147] Since the cumulative working time of the atomization sheet is short, the atomization sheet will not be damaged when the spray is completed, that is, the spray can be completed before the atomization sheet is damaged, and the spraying time is short and the use is convenient.

[0148] In this example, as shown in FIG. 3, while executing a voltage control circuit to input an operating voltage to the atomization sheet, the following steps are further included:

[0149] starting the timer;

[0150] determining whether the cumulative working time of the atomization sheet has reached the predetermined time limit, if so, stopping inputting the operating voltage to the atomization sheet to stop the atomization sheet from performing atomization treatment on the drug; if not, whether the working time of a single spray of the atomization sheet has reached the predetermined time limit need to be determined, if yes, stopping inputting the operating voltage to the atomization sheet to stop the atomization sheet from performing atomization treatment on the drug; if not, returning to determine whether the working time of a single spray of the atomization sheet has reached the predetermined time limit.

[0151] In this example, determining whether the working time of the atomization sheet has reached a predetermined time limit, specifically:

[0152] counting time in reverse order, setting the initial time of the countdown clock to the value of the predetermined time limit, and determining whether the working time of the atomization sheet is equal to zero.

Example 8

[0153] The difference between this example and the Example 7 is that:

[0154] in this example, determining whether the working time of the atomization sheet has reached a predetermined time limit, specifically:

[0155] counting time in positive order, setting the initial time of the positive sequence timing to be zero, and determining whether the working time of the atomization sheet is greater than or equal to the value of a predetermined time limit.

[0156] In this example, the operating time of each spray of the atomization sheet is 0.5 seconds, the number of sprays of the atomization device is 30 times, the cumulative working time of the atomization sheet is 15 seconds.

[0157] In other example, the operating time of each spray of the atomization sheet is 1 seconds, the number of sprays of the atomization device is 30 times, the cumulative working time of the atomization sheet is 30 seconds.

[0158] In other example, the operating time of each spray of the atomization sheet is 1 seconds, the number of sprays of the atomization device is 60 times, the cumulative working time of the atomization sheet is 60 seconds.

[0159] In other example, the operating time of each spray of the atomization sheet is 1.5 seconds, the number of sprays of the atomization device is 60 times, the cumulative working time of the atomization sheet is 90 seconds.

[0160] In other example, the operating time of each spray of the atomization sheet is 1.5 seconds, the number of sprays of the atomization device is 120 times, the cumulative working time of the atomization sheet is 180 seconds.

[0161] In other example, the operating time of each spray of the atomization sheet is 2 seconds, the number of sprays of the atomization device is 60 times, the cumulative working time of the atomization sheet is 120 seconds.

[0162] In other example, the operating time of each spray of the atomization sheet is 2 seconds, the number of sprays of the atomization device is 120 times, the cumulative working time of the atomization sheet is 240 seconds.

[0163] In other example, the operating time of each spray of the atomization sheet is 2 seconds, the number of sprays of the atomization device is 240 times, the cumulative working time of the atomization sheet is 480 seconds.

[0164] The parts that are not involved in the present invention are the same as the existing technology or can be implemented by using the existing technology, and are not repeated herein.

[0165] Finally, it should be noted that for those skilled in the art, it is obvious that the present application is not limited to the details of the above-mentioned exemplary embodiments, and can be implemented in other specific forms without departing from the spirit or basic features of the present application. Therefore, the embodiments should be regarded as exemplary and non-limiting in every respect. The scope of the present application is defined by the appended claims rather than the foregoing description, and therefore it is intended to include within the present application all changes that fall within the meaning and scope of equivalents of the claims.

[0166] In addition, it should be understood that although this specification is described in terms of embodiments, not every embodiment includes only an independent technical solution. This description of the specification is for clarity only, and those skilled in the art should take the specification as a whole. The technical solutions in the embodiments can also be appropriately combined to form other implementations that can be understood by those skilled in the art.