TW202015572A - Power unit of non-combustion type aspirator, main unit, non-combustion type aspirator - Google Patents

Power unit of non-combustion type aspirator, main unit, non-combustion type aspirator Download PDF

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Publication number
TW202015572A
TW202015572A TW108101650A TW108101650A TW202015572A TW 202015572 A TW202015572 A TW 202015572A TW 108101650 A TW108101650 A TW 108101650A TW 108101650 A TW108101650 A TW 108101650A TW 202015572 A TW202015572 A TW 202015572A
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Taiwan
Prior art keywords
power supply
holding unit
unit
supply unit
chamber
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TW108101650A
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Chinese (zh)
Inventor
山田学
松田健太郎
沈丕發
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日商日本煙草產業股份有限公司
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Publication of TW202015572A publication Critical patent/TW202015572A/en

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    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F47/00Smokers' requisites not otherwise provided for

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  • Battery Mounting, Suspending (AREA)
  • Measuring Fluid Pressure (AREA)

Abstract

A power unit of a non-combustion type aspirator according to an aspect of the present invention includes a housing having a pressure variation chamber in which a communication port communicating with a misting unit accommodating an aerosol source is opened, and a normal pressure chamber partitioned with a partition member interposed with respect to the pressure variation chamber; a chargeable and dischargeable power accommodated in the normal pressure chamber; a first substrate module having a pressure sensor mounted thereon and accommodated in the housing so that at least the pressure sensor is exposed to the pressure variation chamber; and a second substrate module accommodated in the normal pressure chamber on a side opposite to the first substrate module with the power interposed therebetween and having a female connector mounted thereon.

Description

非燃燒式吸嚐器的電源單元、本體單元及非燃燒式吸嚐器 Power supply unit, body unit of non-combustion taster and non-combustion taster

本發明係關於非燃燒式吸嚐器的電源單元、本體單元及非燃燒式吸嚐器。 The invention relates to a power supply unit, a body unit of a non-combustion type taster and a non-combustion type taster.

本申請案根據2018年10月26日提出申請的中國第201811255601.1號專利申請案主張優先權,在此援用該案的內容。 This application claims priority based on China Patent Application No. 201811255601.1 filed on October 26, 2018, and the content of the case is invoked here.

至今為止,已知有抽吸藉由加熱而霧化的蒸氣(例如霧氣(aerosol))來品嚐香味之非燃燒式吸嚐器(以下簡稱為吸嚐器)。就此種吸嚐器而言,例如具備有:收容可霧化的內容物(例如霧氣源)之霧化單元、以及搭載有蓄電池之電源單元者。 So far, non-combustion tasters (hereinafter referred to simply as tasters) for sucking steam atomized by heating (for example, aerosol) to taste the fragrance are known. Such a taste absorber includes, for example, an atomizing unit that contains an atomizable content (for example, a mist gas source), and a power supply unit equipped with a battery.

吸嚐器中,設於霧化單元之加熱部利用供給自蓄電池的電力而發熱。藉此,使霧化單元內的內容物霧化。使用者可通過吸口部抽吸而隨著空氣一同吸到經霧化的霧氣。 In the suction device, the heating portion provided in the atomizing unit generates heat by the power supplied from the battery. By this, the content in the atomization unit is atomized. The user can suck the atomized mist with the air through the suction part.

例如下記的專利文獻1中,揭示了蓄電池、電路基板等搭載於框架的狀態下,組裝到筒狀的外殼中之構成。專利文獻1揭示的構成中,係在相對於蓄電池位於第一側之電路基板安裝有開關元件,在相對於蓄電池位於第二側之電路基板安裝有母連接器。 For example, Patent Document 1 described below discloses a configuration in which a battery, a circuit board, and the like are mounted on a frame and assembled into a cylindrical case. In the configuration disclosed in Patent Document 1, the switching element is mounted on the circuit board on the first side with respect to the battery, and the female connector is mounted on the circuit board on the second side with respect to the battery.

[先前技術文獻] [Prior Technical Literature] [專利文獻] [Patent Literature]

(專利文獻1)中國專利公告第106343611號說明書 (Patent Literature 1) China Patent Announcement No. 106343611

然而,上述先前技術中,在提升了母連接器及蓄電池之防液性能的情形下,在使之提升壓力感測器之靈敏度之觀點尚有改善的餘地。 However, in the above-mentioned prior art, in the case of improving the liquid-proof performance of the female connector and the battery, there is room for improvement in the viewpoint of increasing the sensitivity of the pressure sensor.

本發明之目的在於提供可使母連接器及蓄電池之防液性能的情形下,能夠使之提升壓力感測器之靈敏度之非燃燒式吸嚐器的電源單元、本體單元及非燃燒式吸嚐器。 The purpose of the present invention is to provide a power supply unit, a body unit and a non-combustion type suction device of a non-combustion type suction device which can improve the sensitivity of the pressure sensor in the case of the liquid-proof performance of the female connector and the battery Device.

(1)為了達成上述目的,本發明的一態樣之非燃燒式吸嚐器的電源單元係具備有:外殼,具有壓力變動室及常壓室,該壓力變動室之與供收容霧氣源之霧化單元連通的連通口係形成開口,該常壓室係相對於前述壓力變動室以在其間隔有區隔構件之方式被區劃出;可充放電的電源,收容在前述常壓室內;第一基板模組,供安裝壓力感測器,並且以至少前 述壓力感測器露出於前述壓力變動室內的方式被收容在前述外殼內;以及第二基板模組,於前述常壓室內,在與前述第一基板模組之間隔著前述電源而被收容在與前述第一基板模組為相反之側,且安裝有母連接器。 (1) In order to achieve the above object, the power supply unit of the non-combustion type taster according to an aspect of the present invention is provided with: a housing, a pressure fluctuation chamber and a normal pressure chamber, the pressure fluctuation chamber and the source for accommodating the mist gas source The communication port communicating with the atomizing unit forms an opening, and the normal pressure chamber is partitioned with respect to the pressure fluctuation chamber with a partition member therebetween; a power source capable of charging and discharging is housed in the normal pressure chamber; A substrate module for installing the pressure sensor, and at least the front The pressure sensor is housed in the housing in such a manner that it is exposed in the pressure fluctuation chamber; and the second substrate module is housed in the normal pressure chamber with the power supply between the first substrate module and the first substrate module The side opposite to the first substrate module mentioned above is equipped with a female connector.

根據本態樣,至少母連接器及電源配置於藉由區隔構件與壓力變動室區劃的常壓室,因此,能夠抑制通過連通口之霧氣等往常壓室內進入,且能夠抑制霧氣附著於母連接器及電源。 According to this aspect, at least the female connector and the power supply are arranged in the normal pressure chamber partitioned by the partition member and the pressure fluctuation chamber, therefore, it is possible to suppress the entry of mist or the like through the communication port into the normal pressure chamber, and to suppress the adhesion of mist to the female connection Device and power supply.

另一方面,藉由將母連接器及電源收容於常壓室,能夠謀求壓力變動室的小型化。藉此,能夠迅速地檢測出壓力變動室的壓力變動。 On the other hand, by accommodating the female connector and the power supply in the normal pressure chamber, the pressure fluctuation chamber can be miniaturized. With this, the pressure fluctuation in the pressure fluctuation chamber can be quickly detected.

(2)係上述(1)的態樣之非燃燒式吸嚐器的電源單元中,前述第一基板模組係可配置成相對於前述電源更靠近前述霧化單元,於前述外殼配設有可按壓操作的按鈕,前述第一基板模組係具備藉由前述按鈕所操作的切換元件。 (2) In the power supply unit of the non-burning type sucker according to the aspect (1) above, the first substrate module may be arranged closer to the atomizing unit relative to the power supply, and disposed in the housing The push button can be operated, and the first substrate module is provided with a switching element operated by the push button.

根據本態樣,由於第一基板模組係配置成相對於前述電源更靠近前述霧化單元,故能夠縮小壓力變動室的容積。藉此,能夠藉由壓力感測器迅速地檢測出於壓力變動室發生的壓力變動。結果,能夠提升壓力感測器的靈敏度。 According to this aspect, since the first substrate module is disposed closer to the atomizing unit with respect to the power source, the volume of the pressure fluctuation chamber can be reduced. With this, it is possible to quickly detect the pressure fluctuation caused by the pressure fluctuation chamber by the pressure sensor. As a result, the sensitivity of the pressure sensor can be improved.

此外,藉由將第一基板模組配置成靠近霧化單元,能夠將切換元件配置於非燃燒式吸嚐器之靠中央部位。藉此,能夠提升操作性。 In addition, by arranging the first substrate module close to the atomizing unit, the switching element can be disposed near the center of the non-combustion taster. With this, operability can be improved.

(3)係上述(1)或(2)的態樣之非燃燒式吸嚐器的電源單元中,具備保持器,該保持器係供前述電源、前述第一基板模組及前述第二基板模組搭載,並且安裝於前述外殼。 (3) The power supply unit of the non-burning type sucker of the aspect (1) or (2) above includes a holder for supplying the power supply, the first substrate module and the second substrate The module is mounted and mounted on the aforementioned housing.

根據本態樣,與將電源、第一基板模組及第二基板模組個別組裝於外殼的情形相比較,能夠謀求提升組裝性。此外,藉由將第一基板模組及第二基板模組個別地搭載於保持器來作為基板模組,能夠謀求如上述態樣般相對於電源將基板模組配置於兩側等配置性的提升。 According to this aspect, compared with the case where the power supply, the first substrate module, and the second substrate module are individually assembled in the case, it is possible to improve the assemblability. In addition, by individually mounting the first substrate module and the second substrate module in the holder as the substrate module, it is possible to achieve configurability such as arranging the substrate module on both sides with respect to the power supply as described above Promote.

(4)係上述(1)至(3)中任一態樣之非燃燒式吸嚐器的電源單元中,前述電源可為蓄電池。 (4) In the power supply unit of the non-combustion type taster according to any one of the above (1) to (3), the power supply may be a battery.

根據本態樣,與例如採用一次電池作為電源的情形不同,能夠重複使用。 According to this aspect, unlike the case where, for example, a primary battery is used as a power source, it can be reused.

(5)係本發明的一態樣之非燃燒式吸嚐器的本體單元係具備有:上述態樣的電源單元;以及與前述電源單元連接之筒狀的保持單元。 (5) The body unit of the non-combustion type taster according to an aspect of the present invention includes: the power supply unit of the above aspect; and a cylindrical holding unit connected to the power supply unit.

根據本態樣,可提供使母連接器及電源的防液性能提升以及壓力感測器之靈敏度提升達到兩全之高性能的本體單元。 According to this aspect, it is possible to provide a high-performance main body unit that improves the liquid-proof performance of the female connector and the power supply and the sensitivity of the pressure sensor.

(6)本發明的一態樣之非燃燒式吸嚐器係具備有:上述態樣之本體單元;以及可裝拆地收容於前述保持單元內之前述霧化單元。 (6) An aspect of the non-combustion type taste absorber of the present invention includes: the body unit of the above aspect; and the atomization unit detachably housed in the holding unit.

根據本態樣,可提供使母連接器及電源的防液性能提升以及壓力感測器之靈敏度提升達到兩全之高性能的非燃燒式吸嚐器。 According to this aspect, it can provide a high-performance non-combustion taster that improves the liquid-proof performance of the female connector and the power supply and the sensitivity of the pressure sensor.

而且,本態樣中,霧化單元係構成為可相對於本體單元而裝拆。因此,藉由霧化單元的裝拆操作而可進行霧氣源的補充,可減輕霧氣源的充填作業之繁雜度。結果,能夠具備良好的操作性。 Furthermore, in this aspect, the atomizing unit is configured to be detachable with respect to the body unit. Therefore, the mist gas source can be replenished through the assembly and disassembly operation of the atomization unit, and the complexity of the filling operation of the mist gas source can be reduced. As a result, good operability can be provided.

根據本發明的一態樣,在可使母連接器及蓄電池的防液性能提升的情形下,可使壓力感測器之靈敏度提升。 According to one aspect of the present invention, the sensitivity of the pressure sensor can be improved in the case where the liquid resistance of the female connector and the battery can be improved.

1‧‧‧吸嚐器 1‧‧‧ taster

10‧‧‧本體單元 10‧‧‧Body unit

11‧‧‧匣體 11‧‧‧Box

12‧‧‧菸草膠囊 12‧‧‧Tobacco capsules

21‧‧‧電源單元 21‧‧‧Power supply unit

22‧‧‧保持單元 22‧‧‧ Holding unit

23‧‧‧抽吸嘴 23‧‧‧Suction nozzle

23a‧‧‧吸引口(收容空間) 23a‧‧‧Suction (accommodation space)

31‧‧‧外殼 31‧‧‧Housing

32‧‧‧支架組件 32‧‧‧Bracket assembly

33‧‧‧蓄電池 33‧‧‧ battery

34‧‧‧第一基板模組 34‧‧‧ First substrate module

35‧‧‧第二基板模組 35‧‧‧Second substrate module

36‧‧‧蓄電池支架 36‧‧‧Battery bracket

40、91‧‧‧基部 40, 91‧‧‧ base

40a‧‧‧安裝開口 40a‧‧‧Installation opening

41‧‧‧壓入筒部 41‧‧‧press into the barrel

41a‧‧‧凸柱部 41a‧‧‧Bollard

42‧‧‧連接器通過孔 42‧‧‧Connector through hole

43‧‧‧堵塞部 43‧‧‧Clogging Department

44‧‧‧按鈕開口 44‧‧‧button opening

45‧‧‧按鈕導引筒 45‧‧‧Button guide tube

46‧‧‧區隔壁 46‧‧‧ next door

47‧‧‧段差部 47‧‧‧Division

48‧‧‧連接台座 48‧‧‧Connect the pedestal

49‧‧‧頂針電極 49‧‧‧thimble electrode

49a‧‧‧第一頂針電極 49a‧‧‧First thimble electrode

49b‧‧‧第二頂針電極 49b‧‧‧Second thimble electrode

50‧‧‧電極保持部 50‧‧‧electrode holding part

51‧‧‧連通埠 51‧‧‧Connect port

52‧‧‧開關元件 52‧‧‧Switch element

53‧‧‧壓力感測器 53‧‧‧ pressure sensor

54‧‧‧感測器保持架 54‧‧‧Sensor Cage

55‧‧‧安裝部 55‧‧‧Installation Department

56‧‧‧被覆部 56‧‧‧Coated Department

56a‧‧‧底壁部 56a‧‧‧Bottom wall

56b‧‧‧間隔部 56b‧‧‧Spacer

57‧‧‧夾持片 57‧‧‧Clamping piece

58‧‧‧空氣置換孔 58‧‧‧Air replacement hole

59‧‧‧連通路 59‧‧‧ Connect

60‧‧‧第一基板 60‧‧‧First substrate

61‧‧‧第二基板 61‧‧‧Second substrate

61a‧‧‧第二連接配線 61a‧‧‧Second connection wiring

62‧‧‧母連接器 62‧‧‧Female connector

71‧‧‧外裝筒部 71‧‧‧Outer tube

72‧‧‧介裝部件 72‧‧‧Intermediate parts

73‧‧‧連接機構 73‧‧‧ connection mechanism

75‧‧‧連接器露出孔 75‧‧‧Connector exposed hole

76‧‧‧按鈕露出孔 76‧‧‧ button exposed hole

78‧‧‧按鈕 78‧‧‧ button

80‧‧‧連接蓋 80‧‧‧ connection cover

81‧‧‧第一連結部件 81‧‧‧First connecting part

82‧‧‧環狀片 82‧‧‧ring film

91a‧‧‧基面 91a‧‧‧Base

92‧‧‧凸緣部 92‧‧‧Flange

93‧‧‧圍繞凸部 93‧‧‧ Around convex

95‧‧‧收容凹部 95‧‧‧ Containment recess

97‧‧‧電極插通孔 97‧‧‧Electrode insertion hole

99‧‧‧埠插通孔 99‧‧‧ port insertion hole

100‧‧‧基筒部 100‧‧‧Base cylinder

101‧‧‧縱卡合凸部 101‧‧‧Longitudinal engagement convex part

101a‧‧‧第一縱卡合凸部 101a‧‧‧First vertical engagement convex part

101b‧‧‧第二縱卡合凸部 101b‧‧‧Second longitudinal engagement convex part

101c‧‧‧第三縱卡合凸部 101c‧‧‧The third vertical engaging convex part

102‧‧‧橫卡合凸部 102‧‧‧Lateral snap-in convex part

105‧‧‧外凸緣部 105‧‧‧Outer flange

106‧‧‧撓曲部 106‧‧‧Deflexion Department

120‧‧‧容器保持筒 120‧‧‧Container holding tube

121‧‧‧透明筒 121‧‧‧Transparent tube

122‧‧‧第二連結部件 122‧‧‧Second connecting part

123‧‧‧套筒 123‧‧‧Sleeve

123a‧‧‧母螺牙部 123a‧‧‧Female screw teeth

130‧‧‧觀察孔 130‧‧‧ Observation hole

131‧‧‧通氣口 131‧‧‧ vent

140‧‧‧嵌合筒 140‧‧‧fitting cylinder

141‧‧‧導引筒 141‧‧‧Guide cylinder

142‧‧‧卡扣片 142‧‧‧Snap piece

142a‧‧‧前端部 142a‧‧‧Front end

145‧‧‧退縮部 145‧‧‧ Retreat Department

150‧‧‧縱延伸部 150‧‧‧longitudinal extension

151‧‧‧橫延伸部 151‧‧‧Horizontal extension

155‧‧‧卡合凹部 155‧‧‧Snap-in recess

158‧‧‧卡合溝槽 158‧‧‧Snap groove

160‧‧‧抽吸嘴本體 160‧‧‧Suction nozzle body

160a‧‧‧公螺牙部 160a‧‧‧Male tooth

161‧‧‧第一止滑部件 161‧‧‧First anti-slip component

161a‧‧‧相向面 161a‧‧‧ facing

162‧‧‧第二止滑部件 162‧‧‧Second anti-slip component

165‧‧‧抵接凸緣 165‧‧‧Abutting flange

167‧‧‧區隔部 167‧‧‧Division

168、191d‧‧‧貫通孔 168, 191d

169‧‧‧環部 169‧‧‧ Department of Ring

169a‧‧‧連通孔 169a‧‧‧Connecting hole

170‧‧‧嵌合突起 170‧‧‧fitting protrusion

171‧‧‧抵接突起 171‧‧‧ abutment protrusion

180‧‧‧膠囊部 180‧‧‧Capsule Department

181‧‧‧濾材部 181‧‧‧Filter Department

186‧‧‧底壁部 186‧‧‧Bottom wall

191‧‧‧儲槽 191‧‧‧storage tank

191a、192c、196a‧‧‧開口部 191a, 192c, 196a‧‧‧ opening

191b、196b‧‧‧周壁 191b, 196b

191c、196e‧‧‧底部 191c, 196e‧‧‧Bottom

192‧‧‧墊圈 192‧‧‧washer

192a、193a‧‧‧插入孔 192a, 193a‧‧‧insert hole

192b、193b‧‧‧一面 192b, 193b

192d、193c‧‧‧另一面 192d, 193c‧‧‧ the other side

193‧‧‧多孔體 193‧‧‧porous body

194‧‧‧加熱部 194‧‧‧ Heating Department

195‧‧‧霧化容器 195‧‧‧Atomizing container

196‧‧‧加熱器支架 196‧‧‧Heating bracket

196c‧‧‧段差面 196c‧‧‧Differential surface

196d‧‧‧嵌合部 196d‧‧‧fitting part

196f、208、213e、214e、221a、224‧‧‧凹部 196f, 208, 213e, 214e, 221a, 224‧‧‧ recess

197‧‧‧流路管 197‧‧‧Flow pipe

198‧‧‧卡合孔 198‧‧‧Snap hole

198a‧‧‧導引凹部 198a‧‧‧Guide recess

199‧‧‧肋板 199‧‧‧rib plate

201‧‧‧凸部 201‧‧‧Convex

201a‧‧‧端面 201a‧‧‧End

202‧‧‧液體收容室 202‧‧‧ liquid containment room

203‧‧‧開口室 203‧‧‧Open room

204‧‧‧吸液芯 204‧‧‧Liquid core

204a‧‧‧軸向延伸部 204a‧‧‧Axial extension

204b‧‧‧彎曲部 204b‧‧‧Bend

204c‧‧‧徑向延伸部 204c‧‧‧Radial extension

205‧‧‧電熱線 205‧‧‧Electricity hotline

205a‧‧‧電熱線本體 205a‧‧‧Electric heating wire body

205b‧‧‧終端部 205b‧‧‧Terminal Department

206‧‧‧卡合片 206‧‧‧Card clip

207‧‧‧卡合爪 207‧‧‧Clamping claw

207a‧‧‧傾斜面 207a‧‧‧inclined surface

207b‧‧‧平坦面 207b‧‧‧flat surface

209‧‧‧第一吸氣孔 209‧‧‧First suction hole

210‧‧‧卡合凹部 210‧‧‧Snap recess

210a‧‧‧斜角部 210a‧‧‧Bevel

211‧‧‧連接壁 211‧‧‧ connection wall

212、218a、225‧‧‧狹縫 212, 218a, 225‧‧‧ slit

213‧‧‧電極 213‧‧‧electrode

213a‧‧‧引線電極部 213a‧‧‧Lead electrode part

213b‧‧‧連接電極部 213b‧‧‧Connect electrode

213c、214c‧‧‧一邊 213c, 214c ‧‧‧ one side

213d‧‧‧圓弧邊 213d‧‧‧Circular edge

214‧‧‧電極 214‧‧‧electrode

214a‧‧‧引線電極部 214a‧‧‧Lead electrode part

214b‧‧‧連接電極部 214b‧‧‧Connect electrode

214d‧‧‧圓弧邊 214d‧‧‧Circular edge

215‧‧‧絕緣部 215‧‧‧Insulation Department

216‧‧‧第二吸氣孔 216‧‧‧Second suction hole

217‧‧‧筒部 217‧‧‧Cylinder

217a‧‧‧段差面 217a‧‧‧segment difference surface

217b‧‧‧段差面 217b‧‧‧Differential surface

218‧‧‧嵌合部 218‧‧‧fitting part

219‧‧‧突出部 219‧‧‧Projection

220‧‧‧收納凹部 220‧‧‧Storage recess

221‧‧‧座面 221‧‧‧ seat surface

222‧‧‧密封部 222‧‧‧Seal Department

222a‧‧‧缺口部 222a‧‧‧Notch

223‧‧‧液體蓄積部 223‧‧‧Liquid accumulation department

224a‧‧‧底面 224a‧‧‧Bottom

226‧‧‧通氣路 226‧‧‧Ventilation

279‧‧‧狭小部 279‧‧‧Ministry

300‧‧‧連接部 300‧‧‧Connection

301‧‧‧第一轉動連接部 301‧‧‧The first rotary connection

301T‧‧‧第一轉矩 301T‧‧‧First torque

302‧‧‧第二轉動連接部 302‧‧‧Second rotary connection

302T‧‧‧第二轉矩 302T‧‧‧second torque

310‧‧‧轉動連接機構 310‧‧‧Rotating connection mechanism

311‧‧‧鎖定機構 311‧‧‧ locking mechanism

320‧‧‧匣體收容部 320‧‧‧Box receiving department

321‧‧‧匣體收容空間 321‧‧‧Box accommodation space

330‧‧‧第一轉動限制部 330‧‧‧First rotation restricting part

340‧‧‧定位機構 340‧‧‧positioning mechanism

350‧‧‧第二轉動限制部 350‧‧‧Second rotation limiter

C‧‧‧假想周 C‧‧‧Imaginary Week

C1‧‧‧第一假想圓周 C1‧‧‧Imaginary circle

C2‧‧‧第二假想圓周 C2‧‧‧The second imaginary circle

S1‧‧‧壓力變動室 S1‧‧‧ pressure change room

S2‧‧‧常壓室 S2‧‧‧Normal pressure room

S3‧‧‧緩衝空間 S3‧‧‧Buffer space

La、Lb、Lc、T1、T2‧‧‧假想直線 La, Lb, Lc, T1, T2‧‧‧Imaginary straight line

O、Q‧‧‧軸線 O, Q‧‧‧ axis

M‧‧‧霧化室 M‧‧‧Atomization chamber

M1、M2‧‧‧轉動方向 M1, M2‧‧‧Rotation direction

第1圖係實施形態之吸嚐器的立體圖。 Fig. 1 is a perspective view of the taste absorber of the embodiment.

第2圖係實施形態之吸嚐器的分解立體圖。 Fig. 2 is an exploded perspective view of the taste absorber of the embodiment.

第3圖係沿著第1圖的III-III線之斷面圖。 Figure 3 is a cross-sectional view taken along line III-III of Figure 1.

第4圖係實施形態之電源單元的分解立體圖。 Fig. 4 is an exploded perspective view of the power supply unit of the embodiment.

第5圖係沿著第1圖的V-V線之斷面圖。 Figure 5 is a cross-sectional view taken along line V-V of Figure 1.

第6圖係實施形態之電源單元的立體圖。 Fig. 6 is a perspective view of the power supply unit according to the embodiment.

第7圖係從軸向的保持單元側觀看實施形態之電源單元時之平面圖。 Fig. 7 is a plan view of the power supply unit of the embodiment when viewed from the axial holding unit side.

第8圖係實施形態之保持單元的分解立體圖。 Fig. 8 is an exploded perspective view of the holding unit of the embodiment.

第9圖係顯示實施形態之第一連結部件與第二連結部件的連接構造之立體圖。 Fig. 9 is a perspective view showing the connection structure of the first coupling member and the second coupling member in the embodiment.

第10圖係從軸向的電源單元側觀看實施形態之保持單元及匣體時之平面圖。 Fig. 10 is a plan view of the holding unit and case of the embodiment viewed from the power supply unit side in the axial direction.

第11圖係沿著第1圖的XI-XI線之斷面圖。 Figure 11 is a cross-sectional view taken along line XI-XI of Figure 1.

第12圖係與第1圖的XII-XII線對應之抽吸嘴的分解立體圖。 Figure 12 is an exploded perspective view of the suction nozzle corresponding to the line XII-XII of Figure 1.

第13圖係實施形態之匣體之沿著軸向的斷面圖。 Fig. 13 is a cross-sectional view along the axial direction of the case of the embodiment.

第14圖係實施形態之匣體的分解立體圖。 Fig. 14 is an exploded perspective view of the case of the embodiment.

第15圖係從開口部側觀看實施形態之儲槽時之立體圖。 Fig. 15 is a perspective view of the storage tank of the embodiment viewed from the opening side.

第16圖係從電源單元側觀看實施形態之加熱器支架時之立體圖。 Fig. 16 is a perspective view of the heater holder of the embodiment viewed from the power supply unit side.

第17圖係從多孔體側觀看實施形態之霧化容器時之立體圖。 Fig. 17 is a perspective view of the atomizing container of the embodiment when viewed from the porous body side.

第18圖係實施形態之吸嚐器的正面圖。 Fig. 18 is a front view of the taste absorber of the embodiment.

第19圖係從實施形態之吸嚐器拆掉抽吸嘴時之沿著軸向的斷面圖。 Fig. 19 is a cross-sectional view along the axial direction when the suction nozzle is removed from the taste absorber of the embodiment.

第20圖係顯示實施形態之匣體疊置於縱卡合凸部之上的狀態之說明圖。 Fig. 20 is an explanatory diagram showing a state in which the case of the embodiment is stacked on the vertical engaging convex portion.

第21圖係顯示在實施形態之匣體的疊置狀態下,將抽吸嘴鎖上的樣子之說明圖。 Fig. 21 is an explanatory diagram showing how the suction nozzle is locked in the stacked state of the case in the embodiment.

第22圖係顯示實施形態之抽吸嘴與匣體一起轉動的樣子之說明圖。 Fig. 22 is an explanatory diagram showing how the suction nozzle and the case of the embodiment rotate together.

第23圖係顯示將實施形態之抽吸嘴鎖到最後的樣子之說明圖。 Fig. 23 is an explanatory diagram showing how the suction nozzle of the embodiment is locked to the end.

接著,根據圖式來說明本發明的實施形態。 Next, an embodiment of the present invention will be described based on the drawings.

〔吸嚐器〕 [Sucker]

第1圖係吸嚐器的立體圖。 Figure 1 is a perspective view of a taster.

第1圖所示的吸嚐器1係所謂的非燃燒式吸嚐器,通過菸葉抽吸藉由加熱而霧化的霧氣來品嚐菸葉的香味。 The taste absorber 1 shown in Fig. 1 is a so-called non-combustion taste absorber, and smokes the mist atomized by heating by the tobacco leaves to taste the flavor of the tobacco leaves.

吸嚐器1係具備有:本體單元10、可裝拆地裝接於本體單元10之匣體(霧化單元)11以及菸草膠囊12。 The tasting device 1 includes a body unit 10, a cartridge (atomization unit) 11 detachably attached to the body unit 10, and a tobacco capsule 12.

<本體單元> <Body unit>

第2圖係吸嚐器1的分解立體圖。 FIG. 2 is an exploded perspective view of the taster 1.

如第2圖所示,本體單元10具備有:電源單元21、保持單元22、以及抽吸嘴(吸口部)23。電源單元21、保持單元22及抽吸嘴23皆形成為以軸線O為中心軸之筒狀,且三者在軸線O上排列而配置。以下的說明中, 將沿著軸線O之方向稱為軸向(法線方向)。此情況下,可將軸向之從抽吸嘴23起朝向電源單元21之側稱為反吸口側或第一側,且可將從電源單元21起朝向抽吸嘴23之側稱為吸口側或第二側。另外,有時將從軸向觀看之平面視時,與軸線O相交的方向稱為徑向,將以軸線O為中心而圍繞之方向稱為周方向。本說明書中,所謂的「方向」係表示兩個方向,要表示「方向」之中的一個方向之情況時係記載為「側」。 As shown in FIG. 2, the main body unit 10 includes a power supply unit 21, a holding unit 22, and a suction nozzle (suction part) 23. The power supply unit 21, the holding unit 22, and the suction nozzle 23 are all formed in a cylindrical shape with the axis O as a central axis, and the three are arranged on the axis O. In the following description, The direction along the axis O is called the axial direction (normal direction). In this case, the side from the suction nozzle 23 toward the power supply unit 21 in the axial direction may be referred to as the suction port side or the first side, and the side from the power supply unit 21 toward the suction nozzle 23 may be referred to as the suction port side Or the second side. In addition, when viewed from a plane viewed in the axial direction, the direction intersecting the axis O is called a radial direction, and the direction surrounding the axis O is called a circumferential direction. In this specification, the so-called "direction" refers to two directions, and when one of the "directions" is to be indicated, it is described as "side".

<電源單元> <power supply unit>

第3圖係沿著第1圖的III-III線之斷面圖。 Figure 3 is a cross-sectional view taken along line III-III of Figure 1.

如第3圖所示,電源單元21具備有:外殼31、以及收容於外殼31內之支架組件32。 As shown in FIG. 3, the power supply unit 21 includes a housing 31 and a bracket assembly 32 housed in the housing 31.

<支架組件> <bracket assembly>

第4圖係電源單元21的分解立體圖。 FIG. 4 is an exploded perspective view of the power supply unit 21.

如第3圖、第4圖所示,支架組件32係將蓄電池33、基板模組(第一基板模組34及第二基板模組35)等搭載在蓄電池支架36上而構成。 As shown in FIGS. 3 and 4, the holder assembly 32 is configured by mounting the battery 33, the substrate module (the first substrate module 34 and the second substrate module 35) on the battery holder 36.

蓄電池支架36係以例如樹脂材料一體成形而形成。蓄電池支架36具備有基部40。基部40係形成為以軸線O為中心軸之半圓筒狀。基部40若朝徑向外側開口成為讓蓄電池33等裝入的安裝開口40a(參照第4圖),則亦可為半圓筒狀以外的形狀。 The battery holder 36 is formed integrally by, for example, a resin material. The battery holder 36 includes a base 40. The base 40 is formed in a semi-cylindrical shape with the axis O as the central axis. If the base portion 40 is opened outward in the radial direction to form an attachment opening 40a (see FIG. 4) into which the battery 33 or the like is installed, it may be a shape other than a semi-cylindrical shape.

基部40之軸向之與保持單元22相反側的端部,相連有壓入筒部41。壓入筒部41係形成為以軸線O為中心軸之圓筒狀。壓入筒部41之周方向的一部分,形成有朝徑向貫通壓入筒部41之連接器通過孔42。 壓入筒部41之中,軸向位於與保持單元22相反側之開口部係由堵塞部43加以塞住。堵塞部43係形成為直徑比壓入筒部41大之圓形形狀。 At the end of the base portion 40 on the opposite side to the holding unit 22 in the axial direction, the press-fit cylinder portion 41 is connected. The press-fit cylinder 41 is formed in a cylindrical shape with the axis O as the central axis. A part of the circumferential direction of the press-fitting cylinder 41 is formed with a connector passage hole 42 penetrating the press-fitting cylinder 41 in the radial direction. The opening in the axial direction opposite to the holding unit 22 is pressed into the cylindrical portion 41 by the blocking portion 43. The blocking portion 43 is formed in a circular shape having a diameter larger than that of the press-fit tube portion 41.

基部40之中,軸向位於保持單元22側的部分係形成有按鈕開口44(參照第3圖)。按鈕開口44係朝徑向貫通基部40的周方向的一部分。上述連接器通過孔42及按鈕開口44係配置在例如周方向相差180°之位置。本實施形態中,將周方向之通過連接器通過孔42的中心之徑向定為背面方向,將通過按鈕開口44的中心之徑向定為表面方向。此情況下,將相對於軸線O之連接器通過孔42側定為背面側,將相對於軸線O之按鈕開口44側定為表面側。另外,連接器通過孔42及按鈕開口44的位置可適當地變更。 In the base portion 40, a button opening 44 (see FIG. 3) is formed in a portion of the holding unit 22 in the axial direction. The button opening 44 penetrates a part of the circumferential direction of the base 40 in the radial direction. The connector passing hole 42 and the button opening 44 are arranged at positions different from each other by 180° in the circumferential direction, for example. In this embodiment, the radial direction passing through the center of the connector passage hole 42 in the circumferential direction is defined as the back direction, and the radial direction passing through the center of the button opening 44 is defined as the surface direction. In this case, the side of the connector passage hole 42 relative to the axis O is defined as the back side, and the side of the button opening 44 relative to the axis O is defined as the front side. In addition, the positions of the connector passage hole 42 and the button opening 44 can be appropriately changed.

基部40中,在按鈕開口44的開口緣形成有向背面側延伸之按鈕導引筒45。按鈕導引筒45係圍繞在按鈕開口44的周圍。 In the base 40, a button guide tube 45 extending toward the back side is formed at the opening edge of the button opening 44. The button guide cylinder 45 surrounds the button opening 44.

基部40中,相較於按鈕開口44之軸向之保持單元22相反的一側之部分,形成有將基部40軸向地區隔之區隔壁46。 In the base portion 40, a partition wall 46 that partitions the base portion 40 in the axial direction is formed as compared with the axially opposite portion of the button opening 44 of the holding unit 22.

第5圖係沿著第1圖的V-V線之斷面圖。 Figure 5 is a cross-sectional view taken along line V-V of Figure 1.

如第3~5圖所示,基部40之中,在軸向位於保持單元22側的端部相連有段差部47。段差部47係形成為與基部40同軸配置的半圓筒狀,且自軸線O起之徑向的距離係隨著軸向越接近保持單元22漸漸地縮小。段差部47之軸向位於保持單元22側的端緣,相連有連接台座48。連接台座48係形成為以軸線O為中心軸之圓形形狀。連接台座48形成有一對電極保持部50、以及連通埠51。 As shown in FIGS. 3 to 5, in the base portion 40, a step portion 47 is connected to the end portion on the holding unit 22 side in the axial direction. The step portion 47 is formed in a semi-cylindrical shape coaxially arranged with the base portion 40, and the radial distance from the axis O gradually decreases as the axial direction approaches the holding unit 22. The axial direction of the stepped portion 47 is located at the end edge of the holding unit 22 side, and the connecting base 48 is connected. The connection base 48 is formed in a circular shape with the axis O as the central axis. The connection pedestal 48 is formed with a pair of electrode holding portions 50 and a communication port 51.

如第4圖、第5圖所示,一對電極保持部50係形成為朝向軸向之保持單元22側突出之筒狀。各電極保持部50係相對於軸線O位於徑向的兩側。本實施形態中,各電極保持部50係並排配置於徑向之中與上述表背面方向正交的方向(以下有時稱為左右方向)。而且,各電極保持部50係沿軸向延伸,於徑向相連。 As shown in FIGS. 4 and 5, the pair of electrode holding portions 50 is formed in a cylindrical shape protruding toward the holding unit 22 side in the axial direction. Each electrode holding portion 50 is located on both sides in the radial direction with respect to the axis O. In the present embodiment, the electrode holding portions 50 are arranged side by side in a direction orthogonal to the above-mentioned front-back direction in the radial direction (hereinafter sometimes referred to as the left-right direction). Furthermore, each electrode holding portion 50 extends in the axial direction and is connected in the radial direction.

如第3圖、第4圖所示,連通埠51係在連接台座48上,從相對於軸線O位於徑向的背側的部分,沿軸向朝向保持單元22側突出。 As shown in FIGS. 3 and 4, the communication port 51 is connected to the connection base 48 and protrudes from the portion on the radial back side with respect to the axis O toward the holding unit 22 side in the axial direction.

如第5圖所示,各電極保持部50各自保持有頂針電極49。頂針電極49係針狀的電極本體彈性地支持在筒狀殼內之構成。頂針電極49係構成為在筒狀殼嵌入電極保持部50內之狀態下,電極本體沿軸向貫穿電極保持部50。頂針電極49(電極本體)之軸向的兩端部之中,軸向位於與保持單元22相反側之端部,係在蓄電池支架36內透過電極配線而與後述第一基板60連接。 As shown in FIG. 5, each electrode holding portion 50 holds a thimble electrode 49. The thimble electrode 49 is a structure in which a needle-shaped electrode body is elastically supported in a cylindrical case. The thimble electrode 49 is configured such that the electrode body penetrates the electrode holding portion 50 in the axial direction when the cylindrical case is embedded in the electrode holding portion 50. Of the two axial end portions of the thimble electrode 49 (electrode body), the end portion located on the opposite side to the holding unit 22 in the axial direction is connected to the first substrate 60 described later through electrode wiring in the battery holder 36.

蓄電池33係形成為以軸線O為軸向之圓柱狀。蓄電池33係收容於基部40內之相對於區隔壁46之軸向位於與保持單元22相反側的部分。搭載於吸嚐器1之電源部,不限於蓄電池33等二次電池,亦可採用超級電容等作為可充放電的電源。此外,電源部亦可採用一次電池。 The battery 33 is formed in a cylindrical shape with the axis O as the axial direction. The battery 33 is housed in the base 40 on the side opposite to the holding unit 22 with respect to the axial direction of the partition wall 46. The power supply unit mounted on the taste absorber 1 is not limited to the secondary battery such as the storage battery 33, and a super capacitor or the like can also be used as a power source that can be charged and discharged. In addition, the power supply unit may also use a primary battery.

如第3圖、第4圖所示,第一基板模組34係配置於基部40內之相對於區隔壁46之軸向位於保持單元22側的部分。具體而言,第一基板模組34係具備第一基板60、開關元件52(參照第3圖)、以及壓力感測器53。 As shown in FIGS. 3 and 4, the first substrate module 34 is disposed in the portion of the base 40 on the side of the holding unit 22 with respect to the axial direction of the partition wall 46. Specifically, the first substrate module 34 includes the first substrate 60, the switching element 52 (see FIG. 3 ), and the pressure sensor 53.

第一基板60係配置成厚度方向成為表背面方向。具體而言,第一基板60係在載置於安裝開口40a的開口端面上之狀態下,利用螺絲等而固定於基部40。第一基板60係透過第一連接配線(未圖示)而與蓄電池33連接。另外,在第3圖所示的例子中,第一基板60係位於軸線O上。 The first substrate 60 is arranged so that the thickness direction becomes the front and back directions. Specifically, the first substrate 60 is fixed to the base 40 with screws or the like in a state where it is placed on the opening end surface of the mounting opening 40a. The first substrate 60 is connected to the battery 33 through the first connection wiring (not shown). In addition, in the example shown in FIG. 3, the first substrate 60 is located on the axis O.

開關元件52係在第一基板60的表面(第一主面)上,從表背面方向來看時,配置於與按鈕開口44重疊的位置。本實施形態中,開關元件52係以表面安裝方式安裝於第一基板60。惟,開關元件52亦能夠以從開關元件52伸出的連接端子插入第一基板60的貫通孔之狀態安裝於第一基板60。 The switching element 52 is arranged on the front surface (first main surface) of the first substrate 60 and is arranged at a position overlapping the button opening 44 when viewed from the front and back directions. In this embodiment, the switching element 52 is mounted on the first substrate 60 by surface mounting. However, the switching element 52 can also be mounted on the first substrate 60 with the connection terminal extending from the switching element 52 inserted into the through hole of the first substrate 60.

壓力感測器53係在第一基板60的背面(第二主面)上,相對於開關元件52配置於軸向之保持單元22側。亦即,壓力感測器53係在表背面方向所件之平面觀看下,配置於不與開關元件52重疊的位置。本實施形態中,壓力感測器53係相對於開關元件52配置於沿軸向往保持單元22側偏移的位置,但不限於此構成。亦即,開關元件52及壓力感測器53若配置在第一基板60的面內方向偏移的位置即可,亦可沿軸向配置於往與保持單元22相反側偏移的位置,或朝徑向之中的左右方向偏移而配置。 The pressure sensor 53 is arranged on the back surface (second main surface) of the first substrate 60 and is arranged on the holding unit 22 side in the axial direction with respect to the switching element 52. That is, the pressure sensor 53 is arranged at a position that does not overlap with the switching element 52 when viewed in the plane viewed from the front and back. In the present embodiment, the pressure sensor 53 is arranged at a position offset to the holding unit 22 side in the axial direction with respect to the switching element 52, but it is not limited to this configuration. That is, if the switching element 52 and the pressure sensor 53 are arranged at positions offset in the in-plane direction of the first substrate 60, they may also be arranged at positions offset to the side opposite to the holding unit 22 in the axial direction, or Disposed in the left-right direction in the radial direction.

壓力感測器53可採用例如靜電容量式的壓力感測器。亦即,壓力感測器53係將隨著壓力變動而變形的膜片的變化檢測作為靜電容量的變化。本實施形態之壓力感測器53係以從壓力感測器53拉出的連接端子插入第一基板60的貫通孔之狀態安裝在第一基板60上。惟,壓力感測器53亦可用表面安裝方式安裝於第一基板60。 The pressure sensor 53 may be, for example, an electrostatic capacitance type pressure sensor. That is, the pressure sensor 53 detects the change in the diaphragm deformed as the pressure changes as a change in electrostatic capacity. The pressure sensor 53 of the present embodiment is mounted on the first substrate 60 in a state where the connection terminal pulled out from the pressure sensor 53 is inserted into the through hole of the first substrate 60. However, the pressure sensor 53 can also be mounted on the first substrate 60 by surface mounting.

壓力感測器53係裝設有感測器保持架(區隔部件)54。感測器保持架54係由矽樹脂等比蓄電池支架36軟且具有彈性之樹脂材料所形成。感測器保持架54係具備有:安裝至蓄電池支架36之安裝部55、以及覆蓋壓力感測器53之被覆部56。 The pressure sensor 53 is provided with a sensor holder (partition member) 54. The sensor holder 54 is formed of a resin material such as silicone resin that is softer and more elastic than the battery holder 36. The sensor holder 54 includes an attachment portion 55 attached to the battery holder 36 and a covering portion 56 covering the pressure sensor 53.

安裝部55係形成為半圓形。安裝部55係以從軸向之與保持單元22相反側抵接於上述連接台座48之狀態,安裝至蓄電池支架36。另外,上述段差部47係形成有夾持片57(參照第4圖),夾持片57係將安裝部55沿軸向夾持在與連接台座48之間。夾持片57係從段差部47之位於徑向(左右方向)的外側之圓弧的兩端面向周方向突出。 The attachment portion 55 is formed in a semicircular shape. The attachment portion 55 is attached to the battery holder 36 in a state where it abuts on the connection base 48 from the side opposite to the holding unit 22 in the axial direction. In addition, the stepped portion 47 is formed with a clamping piece 57 (refer to FIG. 4 ). The clamping piece 57 clamps the mounting portion 55 between the connection base 48 and the axial direction. The clamping piece 57 protrudes from the both ends of the arc of the stepped portion 47 located on the outer side in the radial direction (left-right direction) in the circumferential direction.

被覆部56係從安裝部55相連於軸向之與保持單元22相反側。被覆部56係形成為表面側開口之蓋子狀。被覆部56的底壁部56a係形成有向表面側膨出之間隔部56b。壓力感測器53係以抵接於間隔部56b的狀態嵌入被覆部56內。因此,在底壁部56a的內面與壓力感測器53之間設有徑向的間隙。另外,底壁部56a係形成有朝徑向貫通底壁部56a之空氣置換孔58。 The covering portion 56 is connected from the mounting portion 55 to the side opposite to the holding unit 22 in the axial direction. The covering portion 56 is formed in a lid shape that is open on the front side. The bottom wall portion 56a of the covering portion 56 is formed with a partition portion 56b that swells toward the surface side. The pressure sensor 53 is fitted into the covering portion 56 in a state of being in contact with the partition portion 56b. Therefore, a radial gap is provided between the inner surface of the bottom wall portion 56a and the pressure sensor 53. In addition, the bottom wall portion 56a is formed with an air replacement hole 58 penetrating the bottom wall portion 56a in the radial direction.

上述安裝部55係形成有使連通埠51內與被覆部56內相連通之連通路59。連通路59係在安裝部55內沿軸向延伸。連通路59之軸向之與保持單元22相反側的端部,係在被覆部56的內周面上開口。另一方面,連通路59之軸向之保持單元22側的端部,係在安裝部55之軸向朝向保持單元22側的面上開口。另外,本實施形態中,連通路59的最小內徑係比空氣置換孔58的最大內徑大。又,連通路59中,至少軸向之保持單元22側的端部的內徑係比連通埠51的內徑大。 The mounting portion 55 is formed with a communication path 59 that communicates the inside of the communication port 51 and the covering portion 56. The communication path 59 extends in the axial direction in the mounting portion 55. The end of the communication path 59 on the opposite side to the holding unit 22 in the axial direction is opened on the inner peripheral surface of the covering portion 56. On the other hand, the end of the communication passage 59 in the axial direction on the side of the holding unit 22 is opened on the surface of the mounting portion 55 in the axial direction toward the side of the holding unit 22. In this embodiment, the minimum inner diameter of the communication path 59 is larger than the maximum inner diameter of the air replacement hole 58. In addition, in the communication path 59, the inner diameter of at least the end of the holding unit 22 side in the axial direction is larger than the inner diameter of the communication port 51.

本實施形態中,從軸向觀看時,連通埠51及連通路59配置於至少一部分與壓力感測器53重疊的位置。惟,連通埠51及連通路59亦可配置於從軸向看與壓力感測器53相錯開之位置。 In this embodiment, when viewed from the axial direction, the communication port 51 and the communication path 59 are arranged at positions where at least a part overlaps the pressure sensor 53. However, the communication port 51 and the communication path 59 may also be arranged at positions offset from the pressure sensor 53 when viewed in the axial direction.

如第3~5圖所示,第二基板模組35係間隔著蓄電池33,配置於軸向之與第一基板模組34相反的一側。亦即,本實施形態之基板模組34、35係中間隔著蓄電池33而分別配置在軸向的兩側。第二基板模組35係具備有第二基板61、以及母連接器62。 As shown in FIGS. 3 to 5, the second substrate module 35 is arranged on the opposite side of the first substrate module 34 in the axial direction with the battery 33 interposed therebetween. That is, the substrate modules 34 and 35 of this embodiment are arranged on both sides in the axial direction with the battery 33 interposed therebetween. The second substrate module 35 includes a second substrate 61 and a female connector 62.

第二基板61係厚度方向成為徑向(表背面方向),收容於上述壓入筒部41內。如第5圖所示,第二基板61係以載置在從壓入筒部41朝徑向內側突出的凸柱部41a之狀態,利用螺絲等固定在凸柱部41a。第二基板61係透過第二連接配線61a而與第一基板60連接。亦即,第二連接配線61a係在蓄電池支架36的外側,通過蓄電池33的周圍而沿著軸向拉設。 The thickness direction of the second substrate 61 is the radial direction (front-back direction), and is accommodated in the press-fit cylinder 41. As shown in FIG. 5, the second substrate 61 is placed on the convex column portion 41 a protruding radially inward from the press-fit tube portion 41, and is fixed to the convex column portion 41 a with screws or the like. The second substrate 61 is connected to the first substrate 60 through the second connection wiring 61a. That is, the second connection wiring 61a is attached to the outside of the battery holder 36, and is drawn along the axial direction around the battery 33.

如第3圖、第4圖所示,母連接器62係用於對蓄電池33進行充電時,供從外部電源拉出的公連接器(未圖示)插入。本實施形態中,母連接器62係採用例如USB連接器(Universal Serial Bus)。惟,母連接器62不限於USB連接器。另外,母連接器62並非一定用於充電,亦可用於例如通訊用途。 As shown in FIG. 3 and FIG. 4, the female connector 62 is used to insert a male connector (not shown) drawn from an external power source when charging the battery 33. In this embodiment, the female connector 62 is, for example, a USB connector (Universal Serial Bus). However, the female connector 62 is not limited to the USB connector. In addition, the female connector 62 is not necessarily used for charging, and may also be used for communication purposes, for example.

母連接器62係以開口部朝向背面側之狀態安裝在第二基板61。母連接器62的前端部(靠近開口部之端部)係插入上述連接器通過孔42內。惟,母連接器62亦可設成從連接器通過孔42朝徑向內側退縮。 The female connector 62 is mounted on the second substrate 61 with the opening toward the back side. The front end portion (the end portion near the opening) of the female connector 62 is inserted into the connector passing hole 42. However, the female connector 62 may also be set to retract radially inward from the connector through hole 42.

<外殼> <shell>

如第3圖、第4圖所示,外殼31係具有外裝筒部71、介裝部件72、以及連接機構73。 As shown in FIG. 3 and FIG. 4, the housing 31 includes an exterior cylinder 71, an intermediary member 72, and a connection mechanism 73.

外裝筒部71係形成為以軸線O為中心軸之圓筒狀。外裝筒部71內,通過軸向位於與保持單元22相反側的開口部,插入有支架組件32。具體而言,支架組件32係以將蓄電池支架36的壓入筒部41壓入外裝筒部71之位於與保持單元22相反側的端部之狀態,組裝到外裝筒部71內。因此,支架組件32係以軸向位於保持單元22側的端部從外裝筒部71突出的狀態,收容於外裝筒部71內。另外,外裝筒部71之軸向位於與保持單元22相反側的開口部,係由蓄電池支架36的堵塞部43加以塞住。 The exterior cylindrical portion 71 is formed in a cylindrical shape with the axis O as the central axis. In the exterior cylindrical portion 71, the holder assembly 32 is inserted through the opening portion located on the opposite side to the holding unit 22 in the axial direction. Specifically, the holder assembly 32 is assembled into the exterior cylindrical portion 71 in a state where the press-fitting cylindrical portion 41 of the battery holder 36 is pressed into the end portion of the exterior cylindrical portion 71 on the side opposite to the holding unit 22. Therefore, the bracket assembly 32 is accommodated in the exterior cylindrical portion 71 in a state where the end portion located on the holding unit 22 side in the axial direction protrudes from the exterior cylindrical portion 71. In addition, the opening of the exterior cylindrical portion 71 on the side opposite to the holding unit 22 is blocked by the blocking portion 43 of the battery holder 36.

外裝筒部71之軸向位於與保持單元22相反側的端部,從徑向觀看時,在與上述連接器通過孔42及母連接器62重疊的部分形成有連接器露出孔75。連接器露出孔75係朝徑向貫通外裝筒部71。本實施形態係針對母連接器62朝徑向開口之構成進行說明,但亦可為母連接器62朝軸向開口之構成。 The axial direction of the exterior cylindrical portion 71 is located at the end opposite to the holding unit 22. When viewed from the radial direction, a connector exposure hole 75 is formed in a portion overlapping the connector passing hole 42 and the female connector 62. The connector exposure hole 75 penetrates the exterior cylindrical portion 71 in the radial direction. In this embodiment, the configuration in which the female connector 62 opens in the radial direction is described, but the configuration in which the female connector 62 opens in the axial direction may also be used.

外裝筒部71之軸向之保持單元22側的端部,從徑向觀看時,在與上述按鈕開口44重疊的部分形成有按鈕露出孔76。按鈕露出孔76係朝徑向貫通外裝筒部71。 When viewed from the radial direction, an end portion of the exterior cylindrical portion 71 in the axial direction on the holding unit 22 side is formed with a button exposure hole 76 in a portion overlapping the button opening 44. The button exposure hole 76 penetrates the exterior cylindrical portion 71 in the radial direction.

按鈕露出孔76及按鈕開口44內收容有按鈕78。按鈕78係構成為可在受到按鈕導引筒45支持的狀態下,沿徑向移動之構成。按鈕78係隨著朝徑向內側之移動而按壓操作開關元件52。按鈕78的表面係通過按鈕露出孔76而露出外裝筒部71的外周面上。按鈕78不限於沿徑向移 動,亦可例如沿軸向滑動。另外,亦可為利用觸控感測器等取代按鈕78來操作吸嚐器1之構成。 Button 78 is accommodated in button exposure hole 76 and button opening 44. The button 78 is configured to be movable in the radial direction while being supported by the button guide cylinder 45. The button 78 presses the operation switch element 52 as it moves radially inward. The surface of the button 78 is exposed through the button exposure hole 76 to expose the outer peripheral surface of the exterior cylinder 71. The button 78 is not limited to moving in the radial direction It can also slide in the axial direction, for example. In addition, it is also possible to use a touch sensor or the like instead of the button 78 to operate the taste absorber 1.

介裝部件72係形成為以軸線O為中心軸之圓筒狀。介裝部件72係從軸向的保持單元22側嵌入支架組件32與外裝筒部71之間。藉此,在外裝筒部71之軸向位於保持單元22側的開口部,將支架組件32與外裝筒部71之間的間隙封住。 The interposing member 72 is formed in a cylindrical shape with the axis O as the central axis. The interposition member 72 is fitted between the holder assembly 32 and the exterior cylinder 71 from the axial holding unit 22 side. As a result, the gap between the bracket assembly 32 and the exterior cylindrical portion 71 is sealed in the opening of the exterior cylindrical portion 71 on the holding unit 22 side in the axial direction.

如第3圖所示,在外殼31內,感測器保持架54所圍住的空間係構成為隨著吸嚐器1的使用(抽吸),通過上述連通埠51而壓力變動之壓力變動室S1。另一方面,在外殼31內,壓力變動室S1以外的空間係構成為與大氣壓相通之常壓室S2。本實施形態中,蓄電池33及基板模組34、35之中,壓力感測器53以外的零件係收容在常壓室S2內。惟,若至少壓力感測器53收容在壓力變動室S1內,則壓力感測器53以外的零件亦可收容於壓力變動室S1內。又,在外殼31內,為了確認是否有液體進入外殼31內,亦可設置液體檢測封條等。 As shown in FIG. 3, in the housing 31, the space surrounded by the sensor holder 54 is configured to change in pressure through the communication port 51 as the taster 1 is used (suction). Room S1. On the other hand, in the housing 31, the space other than the pressure fluctuation chamber S1 is configured as a normal pressure chamber S2 communicating with the atmospheric pressure. In this embodiment, of the battery 33 and the substrate modules 34 and 35, components other than the pressure sensor 53 are housed in the normal pressure chamber S2. However, if at least the pressure sensor 53 is accommodated in the pressure fluctuation chamber S1, parts other than the pressure sensor 53 may also be accommodated in the pressure fluctuation chamber S1. In addition, in the case 31, in order to confirm whether liquid enters the case 31, a liquid detection seal or the like may be provided.

<連接機構> <connecting mechanism>

如第4圖、第5圖所示,連接機構73係具備有連接蓋80、第一連結部件81、以及環狀片82。 As shown in FIGS. 4 and 5, the connection mechanism 73 includes a connection cover 80, a first connection member 81, and an annular piece 82.

連接蓋80係由矽樹脂等比蓄電池支架36軟且具有彈性之樹脂材料所形成。連接蓋80係從軸向的保持單元22側裝接到上述連接台座48。連接蓋80係具有基部91、凸緣部92、以及圍繞凸部93。 The connection cover 80 is formed of a resin material such as silicone resin that is softer and more elastic than the battery holder 36. The connection cover 80 is attached to the connection base 48 from the axial holding unit 22 side. The connection cover 80 has a base portion 91, a flange portion 92, and a surrounding convex portion 93.

如第5圖所示,基部91係形成為以軸線O為中心軸之圓柱狀。基部91之中,在平面觀看時與各電極保持部50重疊的位置,分別形 成有沿軸向朝向保持單元22側凹陷之收容凹部95。各收容凹部95係沿軸,向延伸,且徑向相連。基部91中,在平面觀看時與各收容凹部95重疊的位置,形成有電極插通孔97。電極插通孔97係朝軸向貫通基部91,與收容凹部95內相連通。 As shown in FIG. 5, the base 91 is formed in a cylindrical shape with the axis O as the central axis. Among the base portions 91, the positions overlapping with the electrode holding portions 50 when viewed in a plane form A storage recess 95 that is recessed toward the holding unit 22 side in the axial direction is formed. Each receiving recess 95 extends along the axis and is connected in the radial direction. In the base portion 91, an electrode insertion hole 97 is formed at a position overlapping with each storage recess 95 when viewed in plan. The electrode insertion hole 97 penetrates the base portion 91 in the axial direction and communicates with the inside of the housing recess 95.

如第3圖所示,基部91之中,在平面觀看時與連通埠51重疊的位置形成有埠插通孔99。埠插通孔99係朝軸向貫通基部91。 As shown in FIG. 3, in the base 91, a port insertion hole 99 is formed at a position overlapping with the communication port 51 when viewed in plan. The port insertion hole 99 penetrates the base 91 in the axial direction.

如第3圖、第5圖所示,上述連接蓋80之中,各收容凹部95內收容著電極保持部50,且埠插通孔99內插通有連通埠51。因此,連接蓋80係以抵接於連接台座48之軸向朝向保持單元22側的端面之狀態,安裝於蓄電池支架36。此狀態下,頂針電極49係通過電極插通孔97而從基部91朝軸向的保持單元22側突出,連通埠51係通過埠插通孔99而從基部91朝軸向的保持單元22側突出。亦即,連接蓋80(基部91)之中,朝向保持單元22側之面係構成為頂針電極49突出且連通埠51開口之基面91a。 As shown in FIGS. 3 and 5, in the connection cover 80, the electrode holding portion 50 is accommodated in each accommodating recess 95, and the communication port 51 is inserted into the port insertion hole 99. Therefore, the connection cover 80 is attached to the battery holder 36 in a state of being in contact with the end surface of the connection base 48 in the axial direction toward the holding unit 22 side. In this state, the thimble electrode 49 projects through the electrode insertion hole 97 from the base 91 toward the axial holding unit 22 side, and the communication port 51 passes through the port insertion hole 99 from the base 91 toward the axial holding unit 22 side prominent. That is, in the connection cover 80 (base 91), the surface facing the holding unit 22 side is configured as a base surface 91a where the thimble electrode 49 protrudes and the communication port 51 is opened.

凸緣部92係在基部91之軸向與保持單元22相反側的端部,朝徑向外側突出。 The flange portion 92 is at the end of the base portion 91 on the side opposite to the holding unit 22 in the axial direction, and projects outward in the radial direction.

圍繞凸部93係從基部91之軸向朝向保持單元22側的端面,朝軸向突出。具體而言,圍繞凸部93係形成為沿著基部91的外周緣而突伸之環狀。亦即,圍繞凸部93係在相對於頂針電極49及連通埠51離開徑向外側之位置,概括包圍在頂針電極49及連通埠51的周圍。另外,圍繞凸部93若為概括包圍在頂針電極49及連通埠51的周圍之構成,則亦可相對於基部91的外周緣位於徑向內側。另外,圍繞凸部93不限於環 狀,亦可為多角形等。本實施形態中,所謂的「圍繞」,不限於連續地延伸,也包含間歇地延伸者。亦即,本實施形態中之圍繞凸部93,就整體而言,若為包圍在頂針電極49及連通埠51的周圍之構成,則亦可適當地變更。 The surrounding convex portion 93 protrudes in the axial direction from the end surface of the base portion 91 in the axial direction toward the holding unit 22 side. Specifically, the surrounding convex portion 93 is formed in a ring shape that protrudes along the outer peripheral edge of the base portion 91. That is, the surrounding convex portion 93 is positioned radially outward from the thimble electrode 49 and the communication port 51 and is generally surrounded by the thimble electrode 49 and the communication port 51. In addition, if the surrounding convex portion 93 is configured to generally surround the thimble electrode 49 and the communication port 51, it may be located radially inward with respect to the outer peripheral edge of the base portion 91. In addition, the surrounding convex portion 93 is not limited to the ring The shape can also be polygonal. In the present embodiment, the so-called "surround" is not limited to continuous extension, but also includes intermittent extension. That is, the surrounding convex portion 93 in the present embodiment as a whole can be appropriately changed as long as it is configured to surround the thimble electrode 49 and the communication port 51.

圍繞凸部93係沿著軸向之縱斷面圖觀看時,形成為朝軸向的保持單元22側變尖之三角形。圍繞凸部93之從基部91算起的突出高度係比連通埠51高,比頂針電極49低。惟,圍繞凸部93的突出高度亦可比頂針電極49高。另外,圍繞凸部93之縱斷面觀看時的形狀不限於三角形。 The convex portion 93 is formed in a triangular shape that is tapered toward the holding unit 22 side in the axial direction when viewed in a longitudinal sectional view in the axial direction. The protrusion height from the base portion 91 around the convex portion 93 is higher than the communication port 51 and lower than the thimble electrode 49. However, the protruding height around the convex portion 93 may also be higher than the thimble electrode 49. In addition, the shape when viewed around the longitudinal section of the convex portion 93 is not limited to a triangle.

第一連結部件81係具備有基筒部100、縱卡合凸部(第一縱卡合凸部101a~第三縱卡合凸部101c)、以及橫卡合凸部102。 The first coupling member 81 includes a base cylindrical portion 100, a vertical engaging convex portion (first vertical engaging convex portion 101a to third vertical engaging convex portion 101c), and a horizontal engaging convex portion 102.

基筒部100係形成為以軸線O為中心且隨著朝軸向的保持單元22側漸漸縮徑之多段筒狀。基筒部100之軸向位於與保持單元22相反側之端部係嵌入介裝部件72的內側。此狀態下,基筒部100之軸向的保持單元22側的端部,係以在與連接台座48之間軸向夾著凸緣部92之狀態,包圍在連接蓋80的周圍。基筒部100之軸向的保持單元22側的端部係形成有朝徑向外側突出之外凸緣部105。 The base cylindrical portion 100 is formed in a multi-stage cylindrical shape centered on the axis O and gradually decreasing in diameter toward the holding unit 22 side in the axial direction. The end of the base cylinder portion 100 on the opposite side to the holding unit 22 is embedded inside the interposition member 72. In this state, the end portion of the base cylinder portion 100 in the axial direction on the holding unit 22 side surrounds the connection cover 80 with the flange portion 92 axially sandwiched between the connection base 48 and the connection base 48. An end portion of the base cylinder portion 100 on the axial side of the holding unit 22 side is formed with an outer flange portion 105 that protrudes outward in the radial direction.

第6圖係電源單元21的立體圖。 FIG. 6 is a perspective view of the power supply unit 21.

如第5圖、第6圖所示,縱卡合凸部101a~101c係從基筒部100朝軸向的保持單元22側突出。各縱卡合凸部101a~101c係沿周方向隔著間隔而形成複數個。本實施形態中,各縱卡合凸部101a~101c係沿周方向隔著120°的間隔均等地配置。另外,縱卡合凸部101a~101c可為單個亦可 為複數個。另外,縱卡合凸部101a~101c的間距可適當地變更。此時,複數的縱卡合凸部101a~101c可不均等地配置。 As shown in FIGS. 5 and 6, the vertical engagement convex portions 101 a to 101 c protrude from the base cylindrical portion 100 toward the holding unit 22 side in the axial direction. Each of the vertical engagement convex portions 101a to 101c is formed at intervals in the circumferential direction. In the present embodiment, the vertical engaging convex portions 101a to 101c are arranged at equal intervals of 120° in the circumferential direction. In addition, the vertical engagement convex portions 101a to 101c may be a single or Plural. In addition, the pitch of the vertical engagement convex portions 101a to 101c can be appropriately changed. At this time, the plural vertical engagement convex portions 101a to 101c may be arranged unevenly.

第7圖係從軸向的保持單元22側觀看電源單元21時之平面圖。 FIG. 7 is a plan view when the power supply unit 21 is viewed from the axial holding unit 22 side.

如第7圖所示,各縱卡合凸部101a~101c係配置成上述頂針電極49不會位在將上述各縱卡合凸部101a~101c的周方向的中心與軸線O相連的假想直線La~Lc上。具體而言,頂針電極49係相對於將第一縱卡合凸部101a與軸線O相連的假想直線La,配置於呈線對稱之位置。亦即,將兩個頂針電極49相連之假想直線T1係與假想直線La相互正交,且從假想直線La到各頂針電極49的距離係相等。 As shown in FIG. 7, the vertical engagement convex portions 101a to 101c are arranged so that the thimble electrode 49 is not positioned on an imaginary straight line connecting the circumferential center of the vertical engagement convex portions 101a to 101c with the axis O La~Lc. Specifically, the thimble electrode 49 is arranged at a position symmetrical with respect to an imaginary straight line La connecting the first vertical engagement convex portion 101a and the axis O. That is, the virtual straight line T1 connecting the two thimble electrodes 49 and the virtual straight line La are orthogonal to each other, and the distance from the virtual straight line La to each thimble electrode 49 is equal.

如第5圖、第6圖所示,縱卡合凸部101a~101c之位於軸向的保持單元22側之端緣係比頂針電極49更位於軸向的保持單元22側。從徑向觀看之側面視時,縱卡合凸部101a~101c係呈矩形形狀。縱卡合凸部101a~101c之軸向的保持單元22側的端部中,向著徑向內側之面係形成為隨著朝軸向的保持單元22側,徑向的厚度逐漸變薄之傾斜面。此傾斜面係發揮用以將縱卡合凸部101a~101c平順地導引到匣體11的後述卡合凹部210之導引構件的機能。 As shown in FIGS. 5 and 6, the end edges of the vertical engagement convex portions 101 a to 101 c on the axial holding unit 22 side are located on the axial holding unit 22 side more than the thimble electrode 49. When viewed from the side in the radial direction, the vertical engagement convex portions 101a to 101c have a rectangular shape. In the end portions of the longitudinal engagement convex portions 101a to 101c in the axial direction on the holding unit 22 side, the surface toward the radial inner side is formed to be inclined with the radial thickness gradually decreasing toward the axial side of the holding unit 22 side surface. This inclined surface functions as a guide member for smoothly guiding the vertical engagement convex portions 101 a to 101 c to the engagement concave portion 210 described later of the cassette 11.

橫卡合凸部102係從外凸緣部105朝徑向外側突出。平面觀看時,橫卡合凸部102係形成為矩形形狀。橫卡合凸部102係沿周方向隔著間隔而形成複數個。本實施形態中,各橫卡合凸部102係沿周方向隔著90°間隔均等地配置。本實施形態中,一個橫卡合凸部102係在周方向上配置於與第一縱卡合凸部101a同等的位置。另外,橫卡合凸部102可為 單個亦可為複數個。另外,橫卡合凸部102的間距可適當地變更。此時,複數個橫卡合凸部102可不均地配置。 The lateral engagement convex portion 102 protrudes radially outward from the outer flange portion 105. When viewed in a plane, the lateral engagement convex portion 102 is formed into a rectangular shape. The plurality of lateral engagement convex portions 102 are formed at intervals in the circumferential direction. In the present embodiment, each lateral engagement convex portion 102 is evenly arranged at 90° intervals in the circumferential direction. In this embodiment, one horizontal engagement convex portion 102 is arranged at the same position as the first vertical engagement convex portion 101a in the circumferential direction. In addition, the lateral engagement convex portion 102 may be One can also be plural. In addition, the pitch of the lateral engagement convex portions 102 can be appropriately changed. At this time, the plurality of lateral engagement convex portions 102 may be unevenly arranged.

環狀片82係形成為薄的環狀。環狀片82係從軸向的保持單元22側插入上述基筒部100,而夾在介裝部件72與外凸緣部105之間。如第5圖所示,環狀片82之中,在周方向的一部分形成有撓曲部106。撓曲部106係形成為朝徑向外側膨出之拱形形狀。撓曲部106係構成為可徑向彈性變形。撓曲部106係比橫卡合凸部102之徑向外側端面更位於徑向內側。 The ring-shaped piece 82 is formed into a thin ring shape. The ring-shaped piece 82 is inserted into the above-mentioned base cylinder portion 100 from the axial holding unit 22 side, and is sandwiched between the interposing member 72 and the outer flange portion 105. As shown in FIG. 5, in the ring-shaped piece 82, a flexure 106 is formed in a part of the circumferential direction. The flexure 106 is formed into an arch shape that bulges outward in the radial direction. The flexure 106 is configured to be elastically deformable in the radial direction. The flexure 106 is more radially inward than the radially outer end surface of the lateral engagement convex portion 102.

上述撓曲部106係沿周方向隔著間隔而形成有複數個。例如撓曲部106係配置於周方向與各橫卡合凸部102之中之徑向(左右方向)相向的一對橫卡合凸部102同等的位置。惟,撓曲部106的數目可適當地變更。例如,撓曲部106可對應於各橫卡合凸部102而形成,亦可只對應於一個橫卡合凸部102而形成。 A plurality of the above-mentioned flexures 106 are formed at intervals in the circumferential direction. For example, the flexure 106 is disposed at the same position in the circumferential direction as the pair of lateral engagement convex portions 102 facing the radial direction (left-right direction) of each lateral engagement convex portion 102. However, the number of flexures 106 can be changed as appropriate. For example, the flexure 106 may be formed corresponding to each lateral engagement convex portion 102, or may be formed corresponding to only one lateral engagement convex portion 102.

<保持單元> <hold unit>

第8圖係保持單元22的分解立體圖。 FIG. 8 is an exploded perspective view of the holding unit 22.

如第8圖所示,保持單元22係安裝成可相對於本體單元10裝拆。具體而言,保持單元22係具備有容器保持筒120、透明筒121、第二連結部件122、以及套筒123。 As shown in FIG. 8, the holding unit 22 is attached to and detachable from the body unit 10. Specifically, the holding unit 22 includes a container holding cylinder 120, a transparent cylinder 121, a second coupling member 122, and a sleeve 123.

容器保持筒120係形成為以軸線O為中心軸之圓筒狀。容器保持筒120之軸向的中央部形成有觀察孔130。觀察孔130係朝徑向貫通容器保持筒120。觀察孔130係形成為以軸向為長邊方向之長圓形狀。觀察孔130 係於容器保持筒120之中,在徑向相向的部分形成一對。觀察孔130的數目及位置、形狀等可適當地變更。 The container holding cylinder 120 is formed in a cylindrical shape with the axis O as the central axis. An observation hole 130 is formed in the central portion of the container holding cylinder 120 in the axial direction. The observation hole 130 penetrates the container holding cylinder 120 in the radial direction. The observation hole 130 is formed in an oblong shape with the axial direction as the long side direction. Observation hole 130 It is tied in the container holding cylinder 120, and a pair is formed in the radially opposed portions. The number, position, shape, etc. of the observation holes 130 can be changed as appropriate.

容器保持筒120之中,在軸向比觀察孔130更靠電源單元21側之部分,形成有通氣口131。通氣口131係朝徑向貫通容器保持筒120。通氣口131使保持單元22的內外相連通。通氣口131係於容器保持筒120之中,在徑向(表背面方向)相向的部分形成一對。通氣口131的數目及位置、形狀等可適當地變更。 In the container holding cylinder 120, a vent 131 is formed in the axial direction of the power supply unit 21 side than the observation hole 130. The vent 131 penetrates the container holding cylinder 120 in the radial direction. The vent 131 communicates the inside and outside of the holding unit 22. The vents 131 are attached to the container holding cylinder 120, and form a pair in portions facing each other in the radial direction (front-back direction). The number, position, shape, etc. of the vent 131 can be changed as appropriate.

透明筒121係由具有透光性的材料所形成。透明筒121係插入容器保持筒120內。具體而言,透明筒121係在容器保持筒120內,在軸向比通氣口131更靠抽吸嘴23側,從徑向內側覆蓋觀察孔130。亦即,使用者可通過觀察孔130及透明筒121看到保持單元22內。保持單元22亦可為不具有觀察孔130及透明筒121之構成。 The transparent cylinder 121 is formed of a material having light transmittance. The transparent cylinder 121 is inserted into the container holding cylinder 120. Specifically, the transparent tube 121 is housed in the container holding tube 120, is closer to the suction nozzle 23 side than the vent 131 in the axial direction, and covers the observation hole 130 from the radially inner side. That is, the user can see the inside of the holding unit 22 through the observation hole 130 and the transparent tube 121. The holding unit 22 may be configured without the observation hole 130 and the transparent tube 121.

第二連結部件122係在保持單元22裝接到本體單元10時,與上述第一連結部件81相卡合。具體而言,第二連結部件122係具備有嵌合筒140、導引筒141、以及卡扣片142。 The second coupling member 122 is engaged with the first coupling member 81 when the holding unit 22 is attached to the body unit 10. Specifically, the second coupling member 122 includes a fitting tube 140, a guide tube 141, and a locking piece 142.

嵌合筒140係形成為以軸線O為中心軸之筒狀。嵌合筒140係藉由壓入等而嵌合於容器保持筒120之中,軸向比透明筒121更靠近電源單元21側之部分。 The fitting tube 140 is formed in a cylindrical shape with the axis O as a central axis. The fitting tube 140 is fitted into the container holding tube 120 by press-fitting or the like, and is axially closer to the power supply unit 21 side than the transparent tube 121.

導引筒141係與嵌合筒140同軸配置。導引筒141係從嵌合筒140朝軸向的抽吸嘴23側延伸。導引筒141係形成為隨著往軸向的抽吸嘴23側內徑逐漸放大之錐筒狀。導引筒141的外徑係比嵌合筒140的外徑小。導引筒141之中,從徑向觀看的側面視時,在與上述通氣口131 重疊的位置形成有退縮部145。退縮部145係形成為例如朝軸向的抽吸嘴23側開口之U字形狀。通氣口131、通過退縮部145而在保持單元22內開口。另外,退縮部145的形狀若為能夠使通氣口131的至少一部在保持單元22內露出之形狀即可。另外,在導引筒141與通氣口131配置於軸向不同的位置時,導引筒141可為不具有退縮部145之構成。 The guide tube 141 is arranged coaxially with the fitting tube 140. The guide cylinder 141 extends from the fitting cylinder 140 toward the suction nozzle 23 side in the axial direction. The guide cylinder 141 is formed in a tapered cylindrical shape that gradually enlarges as the inner diameter of the suction nozzle 23 side in the axial direction increases. The outer diameter of the guide cylinder 141 is smaller than the outer diameter of the fitting cylinder 140. In the guide tube 141, when viewed from the side in the radial direction, the A retracted portion 145 is formed at the overlapping position. The retracted portion 145 is formed into, for example, a U shape that opens toward the suction nozzle 23 side in the axial direction. The vent 131 is opened in the holding unit 22 through the retracted portion 145. In addition, the shape of the retracted portion 145 may be a shape that can expose at least a part of the vent 131 in the holding unit 22. In addition, when the guide cylinder 141 and the vent 131 are arranged at different positions in the axial direction, the guide cylinder 141 may not have a retracted portion 145.

第9圖係顯示第一連結部件81與第二連結部件122的連接構造之立體圖。 FIG. 9 is a perspective view showing the connection structure of the first connection member 81 and the second connection member 122.

如第8圖、第9圖所示,卡扣片142係從嵌合筒140朝軸向的電源單元21側突出。從徑向觀看的側面視時,卡扣片142係形成為L字形。具體而言,卡扣片142係具有縱延伸部150以及橫延伸部151。 As shown in FIGS. 8 and 9, the locking piece 142 protrudes from the fitting tube 140 toward the power supply unit 21 side in the axial direction. When viewed from the side in the radial direction, the locking piece 142 is formed into an L-shape. Specifically, the locking piece 142 has a vertically extending portion 150 and a laterally extending portion 151.

縱延伸部150係從嵌合筒140朝軸向的電源單元21側突出。 The vertically extending portion 150 protrudes from the fitting tube 140 toward the power supply unit 21 side in the axial direction.

如第9圖所示,橫延伸部151係從縱延伸部150之軸向的電源單元21側的端部朝周方向的一方向以懸臂的方式延伸。 As shown in FIG. 9, the horizontally extending portion 151 extends from the end of the longitudinally extending portion 150 on the power supply unit 21 side in a cantilever manner in one direction in the circumferential direction.

第10圖係從軸向的電源單元21側觀看保持單元22及匣體11時之平面圖。 FIG. 10 is a plan view of the holding unit 22 and the case 11 viewed from the power supply unit 21 side in the axial direction.

如第9圖、第10圖所示,橫延伸部151之周方向的一方向的端部,形成有朝徑向外側凹陷之卡合凹部155。卡合凹部155係朝徑向外側形成為半圓形。 As shown in FIG. 9 and FIG. 10, an end portion in one direction in the circumferential direction of the laterally extending portion 151 is formed with an engagement recessed portion 155 recessed outward in the radial direction. The engaging recess 155 is formed in a semicircle toward the outside in the radial direction.

上述卡扣片142係沿周方向隔著間隔而形成有複數個。本實施形態中,各卡扣片142係沿周方向相隔90°間隔均等地配置。周方向相鄰的卡扣片142之間,形成供上述橫卡合凸部102插入之卡合溝槽158。側面視時,卡合溝槽158係形成為L字形。 The locking pieces 142 are formed at intervals in the circumferential direction. In the present embodiment, the locking pieces 142 are arranged at equal intervals of 90° in the circumferential direction. An engaging groove 158 into which the above-mentioned horizontal engaging convex portion 102 is inserted is formed between the engaging pieces 142 adjacent in the circumferential direction. When viewed from the side, the engaging groove 158 is formed into an L shape.

如第2圖、第9圖所示,電源單元21與保持單元22係由於卡扣片142與橫卡合凸部102相連接而可裝拆。亦即,連接電源單元21與保持單元22時,將橫卡合凸部102沿軸向插入卡合溝槽158內,然後使電源單元21與保持單元22以軸線O為中心相對地轉動。如此,橫卡合凸部102係軸向卡合於橫延伸部151與嵌合筒140之間。而且,在電源單元21與保持單元22以軸線O為中心相對地轉動的過程中,環狀片82的撓曲部106係嵌入卡合凹部155內。藉此,撓曲部106係在周方向卡合於卡合凹部155。結果,電源單元21與保持單元22以軸向及周方向皆被定位之狀態相組合。 As shown in FIG. 2 and FIG. 9, the power supply unit 21 and the holding unit 22 are detachable because the locking piece 142 is connected to the lateral engagement convex portion 102. That is, when connecting the power supply unit 21 and the holding unit 22, the horizontal engagement convex portion 102 is inserted into the engagement groove 158 in the axial direction, and then the power supply unit 21 and the holding unit 22 are relatively rotated about the axis O as the center. In this way, the lateral engagement convex portion 102 is axially engaged between the lateral extension portion 151 and the fitting tube 140. Moreover, during the relative rotation of the power supply unit 21 and the holding unit 22 about the axis O, the flexure 106 of the ring-shaped piece 82 is fitted into the engagement recess 155. As a result, the flexure 106 is engaged with the engagement recess 155 in the circumferential direction. As a result, the power supply unit 21 and the holding unit 22 are combined in a state where both the axial direction and the circumferential direction are positioned.

如第9圖所示,本實施形態之卡合溝槽158中,嵌合筒140與橫延伸部151之間係形成為隨著從周方向的一方向往另一方向,軸向的寬度逐漸變窄之傾斜形狀。具體而言,橫延伸部151之朝軸向的抽吸嘴23之端面係形成為隨著從周方向的另一方向朝向一方向而朝向軸向的電源單元21側延伸之傾斜面。 As shown in FIG. 9, in the engagement groove 158 of this embodiment, the width between the fitting cylinder 140 and the laterally extending portion 151 is formed to gradually change from one direction to another direction in the circumferential direction Narrow inclined shape. Specifically, the end surface of the suction nozzle 23 in the axial direction of the laterally extending portion 151 is formed as an inclined surface that extends toward the power supply unit 21 side in the axial direction as it goes from one direction in the other circumferential direction to one direction.

橫卡合凸部102係形成為隨著從周方向的一方向往另一方向,軸向的寬度逐漸變窄之傾斜形狀。具體而言,上述橫卡合凸部102之朝軸向之與保持單元22相反側之端面,係形成為隨著從周方向的該一方向朝向該另一方向而朝向軸向的抽吸嘴23側延伸之傾斜面。藉此,在電源單元21與保持單元22之連接時,可抑制橫延伸部151與橫卡合凸部102之干涉,可使組裝性提高。 The lateral engagement convex portion 102 is formed in an inclined shape in which the width in the axial direction gradually narrows from one direction to the other in the circumferential direction. Specifically, the end surface of the lateral engagement convex portion 102 on the side opposite to the holding unit 22 in the axial direction is formed as a suction nozzle toward the axial direction from one direction in the circumferential direction to the other direction Inclined surface extending on 23 sides. Thereby, when the power supply unit 21 and the holding unit 22 are connected, the interference between the laterally extending portion 151 and the laterally engaging convex portion 102 can be suppressed, and the assemblability can be improved.

如第8圖所示,套筒123係藉由壓入等而嵌入容器保持筒120內之中,位於比透明筒121更靠軸向的抽吸嘴23側之部分。上述透明 筒121係軸向保持於第二連結部件122與套筒123之間。在套筒123的內周面形成有母螺牙部123a。 As shown in FIG. 8, the sleeve 123 is embedded in the container holding cylinder 120 by press-fitting or the like, and is located on the suction nozzle 23 side of the transparent cylinder 121 in the axial direction. Transparent above The cylinder 121 is axially held between the second coupling member 122 and the sleeve 123. A female screw portion 123a is formed on the inner circumferential surface of the sleeve 123.

<抽吸嘴> <suction nozzle>

第11圖係沿著第1圖的XI-XI線之斷面圖。第12圖係與第1圖的XII-XII線對應之抽吸嘴23的分解立體圖。 Figure 11 is a cross-sectional view taken along line XI-XI of Figure 1. Fig. 12 is an exploded perspective view of the suction nozzle 23 corresponding to the line XII-XII of Fig. 1.

如第11圖、第12圖所示,抽吸嘴23係具備有抽吸嘴本體160以及止滑部件(第一止滑部件161及第二止滑部件162)。 As shown in FIGS. 11 and 12, the suction nozzle 23 includes a suction nozzle body 160 and a slip prevention member (a first slip prevention member 161 and a second slip prevention member 162).

抽吸嘴23係形成有可收容菸草膠囊12之吸引口(收容空間)23a。抽吸嘴本體160係形成為以軸線O為中心軸之多段筒狀。抽吸嘴本體160之軸向的保持單元22側的端部係形成有公螺牙部160a。抽吸嘴本體160的公螺牙部160a以可裝拆的方式螺接於上述套筒123的母螺牙部123a。另外,抽吸嘴本體160還可為藉由螺接以外之方法(例如嵌合等)而對於套筒123裝拆之構成。 The suction nozzle 23 is formed with a suction port (accommodating space) 23a that can accommodate the tobacco capsule 12. The suction nozzle body 160 is formed in a multi-stage cylindrical shape with the axis O as the central axis. A male screw portion 160a is formed at the end of the suction nozzle body 160 on the axial holding unit 22 side. The male screw portion 160a of the suction nozzle body 160 is detachably screwed to the female screw portion 123a of the sleeve 123. In addition, the suction nozzle body 160 may be configured to attach and detach the sleeve 123 by a method other than screwing (for example, fitting).

抽吸嘴本體160中,在相對於公螺牙部160a之軸向位於與保持單元22相反側之部分,形成有抵接凸緣165。抵接凸緣165係形成為朝徑向外側突出之環狀。抵接凸緣165係在抽吸嘴23裝接到保持單元22的狀態下,軸向抵接於保持單元22。另外,抵接凸緣165的外徑係隨著沿軸向離開保持單元22逐漸縮小。 In the suction nozzle body 160, a contact flange 165 is formed at a portion on the opposite side of the holding unit 22 with respect to the axial direction of the male screw portion 160a. The contact flange 165 is formed in a ring shape protruding radially outward. The contact flange 165 is axially contacted with the holding unit 22 in a state where the suction nozzle 23 is attached to the holding unit 22. In addition, the outer diameter of the contact flange 165 gradually decreases as it moves away from the holding unit 22 in the axial direction.

抽吸嘴本體160之軸向的保持單元22側的端部係形成有將抽吸嘴本體160內的空間軸向地區隔之區隔部167。區隔部167中,與軸線O重疊之位置係形成有朝軸向貫通區隔部167之貫通孔168。貫通孔168 係形成為以例如徑向之中的一方向為長邊方向之長圓形狀。另外,平面觀看時,貫通孔168的形狀亦可為正圓形或多角形等。 An end portion of the suction nozzle body 160 on the axial holding unit 22 side is formed with a partition portion 167 that axially separates the space in the suction nozzle body 160. In the partition 167, a through hole 168 penetrating the partition 167 in the axial direction is formed at a position overlapping the axis O. Through hole 168 For example, it is formed in an oblong shape with one direction in the radial direction as the longitudinal direction. In addition, when viewed in a plane, the shape of the through hole 168 may be a perfect circle or a polygon.

第一止滑部件161係由例如矽樹脂等樹脂材料一體形成。第一止滑部件161係具備有環部169、嵌合突起170、以及抵接突起171。 The first anti-slip member 161 is integrally formed of a resin material such as silicone resin. The first anti-slip member 161 includes a ring portion 169, a fitting protrusion 170, and an abutment protrusion 171.

環部169係從保持單元22側軸向嵌合於抽吸嘴本體160內。另外,第一止滑部件161係以環部169軸向抵接於上述區隔部167而相對於抽吸嘴本體160之軸向定位。 The ring portion 169 is axially fitted into the suction nozzle body 160 from the holding unit 22 side. In addition, the first anti-slip member 161 is axially abutted on the partition 167 with the ring portion 169 and positioned relative to the axial direction of the suction nozzle body 160.

環部169的中心係形成有連通孔169a。連通孔169a係通過上述貫通孔168而使保持單元22內與抽吸嘴本體160內相連通。 A communication hole 169a is formed in the center of the ring portion 169. The communication hole 169a communicates the inside of the holding unit 22 and the inside of the suction nozzle body 160 through the through hole 168 described above.

嵌合突起170係在環部169的內周緣之中,徑向相向的位置,將連通孔169a夾於其間而形成一對。嵌合突起170係從環部169朝軸向之與保持單元22相反側突出。各嵌合突起170係嵌合於上述貫通孔168內之徑向的兩端部。藉此,第一止滑部件161係相對於抽吸嘴本體160之周方向被定位。本實施形態中係針對嵌合突起170嵌合於貫通孔168內之構成進行說明,但亦可為嵌合突起170嵌合於貫通孔168以外的別的孔之構成。 The fitting protrusion 170 is formed in a pair of the inner peripheral edge of the ring portion 169 at positions facing each other in the radial direction, sandwiching the communication hole 169a therebetween. The fitting protrusion 170 protrudes from the ring portion 169 toward the side opposite to the holding unit 22 in the axial direction. Each fitting protrusion 170 is fitted into both ends of the through hole 168 in the radial direction. Thereby, the first anti-slip member 161 is positioned relative to the circumferential direction of the suction nozzle body 160. In this embodiment, the configuration in which the fitting protrusion 170 is fitted into the through hole 168 is described. However, the fitting protrusion 170 may be fitted in a hole other than the through hole 168.

抵接突起171係從環部169朝軸向的保持單元22側突出。抵接突起171係形成為以軸線O為中心之圓形形狀。本實施形態中,抵接突起171係形成為呈同心圓之兩條。另外,第一止滑部件161亦可為不具有抵接突起171之構成。 The contact protrusion 171 protrudes from the ring portion 169 toward the holding unit 22 side in the axial direction. The contact protrusion 171 is formed in a circular shape centered on the axis O. In this embodiment, the abutment protrusions 171 are formed as two concentric circles. In addition, the first anti-slip member 161 may not have the contact protrusion 171.

第二止滑部件162係由例如矽樹脂等樹脂材料一體形成。第二止滑部件162係從軸向之與保持單元22相反的一側嵌入抽吸嘴本體160 內。另外,第二止滑部件162係藉由軸向抵接於上述區隔部167,而相對於抽吸嘴本體160之軸向定位。 The second anti-slip member 162 is integrally formed of a resin material such as silicone resin. The second anti-slip member 162 is inserted into the suction nozzle body 160 from the side opposite to the holding unit 22 in the axial direction Inside. In addition, the second anti-slip member 162 is axially positioned with respect to the suction nozzle body 160 by axially contacting the partition 167.

<菸草膠囊> <tobacco capsules>

如第2圖、第11圖所示,菸草膠囊12係從軸向之與保持單元22相反的一側,以可裝拆的方式裝到抽吸嘴本體160內。菸草膠囊12係具備有膠囊部180、以及濾材部181。 As shown in FIGS. 2 and 11, the tobacco capsule 12 is detachably installed in the suction nozzle body 160 from the side opposite to the holding unit 22 in the axial direction. The tobacco capsule 12 includes a capsule portion 180 and a filter material portion 181.

如第11圖所示,膠囊部180係形成為以軸線O為中心軸之有底筒狀。膠囊部180之中,堵住軸向的保持單元22側的開口部之底壁部186係形成有朝軸向貫通底壁部186之網格開口。 As shown in FIG. 11, the capsule portion 180 is formed in a bottomed cylindrical shape with the axis O as the central axis. In the capsule portion 180, a mesh opening penetrating the bottom wall portion 186 in the axial direction is formed in the bottom wall portion 186 closing the opening in the axial direction holding unit 22 side.

濾材部181係從軸向的與保持單元22相反側嵌入膠囊部180內。膠囊部180與濾材部181之間所隔出的空間封入有菸葉。 The filter material portion 181 is inserted into the capsule portion 180 from the side opposite to the holding unit 22 in the axial direction. Tobacco leaves are enclosed in the space partitioned between the capsule portion 180 and the filter material portion 181.

<匣體> <cassette>

如第2圖所示,匣體11係儲存液體的霧氣源,並且使該液體的霧氣源霧化。匣體11係收納在保持單元22的透明筒121內。 As shown in FIG. 2, the cartridge 11 stores a mist source of liquid, and atomizes the mist source of the liquid. The case 11 is housed in the transparent tube 121 of the holding unit 22.

第13圖係沿著匣體11的軸向之斷面圖。第14圖係匣體11的分解立體圖。 FIG. 13 is a cross-sectional view along the axial direction of the case 11. FIG. 14 is an exploded perspective view of the case 11.

如第13圖、第14圖所示,匣體11係具備有:有底圓筒狀的儲槽191、收納於儲槽191內之大致為圓板狀的墊圈192、大致為圓板狀的多孔體193、加熱部194、霧化容器195、以及堵住儲槽191的開口部191a之加熱器支架196。 As shown in FIG. 13 and FIG. 14, the case 11 is provided with a cylindrical storage tank 191 with a bottom, a substantially disk-shaped gasket 192 housed in the storage tank 191, and a substantially disk-shaped The porous body 193, the heating portion 194, the atomizing container 195, and the heater holder 196 closing the opening 191a of the storage tank 191.

第15圖係從開口部191a側觀看儲槽191時之立體圖。 Fig. 15 is a perspective view of the storage tank 191 viewed from the opening 191a side.

如第13~15圖所示,儲槽191的周壁191b係在比開口部191a略為偏底部191c側,形成有兩個卡合孔198。卡合孔198係用來將加熱器支架196固定至儲槽191者。卡合孔198係形成為沿周方向延伸,從徑向觀看時呈長方形。兩個卡合孔198係隔著儲槽191的軸線Q而相向配置在兩側。另外,在匣體11收納於透明筒121內之狀態下,軸線Q係與本體單元10的軸線O一致。軸線Q係構成匣體11之各部共通的軸線。以下,軸線Q不僅限於儲槽191的軸線Q,也使用於構成匣體11之各部的說明。 As shown in FIGS. 13 to 15, the peripheral wall 191b of the storage tank 191 is slightly closer to the bottom 191c than the opening 191a, and two engagement holes 198 are formed. The engaging hole 198 is used to fix the heater bracket 196 to the storage tank 191. The engaging hole 198 is formed to extend in the circumferential direction and has a rectangular shape when viewed from the radial direction. The two engagement holes 198 are arranged opposite to each other across the axis Q of the storage tank 191. In addition, in a state where the case 11 is housed in the transparent tube 121, the axis Q coincides with the axis O of the body unit 10. The axis Q constitutes an axis common to each part of the case 11. Hereinafter, the axis Q is not limited to the axis Q of the storage tank 191, but is also used for the description of each part constituting the cassette 11.

另外,儲槽191的周壁191b係在從卡合孔198略為偏向開口部191a的內周面,形成有導引凹部198a。導引凹部198a也朝開口部191a側開口。導引凹部198a係在將加熱器支架196固定至儲槽191之際,具有導引後述卡合片206之作用。 In addition, the peripheral wall 191b of the reservoir 191 is formed on the inner peripheral surface slightly deviated from the engagement hole 198 toward the opening 191a, and a guide recess 198a is formed. The guide recess 198a also opens toward the opening 191a side. The guide recess 198a has a function of guiding the engaging piece 206 described later when the heater bracket 196 is fixed to the storage tank 191.

儲槽191的底部191c係形成有在徑向中央貫通底部191c之貫通孔191d。貫通孔191d的周緣係一體成形有從底部191c的內面向儲槽191內突出之圓環狀的流路管197。而且,流路管197的內部與貫通孔191d相連通。流路管197係霧化為霧氣的流路。流路管197係從底部191c延伸到比儲槽191的軸向大致中央略靠近開口部191a。 The bottom portion 191c of the reservoir 191 is formed with a through hole 191d penetrating the bottom portion 191c at the center in the radial direction. An annular flow path tube 197 protruding from the inner surface of the bottom portion 191c to the inside of the storage tank 191 is integrally formed on the peripheral edge of the through hole 191d. Furthermore, the inside of the flow path tube 197 communicates with the through hole 191d. The flow path tube 197 is a flow path atomized into mist. The flow path tube 197 extends from the bottom 191c to be slightly closer to the opening 191a than the axial center of the reservoir 191.

周壁191b的內周面與流路管197的外周面之間,一體成形有跨設於周壁191b與流路管197之間之複數個(本實施形態中為三個)肋板199。肋板199係沿周方向等間隔配置成從軸向觀看時呈放射狀。另外,肋板199係從儲槽191的底部191c延伸到快要與流路管197的開口部191a側的端部(前端)齊平。肋板199係用來支持流路管197者。 Between the inner peripheral surface of the peripheral wall 191b and the outer peripheral surface of the flow channel tube 197, a plurality of (three in this embodiment) ribs 199 spanning between the peripheral wall 191b and the channel tube 197 are integrally formed. The ribs 199 are arranged at equal intervals in the circumferential direction so as to be radial when viewed from the axial direction. In addition, the rib 199 extends from the bottom 191c of the tank 191 to be flush with the end (front end) of the flow path tube 197 on the opening 191a side. The rib 199 is used to support the flow path tube 197.

周壁191b的內周面係在形成肋板199之處一體成形有凸部201。凸部201係以沿著肋板199的方式沿軸向延伸。而且,凸部201係從儲槽191的底部191c開始形成至肋板199之開口部191a側的端部(前端)與流路管197的前端之間。凸部201係具有提高儲槽191的機械強度之作用,以及進行墊圈192的定位之作用。 The inner peripheral surface of the peripheral wall 191b is integrally formed with a convex portion 201 where the rib 199 is formed. The convex portion 201 extends in the axial direction so as to follow the rib 199. The convex portion 201 is formed from the bottom portion 191c of the storage tank 191 to the end portion (front end) of the rib 199 on the opening 191a side and the front end of the flow path tube 197. The convex portion 201 has the function of improving the mechanical strength of the storage tank 191 and the function of positioning the washer 192.

墊圈192係形成為外徑與儲槽191的內徑大致相同。墊圈192係進行後述多孔體193的定位並且保持多孔體193的姿勢。換言之,墊圈192係支持後述多孔體193。墊圈192的徑向中央形成有可供流路管197插入之插入孔192a。墊圈192以流路管197插入該插入孔192a之方式收納在儲槽191內。另外,墊圈192以其一面192b抵接於凸部201的端面201a而進行在儲槽191內的定位。在墊圈192被定位的狀態下,墊圈192的外周面係與儲槽191的內周面接觸。而且,墊圈192的插入孔192a係與流路管197的外周面接觸。 The washer 192 is formed so that its outer diameter is substantially the same as the inner diameter of the reservoir 191. The washer 192 performs positioning of the porous body 193 described later and maintains the posture of the porous body 193. In other words, the gasket 192 supports the porous body 193 described later. In the radial center of the gasket 192, an insertion hole 192a into which the flow path tube 197 can be inserted is formed. The gasket 192 is accommodated in the storage tank 191 so that the flow path tube 197 is inserted into the insertion hole 192a. In addition, the washer 192 is positioned in the storage tank 191 with one surface 192b abutting on the end surface 201a of the convex portion 201. In the state where the washer 192 is positioned, the outer peripheral surface of the washer 192 is in contact with the inner peripheral surface of the storage tank 191. Furthermore, the insertion hole 192a of the gasket 192 is in contact with the outer peripheral surface of the flow path tube 197.

在墊圈192之插入孔192a與外周面之間的大部分,形成有複數個(本實施形態中為四個)開口部192c。開口部192c係形成為從軸向觀看時呈圓弧狀。各開口部192c係沿周方向等間隔配置。儲槽191內之墊圈192兩側的空間係透過開口部192c而相連通。在此種墊圈192之與一面192b相反側的另一面192d,配置有多孔體193。 A plurality of (four in this embodiment) openings 192c are formed in most of the space between the insertion hole 192a of the gasket 192 and the outer peripheral surface. The opening 192c is formed in an arc shape when viewed from the axial direction. The openings 192c are arranged at equal intervals in the circumferential direction. The spaces on both sides of the gasket 192 in the reservoir 191 are communicated through the opening 192c. A porous body 193 is arranged on the other surface 192d of the gasket 192 opposite to the one surface 192b.

多孔體193係多孔狀且具有吸液性之部件。多孔體193係由例如棉質纖維材所形成。多孔體193係形成為與墊圈192大致相同形狀。亦即,多孔體193也形成為外徑與儲槽191的內徑大致相同。在多孔體193的徑向中央,形成有供流路管197插入之插入孔193a。多孔體193的位置 係藉由流路管197插入該插入孔193a,且多孔體193的一面193b重疊於墊圈192的另一面192d而定位。多孔體193的外周面係與儲槽191的內周面接觸。而且,多孔體193的插入孔193a係與流路管197的外周面接觸。 The porous body 193 is a porous and liquid-absorbing member. The porous body 193 is formed of, for example, cotton fiber material. The porous body 193 is formed in substantially the same shape as the gasket 192. That is, the porous body 193 is also formed so that the outer diameter is substantially the same as the inner diameter of the storage tank 191. In the radial center of the porous body 193, an insertion hole 193a into which the flow path tube 197 is inserted is formed. Position of porous body 193 The insertion hole 193a is inserted by the flow path tube 197, and one surface 193b of the porous body 193 overlaps with the other surface 192d of the gasket 192 to position. The outer peripheral surface of the porous body 193 is in contact with the inner peripheral surface of the storage tank 191. Furthermore, the insertion hole 193a of the porous body 193 is in contact with the outer peripheral surface of the flow path tube 197.

儲槽191的內部係藉由多孔體193區隔成底部191c側的液體收容室202及開口部191a側的開口室203。液體收容室202中係儲存液體的霧氣源。開口室203係將經多孔體193吸收的霧氣源霧化之空間。 The inside of the storage tank 191 is partitioned by the porous body 193 into a liquid storage chamber 202 on the bottom 191c side and an opening chamber 203 on the opening 191a side. The liquid storage chamber 202 is a source of mist for storing liquid. The opening chamber 203 is a space for atomizing the mist gas source absorbed by the porous body 193.

多孔體193之與一面193b相反側的另一面193c係露出於開口室203。加熱部194係設成連接至露出於開口室203之多孔體193的另一面193c。 The other surface 193c of the porous body 193 opposite to the one surface 193b is exposed in the opening chamber 203. The heating portion 194 is provided to be connected to the other surface 193c of the porous body 193 exposed in the opening chamber 203.

加熱部194係用來使液體的霧氣源霧化。加熱部194係收納於開口室203。加熱部194係具備有形成為大致為U字形之吸液芯204、以及對吸液芯204進行加熱之電熱線205。吸液芯204係多孔狀且具有吸液性之大致為圓柱狀的部件。將如此的吸液芯204彎曲成大致呈U字形。 The heating portion 194 is used to atomize the mist source of the liquid. The heating unit 194 is housed in the opening chamber 203. The heating unit 194 includes a liquid-absorbent wick 204 formed in a substantially U-shape, and an electric heating wire 205 that heats the liquid-absorbent wick 204. The liquid absorbing core 204 is a porous and generally cylindrical member having liquid absorption properties. The liquid absorbing core 204 is bent into a substantially U-shape.

更詳言之,吸液芯204係由軸向延伸之兩個軸向延伸部204a及經由彎曲部204b將兩個軸向延伸部204a的一端彼此相連結之徑向延伸部204c所構成。而且,使軸向延伸部204a的另一端連接至多孔體193。藉此,將多孔體193所吸收的霧氣源吸到吸液芯204。 More specifically, the wick 204 is composed of two axially extending portions 204a extending axially and a radially extending portion 204c connecting one end of the two axially extending portions 204a to each other via a curved portion 204b. Furthermore, the other end of the axially extending portion 204a is connected to the porous body 193. By this, the mist source absorbed by the porous body 193 is sucked into the liquid absorbing core 204.

電熱線205係具有:以繞著吸液芯204的徑向延伸部204c的周圍之形態形成為螺旋狀之電熱線本體205a、以及從電熱線本體205a的兩終端沿著軸向往加熱器支架196側延伸之兩個終端部205b。電熱線205對吸液芯204進行加熱時,吸到吸液芯204之霧氣源就會霧化。兩個 終端部205b的前端係反折而朝向多孔體193側。兩個終端部205b係連接至加熱器支架196。 The heating wire 205 has a heating wire body 205a formed in a spiral shape around the radially extending portion 204c of the liquid absorbing core 204, and a heater holder 196 along the axial direction from both ends of the heating wire body 205a Two terminal portions 205b extending sideways. When the electric heating wire 205 heats the liquid-absorbent core 204, the mist gas source sucked into the liquid-absorbent core 204 will be atomized. Two The tip of the terminal portion 205b is folded back toward the porous body 193 side. The two terminal portions 205b are connected to the heater bracket 196.

第16圖係從電源單元21側(軸向的第一側)觀看加熱器支架196時之立體圖。 Fig. 16 is a perspective view of the heater holder 196 viewed from the power supply unit 21 side (the first side in the axial direction).

如第13圖、第16圖所示,加熱器支架196係形成為大致呈有底圓筒狀。而且使加熱器支架196的開口部196a朝向儲槽191側,而將儲槽191的開口部191a堵住。 As shown in FIGS. 13 and 16, the heater holder 196 is formed into a substantially cylindrical shape with a bottom. Furthermore, the opening 196a of the heater holder 196 is directed to the reservoir 191 side, and the opening 191a of the reservoir 191 is blocked.

加熱器支架196的周壁196b係形成為外徑與儲槽191的周壁191b的外徑大致相同。周壁196b的外周面係從軸向大致中央到開口部196a之間,隔著段差面196c形成有縮徑之嵌合部196d。此嵌合部196d係嵌合至儲槽191的周壁191b的內周面。另外,儲槽191的周壁191b的開口部191a側的端部係抵接於周壁196b的段差面196c。藉此,進行對於儲槽191之加熱器支架196的軸向的定位。 The peripheral wall 196b of the heater holder 196 is formed so that the outer diameter is substantially the same as the outer diameter of the peripheral wall 191b of the storage tank 191. The outer peripheral surface of the peripheral wall 196b is formed from a substantially axial center to the opening 196a, and a reduced-diameter fitting portion 196d is formed across the stepped surface 196c. The fitting portion 196d is fitted to the inner peripheral surface of the peripheral wall 191b of the storage tank 191. In addition, the end of the peripheral wall 191b of the reservoir 191 on the opening 191a side abuts on the stepped surface 196c of the peripheral wall 196b. With this, the axial positioning of the heater bracket 196 of the storage tank 191 is performed.

又,嵌合部196d的開口部196a側的端部係在與儲槽191的兩個卡合孔198對應的位置一體成形有兩個卡合片206。兩個卡合片206係向著對應的卡合孔198而突出。亦即,兩個卡合片206係隔著加熱器支架196的軸線Q而相向配置在兩側。 In addition, the end of the fitting portion 196d on the opening 196a side is integrally formed with two engagement pieces 206 at positions corresponding to the two engagement holes 198 of the reservoir 191. The two engaging pieces 206 protrude toward the corresponding engaging holes 198. That is, the two engaging pieces 206 are arranged opposite to each other across the axis Q of the heater bracket 196.

卡合片206係卡合於儲槽191的卡合孔198而使儲槽191與加熱器支架196一體化。卡合片206係形成為可徑向彈性變形。卡合片206的前端係朝徑向外側突出形成有可插入儲槽191的卡合孔198之卡合爪207。 The engaging piece 206 is engaged with the engaging hole 198 of the storage tank 191 to integrate the storage tank 191 and the heater bracket 196. The engaging piece 206 is formed to be elastically deformable in the radial direction. The front end of the engaging piece 206 protrudes outward in the radial direction with an engaging claw 207 formed with an engaging hole 198 that can be inserted into the reservoir 191.

卡合爪207係形成為沿著軸向及徑向的平面的斷面形狀為大致三角形。亦即,卡合爪207係使其前端側的面構成為隨著朝徑向外側 而往基端側(嵌合部196d側)傾斜之傾斜面207a。另一方面,卡合爪207的基端側的平坦面207b係與軸向正交。 The engaging claw 207 is formed so that the cross-sectional shape of the plane along the axial direction and the radial direction is substantially triangular. That is, the engaging claw 207 is configured such that the surface on the front end side is configured to be radially outward On the other hand, the inclined surface 207a inclined toward the base end side (the fitting portion 196d side). On the other hand, the flat surface 207b on the base end side of the engaging claw 207 is orthogonal to the axial direction.

又,加熱器支架196的周壁196b,在避開嵌合部196d的外周面形成有與卡合爪207沿軸向排列之凹部208。凹部208係朝徑向外側及段差面196c側開口。凹部208係形成有朝厚度方向貫通周壁196b之第一吸氣孔209。周壁196b的內外係透過第一吸氣孔209而相連通。 In addition, the peripheral wall 196b of the heater holder 196 has a concave portion 208 aligned with the engaging claw 207 in the axial direction on the outer peripheral surface avoiding the fitting portion 196d. The concave portion 208 opens toward the radially outer side and the stepped surface 196c side. The concave portion 208 is formed with a first suction hole 209 penetrating the peripheral wall 196b in the thickness direction. The inner and outer systems of the peripheral wall 196b communicate with each other through the first suction hole 209.

再者,加熱器支架196的周壁196b係在底部196e側形成有三個卡合凹部210。三個卡合凹部210係沿周方向等間隔(沿周方向相隔120。)配置,且配置成避開凹部208的形成位置。卡合凹部210係形成為朝徑向外側及底部196e開口。卡合凹部210的底部196e側係形成有卡合凹部210的周方向的寬度隨著朝向該底部196e而逐漸變寬之斜面狀的斜角部210a。 Furthermore, the peripheral wall 196b of the heater holder 196 is formed with three engaging recesses 210 on the bottom 196e side. The three engagement recesses 210 are arranged at equal intervals in the circumferential direction (120 apart in the circumferential direction), and are arranged to avoid the formation position of the recess 208. The engaging recess 210 is formed to open radially outward and at the bottom 196e. On the bottom 196e side of the engagement recess 210, a beveled corner 210a in which the width of the engagement recess 210 in the circumferential direction gradually widens toward the bottom 196e is formed.

各第一連結部件81的縱卡合凸部101a~101c係分別插入如此形成的三個卡合凹部210。藉此,使加熱器支架196(匣體11)與第一連結部件81相連結,並且進行加熱器支架196(匣體11)與第一連結部件81之周方向的定位。 The vertical engagement convex portions 101 a to 101 c of each first coupling member 81 are inserted into the three engagement concave portions 210 formed in this way. Thereby, the heater holder 196 (casing 11) and the first coupling member 81 are coupled, and the heater holder 196 (casing 11) and the first coupling member 81 are positioned in the circumferential direction.

加熱器支架196的底部196e係一體成形有從內面沿著軸向直立設置之大致為板狀的連接壁211。並且,連接壁211係沿著通過加熱器支架196的軸線Q之徑向延伸,且徑向的長邊方向兩端連接至周壁196b的內面。利用如此的連接壁211將加熱器支架196內的空間區隔成兩部分。 The bottom portion 196e of the heater holder 196 is integrally formed with a substantially plate-shaped connecting wall 211 that is upright from the inner surface in the axial direction. Furthermore, the connecting wall 211 extends along the radial direction of the axis Q passing through the heater holder 196, and both ends in the longitudinal direction of the radial direction are connected to the inner surface of the peripheral wall 196b. The connecting wall 211 divides the space in the heater bracket 196 into two parts.

再者,加熱器支架196的底部196e係形成有兩個狹縫212。兩個狹縫212係沿著連接壁211的板厚方向兩面而配置。 Furthermore, the bottom 196e of the heater holder 196 is formed with two slits 212. The two slits 212 are arranged along both sides of the connecting wall 211 in the thickness direction.

連接壁211的厚度方向兩面分別設有電極213、214。電極213、214係具有:設於連接壁211之引線電極部213a、214a;以及從引線電極部213a、214a分別通過對應的狹縫212而彎曲延伸到底部196e的外面之連接電極部(平面電極)213b、214b。另外,構成加熱部194之電熱線205的兩個終端部205b係分別連接至各引線電極部213a、214a。 Electrodes 213 and 214 are provided on both sides of the connecting wall 211 in the thickness direction. The electrodes 213 and 214 have: lead electrode portions 213a and 214a provided on the connecting wall 211; and connecting electrode portions (plane electrodes) that extend from the lead electrode portions 213a and 214a to the outside of the bottom 196e through the corresponding slits 212 ) 213b, 214b. In addition, the two terminal portions 205b of the heating wire 205 constituting the heating portion 194 are connected to the respective lead electrode portions 213a and 214a.

連接電極部213b、214b係將後述絕緣部215夾於其間而在徑向的兩側形成為大致呈半圓形。具體而言,從軸向觀看時,兩個連接電極部213b、214b係配置成使直線狀的一邊213c、214c在徑向相向之形態。另外,從軸向觀看時,兩個連接電極部213b、214b呈圓弧形的圓弧邊213d、214d係構成外周部。兩個連接電極部213b、214b的一邊213c、214c之間成為有連接壁211的端部介於其間之形態。加熱器支架196(匣體11)與第一連結部件81相連結之狀態下,各電極保持部50所保持的頂針電極49(電極本體)的前端係接觸於各連接電極部213b、214b。亦即,加熱器支架196的底部196e係在匣體11裝接到本體單元10之狀態下,發揮作為在軸向與上述基面91a相向的電極配置面之機能。 The connection electrode portions 213b and 214b are formed in a substantially semicircular shape on both sides in the radial direction with the insulating portion 215 described later sandwiched therebetween. Specifically, when viewed from the axial direction, the two connecting electrode portions 213b and 214b are arranged such that the linear sides 213c and 214c face each other in the radial direction. In addition, when viewed from the axial direction, the arc-shaped edges 213d and 214d of the two connecting electrode portions 213b and 214b constitute an outer peripheral portion. Between the sides 213c and 214c of the two connection electrode portions 213b and 214b, the end portion with the connection wall 211 interposed therebetween. In a state where the heater holder 196 (casing 11) is connected to the first connecting member 81, the tip of the thimble electrode 49 (electrode body) held by each electrode holding portion 50 is in contact with each connecting electrode portion 213b, 214b. That is, the bottom portion 196e of the heater holder 196 functions as an electrode arrangement surface facing the base surface 91a in the axial direction with the casing 11 attached to the body unit 10.

在此,各連接電極部213b、214b係至少形成於電源單元21與匣體11繞軸線O(軸線Q)相對轉動時之頂針電極49(第一頂針電極49a及第二頂針電極49b)的轉動軌跡上。亦即,各連接電極部213b、214b係形成於包含以軸線O為中心而通過第一頂針電極49a之第一假想圓周C1、以及以軸線O為中心而通過第二頂針電極49b之第二假想圓周C2雙方之區域。本實施形態中,各頂針電極49a、49b以線對稱方式配置,所以各個假想圓周C1、C2重疊。 Here, the connection electrode portions 213b and 214b are formed at least when the power supply unit 21 and the casing 11 relatively rotate about the axis O (axis Q) when the thimble electrode 49 (the first thimble electrode 49a and the second thimble electrode 49b) rotates On track. That is, each connection electrode portion 213b, 214b is formed to include a first imaginary circle C1 passing through the first thimble electrode 49a centered on the axis O and a second imaginary circle passing the second thimble electrode 49b centered on the axis O The area on both sides of the circle C2. In the present embodiment, since the thimble electrodes 49a and 49b are arranged in a line-symmetrical manner, the virtual circles C1 and C2 overlap.

又,介於兩個連接電極部213b、214b的一邊213c、214c之間之連接壁211的端部,係沿著通過加熱器支架196的軸線Q之徑向而延伸,換言之,可謂連接壁211係設在連結兩個頂針電極49之假想直線T1中之預定方向的假想直線T1上。此預定方向係與通過形成於加熱器支架196之三個卡合凹部210之中的一個卡合凹部210的周方向中央及加熱器支架196的軸線Q之假想直線T2一致。連接壁211係短邊方向(繞軸線Q之周方向)的寬度係形成為比各頂針電極49的軸徑略大。 Also, the end of the connecting wall 211 between the sides 213c, 214c of the two connecting electrode portions 213b, 214b extends along the radial direction passing through the axis Q of the heater holder 196, in other words, the connecting wall 211 It is provided on a virtual straight line T1 in a predetermined direction among virtual straight lines T1 connecting the two thimble electrodes 49. This predetermined direction coincides with an imaginary straight line T2 passing through the center of the circumferential direction of one of the three engagement recesses 210 formed in the heater bracket 196 and the axis Q of the heater bracket 196. The width of the connecting wall 211 in the short side direction (the circumferential direction around the axis Q) is formed to be slightly larger than the axial diameter of each thimble electrode 49.

如此配置的連接壁211的端部係具有作為在周方向將連接電極部213b、214b區隔開來的絕緣部215之機能。使絕緣都215配置於通過一個卡合凹部210的周方向中央及加熱器支架196的軸線Q之假想直線T2上,藉此,在加熱器支架196(匣體11)與第一連結部件81相連結的狀態下,各頂針電極49的前端係分別確實與兩個連接電極部213b、214b接觸。換言之,不會有兩個頂針電極49同時與兩個連接電極部213b,214b之中的一個接觸之情形。如上所述,本實施形態之各連接電極部213b、214b係在中間隔著假想直線T2(絕緣部215)之徑向的兩側,形成為包含假想圓周C1、C2,且相對於假想圓周C1、C2擴展到徑向外側(圓弧邊213d、214d)及內側(一邊213c、214c)之半圓狀。 The end portion of the connecting wall 211 arranged in this way functions as an insulating portion 215 that partitions the connecting electrode portions 213b and 214b in the circumferential direction. The insulation 215 is arranged on an imaginary straight line T2 passing through the circumferential center of the one engaging recess 210 and the axis Q of the heater holder 196, whereby the heater holder 196 (casing 11) and the first connecting member 81 face each other In the connected state, the tip of each thimble electrode 49 is surely in contact with the two connection electrode portions 213b and 214b, respectively. In other words, there will be no situation where the two thimble electrodes 49 are in contact with one of the two connection electrode portions 213b, 214b at the same time. As described above, the connection electrode portions 213b and 214b of the present embodiment are formed on both sides in the radial direction of the virtual straight line T2 (insulating portion 215), and are formed to include virtual circles C1 and C2 with respect to the virtual circle C1. , C2 expands to a semicircular shape on the radially outer side (arc sides 213d, 214d) and the inner side (sides 213c, 214c).

而且,兩個連接電極部213b、214b的圓弧邊213d、214d係在周方向大致中央,形成有朝徑向內側凹陷之凹部213e、214e。加熱器支架196的底部196e之與連接電極部213b、214b的凹部213e、214e對應之處之中,在與一方的凹部213e對應之處,形成有朝底部196e的厚度 方向貫通之第二吸氣孔216。底部196e的內外係透過第二吸氣孔216而相連通。 Further, the arc sides 213d and 214d of the two connecting electrode portions 213b and 214b are formed approximately at the center in the circumferential direction, and concave portions 213e and 214e which are recessed radially inward are formed. Among the bottom portions 196e of the heater holder 196 corresponding to the concave portions 213e and 214e connecting the electrode portions 213b and 214b, a thickness toward the bottom portion 196e is formed at a position corresponding to one of the concave portions 213e The second suction hole 216 in the direction. The inner and outer parts of the bottom 196e communicate with each other through the second suction hole 216.

另外,底部196e係在與連接電極部213b、214b對應之處,形成有從軸向觀看時與連接電極部213b、214b相同形狀之凹部196f。連接電極部213b、214b係收納在此凹部196f內。藉由形成凹部196f,使得連接電極部213b、214b的表面與未配置兩連接電極部213b、214b之底部196e的表面位在同一平面上。以嵌合於如此的加熱器支架196的周壁196b的內周面之方式,收納霧化容器195的一部分。 In addition, the bottom portion 196e corresponds to the connection electrode portions 213b and 214b, and has a concave portion 196f having the same shape as the connection electrode portions 213b and 214b when viewed from the axial direction. The connection electrode portions 213b and 214b are accommodated in this concave portion 196f. By forming the concave portion 196f, the surface of the connection electrode portions 213b, 214b and the surface of the bottom portion 196e where the two connection electrode portions 213b, 214b are not disposed are on the same plane. A part of the atomizing container 195 is housed so as to be fitted on the inner peripheral surface of the peripheral wall 196b of such a heater holder 196.

如第11圖所示,在匣體11裝接在保持單元22內之狀態下,底部196e的外周部係在軸向抵接於上述圍繞凸部93。因此,底部196e與連接蓋80(基面91a及圍繞凸部93)所圍成的空間,係形成使連通埠51內與第二吸氣孔216相連通之緩衝空間S3。第11圖的例子中,連通埠51及第二吸氣孔216係配置於軸向分開且周方向相錯開之位置。此外,連通埠51及第二吸氣孔216亦可配置於徑向相錯開之位置。 As shown in FIG. 11, in a state where the cassette body 11 is attached in the holding unit 22, the outer peripheral portion of the bottom portion 196 e abuts on the surrounding convex portion 93 in the axial direction. Therefore, the space enclosed by the bottom portion 196e and the connection cover 80 (the base surface 91a and the surrounding convex portion 93) forms a buffer space S3 that allows the communication port 51 to communicate with the second suction hole 216. In the example of FIG. 11, the communication port 51 and the second suction hole 216 are arranged at positions separated in the axial direction and shifted in the circumferential direction. In addition, the communication port 51 and the second suction hole 216 may also be arranged at positions offset in the radial direction.

本實施形態之連通埠51係通過緩衝空間S3、第二吸氣孔216等而連通到流路管197內。另外,底部(第二面)196e之中,圍繞凸部93所抵接的部分係形成為與軸向正交之平坦面。底部196e之中,圍繞凸部93所抵接的部分亦可為凸面、凹面、傾斜面等。 The communication port 51 of this embodiment communicates into the flow path tube 197 through the buffer space S3, the second suction hole 216, and the like. In addition, in the bottom portion (second surface) 196e, a portion around the convex portion 93 abutting is formed as a flat surface orthogonal to the axial direction. In the bottom portion 196e, the portion that abuts on the convex portion 93 may be a convex surface, a concave surface, an inclined surface, or the like.

本實施形態中,圍繞凸部93係藉由抽吸嘴23按壓匣體11,而以彈性變形的狀態密接於底部196e。惟,圍繞凸部93與底部196e並非一定要密接而亦可相分開。亦即,若能夠在抽吸時通過連通埠51使壓力變動室S1產生負壓,圍繞凸部93與底部196e之間亦可存在有微小間隙。 In this embodiment, the casing 11 is pressed by the suction nozzle 23 around the convex portion 93, and is in close contact with the bottom 196e in an elastically deformed state. However, the surrounding convex portion 93 and the bottom portion 196e are not necessarily in close contact but may be separated. That is, if negative pressure can be generated in the pressure fluctuation chamber S1 through the communication port 51 during suction, there may be a slight gap between the surrounding convex portion 93 and the bottom portion 196e.

第17圖係從多孔體193側(軸向的第二側)觀看霧化容器195時之立體圖。 FIG. 17 is a perspective view of the atomizing container 195 viewed from the porous body 193 side (second side in the axial direction).

第13圖、第14圖、第17圖等所示之霧化容器195係具有彈性的部件,係由例如矽樹脂等樹脂材料所形成。霧化容器195係軸向設於多孔體193的另一面193c與加熱器支架196的底部196e的附近之間。亦即,霧化容器195係形成為包圍在加熱部194的周圍之大致圓筒狀,一體成形有:嵌合於儲槽191的周壁191b的內周面之筒部217、以及嵌合於加熱器支架196的周壁196b的內周面之大致為塊狀的嵌合部218。 The atomizing container 195 shown in FIGS. 13, 14 and 17 is an elastic member and is formed of a resin material such as silicone resin. The atomizing container 195 is axially provided between the other surface 193c of the porous body 193 and the vicinity of the bottom 196e of the heater holder 196. That is, the atomizing container 195 is formed in a substantially cylindrical shape surrounding the heating portion 194, and integrally formed with the cylindrical portion 217 fitted to the inner peripheral surface of the peripheral wall 191b of the storage tank 191, and fitted to the heating The inner peripheral surface of the peripheral wall 196b of the device holder 196 is a substantially block-shaped fitting portion 218.

筒部217的多孔體193側的端部係在徑向中央的大部分形成有段差面217a。藉由形成段差面217a,而形成筒部217的外周部向多孔體193側突出而成之環狀的突出部219。該突出部219的端部係抵接於多孔體193的另一面193c。突出部219的外徑係與儲槽191的周壁191b的內徑大致相同或略小之程度。 The end portion of the cylindrical portion 217 on the porous body 193 side is formed with a stepped surface 217a at most of the radial center. By forming the stepped surface 217a, an annular protruding portion 219 in which the outer peripheral portion of the cylindrical portion 217 protrudes toward the porous body 193 side is formed. The end of the protruding portion 219 abuts on the other surface 193c of the porous body 193. The outer diameter of the protrusion 219 is approximately the same as or slightly smaller than the inner diameter of the peripheral wall 191b of the reservoir 191.

段差面217a的大部分係以與加熱部194的形狀對應之方式,形成有收納凹部220。收納凹部220係成為蓄積藉由加熱部194而霧化的霧氣之霧化室M。此霧化室M係與儲槽191的流路管197相連通。 Most of the stepped surface 217a corresponds to the shape of the heating portion 194, and a storage recess 220 is formed. The storage recess 220 is an atomization chamber M that stores the mist atomized by the heating unit 194. The atomizing chamber M is in communication with the flow channel 197 of the storage tank 191.

收納凹部220係形成有載置構成加熱部194之吸液芯204的彎曲部204b之座面221。座面221的徑向內側的面係為了避免與構成加熱部194之電熱線205的終端部205b干涉而形成有凹部221a。 The storage recess 220 is formed with a seating surface 221 on which the curved portion 204b of the liquid wick 204 constituting the heating portion 194 is placed. The radially inner surface of the seat surface 221 is formed with a concave portion 221 a in order to avoid interference with the terminal portion 205 b of the electric heating wire 205 constituting the heating portion 194.

筒部217的外周面係在靠近嵌合部218之處形成有密封部222。密封部222係除了後述缺口部222a之外,繞全周且朝徑向外側突出 而形成。密封部222係具有確保筒部217與儲槽191的周壁191b之間的密封性之作用,以及抑制霧化容器195從儲槽191脫落之作用。 A sealing portion 222 is formed on the outer peripheral surface of the cylindrical portion 217 near the fitting portion 218. The sealing portion 222 protrudes outward in the radial direction around the entire circumference except for the notch portion 222a described later While forming. The sealing portion 222 has the function of ensuring the sealing between the cylindrical portion 217 and the peripheral wall 191b of the storage tank 191, and the function of suppressing the atomization container 195 from falling off from the storage tank 191.

密封部222的外徑係略大於儲槽191的周壁191b的內徑。因此,在霧化容器195收納於儲槽191內之狀態下,密封部222係受到徑向壓縮。藉此,可確保密封部222的密封性,且藉由密封部222的摩擦阻力抑制霧化容器195從儲槽191脫落。 The outer diameter of the sealing portion 222 is slightly larger than the inner diameter of the peripheral wall 191b of the reservoir 191. Therefore, in a state where the atomizing container 195 is stored in the storage tank 191, the sealing portion 222 is compressed in the radial direction. Thereby, the sealing property of the sealing portion 222 can be ensured, and the frictional resistance of the sealing portion 222 can prevent the atomizing container 195 from falling off from the storage tank 191.

又,密封部222係形成有兩個缺口部222a。兩個缺口部222a係隔著儲槽191的軸線Q而相向配置於兩側。藉由缺口部222a使外部空氣與後述液體蓄積部223相連通。 In addition, the sealing portion 222 is formed with two notch portions 222a. The two notch portions 222a are arranged facing each other across the axis Q of the storage tank 191. The notch portion 222a allows the outside air to communicate with the liquid accumulation portion 223 described later.

筒部217的外周面係在突出部219的前端到密封部222之間,形成有液體蓄積部223。液體蓄積部223係在多孔體193及吸液芯204飽和之際,儲存於儲槽191的液體收容室202之液體的霧氣源經由儲槽191的周壁191b的內周面而漏出時,暫時蓄積該漏出的霧氣源之部位。 The outer peripheral surface of the cylindrical portion 217 is connected between the front end of the protruding portion 219 and the sealing portion 222, and a liquid accumulating portion 223 is formed. The liquid accumulation part 223 is temporarily accumulated when the porous body 193 and the wick 204 are saturated, and the mist source of the liquid stored in the liquid storage chamber 202 of the storage tank 191 leaks through the inner peripheral surface of the peripheral wall 191b of the storage tank 191. The location of the leaking mist source.

液體蓄積部223係使筒部217的外周面的全體形成為隨著從密封部222朝向突出部219的前端,筒部217的外周面與儲槽191的周壁191b之間的間隙逐漸變窄地傾斜而形成之凹部。換言之,液體蓄積部223係隨著朝向儲槽191的開口部191a,筒部217的外周面與儲槽191的周壁191b之間的間隙逐漸變寬之凹部。由於形成有如此的液體蓄積部223,因此在筒部217的突出部219附近會形成該突出部219與儲槽191的周壁191b之間成為微小間隙之狹小部279。 The liquid accumulating portion 223 forms the entire outer peripheral surface of the cylindrical portion 217 so that the gap between the outer peripheral surface of the cylindrical portion 217 and the peripheral wall 191b of the reservoir 191 gradually narrows from the sealing portion 222 toward the front end of the protruding portion 219. A concave portion formed by inclining. In other words, the liquid accumulating portion 223 is a concave portion where the gap between the outer peripheral surface of the cylindrical portion 217 and the peripheral wall 191b of the reservoir 191 gradually widens toward the opening 191a of the reservoir 191. Since such a liquid accumulating portion 223 is formed, a narrow portion 279 that forms a minute gap between the protruding portion 219 and the peripheral wall 191 b of the reservoir 191 is formed near the protruding portion 219 of the cylindrical portion 217.

在此,筒部217之突出部219的端部係抵接於多孔體193的另一面193c。而且,多孔體193係外周面接觸於儲槽191的內周面。因此,形成 於筒部217的突出部219與儲槽191的周壁191b之間之狹小部279係由多孔體193的外周部加以覆蓋(堵住)。 Here, the end of the protruding portion 219 of the cylindrical portion 217 abuts on the other surface 193c of the porous body 193. Moreover, the outer peripheral surface of the porous body 193 is in contact with the inner peripheral surface of the storage tank 191. Therefore, the formation The narrow portion 279 between the protruding portion 219 of the cylindrical portion 217 and the peripheral wall 191b of the reservoir 191 is covered (closed) by the outer peripheral portion of the porous body 193.

另外,筒部217的外周面,在比密封部222還要靠加熱器支架196側之與卡合片206對應的位置,形成有接受該卡合片206進入之凹部224。藉由卡合片206插入該凹部224,進行霧化容器195與加熱器支架196之周方向的定位。另外,筒部217的凹部224的底面224a係抵接於卡合片206的徑向內側的內面。 In addition, the outer peripheral surface of the cylindrical portion 217 is formed at a position corresponding to the engaging piece 206 on the heater holder 196 side of the sealing portion 222, and a concave portion 224 that receives the engaging piece 206 is formed. By inserting the engaging piece 206 into the concave portion 224, the atomizing container 195 and the heater holder 196 are positioned in the circumferential direction. In addition, the bottom surface 224 a of the concave portion 224 of the cylindrical portion 217 abuts on the inner surface in the radial direction inside of the engaging piece 206.

霧化容器195的嵌合部218係形成為可嵌合至加熱器支架196的周壁196b的內周面之大致圓柱狀。亦即,嵌合部218係藉由段差面217b而將外徑形成為較筒部217的外徑縮徑。嵌合部218係形成有可供加熱器支架196的連接壁211插入之狹縫225。另外,嵌合部218還形成有與狹縫225連通且電熱線205的終端部205b可插入的未圖示的電熱線用狹縫。將電熱線205的終端部205b插入該電熱線用狹縫,而使終端部205b保持在霧化容器195。並且,使設於連接壁211之引線電極部213a、214a與電熱線205的終端部205b相連接。 The fitting portion 218 of the atomizing container 195 is formed in a substantially cylindrical shape that can be fitted to the inner peripheral surface of the peripheral wall 196b of the heater holder 196. That is, the fitting portion 218 has the outer diameter formed by the stepped surface 217b to be smaller than the outer diameter of the cylindrical portion 217. The fitting portion 218 is formed with a slit 225 into which the connecting wall 211 of the heater bracket 196 can be inserted. In addition, the fitting portion 218 is also formed with a slit for a heating wire (not shown) that communicates with the slit 225 and into which the terminal portion 205 b of the heating wire 205 can be inserted. The terminal portion 205b of the electric heating wire 205 is inserted into the slit for the electric heating wire, and the terminal portion 205b is held in the atomizing container 195. Then, the lead electrode portions 213a and 214a provided in the connection wall 211 are connected to the terminal portion 205b of the heating wire 205.

另外,嵌合部218係在與加熱器支架196的第一吸氣孔209及第二吸氣孔216對應之處,還形成有通氣路226。此外,嵌合部218還形成有狹縫225及通氣路226與筒部217的霧化室M(收納凹部220)連通之狹縫218a。通氣路226與霧化容器195的霧化室M(收納凹部220)係透過該狹縫218a而相連通。因此,霧化容器195的霧化室M(收納凹部220)與加熱器支架196的第一吸氣孔209、及第二吸氣孔216係透過通氣路226及狹縫218a而相連通。 In addition, the fitting portion 218 is formed at a position corresponding to the first air intake hole 209 and the second air intake hole 216 of the heater holder 196, and an air passage 226 is also formed. In addition, the fitting portion 218 is formed with a slit 225 and a slit 218 a in which the air passage 226 communicates with the atomizing chamber M (storage recess 220) of the cylindrical portion 217. The ventilation path 226 communicates with the atomization chamber M (storage recess 220) of the atomization container 195 through the slit 218a. Therefore, the atomization chamber M (storage recess 220) of the atomization container 195 communicates with the first air intake hole 209 and the second air intake hole 216 of the heater holder 196 through the air passage 226 and the slit 218a.

<吸嚐器全體的組裝構造> <Assembly structure of the whole taster>

第18圖係吸嚐器1的正面圖。 Figure 18 is a front view of the taster 1.

如第18圖所示,吸嚐器1的本體單元10係具備有將電源單元21、保持單元22、及抽吸嘴23沿著軸線O(中心軸)延伸之軸向相連接之連接部300。連接部300係具有:連接電源單元21與保持單元22之第一轉動連接部301、以及連接保持單元22與抽吸嘴23之第二轉動連接部302。 As shown in FIG. 18, the body unit 10 of the tasting device 1 is provided with a connecting portion 300 that connects the power supply unit 21, the holding unit 22, and the suction nozzle 23 along the axial direction extending along the axis O (center axis) . The connection part 300 has a first rotation connection part 301 connecting the power supply unit 21 and the holding unit 22 and a second rotation connection part 302 connecting the holding unit 22 and the suction nozzle 23.

以下的說明中,從抽吸嘴23側沿著軸線O觀看電源單元21側之平面視時,將繞軸線O之周方向之中,繞著軸線O順時針轉之方向稱為轉動方向M1,將繞著軸線O逆時針轉之方向稱為轉動方向M2。 In the following description, when the power supply unit 21 side is viewed from the suction nozzle 23 side along the axis O, the direction rotating clockwise around the axis O among the circumferential directions around the axis O is referred to as the rotation direction M1, The direction of turning counterclockwise around the axis O is called the turning direction M2.

第一轉動連接部301係藉由電源單元21與保持單元22之繞著軸線O之相對轉動,而進行電源單元21與保持單元22之連接及解除連接。以電源單元21為基準時,使保持單元22相對於電源單元21朝轉動方向M1轉動,電源單元21與保持單元22就相連接,使保持單元22相對於電源單元21朝轉動方向M2轉動,電源單元21與保持單元22之連接就解除。 The first rotation connection portion 301 is for connecting and disconnecting the power supply unit 21 and the holding unit 22 by relative rotation of the power supply unit 21 and the holding unit 22 about the axis O. When the power supply unit 21 is used as a reference, the holding unit 22 is rotated relative to the power supply unit 21 in the direction of rotation M1, and the power supply unit 21 and the holding unit 22 are connected to rotate the holding unit 22 relative to the power supply unit 21 in the direction of rotation M2. The connection between the unit 21 and the holding unit 22 is released.

第一轉動連接部301係具備有:由上述第9圖所示的第一連結部件81及第二連結部件122所構成之轉動連接機構310、以及由上述第9圖及第10圖所示的環狀片82及第二連結部件122所構成之鎖定機構311。具體而言,轉動連接機構310係如第9圖所示,使設於電源單元21的第一連結部件81之橫卡合凸部102沿軸向插入設於保持單元22的第二連結部件122之卡合溝槽158後,使保持單元22相對於電源單元21朝轉 動方向M1(參照第18圖)轉動,以使橫卡合凸部102卡扣於卡扣片142,而使電源單元21與保持單元22連接。 The first rotation connection portion 301 includes a rotation connection mechanism 310 constituted by the first connection member 81 and the second connection member 122 shown in FIG. 9 above, and the one shown in the above FIGS. 9 and 10 The lock mechanism 311 constituted by the ring-shaped piece 82 and the second coupling member 122. Specifically, as shown in FIG. 9, the rotation connection mechanism 310 inserts the lateral engagement convex portion 102 of the first connection member 81 provided in the power supply unit 21 into the second connection member 122 provided in the holding unit 22 in the axial direction After engaging the groove 158, the holding unit 22 is rotated relative to the power unit 21 The moving direction M1 (refer to FIG. 18) is rotated so that the horizontal engagement convex portion 102 is locked to the locking piece 142, and the power supply unit 21 and the holding unit 22 are connected.

鎖定機構311係限制保持單元22之朝向使該轉動連接機構310所致的連接解除之轉動方向M2的轉動。具體而言,鎖定機構311係如第9圖及第10圖所示,具備有:設於裝接在電源單元21上的環狀片82,朝徑向外側突出之撓曲部106;以及設於保持單元22的第二連結部件122,在卡扣片142相對於卡合凹部155的底部相對地朝徑向內側突出之前端部142a。卡扣片142的前端部142a係位於繞著軸線O之撓曲部106的移動路徑上。 The lock mechanism 311 restricts the rotation of the holding unit 22 in the rotation direction M2 that releases the connection caused by the rotation connection mechanism 310. Specifically, as shown in FIGS. 9 and 10, the locking mechanism 311 is provided with: a ring-shaped piece 82 attached to the power supply unit 21, and a flexure 106 protruding outward in the radial direction; The second coupling member 122 of the holding unit 22 has a front end portion 142 a that protrudes radially inward relative to the bottom of the engaging recess 155 relative to the bottom of the engaging recess 155. The front end portion 142 a of the locking piece 142 is located on the movement path of the flexure 106 around the axis O.

在轉動連接機構310連接之際(使保持單元22相對於電源單元21朝轉動方向M1轉動之際),撓曲部106與卡扣片142的前端部142a接觸,撓曲部106朝徑向內側彈性變形而越過前端部142a。撓曲部106越過前端部142a後,朝徑向外側回彈變形而卡合於卡合凹部155。撓曲部106卡合於卡合凹部155時,撓曲部106就與卡扣片142的前端部142a在轉動方向M1相向而卡住。因此,沒有施加某程度的力就無法解除電源單元21與保持單元22之連接。 When the rotation connection mechanism 310 is connected (when the holding unit 22 is rotated in the rotation direction M1 relative to the power supply unit 21), the flexure 106 contacts the front end 142a of the catch piece 142, and the flexure 106 is directed radially inward It elastically deforms and passes over the tip portion 142a. After passing through the front end portion 142a, the flexure 106 rebounds and deforms radially outward and engages with the engagement recess 155. When the flexure 106 is engaged with the engagement recess 155, the flexure 106 is opposed to the front end 142 a of the locking piece 142 in the rotation direction M1 and is caught. Therefore, the connection between the power supply unit 21 and the holding unit 22 cannot be released without applying a certain level of force.

根據第一轉動連接部301,為了提高製造效率等,而如本實施形態,即使在電源單元21與保持單元22為可分割之情況,也可謀求藉由轉動連接機構310使電源單元21與保持單元22之連接容易化,以及謀求藉由鎖定機構311使電源單元21與保持單元22之連接狀態的可靠性(連接強度)提高。而且,在利用轉動連接機構310進行連接的同時,也進行鎖定機構311之鎖定,所以可使組裝的便利性(usability)提高。 According to the first rotary connection portion 301, in order to improve manufacturing efficiency and the like, as in the present embodiment, even when the power supply unit 21 and the holding unit 22 are separable, it is possible to achieve the power supply unit 21 and the holding by the rotary connection mechanism 310 The connection of the unit 22 is facilitated, and the reliability (connection strength) of the connection state of the power supply unit 21 and the holding unit 22 is improved by the lock mechanism 311. In addition, the connection by the rotation connection mechanism 310 and the locking by the locking mechanism 311 are also performed, so that the usability of assembly can be improved.

鎖定機構311中,如第10圖所示,彈性變形之撓曲部106係配置於材料層比環狀片82厚的剛性較高的卡扣片142的徑向內側。因此,在電源單元21與保持單元22相連接的狀態下,撓曲部106係由卡扣片142從外部加以覆蓋及保護。因而,就算萬一有摔落、撞擊等,撓曲部106受到損傷之情形也會減少。因此,可確保對於重複組裝使用的強度,也提高鎖定的可靠性。 In the lock mechanism 311, as shown in FIG. 10, the elastically deformed flexure 106 is disposed radially inward of the buckle piece 142 having a material layer thicker than the ring piece 82 and having a higher rigidity. Therefore, in a state where the power supply unit 21 and the holding unit 22 are connected, the flexure 106 is covered and protected from the outside by the latching piece 142. Therefore, even if there is a drop, impact, etc., the flexure 106 is less likely to be damaged. Therefore, the strength for repeated assembly use can be ensured, and the reliability of locking can also be improved.

撓曲部106所卡合的卡扣片142係如第9圖所示,形成有供轉動連接機構310的橫卡合凸部102卡合之卡合溝槽158。因此,卡扣片142不僅形成轉動連接機構310的一部分(卡合溝槽158),也形成鎖定機構311的一部分(前端部142a(凸部)),所以可較容易提高連接狀態的可靠性(連接強度)。 As shown in FIG. 9, the engaging piece 142 engaged by the flexure 106 is formed with an engaging groove 158 for engaging the lateral engaging convex portion 102 of the rotation connection mechanism 310. Therefore, the latching piece 142 not only forms a part of the rotation connection mechanism 310 (engagement groove 158), but also forms a part of the lock mechanism 311 (front end portion 142a (convex portion)), so it is easier to improve the reliability of the connection state ( Connection strength).

如第18圖所示,第二轉動連接部302係藉由保持單元22與抽吸嘴23之繞著軸線O的相對轉動,而進行保持單元22與抽吸嘴23之連接及解除連接。以保持單元22為基準時,使抽吸嘴23相對於保持單元22朝轉動方向M1轉動,保持單元22與抽吸嘴23就相連接。另外,使抽吸嘴23相對於保持單元22朝轉動方向M2轉動,保持單元22與抽吸嘴23之連接就解除。 As shown in FIG. 18, the second rotation connection portion 302 connects and disconnects the holding unit 22 and the suction nozzle 23 by relative rotation of the holding unit 22 and the suction nozzle 23 about the axis O. When the holding unit 22 is used as a reference, the suction nozzle 23 is rotated in the rotation direction M1 relative to the holding unit 22, and the holding unit 22 and the suction nozzle 23 are connected. In addition, the suction nozzle 23 is rotated in the rotation direction M2 relative to the holding unit 22, and the connection between the holding unit 22 and the suction nozzle 23 is released.

第二轉動連接部302係如上述第11圖所示,具備有:設於抽吸嘴23之公螺牙部160a、以及設於保持單元22之母螺牙部123a。具體而言,第二轉動連接部302係藉由使設於抽吸嘴23之公螺牙部160a相對於設於保持單元22之母螺牙部123a朝轉動方向M1轉動,而使保持單元22與抽吸嘴23連接。並且,藉由使設於抽吸嘴23之公螺牙部160a相 對於設於保持單元22之母螺牙部123a朝轉動方向M2轉動,而使保持單元22與抽吸嘴23之連接解除。 As shown in FIG. 11 above, the second rotary connection portion 302 includes a male screw portion 160a provided in the suction nozzle 23 and a female screw portion 123a provided in the holding unit 22. Specifically, the second rotation connecting portion 302 rotates the male screw portion 160a provided in the suction nozzle 23 with respect to the female screw portion 123a provided in the holding unit 22 in the direction of rotation M1 to rotate the holding unit 22 It is connected to the suction nozzle 23. Moreover, by making the male screw portion 160a provided in the suction nozzle 23 phase The female screw portion 123a provided in the holding unit 22 is rotated in the direction of rotation M2, so that the connection between the holding unit 22 and the suction nozzle 23 is released.

如第18圖所示,轉動方向M1不僅是相對於電源單元21之保持單元22的連接方向,也是相對於保持單元22之抽吸嘴23的連接方向。另外,轉動方向M2不僅是相對於電源單元21之保持單元22的解除連接方向,也是相對於保持單元22之抽吸嘴23的解除連接方向。如此,第一轉動連接部301及第二轉動連接部302中,繞著軸線O之連接及解除連接的轉動方向係一致。因而可給予使用者單元組裝作業的統一感,並且使便利性(usability)提高。 As shown in FIG. 18, the rotation direction M1 is not only the connection direction with respect to the holding unit 22 of the power supply unit 21 but also the connection direction with respect to the suction nozzle 23 of the holding unit 22. In addition, the rotation direction M2 is not only the direction of disconnection relative to the holding unit 22 of the power supply unit 21 but also the direction of disconnection relative to the suction nozzle 23 of the holding unit 22. In this way, in the first rotation connection portion 301 and the second rotation connection portion 302, the rotation directions of the connection and disconnection around the axis O are the same. Therefore, it is possible to give the user a sense of unity in assembling the unit and improve the usability.

為了匣體11之更換等而使抽吸嘴23與保持單元22之連接解除的頻率,係比使電源單元21與保持單元22之連接解除的頻率高。本實施形態係設計成:第一轉動連接部301中,繞著軸線O施加第一轉矩301T來解除電源單元21與保持單元22之連接,第二轉動連接部302中,施加比第一轉矩301T小的第二轉矩302T來解除保持單元22與抽吸嘴23之連接。因此,可防止要將抽吸嘴23從保持單元22拆下時也帶動保持單元22與電源單元21一併轉動之情形。 The frequency of releasing the connection between the suction nozzle 23 and the holding unit 22 for replacement of the cartridge 11 is higher than the frequency of releasing the connection between the power supply unit 21 and the holding unit 22. The present embodiment is designed such that: in the first rotation connection portion 301, a first torque 301T is applied around the axis O to release the connection between the power supply unit 21 and the holding unit 22, and in the second rotation connection portion 302, the first rotation is applied The second torque 302T with a smaller moment 301T releases the connection between the holding unit 22 and the suction nozzle 23. Therefore, it is possible to prevent the holding nozzle 22 from rotating together with the power supply unit 21 when the suction nozzle 23 is detached from the holding unit 22.

第一轉矩301T係相對於電源單元21朝轉動方向M2轉動保持單元22時的轉矩值的峰值,與對應於第9圖及第10圖所示的撓曲部106的徑向的彈性變形之彈性係數等有關。第二轉矩302T係相對於保持單元22朝轉動方向M2轉動抽吸嘴23時的轉矩值的峰值,與第11圖所示的公螺牙部160a與母螺牙部123a的靜摩擦力等有關。另外,第一轉矩301T可為第二轉矩302T的例如1.5倍以上。 The first torque 301T is the peak value of the torque value when the power supply unit 21 rotates the holding unit 22 in the direction of rotation M2, and corresponds to the radial elastic deformation of the flexure 106 shown in FIGS. 9 and 10 The elastic coefficient is related. The second torque 302T is the peak value of the torque value when the suction nozzle 23 is rotated in the rotation direction M2 with respect to the holding unit 22, and the static friction force between the male screw portion 160a and the female screw portion 123a shown in FIG. related. In addition, the first torque 301T may be, for example, 1.5 times or more the second torque 302T.

第一轉動連接部301與第二轉動連接部302因為連接構造不同,所以第一轉矩301T與第二轉矩302T的大小關係的調整容易。例如,進行形成第一轉動連接部301的鎖定機構311之撓曲部106(環狀片82)的材料的選擇、厚度的調整時,就可變更對應於撓曲部106的徑向的彈性變形之彈性係數,而可容易地調整相對於第二轉矩302T之第一轉矩301T的大小。 Since the first rotating connection portion 301 and the second rotating connection portion 302 have different connection structures, it is easy to adjust the magnitude relationship between the first torque 301T and the second torque 302T. For example, the elastic deformation corresponding to the radial direction of the flexure 106 can be changed when the material of the flexure 106 (ring-shaped piece 82) of the lock mechanism 311 forming the first rotary connection 301 is selected and the thickness is adjusted. The coefficient of elasticity can easily adjust the magnitude of the first torque 301T relative to the second torque 302T.

第19圖係從吸嚐器1拆掉抽吸嘴23時之沿著軸向的斷面圖。 FIG. 19 is a cross-sectional view along the axial direction when the suction nozzle 23 is removed from the taste absorber 1.

如第19圖所示,吸嚐器1中,從本體單元10拆掉抽吸嘴23,就可沿軸向進行匣體11的裝拆。將從本體單元10拆掉抽吸嘴23後的部分稱為匣體收容部320。亦即,匣體收容部320係包含保持單元22及電源單元21。 As shown in FIG. 19, in the taster 1, the suction nozzle 23 is detached from the body unit 10, and the cartridge body 11 can be attached and detached in the axial direction. The portion where the suction nozzle 23 is detached from the main body unit 10 is referred to as a cassette housing portion 320. That is, the box housing portion 320 includes the holding unit 22 and the power supply unit 21.

匣體收容部320係形成有底筒狀的匣體收容空間321。形成匣體收容空間321之匣體收容部320的周壁,係由保持單元22所形成。另外,形成匣體收容空間321之匣體收容部320的底部係由電源單元21所形成。亦即,匣體收容部320的周壁(保持單元22)係可相對於匣體收容部320的底部(電源單元21)而裝拆。 The box housing portion 320 is formed with a bottomed box housing space 321. The peripheral wall of the box storage portion 320 forming the box storage space 321 is formed by the holding unit 22. In addition, the bottom of the box storage portion 320 forming the box storage space 321 is formed by the power supply unit 21. That is, the peripheral wall (holding unit 22) of the box storage portion 320 can be detachable with respect to the bottom of the box storage portion 320 (power supply unit 21 ).

匣體收容部320的底部係沿軸向立設有設於上述第一連結部件81之縱卡合凸部101(第19圖以後的各圖中將縱卡合凸部101a~101c的符號標為101)。縱卡合凸部101係配置成可對於設在匣體11之卡合凹部210沿軸向插入。亦即,縱卡合凸部101與卡合凹部210係配置於以軸線O為中心之同一半徑上。縱卡合凸部101及卡合凹部210係形成限 制匣體11相對於匣體收容部320(匣體收容空間321)之繞著軸線O的相對轉動之第一轉動限制部330。 The bottom of the cassette housing portion 320 is provided with a vertical engagement convex portion 101 provided on the first coupling member 81 in the axial direction (the symbols of the vertical engagement convex portions 101a to 101c are shown in the figures after FIG. 19 and after For 101). The longitudinal engagement convex portion 101 is arranged so as to be able to be inserted into the engagement concave portion 210 provided in the casing 11 in the axial direction. That is, the longitudinal engagement convex portion 101 and the engagement concave portion 210 are arranged on the same radius with the axis O as the center. The longitudinal engagement convex portion 101 and the engagement concave portion 210 form a limit The first rotation restricting portion 330 of the casing 11 relative to the rotation of the casing accommodating portion 320 (casing accommodating space 321) about the axis O is relatively rotated.

第一轉動限制部330中,匣體11及匣體收容部320繞著軸線O相對轉動時,設於同一半徑上之縱卡合凸部101係插入卡合凹部210,進行匣體11之繞軸線O轉動之限制。藉此,使匣體11的周方向的位置定位,確保匣體11的底部196e的連接電極部213b、214b(參照第10圖)與電源單元21的頂針電極49之電性導通。 In the first rotation restricting portion 330, when the casing 11 and the casing accommodating portion 320 relatively rotate about the axis O, the longitudinal engagement convex portion 101 provided on the same radius is inserted into the engagement concave portion 210 to perform the winding of the casing 11 Limitation of axis O rotation. As a result, the circumferential position of the casing 11 is positioned to ensure electrical connection between the connecting electrode portions 213b and 214b (see FIG. 10) of the bottom portion 196e of the casing 11 and the thimble electrode 49 of the power supply unit 21.

第一轉動限制部330係與抽吸嘴23一起形成定位機構340,該定位機構340係與抽吸嘴23之相對於匣體收容部320(保持單元22)的螺接連動,使匣體11相對於匣體收容部320定位。根據此定位機構340,匣體11的定位可與抽吸嘴23之相對於匣體收容部320之螺接同時進行。因此,可相對於匣體收容部320裝拆之匣體11的定位變得容易,兒消除組裝的繁雜度。此外,無需直接用手轉匣體11。 The first rotation restricting portion 330 forms a positioning mechanism 340 together with the suction nozzle 23, and the positioning mechanism 340 is screwed with the suction nozzle 23 relative to the cassette housing portion 320 (holding unit 22) to make the cassette 11 It is positioned relative to the cassette housing 320. According to this positioning mechanism 340, the positioning of the casing 11 can be performed simultaneously with the screwing of the suction nozzle 23 with respect to the casing accommodating portion 320. Therefore, the positioning of the cartridge 11 that can be attached to and detached from the cartridge housing portion 320 becomes easy, and the complexity of assembly is eliminated. In addition, there is no need to directly turn the cassette body 11 by hand.

具體而言,抽吸嘴23係具備有使匣體11相對於匣體收容部320繞著軸線O轉動之上述第一止滑部件(匣體抵接部)161。第一止滑部件161係安裝於抽吸嘴本體160,在抽吸嘴本體160連接至保持單元22途中抵接於匣體11。第一止滑部件161抵接於匣體11時,匣體11就開始與抽吸嘴23一起轉動,在卡合凹部210與縱卡合凸部101之周方向的位置一致之時點,匣體11就會因重力而向匣體收容部320的底部側陷落,使得縱卡合凸部101插入卡合凹部210而進行匣體11的周方向的定位。 Specifically, the suction nozzle 23 is provided with the above-mentioned first anti-slip member (cassette contact portion) 161 that rotates the cassette 11 about the axis O with respect to the cassette housing portion 320. The first anti-slip member 161 is attached to the suction nozzle body 160 and abuts against the cartridge 11 while the suction nozzle body 160 is connected to the holding unit 22. When the first anti-slip member 161 abuts on the cassette body 11, the cassette body 11 starts to rotate together with the suction nozzle 23, and when the circumferential positions of the engaging concave portion 210 and the vertical engaging convex portion 101 coincide, the cassette body 11 will sink to the bottom side of the case accommodating portion 320 due to gravity, so that the vertical engagement convex portion 101 is inserted into the engagement concave portion 210 to position the case 11 in the circumferential direction.

另外,將抽吸嘴23鎖入時,第一止滑部件161係在支持於電源單元21(縱卡合凸部101等)之匣體11與抽吸嘴本體160之間沿軸向 被壓縮。第一止滑部件161係如第11圖所示,在抽吸嘴23螺接於保持單元22之狀態下,將匣體11往電源單元21按壓。藉此,進行匣體11之軸向的定位。 In addition, when the suction nozzle 23 is locked, the first anti-slip member 161 is axially between the casing 11 and the suction nozzle body 160 supported by the power supply unit 21 (vertical engagement convex portion 101, etc.) Be compressed. As shown in FIG. 11, the first anti-slip member 161 presses the cartridge 11 toward the power supply unit 21 with the suction nozzle 23 screwed to the holding unit 22. With this, the axial positioning of the casing 11 is performed.

第一止滑部件161係如上所述,由矽樹脂所形成,因此容易產生使匣體11沿周方向轉動的摩擦力,以及產生沿軸向按壓匣體11之按壓力。另外,如第19圖所示,第一止滑部件161係在與匣體11相向之相向面161a形成有抵接突起171。藉由抵接突起171,使得第一止滑部件161與匣體11之接觸並非面接觸,所以接觸壓增大,會更容易產生周方向之摩擦力及軸向之按壓力。 The first anti-slip member 161 is formed of silicone resin as described above, so it is easy to generate a frictional force that rotates the casing 11 in the circumferential direction and a pressing force that presses the casing 11 in the axial direction. In addition, as shown in FIG. 19, the first anti-slip member 161 is formed with an abutment protrusion 171 on the facing surface 161 a facing the case 11. By contacting the protrusion 171, the contact between the first anti-slip member 161 and the case 11 is not in surface contact, so if the contact pressure increases, it will be easier to generate circumferential frictional force and axial pressing force.

又,如第11圖所示,沿軸向將抵接突起171壓扁時,會氣密地密封匣體11的貫通孔191d與第一止滑部件161的連通孔169a之間的間隙,匣體11與抽吸嘴23之流路相連通,而可通過抽吸嘴23抽吸匣體11中產生的霧氣。抵接突起171因為形成為雙重環狀(參照第12圖),所以可形成氣密性高的雙重密封。 Also, as shown in FIG. 11, when the contact protrusion 171 is crushed in the axial direction, the gap between the through hole 191d of the case 11 and the communication hole 169a of the first anti-slip member 161 is hermetically sealed. The body 11 communicates with the flow path of the suction nozzle 23, and the mist generated in the cartridge 11 can be sucked through the suction nozzle 23. Since the contact protrusion 171 is formed in a double ring shape (see FIG. 12), a double seal with high airtightness can be formed.

抽吸嘴23係如第19圖所示,具備有限制第一止滑部件161相對於抽吸嘴本體160的相對轉動之第二轉動限制部350。第二轉動限制部350係由設於第一止滑部件161之嵌合突起170(參照第12圖)、以及設於抽吸嘴本體160之長形的貫通孔168(參照第12圖)所形成。嵌合突起170係沿軸向朝向抽吸嘴本體160延伸一對且嵌合到貫通孔168的長邊方向兩端部。 As shown in FIG. 19, the suction nozzle 23 is provided with a second rotation restricting portion 350 that restricts the relative rotation of the first anti-slip member 161 relative to the suction nozzle body 160. The second rotation restricting portion 350 is formed by the fitting protrusion 170 (refer to FIG. 12) provided at the first anti-slip member 161 and the elongated through hole 168 (refer to FIG. 12) provided at the suction nozzle body 160 form. The fitting protrusions 170 extend a pair in the axial direction toward the suction nozzle body 160 and are fitted to both ends of the through hole 168 in the longitudinal direction.

根據第二轉動限制部350,就算有凝結的霧氣停留在抽吸嘴本體160與第一止滑部件161之間,也可防止相對於抽吸嘴本體160之第 一止滑部件161的空轉(滑動)。因此,可確實地進行匣體11之周方向的定位。另外,可將貫通孔168形成為長孔,且與吸引口23a一體化。 According to the second rotation restricting portion 350, even if condensed mist stays between the suction nozzle body 160 and the first anti-slip member 161, it can prevent An anti-slip member 161 is idling (sliding). Therefore, the positioning of the casing 11 in the circumferential direction can be surely performed. In addition, the through hole 168 may be formed as a long hole and integrated with the suction port 23a.

〔作用〕 〔effect〕

<吸嚐器的組裝方法> <Assembly method of sucker>

接著,針對上述吸嚐器1的組裝方法進行說明。 Next, a method of assembling the above-mentioned taste absorber 1 will be described.

如第2圖所示,要組裝本實施形態的吸嚐器1時,首先將保持單元22組裝至電源單元21。具體而言,在將橫卡合凸部102沿著軸向插入卡合溝槽158內後,使電源單元21與保持單元22以軸線O為中心相對地轉動。如此一來,電源單元21及保持單元22係以軸向及周方向在上述第一轉動連接部301定位之狀態下相組合。另外,要將電源單元21與保持單元22分解開來之際,係進行與上述動作相反之動作。 As shown in FIG. 2, when assembling the taste absorber 1 of this embodiment, first, the holding unit 22 is assembled to the power supply unit 21. Specifically, after inserting the lateral engagement convex portion 102 into the engagement groove 158 in the axial direction, the power supply unit 21 and the holding unit 22 are relatively rotated about the axis O. In this way, the power supply unit 21 and the holding unit 22 are combined in the axial and circumferential directions with the first rotary connection portion 301 positioned. In addition, when the power supply unit 21 and the holding unit 22 are disassembled, an operation opposite to the above operation is performed.

接著,將匣體11插入保持單元22內。具體而言,係在匣體11的連接電極部213b、214b朝軸向的保持單元22側之狀態下,將匣體11插入保持單元22內。在電源單元21的縱卡合凸部101a~101c與匣體11的卡合凹部210的周方向位置一致之情況下,各縱卡合凸部101a~101c係插入對應的卡合凹部210內。卡合凹部210係形成有斜角部210a,另一方面,縱卡合凸部101a~101c的前端係形成有傾斜面。因此可順利地將縱卡合凸部101a~101c插入卡合凹部210。藉此,進行相對於電源單元21之匣體11的周方向及軸向的定位,將匣體11安裝到電源單元21的正規的位置。 Next, the cartridge 11 is inserted into the holding unit 22. Specifically, the case 11 is inserted into the holding unit 22 with the connection electrode portions 213b and 214b of the case 11 facing the holding unit 22 side in the axial direction. When the longitudinal engagement convex portions 101 a to 101 c of the power supply unit 21 and the circumferential position of the engagement concave portion 210 of the case 11 coincide, the respective longitudinal engagement convex portions 101 a to 101 c are inserted into the corresponding engagement concave portions 210. The engaging concave portion 210 is formed with a beveled portion 210a, and on the other hand, the front end of the vertical engaging convex portions 101a to 101c is formed with an inclined surface. Therefore, the vertical engagement convex portions 101a to 101c can be smoothly inserted into the engagement concave portion 210. Thereby, the circumferential direction and the axial direction of the casing 11 of the power supply unit 21 are positioned, and the casing 11 is attached to the regular position of the power supply unit 21.

亦即,電源單元21的頂針電極49之中的一個頂針電極49與匣體11的連接電極部213b、214b之中的一方的連接電極部213b,214b 連接,另一個頂針電極49與匣體11的連接電極部213b、214b之中的另一方的連接電極部213b、214b連接。電源單元21的電力可透過該等連接電極部213b、214b(電極213、214)供給到加熱部194的電熱線205。另外,匣體11的底部196e抵接於圍繞凸部93而藉由匣體11與連接蓋80區隔出緩衝空間S3。 That is, one of the thimble electrodes 49 of the power supply unit 21 and one of the connection electrode portions 213b and 214b of the casing 11 are connected to the connection electrode portions 213b and 214b In connection, the other thimble electrode 49 is connected to the other one of the connection electrode portions 213b and 214b of the casing 11. The power of the power supply unit 21 can be supplied to the heating wire 205 of the heating unit 194 through the connection electrode portions 213b, 214b (electrodes 213, 214). In addition, the bottom portion 196e of the casing 11 abuts on the surrounding convex portion 93 to partition the buffer space S3 by the casing 11 and the connection cover 80.

接著,利用上述第二轉動連接部302將抽吸嘴23組裝到保持單元22。具體而言,將抽吸嘴本體160的公螺牙部160a鎖到套筒123的母螺牙部123a。如此一來,抽吸嘴23的第一止滑部件161係與匣體11的底部191c接觸。此狀態下,進一步將抽吸嘴23鎖緊時,第一止滑部件161係彈性變形,將匣體11朝軸向的電源單元21側按壓,以此狀態將匣體11保持在保持單元22內。而且,匣體11係由縱卡合凸部101a~101c限制相對於電源單元21之周方向的移動。因此,成為藉由作用於第一止滑部件161與匣體11之間之摩擦力使得匣體11不會隨著抽吸嘴23一起轉動之構成。 Next, the suction nozzle 23 is assembled to the holding unit 22 using the above-mentioned second rotating connection portion 302. Specifically, the male screw portion 160a of the suction nozzle body 160 is locked to the female screw portion 123a of the sleeve 123. In this way, the first anti-slip member 161 of the suction nozzle 23 is in contact with the bottom 191c of the casing 11. In this state, when the suction nozzle 23 is further locked, the first anti-slip member 161 is elastically deformed, pressing the cartridge 11 toward the power supply unit 21 side in the axial direction, and holding the cartridge 11 in the holding unit 22 in this state Inside. In addition, the case 11 is restricted from moving in the circumferential direction with respect to the power supply unit 21 by the vertical engagement convex portions 101 a to 101 c. Therefore, the frictional force acting between the first anti-slip member 161 and the casing 11 prevents the casing 11 from rotating together with the suction nozzle 23.

接著,將菸草膠囊12插入抽吸嘴23。具體而言,係以網格開口朝向抽吸嘴23之狀態,使菸草膠囊12嵌合到抽吸嘴本體160內。 Next, the tobacco capsule 12 is inserted into the suction nozzle 23. Specifically, the tobacco capsule 12 is fitted into the suction nozzle body 160 with the mesh opening facing the suction nozzle 23.

至此,吸嚐器1的組裝完成。 At this point, the assembly of the taste absorber 1 is completed.

另外,在上述匣體11的插入時,伴隨匣體11之周方向的方向,會有電源單元21的縱卡合凸部101a~101c與匣體11的卡合凹部210的周方向位置並不一致之情況。此情況下,成為匣體11的底部196e疊置於縱卡合凸部101a~101c之上之狀態(以下簡稱為「疊置狀態」)。 In addition, when the case 11 is inserted, along with the circumferential direction of the case 11, the circumferential engagement positions 101 a to 101 c of the power supply unit 21 and the circumferential position of the engagement recess 210 of the case 11 do not match. Situation. In this case, the bottom 196e of the case 11 is superposed on the vertical engagement convex portions 101a to 101c (hereinafter referred to simply as "stacked state").

第20圖係顯示匣體11疊置於縱卡合凸部101之上的狀態之說明圖。 FIG. 20 is an explanatory diagram showing a state where the cassette body 11 is stacked on the vertical engagement convex portion 101. FIG.

如第20圖所示,匣體11的疊置狀態下,會限制匣體11之相對於電源單元21之朝軸向的電源單元21側之移動。因此,頂針電極49與連接電極部213b、214b係軸向分離而無法確保電源單元21與匣體11之導通。疊置狀態下,就算是頂針電極49與連接電極部213b、214b有接觸到之情況,也有頂針電極49與連接電極部213b、214b並不是配置在希望的周方向位置之可能性。 As shown in FIG. 20, the stacked state of the casing 11 restricts the movement of the casing 11 relative to the power supply unit 21 in the axial direction of the power supply unit 21 side. Therefore, the thimble electrode 49 and the connection electrode portions 213b and 214b are axially separated, and the conduction between the power supply unit 21 and the casing 11 cannot be ensured. In the stacked state, even if the thimble electrode 49 is in contact with the connection electrode portions 213b and 214b, there is a possibility that the thimble electrode 49 and the connection electrode portions 213b and 214b are not arranged at a desired circumferential position.

第21圖係顯示在匣體11的疊置狀態下,將抽吸嘴23鎖上的樣子之說明圖。 FIG. 21 is an explanatory diagram showing how the suction nozzle 23 is locked when the cassette 11 is stacked.

如第21圖所示,在匣體11的疊置狀態下,旋轉抽吸嘴23鎖到保持單元22時,如後述第22圖所示,至少在鎖緊之前,第一止滑部件161就會抵接於匣體11。具體而言,如第21圖所示,當抽吸嘴23的公螺牙部160a鎖上保持單元22的母螺牙部123a的瞬間,第一止滑部件161尚未抵接於匣體11,但如第22圖所示,當公螺牙部160a鎖上母螺牙部123a轉半圈到轉1、2圈左右時,第一止滑部件161就會抵接到匣體11。 As shown in FIG. 21, when the rotating suction nozzle 23 is locked to the holding unit 22 in the stacked state of the case 11, as shown in FIG. 22 described later, at least before the locking, the first anti-slip member 161 is Would be in contact with the box 11. Specifically, as shown in FIG. 21, when the male screw portion 160a of the suction nozzle 23 locks the female screw portion 123a of the holding unit 22, the first anti-slip member 161 has not yet contacted the case 11, However, as shown in FIG. 22, when the male screw portion 160a locks the female screw portion 123a half a turn to about one or two turns, the first anti-slip member 161 abuts the case 11.

第22圖係顯示抽吸嘴23與匣體11一起轉動的樣子之說明圖。 FIG. 22 is an explanatory diagram showing how the suction nozzle 23 and the casing 11 rotate together.

如第22圖所示,第一止滑部件161抵接到匣體11之狀態下,繼續進行抽吸嘴23的鎖接操作時,就會因為作用於第一止滑部件161與匣體11之間之摩擦力,使得抽吸嘴23與匣體11一起轉動。亦即,藉由抽吸嘴23 的鎖接操作,匣體11係被朝軸向的電源單元21側推壓,並且沿周方向(鎖緊方向(轉動方向M1))轉動。 As shown in FIG. 22, when the first anti-slip member 161 is in contact with the case 11, when the locking operation of the suction nozzle 23 is continued, it will act on the first anti-slip member 161 and the case 11. The frictional force between them causes the suction nozzle 23 to rotate together with the casing 11. That is, with the suction nozzle 23 For the locking operation, the casing 11 is pushed toward the power supply unit 21 side in the axial direction, and rotates in the circumferential direction (locking direction (rotation direction M1)).

然後,當匣體11的卡合凹部210與電源單元21的縱卡合凸部101a~101c之周方向位置變為一致時,縱卡合凸部101a~101c就會進入對應的卡合凹部210內。亦即,允許匣體11相對於電源單元21之軸向的移動,使得匣體11組裝到正規的位置。因此,成為在匣體11相對於電源單元21之周方向的移動受到限制之狀態下,頂針電極49與連接電極部213b、214b相接觸(導通)。 Then, when the circumferential positions of the engagement recesses 210 of the case 11 and the longitudinal engagement protrusions 101a to 101c of the power supply unit 21 become coincident, the longitudinal engagement protrusions 101a to 101c enter the corresponding engagement recesses 210 Inside. That is, the axial movement of the cartridge 11 relative to the power supply unit 21 is allowed, so that the cartridge 11 is assembled to a regular position. Therefore, in a state where the movement of the casing 11 relative to the power supply unit 21 in the circumferential direction is restricted, the thimble electrode 49 is in contact (conduction) with the connection electrode portions 213b and 214b.

第23圖係顯示將抽吸嘴23鎖到最後的樣子之說明圖。 FIG. 23 is an explanatory diagram showing how the suction nozzle 23 is locked to the end.

如第23圖所示,由於縱卡合凸部101與卡合凹部210之周方向的定位而允許匣體11的軸向的移動時,就可進一步將抽吸嘴23鎖入。將抽吸嘴23鎖到最後時,連接電極部213b、214b就會頂壓頂針電極49,同時第一止滑部件161係在支持於電源單元21之匣體11與抽吸嘴本體160之間沿軸向被壓縮,使匣體11軸向定位。因此,藉由抽吸嘴23之鎖接,可進行匣體11之周方向及軸向之定位,以及可進行匣體11與電源單元21的電性導通。此外,由於第一止滑部件161的抵接突起171沿軸向被壓縮,可密封匣體11與抽吸嘴23的間隙。 As shown in FIG. 23, when the circumferential positioning of the vertical engaging convex portion 101 and the engaging concave portion 210 allows the axial movement of the cassette 11, the suction nozzle 23 can be further locked. When the suction nozzle 23 is locked to the end, the connecting electrode portions 213b and 214b will press against the ejector pin electrode 49, and at the same time, the first anti-slip member 161 is between the casing 11 supported by the power supply unit 21 and the suction nozzle body 160 Compressed in the axial direction, the cartridge body 11 is positioned in the axial direction. Therefore, by locking the suction nozzle 23, positioning of the casing 11 in the circumferential direction and the axial direction, and electrical conduction between the casing 11 and the power supply unit 21 can be performed. In addition, since the abutment protrusion 171 of the first anti-slip member 161 is compressed in the axial direction, the gap between the casing 11 and the suction nozzle 23 can be sealed.

又,如上所述,將匣體11組裝到正規的位置時,連接蓋80的圍繞凸部93係抵接於該匣體11。因而在匣體11的加熱器支架196的底部196e與連接蓋80之間,形成被圍繞凸部93圍繞周圍之緩衝空間S3(參照第3圖)。 In addition, as described above, when the case 11 is assembled to a regular position, the surrounding convex portion 93 of the connection cover 80 is in contact with the case 11. Therefore, a buffer space S3 (see FIG. 3) surrounded by the surrounding convex portion 93 is formed between the bottom 196 e of the heater bracket 196 of the cartridge 11 and the connection cover 80.

<匣體的組裝方法> <Assembly method of case>

接著,針對上述匣體11的組裝方法進行說明。 Next, a method of assembling the above-mentioned case 11 will be described.

首先,將液體的霧氣源充填到儲槽191的液體收容室202,然後,從儲槽191的開口部191a依序裝入墊圈192、多孔體193。此時,使墊圈192的一面192b抵接於儲槽191的凸部201的端面201a。並且,使多孔體193的一面193b與墊圈192的另一面192d重疊。因此,藉由多孔體193將儲槽191內的空間剛好區隔成液體收容室202及開口室203。多孔體193本身雖然柔軟,但可藉由墊圈192進行其姿勢之保持以及定位。 First, the liquid mist chamber 202 of the storage tank 191 is filled with a mist source of liquid, and then the gasket 192 and the porous body 193 are sequentially loaded from the opening 191 a of the storage tank 191. At this time, the one surface 192b of the washer 192 is brought into contact with the end surface 201a of the convex portion 201 of the reservoir 191. Then, one side 193b of the porous body 193 overlaps the other side 192d of the gasket 192. Therefore, the space in the storage tank 191 is just divided into the liquid storage chamber 202 and the opening chamber 203 by the porous body 193. Although the porous body 193 itself is soft, the posture can be maintained and positioned by the washer 192.

另外,與上述製程並行地將加熱部194及霧化容器195組裝到加熱器支架196。具體而言,首先將加熱部194組裝到霧化容器195的收納凹部220。接著,使霧化容器195的嵌合部218側朝向加熱器支架196的開口部196a,而將霧化容器195插入加熱器支架196。然後,使嵌合部218嵌合於加熱器支架196的周壁196b的內周面。此時,使加熱器支架196的連接壁211與嵌合部218的狹縫225的方向對齊,而使連接壁211入插狹縫225。 In addition, in parallel with the above process, the heating unit 194 and the atomizing container 195 are assembled to the heater holder 196. Specifically, first, the heating portion 194 is assembled into the storage recess 220 of the atomizing container 195. Next, the fitting portion 218 side of the atomizing container 195 is directed toward the opening 196 a of the heater holder 196, and the atomizing container 195 is inserted into the heater holder 196. Then, the fitting portion 218 is fitted to the inner peripheral surface of the peripheral wall 196b of the heater holder 196. At this time, the connection wall 211 of the heater holder 196 is aligned with the direction of the slit 225 of the fitting portion 218, and the connection wall 211 is inserted into the insertion slit 225.

接著,將加熱器支架196安裝至儲槽191的開口部191a。具體而言,使加熱器支架196的卡合片206側相向於儲槽191的開口部191a側,而將加熱器支架196插入儲槽191的開口部191a。此時,也對齊形成於儲槽191的周壁191b之卡合孔198及導引凹部198a與加熱器支架196的卡合片206的位置。 Next, the heater bracket 196 is attached to the opening 191a of the storage tank 191. Specifically, the engaging piece 206 side of the heater bracket 196 is opposed to the opening 191a side of the reservoir 191, and the heater bracket 196 is inserted into the opening 191a of the reservoir 191. At this time, the positions of the engaging holes 198 and the guide recess 198a formed in the peripheral wall 191b of the storage tank 191 and the engaging piece 206 of the heater holder 196 are also aligned.

在此狀態將加熱器支架196插入儲槽191的開口部191a時,首先,形成於卡合片206的卡合爪207之傾斜面207a係抵接於儲槽191的周壁 191b。藉由該傾斜面207a,卡合爪207係滑順地抵接到儲槽191的導引凹部198a。 When the heater holder 196 is inserted into the opening 191a of the tank 191 in this state, first, the inclined surface 207a of the engaging claw 207 formed in the engaging piece 206 abuts against the peripheral wall of the tank 191 191b. With the inclined surface 207a, the engaging claw 207 smoothly abuts on the guide recess 198a of the reservoir 191.

然後,進一步將加熱器支架196壓入儲槽191內時,卡合爪207就進入導引凹部198a。並且,卡合片206係藉由導引凹部198a朝徑向內側推壓而彈性變形。此時,藉由卡合爪207的傾斜面207a,卡合片206平順地朝徑向內側彈性變形。在此,因為兩個卡合片206係隔著軸線Q而相向配置於兩側,所以從加熱器支架196整體來看,作用於兩個卡合片206之朝徑向內側的力不容易偏差。因此,容易取得使卡合片206彈性變形之際的力的平衡,而可容易地將加熱器支架196插入儲槽191的開口部191a。另外,霧化容器195的凹部224的底面224a抵接於卡合片206的徑向內側的內面。因此,在卡合片206朝徑向內側彈性變形之際,霧化容器195的凹部224會略微朝徑向內側變形。 Then, when the heater holder 196 is further pressed into the reservoir 191, the engaging claw 207 enters the guide recess 198a. In addition, the engaging piece 206 is elastically deformed by being pushed radially inward by the guide recess 198a. At this time, due to the inclined surface 207a of the engaging claw 207, the engaging piece 206 smoothly elastically deforms radially inward. Here, since the two engaging pieces 206 are arranged opposite to each other across the axis Q, the force acting on the radially inner side of the two engaging pieces 206 is not easily deviated from the whole of the heater bracket 196 . Therefore, it is easy to achieve a balance of forces when elastically deforming the engaging piece 206, and the heater holder 196 can be easily inserted into the opening 191a of the storage tank 191. In addition, the bottom surface 224 a of the concave portion 224 of the atomization container 195 abuts on the inner surface in the radial direction of the engagement piece 206. Therefore, when the engaging piece 206 is elastically deformed radially inward, the concave portion 224 of the atomizing container 195 is slightly deformed radially inward.

然後,進一步將加熱器支架196壓入時,卡合爪207會沿著導引凹部198a而移動。然後,卡合爪207跨過導引凹部198a的終端(儲槽191的卡合孔198側的端部),再藉由卡合片206的復原力及霧化容器195的凹部224的復原力,使卡合爪207插入儲槽191的卡合孔198。如此,加熱器支架196就固定於儲槽191,匣體11的組裝就完成。 Then, when the heater holder 196 is further pressed in, the engaging claw 207 moves along the guide recess 198a. Then, the engaging claw 207 crosses the end of the guide recess 198a (the end of the reservoir 191 on the engaging hole 198 side), and then by the restoring force of the engaging piece 206 and the restoring force of the recess 224 of the atomizing container 195 , The engaging claw 207 is inserted into the engaging hole 198 of the storage tank 191. In this way, the heater bracket 196 is fixed to the storage tank 191, and the assembly of the casing 11 is completed.

在此,在加熱器支架196固定至儲槽191之狀態下,儲槽191的周壁191b係覆蓋卡合片206的徑向外側的面。另外,想要解除兩個卡合爪207之中的一個的卡合,而例如將儲槽191或加熱器支架196扳傾斜來使卡合爪207脫離卡合孔198時,會將另一方的卡合爪207朝徑向外側頂壓。因此,一旦卡合了,就難以使卡合孔198與卡合片206解除卡合。 Here, in a state where the heater bracket 196 is fixed to the storage tank 191, the peripheral wall 191 b of the storage tank 191 covers the radially outer surface of the engaging piece 206. In addition, if one of the two engaging claws 207 is to be disengaged, for example, when the storage tank 191 or the heater bracket 196 is tilted to disengage the engaging claw 207 from the engaging hole 198, the other side The engaging claw 207 is pressed radially outward. Therefore, once engaged, it is difficult to disengage the engagement hole 198 and the engagement piece 206.

<吸嚐器的使用方法> <How to use the sucker>

使用上述吸嚐器1之際,使用者係進行按壓按鈕78之操作。此時,例如按壓按鈕78複數次(例如五次),來使開關元件52輸出起動準備信號至搭載於第一基板模組34之控制部。 When using the above-mentioned tasting device 1, the user presses the button 78. At this time, for example, the button 78 is pressed multiple times (for example, five times) to cause the switching element 52 to output a start preparation signal to the control unit mounted on the first substrate module 34.

接著,使用者以叼著抽吸嘴23或菸草膠囊12之狀態進行抽吸。如此,吸引保持單元22內的空氣使得保持單元22內變成負壓。保持單元22內變成負壓時,也通過匣體11的霧化容器195內(霧化室M內)、緩衝空間S3、及連通埠51,吸引壓力變動室S1內的空氣,使得壓力變動室S1內也變成負壓。具體而言,壓力變動室S1內的空氣係通過連通埠51而流入緩衝空間S3內之後,通過第二吸氣孔216而流入到加熱器支架196內。流入到加熱器支架196內之空氣係通過通氣路226及霧化容器195,且通過流路管197之後,通過抽吸嘴23而進入到使用者的口內。壓力感測器53係在檢測到壓力變動室S1內的壓力變為例如未達預定值時,就向控制部輸出起動訊號。 Next, the user sucks while holding the suction nozzle 23 or the tobacco capsule 12. In this way, the air in the holding unit 22 is sucked so that the inside of the holding unit 22 becomes negative pressure. When the inside of the holding unit 22 becomes negative pressure, the air in the pressure fluctuation chamber S1 is also sucked through the atomization container 195 (inside the atomization chamber M) of the cartridge 11 (in the atomization chamber M), the communication space 51, and the pressure fluctuation chamber S1 also becomes negative pressure. Specifically, the air in the pressure fluctuation chamber S1 flows into the buffer space S3 through the communication port 51, and then flows into the heater holder 196 through the second suction hole 216. The air flowing into the heater holder 196 passes through the air passage 226 and the atomizing container 195, and after passing through the flow passage tube 197, passes through the suction nozzle 23 and enters the mouth of the user. The pressure sensor 53 outputs a start signal to the control unit when detecting that the pressure in the pressure fluctuation chamber S1 has not reached a predetermined value, for example.

接收到起動信號之控制部係使匣體11的加熱部194通電。另外,保持單元22內變為負壓會使得新的空氣通過通氣口131而導入到保持單元22內。然後,新的空氣係通過形成於匣體11的加熱器支架196之第一吸氣孔209、及霧化容器195的通氣路226,而導入到匣體11的霧化室M(儲槽191的開口室203)。 The control unit that receives the activation signal energizes the heating unit 194 of the casing 11. In addition, the negative pressure in the holding unit 22 causes new air to be introduced into the holding unit 22 through the vent 131. Then, the new air is introduced into the atomization chamber M (storage tank 191) of the cartridge 11 through the first air intake hole 209 formed in the heater holder 196 of the cartridge 11 and the ventilation path 226 of the atomization container 195 The open chamber 203).

藉由加熱部194通電,使得電熱線205發熱。如此一來,經由多孔體193而含浸到吸液芯204之液體的霧氣源係受到加熱而霧化。經霧化的霧氣係充滿於霧化室M內。然後,經霧化的霧氣係與導入到霧化室 M之新的空氣一起通過儲槽191的流路管197而往抽吸嘴23側被吸引。然後,經霧化的霧氣與空氣之混合氣體係通過菸草膠囊12而進入到使用者的口內。如此,使用者就可品嚐到菸草的香味。 When the heating unit 194 is energized, the heating wire 205 generates heat. In this way, the mist gas source impregnated with the liquid of the wick 204 through the porous body 193 is heated and atomized. The atomized mist is filled in the atomizing chamber M. Then, the atomized mist system is introduced into the atomization chamber The fresh air of M passes through the flow path tube 197 of the storage tank 191 and is sucked toward the suction nozzle 23 side. Then, the mixed gas system of the atomized mist and air enters the mouth of the user through the tobacco capsule 12. In this way, the user can taste the flavor of tobacco.

<匣體的作用> <The role of the box>

另外,匣體11中,儲存於儲槽191的液體收容室202之液體的霧氣源係被吸到多孔體193,然後被吸到吸液芯204。若多孔體193、吸液芯204飽和(超過兩者的液體保持能力)時,就會有液體的霧氣源從多孔體193的外周部與儲槽191的周壁191b的內周面之間經由該內周面而漏出到加熱器支架196側之虞。 In addition, in the cartridge 11, the mist source of the liquid stored in the liquid storage chamber 202 of the storage tank 191 is sucked into the porous body 193 and then sucked into the wick 204. When the porous body 193 and the wick 204 are saturated (more than the liquid holding capacity of both), there will be a source of liquid mist passing between the outer peripheral portion of the porous body 193 and the inner peripheral surface of the peripheral wall 191b of the storage tank 191 The inner peripheral surface may leak to the heater holder 196 side.

在此,位於多孔體193的加熱器支架196側之霧化容器195係在外周面形成有液體蓄積部223。因此,液體的霧氣源會蓄積在液體蓄積部223,防止漏出加熱器支架196側。 Here, the atomization container 195 located on the heater holder 196 side of the porous body 193 is formed with a liquid storage portion 223 on the outer peripheral surface. Therefore, the mist source of liquid is accumulated in the liquid accumulating portion 223 to prevent leakage from the heater holder 196 side.

具體而言,本實施形態中,液體蓄積部223的容量(空間體積)約為53.4mm3。並且,假設儲槽191的液體收容室202內的液體剩餘量為1/3,頂部空間體積膨脹率(液體收容室202內的剩餘的2/3的空間部分的空氣的體積膨脹率)為6%時,由於儲槽191的液體收容室202內的空氣膨脹,會將約100mm3的液體的霧氣源從該液體收容室202擠出。被擠出的液體的霧氣源之中,約20~30mm3的霧氣源可由多孔體193、吸液芯204加以保持。約100mm3的液體的霧氣源之中,剩餘的70~80mm3的霧氣源係蓄積於液體蓄積部223。 Specifically, in the present embodiment, the capacity (space volume) of the liquid reservoir 223 is approximately 53.4 mm 3 . Further, assuming that the remaining amount of liquid in the liquid storage chamber 202 of the storage tank 191 is 1/3, the head space volume expansion rate (the volume expansion rate of air in the remaining 2/3 of the space portion in the liquid storage chamber 202) is 6 At %, the air in the liquid storage chamber 202 of the storage tank 191 expands, and a mist source of liquid of about 100 mm 3 is pushed out from the liquid storage chamber 202. Among the mist source of the extruded liquid, the mist source of about 20 to 30 mm 3 can be held by the porous body 193 and the liquid absorbing core 204. Among the mist source of liquid of about 100 mm 3 , the remaining mist source of 70 to 80 mm 3 is accumulated in the liquid accumulation part 223.

在此,液體蓄積部223係形成為隨著從密封部222朝向突出部219的前端,筒部217的外周面與儲槽191的周壁191b之間的間隙 逐漸次變窄。換言之,在筒部217的突出部219附近係形成該突出部219與儲槽191的周壁191b之間的間隙變窄之狹小部279。因此,從儲槽191的液體收容室202被擠出的液體的霧氣源之中,在多孔體193、吸液芯204飽和之後的剩餘的霧氣源係容易被吸到狹小部279,積極地通過狹小部279而流到液體蓄積部223。 Here, the liquid accumulating portion 223 is formed such that the gap between the outer peripheral surface of the cylindrical portion 217 and the peripheral wall 191b of the reservoir 191 as it goes from the sealing portion 222 toward the tip of the protruding portion 219 Gradually narrowed. In other words, in the vicinity of the protruding portion 219 of the cylindrical portion 217, a narrow portion 279 in which the gap between the protruding portion 219 and the peripheral wall 191b of the storage tank 191 becomes narrow is formed. Therefore, among the mist source of the liquid squeezed out from the liquid storage chamber 202 of the storage tank 191, the remaining mist source system after the porous body 193 and the wick 204 are saturated is easily sucked into the narrow portion 279 and actively passes through The narrow portion 279 flows to the liquid storage portion 223.

換言之,儲槽191的液體收容室202中儲存的液體的霧氣源首先被吸到多孔體193,然後被吸到吸液芯204。該多孔體193、吸液芯204飽和之後,液體的霧氣源係被吸到狹小部279,蓄積於液體蓄積部223。 In other words, the mist source of the liquid stored in the liquid storage chamber 202 of the storage tank 191 is first sucked into the porous body 193 and then sucked into the liquid wick 204. After the porous body 193 and the liquid absorbing core 204 are saturated, the mist source system of the liquid is sucked into the narrow portion 279 and accumulated in the liquid accumulation portion 223.

另一方面,若多孔體193的飽和狀態解除時,則會通過狹小部279(突出部219與儲槽191的周壁191b之間)吸取儲存在液體蓄積部223中液體的霧氣源。於是,該液體的霧氣源被吸到多孔體193。換言之,液體蓄積部223中蓄積的液體的霧氣源係通過狹小部279而回流到儲槽191的液體收容室202。此時,由於狹小部279由多孔體193的外周部加以覆蓋(塞住),多孔體193的毛細管力也會作用,而效率良好地使液體的霧氣源回流到儲槽191的液體收容室202。 On the other hand, when the saturated state of the porous body 193 is released, the mist source of the liquid stored in the liquid storage portion 223 is sucked through the narrow portion 279 (between the protruding portion 219 and the peripheral wall 191b of the storage tank 191). Then, the mist source of the liquid is sucked into the porous body 193. In other words, the mist source of the liquid accumulated in the liquid accumulation part 223 flows back to the liquid storage chamber 202 of the storage tank 191 through the narrow part 279. At this time, since the narrow portion 279 is covered (plugged) by the outer peripheral portion of the porous body 193, the capillary force of the porous body 193 also acts, and the mist source of the liquid is efficiently returned to the liquid storage chamber 202 of the storage tank 191.

又,因為筒部217的密封部222形成有兩個缺口部222a,所以液體蓄積部223與外部的空氣係通過密封部222的缺口部222a以及儲槽191的卡合孔198與加熱器支架196的卡合片206(卡合爪207)之間的間隙而相連通。就另一實施例而言,液體蓄積部223與外部的空氣亦可通過密封部222的缺口部222a以及加熱器支架196的第一吸氣孔209而相連通。因此,液體蓄積部223的內外不會產生壓力差。因而,可防止液 體的霧氣源意外從液體蓄積部223流出到外部之情形,同時可效率良好地使液體的霧氣源回流到儲槽191的液體收容室202。 In addition, since the sealing portion 222 of the cylindrical portion 217 is formed with two notch portions 222a, the liquid accumulating portion 223 and the outside air pass through the notch portion 222a of the sealing portion 222 and the engagement hole 198 of the reservoir 191 and the heater holder 196 Between the engaging pieces 206 (engaging claws 207). In another embodiment, the liquid accumulating portion 223 and the outside air may also communicate with each other through the notch portion 222a of the sealing portion 222 and the first air intake hole 209 of the heater holder 196. Therefore, there is no pressure difference between the inside and the outside of the liquid accumulation portion 223. Thus, the liquid can be prevented The mist gas source of the body accidentally flows out from the liquid accumulation part 223 to the outside, and at the same time, the mist gas source of the liquid can be efficiently returned to the liquid storage chamber 202 of the storage tank 191.

〔效果〕 〔effect〕

如上所述,本實施形態之電源單元21係構成為具備:第一基板模組34,安裝有壓力感測器53,該壓力感測器53係以露出於壓力變動室內S1內的方式被安裝;以及第二基板模組35,於前述常壓室S2內,在與第一基板模組34之間隔著蓄電池33而配置在與前述第一基板模組34為相反側。 As described above, the power supply unit 21 of the present embodiment is configured to include: the first substrate module 34, the pressure sensor 53 is mounted, and the pressure sensor 53 is mounted so as to be exposed in the pressure fluctuation chamber S1 ; And the second substrate module 35, in the normal pressure chamber S2, and the first substrate module 34 is spaced apart from the first substrate module 34 is disposed on the opposite side of the first substrate module 34.

根據此構成,至少母連接器62及蓄電池33而配置於藉由感測器保持器54與壓力變動室S1區劃的常壓室S2,因此,能夠抑制通過連通埠51之霧氣等往常壓室S2內進入,且能夠抑制霧氣附著於母連接器62及電源33。 According to this configuration, at least the female connector 62 and the battery 33 are arranged in the normal pressure chamber S2 partitioned by the sensor holder 54 and the pressure fluctuation chamber S1, and therefore, the mist passing through the communication port 51 to the normal pressure chamber S2 can be suppressed It enters inside and can prevent mist from adhering to the female connector 62 and the power supply 33.

另一方面,藉由將母連接器62及電源33收容於常壓室S2,能夠謀求壓力變動室S1的小型化。藉此,能夠迅速地檢測出壓力變動室S1的壓力變動。 On the other hand, by accommodating the female connector 62 and the power supply 33 in the normal pressure chamber S2, the pressure fluctuation chamber S1 can be reduced in size. With this, the pressure fluctuation in the pressure fluctuation chamber S1 can be quickly detected.

本實施形態之電源單元21係構成為:第一基板模組34配置成相對於蓄電池33更靠近匣體11,並且安裝有藉由按鈕78所操作的切換元件52。 The power supply unit 21 of this embodiment is configured such that the first substrate module 34 is arranged closer to the case 11 than the battery 33, and the switching element 52 operated by the button 78 is installed.

根據此構成,藉由將第一基板模組34配置成相對於蓄電池33更靠近匣體11,能夠縮小壓力變動室S1的容積。藉此,能夠藉由壓力感測器53迅速地檢測出於壓力變動室S1發生的壓力變動。結果,能夠提升壓力感測器53的靈敏度。 According to this configuration, by arranging the first substrate module 34 closer to the case 11 than the battery 33, the volume of the pressure fluctuation chamber S1 can be reduced. With this, the pressure sensor 53 can quickly detect the pressure change that occurs in the pressure change chamber S1. As a result, the sensitivity of the pressure sensor 53 can be improved.

此外,藉由將第一基板模組34配置成靠近匣體11,能夠將切換元件52配置於吸嚐器1之靠軸向的中央部位。藉此,能夠提升操作性。 In addition, by arranging the first substrate module 34 close to the case 11, the switching element 52 can be disposed at the axial center of the taste absorber 1. With this, operability can be improved.

本實施形態之電源單元21係構成為:具備蓄電池保持器36,該蓄電池保持器36係供蓄電池33、第一基板模組34及第二基板模組35搭載,並且安裝於外殼31。 The power supply unit 21 of the present embodiment is configured to include a battery holder 36 that mounts the battery 33, the first substrate module 34, and the second substrate module 35, and is attached to the housing 31.

根據此構成,與將蓄電池33、第一基板模組34及第二基板模組35個別組裝於外殼31的情形相比較,能夠謀求提升組裝性。此外,藉由將第一基板模組34及第二基板模組34個別地搭載於蓄電池保持器36來作為基板模組,能夠謀求例如相對於蓄電池33將基板模組34、35配置於兩側等配置性的提升。 According to this structure, compared with the case where the battery 33, the first substrate module 34, and the second substrate module 35 are individually assembled in the case 31, it is possible to improve the assemblability. In addition, by mounting the first substrate module 34 and the second substrate module 34 individually in the battery holder 36 as a substrate module, for example, it is possible to arrange the substrate modules 34 and 35 with respect to the battery 33 on both sides Wait for configuration enhancement.

本實施形態之電源單元21係構成為:搭載於蓄電池保持器36的電源為蓄電池33。 The power supply unit 21 of this embodiment is configured such that the power source mounted on the battery holder 36 is the battery 33.

根據此構成,與例如採用一次電池作為電源的情形不同,能夠重複使用。 According to this configuration, unlike the case where, for example, a primary battery is used as a power source, it can be reused.

本實施形態之本體單元10係構成為具備:上述的電源單元21;以及對電源單元21於軸向連接之筒狀的保持單元22。 The body unit 10 of the present embodiment is configured to include: the above-mentioned power supply unit 21; and a cylindrical holding unit 22 connected to the power supply unit 21 in the axial direction.

本實施形態之吸嚐器1係構成為具備:上述之本體單元10;以及可裝拆地收容於保持單元22內的匣體11。 The taste absorber 1 of the present embodiment is configured to include: the above-described main body unit 10; and a case 11 that is detachably housed in the holding unit 22.

根據此構成,可提供使母連接器62及蓄電池33的防液性能提升以及壓力感測器52之靈敏度提升達到兩全之高性能的本體單元10及吸嚐器1。 According to this configuration, it is possible to provide the high-performance body unit 10 and the taste absorber 1 that improve the liquid-proof performance of the female connector 62 and the battery 33 and the sensitivity of the pressure sensor 52 to achieve both.

而且,本實施形態之本體單元10係構成為:匣體11可對電源單元21裝拆。因此,藉由匣體11的裝拆操作而可進行霧氣源的補充,可減輕霧氣源的充填作業之繁雜度。結果,能夠具備良好的操作性。 Furthermore, the body unit 10 of this embodiment is configured such that the case 11 can be attached to and detached from the power supply unit 21. Therefore, the mist gas source can be replenished through the assembly and disassembly operation of the cartridge body 11, and the complexity of filling the mist gas source can be reduced. As a result, good operability can be provided.

以上,說明了本發明的較佳實施形態,然而本發明不限於該等實施形態。可在未脫離本發明的主旨之範圍內,進行構成的附加、省略、置換、及其他的變更。本發明不限於上述說明,而依據申請專利範圍來限定。 The preferred embodiments of the present invention have been described above, but the present invention is not limited to these embodiments. Additions, omissions, substitutions, and other changes can be made without departing from the spirit of the invention. The present invention is not limited to the above description, but is limited according to the scope of patent application.

例如,上述實施形態中係舉構成為可裝拆菸草膠囊12之吸嚐器1作為不伴隨燃燒而產生霧氣之霧氣產生裝置的一例進行了說明,但不限於此構成。就霧氣產生裝置的其他例子而言,亦可為例如電子菸之不具有菸草膠囊12之構成。此情況下,將含有香味之霧氣源收容在匣體11內,並利用霧氣產生裝置產生含有香味之霧氣。 For example, in the above embodiment, the taste absorber 1 configured to be able to attach and detach the tobacco capsule 12 has been described as an example of a mist generating device that generates mist without accompanying combustion, but it is not limited to this configuration. For other examples of the mist generating device, for example, the electronic cigarette may be configured without the tobacco capsule 12. In this case, the source of mist containing fragrance is contained in the casing 11 and the mist generating device is used to generate mist containing fragrance.

上述實施形態中係針對本體單元10為電源單元21、保持單元22及抽吸嘴23之分割構成的情況進行了說明,但不限於此構成。例如,亦可將電源單元21及保持單元22一體形成,亦可將保持單元22及抽吸嘴23一體形成。 In the above embodiment, the case where the main body unit 10 is the divided structure of the power supply unit 21, the holding unit 22, and the suction nozzle 23 has been described, but the structure is not limited to this. For example, the power supply unit 21 and the holding unit 22 may be integrally formed, or the holding unit 22 and the suction nozzle 23 may be integrally formed.

上述實施形態係針對保持單元22形成為包圍匣體11的周圍的筒狀之構成進行了說明,但不限於此構成。保持單元22若可保持匣體11之構成即可。又,本說明書中,所謂的匣體11與本體單元10(電源單元21)之裝拆,不限於將匣體11收容於保持單元22內再以抽吸嘴23保持者,也包含單純地進行頂針電極49與連接電極部213b、214b之連接及連接的解除者。 The above-mentioned embodiment has described the configuration in which the holding unit 22 is formed in a cylindrical shape surrounding the casing 11, but it is not limited to this configuration. The holding unit 22 only needs to hold the structure of the cassette 11. In addition, in this specification, the attachment and detachment of the so-called cassette 11 and the main body unit 10 (power supply unit 21) is not limited to the case in which the cassette 11 is accommodated in the holding unit 22 and then held by the suction nozzle 23, and includes simply performing The connection between the thimble electrode 49 and the connection electrode portions 213b and 214b and the release of the connection.

上述實施形態中係針對電源單元21及保持單元22形成為同軸配置的筒狀之構成進行了說明,但不限於此構成。電源單元21及保持單元22亦可互為不同的形狀。 In the above embodiment, the configuration in which the power supply unit 21 and the holding unit 22 are formed in a cylindrical configuration coaxially has been described, but the configuration is not limited to this. The power supply unit 21 and the holding unit 22 may have different shapes from each other.

上述實施形態中係針對蓄電池33、基板模組34、35等搭載於蓄電池支架36之構成進行了說明,但不限於此構成。亦可將蓄電池33、基板模組34、35等直接搭載於外殼31內。 In the above embodiment, the configuration in which the battery 33, the substrate modules 34, 35, and the like are mounted on the battery holder 36 has been described, but it is not limited to this configuration. The battery 33, the substrate modules 34, 35, etc. may be directly mounted in the case 31.

上述實施形態中係針對搭載有用來輸出起動準備信號的按鈕78(開關元件52)之構成進行了說明,但亦可為不具有按鈕78之構成(根據壓力感測器53之檢測而起動之構成)。 In the above embodiment, the configuration in which the push button 78 (switching element 52) for outputting the start preparation signal is mounted has been described, but the configuration without the push button 78 (the configuration that is activated upon detection by the pressure sensor 53) ).

上述實施形態中係針對頂針電極49配置於相對於假想直線La呈線對稱的位置之構成進行了說明,但不限於此構成。亦即,頂針電極49若為沿著基面91a的面內方向(切線方向)延伸且連結兩個頂針電極49之假想直線T1通過軸線O之構成即可,與軸線O之徑向的距離亦可分別不同。此情況下,連接電極部213b、214b若在包含以軸線O為中心而通過第一頂針電極49a之第一假想圓周C1及以軸線O為中心而通過第二頂針電極49b之第二假想圓周C2雙方之領域至少配置成圓弧狀即可。因此,連接電極部213b、214b不限於半圓形,亦可為矩形、長圓形等。另外,連接電極部213b、214b亦可為不同形狀。 In the above embodiment, the configuration in which the thimble electrode 49 is disposed at a position symmetrical to the virtual straight line La has been described, but the configuration is not limited to this. That is, if the thimble electrode 49 is configured to extend along the in-plane direction (tangential direction) of the base surface 91a and connect the two thimble electrodes 49, the imaginary straight line T1 passes through the axis O, and the radial distance from the axis O is also They can be different. In this case, if the connecting electrode portions 213b and 214b include the first virtual circle C1 passing through the first thimble electrode 49a centered on the axis O and the second virtual circle C2 passing the second thimble electrode 49b centered on the axis O The fields of both sides should be arranged at least in an arc shape. Therefore, the connection electrode portions 213b and 214b are not limited to semi-circles, and may be rectangular, oblong, or the like. In addition, the connection electrode portions 213b and 214b may have different shapes.

上述實施形態中係針對軸線O通過基面91a的中心之構成進行了說明,但不限於此構成。軸線O亦可偏離基面91a的中心而配置。又,上述實施形態中係針對電源單元21全體與匣體11配置在同軸上之構成進行了說明,但不限於此構成。若第一電極配置面及第二電極配置面係 相向配置,則亦可為例如將電源單元21的蓄電池33與匣體11的軸線彼此配置成平行之構成。 In the above embodiment, the configuration in which the axis O passes through the center of the base surface 91a has been described, but it is not limited to this configuration. The axis O may be disposed away from the center of the base surface 91a. In the above embodiment, the configuration in which the entire power supply unit 21 and the casing 11 are arranged coaxially has been described, but it is not limited to this configuration. If the first electrode placement surface and the second electrode placement surface are If they are arranged oppositely, for example, the axes of the battery 33 of the power supply unit 21 and the case 11 may be arranged parallel to each other.

上述實施形態中係針對將第一基板60配置成使厚度方向與徑向一致的狀態之構成進行了說明,但不限於此構成。第一基板60亦可配置成例如使厚度方向與軸向一致之狀態。 In the above embodiment, the configuration in which the first substrate 60 is arranged so that the thickness direction coincides with the radial direction has been described, but it is not limited to this configuration. The first substrate 60 may be arranged, for example, in a state where the thickness direction coincides with the axial direction.

上述實施形態中係以壓力感測器53作為搭載於第一基板60之感測器的一例進行了說明,但亦可搭載壓力感測器53以外的各種感測器。 In the above embodiment, the pressure sensor 53 is described as an example of the sensor mounted on the first substrate 60, but various sensors other than the pressure sensor 53 may be mounted.

上述實施形態中係針對外殼31內的空間區隔成壓力變動室S1及常壓室S2之構成進行了說明,但亦可不區隔成壓力變動室S1及常壓室S2。 In the above embodiment, the configuration in which the space in the housing 31 is divided into the pressure fluctuation chamber S1 and the normal pressure chamber S2 has been described, but the pressure fluctuation chamber S1 and the normal pressure chamber S2 may not be divided.

上述實施形態的一部分或全部,也可記載成如以下的附記,但不限於以下的記載。 Part or all of the above-mentioned embodiments may be described as the following supplementary notes, but not limited to the following description.

(附記1) (Supplementary note 1)

非燃燒式吸嚐器的電源單元係具備有:外殼,具有壓力變動室及常壓室,該壓力變動室係連通口係形成開口,該常壓室係相對於前述壓力變動室以在其間隔有區隔構件之方式被區劃出;可充放電的電源,收容在前述常壓室內;第一基板模組,在前述外殼的軸向與前述蓄電池並列配置,並且供安裝壓力感測器,而且以至少前述壓力感測器露出於前述壓力變動室內的方式被收容在前述外殼內;以及第二基板模組,於前述常壓室內,在與前述第一基板模組之間隔著前述電源而在前述外殼的軸向被收容在與前述第一基板模組為相反之側,且安裝有母連接器。 The power supply unit of the non-combustion type taster is provided with a housing, which has a pressure fluctuation chamber and a normal pressure chamber, the pressure fluctuation chamber is formed with an opening at the communication port, and the normal pressure chamber is spaced from the pressure fluctuation chamber It is divided by means of partitions; a chargeable and dischargeable power supply is housed in the aforementioned normal pressure chamber; a first substrate module is arranged in parallel with the battery in the axial direction of the housing, and is used to install a pressure sensor, and At least the pressure sensor is housed in the housing so that the pressure fluctuation chamber is exposed; and the second substrate module is located in the normal pressure chamber between the first substrate module and the power supply The axial direction of the housing is accommodated on the opposite side to the first substrate module, and a female connector is installed.

此外,可在未脫離本發明的主旨之範圍內,適當地將上述實施形態中的構成元素置換為周知的構成要素,或者,可適當地將上述各變形例予以組合。 In addition, the constituent elements in the above-mentioned embodiments may be appropriately replaced with well-known constituent elements without departing from the gist of the present invention, or the above-described modified examples may be appropriately combined.

〔產業上之可利用性〕 [Industry availability]

根據上述非燃燒式吸嚐器的電源單元,可在使母連接器及蓄電池的防液性能提升的情形下,可使壓力感測器之靈敏度提升。 According to the power supply unit of the non-combustion type sucker, the sensitivity of the pressure sensor can be improved under the condition that the liquid resistance of the female connector and the battery is improved.

1‧‧‧吸嚐器 1‧‧‧ taster

10‧‧‧本體單元 10‧‧‧Body unit

11‧‧‧匣體 11‧‧‧Box

21‧‧‧電源單元 21‧‧‧Power supply unit

22‧‧‧保持單元 22‧‧‧ Holding unit

31‧‧‧外殼 31‧‧‧Housing

32‧‧‧支架組件 32‧‧‧Bracket assembly

33‧‧‧蓄電池 33‧‧‧ battery

34‧‧‧第一基板模組 34‧‧‧ First substrate module

35‧‧‧第二基板模組 35‧‧‧Second substrate module

36‧‧‧蓄電池支架 36‧‧‧Battery bracket

40、91‧‧‧基部 40, 91‧‧‧ base

41‧‧‧壓入筒部 41‧‧‧press into the barrel

42‧‧‧連接器通過孔 42‧‧‧Connector through hole

43‧‧‧堵塞部 43‧‧‧Clogging Department

44‧‧‧按鈕開口 44‧‧‧button opening

45‧‧‧按鈕導引筒 45‧‧‧Button guide tube

46‧‧‧區隔壁 46‧‧‧ next door

47‧‧‧段差部 47‧‧‧Division

48‧‧‧連接台座 48‧‧‧Connect the pedestal

49‧‧‧頂針電極 49‧‧‧thimble electrode

51‧‧‧連通埠 51‧‧‧Connect port

52‧‧‧開關元件 52‧‧‧Switch element

53‧‧‧壓力感測器 53‧‧‧ pressure sensor

54‧‧‧感測器保持架 54‧‧‧Sensor Cage

55‧‧‧安裝部 55‧‧‧Installation Department

56‧‧‧被覆部 56‧‧‧Coated Department

56a‧‧‧底壁部 56a‧‧‧Bottom wall

56b‧‧‧間隔部 56b‧‧‧Spacer

58‧‧‧空氣置換孔 58‧‧‧Air replacement hole

59‧‧‧連通路 59‧‧‧ Connect

60‧‧‧第一基板 60‧‧‧First substrate

61‧‧‧第二基板 61‧‧‧Second substrate

61a‧‧‧第二連接配線 61a‧‧‧Second connection wiring

62‧‧‧母連接器 62‧‧‧Female connector

71‧‧‧外裝筒部 71‧‧‧Outer tube

72‧‧‧介裝部件 72‧‧‧Intermediate parts

73‧‧‧連接機構 73‧‧‧ connection mechanism

75‧‧‧連接器露出孔 75‧‧‧Connector exposed hole

76‧‧‧按鈕露出孔 76‧‧‧ button exposed hole

78‧‧‧按鈕 78‧‧‧ button

80‧‧‧連接蓋 80‧‧‧ connection cover

81‧‧‧第一連結部件 81‧‧‧First connecting part

82‧‧‧環狀片 82‧‧‧ring film

91a‧‧‧基面 91a‧‧‧Base

92‧‧‧凸緣部 92‧‧‧Flange

93‧‧‧圍繞凸部 93‧‧‧ Around convex

99‧‧‧埠插通孔 99‧‧‧ port insertion hole

100‧‧‧基筒部 100‧‧‧Base cylinder

101a‧‧‧第一縱卡合凸部 101a‧‧‧First vertical engagement convex part

102‧‧‧橫卡合凸部 102‧‧‧Lateral snap-in convex part

105‧‧‧外凸緣部 105‧‧‧Outer flange

120‧‧‧容器保持筒 120‧‧‧Container holding tube

122‧‧‧第二連結部件 122‧‧‧Second connecting part

131‧‧‧通氣口 131‧‧‧ vent

140‧‧‧嵌合筒 140‧‧‧fitting cylinder

141‧‧‧導引筒 141‧‧‧Guide cylinder

145‧‧‧退縮部 145‧‧‧ Retreat Department

196‧‧‧加熱器支架 196‧‧‧Heating bracket

210‧‧‧卡合凹部 210‧‧‧Snap recess

S1‧‧‧壓力變動室 S1‧‧‧ pressure change room

S2‧‧‧常壓室 S2‧‧‧Normal pressure room

S3‧‧‧緩衝空間 S3‧‧‧Buffer space

O、Q‧‧‧軸線 O, Q‧‧‧ axis

Claims (6)

一種非燃燒式吸嚐器的電源單元,係具備有:外殼,具有壓力變動室及常壓室,該壓力變動室之與供收容霧氣源之霧化單元連通的連通口係形成開口,該常壓室係相對於前述壓力變動室以在其間隔有區隔構件之方式被區劃出;可充放電的電源,收容在前述常壓室內;第一基板模組,供安裝壓力感測器,並且以至少前述壓力感測器露出於前述壓力變動室內的方式被收容在前述外殼內;以及第二基板模組,於前述常壓室內,在與前述第一基板模組之間隔著前述電源而被收容在與前述第一基板模組為相反之側,且安裝有母連接器。 A power supply unit of a non-combustion type taster is provided with: a casing, a pressure fluctuation chamber and a normal pressure chamber, and a communication port of the pressure fluctuation chamber communicating with an atomization unit for accommodating a mist gas source forms an opening, the constant The pressure chamber is partitioned with respect to the aforementioned pressure change chamber with a partition member in between; the chargeable and dischargeable power source is housed in the aforementioned normal pressure chamber; the first substrate module is used for installing a pressure sensor, and At least the pressure sensor is housed in the housing so that the pressure fluctuation chamber is exposed; and the second substrate module is separated from the first substrate module in the normal pressure chamber by the power supply It is housed on the opposite side to the aforementioned first substrate module, and is equipped with a female connector. 如申請專利範圍第1項所述之非燃燒式吸嚐器的電源單元,其中,前述第一基板模組係配置成相對於前述電源更靠近前述霧化單元,於前述外殼配設有可按壓操作的按鈕,前述第一基板模組係具備藉由前述按鈕所操作的切換元件。 The power supply unit of the non-burning taste absorber as described in item 1 of the scope of patent application, wherein the first substrate module is arranged closer to the atomizing unit relative to the power supply, and the housing is provided with a depressible For the operated button, the first substrate module is provided with a switching element operated by the button. 如申請專利範圍第1或2項所述之非燃燒式吸嚐器的電源單元,其具備保持器,該保持器係供前述電源、前述第一基板模組及前述第二基板模組搭載,並且安裝於前述外殼。 The power supply unit of the non-combustion type absorber as described in item 1 or 2 of the patent scope includes a holder for mounting the power supply, the first substrate module and the second substrate module, And installed in the aforementioned housing. 如申請專利範圍第1至3項中任一項所述之非燃燒式吸嚐器的電源單元,其中,前述電源係蓄電池。 The power supply unit of the non-combustion type taster according to any one of the items 1 to 3 of the patent application range, wherein the power supply is a battery. 一種非燃燒式吸嚐器的本體單元,係具備有: 如申請專利範圍第1至4項中任一項所述之電源單元;以及筒狀的保持單元,與前述電源單元連接。 The body unit of a non-combustion taster is equipped with: The power supply unit as described in any one of claims 1 to 4; and a cylindrical holding unit connected to the aforementioned power supply unit. 一種非燃燒式吸嚐器,係具備有:如申請專利範圍第5項所述之本體單元;以及可裝拆地收容於前述保持單元內之前述霧化單元。 A non-combustion taster is provided with: a body unit as described in item 5 of the patent application scope; and the atomizing unit detachably housed in the holding unit.
TW108101650A 2018-10-26 2019-01-16 Power unit of non-combustion type aspirator, main unit, non-combustion type aspirator TW202015572A (en)

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