M421665 五、新型說明: 【新型所屬之技術領域】 本創作涉及一種入耳式耳機,更具體地涉及一種低頻音可 調整的滑蓋式耳機。 【先前技術】 入耳式耳機,因其出色的攜帶性、高素質的聲音表現及優 秀的隔音效果,而深受人們的喜愛。M421665 V. New Description: [New Technology Field] This creation relates to an in-ear earphone, and more particularly to a slider earphone with adjustable low frequency sound. [Prior Art] In-ear headphones are popular among people for their excellent portability, high-quality sound performance and excellent sound insulation.
習知的入耳式耳機,一個耳機只能提供單純的一種音色及 頻率響應特性,即只能給人一種聽覺感受,對一般消費者而言 不夠娛樂性,而需要擁有多種聽覺感受就必須分別購買幾種耳 機,這樣增加了使用成本;因此,有必要提供一種低頻音可調 的滑蓋式耳機,以便消費者可根據個人的喜好及音樂特性,來 調整為自己所喜歡的低音特性,而不需要分別購買各種耳機就 可以擁有不同的聽覺感受。 【新型内容】 本創作的目的在於針對上述先前技術的不足提供一種滑 蓋式耳機,因此,消費者可根據個人的喜好及音樂特性,來調 整為自己所喜歡的低音特性,以具有多種不同的聽覺感受。 為實現上述目的,本創作提供一種滑蓋式耳機,其包括前 腔體、後腔體、喇°八單體、耳套及調音組件,前腔體與後腔體 配合連接,耳套固定連接於前腔體的另一端,且喇叭單體容置 於前腔體内,調音組件滑動地連接於後腔體上,且後腔體上開 設有至少一個調音孔。 如上所述,本創作所提供的滑蓋式耳機,調音組件活動地 連接於後腔體上,因此,通過推動調音組件滑動,可使調音組 件遮蔽後腔體上的不同調音孔,通過選擇遮蔽不同數量的調音 3 M421665 孔’來控制低音的出氣量及流速’從而改變低音的低頻響應曲 線’從而得到不同的聽覺感受。 s… 【實施方式】 為詳細說明本創作的技術内容、構造特徵、 „ 吓耳現目的及 效果,以下結合實施方式並配合附圖詳予說明。 請參閱第一圖與第二圖,本創作滑蓋式耳機〗包括耳套 10、前腔體20、喇叭單體30、後腔體4〇、調音組件及手 柄60,其中,前腔體20與後腔體4〇相互配合連接,耳套 固定連接於前腔體2G的另-端,且伽γ單體3()容置於前腔體 2〇内,調音組件50活動地連接於後腔體4〇的頂面上,手柄 6〇安裝於後腔體40的底面;調音組件5〇包括滑蓋5ι〇及阻 尼物520 ’滑蓋51〇滑動連接於後腔體4〇的頂面上而阻尼 物520則設置於後腔體40的中空結構内。 請參閱第一圖至第三圖,耳套1〇呈中空結構,且耳套⑺ 的中空結構貫穿其前後㈣,在耳套1()的㈣上具有向㈠ 空結構内凸伸形成的第-抵觸部UG,本實施例中,第一抵觸 部110呈圓形結構’用於與前腔體20配合連接;而前腔體2〇 具有-呈中空結構的達接端210’該連接端210呈圓柱形社 構,在連接端2H)的前端具有沿其徑向向外凸伸形成第二抵觸 部2U,而連接端210的後端則向外擴張形成呈中空結構的收 容端220,收容端22G的中空結構形成收容腔22卜收容腔切 與連接端210的中Μ構相貫通;前腔體與耳套H)相連接 時,前腔㈣的連接端21〇伸人耳套㈣中空結構内,並使 第-抵觸部no與第二抵觸部211相抵觸,而耳㈣的後端 與前腔體2〇的收容端220相抵觸,從而使兩者卡合連接。制 。八單體30則容置於前腔體2〇的收容腔22ι内,收容端2 4 M421665 與後腔體40配合連接。Conventional in-ear headphones, a headset can only provide a simple tone and frequency response characteristics, that is, can only give people a sense of hearing, not enough entertainment for the average consumer, but need to have a variety of auditory feelings must be purchased separately Several types of earphones increase the cost of use; therefore, it is necessary to provide a slide-type earphone with adjustable low-frequency sound so that consumers can adjust their favorite bass characteristics according to personal preference and music characteristics, instead of You need to buy a variety of headphones to have different listening experiences. [New content] The purpose of this creation is to provide a slide type earphone for the above-mentioned deficiencies of the prior art. Therefore, the consumer can adjust the bass characteristics that he likes according to personal preference and music characteristics, and have various kinds of different Hearing experience. In order to achieve the above object, the present invention provides a slide type earphone, which comprises a front cavity body, a rear cavity body, a single body, an ear cover and a tuning component, and the front cavity body and the rear cavity body are coupled and connected, and the earmuffs are fixedly connected. At the other end of the front cavity, and the horn unit is received in the front cavity, the tuning component is slidably connected to the rear cavity, and at least one tuning hole is opened on the rear cavity. As described above, in the slide type earphone provided by the present invention, the tuning component is movably connected to the rear cavity. Therefore, by pushing the tuning component to slide, the tuning component can shield different tuning holes on the rear cavity by selecting the shielding. Different numbers of tuning 3 M421665 holes 'to control the volume and flow rate of the bass' to change the bass's low-frequency response curve' to get different auditory feelings. s... [Embodiment] In order to explain in detail the technical contents, structural features, stimuli, and effects of the present invention, the following embodiments will be described in detail in conjunction with the drawings. Please refer to the first and second figures, this creation The slide type earphone includes an ear cover 10, a front cavity body 20, a speaker unit 30, a rear cavity body 4, a tuning component and a handle 60, wherein the front cavity body 20 and the rear cavity body 4 are cooperatively connected with each other, and the ear cover Fixedly connected to the other end of the front cavity 2G, and the gamma gamma monomer 3 () is accommodated in the front cavity 2〇, the tuning component 50 is movably connected to the top surface of the rear cavity 4〇, the handle 6〇 The damper assembly 5 is mounted on the bottom surface of the rear cavity 40 In the hollow structure. Referring to the first to third figures, the earmuffs 1〇 have a hollow structure, and the hollow structure of the earmuffs (7) runs through the front and rear (four), and has a (a) empty structure on the (four) of the earmuffs 1 () The first anti-contact portion UG formed by the protrusion, in the embodiment, the first abutting portion 110 has a circular structure 'for the front cavity 20, the front cavity 2〇 has a hollow structure, the connecting end 210 has a cylindrical structure, and the front end of the connecting end 2H) has a convex shape extending outward along the radial direction thereof to form a second The end portion of the connecting end 210 is outwardly expanded to form a receiving end 220 having a hollow structure, and the hollow structure of the receiving end 22G forms a receiving cavity 22, and the receiving cavity is cut and connected with the middle end of the connecting end 210; When the cavity is connected with the earmuff H), the connecting end 21 of the front cavity (4) extends into the hollow structure of the human earmuff (4), and the first-abutting portion no is in contact with the second abutting portion 211, and the rear end of the ear (four) It is in contact with the receiving end 220 of the front cavity 2〇, so that the two are engaged and connected. The eight single body 30 is accommodated in the receiving cavity 22i of the front cavity 2〇, and the receiving end 2 4 M421665 and the rear cavity The body 40 is mated.
參閱第二圖至第四圖,後腔體40也呈中空結構,且後腔 體40的後側壁使其後端形成一封閉端,後腔體40的前側壁上 則具有一開口 410,開口 410貫通後腔體40的中空結構,其 在開口 410處向外凸伸出呈圓形結構的連接部420,連接部420 與前腔體20的收容端220的開口相配合連接;而在後腔體40 的頂面上還開設有與滑蓋510相對應的容置腔430,容置腔430 的前端貫穿後腔體40的前側壁,容置腔430的左側壁及右側 壁均向容置腔430内延伸形成阻擋部431,阻擋部431與容置 腔430的底部之間形成卡槽432,容置腔430的後側壁處還具 有向内開設的容置槽433,滑蓋510滑動地卡設於卡槽432内, 且可滑動地收容於容置槽433内,在容置腔430的底部上開設 有至少一個與後腔體40的中空結構相連通的調音孔434,在 本實施例中,在容置腔430的底部上開始有兩個調音孔434, 且兩調音孔434沿後腔體40的前後方向開設,滑蓋510滑動 地連接於容置腔430内,並能滑動地遮蔽兩調音孔434或遮蔽 其中之一,還可使兩調音孔434均不被遮蔽。Referring to the second to fourth figures, the rear cavity 40 also has a hollow structure, and the rear side wall of the rear cavity 40 has a closed end at the rear end thereof, and the front side wall of the rear cavity 40 has an opening 410. 410 is a hollow structure of the rear cavity 40, and a connecting portion 420 having a circular structure protrudes outwardly from the opening 410, and the connecting portion 420 is coupled with the opening of the receiving end 220 of the front cavity 20; The accommodating cavity 430 corresponding to the sliding cover 510 is further disposed on the top surface of the cavity 40. The front end of the accommodating cavity 430 extends through the front side wall of the rear cavity 40, and the left side wall and the right side wall of the accommodating cavity 430 are aligned. A blocking portion 431 is formed in the cavity 430, and a locking groove 432 is formed between the blocking portion 431 and the bottom of the receiving cavity 430. The rear side wall of the receiving cavity 430 further has an inwardly disposed receiving groove 433, and the sliding cover 510 slides. The grounding card is disposed in the card slot 432 and slidably received in the receiving groove 433. At the bottom of the receiving cavity 430, at least one tuning hole 434 communicating with the hollow structure of the rear cavity 40 is opened. In the embodiment, two tuning holes 434 are started on the bottom of the accommodating cavity 430, and the two tuning holes 434 are along the rear cavity 40. The slidable cover 510 is slidably connected to the accommodating cavity 430, and slidably shields the two tuning holes 434 or shields one of them, and the two tuning holes 434 are not shielded.
本實施例中,阻尼物520設置於後腔體40的中空結構内, 具體地,在靠近後腔體40前端的調音孔434内貼有阻尼物 520,而在靠近後腔體40後端的調音孔434内則沒貼阻尼物 520,阻尼物520可為具有一定厚度、密度及不同材質的調音 紙;另外,在後腔體40的底面上還開設有貫通後腔體40的中 空結構的安裝孔440,手柄60安裝於該安裝孔440内。 具體地,滑蓋510具有一呈方形結構的基部511,在基部 511的一端向上凸伸出一滑動部512,基部511從後腔體40的 前端伸入容置腔430内,並滑動地卡合於卡槽432内,阻擋部 431與基部511相抵觸,因此,將基部511滑動的連接於後腔 5 M421665 體40上,當安裝上前腔體20後,前腔體20將滑蓋510擋住; 這樣,通過推動滑蓋50的滑動部512,使其基部511沿卡槽 432向内滑動,可使容置腔430底部上的兩調音孔434均不被 基部511所遮蔽,或僅遮蔽其中一個調音孔434,通過選擇遮 蔽不同數量的調音孔434來控制低音的出氣量及流速,從而改 變低頻響應曲線,即可達到調節低頻音的目的,這樣便可給人 以三種不同的聽覺感受;當然,還可以根據實際需要,設計更 多的調音孔434,以具有更多的聽覺感受,此為本領域技術人 員所熟知的技術。 另外,本創作滑蓋式耳機1的調音組件50,可通用於各 種入耳式耳機結構中,該調音組件50可用於單音或立體音入 耳式耳機中,也可以用於與藍牙、非藍牙結合的入耳式耳機 中,通過滑動滑蓋510,可選擇遮蔽容置腔430底部上的兩調 音孔434,或僅遮蔽一個,或兩個均不遮蔽,而改變低音的頻 率響應曲線,以達到低頻音可調的目的,結構簡單且操作簡便。 請參閱第四圖至第七圖,對本創作滑蓋式耳機1的低頻音 調節原理進行說明。 滑蓋式耳機1組裝完成時,調音組件50的阻尼物520黏 貼於後腔體40的中空結構内,且在靠近後腔體40前端的調音 孔434内黏貼有阻尼物520,而在靠近後腔體40的後端的調 音孔434處則不黏貼阻尼物520,調音組件50的滑蓋510設 置於容置腔430内,因此,滑蓋510的基部511可將兩調音孔 434均遮蔽,即調音孔434全閉,此時低頻聲較弱,如第五圖 所示;推動滑蓋510的滑動部512,使滑蓋510沿卡槽432向 内滑動,從而使基部511容置於後腔體40上的容置槽433内, 可使基部511僅遮蔽靠近後腔體40的後端的調音孔434,靠 近後腔體40的前端的調音孔434不被遮蔽,即使調音孔434 6 半開’這時,低頻聲中等’如第六圖所示 510,可使基部511對兩調音孔叫均不遮蔽,蓋 孔434全開的狀態,此時,低頻聲強烈,如第七圖所;兩:音 =遮蔽不同數量的調音孔434,可達到控制低音的出= 抓迷的目的,從喊生不同的低相率域 種不同的聽覺感受。 攸向k就二In this embodiment, the damper 520 is disposed in the hollow structure of the rear cavity 40. Specifically, the damper 520 is attached to the tuning hole 434 near the front end of the rear cavity 40, and the damper is disposed near the rear end of the rear cavity 40. The damper 520 is not attached to the hole 434. The damper 520 can be a tuned paper having a certain thickness, density and different materials. In addition, a hollow structure through the rear cavity 40 is also installed on the bottom surface of the rear cavity 40. The hole 440, the handle 60 is mounted in the mounting hole 440. Specifically, the sliding cover 510 has a base portion 511 having a square structure. A sliding portion 512 protrudes upward from one end of the base portion 511. The base portion 511 extends from the front end of the rear cavity 40 into the receiving cavity 430, and slides the card. In the card slot 432, the blocking portion 431 is in contact with the base portion 511. Therefore, the base portion 511 is slidably coupled to the rear cavity 5 M421665 body 40. When the front cavity 20 is mounted, the front cavity 20 will slide the cover 510. Thus, by pushing the sliding portion 512 of the sliding cover 50 to slide the base portion 511 inwardly along the slot 432, the two tuning holes 434 on the bottom of the receiving cavity 430 can be shielded from the base portion 511, or only shielded. One of the tuning holes 434 can control the low frequency response curve by selecting a different number of tuning holes 434 to control the air volume and flow rate of the bass, thereby achieving the purpose of adjusting the low frequency sound, so that three different hearing feelings can be given. Of course, more tuning holes 434 can be designed according to actual needs to have more hearing experience, which is a technique well known to those skilled in the art. In addition, the tuning component 50 of the present slider type earphone 1 can be commonly used in various in-ear earphone structures, and the tuning component 50 can be used in a single tone or stereo in-ear earphone, and can also be used for combining with Bluetooth and non-Bluetooth. In the in-ear earphone, by sliding the sliding cover 510, the two tuning holes 434 on the bottom of the shielding cavity 430 can be selected, or only one, or neither, can be shielded, and the frequency response curve of the bass is changed to achieve the low frequency. The purpose of the adjustable sound is simple in structure and easy to operate. Please refer to the fourth to seventh figures for explaining the principle of low frequency sound adjustment of the present slide type earphone 1. When the slider type earphone 1 is assembled, the damper 520 of the tuning component 50 is adhered to the hollow structure of the rear cavity 40, and the damper 520 is adhered to the tuning hole 434 near the front end of the rear cavity 40, and after approaching The damper 520 is not attached to the tuning hole 434 of the rear end of the cavity 40, and the sliding cover 510 of the tuning component 50 is disposed in the accommodating cavity 430. Therefore, the base 511 of the sliding cover 510 can shield both tuning holes 434, that is, The tuning hole 434 is fully closed, and the low frequency sound is weak, as shown in FIG. 5; the sliding portion 512 of the sliding cover 510 is pushed to slide the sliding cover 510 inward along the slot 432, so that the base portion 511 is received in the rear cavity. In the accommodating groove 433 of the body 40, the base portion 511 can shield only the tuning hole 434 near the rear end of the rear cavity 40, and the tuning hole 434 near the front end of the rear cavity 40 is not shielded even if the tuning hole 4434 is half open. At this time, the low-frequency sound is medium 510 as shown in the sixth figure, so that the base portion 511 can neither block the two tuning holes, and the cover hole 434 is fully open. At this time, the low-frequency sound is strong, as shown in the seventh figure; = masking a different number of tuning holes 434, can achieve the control of the bass out = the purpose of catching the fans, from shouting Different low fraction domain different listening experience.攸向k就二
如上,本創作滑蓋式耳檣】^ ^ A 機1,其調音組件5〇活動地連接 於後腔體40上,因此,通過拖私 尥推動調音組件50滑動,可使調音 組件50遮蔽後腔體40上的不同堆立β ^ 们不问調音孔434,通過選擇遮蔽不 同數量的調音孔434’來控制低音的出氣量及流速,從而改變 低音的低頻響應曲線’從而得到不同的聽覺感受。 【圖式簡單說明】 第-圖是本創作滑蓋式耳機的結構示意圖。 第二圖是本創作滑蓋式耳機的分解示意圖。 第三圖是本創作滑蓋式耳機的另一角度分解示意圖。 第四圖是本創作滑蓋式耳機的剖視圖。 第五圖是本創作滑蓋式耳機的狀態示意圖一。 第六圖是本創作滑蓋式耳機的狀態示意圖二。 第七圖是本創作滑蓋式耳機的狀態示意圖三。 【主要元件符號說明】 滑蓋式耳機 1 耳套 10 第一抵觸部 110 前腔體 20 連接端 210 第二抵觸部 211 收容端 220 收容腔 221 喇0八單體 30 後腔體 40 開口 41〇 連接部 420 M421665 容置腔 430 卡槽 432 調音孔 434 調音組件 50 基部 511 阻尼物 520 阻擋部 431 容置槽 433 安裝孔 440 滑蓋 510 滑動部 512 手柄 60As described above, the present slider type earphones ^^ A machine 1 has a tuning component 5〇 movably connected to the rear cavity 40, so that the tuning component 50 is pushed by the dragging and pulling, so that the tuning component 50 can be shielded. Different stackings on the cavity 40 do not ask the tuning hole 434, and by selecting a different number of tuning holes 434' to control the outflow and flow rate of the bass, thereby changing the low frequency response curve of the bass, thereby obtaining different auditory feelings. . [Simple description of the diagram] The first figure is a schematic diagram of the structure of the slide-type earphone of the present invention. The second picture is an exploded view of the created slide type earphone. The third figure is another perspective exploded view of the created slide type earphone. The fourth picture is a cross-sectional view of the present slide type earphone. The fifth picture is a schematic diagram 1 of the state of the present slide type earphone. The sixth picture is the state diagram 2 of the created slide type earphone. The seventh picture is the state diagram 3 of the created slide type earphone. [Main component symbol description] Slide type earphone 1 Ear cover 10 First contact part 110 Front cavity 20 Connection end 210 Second contact part 211 Reception end 220 Reception cavity 221 La 0 8 single body 30 Rear cavity 40 Opening 41〇 Connection portion 420 M421665 accommodating chamber 430 card slot 432 tuning hole 434 tuning assembly 50 base 511 damper 520 blocking portion 431 accommodating groove 433 mounting hole 440 sliding cover 510 sliding portion 512 handle 60