本發明係有關於測距儀設備的技術領域,特別是有關於一種具有無線充電功能的無線充電型測距儀。The present invention relates to the technical field of rangefinder equipment, and in particular to a wireless charging rangefinder with a wireless charging function.
現有的光學式測距裝置應用的範圍相當廣泛,例如應用於工程、量測甚至是休閒運動。高爾夫球運動由於需要量測擊球點與球道或擊球點與果嶺、球洞的距離,以便決定使用不同規格的木桿或鐵桿擊球,除了傳統以助理人員(桿弟)協助計算以外,雷測測距儀近年來也廣泛地被高爾夫球愛好者使用,直接量測所需要的距離。The existing optical distance measuring devices are widely used, such as in engineering, measurement and even leisure sports. In golf, the distance between the hitting point and the fairway or the hitting point and the green or the hole needs to be measured in order to decide whether to use different specifications of wood clubs or iron clubs to hit the ball. In addition to the traditional method of using assistants (club buddies) to assist in the calculation, in recent years, laser distance measuring instruments have also been widely used by golf enthusiasts to directly measure the required distance.
現有的雷射測距儀在多次使用之後由於電力耗盡,所以需要先進行充電或更換電池才能使用,由於高爾夫場為室外場地,沒有充電的相關設施,因此使用者必須攜帶額外的電池,如此甚為不便。Existing laser rangefinders run out of power after multiple uses, so they need to be charged or the battery replaced before use. Since golf courses are outdoor venues and there are no charging facilities, users must carry extra batteries, which is very inconvenient.
有鑑於此,本發明的目的在於提供一種無線充電型測距儀,其能夠使用行動充電裝置以無線充電的方式對測距儀本體進行充電,解決了先前技術必須使用者須攜帶額外電池所造成使用不便的問題。In view of this, the purpose of the present invention is to provide a wireless charging type rangefinder, which can use a mobile charging device to charge the rangefinder body in a wireless charging manner, solving the problem of the previous technology that the user must carry an additional battery to cause inconvenience.
本發明的無線充電型測距儀的一實施例包括至少一測距儀本體以及一磁性單元。測距儀本體包括一測距單元、一第一控制單元、一第一電源一第一線圈、一物鏡單元以及一目鏡單元,測距單元、第一電源及第一線圈係電性連接於第一控制單元。一光軸通過物鏡單元與目鏡單元,磁性單元令第一線圈可供對應一充電裝置的一第二線圈,而令測距儀本體可供與充電裝置進行充電。An embodiment of the wireless charging rangefinder of the present invention includes at least one rangefinder body and a magnetic unit. The rangefinder body includes a rangefinder unit, a first control unit, a first power source, a first coil, an objective unit and an eyepiece unit. The rangefinder unit, the first power source and the first coil are electrically connected to the first control unit. An optical axis passes through the objective unit and the eyepiece unit, and the magnetic unit allows the first coil to correspond to a second coil of a charging device, so that the rangefinder body can be charged by the charging device.
在另一實施例中,其更包括一充電裝置,充電裝置包括一第二控制單元、一第二電源以及一第二線圈,第二電源與第二線圈係電性連接於第二控制單元,第二電源的電流通過第二線圈,且第二線圈與第一線圈之間藉由電磁效應在第一線圈產生電流,對第一電源進行充電。In another embodiment, it further includes a charging device, which includes a second control unit, a second power source and a second coil. The second power source and the second coil are electrically connected to the second control unit. The current of the second power source passes through the second coil, and the second coil generates a current in the first coil through the electromagnetic effect between the second coil and the first coil, thereby charging the first power source.
在另一實施例中,磁性單元更包括一第二磁性元件,第一磁性元件設置於測距儀本體,第二磁性元件設置於充電裝置,第一磁性元件與第二磁性元件相互吸引使充電裝置結合於測距儀本體。In another embodiment, the magnetic unit further includes a second magnetic element, the first magnetic element is disposed on the rangefinder body, and the second magnetic element is disposed on the charging device, and the first magnetic element and the second magnetic element attract each other so that the charging device is combined with the rangefinder body.
在另一實施例中,測距儀本體更包括一第一殼體,第一殼體具有一第一結合壁,第一線圈設置於第一結合壁,充電裝置更包括一第二殼體,第二殼體具有一第二結合壁,第二線圈設置於第二結合壁。In another embodiment, the rangefinder body further includes a first shell, the first shell has a first connecting wall, the first coil is arranged on the first connecting wall, and the charging device further includes a second shell, the second shell has a second connecting wall, and the second coil is arranged on the second connecting wall.
在另一實施例中,磁性單元更包括一第二磁性元件,第一磁性元件與第二磁性元件相互吸引使充電裝置的第二結合壁結合於測距儀本體的第一結合壁,第一磁性元件設置於測距儀本體的第一殼體的第一結合壁或與第一結合壁相對的一側壁,第二磁性元件設置於充電裝置的第二殼體的第二結合壁或與第二結合壁相對的一側壁,第一結合壁具有第一殼體最大的表面積,第一結合壁的法線與該光軸歪斜或相交。In another embodiment, the magnetic unit further includes a second magnetic element, the first magnetic element and the second magnetic element attract each other so that the second coupling wall of the charging device is coupled to the first coupling wall of the rangefinder body, the first magnetic element is disposed on the first coupling wall of the first shell of the rangefinder body or a side wall opposite to the first coupling wall, the second magnetic element is disposed on the second coupling wall of the second shell of the charging device or a side wall opposite to the second coupling wall, the first coupling wall has the largest surface area of the first shell, and the normal of the first coupling wall is skewed or intersected with the optical axis.
在另一實施例中,距儀本體更包括一防手震單元,防手震單元結合於測距單元且電性連接於第一控制單元,當測距儀本體產生晃動時,防手震單元使測距單元保持在既定的量測位置。In another embodiment, the rangefinder body further includes an anti-shake unit, which is combined with the distance measuring unit and electrically connected to the first control unit. When the rangefinder body shakes, the anti-shake unit keeps the distance measuring unit at a predetermined measuring position.
在另一實施例中,充電裝置更包括一位置資訊產生單元,位置資訊產生單元電性連接於第二控制單元,位置資訊產生單元接收衛星訊號而產生一位置資料;充電裝置更包括一充電裝置通訊單元,充電裝置通訊單元係電性連接於第二控制單元,充電裝置通訊單元與一電子裝置形成訊號連接,位置資料經由充電裝置通訊單元傳送至電子裝置。In another embodiment, the charging device further includes a location information generating unit, which is electrically connected to the second control unit and receives satellite signals to generate location data; the charging device further includes a charging device communication unit, which is electrically connected to the second control unit and forms a signal connection with an electronic device, and the location data is transmitted to the electronic device via the charging device communication unit.
在另一實施例中,測距儀本體更包括一電量偵測單元,電量偵測單元係電性連接於第一控制單元,電量偵測單元偵測第一電源的電量,當第一電源的電量到達設定值時,第一控制單元產生控制訊號;測距儀本體更包括一測距儀通訊單元,測距儀通訊單元係電性連接於第一控制單元,充電裝置更包括一充電裝置通訊單元,充電裝置通訊單元電性連接於第二控制單元,且充電裝置通訊單元與測距儀通訊單元形成訊號連接,控制訊號經由測距儀通訊單元及充電裝置通訊單元傳送至第二控制單元,第二控制單元停止第二電源對第二線圈的供電。In another embodiment, the rangefinder body further includes a power detection unit, which is electrically connected to the first control unit. The power detection unit detects the power of the first power source. When the power of the first power source reaches a set value, the first control unit generates a control signal; the rangefinder body further includes a rangefinder communication unit, which is electrically connected to the first control unit. The charging device further includes a charging device communication unit, which is electrically connected to the second control unit, and the charging device communication unit forms a signal connection with the rangefinder communication unit. The control signal is transmitted to the second control unit via the rangefinder communication unit and the charging device communication unit, and the second control unit stops the second power source from supplying power to the second coil.
在另一實施例中,充電裝置更包括一顯示單元,顯示單元電性連接於第二控制單元。In another embodiment, the charging device further includes a display unit, which is electrically connected to the second control unit.
在另一實施例中,充電裝置更包括多個環境感測器,該等環境感測器包括溫度感測器、濕度感測器及風向感測器。In another embodiment, the charging device further includes a plurality of environmental sensors, which include a temperature sensor, a humidity sensor, and a wind direction sensor.
在另一實施例中,充電裝置更包括一電源管理模組以及一充電接口,充電接口連接於電源管理模組,電源管理模組電性連接於第二控制單元,充電接口連接於一外部電源,經由電源管理模組對第二電源進行充電。In another embodiment, the charging device further includes a power management module and a charging interface, the charging interface is connected to the power management module, the power management module is electrically connected to the second control unit, the charging interface is connected to an external power source, and the second power source is charged via the power management module.
在另一實施例中,其更包括複數個測距儀本體,一個該電裝置對複數個測距儀本體進行充電。In another embodiment, it further includes a plurality of rangefinder bodies, and an electrical device charges the plurality of rangefinder bodies.
本發明的無線充電型測距儀藉由測距儀本體設置第一線圈和充電裝置設置第二線圈,第一線圈與第二線圈耦合而利用電磁感應原理,使充電裝置的第二電源的電力傳送至測距儀本體的第一電源而進行充電。在不拆卸電池的情況下,提供快速、便攜、高效的無線充電,為測距儀提供持久可靠的電力,延長續航時間,繼而降低電池污染。同時將需要消耗大電量的實用性功能外置拓展,豐富其功能,增加測距儀的互動性。The wireless charging type rangefinder of the present invention is provided with a first coil on the rangefinder body and a second coil on the charging device. The first coil is coupled with the second coil and the electromagnetic induction principle is used to transmit the power of the second power source of the charging device to the first power source of the rangefinder body for charging. Without removing the battery, fast, portable and efficient wireless charging is provided to provide the rangefinder with long-lasting and reliable power, extend the battery life, and further reduce battery pollution. At the same time, practical functions that require large power consumption are externally expanded to enrich its functions and increase the interactivity of the rangefinder.
1:無線充電型測距儀1: Wireless charging rangefinder
10:測距儀本體10: Rangefinder body
10a:物鏡單元10a:Objective unit
10b:目鏡單元10b: Eyepiece unit
11:測距單元11: Ranging unit
12:第一控制單元12: First control unit
13:第一電源13: First Power Source
14:第一線圈14: First coil
15:第一殼體15: First shell
16:防手震單元16: Anti-shake unit
17:測距儀通訊單元17: Rangefinder communication unit
18:電量偵測單元18: Power detection unit
20:充電裝置20: Charging device
21:第二控制單元21: Second control unit
22:第二電源22: Second power source
23:第二線圈23: Second coil
24:第二殼體24: Second shell
25:位置資訊產生單元25: Location information generation unit
26:充電裝置通訊單元26: Charging device communication unit
27:顯示單元27: Display unit
28:環境感測器28: Environmental sensor
29:電源管理模組29: Power management module
29a:充電接口29a: Charging port
30:磁性單元30: Magnetic unit
31:第一磁性元件31: First magnetic element
32:第二磁性元件32: Second magnetic element
151:第一結合壁151: First junction wall
241:第二結合壁241: Second junction wall
M:行動電話M: Mobile phone
N:法線N: Normal
O:光軸O: optical axis
W:高爾夫球車W: Golf cart
圖1為本發明的無線充電型測距儀的一實施例的系統方塊圖。Figure 1 is a system block diagram of an embodiment of the wireless charging rangefinder of the present invention.
圖2為本發明的無線充電型測距儀的一實施例的立體圖。Figure 2 is a three-dimensional diagram of an embodiment of the wireless charging rangefinder of the present invention.
圖3為圖2的無線充電型測距儀的使用狀態圖。Figure 3 is a diagram showing the usage status of the wireless charging rangefinder in Figure 2.
圖4為圖2的無線充電型測距儀的測距儀本體的立體圖。FIG4 is a three-dimensional diagram of the wireless charging rangefinder of FIG2.
圖5為圖2的無線充電型測距儀的充電裝置的立體圖。Figure 5 is a three-dimensional diagram of the charging device of the wireless charging rangefinder in Figure 2.
圖6為圖5的充電裝置的部分剖視圖。Figure 6 is a partial cross-sectional view of the charging device in Figure 5.
圖7為本發明的無線充電型測距儀與行動電話通訊連接的示意圖。Figure 7 is a schematic diagram of the wireless charging rangefinder of the present invention connected to a mobile phone for communication.
圖8為本發明的多個測距儀本體由一個充電裝置進行無線充電的示意圖。Figure 8 is a schematic diagram of multiple rangefinder bodies of the present invention being wirelessly charged by a charging device.
請參閱圖1、圖2、圖3及圖4,其表示本發明的無線充電型測距儀的一實施例。本實施例的無線充電型測距儀1包括至少一測距儀本體10、一充電裝置20以及一磁性單元30。Please refer to Figures 1, 2, 3 and 4, which show an embodiment of the wireless charging type rangefinder of the present invention. The wireless charging type rangefinder 1 of this embodiment includes at least a rangefinder body 10, a charging device 20 and a magnetic unit 30.
測距儀本體10包括一測距單元11、一第一控制單元12、一第一電源13、一第一線圈14、一第一殼體15、一物鏡單元10a以及一目鏡單元10b。測距單元11、第一控制單元12、第一電源13及第一線圈14係設置於第一殼體15內,且測距單元11、第一電源13及第一線圈14是電性連接於第一控制單元12。一光軸O通過物鏡單元10a與目鏡單元10b。測距單元11包括光源、光束投射鏡頭、光束接收鏡頭以及感測器,藉此進行測距。第一控制單元12為微處理器,第一電源13為鋰電池。第一控制單元12與第一線圈14設置於一電路板,第一電源13供電於測距單元11及第一控制單元12,以便使用者利用測距單元11進行測距。The rangefinder body 10 includes a rangefinder unit 11, a first control unit 12, a first power source 13, a first coil 14, a first housing 15, an objective unit 10a and an eyepiece unit 10b. The rangefinder unit 11, the first control unit 12, the first power source 13 and the first coil 14 are arranged in the first housing 15, and the rangefinder unit 11, the first power source 13 and the first coil 14 are electrically connected to the first control unit 12. An optical axis O passes through the objective unit 10a and the eyepiece unit 10b. The rangefinder unit 11 includes a light source, a beam projection lens, a beam receiving lens and a sensor, thereby performing distance measurement. The first control unit 12 is a microprocessor, and the first power source 13 is a lithium battery. The first control unit 12 and the first coil 14 are arranged on a circuit board, and the first power source 13 supplies power to the distance measuring unit 11 and the first control unit 12, so that the user can use the distance measuring unit 11 to measure the distance.
充電裝置20包括一第二控制單元21、一第二電源22以及一第二線圈23以及一第二殼體24,第二控制單元21、第二電源22以及第二線圈23設置於第二殼體24內,第二電源22與第二線圈23係電性連接於第二控制單元21。本實施例的第二控制單元21為微處理器或單晶片,第二電源22為鋰電池。第二控制單元21與第二線圈23設置於一電路板。The charging device 20 includes a second control unit 21, a second power source 22, a second coil 23 and a second housing 24. The second control unit 21, the second power source 22 and the second coil 23 are arranged in the second housing 24. The second power source 22 and the second coil 23 are electrically connected to the second control unit 21. The second control unit 21 of this embodiment is a microprocessor or a single chip, and the second power source 22 is a lithium battery. The second control unit 21 and the second coil 23 are arranged on a circuit board.
如圖4及圖6所示,磁性單元30結合測距儀本體10與充電裝置20。本實施例的磁性單元30包括一第一磁性元件31以及一第二磁性元件32,第一磁性元件31設置於測距儀本體10的第一殼體15的一第一結合壁151的內表面,第二磁性元件32設置於充電裝置20的第二殼體24的一第二結合壁241的內表面,使用者將第一殼體15的第一結合壁151與第二殼體24的第二結合壁241相向放置,第一磁性元件31與第二磁性元件32相互吸引使充電裝置20結合於測距儀本體10。第一結合壁151為具有第一殼體15最大的表面積的壁面,以令其有足夠空間安裝、以爭取較大的吸附面積,而增加吸附時的穩定度,第一結合壁151的法線N與光軸O歪斜或相交,本實施例的第一結合壁151的法線N與光軸O形成歪斜。在其他實施例中,第一結合壁151的法線N與光軸O可形成相交,甚至是正交。As shown in FIG. 4 and FIG. 6 , the magnetic unit 30 combines the rangefinder body 10 and the charging device 20. The magnetic unit 30 of this embodiment includes a first magnetic element 31 and a second magnetic element 32. The first magnetic element 31 is disposed on the inner surface of a first coupling wall 151 of the first shell 15 of the rangefinder body 10, and the second magnetic element 32 is disposed on the inner surface of a second coupling wall 241 of the second shell 24 of the charging device 20. When the user places the first coupling wall 151 of the first shell 15 and the second coupling wall 241 of the second shell 24 facing each other, the first magnetic element 31 and the second magnetic element 32 attract each other to couple the charging device 20 to the rangefinder body 10. The first coupling wall 151 is the wall with the largest surface area of the first housing 15, so that it has enough space for installation, so as to obtain a larger adsorption area and increase the stability during adsorption. The normal line N of the first coupling wall 151 is skewed or intersected with the optical axis O. In this embodiment, the normal line N of the first coupling wall 151 is skewed with the optical axis O. In other embodiments, the normal line N of the first coupling wall 151 and the optical axis O may intersect or even be orthogonal.
第一線圈14設置在第一結合壁151的內表面,第二線圈23設置在第二結合壁241的內表面。當第一磁性元件31與第二磁性元件32相互吸引,使第一結合壁151抵接於第二結合壁241時,第一線圈14對應於第二線圈23。第二電源22的電流通過第二線圈23產生磁場,且第二線圈23與第一線圈14之間藉由電磁耦合效應由磁場在第一線圈14產生電流,對第一電源13進行充電。The first coil 14 is arranged on the inner surface of the first coupling wall 151, and the second coil 23 is arranged on the inner surface of the second coupling wall 241. When the first magnetic element 31 and the second magnetic element 32 attract each other, so that the first coupling wall 151 abuts against the second coupling wall 241, the first coil 14 corresponds to the second coil 23. The current of the second power source 22 passes through the second coil 23 to generate a magnetic field, and the second coil 23 and the first coil 14 generate a current in the first coil 14 through the electromagnetic coupling effect, and the first power source 13 is charged.
雖然本實施例是將第一線圈14與第一磁性元件31都設置在第一結合壁151使第一線圈14與第二線圈23對應而進行電磁耦合,但本發明不限於此,在另一實施例中,第一磁性元件31也可以是設置在與第一結合壁151相對的側壁,藉由增強第一磁性元件31的磁通密度,使第一磁性元件31的磁場穿過測距儀本體10而與設置在充電裝置20的第二殼體24的第二結合壁241的第二磁性元件32產生磁吸作用,也同樣可以達到使充電裝置20與測距儀本體10的作用。同樣地,在又另一實施例中,第二磁性元件32也可以是設置在與第二結合壁241相對的一側壁。Although the first coil 14 and the first magnetic element 31 are both arranged on the first coupling wall 151 so that the first coil 14 corresponds to the second coil 23 for electromagnetic coupling in this embodiment, the present invention is not limited thereto. In another embodiment, the first magnetic element 31 may also be arranged on the side wall opposite to the first coupling wall 151. By enhancing the magnetic flux density of the first magnetic element 31, the magnetic field of the first magnetic element 31 passes through the rangefinder body 10 and generates a magnetic attraction with the second magnetic element 32 arranged on the second coupling wall 241 of the second shell 24 of the charging device 20, which can also achieve the effect of coupling the charging device 20 with the rangefinder body 10. Similarly, in another embodiment, the second magnetic element 32 may also be arranged on a side wall opposite to the second coupling wall 241.
雖然本實施例的磁性單元30是以磁鐵吸附的結構達成充電裝置20結合於測距儀本體10,但本發明不限於此,在其他實施例中,第一殼體15與第二殼體24也可以是以卡合機構或卡扣機構使充電裝置20結合於測距儀本體10,而且使第一結合壁151與第二結合壁241相對設置。Although the magnetic unit 30 of this embodiment is a structure of magnetic adsorption to achieve the connection between the charging device 20 and the rangefinder body 10, the present invention is not limited thereto. In other embodiments, the first shell 15 and the second shell 24 can also be a snap mechanism or a buckle mechanism to connect the charging device 20 to the rangefinder body 10, and the first connection wall 151 and the second connection wall 241 are arranged opposite to each other.
如圖1所示,本實施例的測距儀本體10更包括一防手震單元16,防手震單元16結合於測距單元11且電性連接於第一控制單元12,當測距儀本體10產生晃動時,防手震單元16使測距單元11保持在既定的量測位置。防手震單元16可以是包括線圈、磁鐵及磁感應元件(霍爾感應器),線圈與磁鐵耦合達成位置補償,磁感應元件偵測磁鐵的位置作為位置偵測結果而回饋至第一控制單元12。As shown in FIG1 , the rangefinder body 10 of the present embodiment further includes an anti-shake unit 16. The anti-shake unit 16 is combined with the rangefinder unit 11 and electrically connected to the first control unit 12. When the rangefinder body 10 shakes, the anti-shake unit 16 keeps the rangefinder unit 11 at a predetermined measuring position. The anti-shake unit 16 may include a coil, a magnet, and a magnetic induction element (Hall sensor). The coil is coupled with the magnet to achieve position compensation. The magnetic induction element detects the position of the magnet and feeds back the position detection result to the first control unit 12.
現有技術的防手震設備的該磁感應元件(霍爾感應器)如果太過靠近該第一磁性元件31,將可能會影響該磁感應元件(霍爾感應器),故當使用磁鐵吸附功能或許會影響到測距單元使其光軸產生偏差,因此現有技術的磁鐵吸附結構無法與防手震功能共存,本實施例的磁性單元30在充分考慮該第一磁性元件31與該磁感應元件(霍爾感應器)的間距,或者考量在該第一磁性元件31的磁力背景基礎下,對應調整該磁感應元件(霍爾感應器)以令該防手震單元在受磁力干擾下仍可正常補償手持震動。If the magnetic induction element (Hall sensor) of the prior art anti-shake device is too close to the first magnetic element 31, it may affect the magnetic induction element (Hall sensor). Therefore, when the magnetic adsorption function is used, it may affect the distance measuring unit and cause deviation of its optical axis. Therefore, the magnetic adsorption structure of the prior art cannot coexist with the anti-shake function. The magnetic unit 30 of this embodiment fully considers the distance between the first magnetic element 31 and the magnetic induction element (Hall sensor), or considers the magnetic background of the first magnetic element 31. The magnetic induction element (Hall sensor) is adjusted accordingly so that the anti-shake unit can still compensate for the hand-held vibration normally under magnetic interference.
如圖1、圖5及圖6所示,充電裝置20更包括一位置資訊產生單元25、一充電裝置通訊單元26、一顯示單元27以及多個環境感測器28。位置資訊產生單元25、充電裝置通訊單元26、顯示單元27以及多個環境感測器28電性連接於第二控制單元21。位置資訊產生單元25接收衛星訊號而產生一位置資料,例如位置資訊產生單元25可以是衛星定位晶片模組,接收例如美國全球衛星定位系統(GPS)的訊號或中國的北斗衛星導航系統(BeiDou Navigation Satellite System)的訊號而產生位置座標數據,再配合例如高爾夫球場的地圖,可以讓使用者知道目前的位置。充電裝置通訊單元26與測距儀本體10或外部的電子裝置形成訊號連接,如圖7所示,充電裝置20與一行動電話M形成電性連接。多個環境感測器28偵測環境,本實施例的環境感測器28包括溫度感測器、濕度感測器及風向感測器,產生溫度、濕度及風向等的環境數據。位置座標數據和溫度、濕度及風向等環境數據能夠顯示於顯示單元27或經由充電裝置通訊單元26傳送至行動電話M顯示。顯示單元27可以是觸控式螢幕,除了顯示資訊以外,還可以供使用者輸入設定數據。As shown in FIG. 1 , FIG. 5 and FIG. 6 , the charging device 20 further includes a position information generating unit 25, a charging device communication unit 26, a display unit 27 and a plurality of environmental sensors 28. The position information generating unit 25, the charging device communication unit 26, the display unit 27 and the plurality of environmental sensors 28 are electrically connected to the second control unit 21. The position information generating unit 25 receives a satellite signal to generate a position data. For example, the position information generating unit 25 can be a satellite positioning chip module, which receives a signal such as the US Global Positioning System (GPS) or a signal of China's BeiDou Navigation Satellite System to generate position coordinate data, and then combined with a map of a golf course, for example, the user can know the current position. The charging device communication unit 26 forms a signal connection with the rangefinder body 10 or an external electronic device. As shown in FIG7 , the charging device 20 forms an electrical connection with a mobile phone M. Multiple environmental sensors 28 detect the environment. The environmental sensors 28 of this embodiment include a temperature sensor, a humidity sensor, and a wind direction sensor, which generate environmental data such as temperature, humidity, and wind direction. The position coordinate data and environmental data such as temperature, humidity, and wind direction can be displayed on the display unit 27 or transmitted to the mobile phone M for display via the charging device communication unit 26. The display unit 27 can be a touch screen, which can be used by the user to input setting data in addition to displaying information.
充電裝置20更包括一電源管理模組29以及一充電接口29a,充電接口29a設置於第二殼體24且連接於電源管理模組29,電源管理模組29為充電電路且電性連接於第二控制單元21。電源管理模組29偵測第二電源22的電量,而且產生第二電源22的電量數據,第二電源22的電量數據可顯示於顯示單元27。充電接口29a具有一插座電連接器,例如USB type C的電連接器,而且充電接口29a以纜線連接於一外部電源(例如市電),外部電源的電力經由充電接口29a傳送至電源管理模組29對第二電源22進行充電。The charging device 20 further includes a power management module 29 and a charging interface 29a. The charging interface 29a is disposed in the second housing 24 and connected to the power management module 29. The power management module 29 is a charging circuit and is electrically connected to the second control unit 21. The power management module 29 detects the power of the second power source 22 and generates power data of the second power source 22. The power data of the second power source 22 can be displayed on the display unit 27. The charging interface 29a has a socket electrical connector, such as a USB type C electrical connector, and the charging interface 29a is connected to an external power source (such as a mains power supply) by a cable. The power of the external power source is transmitted to the power management module 29 via the charging interface 29a to charge the second power source 22.
測距儀本體10更包括一測距儀通訊單元17以及一電量偵測單元18,測距儀通訊單元17和電量偵測單元18係電性連接於第一控制單元12,電量偵測單元18偵測第一電源13的電量產生電量數據,第一控制單元12將電量數據與設定值比對,當第一電源13的電量數據到達設定值時,第一控制單元12產生控制訊號。測距儀通訊單元17與充電裝置通訊單元26與形成訊號連接,控制訊號經由測距儀通訊單元17及充電裝置通訊單元26傳送至第二控制單元21,第二控制單元21停止第二電源22對第二線圈23的供電。例如電量偵測單元18偵測到第一電源13的電量達到100%之後3秒鐘,及產生控制訊號。電量數據也可以經由測距儀通訊單元17和電量偵測單元18傳送至第二控制單元21,由第二控制單元21傳送至顯示單元27顯示第一電源13的電量。測距儀通訊單元17與充電裝置通訊單元26可以是例如藍芽通訊技術或WiFi通訊技術。The rangefinder body 10 further includes a rangefinder communication unit 17 and a power detection unit 18. The rangefinder communication unit 17 and the power detection unit 18 are electrically connected to the first control unit 12. The power detection unit 18 detects the power of the first power source 13 to generate power data. The first control unit 12 compares the power data with the set value. When the power data of the first power source 13 reaches the set value, the first control unit 12 generates a control signal. The rangefinder communication unit 17 and the charging device communication unit 26 form a signal connection. The control signal is transmitted to the second control unit 21 via the rangefinder communication unit 17 and the charging device communication unit 26. The second control unit 21 stops the second power source 22 from supplying power to the second coil 23. For example, the power detection unit 18 detects that the power of the first power source 13 reaches 100% 3 seconds later and generates a control signal. The power data can also be transmitted to the second control unit 21 via the rangefinder communication unit 17 and the power detection unit 18, and then transmitted to the display unit 27 by the second control unit 21 to display the power of the first power source 13. The rangefinder communication unit 17 and the charging device communication unit 26 can be, for example, Bluetooth communication technology or WiFi communication technology.
如圖8所示,在另一實施例中,可以是以一個充電裝置20對複數個測距儀本體10進行充電。充電裝置20可以是設置在高爾夫球車W上充電裝置20具有較大的第二殼體24而且設置多個第二線圈,需要充電時,將多個測距儀本體10以磁鐵吸附的結構結合於充電裝置20且對應於多個第二線圈進行充電。As shown in FIG8 , in another embodiment, a charging device 20 can be used to charge a plurality of rangefinder bodies 10. The charging device 20 can be installed on the golf cart W. The charging device 20 has a larger second housing 24 and is provided with a plurality of second coils. When charging is required, the plurality of rangefinder bodies 10 are combined with the charging device 20 by a magnetic adsorption structure and the plurality of second coils are charged accordingly.
本發明的無線充電型測距儀藉由測距儀本體設置第一線圈和充電裝置設置第二線圈,第一線圈與第二線圈耦合而利用電磁感應原理,使充電裝置的第二電源的電力傳送至測距儀本體的第一電源而進行充電。在不拆卸電池的情況下,提供快速、便攜、高效的無線充電,為測距儀提供持久可靠的電力,延長續航時間,繼而降低電池污染。同時將需要消耗大電量的實用性功能(例如但不限於使用該位置資訊產生單元25接收衛星訊號而產生一位置資料、該充電裝置通訊單元26與該電子裝置形成訊號連接,該位置資料經由該充電裝置通訊單元26傳送至該電子裝置或多個環境感測器28,該等環境感測器28包括但不限於溫度感測器、濕度感測器及風向感測器等)外置拓展,豐富其功能,增加測距儀的互動性,另外本案之另一實施例中,有關該位置資訊產生單元25、該等環境感測器28可以設在該測距儀本體10內或該測距儀通訊單元17與該充電裝置20或外部的電子裝置形成訊號連接,例如該測距儀本體10可與該行動電話M形成電性連接,而該些功能因為相對較為耗電,因此當該充電裝置20對該測距儀本體10充電時,才啟用前述相對耗電的功能。The wireless charging type rangefinder of the present invention is provided with a first coil on the rangefinder body and a second coil on the charging device. The first coil is coupled with the second coil and the electromagnetic induction principle is used to transmit the power of the second power source of the charging device to the first power source of the rangefinder body for charging. Without removing the battery, fast, portable and efficient wireless charging is provided, providing the rangefinder with long-lasting and reliable power, extending the battery life, and further reducing battery pollution. At the same time, practical functions that consume a lot of power (such as but not limited to using the location information generating unit 25 to receive satellite signals to generate location data, the charging device communication unit 26 forms a signal connection with the electronic device, and the location data is transmitted to the electronic device or multiple environmental sensors 28 via the charging device communication unit 26. The environmental sensors 28 include but are not limited to temperature sensors, humidity sensors, and wind direction sensors, etc.) are externally expanded to enrich its functions and add a rangefinder. In another embodiment of the present invention, the location information generating unit 25 and the environmental sensors 28 can be arranged in the rangefinder body 10 or the rangefinder communication unit 17 can form a signal connection with the charging device 20 or an external electronic device. For example, the rangefinder body 10 can form an electrical connection with the mobile phone M. Since these functions are relatively power-consuming, the relatively power-consuming functions are activated when the charging device 20 charges the rangefinder body 10.
惟以上所述者,僅為本發明之較佳實施例而已,當不能以此限定本發明實施之範圍,即大凡依本發明申請專利範圍及新型說明內容所作之簡單的等效變化與修飾,皆仍屬本發明專利涵蓋之範圍內。另外,本發明的任一實施例或申請專利範圍不須達成本發明所揭露之全部目的或優點或特點。此外,摘要部分和標題僅是用來輔助專利文件搜尋之用,並非用來限制本發明之權利範圍。此外,本說明書或申請專利範圍中提及的「第一」、「第二」等用語僅用以命名元件(element)的名稱或區別不同實施例或範圍,而並非用來限制元件數量上的上限或下限。However, the above is only the preferred embodiment of the present invention, and it should not be used to limit the scope of the implementation of the present invention. That is, all simple equivalent changes and modifications made according to the scope of the patent application and the new description of the present invention are still within the scope of the present invention. In addition, any embodiment or patent application of the present invention does not need to achieve all the purposes, advantages or features disclosed by the present invention. In addition, the abstract and title are only used to assist in searching for patent documents, and are not used to limit the scope of the rights of the present invention. In addition, the terms "first" and "second" mentioned in this specification or patent application are only used to name the element or distinguish different embodiments or scopes, and are not used to limit the upper or lower limit of the number of elements.
1:無線充電型測距儀1: Wireless charging rangefinder
10:測距儀本體10: Rangefinder body
10b:目鏡單元10b: Eyepiece unit
15:第一殼體15: First shell
20:充電裝置20: Charging device
24:第二殼體24: Second shell
27:顯示單元27: Display unit
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW113106803ATWI880643B (en) | 2024-02-26 | 2024-02-26 | Rangefinder with wireless charging function |
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW113106803ATWI880643B (en) | 2024-02-26 | 2024-02-26 | Rangefinder with wireless charging function |
| Publication Number | Publication Date |
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| TWI880643Btrue TWI880643B (en) | 2025-04-11 |
| TW202534972A TW202534972A (en) | 2025-09-01 |
| Application Number | Title | Priority Date | Filing Date |
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| TW113106803ATWI880643B (en) | 2024-02-26 | 2024-02-26 | Rangefinder with wireless charging function |
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| TW (1) | TWI880643B (en) |
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