WO2018112873A1 - 球体加热装置 - Google Patents

球体加热装置 Download PDF

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Publication number
WO2018112873A1
WO2018112873A1 PCT/CN2016/111673 CN2016111673W WO2018112873A1 WO 2018112873 A1 WO2018112873 A1 WO 2018112873A1 CN 2016111673 W CN2016111673 W CN 2016111673W WO 2018112873 A1 WO2018112873 A1 WO 2018112873A1
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WO
WIPO (PCT)
Prior art keywords
unit
heating
assembly
circuit board
thermal energy
Prior art date
Application number
PCT/CN2016/111673
Other languages
English (en)
French (fr)
Inventor
郭光紘
Original Assignee
东莞市宏纶运动用品有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 东莞市宏纶运动用品有限公司 filed Critical 东莞市宏纶运动用品有限公司
Priority to PCT/CN2016/111673 priority Critical patent/WO2018112873A1/zh
Publication of WO2018112873A1 publication Critical patent/WO2018112873A1/zh

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Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63BAPPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
    • A63B47/00Devices for handling or treating balls, e.g. for holding or carrying balls
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating

Definitions

  • the present invention relates to a heating device, and in particular to a ball heating device capable of heating a sphere
  • the inventors of the present invention have conceived and designed a spherical heating device to improve the lack of the prior art, thereby enhancing the industrial use and utilization.
  • an object of the present invention is to provide a heating device to solve the problem in the prior art that a low temperature of a golf ball easily makes it difficult for a golfer to control the strike distance and direction, and is easy to cause a sphere.
  • a ball heating device includes a device body, a load bearing assembly, a heating assembly, and a control assembly.
  • the main body of the device is a housing structure, and an inner surface of the main body of the device is recessed to form a storage space.
  • the carrier assembly has a receiving slot, and the receiving slot houses at least one sphere.
  • the heating assembly is located in the storage space and is located between the carrier assembly and the device body.
  • the control assembly is located in the body of the device and electrically connects the heating assembly. Among them, in control The assembly controls the heating assembly to generate thermal energy, and the carrier assembly receives the thermal energy generated by the heating assembly and transfers the thermal energy to at least one of the spheres.
  • the heating assembly includes a heat generating sheet unit and a temperature sensing unit.
  • the heat generating sheet unit is located in the storage space and is located between the load bearing assembly and the main body of the device.
  • the heat generating sheet unit is electrically connected to the control unit, and the control unit controls the heat generating sheet unit to generate heat energy.
  • the temperature sensing unit is located in the storage space and is located between the heat generating sheet unit and the main body of the apparatus, and the temperature sensing unit is electrically connected to the control unit.
  • the control component controls the heating element unit to reduce the temperature of the generated thermal energy when the control component determines that the temperature sensing unit generates a temperature value of the heating element unit that is greater than a default temperature value.
  • control component controls the temperature of the heat generating unit to increase the temperature of the generated heat energy when the control component determines that the temperature measured by the temperature sensing unit senses the temperature of the heat generating unit is less than the default temperature value.
  • the ball heating device further comprises a heat insulation component located in the storage space between the heat generating sheet unit and the device body, and the heat energy generated by the heat insulating component blocking the heat generating sheet unit is transmitted to the device body.
  • the temperature sensing unit is located on the thermal insulation component.
  • the ball heating device further includes a power supply assembly electrically connected to the control assembly and located in the main body of the device.
  • the control component comprises a circuit board unit and a switching unit.
  • the circuit board unit is located in the main body of the device and electrically connects the power supply assembly and the heating assembly.
  • the switching unit is located on the circuit board unit and electrically connected to the circuit board unit. Wherein, after the switching unit is activated to be in the first state, the switching unit drives the circuit board unit to control the heating assembly to generate thermal energy and transfer the thermal energy to the at least one sphere via the carrying assembly.
  • control component further comprises a charging interface electrically connected to the circuit board unit, wherein the charging interface receives the external power supply, and the charging interface transmits the power to the power supply component through the circuit board unit.
  • the control component further includes a warming indicator unit and a charging indicator unit.
  • the heating indicator unit is located in the circuit board unit and electrically connected to the circuit board unit. When the circuit board unit controls the heating unit to generate thermal energy, the heating indicator unit generates a light beam according to the action of the circuit board unit.
  • the charging indicator unit is located in the circuit board unit and electrically connected to the circuit board unit. When the charging interface transmits power to the power supply component, the charging indicator unit generates a light beam according to the action of the charging interface.
  • the device body includes an upper cover unit and a lower cover unit. An inner surface of the upper cover unit is recessed to form a storage space. The lower cover unit is located on the other side of the upper cover unit, and the upper cover unit and the lower cover unit are coupled to each other, and an accommodation space is formed between the upper cover unit and the lower cover unit.
  • the ball heating device of the present invention can provide thermal energy to the ball through the load bearing assembly by providing a heating assembly, and after the heating assembly generates thermal energy, so that the body of the ball can have the best elasticity, thereby allowing The golfer can easily control the distance and direction of the strike and keep the ball from being damaged.
  • FIG. 1 is a first schematic structural view of an embodiment of a spherical heating device of the present invention.
  • FIG. 2 is a second schematic structural view of an embodiment of a spherical heating device of the present invention.
  • FIG 3 is a third schematic structural view of an embodiment of a spherical heating device of the present invention.
  • FIG. 4 is a block diagram of an embodiment of a ball heating apparatus of the present invention.
  • FIG. 5 is a fourth schematic structural view of an embodiment of a spherical heating device of the present invention.
  • the ball heating device 1 includes a device body 10, a carrier assembly 11, a heating assembly 12, and a control assembly 13.
  • the apparatus main body 10 is a casing structure, and an inner side of the apparatus main body 10 is recessed to form a housing space 100.
  • the carrier assembly 11 has a receiving slot 110, and the receiving slot 110 houses at least one ball 2.
  • the heating assembly 12 is located in the housing space 100 and is located between the carrier assembly 11 and the apparatus body 10.
  • the control assembly 13 is located in the apparatus body 10 and is electrically connected to the heating assembly 12. Wherein, the control assembly 13 controls the heating assembly 12 to generate thermal energy, and the carrier assembly 11 receives the thermal energy generated by the heating assembly 12 and transfers the thermal energy to the at least one sphere 2.
  • the ball heating device 1 of the present invention includes a device body 10, a carrier assembly 11, a heating assembly 12, and a control assembly 13.
  • the apparatus body 10 may be a housing structure, and an inwardly recessed recess of the apparatus body 10 forms a housing space 100 for housing the carrier assembly 11 and the heating assembly 12.
  • the carrier assembly 11 has a receiving slot 110, and the receiving slot 110 accommodates at least one ball 2.
  • the carrier assembly 11 further has a ball taking slot 111 on the side of the receiving slot 110 for providing convenient access for the user.
  • the heating assembly 12 is located between the carrier assembly 11 and the apparatus body 10.
  • the control unit 13 can be located in the interior of the apparatus body 10 and electrically connected to the heating assembly 12.
  • the ball 2 can be placed in the accommodating groove 110 first, and the heating component 12 is controlled by the control unit 13 to generate thermal energy.
  • the carrier assembly 11 receives the thermal energy generated by the heating assembly 12 such that the body of the carrier assembly 11 also heats up.
  • the load bearing member 11 can transfer thermal energy to the sphere 2 to indirectly heat the sphere 2.
  • the ball heating device 1 of the present invention provides the heating assembly 12 under the load bearing assembly 11 on which the ball 2 is placed, so that the heating assembly 12 can conduct thermal energy to the ball 2 via the carrier assembly 11 after generating thermal energy.
  • the body of the sphere have the best elasticity to provide easy and stable control blows for the user. The distance and direction, and also make the sphere not easily damaged.
  • the heating assembly 12 of the present invention preferably includes a heat generating sheet unit 120 and a temperature sensing unit 121.
  • the heat generating sheet unit 120 is located between the carrying unit 100 and the apparatus main body 10, and the heat generating sheet unit 120 is electrically connected to the control unit 13, and the control unit 13 controls the heat generating sheet unit 120 to generate heat energy.
  • the temperature sensing unit 121 is located between the heat generating sheet unit 120 and the apparatus main body 10, and the temperature sensing unit 121 is electrically connected to the control unit 13. Wherein, when the control component 13 determines that the temperature sensing unit 121 senses the temperature of the heat generating unit 120 and the measured temperature value is greater than the default temperature value, the control unit 13 controls the heat generating unit 120 to lower the temperature of the generated thermal energy.
  • control component 13 determines that the temperature sensing unit 121 senses the temperature of the heat generating sheet unit 120 and the measured temperature value is less than the default temperature value, the control component 13 controls the heat generating unit 120 to increase the generated heat energy. temperature.
  • the heating assembly 12 of the present invention may further include a heat generating sheet unit 120 and a temperature sensing unit 121.
  • the heat generating sheet unit 120 may be a general heating sheet or a heating plate, and the temperature sensing unit 121 may be a general temperature sensor.
  • the heat generating sheet unit 120 and the temperature sensing unit 121 are both located in the housing space 100 and are located between the carrier unit 11 and the apparatus body 10.
  • the heat generating sheet unit 120 and the temperature sensing unit 121 are electrically connected to the control unit 13. Therefore, the control unit 13 can control the heat generating sheet unit 120 to generate heat energy to indirectly heat the sphere 2.
  • the ball heating device 1 of the present invention can also sense the temperature of the heat generating sheet unit 120 through the temperature sensing unit 121 to prevent the heat energy generated by the heat generating sheet unit 120 from being too high or too low, thereby providing a constant temperature.
  • the function. Therefore, the sensing unit 121 senses the temperature of the heat generating sheet unit 120, and generates a measured temperature value, such as 20, 30, 40 degrees, etc., but is not limited thereto. Then, the control component 13 compares the measured temperature value with a default temperature value (for example, 30 degrees, but not limited thereto).
  • control component 13 determines that the measured temperature value is greater than the default temperature value, the control component 13 The heating element unit 120 is controlled to lower the temperature of the generated thermal energy; and when the control unit 13 determines that the measured temperature value is less than the default temperature value, the control unit 13 controls the heating element unit 120 to increase the temperature of the generated thermal energy.
  • the ball heating device 1 of the present invention may further include a heat insulating component 14 located between the heat generating sheet unit 120 and the device body 10, and the heat insulating component 14 blocks the heat generating sheet unit 120.
  • the generated thermal energy is transmitted to the apparatus body 10.
  • the temperature sensing unit 121 is preferably located at the thermal insulation component 14 on. That is, the ball heating device 1 of the present invention may further be disposed between the heat generating sheet unit 120 and the device body 10, and the heat insulating component 14 may be an EVA foam, but not limited thereto.
  • the materials that can be insulated can belong to the range in which the heat insulating component 14 of the present invention can be applied.
  • the heat insulating component 14 can block the heat energy generated by the heat generating sheet unit 120 from being transmitted to the apparatus main body 10. To prevent the device body 10 from heating up or overheating.
  • the ball heating device 1 of the present invention preferably further includes a power supply assembly 15, electrically connected to the control assembly 13, and located in the device body 10.
  • the power supply unit 15 can be a rechargeable battery that supplies the power required to operate the components of the ball heating unit 1 through the power supply unit 15.
  • control component 13 can include a circuit board unit 130 and a switching unit 1 31.
  • the circuit board unit 130 is located in the apparatus main body 10 and electrically connects the power supply unit 15 and the heating unit 12.
  • the switching unit 131 is located on the circuit board unit 130 and electrically connected to the circuit board unit 130. Wherein, after the switching unit 131 is touched to be in the first state, the switching unit 131 drives the circuit board unit 130 to control the heating assembly 12 to generate thermal energy, and transfers the thermal energy to the at least one sphere 2 via the carrying assembly 11.
  • the control component 13 of the present invention may include a circuit board unit 130 and a switching unit 131.
  • the circuit board unit 130 may be a PCB circuit board having processing and control functions
  • the switching unit 131 may be a general ⁇ The device is turned off, and the switching unit 131 is electrically connected to the circuit board unit 130. Therefore, when the user touches the shut-off unit 131 and the switching unit 131 is in the first state, for example, the ON state, the switching unit 131 drives the circuit board unit 130 to control the heat generating unit 120 of the heating assembly 12. The heat is applied to the ball 2 via the carrier assembly 11.
  • the switching unit 131 can be placed in the second state, for example, the OFF state, and then the switching unit 131 drives the circuit board unit.
  • the heat generating sheet unit 120 that controls the heating unit 12 stops generating heat energy.
  • the control component 13 preferably further includes a charging interface 132 electrically connected to the circuit board unit 130.
  • the charging interface 132 receives the external power source 3, and the charging interface 132 transmits power to the power supply component 15 through the circuit board unit 130.
  • the present invention can further provide a charging interface 13 2 on the circuit board unit 130, and provide a user with a power supply through the charging interface 132, such as a power source of the mobile power source or a home socket, but not Limited) The supplied power is introduced into the power supply component 15 to supply power Component 15 is charged.
  • control component 13 preferably further includes a warming indicator unit 133 and a charging indicator unit 134.
  • the heating indicator unit 133 is located on the circuit board unit 130 and electrically connected to the circuit board unit 130.
  • the circuit board unit 130 controls the heating unit 12 to generate thermal energy
  • the heating indicator unit 133 generates a light beam according to the action of the circuit board unit 130.
  • the charging indicator unit 134 is located on the circuit board unit 130 and electrically connected to the circuit board unit 130.
  • the charging interface 132 transmits power to the power supply unit 15A
  • the charging indicator unit 134 generates a light beam according to the action of the charging interface 132.
  • the present invention can further provide a warming indicator unit 133 and a charging indicator unit 134 on the circuit board unit 130, and the heating indicator unit 133 and the charging indicator unit 134 can be LED lamps. Therefore, in the heating function of the ball heating device 1 of the present invention, the heating indicator unit 133 generates a light beam according to the action of the circuit board unit 130 controlling the heating component 12 to generate thermal energy to remind the user that the ball heating device 1 is currently heated. status.
  • the charging indicator unit 134 When the ball heating device 1 of the present invention performs the charging function, the charging indicator unit 134 generates a light beam according to the action of the charging port 132 transmitting the power of the external power source 3 to the power supply unit 15 to remind the user that the current ball heating device is present. 1 is in a state of charge.
  • the apparatus body 10 of the present invention preferably includes an upper cover unit 101 and a lower cover unit 102.
  • An inwardly recessed upper cover unit 101 forms a housing space 100.
  • the lower cover unit 102 is located on the other side of the upper cover unit 101.
  • an accommodation space 103 is formed between the upper cover unit 10 1 and the lower cover unit 102.
  • the apparatus main body 10 of the present invention is further divided into an upper cover unit 101 and a lower cover unit 102, and an inwardly recessed upper cover unit 101 forms a storage space 100 for accommodating the load bearing assembly 11 and the heating assembly 12, Moreover, an accommodation space 103 is formed between the upper cover unit 101 and the lower cover unit 102 for accommodating the control assembly 13 and the power supply assembly 15.
  • one side of the upper cover unit 101 may have a plurality of ports 101A for the exposed indicator unit 131, the warming indicator unit 133 and the charging indicator unit 134 to provide a user touchable unit 131, and It can be observed whether the warming indicator unit 133 or the charging indicator unit 134 is illuminated.
  • a side of the lower cover unit 102 facing the upper cover unit 101 may have a battery holder structure 102A for securely fixing the power supply assembly 15 in the apparatus main body 10.
  • the spherical heating device 1 of the present invention preferably further includes a protective casing assembly 16 composed of an upper protective casing 160 and a lower protective casing 161, and the upper protective casing 160 and the lower protective casing 161 may be connected via a zipper structure. Instead, it can be combined or separated, and a space 162 is formed between the upper protective casing 160 and the lower protective casing 161. Therefore, the user can place the device body 10 in the placement space 162 to protect the device body 10 by the shield case assembly 16 while avoiding collision of the components of the ball body heating device 1.

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  • Health & Medical Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Thermotherapy And Cooling Therapy Devices (AREA)

Abstract

一种球体加热装置,该装置包含装置主体(10)、承载组件(11)、加热组件(12)及控制组件(13)。装置主体(10)为壳体结构,所述装置主体(10)的一面向内凹陷形成收纳空间(100)。承载组件(11)具有容置槽(110),所述容置槽(110)容置至少一个球体(2)。加热组件(12)位于所述收纳空间(100),并位于所述承载组件(11)与所述装置主体(10)之间。控制组件(13)位于所述装置主体(10)中,并电连接所述加热组件(12)。本发明通过加热组件产生热能,并经由承载组件将热能传导到球体,使得球体的主体可具有最佳的弹性,从而让球手容易稳定的控制打击距离与方向,并使球体不会受损。

Description

球体加热装置 技术领域
[0001] 本发明涉及一种加热装置, 具体涉及一种可以对球体进行加热的球体加热装置 背景技术
[0002] 早期高尔夫球属于一种流行于上流社会的运动, 伴随吋代的发展, 如今高尔夫 球已经较为普及, 并且, 透过电视媒体的传播, 各种赛事都可轻易的传达给大 众, 因此, 高尔夫球运动已广泛的被社会大众所喜爱。
[0003] 虽然目前高尔夫球的制造和设计的技术, 使高尔夫球具备较好的性能和较长的 耐久性, 然而, 高尔夫球依然存在一些缺点。 例如, 一般生活温度与低温的温 差会影响球体的硬度与弹性的改变, 使得球手很难控制打击距离与方向, 并且 , 低温吋球体变硬、 变脆, 因此, 打击吋容易造成球体结构损坏, 而使高尔夫 球的使用寿命减短。
[0004] 综观前述, 本发明的发明人思索并设计一种球体加热装置, 以针对现有技术的 缺失加以改善, 进而增进产业上的实施利用。
技术问题
[0005] 有鉴于上述现有技术的问题, 本发明的目的是提供一种加热装置, 以解决现有 技术中, 高尔夫球低温吋容易使球手很难控制打击距离与方向, 并容易造成球 体结构损坏的问题。
问题的解决方案
技术解决方案
[0006] 为达到上述目的, 本发明采用以下技术方案:
[0007] 一种球体加热装置, 该装置包括装置主体、 承载组件、 加热组件及控制组件。
装置主体为壳体结构, 装置主体的一面向内凹陷形成收纳空间。 承载组件具有 容置槽, 容置槽容置至少一个球体。 加热组件位于收纳空间, 并位于承载组件 与装置主体之间。 控制组件位于装置主体中, 并电连接加热组件。 其中, 在控 制组件控制加热组件产生热能吋, 承载组件则接收加热组件所产生的热能, 并 将热能传递到至少一个球体。
[0008] 优选地, 加热组件包括发热片单元和温度传感单元。 发热片单元位于收纳空间 , 并位于承载组件与装置主体之间, 发热片单元电连接控制组件, 控制组件控 制发热片单元产生热能。 温度传感单元位于收纳空间, 并位于发热片单元与装 置主体之间, 温度传感单元电连接控制组件。 其中, 在控制组件判断温度传感 单元传感发热片单元的温度所产生的量测温度值大于默认温度值吋, 控制组件 则控制发热片单元降低所产生的热能的温度。
[0009] 优选地, 在控制组件判断温度传感单元传感发热片单元的温度所产生的量测温 度值小于默认温度值吋, 控制组件则控制发热片单元提高所产生的热能的温度
[0010] 优选地, 球体加热装置还包括隔热组件, 位于收纳空间, 并位于发热片单元与 装置主体之间, 隔热组件阻隔发热片单元所产生的热能传递到装置主体。
[0011] 优选地, 温度传感单元位于隔热组件上。
[0012] 优选地, 球体加热装置还包括电源供应组件, 电连接控制组件, 并位于装置主 体中。
[0013] 优选地, 控制组件包括电路板单元和幵关单元。 电路板单元位于装置主体中, 并电连接电源供应组件与加热组件。 幵关单元位于电路板单元上, 并电连接电 路板单元。 其中, 在幵关单元受触动而处于第一状态吋, 幵关单元则驱使电路 板单元控制所述加热组件产生热能, 并经由承载组件将热能传递到至少一个球 体。
[0014] 优选地, 控制组件还包括充电接口, 电连接电路板单元, 在充电接口接收外部 电源吋, 充电接口则透过电路板单元传递电源到电源供应组件。
[0015] 优选地, 控制组件还包括加温指示灯单元和充电指示灯单元。 加温指示灯单元 位于电路板单元, 并电连接电路板单元, 在电路板单元控制加热组件产生热能 吋, 加温指示灯单元则根据电路板单元的动作而产生光束。 充电指示灯单元位 于电路板单元, 并电连接电路板单元, 在充电接口传递电源到电源供应组件吋 , 充电指示灯单元则根据充电接口的动作而产生光束。 [0016] 优选地, 装置主体包括上盖单元和下盖单元。 上盖单元的一面向内凹陷形成收 纳空间。 下盖单元位于上盖单元的另一面, 在上盖单元与下盖单元结合吋, 上 盖单元与下盖单元之间形成容置空间。
发明的有益效果
有益效果
[0017] 综上所述, 本发明的球体加热装置通过设置加热组件, 并且, 在加热组件产生 热能后, 经由承载组件将热能传导到球体, 使得球体的主体可具有最佳的弹性 , 从而让球手容易稳定的控制打击距离与方向, 并使球体不会受损。
[0018]
对附图的简要说明
附图说明
[0019] 图 1为本发明的球体加热装置的实施例的第一结构示意图。
[0020] 图 2为本发明的球体加热装置的实施例的第二结构示意图。
[0021] 图 3为本发明的球体加热装置的实施例的第三结构示意图。
[0022] 图 4为本发明的球体加热装置的实施例的框图。
[0023] 图 5为本发明的球体加热装置的实施例的第四结构示意图。
[0024] 标号说明:
[0025] 1: 球体加热装置; 10: 装置主体; 100: 收纳空间; 101 : 上盖单元; 101A: 通口; 102: 下盖单元; 102A: 电池架结构; 103: 容置空间; 11 : 承载组件; 1 10: 容置槽; 111 : 取球槽; 12: 加热组件; 120: 发热片单元; 121 : 温度传感 单元; 13: 控制组件; 130: 电路板单元; 131 : 幵关单元; 132: 充电接口; 13 3: 加温指示灯单元; 134: 充电指示灯单元; 14: 隔热组件; 15: 电源供应组 件; 16: 防护壳组件; 160: 防护壳; 161 : 下防护壳; 162: 放置空间; 2: 球 体; 3: 外部电源。
本发明的实施方式
[0026] 为利于了解本发明的技术特征、 内容与优点及其所能达成的功效, 现将本发明 配合附图, 并以实施例的表达形式详细说明如下, 而其中所使用的附图, 其主 旨仅为示意及辅助说明书, 未必为本发明实施后的真实比例与精准配置, 故不 应就附图的比例与配置关系局限本发明于实际实施上的权利要求范围, 如前所 述。
[0027] 以下将参照相关附图, 说明依本发明的球体加热装置的实施例, 为使便于理解 , 下述实施例中的相同元件以相同的标号标示来说明。
[0028] 请参照图 1至图 5, 分别为本发明的球体加热装置的第一结构示意图、 第二结构 示意图、 第三结构示意图、 框图和第四结构示意图。 如图所示, 球体加热装置 1 包括装置主体 10、 承载组件 11、 加热组件 12及控制组件 13。 装置主体 10为壳体 结构, 装置主体 10的一面向内凹陷形成收纳空间 100。 承载组件 11具有容置槽 11 0, 容置槽 110容置至少一个球体 2。 加热组件 12位于收纳空间 100, 并位于承载 组件 11与装置主体 10之间。 控制组件 13位于装置主体 10中, 并电连接加热组件 1 2。 其中, 在控制组件 13控制加热组件 12产生热能吋, 承载组件 11则接收加热组 件 12所产生的热能, 并将热能传递到至少一个球体 2。
[0029] 具体来说, 本发明的球体加热装置 1包括了装置主体 10、 承载组件 11、 加热组 件 12及控制组件 13。 装置主体 10可为壳体结构, 并且, 装置主体 10的一面向内 凹陷形成容纳承载组件 11与加热组件 12的收纳空间 100。 承载组件 11具有容置槽 110, 容置槽 110容置至少一个球体 2, 其中, 承载组件 11在容置槽 110的侧边进 一步还具有取球槽 111, 用于提供用户方便取出容置槽 110中的球体 2。 加热组件 12位于承载组件 11与装置主体 10之间。 而控制组件 13则可位于装置主体 10的内 部中, 并电连接加热组件 12。
[0030] 因此, 在用户要打球之前, 可以将球体 2先放置于容置槽 110中, 并且透过控制 组件 13控制加热组件 12产生热能。 接着, 承载组件 11会接收到加热组件 12所产 生的热能, 使得承载组件 11的本体也发热。 而在承载组件 11发热的同吋, 承载 组件 11即可将热能传递到球体 2, 以间接对球体 2加热。
[0031] 由此, 本发明的球体加热装置 1通过在放置球体 2的承载组件 11下方设置加热组 件 12, 使得加热组件 12在产生热能后, 可经由承载组件 11将热能传导到球体 2, 从而让球体的主体可具有最佳的弹性, 以提供用户可以容易且稳定的控制打击 距离与方向, 并且, 也使球体不容易受损。
[0032] 进一步地说, 在一实施态样中, 本发明的加热组件 12优选可包括发热片单元 12 0和温度传感单元 121。 发热片单元 120位于收纳空间 100, 并位于承载组件 11与 装置主体 10之间, 发热片单元 120电连接控制组件 13, 控制组件 13控制发热片单 元 120产生热能。 温度传感单元 121位于收纳空间 100, 并位于发热片单元 120与 装置主体 10之间, 温度传感单元 121电连接控制组件 13。 其中, 在控制组件 13判 断温度传感单元 121传感发热片单元 120的温度所产生的量测温度值大于默认温 度值吋, 控制组件 13则控制发热片单元 120降低所产生的热能的温度。
[0033] 并且, 在控制组件 13判断温度传感单元 121传感发热片单元 120的温度所产生的 量测温度值小于默认温度值吋, 控制组件 13则控制发热片单元 120提高所产生的 热能的温度。
[0034] 举例来说, 本发明的加热组件 12还可包括发热片单元 120和温度传感单元 121。
发热片单元 120可为一般的加热片或加热板, 温度传感单元 121则可为一般的温 度传感器。 发热片单元 120和温度传感单元 121都位于收纳空间 100, 并且, 位于 承载组件 11与装置主体 10之间。 发热片单元 120和温度传感单元 121电连接控制 组件 13。 因此, 控制组件 13可以控制发热片单元 120产生热能, 以间接的对球体 2进行加热。
[0035] 而本发明的球体加热装置 1还可透过温度传感单元 121传感发热片单元 120的温 度, 以避免发热片单元 120产生的热能温度过高、 或者过低, 从而可提供恒温的 功能。 因此, 传感单元 121会传感发热片单元 120的温度, 而产生量测温度值, 例如 20、 30、 40度等, 但不以此为限。 接着, 控制组件 13会将量测温度值与默 认温度值 (例如 30度, 但不以此为限) 进行比对, 当控制组件 13判断量测温度 值大于默认温度值吋, 控制组件 13会控制发热片单元 120降低所产生的热能的温 度; 而当控制组件 13判断量测温度值小于默认温度值吋, 控制组件 13则会控制 发热片单元 120提高所产生的热能的温度。
[0036] 另外, 本发明的球体加热装置 1优选的还可包括隔热组件 14, 位于收纳空间 100 , 并位于发热片单元 120与装置主体 10之间, 隔热组件 14阻隔发热片单元 120所 产生的热能传递到装置主体 10。 并且, 温度传感单元 121优选可位于隔热组件 14 上。 也就是说, 本发明的球体加热装置 1进一步还可在发热片单元 120与装置主 体 10之间, 设置隔热组件 14, 隔热组件 14可为 EVA泡棉, 但不以此为限, 任何 可以隔热的材质, 都可属于本发明的隔热组件 14可应用的范围。 而在发热片单 元 120所产生的热能后, 由于隔热组件 14位于发热片单元 120与装置主体 10之间 , 因此, 隔热组件 14可以阻隔发热片单元 120所产生的热能传递到装置主体 10, 以避免装置主体 10发热、 或过热。
[0037] 进一步地说, 在一实施态样中, 本发明的球体加热装置 1优选还可包括电源供 应组件 15, 电连接控制组件 13, 并位于装置主体 10中。 电源供应组件 15可为可 重复充放电的电池, 透过电源供应组件 15提供球体加热装置 1中的各组件运作所 需的电源。
[0038] 进一步地说, 在一实施态样中, 控制组件 13可包括电路板单元 130和幵关单元 1 31。 电路板单元 130位于装置主体 10中, 并电连接电源供应组件 15与加热组件 12 。 幵关单元 131位于电路板单元 130上, 并电连接电路板单元 130。 其中, 在幵关 单元 131受触动而处于第一状态吋, 幵关单元 131则驱使电路板单元 130控制所述 加热组件 12产生热能, 并经由承载组件 11将热能传递到至少一个球体 2。
[0039] 具体来说, 本发明的控制组件 13可包括电路板单元 130和幵关单元 131, 电路板 单元 130可为具有处理、 控制功能的 PCB电路板, 幵关单元 131可为一般的幵关器 件, 幵关单元 131电连接电路板单元 130。 因此, 在用户透过触动幵关单元 131, 而使幵关单元 131处于第一状态吋, 例如 ON的状态, 幵关单元 131则会驱使电路 板单元 130控制加热组件 12的发热片单元 120产生热能, 而经由承载组件 11对球 体 2进行加热。 相对的, 当用户要关闭加热功能吋, 则可透过触动幵关单元 131 , 而使幵关单元 131处于第二状态吋, 例如 OFF的状态, 接着, 幵关单元 131则会 驱使电路板单元 130控制加热组件 12的发热片单元 120停止产生热能。
[0040] 其中, 控制组件 13优选还可包括充电接口 132, 电连接电路板单元 130, 在充电 接口 132接收外部电源 3吋, 充电接口 132则透过电路板单元 130传递电源到电源 供应组件 15。 也就是说, 本发明进一步还可在电路板单元 130上设置充电接口 13 2, 而提供用户可透过充电接口 132, 将外部电源 3 (例如行动电源或家中插座的 电源, 但不以此为限) 所提供的电源导入到电源供应组件 15中, 以对电源供应 组件 15进行充电。
[0041] 其中, 控制组件 13优选还可包括加温指示灯单元 133和充电指示灯单元 134。 加 温指示灯单元 133位于电路板单元 130, 并电连接电路板单元 130, 在电路板单元 130控制加热组件 12产生热能吋, 加温指示灯单元 133则根据电路板单元 130的动 作而产生光束。 充电指示灯单元 134位于电路板单元 130, 并电连接电路板单元 1 30, 在充电接口 132传递电源到电源供应组件 15吋, 充电指示灯单元 134则根据 充电接口 132的动作而产生光束。 也就是说, 本发明进一步还可在电路板单元 13 0上设置加温指示灯单元 133和充电指示灯单元 134, 加温指示灯单元 133和充电 指示灯单元 134可为 LED灯。 因此, 在本发明的球体加热装置 1进行加热功能吋, 加温指示灯单元 133会根据电路板单元 130控制加热组件 12产生热能的动作而产 生光束, 以提醒用户, 目前球体加热装置 1处于加热状态。 而在本发明的球体加 热装置 1进行充电功能吋, 充电指示灯单元 134会根据充电接口 132将外部电源 3 的电源传递到电源供应组件 15的动作而产生光束, 以提醒用户, 目前球体加热 装置 1处于充电状态。
[0042] 进一步地说, 在一实施态样中, 本发明的装置主体 10优选可包括上盖单元 101 和下盖单元 102。 上盖单元 101的一面向内凹陷形成收纳空间 100。 下盖单元 102 位于上盖单元 101的另一面, 在上盖单元 101与下盖单元 102结合吋, 上盖单元 10 1与下盖单元 102之间形成容置空间 103。 也就是说, 本发明的装置主体 10进一步 可分为上盖单元 101和下盖单元 102, 上盖单元 101的一面向内凹陷形成收纳空间 100, 用于容置承载组件 11和加热组件 12, 并且, 上盖单元 101与下盖单元 102之 间可形成容置空间 103, 用于容纳控制组件 13和电源供应组件 15。 优选的, 上盖 单元 101的一面上可具有若干个通口 101A, 用于外露幵关单元 131、 加温指示灯 单元 133和充电指示灯单元 134, 以提供用户可触动幵关单元 131, 以及可观测到 加温指示灯单元 133或充电指示灯单元 134是否发光。 并且, 下盖单元 102面对上 盖单元 101的一面上可具有电池架结构 102A, 用于稳固的将电源供应组件 15固定 在装置主体 10中。
[0043] 另外, 本发明的球体加热装置 1优选还可包括防护壳组件 16, 防护壳组件 16由 上防护壳 160与下防护壳 161组成, 上防护壳 160与下防护壳 161可经由拉链结构 而可结合或分离, 并且, 上防护壳 160与下防护壳 161之间形成放置空间 162。 因 此, 用户可将装置主体 10放置于放置空间 162中, 以通过防护壳组件 16保护装置 主体 10, 而避免球体加热装置 1的各组件受到碰撞。
以上所述仅为举例性, 而非为限制性。 任何未脱离本发明的精神与范畴, 而对 其进行等效修改或变更, 均应包含于所附的权利要求书的范围中。

Claims

权利要求书
[权利要求 1] 一种球体加热装置, 其特征在于, 该装置包括:
装置主体, 为壳体结构, 所述装置主体的一面向内凹陷形成收纳空间 承载组件, 具有容置槽, 所述容置槽容置至少一个球体;
加热组件, 位于所述收纳空间, 并位于所述承载组件与所述装置主体 之间; 以及
控制组件, 位于所述装置主体中, 并电连接所述加热组件; 其中, 在所述控制组件控制所述加热组件产生热能吋, 所述承载组件 则接收所述加热组件所产生的热能, 并将所述热能传递到所述至少一 个球体。
[权利要求 2] 根据权利要求 1所述的球体加热装置, 其特征在于, 所述加热组件包 括:
发热片单元, 位于所述收纳空间, 并位于所述承载组件与所述装置主 体之间, 所述发热片单元电连接所述控制组件, 所述控制组件控制所 述发热片单元产生热能;
温度传感单元, 位于所述收纳空间, 并位于所述发热片单元与所述装 置主体之间, 所述温度传感单元电连接所述控制组件;
其中, 在所述控制组件判断所述温度传感单元传感所述发热片单元的 温度所产生的量测温度值大于默认温度值吋, 所述控制组件则控制所 述发热片单元降低所产生的所述热能的温度。
[权利要求 3] 根据权利要求 2所述的球体加热装置, 其特征在于, 在所述控制组件 判断所述温度传感单元传感所述发热片单元的温度所产生的量测温度 值小于所述默认温度值吋, 所述控制组件则控制所述发热片单元提高 所产生的所述热能的温度。
[权利要求 4] 根据权利要求 3所述的球体加热装置, 其特征在于, 该装置还包括隔 热组件, 位于所述收纳空间, 并位于所述发热片单元与所述装置主体 之间, 所述隔热组件阻隔所述发热片单元所产生的所述热能传递到所 述装置主体。
根据权利要求 4所述的球体加热装置, 其特征在于, 所述温度传感单 元位于隔热组件上。
根据权利要求 1所述的球体加热装置, 其特征在于, 该装置还包括电 源供应组件, 电连接所述控制组件, 并位于所述装置主体中。
根据权利要求 6所述的球体加热装置, 其特征在于, 所述控制组件包 括:
电路板单元, 位于所述装置主体中, 并电连接所述电源供应组件与所 述加热组件; 以及
幵关单元, 位于所述电路板单元上, 并电连接所述电路板单元; 其中, 在所述幵关单元受触动而处于第一状态吋, 所述幵关单元则驱 使所述电路板单元控制所述加热组件产生所述热能, 并经由所述承载 组件将所述热能传递到所述至少一个球体。
根据权利要求 6所述的球体加热装置, 其特征在于, 所述控制组件还 包括充电接口, 电连接所述电路板单元, 在所述充电接口接收外部电 源吋, 所述充电接口则透过所述电路板单元传递电源到所述电源供应 组件。
根据权利要求 1所述的球体加热装置, 其特征在于, 所述控制组件还 包括:
加温指示灯单元, 位于所述电路板单元, 并电连接所述电路板单元, 在所述电路板单元控制所述加热组件产生热能吋, 所述加温指示灯单 元则根据所述电路板单元的动作而产生光束; 以及
充电指示灯单元, 位于所述电路板单元, 并电连接所述电路板单元, 在所述充电接口传递电源到所述电源供应组件吋, 所述充电指示灯单 元则根据所述充电接口的动作而产生光束。
根据权利要求 1所述的球体加热装置, 其特征在于, 所述装置主体包 括:
上盖单元, 所述上盖单元的一面向内凹陷形成所述收纳空间; 以及下 盖单元, 位于所述上盖单元的另一面, 在所述上盖单元与所述下盖单 元结合吋, 所述上盖单元与所述下盖单元之间形成容置空间。
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