WO2019127237A1 - Ice cube dispensing assembly and ice cube dispenser - Google Patents

Abstract

Provided is an ice cube dispensing assembly (1), comprising a dispensing hopper (11) and multiple ultraviolet-light-emitting devices (12). The dispensing hopper (11) comprises a hopper body (111) for having ice cubes to be sterilized placed therein and a guide pipe (112) placed at a lower end of the hopper body (111), the hopper body (111) being connected to the guide pipe (112) in a communicating manner. The multiple ultraviolet-light-emitting devices (12) are uniformly arranged on an inner side wall of the guide pipe (112). The pipe shape of the guide pipe (112) matches the shape of the ice cubes to be sterilized. Also disclosed is an ice cube dispenser comprising a support frame (2), a support rod (3), a base (4) and the ice cube dispensing assembly (1). One end of the support rod (3) is perpendicularly provided on the base (4), and the other end of the support rod (3) is perpendicularly provided on the support frame (2). The ice cube dispensing assembly (1) is suspended on the support frame (2). By placing the ice cubes in the hopper body (111) of the hopper (11) and arranging the multiple ultraviolet-light-emitting devices (12) in the guide pipe (112) to carry out ultraviolet sterilization on falling ice cubes, the safety of consumption of the ice cubes falling into an ice storage container is ensured.

Description

一种冰块投放组件及冰块投放机Ice cube delivery component and ice dispenser 技术领域Technical field

本发明涉及紫外杀菌技术领域，尤其涉及一种冰块投放组件及冰块投放机。The invention relates to the field of ultraviolet sterilization technology, in particular to an ice delivery component and an ice dispenser.

背景技术Background technique

冰块在餐饮业中一直占有重要的地位，制作菜肴、饮料等通常需要用到冰块。Ice cubes have always played an important role in the food and beverage industry, and ice cubes are often used to make dishes and drinks.

目前餐饮业所使用的冰块为统一配送将运来的包装好的冰块直接放在冰桶里面，并使用铲子将冰块铲起来放到饮料中。由于冰桶为敞开式放置，空气中的致病菌容易落入冰桶内，且铲子的频繁使用也会造成冰块污染，增加致病菌落入桶内的风险，使得冰块的食用安全性得不到保障，从而影响用户的健康。At present, the ice cubes used in the catering industry are placed in the ice bucket directly for the uniform distribution of the packaged ice cubes, and the shovel is used to shovel the ice cubes into the beverage. Since the ice bucket is open, the pathogenic bacteria in the air easily fall into the ice bucket, and the frequent use of the shovel can also cause ice pollution, increasing the risk of the pathogenic bacteria falling into the bucket, making the ice block safe to eat. Unprotected, thus affecting the health of users.

发明内容Summary of the invention

本发明所要解决的技术问题是提供一种冰块投放组件及冰块投放机以解决现有技术中冰块的食用安全性得不到保障，从而影响用户的健康的问题。The technical problem to be solved by the present invention is to provide an ice cube dispensing assembly and an ice dispenser to solve the problem that the edible safety of the ice cube in the prior art is not guaranteed, thereby affecting the health of the user.

为了解决上述问题，本发明提供了一种冰块投放组件，其包括投放漏斗和多个紫外发光器件；In order to solve the above problems, the present invention provides an ice dispensing assembly comprising a dispensing funnel and a plurality of ultraviolet light emitting devices;

所述投放漏斗包括用于放置待杀菌冰块的斗体和设置于所述斗体下端的导管，所述斗体与所述导管相通连接，所述多个紫外发光器件均匀设置于所述导管的内侧壁上；所述导管的管道形状与所述待杀菌冰块的形状相匹配。The dispensing funnel includes a bucket body for placing the ice cube to be sterilized and a conduit disposed at a lower end of the bucket body, the bucket body being in communication with the conduit, the plurality of ultraviolet light emitting devices being uniformly disposed on the conduit On the inner side wall; the duct shape of the duct matches the shape of the ice cube to be sterilized.

作为本发明的进一步改进，所述导管内还设置有透紫外光材质的内管，所述内管与所述导管之间形成一腔体，所述多个紫外发光器件位于所述腔体内。As a further improvement of the present invention, an inner tube of ultraviolet light material is disposed in the catheter, a cavity is formed between the inner tube and the catheter, and the plurality of ultraviolet light emitting devices are located in the cavity.

作为本发明的进一步改进，所述腔体内还设置有控制器和第一检测器件，所述第一检测器件设置于所述腔体的顶部，所述控制器分别与所述第一检测器件和所述多个紫外发光器件电性连接；所述第一检测器件用于检测是否有所述待杀菌冰块落入所述导管内，若所述待杀菌冰块落入所述导管内，则产生第一检测信号，并将所述第一检测信号传输至所述控制器；所述控制器用于接收所 述第一检测信号，并根据所述第一检测信号控制所述多个紫外杀菌器件开启。As a further improvement of the present invention, a controller and a first detecting device are further disposed in the cavity, the first detecting device is disposed at a top of the cavity, and the controller is respectively associated with the first detecting device and The plurality of ultraviolet light-emitting devices are electrically connected; the first detecting device is configured to detect whether the ice to be sterilized falls into the conduit, and if the ice to be sterilized falls into the conduit, Generating a first detection signal and transmitting the first detection signal to the controller; the controller is configured to receive the first detection signal, and control the plurality of ultraviolet sterilization devices according to the first detection signal Open.

作为本发明的进一步改进，所述导管的底部还设置有第一电磁阀门和第二检测器件，所述控制器分别与所述第一电磁阀门、所述第二检测器件电性连接；所述第二检测器件用于检测落于所述第一电磁阀门上的冰块的重量是否大于预设阈值，若所述重量大于等于预设阈值，则产生第二检测信号，并将所述第二检测信号传输至所述控制器；所述控制器还用于接收所述第二检测信号，并根据所述第二检测信号控制所述第一电磁阀门打开。As a further improvement of the present invention, the bottom of the conduit is further provided with a first electromagnetic valve and a second detecting device, and the controller is electrically connected to the first electromagnetic valve and the second detecting device respectively; The second detecting device is configured to detect whether the weight of the ice block falling on the first electromagnetic valve is greater than a preset threshold, and if the weight is greater than or equal to a preset threshold, generate a second detection signal, and the second detecting The detection signal is transmitted to the controller; the controller is further configured to receive the second detection signal, and control the first electromagnetic valve to open according to the second detection signal.

作为本发明的进一步改进，所述斗体的内部还设置有第三检测器件和制冷器件，所述控制器分别与所述第三检测器件、所述制冷器件电性连接；As a further improvement of the present invention, the inside of the bucket body is further provided with a third detecting device and a cooling device, and the controller is electrically connected to the third detecting device and the cooling device respectively;

所述第三检测器件用于检测所述斗体内是否有所述待杀菌冰块，若所述斗体内有所述待杀菌冰块，则产生第三检测信号，并将所述第三检测信号传输至所述控制器；所述控制器还用于接收所述第三检测信号，并根据所述第三检测信号控制所述制冷器件开启。The third detecting device is configured to detect whether the ice cube to be sterilized is in the bucket body, and if the bucket body has the ice cube to be sterilized, generate a third detection signal, and the third detection signal Transmitting to the controller; the controller is further configured to receive the third detection signal, and control the cooling device to be turned on according to the third detection signal.

作为本发明的进一步改进，所述斗体的内侧壁上还设置有用于搅拌所述待杀菌冰块的搅拌器件，所述搅拌器件与所述控制器电性连接；所述控制器还用于根据所述第三检测信号控制所述搅拌器件开启。As a further improvement of the present invention, the inner side wall of the bucket body is further provided with a stirring device for stirring the ice cube to be sterilized, and the stirring device is electrically connected to the controller; the controller is also used for The stirring device is controlled to be turned on according to the third detection signal.

作为本发明的进一步改进，所述斗体与所述导管的连接处还设置有第二电磁阀门，所述导管的底部还设置有第四检测器件，所述控制器分别与所述第二电磁阀门、所述第四检测器件电性连接；As a further improvement of the present invention, the junction of the bucket body and the conduit is further provided with a second electromagnetic valve, the bottom of the conduit is further provided with a fourth detecting device, and the controller is respectively associated with the second electromagnetic The valve and the fourth detecting device are electrically connected;

所述第四检测器件用于检测是否有存冰容器放置于所述导管的下方，若有所述存冰容器放置于所述导管的下方，则产生第四检测信号，并将所述第四检测信号传输至所述控制器；The fourth detecting device is configured to detect whether an ice storage container is placed under the conduit, and if the ice storage container is placed under the conduit, generate a fourth detection signal, and the fourth detecting A detection signal is transmitted to the controller;

所述控制器还用于接收所述第四检测信号，并根据所述第四检测信号控制所述第二电磁阀门开启。The controller is further configured to receive the fourth detection signal, and control the second electromagnetic valve to be turned on according to the fourth detection signal.

作为本发明的进一步改进，所述导管的下方还设置有切断器件，所述切断器件与所述控制器电性连接，所述第一检测器件还用于检测所述待杀菌冰块是 否为长条形冰条，若所述待杀菌冰块为长条形冰条，则产生第五检测信号，并将所述第五检测信号传输至所述控制器；As a further improvement of the present invention, a cutting device is further disposed under the catheter, the cutting device is electrically connected to the controller, and the first detecting device is further configured to detect whether the ice to be sterilized is long a strip of ice, if the ice to be sterilized is a long strip of ice, generating a fifth detection signal, and transmitting the fifth detection signal to the controller;

所述控制器还用于接收所述第五检测信号，并根据所述第五检测信号控制所述切断器件切断所述长条形冰条。The controller is further configured to receive the fifth detection signal, and control the cutting device to cut the elongated ice strip according to the fifth detection signal.

本发明还提供了一种冰块投放机，其包括支撑架、支撑杆、底座和上述的冰块投放组件，所述支撑杆的一端垂直设置于所述底座上，所述支撑杆的另一端垂直设置所述支撑架，所述冰块投放组件悬挂设置于所述支撑架上。The present invention also provides an ice dispenser according to the present invention, comprising: a support frame, a support rod, a base and the above-mentioned ice delivery assembly, one end of the support rod is vertically disposed on the base, and the other end of the support rod The support frame is vertically disposed, and the ice delivery assembly is suspended from the support frame.

作为本发明的进一步改进，所述支撑杆还包括固定杆、调节杆和用于限制所述调节杆活动范围的限位器件，所述固定杆的一端垂直设置于所述底座上，所述调节杆活动设置于所述固定杆内，所述调节杆远离所述固定杆的一端与所述支撑架连接，所述固定杆与所述调节杆的连接处设置有所述限位器件。As a further improvement of the present invention, the support rod further includes a fixing rod, an adjusting rod and a limiting device for limiting the range of movement of the adjusting rod, and one end of the fixing rod is vertically disposed on the base, the adjusting The rod is disposed in the fixing rod, and the adjusting rod is connected to the supporting frame at an end of the fixing rod, and the limiting device is disposed at a connection between the fixing rod and the adjusting rod.

作为本发明的进一步改进，所述固定杆上还设置有用于驱动所述调节杆沿所述固定杆运动的驱动器件，所述冰块投放组件的控制器还用于接收外部的高度调节指令，并根据所述高度调节指令开启所述驱动器件，所述驱动器件带动所述调节杆运动。As a further improvement of the present invention, the fixing rod is further provided with a driving device for driving the adjusting rod to move along the fixing rod, and the controller of the ice feeding assembly is further configured to receive an external height adjustment instruction. And driving the driving device according to the height adjustment instruction, the driving device driving the adjustment rod to move.

作为本发明的进一步改进，所述底座的底面上还设置有用于防止底座产生滑动的防滑结构。As a further improvement of the present invention, the bottom surface of the base is further provided with an anti-slip structure for preventing the base from sliding.

本发明通过将冰块放置于漏斗的斗体内，并通过在导管内设置多个紫外发光器件对落下的冰块进行紫外杀菌，保证了落入存冰容器中的冰块的食用安全性。The invention ensures the food safety of the ice cubes falling into the ice storage container by placing the ice cubes in the bucket body of the funnel and by ultraviolet sterilizing the falling ice cubes by providing a plurality of ultraviolet light-emitting devices in the duct.

附图说明DRAWINGS

图1为本发明冰块投放组件第一个实施例的剖面结构示意图。1 is a cross-sectional structural view showing a first embodiment of an ice dispensing assembly of the present invention.

图2为本发明冰块投放组件第二个实施例的剖面结构示意图。2 is a cross-sectional structural view showing a second embodiment of the ice dispensing assembly of the present invention.

图3为本发明冰块投放组件第三个实施例的剖面结构示意图。3 is a cross-sectional structural view showing a third embodiment of the ice dispensing assembly of the present invention.

图4为本发明冰块投放组件第四个实施例的剖面结构示意图。4 is a cross-sectional structural view showing a fourth embodiment of the ice dispensing assembly of the present invention.

图5为本发明冰块投放组件第五个实施例的剖面结构示意图。Fig. 5 is a cross-sectional structural view showing a fifth embodiment of the ice dispensing unit of the present invention.

图6为本发明冰块投放组件第六个实施例的剖面结构示意图。Fig. 6 is a cross-sectional structural view showing a sixth embodiment of the ice delivery unit of the present invention.

图7为本发明冰块投放组件第七个实施例的剖面结构示意图。Fig. 7 is a cross-sectional structural view showing a seventh embodiment of the ice dispensing unit of the present invention.

图8为本发明冰块投放组件第八个实施例的剖面结构示意图。Figure 8 is a cross-sectional structural view showing an eighth embodiment of the ice dispensing assembly of the present invention.

图9为本发明冰块投放机第一个实施例的剖面结构示意图。Figure 9 is a cross-sectional structural view showing the first embodiment of the ice dispenser according to the present invention.

图10为本发明冰块投放机第二个实施例的剖面结构示意图。Figure 10 is a cross-sectional structural view showing a second embodiment of the ice dispenser according to the present invention.

图11为本发明冰块投放机第三个实施例的剖面结构示意图。Figure 11 is a cross-sectional structural view showing a third embodiment of the ice dispenser according to the present invention.

图12为本发明冰块投放机第四个实施例的剖面结构示意图。Figure 12 is a cross-sectional structural view showing a fourth embodiment of the ice dispenser according to the present invention.

具体实施方式Detailed ways

为了使本发明的目的、技术方案及优点更加清楚明白，以下结合附图及实施例，对本发明进行进一步详细说明。应当理解，此处所描述的具体实施例仅仅用以解释本发明，并不用来限定本发明。The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

图1展示了本发明冰块投放组件1的第一个实施例，在本实施例中，冰块投放组件1包括投放漏斗11和多个紫外发光器件12；投放漏斗11包括用于放置待杀菌冰块的斗体111和设置于斗体111下端的导管112，斗体111与导管112相通连接，多个紫外发光器件12均匀设置于导管112的内侧壁上；导管112的管道形状与待杀菌冰块的形状相匹配。Figure 1 shows a first embodiment of the ice dispensing assembly 1 of the present invention. In this embodiment, the ice dispensing assembly 1 includes a dispensing funnel 11 and a plurality of ultraviolet light emitting devices 12; the dispensing funnel 11 includes a place for sterilization The bucket body 111 of the ice block and the duct 112 disposed at the lower end of the bucket body 111, the bucket body 111 is connected to the duct 112, and the plurality of ultraviolet light-emitting devices 12 are evenly disposed on the inner side wall of the duct 112; the duct shape of the duct 112 is to be sterilized The shape of the ice cubes matches.

优选地，本实施例中使用的冰块的主要形状为方块型。Preferably, the main shape of the ice block used in the present embodiment is a square shape.

具体地，斗体111的侧壁的坡度可设置为一较小数值。Specifically, the slope of the side wall of the bucket body 111 can be set to a small value.

本实施例通过将冰块放置于漏斗的斗体111内，并通过在导管112内设置多个紫外发光器件12对落下的冰块进行紫外杀菌，保证了落入存冰容器中的冰块的食用安全性。In this embodiment, the ice cubes are placed in the bucket body 111 of the funnel, and the falling ice cubes are ultraviolet-sterilized by providing a plurality of ultraviolet light-emitting devices 12 in the duct 112 to ensure the ice cubes falling into the ice storage container. Edible safety.

在上述实施例的基础上，参见图2，在本实施例中，导管112内还设置有透紫外光材质的内管1121，内管1121与导管112之间形成一腔体1122，多个紫外发光器件12位于腔体1122内。On the basis of the above embodiment, referring to FIG. 2, in the embodiment, the inner tube 1121 of the ultraviolet ray material is further disposed in the duct 112, and a cavity 1122 is formed between the inner tube 1121 and the duct 112, and a plurality of ultraviolet rays are formed. The light emitting device 12 is located within the cavity 1122.

优选地，透紫外光材质的内管1121可设置为石英内管1121。Preferably, the inner tube 1121 of ultraviolet light transmissive material may be disposed as a quartz inner tube 1121.

进一步地，透紫外光材质的内管1121的形状与冰块的形状相匹配。Further, the shape of the inner tube 1121 of the ultraviolet permeable material matches the shape of the ice cube.

本实施例通过在导管112内加装一透紫外光材质的内管1121，在保护了导管112内的多个紫外发光器件12不被冰块损坏或被水短路的同时，保证了冰块能够顺畅下落，提升了用户体验。In this embodiment, by installing an inner tube 1121 of ultraviolet light-transmitting material in the duct 112, the plurality of ultraviolet light-emitting devices 12 protected in the duct 112 are not damaged by ice or short-circuited by water, and the ice block can be ensured. Smooth drop, enhance the user experience.

在上述实施例的基础上，参见图3，在本实施例中，腔体1122内还设置有控制器113和第一检测器件114，第一检测器件114设置于腔体1122的顶部，控制器113分别与第一检测器件114和多个紫外发光器件12电性连接；第一检测器件114用于检测是否有待杀菌冰块落入导管112内，若待杀菌冰块落入导管112内，则产生第一检测信号，并将第一检测信号传输至控制器113；控制器113用于接收第一检测信号，并根据第一检测信号控制多个紫外杀菌器件开启。On the basis of the above embodiment, referring to FIG. 3, in the embodiment, the cavity 1122 is further provided with a controller 113 and a first detecting device 114. The first detecting device 114 is disposed at the top of the cavity 1122, and the controller 113 is electrically connected to the first detecting device 114 and the plurality of ultraviolet light emitting devices 12 respectively; the first detecting device 114 is configured to detect whether the ice to be sterilized falls into the conduit 112, and if the ice to be sterilized falls into the conduit 112, The first detection signal is generated, and the first detection signal is transmitted to the controller 113; the controller 113 is configured to receive the first detection signal, and control the plurality of ultraviolet sterilization devices to be turned on according to the first detection signal.

优选地，第一检测器件114邻近于斗体111与导管112的连接处。Preferably, the first detecting means 114 is adjacent to the junction of the body 111 and the conduit 112.

进一步地，第一检测器件114包括红外检测器或超声波检测器等可用于检测物体移动的检测器。Further, the first detecting device 114 includes an infrared detector or an ultrasonic detector or the like that can be used to detect the movement of the object.

本实施例通过第一检测器件114检测是否有冰块进入导管112，当冰块进入导管112时则自动开启紫外杀菌，不需要人工操作，提升了用户体验。In this embodiment, whether the ice block enters the duct 112 is detected by the first detecting device 114, and when the ice block enters the duct 112, the ultraviolet sterilization is automatically turned on, and no manual operation is required, thereby improving the user experience.

在上述实施例的基础上，参见图4，在本实施例中，导管112的底部还设置有第一电磁阀门1123和第二检测器件1124，控制器113分别与第一电磁阀门1123、第二检测器件1124电性连接；第二检测器件1124用于检测落于第一电磁阀门1123上的冰块的重量是否等于预设阈值，若重量等于预设阈值，则产生第二检测信号，并将第二检测信号传输至控制器113；控制器113还用于接收第二检测信号，并根据第二检测信号控制第一电磁阀门1123打开。On the basis of the above embodiment, referring to FIG. 4, in the embodiment, the bottom of the duct 112 is further provided with a first electromagnetic valve 1123 and a second detecting device 1124, and the controller 113 is respectively connected with the first electromagnetic valve 1123 and the second The detecting device 1124 is electrically connected; the second detecting device 1124 is configured to detect whether the weight of the ice cube falling on the first electromagnetic valve 1123 is equal to a preset threshold, and if the weight is equal to the preset threshold, generate a second detection signal, and The second detection signal is transmitted to the controller 113; the controller 113 is further configured to receive the second detection signal, and control the first electromagnetic valve 1123 to open according to the second detection signal.

具体地，第二检测器件1124可设置为压力检测器。In particular, the second detection device 1124 can be configured as a pressure detector.

进一步地，当第一电磁阀门1123上的冰块的重量小于等于预设阈值时，第一电磁阀门1123则保持关闭状态。Further, when the weight of the ice block on the first electromagnetic valve 1123 is less than or equal to a preset threshold, the first electromagnetic valve 1123 remains in the closed state.

具体地，预设阈值的数值可设置为冰块预设个数的重量的近似值。Specifically, the value of the preset threshold may be set as an approximation of the weight of the preset number of ice cubes.

需要说明的是，由于每个冰块的重量不同，预设阈值可设置为一范围较小 的区间。例如单个冰块的重量范围为8克±0.5克，若用户预设的需求冰块个数为3个，则预设阈值为24克±1.5克，即22.5克至25.5克为一区间，当电测阀门1123上的冰块的重量落入22.5克至25.5克这一区间时，则视为冰块的重量的等于预设阈值，则第一电测阀门打开。It should be noted that the preset threshold can be set to a smaller range because the weight of each ice cube is different. For example, the weight of a single ice cube is 8 g ± 0.5 g. If the number of ice cubes required by the user is 3, the preset threshold is 24 g ± 1.5 g, that is, 22.5 g to 25.5 g is an interval. When the weight of the ice block on the electric measuring valve 1123 falls within the interval of 22.5 g to 25.5 g, the weight of the ice block is regarded as equal to the preset threshold, and the first electric measuring valve is opened.

本实施例中用户可根据自身需求设置需要的冰块的重量(可根据单个冰块的大概重量具体到需要的冰块的个数)，当管内冰块重量达到用户需求时则落下，在保证了冰块的杀菌时长的同时，也进一步提升了用户体验。In this embodiment, the user can set the weight of the required ice block according to his own needs (the number of ice cubes can be specifically determined according to the approximate weight of the single ice cube), and the weight of the ice cube in the tube falls when the user's demand reaches the user's demand. The sterilization time of the ice cubes also further enhances the user experience.

在上述实施例的基础上，参见图5，在本实施例中，斗体111的内部还设置有第三检测器件1111和制冷器件1112，控制器113分别与第三检测器件1111、制冷器件1112电性连接。On the basis of the above embodiment, referring to FIG. 5, in the embodiment, the inside of the bucket body 111 is further provided with a third detecting device 1111 and a cooling device 1112, and the controller 113 and the third detecting device 1111 and the cooling device 1112, respectively. Electrical connection.

第三检测器件1111用于检测斗体111内是否有待杀菌冰块，若斗体111内有待杀菌冰块，则产生第三检测信号，并将第三检测信号传输至控制器113；控制器113还用于接收第三检测信号，并根据第三检测信号控制制冷器件1112开启。The third detecting device 1111 is configured to detect whether there is ice cube to be sterilized in the bucket body 111. If there is ice cube to be sterilized in the bucket body 111, a third detection signal is generated, and the third detection signal is transmitted to the controller 113; the controller 113 It is further configured to receive the third detection signal and control the cooling device 1112 to be turned on according to the third detection signal.

优选地，第三检测器件1111可设置为压力检测器件。Preferably, the third detecting device 1111 can be provided as a pressure detecting device.

进一步地，制冷器件1112可设置为半导体制冷片。Further, the refrigeration device 1112 can be configured as a semiconductor refrigeration sheet.

具体地，若斗体111内未有待杀菌冰块时，制冷器件1112保持关闭状态。Specifically, if there is no ice to be sterilized in the bucket 111, the refrigeration device 1112 remains in the closed state.

本实施例通过自动检测有冰块放入斗体111，并自动开启制冷器件1112防止冰块融化，进一步提升了用户体验。In this embodiment, the user experience is further improved by automatically detecting that ice cubes are placed in the bucket body 111 and automatically opening the refrigeration device 1112 to prevent the ice cubes from melting.

在上述实施例的基础上，参见图6，在本实施例中，斗体111的内侧壁上还设置有用于搅拌待杀菌冰块的搅拌器件1113，搅拌器件1113与控制器113电性连接；控制器113还用于根据第三检测信号控制搅拌器件1113开启。On the basis of the above embodiment, referring to FIG. 6, in the embodiment, the inner side wall of the bucket body 111 is further provided with a stirring device 1113 for stirring the ice cube to be sterilized, and the stirring device 1113 is electrically connected to the controller 113; The controller 113 is further configured to control the stirring device 1113 to be turned on according to the third detection signal.

优选地，搅拌器件1113可设置为一旋转的圆环，并由电机带动圆环在斗体111内转动。Preferably, the agitating means 1113 can be arranged as a rotating ring and the ring is rotated by the motor in the body 111.

本实施例通过在斗体111内搅拌器件1113搅拌冰，以防止冰块在制冷过程中结霜产生相互粘连从而影响使用，通过搅拌器件1113使冰块不会发生粘连， 进一步提升了用户体验。In this embodiment, the stirring device 1113 is used to stir the ice in the bucket body 111 to prevent the ice cubes from sticking to each other during the cooling process to cause mutual adhesion, thereby affecting the use, and the ice block is prevented from sticking by the stirring device 1113, thereby further improving the user experience.

在上述实施例的基础上，参见图7，在本实施例中，斗体111与导管112的连接处还设置有第二电磁阀门1114，导管112的底部还设置有第四检测器件1125，控制器113分别与第二电磁阀门1114、第四检测器件1125电性连接；On the basis of the above embodiment, referring to FIG. 7, in the embodiment, the second electromagnetic valve 1114 is further disposed at the junction of the bucket body 111 and the conduit 112, and the bottom of the conduit 112 is further provided with a fourth detecting device 1125 for controlling The device 113 is electrically connected to the second electromagnetic valve 1114 and the fourth detecting device 1125, respectively;

第四检测器件1125用于检测是否有存冰容器放置于导管112的下方，若有存冰容器放置于导管112的下方，则产生第四检测信号，并将第四检测信号传输至控制器113；The fourth detecting device 1125 is configured to detect whether an ice storage container is placed under the conduit 112. If the ice storage container is placed under the conduit 112, a fourth detection signal is generated, and the fourth detection signal is transmitted to the controller 113. ;

控制器113还用于接收第四检测信号，并根据第四检测信号控制第二电磁阀门1114开启。The controller 113 is further configured to receive the fourth detection signal and control the second electromagnetic valve 1114 to be turned on according to the fourth detection signal.

优选地，第四检测器件1125可设置为红外检测器，且第二电磁阀门1114上设置有存冰重量检测器件，该存冰重量检测器件于控制器113电性连接；第四检测器件1125可检测存冰容器的体积，并根据预设算法得出当前容积所需的冰块数目，并将产生的数目信号传输至控制器113，当第二电磁阀门1114上的冰块重量达到数目信号的要求时，控制器113控制第二电磁阀门1114开启。Preferably, the fourth detecting device 1125 can be configured as an infrared detector, and the second electromagnetic valve 1114 is provided with an ice storage weight detecting device, the ice storage weight detecting device is electrically connected to the controller 113; and the fourth detecting device 1125 can be Detecting the volume of the ice storage container, and obtaining the number of ice cubes required for the current volume according to a preset algorithm, and transmitting the generated number signal to the controller 113, when the weight of the ice on the second electromagnetic valve 1114 reaches the number signal When required, the controller 113 controls the second solenoid valve 1114 to open.

进一步地，预设算法为存冰容器容积的十分之一体积设置为所需冰块的体积，并根据冰块密度得出所需冰块的重量。Further, the preset algorithm sets the volume of one tenth of the volume of the ice storage container to the volume of the desired ice cube, and derives the weight of the desired ice cube according to the density of the ice cube.

本实施例通过第四检测器件1125检测用户是否将存冰容器(例如杯子、盒子等)放于漏斗的导管112下方，并反馈控制第二电磁阀门1114将待杀菌冰块放入导管112中进行杀菌，不需要用户手动操作，进一步提升了用户体验。In this embodiment, the fourth detecting device 1125 detects whether the user places an ice storage container (such as a cup, a box, etc.) under the conduit 112 of the funnel, and feedbackly controls the second electromagnetic valve 1114 to place the ice to be sterilized into the conduit 112. Sterilization does not require manual operation by the user, further enhancing the user experience.

在上述实施例的基础上，参见图8，在本实施例中，导管112的下方还设置有切断器件1126，切断器件1126与控制器113电性连接，第一检测器件114还用于检测待杀菌冰块是否为长条形冰条，若待杀菌冰块为长条形冰条，则产生第五检测信号，并将第五检测信号传输至控制器113；On the basis of the above embodiment, referring to FIG. 8, in the embodiment, a cutting device 1126 is further disposed under the conduit 112, and the cutting device 1126 is electrically connected to the controller 113, and the first detecting device 114 is further configured to detect Whether the sterilizing ice is a long strip of ice, if the sterilized ice is a long ice, generating a fifth detection signal, and transmitting the fifth detection signal to the controller 113;

控制器113还用于接收第五检测信号，并根据第五检测信号控制切断器件1126切断长条形冰条。The controller 113 is further configured to receive the fifth detection signal, and control the cutting device 1126 to cut the elongated ice strip according to the fifth detection signal.

优选地，该切断器件1126可设置为切断刀11261和汽缸11262，切断刀 11261设置于汽缸11262的输出端，通过汽缸11262的运作带动切断刀11261将长条形冰条切断。Preferably, the cutting device 1126 can be disposed as a cutting blade 11261 and a cylinder 11262. The cutting blade 11261 is disposed at the output end of the cylinder 11262, and the cutting blade 11261 is driven to cut the elongated ice bar by the operation of the cylinder 11262.

进一步地，刀片的一面邻近导管的底端的边缘。Further, one side of the blade is adjacent the edge of the bottom end of the conduit.

优选地，若使用的冰块的长条形冰条，则斗体111的形状可设置为与长条形冰条形状相匹配的长方体等形状。Preferably, if the elongated ice strip of the ice block is used, the shape of the bucket body 111 may be set to a shape such as a rectangular parallelepiped that matches the shape of the elongated ice strip.

图9展示了本发明冰块投放机的一个实施例，在本实施例中，其包括支撑架2、支撑杆3、底座4和上述的冰块投放组件1，支撑杆3的一端垂直设置于底座4上，支撑杆3的另一端垂直设置支撑架2，冰块投放组件1悬挂设置于支撑架2上。Figure 9 shows an embodiment of the ice dispenser of the present invention. In this embodiment, it comprises a support frame 2, a support rod 3, a base 4 and the ice dispensing assembly 1 described above. One end of the support rod 3 is vertically disposed at On the base 4, the other end of the support rod 3 is vertically disposed with the support frame 2, and the ice delivery assembly 1 is suspended from the support frame 2.

优选地，底座4上还设置有用于放置存冰容器的凹槽。Preferably, the base 4 is further provided with a recess for placing the ice storage container.

本实施例通过支撑架2、支撑杆3和底座4的配合使用将冰块投放组件1悬挂使用，使得冰块投放组件1可放置于平面上进行使用，同时方便用户将存冰容器放置于漏斗下方，进一步提高了用户体验。In this embodiment, the ice feeding component 1 is suspended by the cooperation of the support frame 2, the support rod 3 and the base 4, so that the ice delivery component 1 can be placed on a plane for use, and the user can conveniently place the ice storage container in the funnel. Below, the user experience is further enhanced.

在上述实施例的基础上，参见图10，在本实施例中，支撑杆3还包括固定杆31、调节杆32和用于限制调节杆32活动范围的限位器件33，固定杆31的一端垂直设置于底座4上，调节杆32活动设置于固定杆31内，调节杆32远离固定杆31的一端与支撑架2连接，固定杆31与调节杆32的连接处设置有限位器件33。On the basis of the above embodiment, referring to FIG. 10, in the present embodiment, the support rod 3 further includes a fixing rod 31, an adjusting rod 32, and a limiting device 33 for limiting the range of movement of the adjusting rod 32. One end of the fixing rod 31 Vertically disposed on the base 4, the adjusting rod 32 is movably disposed in the fixing rod 31, and one end of the adjusting rod 32 away from the fixing rod 31 is connected to the supporting frame 2, and the limiting device 33 is disposed at the joint of the fixing rod 31 and the adjusting rod 32.

优选地，限位器件33可设置为一卡扣，该卡扣用于卡住调节杆32，防止调节杆32从固定杆31内脱出。Preferably, the limiting device 33 can be provided as a buckle for catching the adjustment lever 32 to prevent the adjustment lever 32 from coming out of the fixing rod 31.

本实施例通过将支撑杆3设置为可升降结构，用户可根据需求调整冰块投放组件1的高度，从而满足不同的需冰要求，扩大了冰块投放机的使用范围。In this embodiment, by setting the support rod 3 as a liftable structure, the user can adjust the height of the ice pack delivery assembly 1 according to the requirements, thereby meeting different ice demand requirements, and expanding the use range of the ice dispenser.

在上述实施例的基础上，参见图11，在本实施例中，固定杆31上还设置有用于驱动调节杆32沿固定杆31运动的驱动器件311，冰块投放组件1的控制器113还用于接收外部的高度调节指令，并根据高度调节指令开启驱动器件311，驱动器件311带动调节杆32运动。On the basis of the above embodiment, referring to FIG. 11, in the embodiment, the fixing rod 31 is further provided with a driving device 311 for driving the adjusting rod 32 to move along the fixing rod 31, and the controller 113 of the ice feeding assembly 1 is further It is configured to receive an external height adjustment command, and turn on the driving device 311 according to the height adjustment command, and the driving device 311 drives the adjustment rod 32 to move.

需要说明的是，本实施例的驱动器件311可选但不仅限于螺杆提升、液压提升、齿轮提升。It should be noted that the driving device 311 of the embodiment is optional but not limited to screw lifting, hydraulic lifting, and gear lifting.

本实施例通过将可升降结构设置为自动升降，且用户可以遥控调节冰块投放组件1的高度，不需要用户手动提升，进一步提升了用户体验。In this embodiment, the lifting and lowering structure is set to automatically lift, and the user can remotely adjust the height of the ice feeding component 1 without manual lifting by the user, thereby further improving the user experience.

在上述实施例的基础上，参见图12，在本实施例中，底座4的底面上还设置有用于防止底座4产生滑动的防滑结构41。On the basis of the above embodiment, referring to FIG. 12, in the embodiment, the bottom surface of the base 4 is further provided with an anti-slip structure 41 for preventing the base 4 from sliding.

优选地，防滑结构41可设置为具有纹路的硅胶结构。Preferably, the anti-slip structure 41 can be configured as a textured silica gel structure.

本实施例通过在底座4底面设置防滑结构41防止接触面有坡度或有水渍导致冰块投放机产生滑动进而导致损坏，保证了冰块投放机的使用安全性。In this embodiment, by providing the anti-slip structure 41 on the bottom surface of the base 4, the slope of the contact surface or the water stain is prevented to cause the ice dispenser to slip and cause damage, thereby ensuring the safety of use of the ice dispenser.

以上对发明的具体实施方式进行了详细说明，但其只作为范例，本发明并不限制于以上描述的具体实施方式。对于本领域的技术人员而言，任何对该发明进行的等同修改或替代也都在本发明的范畴之中，因此，在不脱离本发明的精神和原则范围下所作的均等变换和修改、改进等，都应涵盖在本发明的范围内。The specific embodiments of the invention have been described in detail above, but are merely exemplary, and the invention is not limited to the specific embodiments described above. All equivalent modifications and alterations to the invention are also within the scope of the invention, and the equivalents and modifications and improvements may be made without departing from the spirit and scope of the invention. And the like should be covered within the scope of the present invention.

Claims (12)

1. 一种冰块投放组件，其特征在于，其包括投放漏斗和多个紫外发光器件；An ice delivery assembly characterized in that it comprises a dispensing funnel and a plurality of ultraviolet light emitting devices;

   所述投放漏斗包括用于放置待杀菌冰块的斗体和设置于所述斗体下端的导管，所述斗体与所述导管相通连接，所述多个紫外发光器件均匀设置于所述导管的内侧壁上；所述导管的管道形状与所述待杀菌冰块的形状相匹配。The dispensing funnel includes a bucket body for placing the ice cube to be sterilized and a conduit disposed at a lower end of the bucket body, the bucket body being in communication with the conduit, the plurality of ultraviolet light emitting devices being uniformly disposed on the conduit On the inner side wall; the duct shape of the duct matches the shape of the ice cube to be sterilized.
2. 根据权利要求1所述的冰块投放组件，其特征在于，所述导管内还设置有透紫外光材质的内管，所述内管与所述导管之间形成一腔体，所述多个紫外发光器件位于所述腔体内。The ice delivery assembly according to claim 1, wherein an inner tube of ultraviolet-transmissive material is disposed in the conduit, and a cavity is formed between the inner tube and the conduit, the plurality of An ultraviolet light emitting device is located within the cavity.
3. 根据权利要求2所述的冰块投放组件，其特征在于，所述腔体内还设置有控制器和第一检测器件，所述第一检测器件设置于所述腔体的顶部，所述控制器分别与所述第一检测器件和所述多个紫外发光器件电性连接；所述第一检测器件用于检测是否有所述待杀菌冰块落入所述导管内，若所述待杀菌冰块落入所述导管内，则产生第一检测信号，并将所述第一检测信号传输至所述控制器；所述控制器用于接收所述第一检测信号，并根据所述第一检测信号控制所述多个紫外杀菌器件开启。The ice dispensing assembly according to claim 2, wherein a controller and a first detecting device are further disposed in the cavity, the first detecting device is disposed on a top of the cavity, and the controller The first detecting device and the plurality of ultraviolet light emitting devices are respectively electrically connected; the first detecting device is configured to detect whether the ice to be sterilized falls into the conduit, if the ice to be sterilized The block falls into the conduit to generate a first detection signal and transmits the first detection signal to the controller; the controller is configured to receive the first detection signal, and according to the first detection The signal controls the plurality of ultraviolet germicidal devices to be turned on.
4. 根据权利要求3所述的冰块投放组件，其特征在于，所述导管的底部还设置有第一电磁阀门和第二检测器件，所述控制器分别与所述第一电磁阀门、所述第二检测器件电性连接；所述第二检测器件用于检测落于所述第一电磁阀门上的冰块的重量是否等于预设阈值，若所述重量等于预设阈值，则产生第二检测信号，并将所述第二检测信号传输至所述控制器；所述控制器还用于接收所述第二检测信号，并根据所述第二检测信号控制所述第一电磁阀门打开。The ice dispensing assembly according to claim 3, wherein the bottom of the conduit is further provided with a first electromagnetic valve and a second detecting device, and the controller is respectively associated with the first electromagnetic valve, the first The second detecting device is configured to detect whether the weight of the ice block falling on the first electromagnetic valve is equal to a preset threshold, and if the weight is equal to a preset threshold, generating a second detecting And transmitting the second detection signal to the controller; the controller is further configured to receive the second detection signal, and control the first electromagnetic valve to be opened according to the second detection signal.
5. 根据权利要求3所述的冰块投放组件，其特征在于，所述斗体的内部还设置有第三检测器件和制冷器件，所述控制器分别与所述第三检测器件、所述制冷器件电性连接；The ice dispensing assembly according to claim 3, wherein the inside of the bucket body is further provided with a third detecting device and a cooling device, and the controller is respectively associated with the third detecting device and the cooling device Electrical connection

   所述第三检测器件用于检测所述斗体内是否有所述待杀菌冰块，若所述斗体内有所述待杀菌冰块，则产生第三检测信号，并将所述第三检测信号传输至 所述控制器；所述控制器还用于接收所述第三检测信号，并根据所述第三检测信号控制所述制冷器件开启。The third detecting device is configured to detect whether the ice cube to be sterilized is in the bucket body, and if the bucket body has the ice cube to be sterilized, generate a third detection signal, and the third detection signal Transmitting to the controller; the controller is further configured to receive the third detection signal, and control the cooling device to be turned on according to the third detection signal.
6. 根据权利要求5所述的冰块投放组件，其特征在于，所述斗体的内侧壁上还设置有用于搅拌所述待杀菌冰块的搅拌器件，所述搅拌器件与所述控制器电性连接；所述控制器还用于根据所述第三检测信号控制所述搅拌器件开启。The ice dispensing assembly according to claim 5, wherein the inner side wall of the bucket body is further provided with a stirring device for stirring the ice cube to be sterilized, and the stirring device and the controller are electrically Connecting; the controller is further configured to control the stirring device to be turned on according to the third detection signal.
7. 根据权利要求3所述的冰块投放组件，其特征在于，所述斗体与所述导管的连接处还设置有第二电磁阀门，所述导管的底部还设置有第四检测器件，所述控制器分别与所述第二电磁阀门、所述第四检测器件电性连接；The ice dispensing assembly according to claim 3, wherein the junction of the bucket body and the conduit is further provided with a second electromagnetic valve, and the bottom of the conduit is further provided with a fourth detecting device, The controller is electrically connected to the second electromagnetic valve and the fourth detecting device respectively;

   所述第四检测器件用于检测是否有存冰容器放置于所述导管的下方，若有所述存冰容器放置于所述导管的下方，则产生第四检测信号，并将所述第四检测信号传输至所述控制器；The fourth detecting device is configured to detect whether an ice storage container is placed under the conduit, and if the ice storage container is placed under the conduit, generate a fourth detection signal, and the fourth detecting A detection signal is transmitted to the controller;

   所述控制器还用于接收所述第四检测信号，并根据所述第四检测信号控制所述第二电磁阀门开启。The controller is further configured to receive the fourth detection signal, and control the second electromagnetic valve to be turned on according to the fourth detection signal.
8. 根据权利要求3所述的冰块投放组件，其特征在于，所述导管的下方还设置有切断器件，所述切断器件与所述控制器电性连接，所述第一检测器件还用于检测所述待杀菌冰块是否为长条形冰条，若所述待杀菌冰块为长条形冰条，则产生第五检测信号，并将所述第五检测信号传输至所述控制器；The ice dispensing assembly according to claim 3, wherein a cutting device is further disposed under the conduit, the cutting device is electrically connected to the controller, and the first detecting device is further configured to detect Whether the ice to be sterilized is an elongated ice strip, if the ice to be sterilized is an elongated ice strip, generating a fifth detection signal, and transmitting the fifth detection signal to the controller;

   所述控制器还用于接收所述第五检测信号，并根据所述第五检测信号控制所述切断器件切断所述长条形冰条。The controller is further configured to receive the fifth detection signal, and control the cutting device to cut the elongated ice strip according to the fifth detection signal.
9. 一种冰块投放机，其特征在于，其包括支撑架、支撑杆、底座和权利要求1-7之一所述的冰块投放组件，所述支撑杆的一端垂直设置于所述底座上，所述支撑杆的另一端垂直设置所述支撑架，所述冰块投放组件悬挂设置于所述支撑架上。An ice dispenser according to the invention, comprising: a support frame, a support rod, a base and the ice delivery assembly according to any one of claims 1-7, wherein one end of the support rod is vertically disposed on the base; The other end of the support rod vertically sets the support frame, and the ice delivery assembly is suspended from the support frame.
10. 根据权利要求9所述的冰块投放机，其特征在于，所述支撑杆还包括固定杆、调节杆和用于限制所述调节杆活动范围的限位器件，所述固定杆的一端垂直设置于所述底座上，所述调节杆活动设置于所述固定杆内，所述调节杆 远离所述固定杆的一端与所述支撑架连接，所述固定杆与所述调节杆的连接处设置有所述限位器件。The ice dispenser according to claim 9, wherein the support rod further comprises a fixing rod, an adjusting rod and a limiting device for limiting the range of movement of the adjusting rod, wherein one end of the fixing rod is vertically disposed The adjusting rod is movably disposed in the fixing rod, the adjusting rod is connected to the supporting frame at an end of the adjusting rod, and the connecting portion of the fixing rod and the adjusting rod is disposed There is the limit device.
11. 根据权利要求9所述的冰块投放机，其特征在于，所述固定杆上还设置有用于驱动所述调节杆沿所述固定杆运动的驱动器件，所述冰块投放组件的控制器还用于接收外部的高度调节指令，并根据所述高度调节指令开启所述驱动器件，所述驱动器件带动所述调节杆运动。The ice dispenser according to claim 9, wherein the fixing rod is further provided with a driving device for driving the adjusting rod to move along the fixing rod, and the controller of the ice feeding assembly further And receiving the external height adjustment instruction, and turning on the driving device according to the height adjustment instruction, the driving device driving the adjustment rod to move.
12. 根据权利要求9所述的冰块投放机，其特征在于，所述底座的底面上还设置有用于防止底座产生滑动的防滑结构。The ice dispenser according to claim 9, wherein the bottom surface of the base is further provided with an anti-slip structure for preventing the base from sliding.

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