阅读说明：本技术 制冰系统及制冷设备 (Ice making system and refrigeration equipment ) 是由 陈兴 刘赞喜 邵阳 王金财 孙明星 司增强 刘寸宇 于 2019-04-17 设计创作，主要内容包括：一种制冰系统及制冷设备,该制冰系统包括被配置为承载和移送冰块的移冰片(9),设有可开闭的冰门(10)的储冰盒(11)和移冰联动驱动组件；该移冰联动驱动组件包括被配置为开闭冰门(10)的开闭机构,被配置为带动移冰片(9)移冰或复位的移冰机构和被配置为驱动开闭机构与移冰机构联动的驱动机构。该制冰系统通过一套驱动组件实现在打开或关闭冰门(10)的同时带动移冰片(9)移冰或复位,冰块的运输效率高,整个制冰系统运转可靠性高,成本较低。(An ice making system and a refrigerating apparatus, the ice making system includes an ice moving sheet (9) configured to carry and move ice cubes, an ice bank (11) provided with an openable and closable ice door (10), and an ice moving linkage driving assembly; the ice-moving linkage driving assembly comprises an opening and closing mechanism configured to open and close an ice door (10), an ice-moving mechanism configured to drive an ice-moving piece (9) to move or reset ice, and a driving mechanism configured to drive the opening and closing mechanism to be linked with the ice-moving mechanism. The ice making system realizes that the ice moving piece (9) is driven to move or reset when the ice door (10) is opened or closed through a set of driving assembly, the transportation efficiency of ice blocks is high, the operation reliability of the whole ice making system is high, and the cost is lower.)

An ice making system, comprising:

a ice transfer sheet configured to carry and transfer ice cubes;

an ice storage box provided with an openable ice door;

the ice-moving linkage driving component is connected with the ice-moving linkage driving component,

includes an opening and closing mechanism configured to open and close the ice door,

an ice-moving mechanism configured to move or reset the ice-moving blade, and

a driving mechanism configured to drive the opening and closing mechanism in conjunction with the ice moving mechanism.

The ice making system of claim 1, wherein the ice moving mechanism comprises an ice moving gear and an ice moving link connected to the ice moving plate, an ice moving gullet is disposed on one side of the ice moving link, the ice moving gullet is engaged with the ice moving gear, and the driving mechanism is configured to drive the ice moving gear to rotate.

The ice making system of claim 2, wherein the ice door is hinged to the ice bank through a connecting shaft, the opening and closing mechanism comprises the connecting shaft and a door opening gear coaxially disposed on the connecting shaft, and the driving mechanism is further configured to drive the door opening gear to rotate.

An ice making system as claimed in claim 3, wherein said door opening gear is in meshing engagement with said ice moving gear.

The ice making system of claim 4, wherein the drive mechanism includes a drive motor, one of the ice moving gear and the door opening gear being coaxially disposed on an output shaft of the drive motor.

The ice making system of claim 3, wherein the opening and closing mechanism further comprises:

and one end of the transmission rack is meshed with the door opening gear, and the other end of the transmission rack is meshed with the ice moving gear.

The ice making system according to claim 6, further comprising a mounting seat provided with a rear cover and a front cover opposite to each other in an axial direction of the connecting shaft, wherein the mounting seat is provided with a mounting space for the ice moving mechanism and the opening and closing mechanism; the rear cover or the front cover is provided with a sliding groove, and the side surface of the transmission rack is fixedly provided with a sliding block matched with the sliding groove.

The ice making system of claim 7, wherein a guide groove is formed on the front cover or the rear cover, and the ice moving link is movably disposed in the guide groove.

The ice making system of claim 2, wherein the ice moving piece is disposed obliquely downward toward the ice bank, and the ice moving link is connected to one side of the ice moving piece; the upper side or the lower side of the ice moving connecting rod is provided with the ice moving tooth groove.

The ice making system of claim 1, further comprising an ice making assembly, wherein the ice making assembly comprises an ice making tray and a water return groove arranged below the ice making tray, the ice making tray is arranged obliquely downwards towards the water return groove, and the ice removing piece is arranged between the water outlet of the ice making tray and the water return groove.

The ice making system according to claim 10, wherein an ice guide plate is provided in the water returning tank in an ice moving direction of the ice moving sheet; the ice guide plate is connected with the side wall of the water return groove and extends to the position below the initial position of the ice moving piece.

The ice making system of claim 11, wherein the top surface of the ice guide plate is spaced apart by a plurality of ribs.

The ice making system of claim 11, wherein said ice removing sheet has a drain hole; the drain holes are arranged at intervals along the length direction of the lower end of the ice removing piece.

The ice making system of claim 10, wherein the ice making assembly further comprises a water separator for supplying water to the ice cube tray, an evaporator and a heater disposed on a back side of the ice cube tray; the water return tank is connected to the water tank through a drain pipe, a water pump is arranged on the drain pipe, the water separator is communicated with the water tank through a water outlet pipe, and an opening and closing valve is arranged on the water outlet pipe.

An ice making system as in any of claims 1-14, wherein the ice bank is provided as a double insulated housing.

A refrigeration appliance comprising the ice making system of any of claims 1-15.