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CN-224230415-U - Ice machine and multifunctional water purifier

CN224230415UCN 224230415 UCN224230415 UCN 224230415UCN-224230415-U

Abstract

The application provides an ice maker and a multifunctional water purifier.A liquid storage cavity, an ice making cavity and an ice storage cavity are arranged in a main body, the liquid storage cavity is communicated with the ice making cavity, the ice making cavity is communicated with the ice storage cavity, a moving-out opening communicated with the ice storage cavity is formed in the main body, a driving element is in driving connection with an ice taking element through a transmission assembly, the driving element is used for applying driving force to the transmission assembly along a first direction, the transmission assembly is used for transmitting driving force to the ice taking element along a second direction, the driving force is used for driving the ice taking element to rotate in a fixed shaft, the ice taking element is in a spiral structure and used for rotating and pushing a target body to move along an ice moving track, and the first direction and the second direction are configured to face different directions. Based on the respective design requirements of the driving element and the ice taking element, the respective optimal direction or position can be selected, the driving element can be arranged on the ice maker, the ice taking element can be arranged on the side face of the ice maker, the operation habit of a user is met, the user does not need to bend down to operate, and the use experience is better.

Inventors

  • GU YIDI
  • Dou Huaisheng
  • LI MENGLEI

Assignees

  • 江苏莱克智能电器有限公司
  • 莱克电气股份有限公司
  • 莱克电气绿能科技(苏州)有限公司

Dates

Publication Date
20260512
Application Date
20250320
Priority Date
20240806

Claims (10)

  1. 1. An ice maker (100), characterized in that the ice maker (100) comprises: The ice storage device comprises a main body (1000), wherein a liquid storage cavity (1100), an ice making cavity (1200) and an ice storage cavity (1300) are arranged in the main body (1000), the liquid storage cavity (1100) is communicated with the ice making cavity (1200), the ice making cavity (1200) is communicated with the ice storage cavity (1300), and the main body (1000) is provided with a moving-out port (1302) communicated with the ice storage cavity (1300); -an ice harvesting module (1310), the ice harvesting module (1310) being arranged in the main body (1000), the ice harvesting module (1310) comprising a driving element (1311), a transmission assembly (1312) and an ice harvesting element (1313), the driving element (1311) being in driving connection with the ice harvesting element (1313) by means of the transmission assembly (1312), the driving element (1311) being configured for applying a driving force along a first direction (a) towards the transmission assembly (1312), the transmission assembly (1312) being configured for transmitting the driving force along a second direction (B) towards the ice harvesting element (1313), the driving force being configured for driving the ice harvesting element (1313) in a fixed axis rotation, at least a part of the element structure of the ice harvesting element (1313) being configured as a spiral structure for rotating a propelling object along an ice-moving trajectory, the first direction (a) and the second direction (B) being configured for facing different directions.
  2. 2. The ice-making machine (100) of claim 1, wherein said ice-harvesting element (1313) is configured as at least one of a helical coil and a helical blade, and/or, The transmission assembly (1312) is configured as a gear set, and/or, The driving element (1311) is elastically connected to the transmission assembly (1312), and/or, A steering included angle is formed between the first direction (A) and the second direction (B), and the angle of the steering included angle is between 92 degrees and 120 degrees; The transmission assembly (1312) comprises at least an input gear (1312 a) and an output gear (1312B), the input gear (1312 a) being in direct or indirect driving engagement with the output gear (1312B), the driving element (1311) being in driving connection with the input gear (1312 a) and configured for driving the input gear (1312 a) to rotate along a first axis extending along the first direction (A), the input gear (1312 a) being configured for driving the output gear (1312B) to rotate along a second axis extending along the second direction (B); And/or the driving element (1311) is elastically connected to the input gear (1312 a); At least one of the input gear (1312 a) and the output gear (1312 b) is configured as a bevel gear, and/or, The driving element (1311) is configured as a manual knob, which is pivotally mounted to the main body (1000), and/or, The driving element (1311) is elastically connected to the input gear (1312 a) by an elastic element (1312 c).
  3. 3. The ice-making machine (100) of claim 1, wherein at least a portion of a cavity floor region of the ice storage cavity (1300) is configured to slope a floor (1304); the removal opening (1302) of the ice storage cavity (1300) is positioned at the highest position of the inclined bottom surface (1304), and/or, All of the cavity floor area of the ice storage cavity (1300) is configured to be sloped floor (1304), and/or, The inclined bottom surface (1304) of the ice storage cavity (1300) is configured to incline along a linear track, the ice moving track is configured as a linear track, and the ice moving track is parallel to the inclined bottom surface (1304).
  4. 4. The ice maker (100) of claim 1, wherein the ice making cavity (1200) is provided with at least one first flow guide hole (1201), the first flow guide hole (1201) being configured for communicating the liquid storage cavity (1100) with the ice making cavity (1200), and/or, The ice storage cavity (1300) is provided with at least one second diversion hole (1301), and the second diversion hole (1301) is configured to be used for communicating the liquid storage cavity (1100) with the ice storage cavity (1300); The liquid storage cavity (1100) is positioned below the ice making cavity (1200), at least one first diversion hole (1201) is positioned at the lowest position in the ice making cavity (1200), and/or, The liquid storage cavity (1100) is located below the ice storage cavity (1300), and at least one second guide hole (1301) is located at the lowest position in the ice storage cavity (1300).
  5. 5. The ice-making machine (100) of claim 1, wherein an ice-making module (1210) is disposed within the ice-making chamber (1200), and/or, The main body (1000) comprises a first housing (1010) and a second housing (1020), the first housing (1010) is assembled inside the second housing (1020), the liquid storage cavity (1100), the ice making cavity (1200) and the ice storage cavity (1300) are positioned on the first housing (1010), at least a part of the area of a gap between the first housing (1010) and the second housing (1020) is filled with heat preservation foam, and/or, The main body (1000) is provided with an outlet blocking member (1303), the outlet blocking member (1303) is movably connected relative to the main body (1000) and is used for opening or closing a removing opening (1302) of the ice storage cavity (1300), and/or, The top of the main machine body (1000) is provided with a machine body window (1011), the machine body window (1011) is simultaneously communicated with the ice making cavity (1200) and the ice storage cavity (1300), and the machine body window (1011) is provided with a window cover plate (1012); A cover plate groove (1013) and an epitaxial recess (1014) communicated with the cover plate groove (1013) are arranged at the top of the main body (1000), the window cover plate (1012) is arranged in the cover plate groove (1013), and the epitaxial recess (1014) is exposed out of the window cover plate (1012); And/or, the machine body window (1011) is provided with an outer decoration cover plate (1015), and the outer decoration cover plate (1015) is positioned outside the window cover plate (1012).
  6. 6. A multifunctional water purifier (200), characterized in that the multifunctional water purifier (200) comprises an ice maker (100) according to any one of claims 1-5.
  7. 7. The multi-function water purifier (200) of claim 6, further comprising: The water purifier (200) is provided with a filtering module and an expansion function module (400), and the expansion function module (400) comprises a host electric docking element (401); The ice machine (100) is provided with an auxiliary machine docking module (500), the auxiliary machine docking module (500) comprises an auxiliary machine electric docking element (501), the ice machine (100) is detachably assembled on the water purifier (200), and when the ice machine (100) is assembled and matched with the water purifier (200), the auxiliary machine electric docking element (501) is in docking and matching with the host machine electric docking element (401); One of the host electric docking element (401) and the auxiliary electric docking element (501) comprises at least two first male connectors (61) and at least one second male connector (62), wherein the second male connectors (62) comprise a first number of male conductive parts (621), any male conductive part (621) in all the male conductive parts (621) is insulated from any other male conductive part (621), and the value of the first number is more than or equal to two; The other pair of the host electric butt joint element (401) and the auxiliary electric butt joint element (501) comprises at least two first female connectors (71) and at least one second female connector (72), wherein the first female connectors (71) are connected with the first male connectors (61) in an adapting mode, the second female connectors (72) are connected with the second male connectors (62) in an adapting mode, the second female connectors (72) comprise a first number of female conductive parts (721), any female conductive part (721) of all the female conductive parts (721) are mutually insulated with any other female conductive part (721), and the female conductive parts (721) are connected with the male conductive parts (621) in a one-to-one mode to form conductive paths.
  8. 8. The multifunctional water purifier (200) according to claim 7, wherein two adjacent male conductive portions (621) are sleeved layer by layer from the inner core of the second male connector (62) to the outer edge, and an insulating portion (622) is arranged between the two adjacent male conductive portions (621); At least one end of the male conductive part (621) located at the inner side is exposed to the male conductive part (621) located at the outer side along the axial direction of the second male connector (62), so that each male conductive part (621) in the second male connector (62) is adapted to be connected with the corresponding female conductive part (721); In two adjacent male conductive parts (621), an accommodating space (621 a) is arranged in the male conductive part (621) positioned at the outer side, the accommodating space (621 a) is used for accommodating the male conductive part (621) positioned at the inner side, and the insulating part (622) is arranged between the two adjacent male conductive parts (621); The peripheral wall of the male conductive part (621) positioned on the outer side is provided with a connecting port (621 b), the insulating part (622) is provided with an avoidance port (6220), and the orthographic projection of the avoidance port (6220) is positioned in the orthographic projection of the connecting port (621 b) from the inner core of the second male connector (62) to the outer edge; The insulating part (622) is an insulating coating which is coated on the outer surface of the male conductive part (621) positioned on the inner side and/or the inner surface of the male conductive part (621) positioned on the outer side, or alternatively, The insulating part (622) is configured as a cylinder, the insulating part (622) is sleeved on the inner male conductive part (621), a plurality of male conductive parts (621) are sequentially arranged and adjoined along the circumferential direction of the second male connector (62), and the insulating part (622) is arranged between two adjacent male conductive parts (621); the insulating part (622) is an insulating coating, and in two adjacent public conductive parts (621), the insulating coating is coated on the surface of at least one public conductive part (621) for jointing, or alternatively, The insulating part (622) is configured as a layer piece, and at least part of the insulating part (622) is clamped between two adjacent public conductive parts (621); Along the circumferential direction of the second female connector (72), a plurality of female conductive parts (721) are sequentially arranged in a surrounding manner to form a butt joint space (720), wherein the butt joint space (720) is used for accommodating the second male connector (62), and two adjacent female conductive parts (721) are arranged at intervals; the female conductive portion (721) comprises a conductive segment (721 a) and a joining segment (721 b), the conductive segment (721 a) and the joining segment (721 b) being arranged adjacently along the extension direction of the female conductive portion (721), and the joining segment (721 b) being elastically deformable, the joining segment (721 b) being adapted to be joined with the male conductive portion (621); the joint sections (721 b) of at least two female conductive parts (721) are arranged in a staggered manner along the axial direction of the second female connector (72), or the joint sections (721 b) of each female conductive part (721) are arranged in a flush manner; The host electric docking element (401) further comprises a main connector mounting seat (4011), the auxiliary electric docking element (501) further comprises an auxiliary connector mounting seat (5011), one of the main connector mounting seat (4011) and the auxiliary connector mounting seat (5011) is provided with a docking groove (81), the other of the main connector mounting seat (4011) and the auxiliary connector mounting seat (5011) is correspondingly provided with a docking protrusion (82), the docking protrusion (82) is suitable for extending into the docking groove (81) to be in docking fit, and an arrangement space (820) is formed inside the docking protrusion (82); One of the butt joint groove (81) and the arrangement space (820) is used for arranging the first female connector (71) and the second female connector (72), and the other of the butt joint groove (81) and the arrangement space (820) is correspondingly used for arranging the first male connector (61) and the second male connector (62); The butt joint protrusion (82) is provided with at least one waterproof piece (822), the waterproof piece (822) is arranged corresponding to a connector arranged in the arrangement space (820), the at least one connector is located below the corresponding waterproof piece (822), and the waterproof piece (822) is a openable waterproof silica gel sheet.
  9. 9. The multifunctional water purifier (200) according to claim 7, wherein the water purifier (200) is provided with a water outlet nozzle (201), and the expansion function module (400) further comprises a host waterway docking element (402); The auxiliary machine docking module (500) further comprises an auxiliary machine waterway docking element (502), and the auxiliary machine waterway docking element (502) is in docking fit with the main machine waterway docking element (402) so that the waterway system of the water purifier (200) is communicated with the waterway system of the ice machine (100); The expansion function module (400) is arranged on the water purifier (200) in a stowable manner, when the expansion function module (400) is separated from the auxiliary machine docking module (500), at least the host electric docking element (401) and the host waterway docking element (402) in the expansion function module (400) are positioned in the water purifier (200) when the expansion function module (400) is in a stowing state, at least the host electric docking element (401) and the host waterway docking element (402) in the expansion function module (400) are positioned outside the water purifier (200) when the expansion function module (400) is in a docking state, or, When the expansion function module (400) is in a docking state, at least the host electric docking element (401) and the host waterway docking element (402) in the expansion function module (400) are mounted on the water purifier (200) in a naked manner so as to be docked by the auxiliary docking module (500); the water purifier (200) is provided with a containing cavity (202), and when the expansion function module (400) is in a containing state, the expansion function module (400) is contained in the containing cavity (202); The extending direction of the host electric abutting element (401) is parallel to the abutting direction of the ice maker (100), the extending direction of the host electric abutting element (401) is parallel to the bottom surface of the water purifier (200), and the moving direction of the host waterway abutting element (402) is parallel to the bottom surface so as to be used for laterally plugging the ice maker (100).
  10. 10. The multifunctional water purifier (200) according to claim 7, wherein a containing cavity (202) is provided on the water purifier (200), and the extended functional module (400) is contained in the containing cavity (202) when the extended functional module (400) is in a containing state; the water purifier also comprises a raw water tank (300), wherein the raw water tank (300) is detachably arranged on the water purifier (200); The purifier (200) further includes a clean water tank, with which the host waterway docking element (402) is in fluid communication; Also comprises at least one display unit (9), wherein the water purifier (200) and/or the ice maker (100) are/is provided with the display unit (9); The display unit (9) is used for operating and controlling the water purifier (200) and/or the ice maker (100) to work, and/or the display unit (9) is used for displaying data information of the water purifier (200) and/or the ice maker (100).

Description

Ice machine and multifunctional water purifier RELATED APPLICATIONS The present application claims priority from chinese patent application No. 202421892918.7 entitled "multifunctional water purifier and functional water purifier" filed on day 08 and 06 of 2024, which is incorporated herein by reference in its entirety. Technical Field The application relates to the technical field of household appliances, in particular to an ice maker and a multifunctional water purifier. Background Along with the progress of science and technology, the multifunctional water purifier is a household appliance which is necessary for families. The existing multifunctional water purifier can provide purified drinking water for users. With different demands of users, machines with water purification and additional functions such as tea making water purifiers, tea boiling water purifiers, ice water purifiers, coffee water purifiers and the like are appeared on the market. For the ice water purifier, the ice water purifier is provided with an ice maker, purified drinking water can be directly utilized for ice making operation, and after the ice maker of the ice water purifier makes ice, the ice maker can take out the made ice cubes through the built-in ice taking module. The existing ice taking module generally adopts an electric control mode to realize the removal of ice cubes, and has the advantages of complex structure, higher cost and single function. The manual mode ice taking module is generally required to be arranged on the side face of the ice maker according to the ice outlet direction, so that a user needs to bend down to operate, and the ice taking operation is inconvenient. Disclosure of utility model Based on this, it is necessary to provide an ice maker and a multifunctional water purifier aiming at the technical problems mentioned above. The present application provides an ice maker, comprising: The ice storage device comprises a main machine body, wherein a liquid storage cavity, an ice making cavity and an ice storage cavity are arranged in the main machine body, the liquid storage cavity is communicated with the ice making cavity, the ice making cavity is communicated with the ice storage cavity, and the main machine body is provided with a moving-out port communicated with the ice storage cavity; The ice taking module is arranged on the main machine body and comprises a driving element, a transmission assembly and an ice taking element, the driving element is in driving connection with the ice taking element through the transmission assembly, the driving element is configured to apply driving force to the transmission assembly along a first direction, the transmission assembly is configured to transmit the driving force to the ice taking element along a second direction, the driving force is configured to drive the ice taking element to rotate in a fixed axis manner, at least one part of element structure of the ice taking element is configured to be in a spiral structure and used for rotating and pushing a target body to move along an ice moving track, and the first direction and the second direction are configured to face different directions. In one embodiment, the ice harvesting element is configured as at least one of a helical coil and a helical blade, and/or, The transmission assembly is configured as a gear set, and/or, The drive element is resiliently coupled to the transmission assembly, and/or, A steering included angle is formed between the first direction and the second direction, and the angle of the steering included angle is 92-120 degrees; The transmission assembly at least comprises an input gear and an output gear, and the input gear is directly or indirectly in driving engagement with the output gear; the driving element is in driving connection with the input gear and is configured to drive the input gear to rotate along a first axis, and the first axis extends along the first direction; the input gear is configured for directly or indirectly driving the output gear to rotate along a second axis, the second axis extending along the second direction; And/or the driving element is elastically connected with the input gear; At least one of the input gear and the output gear is configured as a bevel gear, and/or, The drive element is configured as a manual knob which is pivotally mounted to the main body, and/or, The driving element is elastically connected with the input gear through an elastic element. In one embodiment, at least a portion of the cavity floor region of the ice storage cavity is configured to slope the floor; the outlet of the ice storage cavity is positioned at the highest position of the inclined bottom surface, and/or, All of the cavity floor regions of the ice storage cavity are configured to be sloped floor, and/or, The inclined bottom surface of the ice storage cavity is configured to be inclined along a straight line track, the ice moving track is configured as a strai