WO2012003673A1 - Automatic ice maker and refrigerator with it - Google Patents

Abstract

An automatic ice maker (1000) and a refrigerator with it are provided. The automatic ice maker (1000) comprises: an ice maker body (100); an ice making cell module (200) which can be drawn out from or inserted into the ice maker body (100) horizontally; and an ice making motor module (300) which is connected to the ice maker body (100) and can turn over the ice making cell module (200) to drop the ice down. The ice making motor module (300) can move along the side walls of the ice maker body (100) to a position where it would not interfere with the ice making cell module (200) when the ice making cell module (200) being drawn out from or inserted into the ice maker body (100). At least an air inlet (103) for inputting cold air is formed at the first end of the ice maker body (100). According to the present invention, the ice making cell module (200) can be washed periodically to clean out bacterium and dust, and the ice making speed of the automatic ice maker (1000) is enhanced greatly.

Description

 Automatic system; water machine and water tank; technical field

 The present invention relates to a water machine, and more particularly to an automatic water machine and a water tank having the same. Background technique

 At present, according to the different dehydration methods, the automatic water machine can be divided into reverse forced water turning and electric heating water turning. The reversed water turning is greatly used due to the advantages of structural unit, low cost and high water block shield. The body of the water-making motor has been completed and used in the industry.

 The existing automatic water machine comprises a water-making motor, a water machine frame, a water detecting rod and a water-making tray, and the water-making motor rotates to rotate one end of the water-making tray, and the other end of the water-making tray has a limit device. The rotation angles of the two ends are different, and the torsion is generated, and the torsion force causes the water block to be separated from the water tray.

 In the existing automatic water machine, most of the automatic water machine itself is not removable. As a result, the water tray cannot be periodically cleaned, which is easy to breed bacteria, deposit dust, etc., and after a long period of use, the amount of water shield generated by the water block is not guaranteed. The existing water-disc detachable water machine also has problems such as complicated air passages and low water production speed. In addition, in some automatic water purifiers that can be removed and cleaned, the water machine is usually placed at the rear of the water tank, and the water tray is placed in front of the motor, and the water tray is installed by installing a sliding bracket and the like on the water tray. Can be taken out for cleaning.

 In addition, the position of the placed motor blocks the cold air from the evaporator, which has a large negative impact on the water production speed. To solve this problem, the problem of blocking the air passage is usually solved by adding a lateral auxiliary air passage. However, this method also has defects such as unsatisfactory effects and large space.

 Further, since the existing water machine does not control the process of solidifying water into water, the temperature sensor installed on the water machine cannot sense the temperature of water and water in real time, and only by extending the time to ensure normal water supply. There is a problem that the water production time is too long. Summary of the invention

 In view of this, the present invention aims to at least solve one of the technical problems existing in the prior art.

 To this end, the present invention needs to provide a water machine which can be easily disassembled and taken out for cleaning. Further, the present invention needs to provide a water machine which has a high water production speed, thereby providing water production efficiency. Further, the present invention is required to provide a water tank having the automatic water machine.

 According to an aspect of the present invention, an automatic water machine is provided, comprising: a water machine body; a water cell assembly, the water cell assembly can be horizontally extracted or inserted into the water machine body; An assembly, the water-making motor assembly is coupled to the water machine body, and can drive the water cell assembly to perform water turning, wherein the water-making motor assembly is movable along a side wall of the water machine body to And preventing a position of the water cell assembly from being pulled out or inserted into the water machine body, wherein the first end of the water machine body is formed with at least one air inlet for input Air conditioning.

According to an embodiment of the invention, the water making motor assembly is coupled to the second end of the water machine body and forms an enclosed space in the second end of the water machine body. Thereby, since the closed air passage is formed in the automatic water machine of the present invention, the speed of water production is greatly accelerated. According to an embodiment of the present invention, the first end of the water machine body is respectively formed with an air inlet on two sides of the water cell assembly, and an air inlet located above the water cell assembly is larger than An air inlet located below the water cell assembly to simultaneously cool the upper and lower portions of the water cell assembly, respectively.

 Thus, by providing air inlets on both sides of the water cell assembly, it is possible to simultaneously cool the water in the water cell assembly, thereby improving the shield and appearance of the obtained water block.

 According to an embodiment of the present invention, the water cell assembly includes: a water cell body, the water cell body is formed with a plurality of water block forming chambers for forming a water block; and the water cell body support member The two ends of the water cell body are pivotally supported on opposite ends of the water cell body support member; wherein the water cell body support member is provided with a rotation on a side wall adjacent to the end portion thereof a restriction portion that prevents further rotation of the first end of the water cell body when the water cell body is rotated to a predetermined angle.

 According to an embodiment of the present invention, the outer side walls of the water cell body support member are respectively formed with sliding guide members, and the inner side walls of the water machine body are formed with sliding guide grooves.

 According to an embodiment of the present invention, the sliding guide is formed with a V-shaped groove, the V-shaped groove is disposed along the longitudinal direction, and the sliding guiding groove is respectively formed with elasticity coupled with the V-shaped groove Buckle.

 Therefore, during the process of pulling the water motor assembly, the water cell assembly is not accidentally pulled out, and since the water motor assembly is disposed close to the water tank door, the process of removing the water cell assembly is very simple. Convenience.

 According to an embodiment of the present invention, the first end of the water cell body is provided with a cylindrical portion, and the first end of the water cell body support member is provided with a support corresponding to the cylindrical portion, and The cylindrical portion can be received within the mount and can be rotated.

 According to an embodiment of the present invention, the automatic water cell assembly further includes: a water cell fixing portion, the water cell fixing portion is detachably coupled to the water cell body support member, and the cylindrical portion It can be rotated inside the support.

 According to an embodiment of the present invention, the second end of the water cell body is formed with a receiving hole, the water cell body support member is formed with a cylindrical hole, and the water cell assembly further includes a connecting member, A connector is insertable into the receiving bore and is drivable within the cylindrical bore.

 According to an embodiment of the present invention, the second end of the water cell body is integrally formed with a connecting member, the water cell body supporting member is formed with a cylindrical hole, and the connecting member is in the cylindrical hole Driven to rotate.

 According to an embodiment of the present invention, the connecting member can be driven to rotate by 150-180 degrees, and the rotation restricting portion is configured such that the first end of the water cell body can be rotated by 100-120 degrees.

 Therefore, the water machine assembly having the above structure can conveniently realize the automatic water turning of the water making process and the water making process, and has a wide structure and a wide application range, that is, the water cell assembly can be easily disassembled and taken out. Cleaning.

According to an embodiment of the present invention, the water-making motor assembly includes: a water-making machine core, wherein the water-making machine core is configured to detachably drive the water cell body of the water cell assembly to perform water turning; a machine support for accommodating the water-making core; a movement cover for closing an open end of the water-making movement, and pivotally connected to the water-making motor support And a connecting member fixedly coupled to the water making motor support, and the connecting member is configured to be movable along a side wall of the water machine body to prevent the water cell assembly from being Pulling or inserting the water The position of the thousands of involved in the process of the main body of the machine.

 According to an embodiment of the present invention, the method further includes: a water block container disposed directly below the main body of the water machine for accommodating the water block formed by the water cell assembly.

 According to an embodiment of the present invention, the method further includes: a water detecting rod located outside the connecting member and pivotally connected through an opening formed on a side of the water motor support member To the water-making movement, and can be driven by the water-making movement to rotate a predetermined angle to detect the water block produced in the water block container, and issue the water block when the water level is touched within the angle range Water stop signal.

 According to an embodiment of the present invention, the connecting member includes: a first cantilever extending from a side of the water-making motor support; a side extending from the water-making motor support, and located at the first a second cantilever under the cantilever, the second cantilever having a length greater than a length of the first cantilever, wherein the first cantilever and the second cantilever are pivotally coupled to the water body.

 According to an embodiment of the present invention, a sidewall of the water machine body is formed with: a first lateral guiding track for pivotally connecting the first cantilever; and a second guiding track for pivotally The second cantilever is connected, and the second guiding track includes a second lateral guiding track parallel to the first lateral guiding track and an arc guiding track formed with one end of the first lateral guiding track as a center.

 According to an embodiment of the present invention, a first pivoting shaft is formed on a side wall of the water-making motor support member, and a first pivoting engagement with the first pivoting shaft is formed on a side of the movement cover A hole for pivotally connecting the movement cover to the water making motor support.

 According to an embodiment of the present invention, the method further includes: a water detecting rod located outside the connecting member and pivotally connected through an opening formed on a side of the water motor support member To the water-making movement, the water-making movement can be driven to rotate by a predetermined angle, and a water stop signal is issued when the water block is touched within the angular range.

 According to an embodiment of the present invention, a protruding portion is formed on an outer sidewall of the water-making motor support member, and a second hole portion is formed on a side of the movement cover, and the protruding portion is engaged in the hole To fasten the movement cover to the water motor support.

 According to an embodiment of the present invention, a first "" hook is formed on each of the two sides of the movement cover, and a second hook is formed at one end of the water machine main body and the water motor assembly. The second hook is engaged with the first hook when the water motor assembly is inserted.

 According to an embodiment of the invention, the first "" hook can be pulled to disengage the second hook.

 According to the automatic water machine of the embodiment of the invention, the water making machine has a high water production speed, thereby improving the efficiency of water production. Further, since the water motor assembly is placed at the front end of the automatic water machine, the water production is not affected. speed.

 According to an embodiment of the present invention, the method further includes: a sensing unit, the sensing unit is disposed at a position adjacent to the water cell component at a first end of the water machine body, and is used for a sensing station Describe the water production temperature in the water cell assembly.

 According to an embodiment of the present invention, the method further includes: a sensing unit disposed between the air inlets of the first end of the water machine body and adjacent to the water cell assembly At a location, it is used to sense the temperature of the water produced in the water cell assembly.

According to an embodiment of the invention, the sensing unit comprises: a sensor; and a sensor support for fixing The sensor, and the sensor is disposed on the sensor support adjacent to an end of the water cell assembly. According to an embodiment of the present invention, one end of the sensor support member is fixed to the inner side of the first end of the water machine body, and the other end of the sensor support member adjacent to the water cell assembly is formed as a hollow cylindrical body, and The sensor is also formed as a corresponding cylindrical body and inserted into the hollow cylindrical body of the sensor support.

 According to an embodiment of the invention, the end of the water cell assembly, in the immediate vicinity of the sensor, is provided with a metal sheet.

 According to an embodiment of the present invention, a side switch is disposed on a side wall of the water machine body, and the micro switch is closed and triggered when the water cell assembly is inserted into the water machine body. The water machine feeds a signal to inject a predetermined amount of water into the water cell assembly, and the micro switch pops up and triggers the water supply stop signal when the water cell assembly is removed.

 According to an embodiment of the invention, the sensing unit is detachably disposed at a first end of the water machine body, and the sensor unit is disposed at a position opposite to an end of the water cell assembly.

 According to an embodiment of the present invention, the second end of the water cell body is fixedly formed with a connecting member, the connecting member rotatably passes through the water cell body support member, and the water-making movement Connecting, to control the water-making movement in an operating state to drive the water cell body to perform water turning.

 According to an embodiment of the present invention, further comprising a connection structure formed on an upper surface of the water machine body, comprising: at least one first connection portion, the first connection portion being formed on the water machine The surface includes: a first connecting portion main body, the first connecting portion main body is connected to an upper surface of the water machine; a first flange fastening portion, the first flange fastening portion is from the first An edge of a connecting body extends upwardly and has a first bent portion extending horizontally toward a center of the first connecting portion main body; at least one first hanging button corresponding to the first connecting portion, the A lower portion of a button is configured to be snapped into the first flange snap portion.

 According to an embodiment of the invention, the first connecting portion body is formed as a hollow cylinder.

 According to an embodiment of the present invention, the first hanging button includes: a hanging portion; a cylindrical portion extending downward from the hanging portion; and a flange portion formed under the cylindrical portion, the flange portion Engaged into the first flange snap portion.

 According to an embodiment of the invention, the center of the button is formed with a threaded connection hole.

 According to an embodiment of the present invention, the connecting structure further includes: a second connecting portion, the second connecting portion comprising: a second latching portion, the second latching portion comprising: from the water machine a vertical portion extending vertically from the upper surface and a second bent portion extending horizontally from an end of the vertical portion, the second bent portion extending in the same direction as the first bent portion, and on the upper portion Forming an open slot; and an elastic latching portion, the elastic latching portion is disposed opposite to the open slot; the second hanging button, the second hanging button corresponds to the second connecting portion, and the a lower portion of the two button is configured to be snapped into the open slot; wherein the elastic snap portion is configured to catch the lower portion of the second button when no deformation occurs, and The second button is freely detached from the open slot when the elastic snap portion is depressed.

 According to an embodiment of the present invention, the elastic snap portion includes: a pressing portion connected to an upper surface of the water machine; and an elastic snap vertical portion extending perpendicularly from one end of the pressing portion, The length of the vertical portion of the elastic buckle just overlaps the lower portion of the hanging button.

According to an embodiment of the present invention, the second hanging button comprises: a hanging portion; a cylinder extending downward from the hanging portion And a flange portion formed below the cylindrical portion, the flange portion being caught in the open groove.

 According to another aspect of the present invention, there is provided a water tank comprising the automatic water machine as described above, wherein the first end of the automatic water machine faces a cold air outlet in the water tank, and the water making motor assembly faces the water tank door.

 The additional aspects and advantages of the invention will be set forth in part in the description which follows. DRAWINGS

 The above and/or additional aspects and advantages of the present invention will become apparent and readily understood from

 1 shows a front perspective view of an automatic water machine in accordance with an embodiment of the present invention, wherein the water cell assembly and the water motor assembly are in an open state;

 1 shows a rear perspective view of an automatic water machine in accordance with an embodiment of the present invention, wherein the automatic water machine is in a closed state;

 Figure 3 shows a perspective view of a water cell assembly in accordance with one embodiment of the present invention;

 Figure 4 shows an exploded perspective view of the water cell assembly shown in Figure 3;

 Figure 5 shows a perspective view of a water making motor assembly in accordance with one embodiment of the present invention;

 Figure 6 shows an exploded perspective view of the water-making motor assembly shown in Figure 5;

 Fig. 7 is a view showing the structure of a water main body of an automatic water machine connected to the water making motor assembly according to an embodiment of the present invention, wherein:

 7A is a schematic structural view showing the working state of the main body of the water machine and the water-making motor assembly;

 Figure 7B shows a cross-sectional view of Figure 7A;

 Figure 7C is a schematic view showing the structure of the water-making motor assembly when it is pulled out from the water-making machine body;

 Figure 7D is a schematic view showing the structure of the water-making motor assembly being laterally pulled out of the water-making machine body by a predetermined distance; Figure 7E shows the water-making motor assembly from the water-making machine immediately after Figure 7D. Schematic diagram of the structure when the main body of the machine is rotated by a predetermined angle;

 Figure 7F shows the right side view of Figure 7E;

 Figure 7G is a schematic view showing the structure of the water cell assembly of the automatic water machine when it is pulled out according to an embodiment of the present invention;

 Figure 8 shows a front view of an automatic water machine in accordance with one embodiment of the present invention;

 Figure 9 shows a top plan view of an automatic water machine in accordance with one embodiment of the present invention;

 Figure 10 shows a partial enlarged cross-sectional view of a portion A of Figure 7B, wherein Figure 10A shows a partial enlarged cross-sectional view of a portion A of Figure 7B, and Figure 10B shows a top view of Figure 10A taken along BB; and Figure 1 0C shows a schematic diagram of the removal/installation of the automatic water machine. detailed description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or Like numbers refer to the same or similar elements or elements that have the same or similar functions. The embodiments described below with reference to the drawings are intended to be illustrative of the invention and are not to be construed as limiting.

 In the description of the present invention, the orientations or positional relationships indicated by the terms "inside", "outside,", "longitudinal", "lateral", "upper", "lower", "top", "bottom", etc. are based on The orientation or positional relationship shown in the drawings is merely for the purpose of describing the present invention and is not intended to be construed as a limitation of the invention.

 The automatic water machine according to the present invention will be described in detail below by taking a water tank (not shown) as an example, but it should be noted that the automatic water machine of the present invention is not limited to the water tank but can be applied to any A refrigeration unit that requires automatic water production. The following is intended to be illustrative only and not to limit the scope of the invention.

 Further, although the following aspects of the present invention are described in connection with an automatic water machine, it will be apparent to those skilled in the art after reading the following technical solutions of the present invention that these technical features can be applied to, for example, manual production; water machines and the like. In the type of water machine, the automatic water machine described below is for illustrative purposes only and is not intended to limit the scope of the invention. The "automatic water machine" of the present invention includes, but is not limited to, a manual water machine, an automatic water machine, a batch type water machine, and the like.

 An automatic water machine 1000 according to an embodiment of the present invention will now be described in detail with reference to the accompanying drawings, wherein FIG. 1 shows a front perspective view of an automatic water machine 100 in accordance with an embodiment of the present invention, wherein the water cell assembly 200 And the water-making motor assembly 300 is in an open state; FIG. 1 shows a rear perspective view of the automatic water machine 100 in accordance with an embodiment of the present invention, wherein the automatic water machine 100 is in a closed state.

 As shown in FIG. 1, the automatic water machine 1000 includes: a water machine main body 100; a water cell assembly 200, and the water cell assembly 200 can be horizontally extracted or inserted into the water machine main body 100; The water motor assembly 300 is coupled to the water machine body 100 and can drive the water cell assembly 200 to perform water turning, wherein the water motor assembly 300 can be along the water The side wall of the machine body 100 is moved to a position that prevents the water cell assembly 200 from being involved in the process of pulling out or inserting the water machine body 100. Since the water cell assembly 200 can be horizontally withdrawn or inserted into the water machine body 100 and the water-making motor assembly 300 does not interfere with the water cell assembly 200 in this process, The water cell assembly 200 is taken out and the water cell assembly 200 is periodically cleaned to eliminate bacteria and dust. In addition, the amount of sanitary shield of the generated water block can be further ensured.

 Figure 8 shows a front view of an automatic water machine 1000 in accordance with one embodiment of the present invention. According to an embodiment of the present invention, the first end of the water machine body 100 is formed with at least one air inlet 103 for inputting cold air. As shown in Fig. 8, the first end of the water machine main body 100 is formed with intake ports 103, 104 on both sides of the water cell assembly 200, respectively. And the air inlets 103, 104 are distributed at the cold air outlets 5001, 5002 of the refrigeration equipment such as the water tank, and are respectively facing the cold air outlets 5001, 5002 (as shown in Fig. 8).

In accordance with an embodiment of the present invention, the air inlet 103 above the water cell assembly 200 is larger than the air inlet 104 located below the water cell assembly 200, as shown in FIG. As shown in FIG. 8, the water machine body 100 is engaged with the water-making motor assembly 300 at the second end, and the water-making motor assembly 300 is coupled to the second of the water-hydraulic body 100 in an operating state. End, and a closed space 105 is formed in the water machine body 100. As shown in FIG. 1, the water main body 100 is formed with a slanted transition portion 109 at a second end, and the transition portion 109 is used in the water machine main body 100. A transition is formed with the water turbine assembly 300. The top of the water-making motor main body 100, the transition portion 109, the joined water-making motor assembly 300, and the water cell assembly 200 inserted into the water-making motor main body 100 form the sealed space 105. Therefore, after the cold air from the cold air outlets 5001, 5002 of the refrigeration equipment such as the water tank is blown into the sealed space, the upper air inlet opening of the automatic water machine 1000 is large, and there is no obvious air outlet, and the cold air only passes through the periphery. The gap is dissipated, and the cold air can sufficiently cool the water contained in the water cell assembly 200 and accelerate the water production. The lower air inlet 104 of the automatic water machine 1000 is cooled by the lower portion of the water cell assembly 200, so that both the upper and lower sides of the water cell assembly 200 are cooled by water, thereby making the water making process The temperature is balanced, and no bubbles or broken water; water and other problems are introduced, thereby increasing the shield of the produced water block. It should be noted that the first end of the automatic water machine 1000, that is, the left end, may be provided with a plurality of air inlets as needed to increase the airflow inflow and accelerate the water production speed.

 Further, the automatic water machine 1000 may further include: a water block container 400 disposed directly under the water machine main body 100 for accommodating the water block produced by the water cell assembly 200 , as shown in Figure 7E.

 As shown in Fig. 1, a water inlet 101 is formed on the upper surface of the water machine main body 100 to inject water into the water cell assembly 200 into which the water heater main body 100 is inserted.

 According to an embodiment of the present invention, the water-making motor assembly 300 further includes: a water detecting rod 304, the water detecting rod 304 can be driven by the water-making motor assembly 300 to rotate from a horizontal position by a predetermined angle, and The water stop signal of the automatic water machine 1000 is issued when the water block is touched within the angular range.

 The structure and function of the respective components of the automatic water machine 1000 according to an embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

 A connection structure for connecting the automatic water machine 1000 according to an embodiment of the present invention to the top plate in the water tank will be described below with reference to Figs. 1, 2, 7, and 10. It should be noted that the connection structure of the present invention is not limited to the automatic water machine 1000. After reading the following technical solutions of the present invention, the person skilled in the art can obviously refer to the structure to other water machines, which also fall into the Within the scope of protection of the present invention. Figure 10 is a partial enlarged cross-sectional view showing a portion A of Figure 7B, wherein Figure 10A shows a partial enlarged cross-sectional view of a portion A of Figure 7B, Figure 10B shows a top view of Figure 10A taken along BB; and Figure 10C shows the disassembled view A schematic diagram of the lower/installation of the automatic water machine 1000.

 As shown in FIG. 7D, the connection structure for the water machine includes: three first connecting portions, the first connecting portion is formed on an upper surface of the water machine and includes: a first connecting portion main body 1021, the first connecting portion main body 1021 is connected to an upper surface of the water machine; a first flange fastening portion 1022, the first flange fastening portion 1022 is from the first connecting portion main body 1021. The edge extends upwardly and has a first bent portion 1023 extending horizontally toward a center of the first connecting portion main body 1021; three first hanging buttons 501, 502, 503 corresponding to the first connecting portion The lower portion of the first hanging button is configured to be snapped into the first flange snap portion 1022.

 The first connecting portion main body 1021 is formed as a hollow cylinder, and it is obvious that it may be formed as another hollow cylinder or any other structure capable of forming a flange snap portion.

The first hanging button includes: a hanging portion 5011; a cylindrical portion 5012 extending downward from the hanging portion 5011; and a flange portion 5013 formed under the cylindrical portion 5012, the flange portion 5013 being engaged The first flange fastening portion 1022 is inside. The center of the hanging button is formed with a connecting hole 5014 so that the hanging button can be connected to a top plate such as a water tank by, for example, a screw or a rivet. As shown in FIG. 10, the connection structure may further include: a second connecting portion, the second connecting portion includes: a second fastening portion 2021, the second fastening portion 2021 includes: from the water machine a vertical portion 2022 extending vertically from the upper surface and a second bent portion 2023 extending horizontally from an end of the vertical portion, an extending direction of the second bent portion 2023 and the first bent portion 1023 The same, and the opening groove 2024 is formed thereon; and the elastic locking portion 2025, the elastic locking portion 2025 is opposite to the opening groove 2024; the second hanging button 504, the second hanging button 504 and the The second connecting portion corresponds to a lower portion of the second hanging button 504 configured to be snapped into the opening groove 2024; wherein the elastic locking portion 2025 is configured to be elastic when the deformation is not occurred The buckle portion 2025 catches the lower portion of the second button 504, and the second button 504 is freely detached from the opening groove 2024 when the elastic hook portion 2025 is pressed. According to an embodiment of the present invention, the elastic snap portion 2025 includes: a pressing portion 2026 connected to an upper surface of the water machine; and an elastic buckle vertical portion extending perpendicularly from one end of the pressing portion 2026 2027, the length of the elastic buckle vertical portion 2027 just overlaps the lower portion of the hanging button 504. As described above, the second button 504 may have the same structure as the first buttons 501, 502, and 503.

 Fig. 10C shows a schematic structural view of the operation of the connection structure. When the automatic water machine 1000 needs to be installed or removed, the button 504 can be freely detached from the opening groove 2024 by pressing the pressing portion 2026, and due to the button 501 in the first connecting portion, 502, 503 can be freely separated from the lower portion of the first flange fastening portion 1022, so that the installation and disassembly of the automatic water machine 1000 can be realized only by pressing the pressing portion 2026, and the structure is simple and easy to operate. .

 A water cell assembly 200 of 1000 in accordance with one embodiment of the present invention will now be described with reference to Figures 3 and 4, wherein Figure 3 shows a perspective view of a water cell assembly 200 in accordance with one embodiment of the present invention; An exploded perspective view of the water cell assembly 200 shown in FIG. 3 is shown.

 According to an embodiment of the present invention, the water cell assembly 200 includes: a water cell body 201, the water cell body 201 is formed with a plurality of water block forming chambers 202 for forming a water block; Supporting member 203, two ends of the water cell body 201 are pivotally supported on opposite ends of the water cell body support member 203; wherein the water cell body support member 203 is opposite to the end portion thereof The adjacent side wall 204 is provided with a rotation restricting portion 205 (as shown in Fig. 4) which is further rotated.

 As shown in Fig. 4, the bottom of the water cell body support member 203 is open so that the water formed can be formed when the water cell body 201 is rotated within the water cell body support member 203. The block is poured into the water block container 400 placed thereunder. The water block forming chamber 202 may be formed into a desired shape as needed, and the water block forming chamber 202 may be juxtaposed in a plurality of rows.

 As shown in FIG. 4, sliding guides 212 are respectively formed on the two outer sidewalls of the water cell body support member 203.

213. The sliding guides 212, 213 may be formed in a laterally extending reinforcing rib shape on the outer side wall, and corresponding thereto, the inner side walls of the water machine main body 100 may be formed with the sliding grooves 110, 111. , as shown in Figure 9. It should be noted that other matching structures may be formed on the two outer sidewalls of the water cell body support 203 to perform sliding matching with the structures on the two inner sidewalls of the water machine body 100, for example, A sliding groove may be formed on the outer side wall, and sliding guides are formed on the two inner side walls of the water machine main body 100. According to an embodiment of the present invention, the sliding guides 212, 213 are formed with damping portions 214, 215. In FIG. 4, the damper portions 214, 215 are formed as V-shaped grooves on the sliding guides 212, 213, which are disposed along the longitudinal direction. Correspondingly, the elastic locking portions 112, 113 are formed in the sliding grooves 110, 111 of the water machine main body, and the elastic locking portions 112, 113 and the damping portions 214, 215 are respectively Engaging, so that in the process of pulling out the water cell assembly 200, additional force is required to pull the water cell assembly 200 out, preventing the process of pulling out the water motor assembly 300 The water cell assembly 200 is accidentally pulled out.

 As shown in FIG. 4, the first end of the water cell body 201 is provided with a cylindrical portion 206, and the first end of the water cell body support member 203 is provided with a branch corresponding to the cylindrical portion 206. a seat 207 and the cylindrical portion 206 can be received within the holder 207 and rotatable. The water cell assembly 200 further includes: a water cell fixing portion 208, the water cell fixing portion 208 is detachably coupled to the water cell body support 203, and the cylindrical portion 206 is at the support 207. It can be rotated inside.

 The second end of the water cell body 201 is formed with a receiving hole 209, the water cell body support 203 is formed with a cylindrical hole 210, and the water cell assembly further includes a connecting member 211, the connecting member 211 It can be inserted into the receiving hole 209 and can be driven to rotate within the cylindrical hole 210.

 According to another embodiment of the present invention, the second end of the water cell body 201 is integrally formed with a connecting member 211, and the water cell body supporting member 203 is formed with a cylindrical hole 210, and the connecting member 211 is The cylindrical bore 210 can be driven to rotate.

 In an embodiment in accordance with the present invention, the second end of the water machine body 201 is formed with a square receiving hole 209, and the second end of the water cell body support 204 is formed with a cylindrical hole 210. One end of the connecting member 211 is formed with a square protrusion for inserting into the square receiving hole 209, and the other end is formed with a cylindrical portion formed with a semi-cylindrical shape on the brake movement 302 A shaft (not shown) is engaged to further drive the water cell assembly 200 for spin-drying. The connector 211 may also be integrally connected to the water cell body 201.

 As shown in FIG. 4, the rotation restricting portion 205 is used to restrict the rotation angle of the water cell assembly 200 away from one end of the water-making core, and when the rotation angle of the end of the water-contact movement 302 is different, The water cell assembly 200 will then deform. The rotation restricting portion 205 is formed to be connected to the half-shaped bent protrusion on the side wall of the water cell body support 204 to carry the rotated water machine body 201 at a predetermined angle and prevent further Rotate. It should be noted that, here, the rotation restricting portion 205 may also adopt any other structure to prevent further rotation of the water cell body 201.

 The water cell body 201 can be elastically deformed, so that during the rotation of the water cell body 201, the water cell body 201 can be deformed, and the water block formed therein and the water block can be formed. The side wall of the chamber 202 is disengaged and falls off when the water cell body 201 is rotated to a predetermined angle. According to an embodiment of the present invention, the connecting member 211 can be driven to rotate 150-180 degrees from a horizontal position, and the rotation restricting portion 205 is configured such that the first end of the water cell body 201 can be Rotate 100-120 degrees. Thus, the water block forming the chamber 202 is squeezed out due to the difference in the angle at which the rotation occurs, and since the angle of inclination of the water cell body 201 is large, the extruded water block can naturally fall off.

A water-making motor assembly 300 of 1000 according to an embodiment of the present invention will now be described with reference to FIGS. 5 and 6. The water turbine assembly 300 can be moved along the side walls of the water machine body 100 to prevent the water cell assembly 200 from being in a position to be involved in the process of pulling out or inserting the water machine body 100. 5 shows a perspective view of a water motor assembly 300 in accordance with an embodiment of the present invention. FIG. 6 shows an exploded perspective view of the water-making motor assembly 300 shown in FIG.

 As shown in Figs. 5 and 6, the water-making motor assembly 300 includes: a water-making motor support member 301, a water-making machine core 302, a core cover 303, and a connecting member 305. Among them, the water making mechanism 302 is used to drive the water cell assembly 200 to perform water turning.

 The water motor support 301 is used to house the water-making movement 302. Specifically, the water-making motor support member 301 is open at the end and defines an accommodation space therein, and the water-making movement 302 is disposed in the accommodation space.

 The movement cover 303 is for closing the open end of the water-retaining movement 302 and is pivotally connected to the water-making motor support 301. Specifically, in one example of the present invention, a first pivot shaft 3011 is formed on a side wall of the water motor support 301, and a first pivot is formed on a side of the movement cover 303 to cooperate with the first pivot shaft 3011. A through hole 3031 is provided to pivotally connect the movement cover 303 to the water making motor support 301. In another example of the present invention, the bottom of the water-making motor support 301 is formed with a resilient snap strip 3013 for snapping the embedded water-making core 302.

 A protruding portion 3012 is formed on an outer sidewall of the water-making motor support member 301, and a second hole portion 3032 is formed on a side of the movement cover 303, and the protruding portion 3012 is engaged with the second hole portion 3032 to buckle the movement cover 303. The water motor support member 301 is attached.

 The connecting member 305 is fixedly coupled to the water making motor support 301, and the connecting member 305 is configured to be movable along the side wall of the water machine body 100 to prevent the water cell assembly 200 from being pulled out or inserted into the water maker body 100. The location of the encounter in the process.

 In some examples of the invention, the connecting member 305 includes a first cantilever 3051 and a second cantilever 3052. Wherein, the first cantilever 3051 protrudes from one side of the water motor support 301, and the second cantilever 3052 also protrudes from the same side of the water motor support 301 and is located below the first cantilever 3051, and the second cantilever 3052 The length of the first cantilever 3051 is greater than the length of the first cantilever 3051, and the first cantilever 3051 and the second cantilever 3052 are pivotally coupled to the water machine body 100. Alternatively, the first cantilever 3051 and the second cantilever 3052 are integrally formed from one end of the water motor support 301, and the other end is spaced apart from the upper and lower sides, as shown in FIG.

 Accordingly, a first lateral guiding track 106 and a second guiding track 107 for mating with the first cantilever 3051 and the second cantilever 3052, respectively, are formed on the side wall of the water machine body 100.

 The first lateral guide track 106 is for pivotally connecting the first cantilever 3051. The second guiding track 107 is for pivotally connecting the second cantilever arm 3052, and the second guiding track 107 includes a second lateral guiding track 1071 parallel to the first lateral guiding track 106 and a center of one end of the first lateral guiding track 106 The curved guide track 1072 is formed. Thus, while the first cantilever 3051 is moving in the first lateral guiding track 106, the second cantilever 3052 is moved within the second lateral guiding track 1071 of the second guiding track 107, when the first cantilever 3051 is moved to the first lateral guiding track. At the end of 106, the second cantilever 3052 moves along the curved guide track 1072 such that the water turbine assembly 300 rotates about the end of the first lateral guide track 106, as shown in Figures 7D-7G.

 The first cantilever arm 3051 and the second cantilever arm 3052 are respectively slid in the first lateral guiding track 106 and the second guiding track 107, so that the water-making motor assembly 300 can be horizontally slid to a predetermined position along both sides of the water-making machine body 100, And at this predetermined position, the hydro-electric motor assembly 300 can be rotated by a predetermined angle.

In addition, a first "" ^ hook 3034 is formed on each of the two sides of the movement cover 303. Correspondingly, the water machine body 100 One end of the water motor assembly 300 (ie, the second end of the water machine body 100) is formed with a second hook 308 for the second hook 308 when the water motor assembly 300 is inserted into the water machine body 100. Engagement with the first "" hook 3034 causes the water-making motor assembly 300 to close the water machine body 100.

 In one of the examples of the present invention, the grip portion 3033 is formed on the lateral side of the movement cover 303 to pull the first "" hook 3034 to disengage the second hook 308 by pulling the grip portion 3033. Alternatively, the grip portion 3033 can be a buckle.

 In another example of the present invention, as shown in FIG. 7A, the rear end of the second hole portion 3032 is connected to the first hook 3034 by a resilient member having a U-shaped shape, such that the first hook 3034 and the first hook When the two hooks 308 are engaged, the protruding portion 3012 is engaged in the second hole portion 3032 and abuts against the elastic member, and when the user pulls the grip portion 3033 and does not completely disengage the first "" hook 3034 from the second When the hook 308 is released, the protrusion 3012 will be biased by the second hole portion 3032 to the "U"-shaped elastic member, so that the first hook 3034 is restored to the original state and continues to be engaged with the second hook 308.

 In some examples of the invention, the water turbine assembly 300 further includes a water probe 304. As shown in FIGS. 5 and 6, the water detecting rod 304 is located outside the connecting member 305, and is pivotally connected to the water-making movement 302 through an opening 3014 formed on the side of the water-making motor support 301, and The water-moving movement 302 is driven to rotate by a predetermined angle, and a water stop signal is issued when the water block is touched within the angular range.

 In the water making process of the automatic water machine 1000, the water detecting rod 304 detects the water block disposed in the water block container 400 directly below the water machine main body 100 at a predetermined cycle, that is, the water detecting unit The rod 304 can be rotated by the water motor assembly 300 from a horizontal position by a predetermined angle, and when the water block is touched within the range of angles, the water stop signal of the automatic water machine 1000 is issued, so that the automatic The water machine 1000 stops supplying water through the water inlet 101.

 A sensing unit 600 of an automatic water machine 1000 according to an embodiment of the present invention will now be described with reference to FIG. 8, wherein FIG. 8 shows a front view of an automatic water machine 1000 according to an embodiment of the present invention.

 According to an embodiment of the present invention, a sensing unit 600 is disposed at a position adjacent to the water cell assembly 200 at a first end of the water machine body 100 for sensing the system in the water cell assembly 200. Water temperature.

 According to an embodiment of the present invention, the first end of the water machine body 100 is formed with intake ports 103, 104 on the upper and lower sides of the sensing unit 600, respectively. Therefore, the presence of the sensing unit 600 does not affect the flow of the cold air flowing in through the intake ports 103, 104.

 According to an embodiment of the invention, the sensing unit 600 comprises a sensor 601 and a sensor support 602 for fixing the sensor 601, wherein the sensor support 602 is formed by adjacent cylinders and the sensor 601 is also formed by a corresponding cylinder. Preferably sensor support 602 is formed by an adjacent cylinder and sensor 601 is also formed by an adjacent cylinder.

 In one embodiment of the present invention, one end of the sensor support member 602 is fixed to the inner side of the first end of the water machine body 100, and the other end adjacent to the water cell assembly 200 is formed as a hollow cylinder, and the sensor 601 is also formed as The cylindrical shape is inserted into the hollow cylinder of the sensor support 602, and the top end of the sensor 601 is adjacent to the end of the water cell assembly 200. There is a gap between the end of the sensor 601 adjacent the end of the water cell assembly 200 that ensures that the water cell assembly 200 does not wear the sensor 601 when it is twisted when the water cell assembly 200 is twisted.

According to one embodiment of the invention, sensor support 602 and water cell assembly 200 are each formed from plastic. Thus, the sensor 601 is only a layer of plastic at the end opposite the water cell assembly 200, and is surrounded by a plurality of layers of plastic in other directions. Therefore, the sensor 601 is most sensitive to the temperature within the water cell assembly 200.

 According to an embodiment of the present invention, the end of the water cell assembly 200 is provided with a metal piece 603 at a position immediately adjacent to the sensor 601. Since the heat transfer effect of the metal piece is remarkably superior to that of the plastic, the actual temperature in the water cell assembly 200 can be more accurately sensed by providing the metal piece 603.

 According to an embodiment of the present invention, a micro switch 700 is disposed on one side wall of the water machine main body 100. When the water cell assembly 200 is inserted into the water main body 100, the micro switch 700 is closed and triggered. The water machine supplies a signal to thereby inject a predetermined amount of water; when the water cell assembly 200 is taken out, the micro switch 700 pops up and triggers the water supply stop signal of the water machine. This ensures that when the water cell is removed, no water supply will occur, preventing water from penetrating into other parts and causing poor operation after watering.

 According to an embodiment of the present invention, the sensing unit 600 is detachably disposed at the first end of the water machine body 100, and the installation position of the sensor unit 600 and the end of the water cell assembly 200 are positive. Correct.

 Thus, since the automatic water machine 1000 according to an embodiment of the present invention is provided with a sensing unit, it is possible to provide automatic control of the entire process of water supply, water production, etc., thereby improving the intelligence of the automatic water machine 1000. Sex.

 The operation of 1000 in accordance with one embodiment of the present invention will now be described with reference to FIG. 7 is a structural schematic view showing the connection between the main body of the water machine of the automatic water machine and the water-making motor assembly according to an embodiment of the present invention, wherein: FIG. 7A shows the main body of the water machine; Schematic diagram of the working state of the water motor assembly; Figure 7B shows the diagram

7A is a cross-sectional view; FIG. 7C is a schematic view showing the structure of the water-making motor assembly when it is pulled out from the water-making machine body;

7D shows a structural view when the water-making motor assembly is pulled laterally from the water-hydraulic body by a predetermined distance; FIG. 7E shows the water-making motor assembly from the water-making machine immediately after FIG. 7D. FIG. 7F is a right side view of FIG. 7E; FIG. 7G is a schematic view showing the structure of the water cell assembly of the automatic water machine when it is pulled out according to an embodiment of the present invention.

 As shown in FIG. 7A, in the process of normal water production, the water-making motor assembly 300 encloses the second end of the water-making machine body 100, the first--hook 3034 and the water-making machine body 100. The second hook 308 is engaged to form a closed air passage during the operation of the automatic water machine 1000, thereby accelerating the water making process and preventing the water making motor assembly 300 from the water making The machine body 100 is detached. Fig. 7B shows a cross-sectional view in Fig. 7A in which the first cantilever 3051 and the second cantilever 3052 are located at the leftmost sides of the first lateral guiding track 106 and the second guiding track 107, respectively.

 In the water making process of the automatic water machine 1000, the water detecting rod 304 detects the water block in the water block container 400 at a predetermined cycle, that is, the water detecting rod 304 can be used by the water making motor assembly 300. When the predetermined position is rotated from the horizontal position, and the water block is touched within the angle range, the water stop signal of the automatic water machine 1000 is issued, so that the automatic water machine 1000 stops supplying water through the water inlet 101. .

 Then, when the water making is completed or the water cell assembly 200 needs to be pulled out, the grip portion 3033 is pulled, and the first "" hook 3034 is disengaged from the second hook 308 on the water machine main body 100, This is shown in Figure 7C.

Next, after the driver core cover 303 and the first "" hook 1734 are detached from the second hook 308 on the water machine body 100, the water motor assembly 300 is continuously pulled, so that the first cantilever 3051 And the second cantilever 3052 slides horizontally on the first lateral guiding track 106 and the second lateral guiding track 1071 of the second guiding track 107, respectively, as shown in FIG. 7D. It should be noted that, at this time, the motor drive shaft on the water-making movement 302 is disengaged from the connecting member 211 due to The elastic snap portions 112, 113 engage the damping portions 214, 215, respectively, to provide additional damping so that the water cell assembly 200 is not accidentally pulled out.

 Then, after the first cantilever 3051 slides into position along the first lateral guiding track 106, the second cantilever 3052 can be curved along a center of one end of the first lateral guiding track 106. The guide track 1072 continues to slide and is limited after being rotated to a certain angle, and remains in this state, as shown in Fig. 7E. The length of the curved guide rail 1072 is adjusted such that the position at which the water-making motor assembly 300 maintains the state does not occur with the water cell assembly 200 entering and exiting from the water-hydraulic main body 100, as shown in FIG. 7F. As shown, the original hidden water cell assembly 200 is now fully exposed.

 Fig. 7G shows a state diagram of the entire water cell assembly 200 when it is completely pulled out of the water maker body 100, at which time the water cell assembly 200 can be freely inserted or pulled out of the water machine body. The above operation is reversed, that is, the process of installing the water cell assembly 200 into the water main body 100, and the description will not be repeated here for the purpose of cleaning.

 In the above, the automatic water machine 1000 according to an embodiment of the present invention is described in detail by referring to Figs. 1-9. The use of the brake water machine 1000 in a refrigeration unit such as a water tank will be described below.

 First, the automatic water machine 1000 of the present invention can be connected to the top plate of the freezer compartment of the water tank by the push buttons 501, 502, 503, 504 of the snap portions formed on the upper surface of the automatic water machine 1000 ( It is not shown), and when necessary, the installation and disassembly of the automatic water machine 1000 can be realized by pressing the pressing portion 2026, and the structure is simple and easy to operate.

 In the water tank, the first end of the automatic water machine 1000 faces the cold air outlets 501, 502 in the water tank, and the water making motor assembly 300 of the automatic water machine 1000 faces the water tank door. This allows the water-steam motor assembly 300 to be easily pulled open when needed, and the water cell assembly 200 is taken out for cleaning, sterilization, and the like. And since the cold air outlet of the water tank directly supplies cold air to the closed space 105 through the air inlets 103, 104 on the water machine main body 100 of the automatic water machine 1000, it is not necessary to provide an additional air passage. In the case of the water, the speed and the amount of the shield are greatly improved.

 Any reference to "an embodiment", "an embodiment", "an exemplary embodiment" or the like means that a particular component, structure or feature described in connection with the embodiment is included in at least one embodiment of the invention. This illustrative representation throughout the specification does not necessarily refer to the same embodiments. Further, when a specific component, structure or feature is described in connection with any embodiment, it is claimed that it is within the scope of those skilled in the art to realize such a component, structure or feature in combination with other embodiments.

 While the embodiments of the present invention have been described in detail with reference to the exemplary embodiments of the present invention, it is understood that those skilled in the art It is within the spirit and scope of the principles of the invention. In particular, it is possible to make reasonable modifications and improvements in the arrangement of the component parts and/or sub-combination arrangements without departing from the spirit of the invention. Variations and modifications in the component parts and/or the scope of the invention are defined by the appended claims and their equivalents.

Claims

 Claim

1. An automatic water machine comprising:

 System; water machine body;

 a water cell assembly, the water cell assembly can be horizontally extracted or inserted into the water machine body;

 a water motor assembly, the water motor assembly is coupled to the water machine body, and the water cell assembly is driven to perform water turning, wherein

 The water-making motor assembly is movable along a side wall of the water machine body to prevent a position of the water cell assembly from being pulled out or inserted into the water machine body, wherein

 The first end of the water machine body is formed with at least one air inlet for inputting cold air.

 2. The automatic water machine according to claim 1, wherein the water making motor assembly is coupled to the second end of the water machine body and is within the second end of the water machine body Form a closed space.

 The automatic water machine according to claim 2, wherein the first end of the water machine body is respectively formed with an air inlet on both sides of the water cell assembly, and is located at the The air inlet on the upper side of the water cell assembly is larger than the air inlet located below the water cell assembly to simultaneously cool the upper and lower portions of the water cell assembly, respectively.

 4. The automatic water machine according to claim 1, wherein the water cell assembly comprises: a water cell body, and the water cell body is formed with a plurality of water blocks for forming a water block. Forming a chamber;

 a water grid body support member; the two ends of the water grid body are pivotally supported on opposite ends of the water cell body support member;

 The water grid body support member is provided with a rotation restricting portion on a side wall adjacent to the end portion thereof, and the rotation restricting portion prevents the system when the water grid body rotates to a predetermined angle; Further rotation at one end.

 The automatic water machine according to claim 4, wherein the two outer side walls of the water cell body support member are respectively formed with sliding guide members, and the inner side wall of the water machine body is A sliding guide groove is formed.

 The automatic water machine according to claim 5, wherein the sliding guide is formed with a V-shaped groove, the V-shaped groove is disposed along a longitudinal direction, and the sliding guiding groove is respectively formed There is an elastic snap portion combined with the V-shaped groove.

 The automatic water machine according to claim 4, wherein the first end of the water cell body is provided with a cylindrical portion, and the first end of the water cell body support member is provided with The corresponding portion of the cylindrical portion, and the cylindrical portion can be accommodated in the holder and can be rotated.

 8. The automatic water machine according to claim 7, wherein the water cell assembly further comprises: a water cell fixing portion, the water cell fixing portion being detachably coupled to the water cell a body support, and the cylindrical portion is rotatable within the support.

 The automatic water machine according to claim 8, wherein the second end of the water cell body is formed with a receiving hole, and the water cell body supporting member is formed with a cylindrical hole, and the system is formed The water cell assembly further includes a connector insertable into the receiving aperture and drivable within the cylindrical bore.

The automatic water machine according to claim 8, wherein the second end of the water cell body is integrally formed A connector is formed, the water cell body support member is formed with a cylindrical hole, and the connector member is drivably rotatable within the cylindrical hole.

 The automatic water machine according to claim 9 or 10, wherein the connecting member is driven to rotate by 150-180 degrees, and the rotation restricting portion is configured such that the water cell body The first end can be rotated 100-120 degrees.

 12. The automatic water machine according to claim 4, wherein the water making motor assembly comprises: a water making machine core, wherein the water making machine core is configured to detachably drive the water cell assembly The water cell body is turned over; the water motor support member is for accommodating the water machine movement;

 a movement cover for closing an open end of the water-making movement and pivotally connected to the water-making motor support;

 a connecting member fixedly coupled to the water making motor support, and the connecting member is configured to be movable along a side wall of the water machine body to prevent the water cell assembly from being pulled out Or a position where a thousand is involved in the process of inserting the main body of the water machine.

 The automatic water machine according to claim 12, further comprising:

 A water block container, the water block container being disposed directly below the water machine body for accommodating a water block formed by the water cell assembly.

 The automatic water machine according to claim 13, further comprising:

 a water rod, the water detecting rod is located outside the connecting member, and is pivotally connected to the water making body through an opening formed on a side of the water making motor support, and The water-making machine is driven to rotate by a predetermined angle to detect the water-block, which is made in the water-block container, and touches the water block; the water block is issued; the water stop signal is issued.

 The automatic water machine according to claim 12, wherein the connecting member comprises: a first cantilever extending from a side of the water-making motor support;

 a second cantilever extending from a side of the hydro-motor support and located below the first cantilever, the second cantilever having a length greater than a length of the first cantilever, wherein

 The first cantilever and the second cantilever are pivotally coupled to the water machine body.

 The automatic water machine according to claim 15, wherein the side wall of the water machine body is formed with:

 a first lateral guiding track for pivotally connecting the first cantilever; and

 a second guiding track for pivotally connecting the second cantilever, the second guiding track including a second lateral guiding track parallel to the first lateral guiding track and one end of the first lateral guiding track An arcuate guide track formed for the center of the circle.

 The automatic water machine according to claim 16, wherein a sidewall of the water-making motor support member is formed with a first pivoting shaft, and a side of the movement cover is formed with the A first pivot hole mated by the first pivot shaft to pivotally connect the movement cover to the water motor support.

 The automatic water machine according to claim 17, further comprising:

a water detecting rod located outside the connecting member and pivotally connected to the water making body through an opening formed on a side of the water making motor support, and The water-making movement is driven to rotate by a predetermined angle, and The water stop signal is issued when the water block is touched within the angle range.

 The automatic water machine according to claim 17, wherein a protrusion is formed on an outer side wall of the water motor support, and a second hole is formed on a side of the movement cover. The protrusion is caught in the hole to fasten the movement cover to the water motor support.

 The automatic water machine according to claim 17, wherein the two sides of the movement cover are respectively formed with a first hook, the system; the water machine main body and the system; One end of the component mating is formed with a second hook to engage the first hook when the water motor assembly is inserted.

 The automatic water machine according to claim 20, wherein the first "" hook is pulled to disengage the second hook.

 The automatic water machine according to claim 1, further comprising:

 a sensing unit, the sensing unit being disposed at a position adjacent to the water cell assembly at a first end of the water machine body for sensing a water temperature in the water cell assembly.

 The automatic water machine according to claim 3, further comprising:

 a sensing unit, the sensing unit is disposed between the air inlets of the first end of the water machine body, and adjacent to the water cell assembly, for sensing the water production The water temperature in the grid assembly.

 The automatic water machine according to claim 22, wherein the sensing unit comprises: a sensor;

 A sensor support for securing the sensor, and the sensor is disposed on the sensor support proximate an end of the water cell assembly.

 The automatic water machine according to claim 24, wherein one end of the sensor support member is fixed to the inner side of the first end of the water machine body, and the sensor support member adjacent to the water cell assembly The other end is formed as a hollow cylindrical body, and the sensor is also formed as a corresponding cylindrical body and inserted into the hollow cylindrical body of the sensor support.

 The automatic water machine according to claim 24, wherein an end portion of the water cell assembly and a position in close proximity to the sensor are provided with a metal piece.

 The automatic water machine according to claim 26, wherein a side wall of the water main body is provided with a micro switch, and the water cell assembly is inserted into the water machine main body. When the micro switch closes and triggers the water supply signal of the water machine, a predetermined amount of water is injected into the water cell assembly, and when the water cell assembly is taken out, the movable switch bounces and triggers the water supply of the water machine. Stop signal.

 The automatic water machine according to claim 27, wherein the sensing unit is detachably disposed at a first end of the water machine body, and the setting position of the sensor unit is The ends of the water cell assembly are facing each other.

 The automatic water machine according to claim 12, wherein the second end of the water cell body is fixedly provided with a connecting member, and the connecting member is rotatably supported by the water cell body And connected to the water-making movement to control the water-making movement in an operating state to drive the water-main body to perform water turning.

 30. The automatic water machine according to claim 1, further comprising a connection structure formed on an upper surface of the main body of the water machine, comprising:

At least one first connecting portion, the first connecting portion is formed on an upper surface of the water machine and includes: a first connecting portion main body, the first connecting portion main body is connected to an upper surface of the water machine; a first flange engaging portion, the first flange engaging portion is from the first connecting portion main body An edge extending upwardly and having a first bent portion extending horizontally toward a center of the first connecting portion body;

 At least one first button corresponding to the first connecting portion, a lower portion of the first button is configured to be snapped into the first flange catching portion.

 The automatic water machine according to claim 30, wherein the first connecting portion main body is formed as a hollow cylindrical body.

 The automatic water machine according to claim 31, wherein the first hanging button comprises: a hanging portion;

 a cylindrical portion extending downward from the hanging portion;

 a flange portion formed below the cylindrical portion, the flange portion being caught in the first flange fastening portion.

 33. The automatic water machine according to claim 30, wherein a center of the hanging button is formed with a threaded connection hole.

 The automatic water machine according to claim 30, wherein the connecting structure further comprises: a second connecting portion, the second connecting portion comprising:

 The second fastening portion includes:

 a vertical portion extending perpendicularly from an upper surface of the water machine and a second bent portion horizontally extending from an end of the vertical portion, an extending direction of the second bent portion and the first bend The folded portion is the same, and an open groove is formed thereon;

 An elastic latching portion, the elastic latching portion is opposite to the open slot;

 a second hanging button, the second hanging button corresponding to the second connecting portion, and a lower portion of the second hanging button is configured to be buckled into the open slot;

 The elastic snap portion is configured to catch the lower portion of the second button when the deformation is not performed, and the second button is from the open slot when the elastic buckle portion is pressed Free to leave.

 35. The automatic water machine according to claim 34, wherein the elastic hooking portion comprises: a pressing portion connected to an upper surface of the water machine;

 An elastic snap vertical portion extending perpendicularly from one end of the pressing portion, the length of the elastic snap vertical portion just overlapping the lower portion of the hanging button.

 36. The automatic water machine according to claim 35, wherein the second hanging button comprises: a hanging portion;

 a cylindrical portion extending downward from the hanging portion;

 a flange portion formed below the cylindrical portion, the flange portion being caught in the open groove.

A water tank comprising the automatic water machine according to claim 1, wherein the first end of the automatic water machine faces a cold air outlet in the water tank, and the water making motor assembly faces the water tank door.