CN213713648U - Ice making machine - Google Patents

Abstract

The application relates to an ice maker, which relates to the field of electric appliances and comprises a shell, a water inlet assembly and a water tank, wherein the water inlet assembly and the water tank are arranged in the shell; the first water inlet module comprises a water inlet valve and a first water inlet pipe; the second water inlet module comprises a water inlet joint, a second water inlet pipe, a third water inlet pipe and a self-sucking pump; the first water inlet module and the second water inlet module are provided with a change-over switch, and the change-over switch is used for switching water supply to supply water for the first water inlet module or the second water inlet module. The water supply system can realize normal water supply of the ice machine under the conditions of a pressure water source and a non-pressure water source.

Description

Ice making machine

Technical Field

The present application relates to the field of electrical appliances, and more particularly, to an ice maker.

Background

An ice maker is a refrigeration machine that produces ice by cooling water through an evaporator with a refrigerant in a refrigeration assembly. The shapes of the generated ice are different according to different principles of evaporators and generation processes, and people generally divide ice machines into a particle ice machine, a flake ice machine, a plate ice machine, a tube ice machine, a shell ice machine and the like according to the shapes of the ice.

The existing ice maker is generally designed to be used in a fixed place and cannot be moved conveniently. The water inlet of the ice maker is also generally designed to be connected with a pressure water supply source, and the water is supplied to the ice maker through the water supply pressure.

In some special use occasions, such as factory buildings, islands or temporarily built field catering areas and the like, a water source for supplying water under pressure is not provided frequently, and when the ice maker is used in the special occasions or the changed use occasions, the problems of water inlet and use of the ice maker under the condition of no pressure water source need to be solved. On the other hand, ice makers are generally heavier, but the supporting legs of the ice makers are generally fixed legs, so that the ice makers are inconvenient to move.

SUMMERY OF THE UTILITY MODEL

The ice maker aims to solve the problem that the ice maker is inconvenient to use in some special occasions, particularly the problem of how to conveniently supply water to the ice maker in some situations without pressure water supply sources in the changed use occasions; on the other hand, if the ice maker needs to be transferred, the ice maker is convenient to move.

The ice making machine provided by the application adopts the following technical scheme:

an ice maker, including the casing and establish water inlet assembly and basin in the casing, its characterized in that: the water inlet assembly comprises a first water inlet module connected with a pressure water source and a second water inlet module connected with a non-pressure water source;

the first water inlet module comprises a water inlet valve and a first water inlet pipe, one end of the water inlet valve is fixedly connected to one side of the shell, the other end of the water inlet valve is fixedly connected to the end part of the first water inlet pipe, and one end, far away from the water inlet valve, of the first water inlet pipe is aligned to the notch of the water tank;

the second water inlet module comprises a second water inlet pipe, a third water inlet pipe and a self-sucking pump, one end of the third water inlet pipe is fixedly connected to the water inlet end of the self-sucking pump, the water outlet end of the self-sucking pump is fixedly connected with the second water inlet pipe, and one end, far away from the self-sucking pump, of the second water inlet pipe is aligned to the notch of the water tank;

the first water inlet module and the second water inlet module are controlled to be connected with a change-over switch, and the change-over switch is used for switching water supply to supply water for the first water inlet module or the second water inlet module.

By adopting the technical scheme, the change-over switch can be used for switching the water inlet mode to be the first water inlet module or the second water inlet module according to different use occasions, the first water inlet module can utilize a pressure water source to feed water when working, and the second water inlet module can utilize a non-pressure water source to feed water when working, so that the water supply of the ice machine can be realized under the conditions of the pressure water source and the non-pressure water source, and the ice machine can be normally used under the condition of the non-pressure water source.

Preferably, the second module of intaking includes water supply connector, water supply connector one end fixed connection be in casing one side, water supply connector other end fixed connection be in the third inlet tube is kept away from the one end of self priming pump intake end.

By adopting the technical scheme, the water inlet connector is beneficial to connecting a longer external water pipe, and is convenient to connect a non-pressure water source.

Preferably, the second water inlet module comprises a power adapter, and the power adapter is electrically connected with the self-priming pump and can drive the self-priming pump to work.

Through adopting above-mentioned technical scheme, power adapter is self priming water pump power supply, and its working parameter can adopt: when the input is 110-220 AC, 12V DC is output to drive the self-priming pump to work.

Preferably, a controller and a relay are arranged in the shell, and the controller is electrically connected with the selector switch, the relay, the power adapter and the water inlet valve respectively;

when water is supplied to the first water inlet module, the selector switch is switched to a relay on the controller to be electrically connected with the water inlet valve;

when water is supplied to the second water inlet module, the relay switched to the controller by the change-over switch is electrically connected with the power adapter.

By adopting the technical scheme, when the water source connected to the ice maker is a pressure water source, the selector switch is switched to the relay on the controller to be electrically connected with the water inlet valve, and the pressure water source flows into the water tank through the first water inlet pipe; when the water source connected to the ice maker is a non-pressure water source, the switch is switched to the relay on the controller to be electrically connected with the power adapter, and the non-pressure water source flows into the water tank through the second water inlet pipe and the third water inlet pipe.

Preferably, the electrical control assembly comprises a water level sensor for detecting whether the water level of the water tank reaches a set water level, and one end of the water level sensor is aligned with the bottom of the water tank.

By adopting the technical scheme, the water level sensor is provided with a water level display to facilitate checking, and can detect whether the water level of the water tank reaches the set water level or not and continue to feed water if the water level of the water tank does not reach the set water level; the water inlet can be closed by closing the electric control assembly or manually closing the electric control assembly when the set water level is reached.

Preferably, the controller is provided with a fuse box, a fuse is arranged in the fuse box, and the fuse is connected between the self-priming pump and the power adapter in series.

Through adopting above-mentioned technical scheme, thereby the fuse fuses the fuse and cuts off the electric current when the self priming pump current rises to a take the altitude unusually, plays the effect of protection self priming pump.

Preferably, at least three feet are fixedly connected to the bottom plate of the housing.

Through adopting above-mentioned technical scheme, the footing plays the effect of fixed support casing.

Preferably, the footings include adjustable footings and castor footings.

By adopting the technical scheme, the adjustable bottom feet facilitate the user to adjust the horizontal height of the device; the universal wheel footing makes things convenient for this application device to remove.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the application, the water inlet mode can be switched to be the first water inlet module or the second water inlet module according to different use occasions, so that normal water supply of the ice machine can be realized under the conditions of a pressure water source and a non-pressure water source;

2. the adjustable bottom feet facilitate the user to adjust the horizontal height of the device; the universal wheel footing makes things convenient for this application device to remove.

Drawings

Fig. 1 is a schematic view of the internal structure of the present application.

Fig. 2 is a circuit control schematic of the present application.

Fig. 3 is an external structural diagram of the present application.

Reference numerals: 1. a housing; 2. a water tank; 3. a first water inlet module; 31. a water inlet valve; 32. a first water inlet pipe; 4. a second water inlet module; 41. a water inlet joint; 42. a second water inlet pipe; 43. a third water inlet pipe; 44. a self-priming pump; 45. a power adapter; 5. a switch; 6. a controller; 7. a relay; 8. a water level sensor; 9. a fuse; 10. footing; 101. adjustable feet; 102. the universal wheel footing.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an ice making machine.

Referring to fig. 1 and 3, the present application includes a housing 1, and a water intake assembly and a water tank 2 provided in the housing 1. The shape of the shell 1 is similar to a square shape, and one side of the shell 1 is also provided with a heat dissipation hole. The whole water tank 2 is in an L shape, and the shell of the water tank 2 is connected in the shell 1 through a buckle, so that the water tank is convenient to clean and replace.

The water inlet assembly comprises a first water inlet module 3 and a second water inlet module 4. The first water inlet module 3 and the second water inlet module 4 are provided with a change-over switch 5, and the change-over switch 5 can be used for switching the water inlet mode to be the first water inlet module 3 or the second water inlet module 4 according to different use occasions.

The first water inlet module 3 is connected with a pressure water source, and the pressure water source can be a municipal water network or water placed in a water storage tank at a high position. The first water inlet module 3 comprises a water inlet valve 31 and a first water inlet pipe 32, wherein one end of the water inlet valve 31 is screwed at one side of the shell 1, the other end of the water inlet valve 31 is screwed at the end of the first water inlet pipe 32, the first water inlet pipe 32 is a cylindrical pipe, and one end of the first water inlet pipe 32 far away from the water inlet valve 31 is aligned with the notch of the water tank 2. When the water supply of the first water inlet module 3 is switched, the water inlet valve 31 is opened, and the pressurized water source flows into the water tank 2 through the first water inlet pipe 32.

The second water inlet module 4 is connected with a non-pressure water source, and the non-pressure water source can be water in a water pool or water in a water storage tank arranged at a low position. Second water intake module 4 includes water inlet joint 41, second water inlet pipe 42, third water inlet pipe 43, self-priming pump 44 and power adapter 45. One end of the water inlet joint 41 is in threaded connection with one side of the shell 1, and the other end of the water inlet joint 41 is in threaded connection with one end of the third water inlet pipe 43; third inlet tube 43 is cylindrical pipe, and one end threaded connection that water inlet joint 41 was kept away from to third inlet tube 43 is intake end at self priming pump 44, and self priming pump 44 goes out water end threaded connection and has second inlet tube 42, and second inlet tube 42 is cylindrical pipe, and the notch department of basin 2 is aimed at to the one end that self priming pump 44 was kept away from to second inlet tube 42, and power adapter 45 is connected with self priming pump 44 electricity, and power adapter 45 is self priming pump power supply, and its operating parameter can adopt: when the input of the power adapter 45 is 110-220 alternating current, 12V direct current is output to drive the self-priming pump 44 to work.

When switching into the second module of intaking 4 supplies water, water supply connector 41 opens, and self priming pump 44 opens, and the non-pressure water source passes through self priming pump 44 and enters into third inlet tube 43, again from the inflow end inflow of self priming pump 44, again from the inflow end outflow of self priming pump 44 get into second inlet tube 42, flow into in the basin 2 at last.

Referring to fig. 2, the electrical control assembly includes a controller 6, a relay 7, and a water level sensor 8, and the controller 6 is electrically connected to the switch 5, the relay 7, and the water level sensor 8, respectively. The controller 6 and the relay 7 play a role of switching the first water inlet module 3 or the second water inlet module 4 in cooperation with the switch 5. The general water level sensor 8 has water level display, so that the water level sensor 8 can conveniently check whether the water level of the water tank 2 reaches the set water level.

The controller 6 is provided with a fuse box, a fuse 9 is arranged in the fuse box, and the fuse 9 can be a patch fuse 9. The fuse 9 is connected in series between the self-priming pump 44 and the power adapter 45. Fuse 9 fuses fuse 9 thereby to cut off the current when self priming pump 44 current rises to a take the altitude unusually, plays the effect of protection self priming pump 44.

The external bottom plate of the shell 1 is in threaded connection with 4 feet 10, wherein 2 feet 10 are fixed adjustable feet 101 and 10, and a user can conveniently adjust the horizontal height of the device; another 2 feet 10 are universal wheel feet 102 and 10, which facilitate the movement of the device.

The implementation principle of the embodiment is as follows: when the water source connected to the water supply is a pressure water source, the selector switch 5 is switched to the relay 7 on the controller 6 to be connected with the water inlet valve 31; when the controller 6 judges that water needs to be fed, the relay 7 is opened, the water inlet valve 31 is powered on to open the water inlet valve 31, the external pressure water source flows into the water tank 2 through the first water inlet pipe 32 under the action of water pressure, and the main board cuts off the relay 7, disconnects the water inlet valve 31 and stops water feeding when the water level sensor 8 senses that the water level reaches the set water level of the water tank 2.

When the water source accessed to the water supply system is a non-pressure water source, the selector switch 5 is switched to the relay 7 on the controller 6 to be connected with the power adapter 45; when controller 6 judges that need advance water, opens relay 7, for 45 power supply drive self priming pumps 44 work of power adapter, self priming pump 44 provides power for the non-pressure water source, introduces basin 2 through second inlet tube 42 and third inlet tube 43 with non-pressure water, until water level sensor 8 sensing when the water level has arrived the settlement water level of basin 2, the mainboard cuts off relay 7, and disconnection self priming pump 44 stops intaking.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An ice maker comprising a housing (1) and a water intake assembly and a water tank (2) provided in the housing (1), characterized in that: the water inlet assembly comprises a first water inlet module (3) connected with a pressure water source and a second water inlet module (4) connected with a non-pressure water source;

the first water inlet module (3) comprises a water inlet valve (31) and a first water inlet pipe (32), one end of the water inlet valve (31) is fixedly connected to one side of the shell (1), the other end of the water inlet valve (31) is fixedly connected to the end of the first water inlet pipe (32), and one end, far away from the water inlet valve (31), of the first water inlet pipe (32) is aligned to the notch of the water tank (2);

the second water inlet module (4) comprises a second water inlet pipe (42), a third water inlet pipe (43) and a self-sucking pump (44), one end of the third water inlet pipe (43) is fixedly connected to the water inlet end of the self-sucking pump (44), the water outlet end of the self-sucking pump (44) is fixedly connected with the second water inlet pipe (42), and one end, far away from the self-sucking pump (44), of the second water inlet pipe (42) is aligned to the notch of the water tank (2);

the first water inlet module (3) and the second water inlet module (4) are controlled to be connected with a switch (5), and the switch (5) is used for switching water supply to supply water for the first water inlet module (3) or the second water inlet module (4).

2. The ice-making machine of claim 1, wherein: the second module of intaking (4) is including water supply connector (41), water supply connector (41) one end fixed connection be in casing (1) one side, water supply connector (41) other end fixed connection be in the one end of self priming pump (44) end of intaking is kept away from in third inlet tube (43).

3. The ice-making machine of claim 2, wherein: the second module of intaking (4) be provided with power adapter (45) in casing (1), power adapter (45) with self priming pump (44) electricity is connected for the drive self priming pump (44) work.

4. The ice-making machine of claim 3, wherein: a controller (6) and a relay (7) are arranged in the shell (1), and the controller (6) is electrically connected with the change-over switch (5), the relay (7), the power adapter (45) and the water inlet valve (31) respectively;

when water is supplied to the first water inlet module (3), the selector switch (5) is switched to the relay (7) to be electrically connected with the water inlet valve (31);

when water is supplied to the second water inlet module (4), the selector switch (5) is switched to the relay (7) to be electrically connected with the power adapter (45).

5. The ice-making machine of claim 1, wherein: a water level sensor (8) used for detecting whether the water level of the water tank (2) reaches a set water level is arranged in the shell (1), and one end of the water level sensor (8) is aligned with the bottom of the water tank (2).

6. The ice-making machine of claim 4, wherein: the controller (6) is provided with a fuse box, a fuse (9) is arranged in the fuse box, and the fuse (9) is connected between the self-priming pump (44) and the power adapter (45) in series.

7. The ice-making machine of claim 1, wherein: at least three feet (10) are fixedly connected to the bottom plate of the shell (1).

8. The ice-making machine of claim 7, wherein: the foot (10) comprises an adjustable foot (101) and a universal wheel foot (102).

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