CN104567167B - Ice making waterworks and be provided with the refrigerator of this device - Google Patents

Abstract

The present invention provides a kind of ice making waterworks and is provided with the refrigerator of this device.Ice making waterworks include feed water box and with feedwater box be equipped with to water assembly.Described feedwater box has diapire, the perisporium extended in the same direction from diapire periphery and the water containing chamber being formed between diapire and perisporium.Described water containing chamber includes being positioned at the collect cavity of upside and being arranged on the quantitative tank on the downside of collect cavity.Described include being arranged at water containing chamber to water assembly in and hide the covering members of quantitative tank, be arranged on covering members and connected set water cavity and in quantitatively the leaking hole of tank, the part that leaks being arranged in leaking hole, one end extend to quantitative tank and the other end extends siphon and the drive mechanism of feedwater box.Described drive mechanism is set in quantitative tank provide certain pressure to make the water in quantitative tank be expelled on an ice tray part by siphon.

Description

Ice making waterworks and be provided with the refrigerator of this device

Technical field

The present invention relates to ice-making technology field, particularly relate to a kind of ice making waterworks of quantitative water supply ice making and be provided with the refrigerator of this device of facilitating.

Background technology

Refrigerator makes food or other article keep the container of constant low temperature cold conditions to become one of essential household electrical appliance of Modern Family as a kind of.Further, along with growth in the living standard, the functional requirement to refrigerator also gradually steps up.Wherein, as one of the basic function of refrigerator, ice machine has been widely used in refrigerator, and brings the biggest convenience to the life of people.But, the most of ice machines on existing market are all manually or water pump and water pipe water filling ice making, and water injection rate is difficult to control, and the integrated model of water pump water filling simultaneously is complicated, it is difficult to clean, so that ice making more bothers.

Therefore, it is necessary to provide the ice making waterworks of a kind of improvement and be provided with the refrigerator of this device to solve the problems referred to above.

Summary of the invention

It is an object of the invention to provide a kind of ice making waterworks of quantitative water supply ice making and be provided with the refrigerator of this device of facilitating.

For achieving the above object, the invention provides a kind of ice making waterworks, it include feed water box and with feedwater box be equipped with to water assembly, described feedwater box has diapire, the perisporium extended in the same direction from diapire periphery and the water containing chamber being formed between diapire and perisporium, and described water containing chamber includes being positioned at the collect cavity of upside and being arranged on the quantitative tank on the downside of collect cavity；Described include being arranged at water containing chamber to water assembly in and hide the covering members of quantitative tank, be arranged on covering members and connected set water cavity and in quantitatively the leaking hole of tank, the part that leaks being arranged in leaking hole, one end extend to quantitative tank and the other end extends siphon and the drive mechanism of feedwater box；Described drive mechanism is set in quantitative tank provide certain pressure to make the water in quantitative tank be expelled on an ice tray part by siphon；The described part that leaks has and is positioned at the water stop portion below covering members and is connected with water stop portion and is upward through the location division of leaking hole, described location division has the head that can be overlapped in covering members upper surface and the cervical region being connected between head and water stop portion, the length of described cervical region is more than the thickness of covering members, the described part whole installation that leaks for upwards to float by water stop portion sealing when water stop portion lower surface is under pressure, positioning anhydrous in tank or move down time water stop portion lower surface is not affected by pressure so that in the water leakage in collect cavity to location tank.

As a further improvement on the present invention, described drive mechanism includes the input pipe connected with quantitative tank and by input pipe towards the micro-blower assembly providing certain blast in quantitative tank.

As a further improvement on the present invention, described input pipe is fixed on covering members, and covering members is communicated with input pipe and the opening of quantitative tank.

As a further improvement on the present invention, described feedwater box also includes hiding lid at water containing chamber top, and described micro-blower assembly is arranged on outside feedwater box, described also include to water assembly through lid and connects input pipe and the communicating pipe of micro-blower assembly.

As a further improvement on the present invention, described quantitative tank caves in formation further from described diapire, is provided with sealing member between the diapire internal face around described covering members and quantitatively tank.

As a further improvement on the present invention, described siphon have be arranged on covering members and be communicated in quantitative tank suction hose, be fixed on feedwater box on and extend to the drain pipe below diapire, described suction hose has the connecting portion being connected with drain pipe top.

As a further improvement on the present invention, the described funnel also including to water assembly being arranged on below drain pipe and the heater strip being arranged on around funnel.

For achieving the above object, present invention also offers a kind of refrigerator, it has casing and the ice maker being arranged in casing, and described ice maker includes described ice making waterworks and is arranged on the ice tray part below ice making waterworks.

As a further improvement on the present invention, described casing has refrigerator room and the freezing compartment of neighbouring setting, and described ice making waterworks are arranged on the downside of refrigerator room, and described ice tray part is arranged on freezing compartment top.

The invention has the beneficial effects as follows: the ice making waterworks in the present invention are by arranging quantitative tank, leak part and drive mechanism etc. in feedwater box, automatic ration feedwater can be reached, simple in construction and convenient use, this kind of ice making waterworks easy disassembly simultaneously, it is simple to cleaning.

Accompanying drawing explanation

Fig. 1 is the partial structurtes exploded view of refrigerator one better embodiment of the present invention, the main setting showing ice maker；

Fig. 2 is the cross-sectional schematic of refrigerator in Fig. 1；

Fig. 3 is the three-dimensional exploded view of the ice making waterworks in Fig. 1 in ice maker；

Fig. 4 be in Fig. 3 in ice making waterworks to the part-structure exploded view of water assembly；

Fig. 5 be in Fig. 3 in ice making waterworks to the partial sectional view along line A-A direction of water assembly；

Fig. 6 be in Fig. 3 in ice making waterworks to the partial sectional view along line B-B direction of water assembly

Fig. 7 is the three-dimensional exploded view of the drive mechanism in Fig. 3 in ice making waterworks.

Detailed description of the invention

Describe the present invention below with reference to each embodiment shown in the drawings.But these embodiments are not limiting as the present invention, structure, method or conversion functionally that those of ordinary skill in the art is made according to these embodiments are all contained in protection scope of the present invention.

Refer to Fig. 1 to Fig. 7 and show a better embodiment of refrigerator 100 in the present invention.In the present invention refrigerator 100 there is casing 200, the ice maker 300 that is arranged in casing 200 and control device (not shown).Described casing 200 has refrigerator room 21 and the freezing compartment 22 of neighbouring setting, is provided with thermal-insulation baffle plate (not shown) between described refrigerator room 21 and freezing compartment 22.

Described ice maker 300 includes ice making waterworks 3 and is arranged on the ice tray part 10 below ice making waterworks 3.Wherein, described ice making waterworks 3 are arranged on the downside of refrigerator room 21, and described ice tray part 10 is arranged on freezing compartment 22 top, and described ice making waterworks 3 deliver water on described ice tray part 10 through thermal-insulation baffle plate.Preferably, described ice tray part 10 can be rotatably set in an ice making box 11, this ice making box 11 top is provided with water filling port 12, lower section is provided with collection ice chamber (non-label), one end is provided with the switching mechanism 13 being connected with ice tray part 10, the ice discharging motor that described switching mechanism 13 can be electrically connected with control device, to control ice discharging by electronic mode.

Incorporated by reference to shown in Fig. 1 to Fig. 7, described ice making waterworks 3 include feeding water box 4 and with feedwater box 4 be equipped with to water assembly 5.

With reference to shown in Fig. 3 and Fig. 4, described feedwater box 4 has box body and hides the lid 44 of box body.Described box body has diapire 41, the perisporium 42 extended in the same direction from diapire 41 periphery, the water containing chamber 43 that is formed between diapire 41 and perisporium 42, and described lid 44 hides at water containing chamber 43 top.Described water containing chamber 43 is in order to deposit the water in order to ice making.Described water containing chamber 43 includes the collect cavity 431 being positioned at upside and is arranged on the quantitative tank 432 on the downside of collect cavity 431, the volume of described quantitative tank 432 is identical with the volume of described ice tray part 10, thus directly can control row's water yield in ice tray part 10 by quantitative tank 432, convenient control, is difficult to spilling water.In the present embodiment, described quantitative tank 432 caves in formation further from the regional area of described diapire 41.

Described lid 44 is substantially arranged on the top of water containing chamber 43 in tabular, and is rotatably mounted at edge and is provided with the convenient handle 441 got off of being taken by lid 44.Being provided with snap fit 4411 on described handle 441, perisporium 42 top of described feedwater box 4 is provided with flange 421, and described lid 44, when covering water containing chamber 43, is matched on the box body being fixed on feedwater box 4 with flange 421 by the snap fit 4411 on handle 441.It is additionally provided with a water injection hole 442 on described lid 44 and matches to open or close the rotary switch 443 of water injection hole 442 with water injection hole 442.

In conjunction with shown in Fig. 2 to Fig. 6, described include being arranged at water containing chamber 43 to water assembly 5 in and hide the covering members 6 of quantitative tank 432, be arranged on covering members 6 and connected set water cavity 431 and in quantitatively the leaking hole 61 of tank 432, the part 7 that leaks being arranged in leaking hole 61, one end extend to quantitative tank 432 and the other end extends siphon 8 and the drive mechanism 9 of feedwater box 4；Described drive mechanism 9 is set in quantitative tank 432 provide certain pressure to make the water in quantitative tank 432 be expelled on ice tray part 10 by siphon 8.Preferably, described the water sieve 50 being arranged on above leaking hole 61 is also included to water assembly 5.

In the present embodiment, described covering members 6 entirety is substantially arranged in tabular, certainly, other embodiments as the present invention, also covering members 6 can be set to a volume and be slightly less than the box body shape of described feedwater box 4, and make to arrange certain interval between the bottom of covering members 6 and the diapire 41 of feedwater box 4 and form described quantitative tank 432, the covering members 6 at box body shape is internally formed described collect cavity 431, the most also purpose of attainable cost invention.

As previously mentioned, in the present embodiment, diapire 41 regional area of described quantitative tank 432 self-water-supply box 4 caves in formation further, it is provided with sealing member 51, to prevent the water in collect cavity 431 from penetrating in quantitative tank 432 around covering members 6 between diapire 41 internal face around described covering members 6 and quantitatively tank 432.

The described part 7 that leaks has and is positioned at the water stop portion 71 below covering members 6 and is connected with water stop portion 71 and is upward through the location division 72 of leaking hole 61.Described water stop portion 71 designs in tabular, and the area of water stop portion 71 is more than the perforated area of leaking hole 61, and in the downside of water stop portion 71 or be provided around waterstop sealing part 711, so that water stop portion 71 can effective sealing.Described location division 72 has the head 721 that can be overlapped in covering members 6 upper surface and the cervical region 722 being connected between head 721 and water stop portion 71.Described leaking hole 61 designs in yi word pattern, and intermediate position is slightly wider than two ends；The width of described head 721 is more than the width of cervical region 722, it is slightly less than the length of leaking hole 61 simultaneously and is more than the width of leaking hole 61 middle position, the width of described cervical region 722 is less than the width of leaking hole 61 middle position, thus, conveniently head 721 can be made below covering members 6 to be upward through leaking hole 61 part 7 that leaks, be positioned at after rotated ninety degrees the most again on covering members 6；The reverse operating when dismounting.After installation, the centre position of leaking hole 61 houses cervical region 722, and the part of both sides is in order to leak.

The length of described cervical region 722 is more than the thickness of covering members 6, and part 7 entirety that thus can make to leak can be floated along covering members 6 thickness direction；Described part 7 whole installation that leaks for upwards floating sealing when water stop portion 71 lower surface is under pressure, positioning anhydrous in tank 432 or move down time water stop portion 71 lower surface is not affected by pressure so that the water in collect cavity 431 is by leaking hole 61 leakage to location tank 432.

Described siphon 8 have be arranged on covering members 6 and be communicated in quantitative tank 432 suction hose 81, be fixed on feedwater box 4 on and extend to the drain pipe 82 below diapire 41.One end that described suction hose 81 extends to position in tank 432 is arranged near the bottom of location tank 432, so that the water in quantitative tank 432 can all be emptied by siphon 8.Described suction hose 81 also has the connecting portion 811 being connected with drain pipe 82 top.Described drain pipe 82 is vertically arranged on feedwater box 4, and arranges near a perisporium 42, and the top of drain pipe 82 overlaps with connecting portion 811 phase, and bottom downwardly extends out diapire 41.

Shown in Fig. 3, Fig. 5 and Fig. 7, in the present embodiment, described drive mechanism 9 is electrically connected with controlling device, and includes the input pipe 91 connected with quantitative tank 432 and by input pipe 91 towards the quantitative interior micro-blower assembly 92 providing certain blast of tank 432.Described input pipe 91 is fixed on covering members 6, and covering members 6 is communicated with the opening 62 of input pipe 91 and quantitative tank 432.

Described micro-blower assembly 92 is arranged on outside feedwater box 4, described also includes through lid 44 communicating pipe 93 of connecting input pipe 91 and micro-blower assembly 92 to water assembly 5.

Described micro-blower assembly 92 includes that front shroud 922 fixed by blower drum 921, the blower fan being arranged in blower drum 921 and blower fan is fixed bonnet 923, is arranged on the blower fan fixture 927 that front shroud 922 fixed by blower fan and blower fan is fixed between bonnet 923 and discharges airstrainer 924, micro-blower 925 and the setting-up piece 926 being arranged on blower fan fixture 927 the most successively.Described blower fan is fixed the top of bonnet 923 and is provided with air inlet 9231.Described blower fan fixture 927, blower fan are fixed and are correspondingly arranged on air outlet 928 on front shroud 922 and blower drum 921, be provided with air outlet rubber parts 929, and be provided with air outlet sealing member 920 outside air outlet rubber parts 929 inside described air outlet 928.Described communicating pipe 93 is stretched in air outlet rubber parts 929, so that blast can be delivered in quantitative tank 432 by micro-blower 925 by communicating pipe 93, input pipe 91.

With reference to shown in Fig. 2 and Fig. 3, also include being arranged on the funnel 53 below the drain pipe 82 of siphon 8, the heater strip 54 being arranged on around funnel 53 and the outlet sealing member 55 being arranged between drain pipe 82 and funnel 53 additionally, described to water assembly 5.Described funnel 53 is through the thermal-insulation baffle plate refrigerator room 21 and freezing compartment 22, and is directed on ice tray part 10 by the water in quantitative tank 432.Described heater strip 54 is in order to prevent icing inside funnel 53.On the one hand arranging of this kind of funnel 53 can facilitate diversion so that water residual is few, and the cold air in freezing compartment 22 also can be avoided to flow in feedwater box 4 or refrigerator room 21 simultaneously as far as possible.

Preferably, infrared sensor also can be set in described refrigerator 100, in order to detect the temperature of feedwater box 4, to observe ice making situation and channel interior situation, effectively control ice making and prevent pipeline from freezing.

When in the present invention, ice maker 300 works, first gauge water is housed in making quantitative tank 432, water is mainly leaked down by leaking hole 61 in collect cavity 431, during leaking, along with the rising of water level in quantitative tank 432, the water stop portion 71 of the part 7 that leaks is the most gradually by water upwards jack-up, until after being quantitatively full of the gauge water subscribed in tank 432, water stop portion 71 is supported by supporting of water and tightly against the lower surface of covering members 6, thus leaking hole 61 is sealed sealing；Then, after receiving feedwater instruction (this feedwater refrigeration can be by the sensing of infrared sensor or Artificial Control or control device internal program setting etc.), ice making waterworks 3 diversion in ice tray part 10, concrete action is: controls micro-blower assembly 92 and works, i.e. being delivered in quantitative tank 432 by certain blast by communicating pipe 93, input pipe 91, the water in quantitative tank 432 is all discharged in ice tray part 10 by siphon 8 by during blast；In the process, the described part 7 that leaks is simultaneously by blast, water stop portion 71 is made to be snug against below leaking hole 61, to prevent the water in collect cavity 431 from flowing down during this diversion, until after having discharged, controlling device and close micro-blower assembly 92, make it quit work, leak below part 7 because of anhydrous support or without blast stress simultaneously, thus fall so that the water in collect cavity 431 leaks in quantitative tank 432 again；After having water in ice tray part 10, can gradually freeze in freezing compartment 22 and form ice cube, finally can fall into collection ice intracavity by switching mechanism 13 upset.

Blast is provided to make siphon 8 diversion, this kind of blast diversion mode more power saving, energy efficient as it has been described above, main in the present invention by micro-blower assembly 92；Certainly, it is possible in quantitative tank 432, provide certain air pressure by air pump (not shown), siphon 8 diversion, the most also purpose of attainable cost invention are then made.

In summary, ice making waterworks 3 in the present invention are by arranging quantitative tank 432, leak part 7 and drive mechanism 9 etc. in feedwater box 4, automatic ration feedwater can be reached, simple in construction and convenient use, each parts that this kind of ice making waterworks 3 contact with water simultaneously all can be dismantled, easy disassembly and be easy to cleaning.

It is to be understood that, although this specification is been described by according to embodiment, but the most each embodiment only comprises an independent technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should be using description as an entirety, technical scheme in each embodiment can also form, through appropriately combined, other embodiments that it will be appreciated by those skilled in the art that.

The a series of detailed description of those listed above is only for illustrating of the feasibility embodiment of the present invention; they also are not used to limit the scope of the invention, and all equivalent implementations or changes made without departing from skill of the present invention spirit should be included within the scope of the present invention.

Claims (9)

1. ice making waterworks, including feedwater box and with feedwater box be equipped with to water assembly, described feedwater box has diapire, the perisporium extended in the same direction from diapire periphery and the water containing chamber being formed between diapire and perisporium, it is characterised in that: described water containing chamber includes being positioned at the collect cavity of upside and being arranged on the quantitative tank on the downside of collect cavity；Described include being arranged at water containing chamber to water assembly in and hide the covering members of quantitative tank, be arranged on covering members and connected set water cavity and in quantitatively the leaking hole of tank, the part that leaks being arranged in leaking hole, one end extend to quantitative tank and the other end extends siphon and the drive mechanism of feedwater box；Described drive mechanism is set in quantitative tank provide certain pressure to make the water in quantitative tank be expelled on an ice tray part by siphon；The described part that leaks has and is positioned at the water stop portion below covering members and is connected with water stop portion and is upward through the location division of leaking hole, described location division has the head that can be overlapped in covering members upper surface and the cervical region being connected between head and water stop portion, the length of described cervical region is more than the thickness of covering members, the described part whole installation that leaks for upwards to float by water stop portion sealing when water stop portion lower surface is under pressure, positioning anhydrous in tank or move down time water stop portion lower surface is not affected by pressure so that in the water leakage in collect cavity to location tank.

Ice making waterworks the most according to claim 1, it is characterised in that: described drive mechanism includes the input pipe connected with quantitative tank and by input pipe towards the micro-blower assembly providing certain blast in quantitative tank.

Ice making waterworks the most according to claim 2, it is characterised in that: described input pipe is fixed on covering members, and covering members is communicated with input pipe and the opening of quantitative tank.

Ice making waterworks the most according to claim 2, it is characterized in that: described feedwater box also includes hiding the lid at water containing chamber top, described micro-blower assembly is arranged on outside feedwater box, described also include to water assembly through lid and connects input pipe and the communicating pipe of micro-blower assembly.

Ice making waterworks the most according to claim 1, it is characterised in that: described quantitative tank caves in formation further from described diapire, is provided with sealing member between the diapire internal face around described covering members and quantitatively tank.

Ice making waterworks the most according to claim 1, it is characterized in that: described siphon have be arranged on covering members and be communicated in quantitative tank suction hose, be fixed on feedwater box on and extend to the drain pipe below diapire, described suction hose has the connecting portion being connected with drain pipe top.

Ice making waterworks the most according to claim 1, it is characterised in that: the described funnel also including to water assembly being arranged on below drain pipe and the heater strip being arranged on around funnel.

8. a refrigerator, has casing and the ice maker being arranged in casing, it is characterised in that: described ice maker includes ice making waterworks as claimed in any of claims 1 to 7 in one of claims and is arranged on the ice tray part below ice making waterworks.

Refrigerator the most according to claim 8, it is characterised in that: described casing has refrigerator room and the freezing compartment of neighbouring setting, and described ice making waterworks are arranged on the downside of refrigerator room, and described ice tray part is arranged on freezing compartment top.