CN217423737U - Water storage device and refrigerator - Google Patents

Abstract

The utility model provides a water storage device and refrigerator, this water storage device includes: the water tank part is internally provided with a water storage cavity, a water inlet and a water outlet which are communicated with the water storage cavity; the turbulence part is arranged in the water tank part and is positioned between the water inlet and the water outlet; wherein, the vortex portion is formed with the vortex hole, and the vortex hole switches on in water inlet and delivery port. The utility model provides a water storage device can prevent that the intracavity of water storage from forming local stagnant water region, guarantees the quality of water in the water storage cavity, and prevent to treat the direct delivery port that flows to of refrigeration rivers, the dwell time of refrigeration rivers in the water storage cavity is treated in the extension, so that treat that refrigeration rivers can obtain the cooling, the while utilization is treated refrigeration rivers and is impeld the refrigeration rivers flow to the delivery port in the water storage cavity, guarantee that the temperature of water storage device output rivers is lower, and then provide the guarantee for the quality of water and the taste of output rivers.

Description

Water storage device and refrigerator

Technical Field

The utility model relates to a refrigeration plant technical field especially relates to a water storage device and refrigerator.

Background

In the related art, a water tank is generally installed in a storage area of a refrigerator to refrigerate the water tank by a refrigerating device, so as to provide drinkable ice water for a user. However, in the middle of the practical use, the temperature of the water flow output by the water tank sometimes fails to reach the target refrigeration temperature, so that the taste of the water flow is poor, and the use experience of the refrigerator is influenced.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

Therefore, the utility model discloses a first aspect provides a water storage device.

A second aspect of the present invention provides a refrigerator.

In view of this, according to a first aspect of embodiments of the present application, there is provided a water storage apparatus, including:

the water tank part is internally provided with a water storage cavity, a water inlet and a water outlet which are communicated with the water storage cavity;

the turbulent flow part is arranged in the water tank part and is positioned between the water inlet and the water outlet;

wherein, the vortex portion is formed with the vortex hole, and the vortex hole switches on in water inlet and delivery port.

In one possible embodiment, the number of baffle openings is several.

In a possible embodiment, the aperture of at least part of the turbulence openings decreases in the direction from the inlet opening to the outlet opening.

In a possible embodiment, the number of the flow disturbing parts is multiple, and the multiple flow disturbing parts are arranged at intervals along the direction from the water inlet to the water outlet.

In a possible embodiment, the spoiler portion is detachably provided to the water tank portion; or

The turbulence part and the water tank part are of an integrated structure.

In one possible embodiment, the water tank part includes:

the water tank comprises a water tank body, a water inlet and a water outlet, wherein the water tank body is provided with a first connecting port, a water storage cavity and the water outlet;

the water inlet pipe penetrates through the first connecting port, and the water inlet is formed in one end, located in the water storage cavity, of the water inlet pipe;

wherein, the water tank body is formed with relative first end and second end, and the delivery port is formed at the second end, and water inlet and vortex portion are close to and arrange in first end.

In a possible embodiment, the first connection opening is formed at the second end, the water inlet opening being arranged towards the first end.

In a feasible implementation mode, the turbulence part is provided with a second connecting port, and the part of the water inlet pipe, which is positioned in the water storage cavity, penetrates through the second connecting port.

In one possible embodiment, the tank body includes:

the first box body is provided with a first water storage space with one side open;

the second box body is provided with a second water storage space with one side open, and the second box body is connected with the first box body so as to form a water storage cavity together with the first box body.

In one possible embodiment, the first casing and the second casing are welded together.

In one possible embodiment, the water tank part further includes:

the bosses are arranged on the water tank body and are positioned in the water storage cavity;

wherein, along the direction of water inlet to delivery port, a plurality of bosss interval arrangement.

According to a second aspect of embodiments of the present application, there is provided a refrigerator including:

a refrigerator body formed with a refrigerating chamber;

the water storage apparatus as set forth in any one of the above first aspects.

Compared with the prior art, the utility model discloses at least, including following beneficial effect: the water storage device comprises a water tank part and a turbulence part, wherein the water tank part is provided with a water storage cavity, a water inlet and a water outlet, and the water inlet and the water outlet are communicated with the water storage cavity, so that water flow can be introduced into the water storage cavity through the water inlet by the water tank part and is output outwards by the water outlet; the turbulence part is arranged in the water tank part and is positioned between the water inlet and the water outlet, the turbulence part is provided with a turbulence hole communicated with the water inlet and the water outlet, so that the water flow to be refrigerated entering the water storage cavity through the water inlet can flow in the partial water storage cavity at one side of the turbulence part close to the water inlet and continuously increases along with the input quantity of the water flow to be refrigerated, the water flow to be refrigerated can promote the refrigerated water flow at one side of the turbulence part close to the water inlet to flow to the water outlet through the turbulence hole, and meanwhile, the turbulence hole can interfere the flow direction and the flow speed of the water flow passing through the turbulence hole, so that through the arrangement, the water storage device provided by the embodiment of the application can drive the water flow of the corresponding nearby area in the water storage cavity to participate in the flow by utilizing the flow of the water flow to be refrigerated entering the water storage cavity through the water inlet and the flow of the water flow flowing to the water outlet through the turbulence hole, and can prevent a local dead water area from being formed in the water storage cavity, the water quality in the water storage cavity is ensured; on the other hand, the water flow to be refrigerated entering the water storage cavity through the water inlet can be enabled, one side of the self-turbulence part close to the water inlet gradually pushes the refrigerated water in the water storage cavity to flow to the water outlet on the other side of the turbulence part, the water flow to be refrigerated is prevented from directly flowing to the water outlet after entering the water storage cavity, the residence time of the water flow to be refrigerated in the water storage cavity is prolonged, the water flow to be refrigerated can be cooled, the refrigerated water flow in the water storage cavity is made to flow to the water outlet by the aid of the water flow to be refrigerated, the effect that the water flow to be refrigerated reaches first-in first-out is ensured as much as possible, the temperature of the water flow output by the water storage device is lower, and further guarantee is provided for water quality and taste of the output water flow.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the exemplary embodiments. The drawings are only for purposes of illustrating exemplary embodiments and are not to be construed as limiting the application. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a schematic block diagram of a water storage device according to an embodiment provided herein;

FIG. 2 is a schematic partial cross-sectional view of a water storage device according to one embodiment provided herein;

FIG. 3 is a schematic exploded structural view of a water storage device according to an embodiment of the present disclosure;

fig. 4 is a schematic structural view of a first tank of a water storage device according to an embodiment of the present disclosure;

FIG. 5 is a schematic application effect diagram of a water storage device according to an embodiment provided in the present application;

fig. 6 is a schematic application effect diagram of a water storage device according to an embodiment provided in the present application.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 6 is:

100 water tank part; 200 a flow disturbing part;

110 a water tank body; 120 water inlet pipe;

111 a first box; 112 a second case;

101 a water storage cavity; 102 a water inlet; 103 water outlet; 104 a first connection port; 201 an orifice; 202 a second connection port.

Detailed Description

Exemplary embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present application are shown in the drawings, it should be understood that the present application may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

According to a first aspect of the embodiments of the present application, there is provided a water storage apparatus, including: a water storage cavity 101, a water inlet 102 and a water outlet 103 communicated with the water storage cavity 101 are formed in the water tank part 100; the flow disturbing part 200 is arranged in the water tank part 100, and the flow disturbing part 200 is positioned between the water inlet 102 and the water outlet 103; wherein, the spoiler portion 200 is formed with spoiler holes 201, and spoiler holes 201 switch on in water inlet 102 and delivery port 103.

The water storage device that this application embodiment provided is including water tank portion 100 and vortex portion 200, wherein, water tank portion 100 is formed with water storage chamber 101, water inlet 102 and delivery port 103, and water inlet 102 and delivery port 103 all switch on in water storage chamber 101 to water tank portion 100 can introduce rivers in water storage chamber 101 through water inlet 102, and utilize delivery port 103 outwards to export the rivers of water storage chamber 101.

It should be noted that, in the use process, the water tank portion 100 may be arranged in a refrigeration area of the refrigerator, and is cooled down integrally under the action of a refrigeration device of the refrigerator, so as to lower the temperature of the water stored in the water storage cavity 101 to a relatively low temperature, the water inlet 102 may be connected to an external water supply device, and the water inlet 102 and the water outlet 103 may be simultaneously conducted, so as to supply water to the water storage cavity 101 while supplying water to a user, thereby ensuring the continuity of water supply.

It can be understood that the water storage device provided by the embodiment of the present application can be used as a component of a refrigerator; the external water supply device can be a tap water supply system, a water purifier, a barreled water bucket and the like.

Vortex portion 200 sets up in water tank portion 100, and be located between water inlet 102 and the delivery port 103, be formed with the vortex hole 201 that switches on in water inlet 102 and delivery port 103 on vortex portion 200, thereby get into the rivers that wait to refrigerate in the water storage chamber 101 through water inlet 102, can flow in vortex portion 200 is close to the part water storage chamber 101 of one side of water inlet 102, and along with waiting to refrigerate the input that rivers constantly increase, it can promote vortex portion 200 to be close to the rivers that have already refrigerate on one side of water inlet 102 and flow to delivery port 103 through vortex hole 201 to wait to refrigerate rivers, the flow direction and the velocity of flow of rivers that pass through can be disturbed in the vortex hole 201 simultaneously.

It should be noted that, in some examples, under the condition that no turbulent portion is provided in the water tank portion, an inner wall of the water tank portion, that is, a cavity wall of the water storage cavity, is generally smooth, and compared with a flow area of the water inlet and a flow area of the water outlet, a cross-sectional area of the water storage cavity is generally large, and in combination with a flow characteristic of a fluid, a flow velocity of a water flow in an area close to the inner wall of the water tank portion and relatively far away from the water inlet and the water outlet is slow, so as to form a local dead water area, and a water flow in the area is not easily affected by a water flow in other areas and is stored in the water storage cavity for a long time, so that a bad influence is generated on a water quality in the water storage cavity, and a water flow to be cooled subsequently input into the water storage cavity is affected to be cooled.

The water storage device that this application embodiment provided is based on aforementioned setting, then can be treating under the condition that refrigeration rivers got into water storage cavity 101 through water inlet 102, utilize fluidic viscous action, the order is treated refrigeration rivers and is driven vortex portion 200 and be close to the refrigerated rivers participation flow of water inlet 102 one side, reduce vortex portion 200 and be close to the regional possibility that forms local stagnant water region of the region of water inlet 102 one side, and utilize vortex hole 201 to disturb the velocity of flow and the flow direction of the rivers that pass through, the flow of the rivers through vortex hole 201 is relatively disorderly, and then promote the rivers disturbance effect that is close to delivery port 103 one side to vortex portion 200, prevent that vortex portion 200 from being close to the regional local stagnant water region of formation of delivery port 103 one side.

Therefore, through the arrangement, the water storage device provided by the embodiment of the application can drive the water flow in the corresponding nearby area in the water storage cavity 101 to participate in flowing by utilizing the flowing of the water flow to be refrigerated, which enters the water storage cavity 101 through the water inlet 102, and the flowing of the water flow which flows to the water outlet 103 through the turbulent flow hole 201, so that a local dead water area is prevented from being formed in the water storage cavity 101, and the water quality in the water storage cavity 101 is ensured; on the other hand, the water flow to be refrigerated entering the water storage cavity 101 through the water inlet 102 can be made, one side of the self-turbulent flow part 200 close to the water inlet 102 gradually pushes the refrigerated water in the water storage cavity 101 to flow to the water outlet on the other side of the self-turbulent flow part 200, the water flow to be refrigerated is prevented from directly flowing to the water outlet 103 after entering the water storage cavity 101, the residence time of the water flow to be refrigerated in the water storage cavity 101 is prolonged, the water flow to be refrigerated can be cooled, the refrigerated water flow in the water storage cavity 101 is made to flow to the water outlet 103 by the aid of the water flow to be refrigerated, the temperature of the water flow output by the water storage device is guaranteed to be low, the water flow to be refrigerated is guaranteed to reach the first-in first-out effect as far as possible, and further guarantee is provided for the water quality and taste of the output water flow.

As shown in fig. 5, based on the water storage device provided in the embodiment of the present application, a simulation analysis is performed on a water flow condition inside the water storage cavity 101, fig. 5 shows a corresponding analysis result, a region with higher gray scale in fig. 5 represents a distribution region of a cooled water flow, and a region with lower gray scale represents a distribution region of a water flow to be cooled, and it can be understood that a time when the water flow to be cooled enters the water storage cavity 101 is later than a time when the cooled water flows into the water storage cavity 101; the left area in fig. 5 is close to the water outlet 103 and the right area is correspondingly close to the water inlet 102. Therefore, as can be seen from the analysis result shown in fig. 5, the water storage device provided in the embodiment of the present application can ensure that the water flow to be refrigerated flows from one side of the turbulent portion 200 close to the water inlet 102 after entering the water storage cavity 101, gradually push the refrigerated water in the water storage cavity 101 to flow to the water outlet on the other side of the turbulent portion 200, and fill the part of the water storage cavity 101 of the turbulent portion 200 close to one side of the water inlet 102, so that the water flow to be refrigerated can receive refrigeration for a long time in the water tank portion 100, promote the output of the water flow with a lower temperature, ensure the taste of the output water flow, and due to the influence of the water inlet pressure, the flow of the water flow to be refrigerated on one side of the turbulent portion 200 close to the water inlet 102 also has higher turbulence, effectively prevent a local dead water area from being formed near the first side, and provide guarantee for the water quality output by the water storage device.

As shown in fig. 6, the water storage devices without the turbulence portion 200 and the water storage devices with the turbulence portion 200 arranged in the manner described above are respectively subjected to water outlet temperature test to obtain the test result shown in fig. 6, a curve 1 in fig. 6 represents the test result of the water storage devices without the turbulence portion 200, a curve 2 represents the test result of the water storage devices with the turbulence portion 200 arranged in the manner described above, the water outlet temperature of the ordinate represents the collected temperature of the flowing water flowing out from the water outlet 103, the water outlet amount of the abscissa represents the flow rate of the flowing water continuously flowing out through the water outlet 103, the set refrigeration temperature during the test is 5 ℃, and the volumes of the water storage chambers 101 of the two water storage devices are the same. It can be seen that curve 1 produces a phenomenon of water temperature rise when the water yield is about 150L, and the water temperature rises continuously thereafter, and the water temperature exceeds 20 ℃ and approaches the room temperature when the water yield is 500L; curve 2 then produces the temperature rise phenomenon of water when the water yield is about 300L, the emergence of the phenomenon of rising lags behind curve 1, and when the water yield was 500L, the play water temperature was about 16 ℃, is less than curve 1, therefore it can be seen that the water storage device that this application embodiment provided can export more low temperature rivers under the same circumstances of water storage capacity, realizes "first in first out" of rivers to can make and wait to refrigerate rivers as much as possible cooling in water storage cavity 101, do benefit to the taste of guaranteeing output rivers.

As shown in fig. 2 to 4, in some examples, the spoiler hole 201 is plural in number.

In the technical scheme, the number of the turbulence holes 201 can be multiple, so that the plurality of the turbulence holes 201 are utilized, on one hand, the overall opening size of the turbulence part 200 can be increased, the conduction area of the turbulence part 200 is increased, the circulation efficiency of water flow passing through the turbulence part 200 is improved, and the output efficiency of the water storage device is further improved; on the other hand, the arrangement positions of the plurality of turbulent flow holes 201 on the turbulent flow part 200 can form differences, so that the conduction direction diversity of the turbulent flow part 200 can be further improved, the flowing turbulence of water flowing through the turbulent flow holes 201 is further improved, the driving effect and the action range of the water flowing on one side, close to the water outlet 103, of the turbulent flow part 200 are enlarged after the water flowing through the turbulent flow holes 201, the possibility that the turbulent flow part 200 is close to one side of the water outlet 103 to form a local dead water area is further reduced, further guarantee is provided for the improvement of the water quality in the water storage cavity 101, and the user use experience of the water storage device is favorably improved.

It should be noted that the number of the spoiler holes 201 may be greater than or equal to 2, such as 2, 3, 5, 8, 10, 12, 16, etc., which is not limited herein; the plurality of baffle holes 201 may be uniformly arranged on the baffle portion 200, or may be non-uniformly arranged, which is not limited herein.

It can be understood that, through set up a plurality of vortex holes 201 on vortex portion 200, can make vortex portion 200 form the structure of similar gondola water faucet, and then under the unchangeable condition of total flow through water storage device, can make the regional rivers velocity of flow in the vicinity of vortex portion 200 improve, be favorable to strengthening vortex portion 200 to the water storage chamber 101 in rivers flow direction and the disturbance effect of velocity of flow, and then reduce the regional possibility of local stagnant water of formation in the water storage chamber 101.

In some examples, the aperture of at least a portion of the turbulator holes 201 decreases in the direction from the water inlet 102 to the water outlet 103.

In this technical scheme, along water inlet 102 to the direction of delivery port 103, can set up the aperture reduction of at least partial vortex hole 201 to under the unchangeable condition of flow through vortex hole 201, can make the rivers velocity of flow that at least partial vortex hole 201 carried to delivery port 103 one side promote, further strengthen the disturbance effect of the flow direction and the velocity of flow of vortex portion 200 rivers in to water storage cavity 101, and then reduce the possibility that forms local stagnant water region in the water storage cavity 101.

In some examples, the number of the flow disturbing parts 200 is plural, and the plural flow disturbing parts 200 are arranged at intervals along the direction from the water inlet 102 to the water outlet 103.

In this technical scheme, the quantity of vortex portion 200 can be a plurality of, and on the direction along water inlet 102 to delivery port 103, a plurality of vortex portion 200 interval arrangements, thereby rivers in the water storage chamber 101 are when flowing along the direction of water inlet 102 to delivery port 103, can receive the multiple interference of a plurality of vortex portions 200, and then can utilize a plurality of vortex portions 200 to improve the disturbance effect to rivers, promote the turbulent nature that rivers flow in the water storage chamber 101, further prevent to form the stagnant water region in the water storage chamber 101, avoid partial rivers to stop for a long time in water storage chamber 101, further improve the quality of water in the water storage chamber 101, be favorable to promoting the taste of water storage device output flow, improve the use experience of water storage device and the affiliated apparatus of water storage device.

As shown in fig. 2, in some examples, the spoiler 200 is detachably provided to the water tank part 100; or the spoiler portion 200 and the tank portion 100 are of an integrated structure.

In the technical scheme, the turbulence part 200 and the water tank part 100 can be detachably connected, so that on one hand, the replaceability of the turbulence part 200 and the water tank part 100 is improved, the turbulence part 200 and the water tank part 100 are convenient to maintain or replace independently in the maintenance process of the water storage device, and the maintenance cost of the water storage device is reduced; on the other hand, in the production process of the water storage device, the flow disturbing part 200 and the water tank part 100 can be independently processed, so that the flow disturbing part 200 and the water tank part 100 can be conveniently manufactured by adopting different materials, and the material use cost of the water storage device can be controlled.

As shown in fig. 2, the turbulence portion 200 and the water tank portion 100 may be of an integrated structure, so that in the production process of the water storage device, on one hand, the water tank portion 100 and the turbulence portion 200 may be manufactured in an integrated manner, thereby simplifying the assembly process of the water storage device, improving the production efficiency of the water storage device, and enhancing the connection strength between the water tank portion 100 and the turbulence portion 200; on the other hand, can avoid setting up the connection structure who is used for connecting vortex portion 200 on water tank portion 100, do benefit to the structural strength who improves water tank portion 100, promote water tank portion 100's pressure-bearing performance, prolong water storage device's whole life.

As shown in fig. 2 and 3, in some examples, the water tank part 100 includes: the water tank comprises a water tank body 110, wherein the water tank body 110 is provided with a first connecting port 104, a water storage cavity 101 and a water outlet 103; a water inlet pipe 120 penetrating the first connection port 104, wherein a water inlet 102 is formed at one end of the water inlet pipe 120 positioned in the water storage cavity 101; wherein, the tank body 110 is formed with opposite first and second ends, and the delivery port 103 is formed at the second end, and the water inlet 102 and the spoiler 200 are arranged close to the first end.

In the technical scheme, the water tank part 100 comprises a water tank body 110 and a water inlet pipe 120, wherein a water storage cavity 101 and a water outlet 103 of the water tank part 100 are both formed in the water tank body 110, the water tank body 110 is further formed with a first connecting port 104, the water inlet pipe 120 is arranged through the first connecting port 104, a water inlet 102 is formed at one end of the water inlet pipe 120 located in the water storage cavity 101, the water tank body 110 is formed with a first end and a second end, the first end is opposite to the second end, the water outlet 103 is formed at the second end, the water inlet 102 and the turbulent flow part 200 are both arranged close to the first end, so that the space volume of the turbulent flow part 200 close to the first end is smaller than that of the turbulent flow part 200 close to the second end, after the water to be refrigerated enters the water storage cavity 101 through the water inlet 102, the water can flow between the first end and the turbulent flow part 200, and the refrigerated water between the first end and the turbulent flow part 200 can be pushed to one side of the water outlet 103 more quickly, reduce the mixture between waiting to refrigerate rivers and the rivers that have refrigerate, guarantee that the rivers temperature of water storage device output is lower, improve the taste of output rivers, simultaneously because the space volume between vortex portion 200 and the first end is less, also can improve the drive effect of waiting to refrigerate rivers to the rivers that have refrigerate between vortex portion 200 and the first end, further reduce the possibility that forms local stagnant water region in the water storage chamber 101, improve the quality of water in the water storage chamber 101.

As shown in fig. 2 and 3, in some examples, the first connection port 104 is formed at the second end, and the water inlet port 102 is disposed toward the first end.

In this technical scheme, first connector 104 can be formed at the second end, thereby make first connector 104 and delivery port 103 be located water tank body 110 with one end, and water inlet 102 arranges towards first end, because water inlet 102 is close to in first end, thereby can prolong the distribution length of inlet tube 120 in water storage chamber 101, further improve the dwell time of treating refrigeration rivers in water storage chamber 101, the messenger treats that refrigeration rivers also can obtain the refrigeration at the in-process through inlet tube 120, promote the refrigeration effect of treating refrigeration rivers. Meanwhile, the water flow to be refrigerated entering the water storage cavity 101 through the water inlet 102 can flow to the first end under the action of inertia, and is further disturbed by the first end, so that the flow turbulence of the water flow to be refrigerated in the water storage cavity 101 is improved, and the formation of local dead water between the first end and the turbulent flow part 200 is further avoided.

In some examples, the spoiler 200 is formed with a second connection port 202, and a portion of the water inlet pipe 120 located within the water storage cavity 101 is inserted through the second connection port 202.

In the technical scheme, the turbulence part 200 can also be provided with a second connector 202, and the part of the water inlet pipe 120 positioned in the water storage cavity 101 penetrates through the second connector 202, on one hand, the turbulence part 200 is conveniently positioned between the water inlet 102 and the water outlet 103 by matching with the arrangement that the first connector 104 is arranged at the first end, so that the assembly difficulty of the water storage device is reduced; on the other hand, can utilize vortex portion 200 to support and retrain inlet tube 120, can reduce the overhanging volume of inlet tube 120 in water storage chamber 101, in the use, can promote the stability and the reliability of inlet tube 120, and then improve water storage device's operating stability, improve the user of the affiliated equipment of water storage device and use experience.

It should be noted that, as shown in fig. 2 and fig. 4, the spoiler 200 may be a plate-shaped structure, for example, a plate surface of the spoiler 200 perpendicular to the plate thickness direction is divided into an edge area close to a plate edge and a middle area close to the center, and the second connection port 202 may be disposed in the middle area of the spoiler 200, or may be disposed in the edge area of the spoiler 200, which is not limited herein.

As shown in fig. 2 to 4, in some examples, the sump body 110 includes: a first tank 111, the first tank 111 having a first water storage space with one side open; and a second tank 112, wherein a second water storage space with one side open is formed in the second tank 112, and the second tank 112 is connected to the first tank 111 to form a water storage cavity 101 with the first tank 111.

In this technical scheme, the water tank body 110 can be including first box 111 and second box 112, wherein, first box 111 is formed with first water storage space, and second box 112 is formed with second water storage space, first water storage space and second water storage space are the open water storage space in one side, second box 112 is connected with first box 111, make first water storage space and second water storage space switch on each other, thereby enclose into water storage chamber 101 by second box 112 and first box 111, in order to utilize water storage chamber 101 to provide the storage area of rivers, be convenient for refrigerate rivers in the use.

In some feasible examples, the first end of the tank body 110 is formed at the first tank 111, and the second end of the tank body 110 is formed at the second tank 112, so that an excessive through hole structure can be avoided from being formed in the first tank 111, which is beneficial to ensuring the structural strength and the impact resistance of the first tank 111, and under the condition that the water inlet 102 is arranged towards the first end, the first tank 111 can bear higher water pressure, the service life of the first tank 111 is prolonged, and the maintenance cost of the tank body 110 is reduced.

In some examples, the first case 111 and the second case 112 are welded to each other.

In the technical scheme, the first tank 111 and the second tank 112 are connected in a welding manner, so that the connection strength between the first tank 111 and the second tank 112 can be ensured, the pressure-bearing performance of the water tank body 110 can be improved, the first tank 111 and the second tank 112 are prevented from being separated in the use process, and the use safety of the water storage device is improved; on the other hand, the sealing performance of the tank body 110 can be improved, the possibility that the water in the water storage chamber 101 seeps through the joint between the first tank 111 and the second tank 112 can be reduced, and the reliability of the water storage device can be improved.

In some possible examples, the welding seam between the first tank 111 and the second tank 112 is a sealing welding seam, so that the sealing performance of the tank body 110 can be further improved, the possibility of leakage of the tank body 110 can be reduced, and the reliability and sanitation of the water storage device can be further improved.

As shown in fig. 4, in some possible examples, the spoiler 200 is disposed on the first tank 111, and a volume of the first water storage space is smaller than a volume of the second water storage space.

In some examples, the water tank part 100 further includes: the bosses are arranged on the water tank body 110 and are positioned in the water storage cavity 101; wherein, along the direction from the water inlet 102 to the water outlet 103, a plurality of bosses are arranged at intervals.

In this technical scheme, in the direction along water inlet 102 to delivery port 103, water tank body 110 can be provided with a plurality of bosss, and the boss is located water storage chamber 101, thereby when rivers flow along the direction of water inlet 102 to delivery port 103, can further receive the interference of boss, and then improve the turbulent nature of flow of rivers, in water storage device use, can make more rivers participate in flowing in water storage chamber 101, further reduce the possibility that produces local stagnant water in the water storage chamber 101, improve the quality of water in the water storage chamber 101, further improve the quality of water and the taste of output rivers, improve the user experience of the affiliated equipment of water storage device and water storage device.

According to a second aspect of embodiments of the present application, there is provided a refrigerator including: a refrigerator body formed with a refrigerating chamber; the water storage apparatus as set forth in any one of the above first aspects.

The refrigerator that this application embodiment provided is including the refrigerator body and as above-mentioned any one of the first aspect provides water storage device, wherein, the refrigerator body is formed with the walk-in to can refrigerate the object in the walk-in, reduce the temperature of the object in the walk-in, water storage device sets up in the walk-in, thereby the water of the inside storage of water storage device can obtain the cooling in the walk-in, and then can provide the lower water of temperature for the user, improve the user of refrigerator and use experience.

In addition, the refrigerator provided in the embodiment of the present application includes the water storage device provided in any one of the first aspects, so that the refrigerator has all the beneficial effects of the water storage device provided in any one of the first aspects, and details are not repeated herein.

In the present application, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are used broadly and should be construed to include, for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it should be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention and simplification of description, rather than indicating or implying that the indicated device or unit must have a specific direction, be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. A water storage apparatus, comprising:

the water tank part is internally provided with a water storage cavity, a water inlet and a water outlet which are communicated with the water storage cavity;

the turbulence part is arranged in the water tank part and is positioned between the water inlet and the water outlet;

the flow disturbing part is provided with a flow disturbing hole which is communicated with the water inlet and the water outlet.

2. A water storage apparatus as claimed in claim 1,

the number of the turbulence holes is multiple.

3. The water storage apparatus of claim 2,

the aperture of at least part of the turbulent flow holes is reduced along the direction from the water inlet to the water outlet.

4. The water storage apparatus of claim 1,

the quantity of vortex portion is a plurality of, follows the water inlet extremely the direction of delivery port is a plurality of vortex portion interval arrangement.

5. The water storage apparatus of claim 1,

the turbulence part is detachably arranged on the water tank part; or

The turbulence part and the water tank part are of an integrated structure.

6. The water storage device as claimed in any one of claims 1 to 5, wherein the water tank part comprises:

the water tank body is provided with a first connecting port, the water storage cavity and the water outlet;

the water inlet pipe penetrates through the first connecting port, and the water inlet is formed in one end, located in the water storage cavity, of the water inlet pipe;

wherein, the water tank body is formed with relative first end and second end, the delivery port is formed at the second end, the water inlet with vortex portion is close to in first end arranges.

7. The water storage apparatus of claim 6,

the first connection port is formed at the second end, and the water inlet is arranged toward the first end.

8. The water storage apparatus of claim 6,

the turbulent flow part is provided with a second connecting port, and the part of the water inlet pipe, which is positioned in the water storage cavity, penetrates through the second connecting port.

9. The water storage device as claimed in claim 6, wherein the tank body comprises:

the water storage tank comprises a first tank body, a second tank body and a water storage tank, wherein a first water storage space with one side open is formed in the first tank body;

and the second box body is provided with a second water storage space with one side open, and the second box body is connected to the first box body so as to form the water storage cavity together with the first box body.

10. The water storage apparatus of claim 9,

the first box body is connected with the second box body in a welding mode.

11. A water storage apparatus as claimed in claim 6, wherein the water tank part further comprises:

the bosses are arranged on the water tank body and are positioned in the water storage cavity;

wherein, along the direction of water inlet to delivery port, a plurality of boss interval arrangement.

12. A refrigerator, characterized by comprising:

a refrigerator body formed with a refrigerating chamber;

a water storage apparatus as claimed in any one of claims 1 to 11.

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