CN219037256U - Refrigerating and freezing device - Google Patents

Abstract

The present utility model relates to a refrigerating and freezing device, comprising: a liner defining at least one storage compartment therein for storing items; the air duct assembly is arranged at the rear side of the inner part of the inner container and is used for conveying cooling air flow to at least one storage compartment; and a plurality of electrical components disposed discretely in the duct assembly. The air duct component is provided with an internal wire outlet hole for the electric connecting wires of the plurality of electric components to pass through; and the inside of wind channel subassembly is formed with the line concentration groove, and the electric connecting wire of a plurality of electric components gathers in the line concentration groove to concentrate and wear out from inside wire hole, namely, a plurality of electric components integration wiring, the pencil is more neat, need not worry the line ball problem when assembling the wind channel subassembly, has improved the convenience of wind channel subassembly assembly.

Description

Refrigerating and freezing device

Technical Field

The utility model relates to a refrigeration technology, in particular to a refrigeration device.

Background

In daily life, people mainly use refrigerators to store and keep articles fresh. The refrigerators commonly found in the prior art mainly include a conventional two-door refrigerator, a T-type refrigerator, a french refrigerator, a side-by-side refrigerator, and the like. In order to increase the storage space and improve the convenience of users in taking and placing articles, some refrigerators have a cooling chamber for accommodating an evaporator at the bottom of the refrigerator. Most of the refrigerators convey cooling air flow to the storage compartments through air duct assemblies at the rear sides of the storage compartments, and when the number of the storage compartments is multiple, a plurality of air supply air ducts are formed in the air duct assemblies, and mechanical air supply air doors or electric control air doors are arranged in the air supply air ducts. In addition, in order to more accurately control the temperature, the humidity and the like of the storage compartment, a corresponding temperature and humidity sensor is further arranged in the air duct assembly. In addition, some air duct components are also provided with functional modules, such as humidification, sterilization, deodorization and the like. The electric control air door, the sensor, some functional modules and the like belong to electric components, and all electric components need to be connected with electric wires for supplying power or transmitting signals. The current electric connection wire of the electric component is commonly connected to the terminal box independently, the distribution of the electric connection wire is disordered, the wire is easy to press during assembly of the air duct component, and the safety and the reliability are low.

Disclosure of Invention

It is an object of the present utility model to overcome at least one of the drawbacks of the prior art by providing a refrigerator-freezer that is well-wired and facilitates assembly of the air duct assembly.

It is a further object of the present utility model to improve the convenience of wiring operation.

In order to achieve the above object, the present utility model provides a refrigerating and freezing apparatus comprising:

a liner defining at least one storage compartment therein for storing items;

the air duct assembly is arranged at the rear side of the inner part of the inner container and is used for conveying cooling air flow to the at least one storage compartment; and

a plurality of power consuming components disposed discretely in the duct assembly; wherein the method comprises the steps of

The air duct component is provided with internal wire outlet holes for the electric connecting wires of the plurality of electric components to pass through; and the interior of the air duct component is provided with a line collecting groove, and the electric connecting lines of the plurality of electric components are collected in the line collecting groove and intensively pass through the internal line outlet holes.

Optionally, the internal outlet Kong Kaishe is at one of the bottom corners of the duct assembly; and is also provided with

The sump slot includes a vertical slot extending vertically upward from a bottom corner of the air duct assembly adjacent the internal outlet aperture and a lateral slot extending laterally from the bottom corner.

Optionally, the inner wire outlet hole faces downwards, and the vertical groove extends downwards to the inner wire outlet hole;

the bottom wall of the vertical groove is flush with the inner wall of the internal wire outlet hole.

Optionally, the air duct assembly comprises an air duct front cover and an air duct rear cover connected to the rear side of the air duct front cover;

the air duct front cover comprises an air duct front cover, wherein at least part of the edge of the air duct front cover is provided with a flange protruding backwards, the backward surface of the air duct front cover is provided with support ribs protruding backwards and spaced from the flange, and the flange and the support ribs define a line collecting groove therebetween.

Optionally, the air duct assembly further comprises a heat preservation assembly arranged between the air duct front cover and the air duct rear cover; and is also provided with

The front side of the heat preservation component is provided with a concave area corresponding to the position of the line collecting groove, and a closed space for accommodating the electric connecting line is formed between the concave area and the line collecting groove after the heat preservation component is assembled with the front cover of the air duct.

Optionally, a plurality of wire dividing grooves are further formed in the air duct assembly, each wire dividing groove is located between the wire collecting groove and one corresponding electric component, so that the electric connection wire of the electric component extends to the electric component through the wire dividing groove after being separated from the wire collecting groove.

Optionally, an external wire outlet hole is formed in the inner container;

the bottom of the air duct assembly is provided with a volute, an air supply fan used for driving air supply to the at least one storage compartment is arranged in the volute, and an electric connecting wire of the air supply fan and a plurality of electric connecting wires of the electric components penetrating out from the internal wire outlet hole are concentrated and then penetrate out of the liner through the external wire outlet hole.

Optionally, the volute is provided with at least one wire clamping claw extending outwards from the outer edge of the volute; and is also provided with

And the electric connecting wires of the air supply fan and the electric connecting wires of the plurality of electric components penetrating out from the internal wire outlet holes are clamped at the at least one wire clamping claw and then penetrate out from the external wire outlet holes.

Optionally, the number of the wire clamping claws is two, and the two wire clamping claws are arranged at intervals on one side of the volute adjacent to the internal wire outlet hole; and is also provided with

The electric connecting wires of the air supply fan and the electric connecting wires of the plurality of electric components penetrating out from the internal wire outlet holes are alternately wound on the two wire clamping claws in an 8-shaped winding mode.

Optionally, one of the wire clamping claws extends outwards to a length greater than that of the other wire clamping claw; wherein the method comprises the steps of

The electric connecting wires of the air supply fan and the electric connecting wires of the plurality of electric components penetrating out of the internal wire outlet holes are independently wound on the wire clamping claw with longer length for at least one circle before penetrating out of the external wire outlet holes.

The refrigerating and freezing device comprises an inner container, an air duct assembly and a plurality of power utilization components scattered in the air duct assembly, wherein the air duct assembly is provided with an internal wire outlet hole. Particularly, the inside of the air duct component is provided with the line collecting groove, the electric connecting lines of the plurality of electric components are collected in the line collecting groove and then intensively penetrate out from the internal line outlet holes, namely, the plurality of electric components are integrated and routed, the wire harness is more neat, the line pressing problem is not needed to be worried about when the air duct component is assembled, and the convenience of the air duct component assembly is improved.

Further, the internal wire outlet hole is formed in one bottom corner of the air duct assembly, the wire collecting groove is arranged in a mode of being provided with two main grooves, namely a vertical groove and a transverse groove, the vertical groove extends vertically upwards from the bottom corner of the air duct assembly adjacent to the internal wire outlet hole, and the transverse groove extends transversely from the bottom corner of the air duct assembly adjacent to the internal wire outlet hole. That is, the vertical slots are adjacent to the lateral side edges of the air chute assembly and the lateral slots are adjacent to the bottom edges of the air chute assembly. The transverse and vertical combined wire collecting grooves can enable the electric connecting wires of the electric components distributed at each position of the air duct assembly to extend to the wire collecting grooves in a short distance, so that the length of the electric connecting wires in the concentrated wiring is prolonged through the wire collecting grooves at the edge positions, and the whole wiring is ensured to be tidier.

Further, at least part of the edge of the air duct front cover is provided with a flanging protruding backwards, the backward surface of the air duct front cover is provided with supporting ribs protruding backwards and spaced from the flanging, a line collecting groove is formed between the flanging and the supporting ribs, and the electric connecting line can be clamped between the flanging and the supporting ribs, that is, the electric connecting line can be reliably and stably limited only through the air duct front cover without the cooperation of other structures, the risk of line pressing is further reduced, and wiring operation is facilitated.

The above, as well as additional objectives, advantages, and features of the present utility model will become apparent to those skilled in the art from the following detailed description of a specific embodiment of the present utility model when read in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the utility model will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers will be used throughout the drawings to refer to the same or like parts or portions. It will be appreciated by those skilled in the art that the drawings are not necessarily drawn to scale. In the accompanying drawings:

FIG. 1 is a schematic cross-sectional view of a refrigerated freezer according to one embodiment of the utility model;

FIG. 2 is a schematic structural exploded view of a duct assembly and liner according to one embodiment of the present utility model;

FIG. 3 is a schematic structural exploded view of a duct assembly according to one embodiment of the present utility model;

FIG. 4 is a schematic view of a portion of the construction of a duct assembly according to one embodiment of the utility model.

Detailed Description

The present utility model provides a refrigerating and freezing apparatus, and fig. 1 is a schematic cross-sectional view of a refrigerating and freezing apparatus according to an embodiment of the present utility model. Referring to fig. 1, the refrigerating and freezing apparatus 1 of the present utility model includes a liner 10 and a duct assembly 20.

At least one storage compartment 111 for storing items is defined within the liner 10. The air duct assembly 20 is disposed at the rear side of the interior of the liner 10, and is used for delivering cooling air flow to the at least one storage compartment 111.

Fig. 2 is a schematic structural exploded view of a duct assembly and a liner according to an embodiment of the present utility model, fig. 3 is a schematic structural exploded view of a duct assembly according to an embodiment of the present utility model, and fig. 4 is a partial structural schematic view of a duct assembly according to an embodiment of the present utility model. Referring to fig. 2 to 4, the refrigerating and freezing apparatus 1 further includes a plurality of power consumption parts 50, the plurality of power consumption parts 50 being dispersedly arranged in the duct assembly 20, that is, the positions of the plurality of power consumption parts 50 are not concentrated but dispersed. In particular, the air duct assembly 20 is provided with an internal wire outlet hole 25 for the electrical connection wires 60 of the plurality of electrical components 50 to pass through; the duct assembly 20 has a wire collecting groove 26 formed therein, and the electric connection wires 60 of the plurality of electric components 50 are collected in the wire collecting groove 26 and intensively pass through the inner wire outlet hole 25.

The refrigerating and freezing device 1 comprises an inner container 10, an air duct assembly 20 and a plurality of electric components 50 scattered in the air duct assembly 20, wherein an internal wire outlet hole 25 is formed in the air duct assembly 20, a wire collecting groove 26 is formed in the air duct assembly 20, electric connecting wires 60 of the electric components 50 are collected in the wire collecting groove 26 and then intensively pass through the internal wire outlet hole 25, namely the electric components 50 are integrated and wired, wiring harnesses are tidier, no wire pressing problem is worry when the air duct assembly 20 is assembled, and convenience in assembly of the air duct assembly 20 is improved.

Specifically, the plurality of electric components 50 may include, for example, at least one electric control damper for controlling the supply of air to the at least one storage compartment, a temperature sensor or a temperature sensing head for acquiring temperature, a humidity sensor for acquiring humidity, or a functional module provided in the air duct, etc. The power consuming parts 50 have different uses and thus have different installation positions.

In some embodiments, the internal outlet hole 25 is open at one of the bottom corners of the duct assembly 20. The sump groove 26 includes a vertical groove 261 extending vertically upward from a bottom corner of the air duct assembly 20 adjacent the internal outlet hole 25 and a lateral groove 262 extending laterally from the bottom corner.

The utility model opens the internal wire outlet hole 25 at one of the bottom corners of the air duct assembly 20, and arranges the wire collecting groove 26 into a form with two main grooves of a vertical groove 261 and a transverse groove 262, wherein the vertical groove 261 extends vertically upwards from the bottom corner of the air duct assembly 20 adjacent to the internal wire outlet hole 25, and the transverse groove 262 extends transversely from the bottom corner of the air duct assembly 20 adjacent to the internal wire outlet hole 25. That is, vertical slot 261 is adjacent a lateral side edge of air chute assembly 20 and lateral slot 262 is adjacent a bottom edge of air chute assembly 20. The transverse and vertical combined wire collecting grooves 26 can enable the electric connection wires 60 of the electric components 50 distributed at all positions of the air duct assembly 20 to extend to the wire collecting grooves 26 in a short distance, so that the wires are concentrated through the wire collecting grooves 26 at the edge positions, the lengths of the electric connection wires of the concentrated wires are prolonged, and the overall wires are ensured to be tidier.

In some embodiments, the internal outlet holes 25 are oriented downward, i.e., the internal outlet holes 25 are formed in the bottom of the duct assembly 20. The vertical groove 261 extends downward to the inside wire outlet hole 25, and the bottom wall of the vertical groove 261 is flush with the inner wall of the inside wire outlet hole 25. Therefore, the electric connection wires 60 concentrated in the vertical groove 261 can directly extend downwards and penetrate out of the inner wire outlet hole 25, and the electric connection wires 60 attached to the bottom wall of the vertical groove 261 can also be attached to the inner wall of the inner wire outlet hole 25 without any reversing or isolating, so that the electric connection wires are prevented from being damaged due to the arrangement of pressure.

In some embodiments, the air duct assembly 20 includes an air duct front cover 21, and an air duct rear cover 22 coupled to a rear side of the air duct front cover 21. The structure shown in fig. 4 is the rear side of the duct front cover 21. At least part of the edge of the air duct front cover 21 is provided with a flange 211 protruding backwards, the backward surface of the air duct front cover 21 is provided with a support rib 212 protruding backwards and spaced from the flange 211, and a line collecting groove 26 is defined between the flange 211 and the support rib 212. Therefore, the electric connection wire 60 of the electric component 50 can be clamped between the flange 211 and the support rib 212, namely, the electric connection wire 60 can be reliably and stably limited only through the air duct front cover 21, the cooperation of other structures is not needed, the risk of line pressing is further reduced, and the wiring operation is facilitated.

In some embodiments, the air duct assembly 20 further includes a thermal insulation assembly disposed between the air duct front cover 21 and the air duct rear cover 22. The insulation assembly may specifically include a front insulation foam 231 and a rear insulation foam 232 that snap together. The front side of the heat-insulating assembly is provided with a recessed area 233 corresponding to the position of the line-collecting groove 26, and a closed space for accommodating the electrical connection line 60 is formed between the recessed area 233 and the line-collecting groove 26 when the heat-insulating assembly is assembled with the duct front cover 21. Thereby, the electrical connection wire 60 is reliably confined within the closed space, and even if a part of the electrical connection wire 60 may be detached from the line collecting groove 26 for some reason, the electrical connection wire 60 detached from the line collecting groove 26 is confined within the closed space described above without risk of the electrical connection wire 60 being scattered or exposed.

Specifically, the recessed region 233 may include a vertical recessed region corresponding to the vertical groove 261 and a lateral recessed region corresponding to the lateral groove 262, respectively, such that relatively closed spaces are formed at both the vertical groove 261 and the lateral groove 262.

In some embodiments, the air duct assembly 20 is also formed with a plurality of wire-dividing grooves 263 inside, each wire-dividing groove 263 being located between the wire-collecting groove 26 and one of the corresponding power-consuming components 50 such that the electrical connection wires 60 of the power-consuming components 50 extend to the power-consuming components 50 through the wire-dividing groove 263 after being separated from the wire-collecting groove 26.

Since the collecting slots 26 are distributed only at the lateral and bottom edges of the interior of the duct assembly 20, while the powered components 50 are located at various areas of the duct assembly 20, the upstream sections of the electrical connection lines 60 leading from the powered components 50 cannot be located in the collecting slots 26. To this end, the present utility model provides the wire-dividing groove 263 for at least a part of the electric components 50 such that the upstream section of the electric connection wire 60 led out from the electric components 50 is located in the wire-dividing groove 263, extends to the wire-collecting groove 26 through the wire-dividing groove 263, rather than being randomly arranged without any irregularity, not only further improving the wiring regularity inside the duct assembly 20, but also improving the stability of the electric connection wire 60 in the wire-collecting groove 26, avoiding easy detachment of the electric connection wire 60 from the wire-collecting groove 26.

Specifically, the wire dividing groove 263 may extend in a lateral and/or vertical direction, or may extend obliquely.

In some embodiments, the liner 10 is provided with an external wire outlet 11. The bottom of the air duct assembly 20 is provided with a volute 30, an air supply fan 40 for driving air supply to the at least one storage compartment is arranged in the volute 30, and after the electric connection wires of the air supply fan 40 and the electric connection wires of the plurality of electric components 50 penetrating out from the inner wire outlet holes 25 are concentrated, the electric connection wires penetrate out of the inner container 10 through the outer wire outlet holes 11, and are electrically connected with a terminal box outside the inner container 10.

The utility model concentrates the electric connection wires of the plurality of electric components 50 led out from the inside of the air duct assembly 20 and the electric connection wires of the air supply fan 40 again and then outputs the wires from the external wire outlet hole 11, thereby avoiding the scattered arrangement of a plurality of electric connection wires outside the air duct assembly 20 and the volute 30 and the assembly of the air duct assembly 20, further improving the wiring regularity of the preassembled piece formed after the assembly of the air duct assembly 20 and the volute 30 and reducing the possibility of wire pressing during the assembly of the air duct assembly 20.

Specifically, the air duct assembly 20 and the volute 30 may be integrally formed, or may be connected together by a clamping connection, a screw connection, or the like.

In some embodiments, the volute 30 is provided with at least one wire clamping jaw 31 extending outwardly from an outer edge thereof. The electrical connection wires of the blower fan 40 and the electrical connection wires of the plurality of electrical components 50 penetrating from the internal wire outlet holes 25 are clamped in the at least one clamping claw 31 and then penetrate from the external wire outlet holes 11. Therefore, the electric connection wires of the air supply fan 40 and the electric connection wires of the plurality of electric components 50 penetrating out of the internal wire outlet holes 25 can be properly limited and fixed through the wire clamping claws 31, so that on one hand, the electric connection wires of the air supply fan 40 and the electric connection wires of the plurality of electric components 50 penetrating out of the internal wire outlet holes 25 can form an integral wire harness, and the wires are concentrated; on the other hand, even if a certain pulling action is generated on the electric connection wire during the assembly of the duct assembly 20 or during the connection of the electric connection wire to the terminal box, the pulling action acts only on the wire clamping claw 31, without affecting the electric connection between the electric connection wire and the electric components 50 or the blower fan 40, improving the circuit stability and reliability of the electric components 50 and the blower fan 40.

In some embodiments, the number of the wire clamping claws 31 is two, and the two wire clamping claws 31 are arranged at intervals on one side of the volute 30 adjacent to the inner wire outlet 25, so that the electrical connection wires of the plurality of electrical components 50 penetrating out from the inner wire outlet 25 are clamped on the wire clamping claws 31, and no longer winding phenomenon occurs.

Further, the electrical connection wires of the blower fan 40 and the electrical connection wires of the plurality of electrical components 50 penetrating from the internal wire outlet holes 25 are alternately wound around the two wire clamping claws 31 in an "8" -shaped winding manner. The winding mode can ensure that the electric connecting wire is not easy to loosen from the two wire clamping claws 31, so that the electric connecting wire is more stably kept on the two wire clamping claws 31, the length of each circle of electric connecting wire is further prolonged, the winding number of turns is reduced, and the winding efficiency is improved.

In some embodiments, one of the wire clamping claws 31 extends outwardly a length greater than the other wire clamping claw 31, i.e., the two wire clamping claws 31 are not of equal length. The electrical connection wires of the blower fan 40 and the electrical connection wires of the plurality of electrical components 50 penetrating from the inner wire outlet holes 25 are individually wound at least one turn around the wire clamping claws 31 having a long length before penetrating from the outer wire outlet holes 11. That is, after the electrical connection wire of the blower fan 40 and the electrical connection wire of the plurality of electrical components 50 penetrating from the inner wire outlet hole 25 are alternately wound around the two wire clamping claws 31 in an 8-shaped winding manner, the wire clamping claws 31 having a longer length are individually wound at least one turn, and finally, the electrical connection wire is penetrated through the outer wire outlet hole 11. The electrical connection wires individually wound around the wire clamping claws 31 are very stable, and the possibility of loosening the electrical connection wires from the wire clamping claws 31 is further avoided.

In some embodiments, the outer wire hole 11 is opened at one of the bottom corners of the liner 10, and thus, the outer wire hole 11 is located laterally outside the scroll case 30. The extended end of the wire clamping claw 31 forms a clamping interface 311 which is opened toward the volute 30 for clamping the electric connection wires of the air supply fan 40 and the electric connection wires of the plurality of electric components 50 penetrating from the internal wire outlet holes 25. That is, the opening of the card interface is directed away from the outer wire outlet hole 11, so that the electrical connection wire extends to the outer wire outlet hole 11 via a direction directed away from the card interface, thereby making the electrical connection wire more reliably held in the card wire claw 31.

It should be understood by those skilled in the art that the above-described embodiments are only a part of embodiments of the present utility model, and not all embodiments of the present utility model, and the part of embodiments is intended to explain the technical principles of the present utility model and not to limit the scope of the present utility model. All other embodiments, which can be obtained by a person skilled in the art without any inventive effort, based on the embodiments provided by the present utility model, shall still fall within the scope of protection of the present utility model.

It should be noted that, in the description of the present utility model, terms such as "center", "upper", "lower", "top", "bottom", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like, which indicate directions or positional relationships, are based on actual use states of the refrigerating and freezing apparatus 1, are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Further, it should also be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected, can be indirectly connected through an intermediate medium, and can also be communicated with the inside of two elements. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art according to the specific circumstances.

By now it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the utility model have been shown and described herein in detail, many other variations or modifications of the utility model consistent with the principles of the utility model may be directly ascertained or inferred from the present disclosure without departing from the spirit and scope of the utility model. Accordingly, the scope of the present utility model should be understood and deemed to cover all such other variations or modifications.

Claims (10)

1. A refrigeration and freezer comprising:

a liner defining at least one storage compartment therein for storing items;

the air duct assembly is arranged at the rear side of the inner part of the inner container and is used for conveying cooling air flow to the at least one storage compartment; and

a plurality of power consuming components disposed discretely in the duct assembly; wherein the method comprises the steps of

The air duct component is provided with internal wire outlet holes for the electric connecting wires of the plurality of electric components to pass through; and the interior of the air duct component is provided with a line collecting groove, and the electric connecting lines of the plurality of electric components are collected in the line collecting groove and intensively pass through the internal line outlet holes.

2. A refrigerating and freezing apparatus according to claim 1, wherein,

the internal outlet Kong Kaishe is at one of the bottom corners of the air chute assembly; and is also provided with

The sump slot includes a vertical slot extending vertically upward from a bottom corner of the air duct assembly adjacent the internal outlet aperture and a lateral slot extending laterally from the bottom corner.

3. A refrigerating and freezing apparatus according to claim 2, wherein,

the inner wire outlet hole faces downwards, and the vertical groove extends downwards to the inner wire outlet hole;

the bottom wall of the vertical groove is flush with the inner wall of the internal wire outlet hole.

4. A refrigerating and freezing apparatus according to claim 1, wherein,

the air duct assembly comprises an air duct front cover and an air duct rear cover connected to the rear side of the air duct front cover;

the air duct front cover comprises an air duct front cover, wherein at least part of the edge of the air duct front cover is provided with a flange protruding backwards, the backward surface of the air duct front cover is provided with support ribs protruding backwards and spaced from the flange, and the flange and the support ribs define a line collecting groove therebetween.

5. A refrigerating and freezing apparatus as recited in claim 4, wherein,

the air duct assembly further comprises a heat preservation assembly arranged between the air duct front cover and the air duct rear cover; and is also provided with

The front side of the heat preservation component is provided with a concave area corresponding to the position of the line collecting groove, and a closed space for accommodating the electric connecting line is formed between the concave area and the line collecting groove after the heat preservation component is assembled with the front cover of the air duct.

6. A refrigerating and freezing apparatus according to claim 1, wherein,

the interior of the air duct assembly is also provided with a plurality of wire dividing grooves, each wire dividing groove is positioned between the wire collecting groove and one corresponding electric component, so that the electric connecting wire of the electric component extends to the electric component through the wire dividing groove after being separated from the wire collecting groove.

7. A refrigerating and freezing apparatus according to claim 1, wherein,

the inner container is provided with an external wire outlet hole;

the bottom of the air duct assembly is provided with a volute, an air supply fan used for driving air supply to the at least one storage compartment is arranged in the volute, and an electric connecting wire of the air supply fan and a plurality of electric connecting wires of the electric components penetrating out from the internal wire outlet hole are concentrated and then penetrate out of the liner through the external wire outlet hole.

8. A refrigerating and freezing apparatus as recited in claim 7, wherein,

the volute is provided with at least one wire clamping claw extending outwards from the outer edge of the volute; and is also provided with

And the electric connecting wires of the air supply fan and the electric connecting wires of the plurality of electric components penetrating out from the internal wire outlet holes are clamped at the at least one wire clamping claw and then penetrate out from the external wire outlet holes.

9. A refrigerating and freezing apparatus as recited in claim 8, wherein,

the number of the wire clamping claws is two, and the two wire clamping claws are arranged at intervals on one side of the volute adjacent to the internal wire outlet hole; and is also provided with

The electric connecting wires of the air supply fan and the electric connecting wires of the plurality of electric components penetrating out from the internal wire outlet holes are alternately wound on the two wire clamping claws in an 8-shaped winding mode.

10. A refrigerating and freezing apparatus as recited in claim 9, wherein,

one of the wire clamping claws extends outwards to a length longer than that of the other wire clamping claw; wherein the method comprises the steps of

The electric connecting wires of the air supply fan and the electric connecting wires of the plurality of electric components penetrating out of the internal wire outlet holes are independently wound on the wire clamping claw with longer length for at least one circle before penetrating out of the external wire outlet holes.

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