CN113531993A - Refrigerator with a door - Google Patents

Abstract

The invention provides a refrigerator which can improve the installation workability of electric wires and can save the space in the refrigerator. The refrigerator is provided with: a refrigerator main body; a 1 st member mounted to a mounted portion of a refrigerator main body; and a 2 nd member provided in the refrigerator main body at a position apart from the 1 st member and at a position where no other member exists between the 1 st member and the 1 st member, the 1 st member having: a 1 st member body; and a holding portion provided in the 1 st member body and forming an accommodating space capable of accommodating and holding the electric wire, the accommodating space including: and an opening portion that is open in a direction different from the direction toward the 1 st member and in a direction different from the direction toward the 2 nd member, and through which the power supply line can be inserted into the housing space.

Description

Refrigerator with a door

Technical Field

The present invention relates to a refrigerator.

Background

Many devices such as a temperature sensor and a humidity sensor exist in the refrigerator. In the conventional configuration, as a method of housing the electric wires disposed in these devices, there is used: a method of providing a dedicated housing portion for housing the electric wire in the refrigerator, or a method using: a method of installing a dedicated member for bundling a wire harness and drawing and storing an electric wire from a lower side in a vertical direction to the dedicated member.

However, in recent years, there has been an increasing demand for a refrigerator having a smaller product height or depth and a larger internal capacity, which restricts the space of the internal structure of the refrigerator, particularly the space in the height direction. As a result, the difficulty of taking into consideration the layout of the inside of the refrigerator and the difficulty of installing a dedicated storage unit for storing the electric wires in the inside of the refrigerator are increased. Further, when the electric wire is housed in a dedicated member for bundling the wire harness from the vertically lower side, there is a possibility that the electric wire interferes with the components in the refrigerator, which may cause a bad influence, and workability in assembling the refrigerator may be impaired.

Patent document 1: japanese patent laid-open publication No. 2012 and 255629

Disclosure of Invention

Accordingly, the present invention provides a refrigerator capable of improving workability of wire installation and saving space in the refrigerator.

The refrigerator of the present invention comprises: a refrigerator main body; a 1 st member mounted to a mounted portion of the refrigerator main body; and a 2 nd member provided in the refrigerator main body at a position apart from the 1 st member and at a position where no other member is present between the 1 st member and the 1 st member, the 1 st member having: a 1 st member body; and a holding portion provided in the 1 st member body and forming an accommodating space capable of accommodating and holding an electric wire, the accommodating space including: and an opening portion that is opened in a direction different from the direction toward the 1 st member and in a direction different from the direction toward the 2 nd member, and into which the electric wire can be inserted toward the housing space.

According to the above configuration, the installation workability of the electric wire can be improved, and the space in the refrigerator can be saved.

Drawings

Fig. 1 is a diagram schematically showing an example of a refrigerator according to an embodiment.

Fig. 2 is a cross-sectional view showing an enlarged configuration of the periphery of the installation portion of the mounting member for an example of the refrigerator according to the embodiment.

Fig. 3 is a sectional view of an example of a refrigerator according to an embodiment, showing the refrigerator from the rear side except for a back heat insulating wall.

Fig. 4 is a sectional view showing an example of the holding portion according to the embodiment.

Fig. 5 is a cross-sectional view showing an example of a recessed portion provided in the holding portion according to the embodiment.

Fig. 6 is a sectional view showing an example of a case where the extending portion of the holding portion is inclined according to the embodiment.

Fig. 7 is a perspective view showing an example of a case where the holding portion of the embodiment is provided with a through portion.

Fig. 8 is a cross-sectional view showing an example of a projection provided on the attached portion according to the embodiment.

Description of the reference numerals

1 … refrigerator main body, 10 … heat insulation box, 11 … outer box, 12 … inner box, 13 … refrigerating chamber, 14 … vegetable chamber, 15 … freezing chamber, 21 … cooler (2 nd member), 24 … machine chamber, 31 … freezing duct, 32 … refrigerating duct, 33 … damper, 40 … mounting component (1 st member), 42 … holding part, 50 … mounted part, 60 … electric wire

Detailed Description

Next, a refrigerator according to an embodiment will be described with reference to the drawings. The refrigerator 1 shown in fig. 1 is configured such that: a plurality of storage compartments are provided in a vertically long rectangular box-shaped heat insulating box 10 which is an opening on the front surface of a refrigerator main body. In the following description, the opening side of the heat insulating box 10, i.e., the side used by the user, is referred to as the front side of the refrigerator 1, and the side opposite to the opening side is referred to as the rear side of the refrigerator 1. That is, the front-rear direction means: the refrigerator 1 is installed on the floor in the front-rear direction as shown in fig. 1. The vertical direction with respect to the gravitational direction of the refrigerator 1 is defined as the vertical direction of the refrigerator 1, and the horizontal direction when the refrigerator 1 is viewed from the front is defined as the horizontal direction of the refrigerator 1.

The refrigerator 1 has a heat insulating box 10 as a main body. The heat-insulated box 10 is mainly composed of an outer box 11 made of steel plate and an inner box 12 made of synthetic resin. Between the outer box 11 and the inner box 12 are provided: for example, a heat insulating material such as hard foamed polyurethane as an example of a foamed heat insulating material, or a vacuum heat insulating panel as an example of a heat insulating member. The insulated box 10 is divided into: a plurality of storage compartments for storing stored items. The refrigerator 1 includes: for example, refrigerating compartment 13 located at the uppermost position, vegetable compartment 14 located at a position below refrigerating compartment 13, and freezing compartment 15 located at the lowermost position serve as storage compartments. An ice making chamber, not shown, is provided in the freezing chamber 15. The refrigerating chamber 13 and the vegetable chamber 14 are both storage chambers having a refrigerating temperature range, and are usually storage chambers of 3 to 5 ℃. On the other hand, freezing chamber 15 is a storage chamber in a freezing temperature range, and is usually a storage chamber of-18 ℃ or lower.

The refrigerator 1 includes: a refrigerating chamber door 131, a vegetable chamber door 141, and a freezing chamber door 151. The refrigerating chamber door 131 is: a single-opening or double-opening type hinge opening/closing door for opening/closing an opening in front of the refrigerating compartment 13. Vegetable compartment door 141 and freezing compartment door 151 are both push-pull type, and open and close the front openings of vegetable compartment 14 and freezing compartment 15, respectively.

As shown in fig. 1 and 3, the heat insulation box 10 includes: a back insulating wall 101, left and right side insulating walls 102, an upper insulating wall 103, and a bottom insulating wall 104. The back heat insulating wall 101 constitutes the back surface of the heat insulating box 10. The side heat insulating walls 102 constitute left and right side surfaces of the heat insulating box 10. The upper heat insulating wall 103 constitutes an upper surface of the heat insulating box 10. The bottom insulating wall 104 constitutes the bottom surface of the insulated box 10.

As shown in fig. 1, the heat-insulating box 10 has a 1 st partition wall 16 and a 2 nd partition wall 17. The 1 st partition wall 16 vertically partitions the refrigerating compartment 13 and the vegetable compartment 14 so as not to insulate heat. The 2 nd partition wall 17 partitions the vegetable compartment 14 and the freezing compartment 15 in an insulated state. The 1 st partition wall 16 and the 2 nd partition wall 17 are made of, for example, a synthetic resin, and the heat insulating material is not filled in the 1 st partition wall 16, but the heat insulating material is filled in the 2 nd partition wall 17.

In addition, the refrigerator 1 is provided with a freezing cycle. The refrigeration cycle is a well-known configuration, and therefore, although not shown in detail, the refrigeration cycle includes: a cooler 21, a compressor 22, and a condenser and an expansion valve, not shown. Further, the refrigerator 1 includes: a defrosting water evaporating pan 23, a defrosting heater 26, a freezing duct 31, a refrigerating duct 32, a damper 33, and the like. In the present embodiment, the cooler 21 is provided on the back surface side of the freezing chamber 15, and includes: the function of generating cold air for cooling each storage room is provided. The defrosting heater 26 is provided at a lower portion of the cooler 21, and has: the function of defrosting the cooler 21 is performed.

The refrigerator 1 is also provided with a machine room 24. The machine chamber 24 is provided, for example, at a lower end portion on the rear side of the heat-insulating box 10. In the machine chamber 24, a compressor 22, a condenser, and the like are disposed, and a cooling fan, a defrosting water evaporation tray 23, and the like, not shown, are disposed.

The freezing duct 31 is provided with: the rear surface side of the heat insulation box 10 is the front side of the cooler 21. The freezing duct 31 includes: and a passage for supplying cold air generated by the cooler 21 or the like into the freezing chamber 15. A part of the cold air generated by cooler 21 and the like flows into freezing duct 31, passes through freezing duct 31, and is supplied into freezing chamber 15. Then, the cold air cooled in the freezing chamber 15 is returned to the cooler 21.

The refrigerating duct 32 is provided on the rear side of the refrigerating chamber 13 and the vegetable chamber 14, and extends in the vertical direction along the rear side of the inner box 12. The refrigerating duct 32 includes: and a passage for supplying the cold air generated by cooler 21 to refrigerating compartment 13 and vegetable compartment 14. As shown in fig. 2, the refrigerating duct 32 has an inlet 321. The inflow port 321 is formed as: a portion below the refrigerating duct 32 opens toward the cooler 21, and serves as: the cold air generated by the cooler 21 flows into the cold storage duct 32.

Further, a fan 25 is provided in the refrigerating duct 32, and the cold air flowing into the refrigerating duct 32 is supplied by the fan 25 and passes through the refrigerating duct 32. The cold air flowing into the refrigerating duct 32 from the inlet 321 is forcibly passed through the refrigerating duct 32 by the blower 25, and flows out to the refrigerating chamber 13 and the vegetable chamber 14 from the outlet 181. The cold air having cooled refrigerating room 13 and vegetable room 14 can be returned to cooler 21 together with moisture contained in the air or stored matter in refrigerating room 13 and vegetable room 14.

The damper 33 is provided to be able to open and close the inflow port 321. The damper 33 has: a function of adjusting the amount of cold air flowing into the cold storage duct 32, that is, the air volume. Therefore, when the damper 33 is in the closed state, the inlet 321 is closed, and therefore: cold air is supplied to refrigerating room 13 and vegetable room 14 through refrigerating duct 32. Therefore, by controlling the opening and closing of the damper 33, the temperature in the refrigerator, that is, the temperature of the stored object can be kept constant.

In addition, inside the refrigerator 1 are provided: and an attachment member 40 formed of a member separate from the heat insulating box 10. As shown in fig. 2 and 3, the mounting member 40 is provided with: is located at an upper portion of the cooler 21 and below the 2 nd partition wall 17. The mounting member 40 is made of, for example, synthetic resin, and includes: a main body 41 and a holding portion 42 which are integrally formed. The main body 41 serves as a predetermined function of the mounting member 40.

In the case of the present embodiment, the mounting member 40 is: and a means for connecting the freezing duct 31 and the refrigerating duct 32 via the inner box 12. Therefore, the main body 41 has a function of communicating the freezing duct 31 and the refrigerating duct 32 as a predetermined function desired to be provided by the attachment member 40.

The main body 41 has: a planar portion 411, an upright portion 412, and a duct communicating portion 413. The flat surface portion 411 is formed in a flat plate shape as a whole. The rising portion 412 is formed by raising the outer edge of the planar portion 411. Accordingly, the main body 41 is formed in a lid shape as a whole. Further, the duct communicating portion 413 is: the opening provided in the substantially central portion of the planar portion 411 has, for example, a rectangular shape and penetrates through the planar portion 411. Accordingly, the freezing duct 31 and the refrigerating duct 32 are communicated with each other through the duct communicating portion 413 of the mounting member 40.

As shown in fig. 2, the mounting member 40 is mounted to the mounted portion 50 of the inner box 12 by a screw member, an adhesive, or the like. In the present embodiment, the mounting member 40 has a substantially rectangular shape, but is not limited thereto, and may have a shape in which a part of the outer periphery thereof is absent. That is, the shape of the mounting member 40 may be appropriately selected according to the shape of the mounted portion 50 to which the mounting member 40 is mounted. In the case of the present embodiment, the mounting member 40 is: and the 1 st member attached to the attached portion 50 of the heat insulating box 10. The cooler 21 is a 2 nd member, and the 2 nd member is provided in the heat-insulating box 10: a position away from the mounting member 40 and a position where no other member is present between the mounting member 40 and the mounting member. The 1 st member and the 2 nd member are not limited to the mounting member 40 and the cooler 21, respectively.

The mounting member 40 has a plurality of holding portions 42 in an outer peripheral portion. The holding portion 42 has: the function of holding the electric wire 60, that is, the function of housing the electric wire 60. In the present embodiment, 2 holding portions 42 are provided on the bottom surface of the mounting member 40, and 1 holding portion 42 is provided on the left side surface when viewed from the rear surface side of the heat-insulating box 10. The number of holding portions 42 is not limited to this, and may be arbitrarily applied depending on the shape of the mounting member 40, the number of wires 60 to be held, and the like.

In the present embodiment, the holding portion 42 is configured such that: the heat insulation box 10, which is the attached portion 50, is oriented in the front-rear direction, but the present invention is not limited thereto, and the heat insulation box 10 may be oriented in the left-right direction. Therefore, the orientation of the holding portion 42 is as follows: the configuration in which the electric wire 60 can be inserted between the holding portion 42 and the attached portion 50 by the movement in the horizontal direction may be appropriately selected according to the arrangement of the members in the heat insulating box 10.

In the present embodiment, as shown in fig. 2 and 3, the plurality of holding portions 42 are configured such that: the holding portions 42 may be arranged in a staggered shape, in which the holding portions are alternately oriented in different directions. Accordingly, the electric wire 60 is less likely to come off the holding portion 42, and even when vibration or impact is generated in the holding portion 42, for example, during transportation of the refrigerator 1, the holding state of the electric wire 60 can be maintained.

Here, the electric wire 60 is configured by, for example, an electric power line for supplying electric power to each device, a signal line connecting a control device of the refrigerator 1, not shown, and various devices, and the like. In this case, the device to which the electric wire 60 is connected is, for example, the compressor 22, the blower 25, or various sensors not shown, but is not limited to these.

As shown in fig. 4, the holding portion 42 is formed in a substantially L-shape and includes a connecting portion 421, an extending portion 422, and a locking portion 423. The connection portion 421 is formed: is connected to the mounting member 40 and extends vertically from the mounting member 40 toward the cooler 21 as another member provided in the heat-insulating box 10. The extension 422 is formed such that: is connected to the connecting portion 421 at substantially right angles, and extends rearward along the bottom portion 501 of the attached portion 50 facing the upper surface of the extending portion 422. In other words, the extension 422 is formed such that: extends rearward along the surface 211 of the cooler 21 facing the extending portion 422. In the present embodiment, a distance H in the height direction is provided between the upper surface of the extension 422 and the bottom 501. That is, the separation distance H is: the distance between the extension 422 and the mounted portion 50. The electric wire 60 is inserted into and held in the housing space 43 formed by the spacing distance H.

The housing space 43 includes: an opening 431 through which the power supply line 60 can be inserted into the housing space 43. The electric wire 60 inserted through the opening 431 is configured to: the insertion is possible by moving in the front-rear direction along the surface 211 of the cooler 21 facing the holding portion 42. In this case, the insertion direction of the electric wire 60 into the housing space 43 in the present embodiment is the front-rear direction with respect to the heat insulating box 10. Accordingly, the distance in the height direction between the mounting member 40 or the mounted portion 50 and the cooler 21 located therebelow can be shortened, and space saving in the height direction in the heat-insulated box 10, particularly on the rear surface side of the freezing chamber 15, can be achieved. Further, workability is superior to the case where the electric wire 60 is inserted in the vertical direction, and workability in assembling the refrigerator 1 can be improved. Here, the height direction in the present embodiment is not strictly limited to the vertical direction, and may be a direction inclined from the vertical direction. In the present embodiment, the connection portion 421 constitutes a terminal portion in the insertion direction of the electric wire 60.

In the present embodiment, the electric wire 60 is housed in the holding portion 42 of the mounting member 40 which is a member separate from the refrigerator 1, and the attached portion 50 of the inner box 12 which is a steel member of the heat insulating box 10. That is, the mounting member 40 originally functions to communicate the freezing duct 31 and the refrigerating duct 32, but it has been developed and studied that the mounting member 40 and the mounted portion 50 provided in the heat insulating box 10 in the related art can function as a housing portion for the electric wire 60. Accordingly, it is not necessary to separately provide: by providing only the dedicated component for housing the electric wire 60, the number of components can be reduced, and the manufacturing cost can be reduced.

When the holding portion 42 has rigidity and an external force is applied thereto, for example, the holding portion 42 can be elastically deformed with a connecting portion with the main body portion 41 as a fulcrum. Therefore, even when a load from the height direction acts on the holding portion 42 when the electric wire 60 is inserted, the holding portion 42 returns to the original shape once the load is released. That is, the holding portion 42 includes at least: the electric wire 60 is smoothly inserted, and thereafter, the elastic force of the holding degree of the electric wire 60 can be maintained.

In the present embodiment, the length L of the extension 422 is longer than the spacing distance H, which is the height of the housing space 43. For example, in the present embodiment, the length L of the extension 422 is set at: the separation distance H is about 3 times the length. Accordingly, the plurality of wires 60 can be arranged in parallel in the horizontal direction on the extension portion 422 without being arranged in parallel in the height direction. The length L of the extension 422 is not limited to this, and may be any length corresponding to the number of wires 60 to be stored.

As shown in fig. 5, the holding portion 42 may have a recessed portion 44. The recess 44 may be formed as: the extending portion 422 is recessed over the entire width thereof in a direction away from the mounted portion 50. In this case, the entire width of the extension 422 means: the width dimension in a direction at right angles to the length of the extension 422. Accordingly, when the length of the extending portion 422 cannot be sufficiently secured due to a narrow space in the front-rear direction in the heat insulating box 10 in which the holding portion 42 is disposed, the electric wire 60 can be accommodated in the recessed portion 44.

As shown in fig. 6, the extension 422 may be configured to: at an acute angle to the connection portion 421. That is, the height dimension of the housing space 43 for housing the electric wire 60 may be configured as follows: the width decreases from the base of extension 422, in other words, from the intersection with connection 421 toward the tip of extension 422. In this case, the height of receiving space 43 is larger on the base side than on the tip side of extending portion 422. Accordingly, the electric wire 60 is less likely to be detached from the holding portion 42, and scattering of the electric wire 60 can be prevented.

Here, when the extension portion 422 is formed at an acute angle to the connection portion 421, water droplets generated by cold air from the cooler 21 or the like are less likely to accumulate near the rear end side, i.e., the root of the holding portion 42 due to the inclination of the extension portion 422. If water droplets are left adhering to the holding portion 42, frost may be generated near the root of the holding portion 42 due to vapor phase growth of the water droplets, thereby blocking the passage of cold air from the cooler 21 and the like. Therefore, as shown in fig. 7, the holding portion 42 may be provided with a slit-shaped through portion 45 penetrating the holding portion 42 at the rear end side. Accordingly, the water droplets adhering to the holding portion 42 are discharged from the through portion 45, and therefore, the water droplets can be prevented from remaining in the holding portion 42, and the passage of the cold air from the cooler 21 and the like can be satisfactorily maintained. In the present embodiment, the through portion 45 is formed in a slit shape, but is not limited thereto, and may be formed as a polygonal hole other than a square shape or a circular hole.

Further, the extension 422 is configured to: the distal end has a locking portion 423. The locking portion 423 is formed as follows: extends over the entire width of the extension 422, and protrudes upward in the height direction from the extension 422. That is, the locking portion 423 protrudes in a direction to locally reduce the distance H between the extending portion 422 and the attached portion 50. Accordingly, it is possible to prevent: the electric wire 60 placed on the extension 422 is detached from the holding portion 42. In the present embodiment, the locking portion 423 is formed by a hook-shaped protrusion, but is not limited thereto, and may be a protrusion having a circular shape, a rectangular shape, or the like. In the present embodiment, the locking portion 423 constitutes a leading end portion in the insertion direction of the electric wire 60.

In the present embodiment, instead of the locking portion 423 of the holding portion 42, the following configuration may be adopted: the protruding portion 51 is provided from the bottom 501 of the mounted portion 50 toward the extending portion 422 located at the lower position. This can improve the effect of preventing the detachment of the electric wire 60. As shown in fig. 8, the locking portion 423 of the holding portion 42 and the protrusion 51 are used in combination, whereby the wire 60 can be further prevented from coming off.

According to the embodiment described above, the refrigerator 1 includes: a heat insulation box 10 as a refrigerator main body; a mounting member 40 mounted to a mounted portion 50 of the heat insulating box 10; and a cooler 21 provided in the heat-insulating box 10 at a position away from the mounting member 40 and at a position where no other member is present between the cooler and the mounting member 40. The mounting member 40 includes: a main body 41 as a 1 st member main body, and a holding portion 42. The holding portion 42 is provided integrally with the main body portion 41, and is formed with a housing space 43 capable of housing the electric wire 60. Further, the housing space 43 has: the power supply line 60 can be inserted into the opening 431 in the housing space 43. The opening portion 431 is opened in a direction different from the direction toward the mounting member 40, and is opened in a direction different from the direction toward the cooler 21.

Accordingly, the electric wire 60 can be inserted into the housing space 43 through the opening 431 that is opened in the front-rear direction with respect to the refrigerator 1 by the horizontal movement. Therefore, it is possible to shorten: the distance in the height direction between the mounting member 40 having the holding portion 42 or the mounted portion 50 to which the mounting member 40 is mounted and the cooler 21 located at the lower position thereof can achieve space saving in the height direction of the inside of the heat insulating box 10, particularly the back side of the freezer compartment 15. Further, since the insertion direction of the electric wire 60 is the horizontal direction with respect to the refrigerator 1, workability is improved as compared with the case of inserting in the vertical direction, and workability of assembling the refrigerator 1 can be improved.

The main body 41 has a predetermined function other than the function of holding the electric wire 60. Specifically, the main body 41 has a function of communicating the freezing duct 31 and the refrigerating duct 32 as a predetermined function which the mounting member 40 is desired to have. Accordingly, it is not necessary to provide: the number of components can be reduced and the manufacturing cost can be reduced by a dedicated component for housing the electric wire 60.

Further, the housing space 43 is formed between the attached portion 50 and the holding portion 42. The mounting member 40 has an original function of communicating the freezing duct 31 and the refrigerating duct 32 via the inner box 12, and the holding portion 42 is provided on the outer peripheral portion of the mounting member 40. In the present embodiment, the configuration is such that: the holding portion 42 and the attached portion 50 provided in the inner box 12 function as a housing portion for the electric wire 60. Accordingly, it is not necessary to provide a dedicated part for housing the electric wire 60, and the number of components can be reduced, and the manufacturing cost can be reduced. Further, since no dedicated component for housing the electric wire 60 is present in the heat insulating box 10, space saving in the heat insulating box 10 can be achieved.

In addition, the length L in the insertion direction of the electric wire 60 in the housing space 43 is longer than at least: the dimension of the receiving space 43 in the height direction is the spacing distance H between the bottom 501 of the mounted portion 50 and the upper surface of the extending portion 422. Accordingly, the plurality of wires 60 can be held in the front-rear direction of the housing space 43.

Further, the height dimension of the housing space 43 becomes smaller from the side opposite to the pipe communicating portion 413 toward the pipe communicating portion 413 side. That is, the distance H between the distal ends of the extending portions 422 provided with the conduit-communicating portions 413 is smaller than: the extension 422 is spaced apart from the crossing portion where the connection 421 crosses. Accordingly, the electric wire 60 is less likely to be detached from the holding portion 42, and scattering of the electric wire 60 can be prevented.

The holding portion 42 has a through portion 45 formed to penetrate the holding portion 42. If the water droplets adhering to the holding portion 42 remain in the holding portion 42, the vapor phase growth of the water droplets may cause frost formation in the holding portion 42, which may adversely affect the passage of the cold air from the cooler 21 or the like. Thus, according to the present embodiment, since the through portion 45 is provided in the holding portion 42, water droplets can be discharged from the through portion 45, and water droplets can be prevented from remaining in the holding portion 42. This can satisfactorily maintain the passage of the cold air from the cooler 21 and the like.

The holding portion 42 has a recess 44 formed by recessing the holding portion 42 toward the cooler 21. Accordingly, when the length of the extending portion 422 cannot be sufficiently secured due to a narrow space in the front-rear direction in the heat insulating box 10 in which the holding portion 42 is disposed, the electric wire 60 can be accommodated in the recessed portion 44.

The attached portion 50 further includes: a protruding portion 51 protruding from the attached portion 50 is provided in the housing space 43. Accordingly, the protruding portion 51 can function to close the outlet of the housing space 43, and the electric wire 60 can be prevented from coming off the holding portion 42.

In the above embodiment, the refrigerator 1 is configured such that: the storage compartments 13 and 14 of the refrigerating temperature zone and the storage compartment 15 of the freezing temperature zone are cooled by 1 cooler 21, but the present invention is not limited thereto. That is, the refrigerator 1 may be configured to individually cool the storage compartments 13 and 14 in the refrigerating temperature range and the storage compartment 15 in the freezing temperature range by 2 coolers.

In addition, the drawings are drawn for convenience of understanding when used in conjunction with the above description and are not necessarily expressed in a constant scale or an accurate angle.

As described above, although one embodiment of the present invention has been described, the embodiment is provided as an example only, and is not intended to limit the scope of the present invention. These new embodiments may be implemented in other various ways, and various omissions, substitutions, and changes may be made without departing from the spirit of the invention. These embodiments and modifications are included in the scope and spirit of the present invention, and are also included in the invention described in the claims and equivalents thereof.

Claims (8)

1. A refrigerator is characterized in that a refrigerator body is provided with a refrigerator door,

the refrigerator has: a refrigerator main body; a 1 st member mounted to a mounted portion of the refrigerator main body; and a 2 nd member provided in the refrigerator main body at a position apart from the 1 st member and at a position where no other member exists between the 1 st member and the member,

the 1 st member has: a 1 st member body; and a holding part which is provided in the 1 st member body and forms an accommodating space capable of accommodating and holding an electric wire,

the accommodating space has: and an opening portion that is opened in a direction different from the direction toward the 1 st member and in a direction different from the direction toward the 2 nd member, and into which the electric wire can be inserted toward the housing space.

2. The refrigerator according to claim 1,

the 1 st member body has: a predetermined function other than a function of holding the electric wire.

3. The refrigerator according to claim 1 or 2,

the housing space is formed between the mounted portion and the holding portion.

4. The refrigerator according to any one of claims 1 to 3,

the length dimension of the electric wire in the insertion direction in the housing space is at least larger than the height dimension of the housing space.

5. The refrigerator according to claim 3,

the height dimension of the housing space becomes smaller from the side opposite to the opening portion toward the opening portion side.

6. The refrigerator according to any one of claims 1 to 5,

the holding portion has a through portion formed to penetrate the holding portion.

7. The refrigerator according to any one of claims 1 to 6,

the holding portion has: a recessed portion formed by recessing the holding portion toward the 2 nd member side.

8. The refrigerator according to any one of claims 1 to 7,

the mounted part has: and a protruding portion provided in the accommodating space so as to protrude from the attached portion.

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