CN113865224B

CN113865224B - Filler rod and refrigerator with same

Info

Publication number: CN113865224B
Application number: CN202010614762.6A
Authority: CN
Inventors: 王常志; 费斌; 夏恩品; 朱小兵; 李康
Original assignee: Qingdao Haier Special Refrigerator Co Ltd; Qingdao Haier Refrigerator Co Ltd; Haier Smart Home Co Ltd
Current assignee: Qingdao Haier Special Refrigerator Co Ltd; Qingdao Haier Refrigerator Co Ltd; Haier Smart Home Co Ltd
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2023-06-16
Anticipated expiration: 2040-06-30
Also published as: CN113865224A

Abstract

The invention provides a molding and a refrigerator with the same, wherein the molding comprises: a clamp bag which is arranged in the gap space in an expandable manner and is internally provided with a cavity, and a first end section and a second end section are respectively formed at two ends of the cavity; the adjusting piece sequentially passes through the first end section, the cavity and the second end section and is used for driving the first end section and the second end section to move in opposite directions so that the clamp bag expands to adapt to the gap space; the shielding piece is fixedly connected with the clamping bag and is used for shielding the outer side of the clamping gap space, so that the embedded strip can be directly fixed at the clamping gap space, and the shielding piece is simple and easy to adjust. The embedded strip of the invention can reduce the installation difficulty of the device, improve the installation efficiency and save time and labor.

Description

Filler rod and refrigerator with same

Technical Field

The present invention relates to a device mounting technology, and more particularly, to a molding and a refrigerator having the same.

Background

The fillet is used for being installed at a crack space between the device and the installation environment to improve the consistency of the device and the installation environment, thereby improving the installation attractiveness of the device.

Part of the filler rod in the prior art can be shielded outside the crack space to decorate the crack space. However, in the process of installing the molding, it is necessary to fix it by using an additional connector, resulting in a great difficulty in operation and a low installation efficiency in the whole installation process.

Therefore, how to improve the structure of the molding to reduce the difficulty of installation of the device is a technical problem to be solved by those skilled in the art.

Disclosure of Invention

An object of the present invention is to provide a molding which solves at least any one of the above-mentioned problems, and a refrigerator having the same.

It is a further object of the invention to improve the construction of the molding to reduce the difficulty of installation of the device.

A further object of the invention is to adapt the molding to a plurality of differently sized crevice spaces.

It is still a further object of the present invention to simplify a mounting structure of a refrigerator and reduce manufacturing costs.

Yet a further object of the present invention is to improve the installation aesthetic degree of the refrigerator.

According to an aspect of the present invention, there is provided a molding for being disposed in a nip space, comprising: a clamp bag which is arranged in the gap space in an expandable manner, a cavity is defined in the clamp bag, and a first end section and a second end section are respectively formed at two ends of the cavity; the adjusting piece sequentially passes through the first end section, the cavity and the second end section and is used for driving the first end section and the second end section to move in opposite directions so as to expand the clamp bag to adapt to the gap space; and the shielding piece is fixedly connected with the clamping bag and is used for shielding the outer side of the crack space.

Optionally, the clamp bag is hollow and cylindrical; the first end section and the second end section both extend longitudinally and are oppositely disposed; the clamp bag is also provided with a first side wall and a second side wall which extend along the longitudinal direction and are respectively connected between the first end section and the second end section so as to enclose a cavity together with the first end section and the second end section; the first sidewall and the second sidewall are mirror symmetric with respect to a longitudinal center section of the clamp pocket.

Optionally, the first sidewall and the second sidewall are arc-shaped plates; and the concave surface of the first side wall is opposite to the concave surface of the second side wall.

Optionally, a plurality of ribs are formed on the outer wall surface of the first side wall and the outer wall surface of the second side wall respectively so as to be abutted against the wall surface of the crack space; the rib extends longitudinally; and the plurality of ribs on the first side wall and the plurality of ribs on the second side wall are symmetrically distributed.

Optionally, the adjusting member is a screw, the central axis of which is located in the longitudinal central section of the capsule; and the first end section and the second end section are respectively provided with an optical hole into which the adjusting piece is screwed.

Optionally, the depth of the light aperture is greater than a set threshold.

Optionally, the shield has a longitudinally extending shield plate disposed on a side of the first end section facing away from the second end section; the longitudinal center section of the main body plate surface of the shielding plate is coplanar with the longitudinal center section of the clamping bag.

Optionally, the main body panel of the shielding plate has an inner panel and an outer panel parallel to each other, the inner panel being opposite the first end section; the shield also has a catch extending from the inner panel face toward the first end section in a direction perpendicular to the main body panel face of the shield; the filler rod further comprises a connecting piece which is arranged between the first end section and the shielding plate and extends towards the shielding plate from the two transverse ends of the first end section, which are opposite to the second end section, so as to enclose a clamping cavity with the shielding plate, wherein the clamping tongue extends into the clamping cavity; the inner side of the clamping cavity is provided with a claw which is clamped with the clamping tongue.

Optionally, the plurality of the clamp bags are uniformly distributed along the longitudinal interval.

According to another aspect of the present invention, there is also provided a refrigerator including: at least one molding as claimed in any one of the above, for providing a nip space between a refrigerator and an installation environment.

The filler rod and the refrigerator with the filler rod comprise a clamping bag, an adjusting piece and a shielding piece. The clamp bag is used for being arranged in the gap space in an expandable mode, and a cavity is defined in the clamp bag. The adjustment member may adjust the distance between the first and second end sections of the capsule such that the capsule expands to conform to the nip space. The shielding piece is fixedly connected with the clamping bag and used for shielding the outer side of the crack space. In the installation process, the clamp bag can be propped against the wall surface of the gap space through expansion so as to prop the shielding piece outside the gap space, so that the panel strip can be directly fixed at the gap space, and the panel strip is simple and easy to adjust. The embedded strip of the invention can reduce the installation difficulty of the device, improve the installation efficiency and save time and labor.

Furthermore, the panel strip and the refrigerator with the same can regulate the expansion degree of the clamp bag by utilizing the regulating piece, so that the panel strip can be suitable for a plurality of clamp seam spaces with different sizes. The plurality of the clamping bags can be uniformly distributed along the longitudinal interval, and the expansion degrees of the plurality of the clamping bags are respectively adjusted, so that the clamping bags can be adapted to the complex bending gap space, the adaptability of the embedded strip is improved, and the installation integrity of the refrigerator is enhanced.

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

Drawings

Some specific embodiments of the invention 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 view of a molding according to one embodiment of the invention;

FIG. 2 is an exploded view of the molding shown in FIG. 1;

FIG. 3 is a schematic view of the bladder and attachment member of the molding shown in FIG. 1;

FIG. 4 is another schematic view of the molding shown in FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is a schematic view of the shield of the molding shown in FIG. 1;

fig. 7 is a schematic view of a refrigerator according to an embodiment of the present invention.

Detailed Description

Fig. 1 is a schematic view of a molding 10 according to one embodiment of the invention. The molding 10 is intended to be placed in a nip space. The molding 10 of the present embodiment is adapted to be installed at a nip space between a device and an installation environment, for example, a nip space between a device and a cabinet, a nip space between a device and a wall, a nip space between a device and other devices, or a nip space between a plurality of devices, for improving the consistency of the devices with the installation environment, thereby improving the aesthetic appearance of the device installation. The molding 10 of the present embodiment can be applied to various devices such as a refrigerator 70, a home appliance such as an air conditioner, and any other equipment, and is particularly suitable for an embedded combination refrigerator 70.

The molding 10 may be applied to a slit space extending in the vertical direction, a slit space extending in the horizontal direction, or a slit space extending in an oblique direction. The present embodiment is illustrated by way of example only with respect to a molding 10 adapted to a vertically extending nip space, and those skilled in the art should be fully capable of expanding other nip spaces upon understanding the present embodiment, and will not be shown here.

Fig. 2 is an exploded view of the molding 10 shown in fig. 1.

The molding 10 may generally include a clip 200, an adjustor 400, and a shutter 300, and may further include a connector 500. Wherein the clip 200 is adapted to be disposed expansively within the nip space. The adjusting member 400 is used to adjust the shape of the clip 200 so that the clip 200 fits into the nip space. The shielding member 300 is fixedly connected with the clip pocket 200 for shielding the outside of the nip space. The connector 500 may be integral with the clip bladder 200. The bladder 200 may be made of an elastic material, such as rubber, plastic, or any other novel elastic material. The connector 500 and the shutter 300 may be made of the same material as the clip 200, or may be made of other materials such as stainless steel.

Fig. 3 is a schematic view of the clip 200 and the connector 500 of the molding 10 shown in fig. 1.

The clip 200 is hollow cylindrical and extends in the longitudinal direction. The "longitudinal direction" is relative to the actual use state of the molding 10, and in this embodiment, the longitudinal direction may be substantially the vertical direction. That is, the extending direction of the cylinder of the clip pocket 200 may be the same as the extending direction of the nip space. The bag 200 may be substantially hollow cylindrical, may be substantially hollow elliptical cylindrical, or may be hollow cylindrical in any other form. The two longitudinal ends of the clamping bag are open.

The interior of the capsule 200 defines a cavity 210. The interior of the barrel of the capsule 200 is the cavity 210. And the cavity 210 communicates with the outside directly through openings at both longitudinal ends of the clip bladder 200.

The capsule 200 includes a first end section 250, a second end section 240, a first sidewall 220, and a second sidewall 230. The first end section 250, the second end section 240, the first sidewall 220, and the second sidewall 230 each extend longitudinally and collectively enclose the cavity 210. The capsule 200 forms a first end section 250 and a second end section 240 at each end of the cavity 210. That is, the first end section 250 and the second end section 240 are disposed opposite. The first sidewall 220 and the second sidewall 230 are disposed opposite. And the first end section 250 and the second end section 240 may be disposed opposite each other in the front-rear extending direction of the clip pocket 200, and the first sidewall 220 and the second sidewall 230 may be disposed opposite each other in the lateral extending direction of the clip pocket 200. The "front-rear extending direction" and the "lateral extending direction" may be substantially horizontal and perpendicular to each other with respect to the actual use state of the molding 10.

In use of the molding 10, the first end section 250, the second end section 240, the first side wall 220 and the second side wall 230 all extend in a vertical direction. The second end section 240 may be located at a front end of the capsule 200 and form a head of the capsule 200, and the first end section 250 may be located at a rear end of the capsule 200 and form a tail of the capsule 200. During installation of the molding 10, the second end section 240 first enters the nip space and the first end section 250 then enters. The first end section 250 and the second end section 240 may be rectangular parallelepiped blocks extending in the longitudinal direction on the clip bag 200, having a set length in the lateral extending direction and the front-rear extending direction of the clip bag 200.

In some alternative embodiments, the first end section 250 may be bullet-shaped, which may facilitate further reducing frictional resistance of the capsule 200 as it enters the nip space, facilitating insertion of the capsule 200 into the nip space.

The first and

second sidewalls

220, 230 are connected between the first and

second end sections

250, 240, respectively, to cooperatively enclose the cavity 210 with the first and

second end sections

250, 240. In this embodiment, the first sidewall 220 extends from one lateral end of the first end section 250 to one lateral end of the second end section 240, and the second sidewall 230 extends from the other lateral end of the first end section 250 to the other lateral end of the second end section 240 to be disposed symmetrically with respect to the first sidewall 220.

The outer wall surfaces of the first and

second side walls

220, 230 are smoothly transitioned to the outer wall surfaces of the first and

second end sections

250, 240, respectively, which is advantageous in reducing frictional resistance of the capsule 200 as it enters the nip space.

The first sidewall 220 and the second sidewall 230 are mirror-symmetrical with respect to a longitudinal center section of the clip pocket 200. Wherein the dashed lines in fig. 1 show the location of the longitudinal center section of the clip pocket 200. The longitudinal center section of the cuff 200 may be the median sagittal plane of the entire molding 10, and is a section dividing the molding 10 into right and left halves. The first sidewall 220 may be located at the left side of the longitudinal center section and the second sidewall 230 may be located at the right side of the longitudinal center section. The longitudinal center section of the capsule 200 also divides the first end section 250 and the second end section 240 into left and right halves.

The first sidewall 220 and the second sidewall 230 are arc-shaped plates. And the concave surface of the first sidewall 220 is opposite to the concave surface of the second sidewall 230. The concave surface of the first arcuate plate and the concave surface of the second arcuate plate form the inner wall of the capsule 200, and the convex surface of the first arcuate plate and the convex surface of the second arcuate plate form the outer wall of the capsule 200 such that the cavity 210 of the capsule 200 is generally convex outwardly.

The concave surfaces of the first and

second sidewalls

220, 230 are disposed opposite each other such that the cavity 210 of the capsule 200 is generally convex in shape, and when the first and

second end sections

250, 240 are moved toward each other by the adjuster 400, the curvatures of the first and

second sidewalls

220, 230 are increased such that the capsule 200 expands laterally outwardly to abut against the wall surface of the nip space. "laterally outward" is relative to the actual use of the pod 200, and may be generally a direction extending toward the exterior of the cavity 210 and in a horizontal direction.

A plurality of ribs 260 are formed on the outer wall surface of the first sidewall 220 and the outer wall surface of the second sidewall 230, respectively, to abut against the wall surface of the nip space. The rib 260 may be integrally formed with the first and

second sidewalls

220 and 230, for example, may be outwardly protruded from outer wall surfaces of the first and

second sidewalls

220 and 230. The ribs 260 may increase the roughness of the outer wall surface of the first sidewall 220 and the outer wall surface of the second sidewall 230, thereby improving the stability of the molding 10 installation.

In this embodiment, the rib 260 may extend in the longitudinal direction. The longitudinal length of the rib 260 may be set according to practical needs and may be slightly smaller than the longitudinal lengths of the first and

second sidewalls

220 and 230. And the plurality of ribs 260 on the first sidewall 220 and the plurality of ribs 260 on the second sidewall 230 are symmetrically distributed.

The number of ribs 260 may be set according to actual needs, and the ribs 260 on the first sidewall 220 and the second sidewall 230 may be any value ranging from 1 to 10, for example, 3.

The adjusting member 400 sequentially passes through the first end section 250, the cavity 210 and the second end section 240, and is used for driving the first end section 250 and the second end section 240 to move towards each other, so that the capsule 200 is inflated to adapt to the gap space.

That is, the adjustment member 400 is provided to penetrate the first end section 250 and the second end section 240 of the clip pocket 200 in the front-rear extending direction of the clip pocket 200. Since the first end section 250 and the second end section 240 are disposed opposite each other in the front-rear extending direction of the clip pocket 200, the first sidewall 220 and the second sidewall 230 are disposed opposite each other in the lateral extending direction of the clip pocket 200. When the first end section 250 and the second end section 240 are moved toward each other, the first sidewall 220 and the second sidewall 230 of the clip 200 protrude outward in the lateral direction, which can increase the length of the clip 200 in the lateral extending direction, thereby reducing the distance between the clip 200 and the wall surface of the nip space.

The adjustment member 400 may be a screw, for example, a self-tapping screw. The central axis of the adjustment member 400 is located within the longitudinal central section of the capsule 200. And the first end section 250 and the second end section 240 are respectively provided with an optical hole 245 into which the adjusting member 400 is screwed. The central axis of the light aperture 245 is also located within the longitudinal central section of the capsule 200. The screw has a body portion for mating with the light aperture 245 and a head portion at one end of the body portion. The outer periphery of the main body part is formed with external threads. The head is formed with a cross or a straight slot for mating with a wrench tool. The tail section of the body distal from the head is adapted to be screwed into the aperture 245 of the first end section 250, and the head section of the body proximal to the head is adapted to be screwed into the aperture 245 of the second end section 240.

The depth of the light aperture 245 may be greater than a set threshold. The adjustment member 400 can adjust the degree of expansion of the capsule 200 in the lateral extension direction by tapping in the light hole 245. Properly increasing the depth of the light aperture 245 facilitates increasing the stability of the connection between the adjustment member 400 and the first and

second end sections

250, 240, thereby increasing the structural stability of the capsule 200. The setting threshold may be set correspondingly according to the actual size of the regulator, and may be, for example, any value in the range of 0.1 to 0.5 times the length of the regulator main body.

Fig. 4 is another schematic view of the molding 10 shown in fig. 1, fig. 5 is a partial enlarged view at a in fig. 4, and fig. 6 is a schematic view of a shutter 300 of the molding 10 shown in fig. 1.

The shutter 300 has a shutter 310 and a catch 320. The shielding 310 may be flat, extending in a longitudinal direction, and disposed on a side of the first end section 250 facing away from the second end section 240. The longitudinal center section of the body panel of the shielding 310 is coplanar with the longitudinal center section of the clip pocket 200. And the entirety of the shield 300 may be symmetrically distributed with respect to a plane in which a longitudinal center section of the clip 200 lies.

When the clip bladder 200 is inserted into the nip space, the shielding plate 310 is positioned outside the nip space to shield the nip space, thereby performing a decoration function.

Since the clip 200 can abut against the wall surface of the nip space, there is a frictional force between the outer wall surfaces of the first and

second sidewalls

220 and 230 of the clip 200 and the wall surface of the nip space. The friction force applied by the clip 200 can be balanced with the self gravity of the clip 200 to fix the clip 200, and the shielding member 300 is fixedly connected with the clip 200 or is integrated with the clip 200, so that the shielding member 300 can be fixed at the outer side of the gap space by means of the supporting effect between the clip 200 and the gap space. The molding 10 of the present embodiment can be directly fixed to the nip space, and is simple and easy to adjust. The molding 10 of the embodiment can reduce the installation difficulty of the device, improve the installation efficiency and save time and labor.

The longitudinal length of the shielding 310 may be adapted to the longitudinal length of the nip space (e.g. the longitudinal lengths of both may be the same). The longitudinal length may refer to a vertical length.

The longitudinal length of the clip 200 may be smaller than the longitudinal length of the shielding plate 310, for example, the clip 200 may be one, and the longitudinal length of the clip 200 may be 0.5 to 0.9 times the longitudinal length of the shielding plate 310, which is advantageous in reducing the volume of the molding 10 and saving the manufacturing cost.

In this embodiment, the number of the clip pockets 200 may be plural, and the clip pockets 200 may be uniformly distributed at intervals along the longitudinal direction (i.e., the extending direction of the shielding plate 310), and the longitudinal length of the clip pockets 200 may be 0.01 to 0.1 times the longitudinal length of the shielding plate 310. By adjusting the expansion degrees of the plurality of clip pockets 200, respectively, the clip pockets 200 can be adapted to a complex bending gap space, which is advantageous in improving the adaptability between the molding 10 and the gap space.

In alternative embodiments, the longitudinal length of the capsule 200 may also be equal to the longitudinal length of the shielding 310, which may increase the contact area of the capsule 200 with the nip space, thereby improving the jacking action between the capsule 200 and the nip space and improving the stability of the installation.

The main body panel of the shielding plate 310 has an inner panel surface and an outer panel surface parallel to each other, the inner panel surface being opposed to the first end section 250. The outer plate surface is exposed to the outside of the nip space.

The shield 300 also has a tab 320 extending from the inner panel surface toward the first end section 250 in a direction perpendicular to the main panel surface of the shield 310. The connector 500 of the molding 10 is disposed between the first end section 250 and the shielding plate 310 and extends from the lateral ends of the first end section 250 facing away from the second end section 240 toward the shielding plate 310 to enclose with the shielding plate 310 a clamping cavity 510 into which the clamping tongue 320 extends. The inside of the clamping cavity 510 is formed with a jaw 520 clamped with the clamping tongue 320, so that the clamping tongue 320 is clamped with the jaw 520, and the shutter 300 is fixedly connected to the clip pocket 200.

Fig. 7 is a schematic view of a refrigerator 70 according to one embodiment of the present invention.

The refrigerator 70 includes a molding 10 for providing a nip space between the refrigerator 70 and an installation environment. The installation environment may be referred to as a cabinet or a wall, or another refrigerator 70 of the combination refrigerator 70.

The refrigerator 70 of the present embodiment may be a combination refrigerator 70, and the number of combination refrigerators 70 may be any value of 2 or more. The present embodiment is illustrated with only two combined refrigerators 70, and those skilled in the art should be fully capable of setting up for other numbers of combined refrigerators 70 on the basis of understanding the present embodiment, and are not shown here.

A nip space exists between each refrigerator 70 of the combination refrigerators 70. The molding 10 may be provided in a nip space of the combination refrigerator 70 and may be installed in a nip space between the refrigerator 70 and a cabinet to enhance the installation integrity of the refrigerator 70.

In the process of installing the refrigerators 70, after each refrigerator 70 in the combined refrigerator 70 is fixed, the clip 200 of the molding 10 can be plugged into the gap space of the combined refrigerator 70, and the clip 320 of the shielding member 300 is clamped with the claw 520 of the connecting member 500, so that the installation of the combined refrigerator 70 can be completed, and the whole operation process is very simple.

In some alternative embodiments, the combination refrigerator 70 may further include a fastener for attaching the top end of the molding 10 to the refrigerator 70, so that the mounting stability of the molding 10 may be further enhanced.

The molding 10 of the present embodiment and the refrigerator 70 having the same, the molding 10 includes a clip 200, an adjusting member 400, and a shielding member 300. Wherein the clip 200 is configured to be disposed in the nip space in an expandable manner, and defines a cavity 210 therein. The adjustment member 400 may adjust the distance between the first end and the second end of the clip 200 such that the clip 200 expands to fit the nip space. The shielding member 300 is fixedly connected with the clip pocket 200 for shielding the outside of the nip space. In the installation process, the clip 200 can be supported against the wall surface of the gap space by expanding to support the shielding member 300 outside the gap space, so that the molding 10 of the embodiment can be directly fixed at the gap space, and is simple and easy to adjust. The molding 10 of the embodiment can reduce the installation difficulty of the device, improve the installation efficiency and save time and labor.

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

Claims

1. A molding for placement in a nip space, comprising:

the clamp bag is arranged in the crack space in an expandable mode, is hollow and cylindrical, and is internally limited with a cavity, and a first end section and a second end section are respectively formed at two ends of the cavity;

the plurality of clamping bags are uniformly distributed along the longitudinal interval;

the first end section and the second end section each extend longitudinally and are disposed opposite;

the cuff also has first and second longitudinally extending side walls connected between the first and second end sections, respectively, to define the cavity with the first and second end sections; the first side wall and the second side wall are mirror symmetry relative to a longitudinal central section of the clamp bag;

the adjusting piece sequentially passes through the first end section, the cavity and the second end section and is used for driving the first end section and the second end section to move in opposite directions so that the clamp bag expands to adapt to the gap space;

the shielding piece is fixedly connected with the clamping bag and is used for shielding the outer side of the gap space;

the shutter has a longitudinally extending shutter plate arranged on a side of the first end section facing away from the second end section; the longitudinal central section of the main body plate surface of the shielding plate is coplanar with the longitudinal central section of the clamping bag;

the main body panel of the shielding plate has an inner panel surface and an outer panel surface parallel to each other, the inner panel surface being opposite to the first end section;

the shield also has a catch extending from the inner panel face toward the first end section in a direction perpendicular to the main panel face of the shield;

the filler rod further comprises a connecting piece which is arranged between the first end section and the shielding plate and extends from the two transverse ends of the first end section, which are opposite to the second end section, towards the shielding plate so as to enclose a clamping cavity with the shielding plate, wherein the clamping tongue extends into the clamping cavity; a claw which is clamped with the clamping tongue is formed on the inner side of the clamping cavity;

two transverse ends of the shielding plate respectively protrude to one side of the inner plate surface to form a boss;

the connecting piece extends to the shielding plate at two sides of the clamping tongue to be abutted against the inner plate surface, and extends from the abutted position along the inner plate surface to be abutted against the inner side of the boss.

2. A molding as defined in claim 1, wherein,

the first side wall and the second side wall are arc-shaped plates; and is also provided with

The concave surface of the first side wall is opposite to the concave surface of the second side wall.

3. A molding as defined in claim 1, wherein,

a plurality of ribs are respectively formed on the outer wall surface of the first side wall and the outer wall surface of the second side wall so as to be abutted against the wall surface of the crack space;

the ribs extend longitudinally; and is also provided with

The plurality of ribs on the first side wall and the plurality of ribs on the second side wall are symmetrically distributed.

4. A molding as defined in claim 1, wherein,

the adjusting piece is a screw, and the central axis of the adjusting piece is positioned in the longitudinal central section of the clamp bag; and is also provided with

The first end section and the second end section are respectively provided with an optical hole into which the adjusting piece is screwed.

5. A molding as defined in claim 4, wherein,

the depth of the light hole is larger than a set threshold.

6. A refrigerator, comprising:

at least one molding according to any one of claims 1 to 5, for being disposed in a nip space between the refrigerator and an installation environment.