CN102384629B - Refrigerating equipment and shelving unit - Google Patents

Abstract

A kind of refrigerating equipment and shelving unit, described shelving unit is assemblied on the inner bag muscle of refrigerating equipment side wall of inner, comprise shelf, the framework of shelf both sides and keeper, described framework has the first relative side and the second side, relative first end and the second end, the surface of described second side is relative with described side wall of inner, and the surface of described second end is relative with described inner bag rear wall; First side of described framework has the first department of assembly coordinated with described shelf; Second side of described framework has the second department of assembly coordinated with described inner bag muscle; The first end of described framework is provided with the first Embedded Division, and described keeper comprises holding section, and described keeper embeds described first Embedded Division, and described holding section and described inner bag muscle fasten.Compared with prior art, shelving unit of the present invention is assemblied in the inner bag of refrigerating equipment, shelving unit is not easily rocked and is tumbled.

Description

Refrigerating equipment and shelving unit

Technical field

The present invention relates to technique of refrigeration, especially, the shelving unit relating to a kind of refrigerating equipment and be assemblied on inner bag muscle.

Background technology

Along with the development of science and technology, the structure of refrigerating equipment as refrigerator has a very large change, except common " simple gate refrigerator ", " two-door refrigerator ", have also appeared the product such as " side by side combination refrigerator ", " three open-door refrigerator " and " multi-door refrigerator ", and in order to food being placed in fresh-keeping chamber (refrigerating chamber) predetermined time, can arrange in the fresh-keeping chamber of refrigerator and multiplely put dish, food is placed on and put on dish.In general, on the sidewall respect to one another of inner container of icebox, can be provided with some equidistant inner bag muscle be arranged above and below, it is generally by the one-shot forming of deep-draw technique, wherein each is all positioned at inner bag muscle and is positioned on inner container of icebox sidewall respect to one another, and extends along the longitudinal direction.Then the mode being directly placed on inner bag muscle (namely supported by inner bag muscle and put dish) by putting dish is arranged in the inner bag of refrigerator, for placing food by putting to coil.Support by inner bag muscle the mode of dish of putting, make user can easily in the horizontal direction push-and-pull put dish storage food.

The design of putting dish is at present varied, Fig. 1 is that one of the prior art puts dish, the dish 1 of putting of prior art comprises glass plate 10 and framework 12, as shown in Figure 1, framework 12 is as the edge of the coated glass plate 10 of housing, framework 12 adopts injection molding, is mutually cemented between glass plate 10 and framework 12 by adhesion substances such as glue.

Usually, due to the needs of inner container of icebox vacuum forming, often the front and back end of inner bag has certain drafting angle.When therefore adopting the glass shelf dish of rectangle, the leading portion putting dish can rock greatly and easily due to the gap with side wall of inner and tumble, cause putting tumbling of dish to prevent from putting to coil due to rocking of putting that dish leading portion and refrigerator sidewall spacers cause greatly and staff false touch, raised structures 14 can be added, to reduce the gap of putting dish 1 and side wall of inner in the both sides of putting dish front end.In addition, for above-mentioned can before and after drawing and pulling type put dish 1, tumble in the process of pull to prevent putting dish 1, hook 16 can be equipped with near the part of refrigerator rear wall in the rear end of putting dish 1.

But for putting dish described in Fig. 1, first, adopting glue to bond glass plate 10 and framework 12 and making the two fixing mode and bad, this is because the glue that can reach aliment security level is not look for very well.Secondly, putting dish is that the environment being in low temperature and high humidity for a long time works, and in such a case, glue is easy to come unstuck, and causes the disengaging of glass plate 10 and framework 12.Moreover, in order to the dish of putting preventing the gap formed due to drafting angle from causing rocks, although add raised structures 14 in the both sides, front end of putting dish 1, but in actual production process, in order to needs attractive in appearance, described raised structures 14 can not make the projection height in close refrigerator doors direction a bit, away from the structure that the projection in refrigerator doors direction is lower, therefore, in fact the dish 1 of putting with above-mentioned raised structures 14 does not still reach the degree of fitting completely with refrigerator sidewall, therefore, put that dish rocks, hand false touch causes putting and coil the situation of tumbling and still exist.In addition, prevent putting dish 1 tumbling in push-and-pull process only by hook 16 and also there is certain defect, this is because to putting in the process of dish 1 push-and-pull, the area that hook 16 contacts with inner bag muscle is little, therefore, be difficult to avoid putting dish 1 completely can not tumble in push-and-pull process, and adopt hook 16 to prevent from putting tumbling unsightly of dish 1, and hook 16 easily ruptures.

At present in order to meet the needs in high-end refrigerator market, the framework putting dish no longer adopts the plastics in above-mentioned Fig. 1, but adopts metal to do framework.As shown in Figure 2, the another kind that Fig. 2 shows prior art puts dish 2, for simplicity, a part of putting in dish 2 is illustrate only in figure, metal framework 22 is for fastening glass panels 20, and in order to prevent putting in the process of dish at pull, article placed thereon drop and ensure the circulation of whole refrigerating chamber cold air, the rearward end branch of putting dish 2 near refrigerator rear wall is provided with steel wire bar 24, and described steel wire bar 24 is directly fixed in the cylindrical hole be integrated with metal framework 22.

But adopt aforesaid way steel wire bar 24 and metal framework 22 to be fixed, the contrast locating of steel wire bar 24 is more difficult, and steel wire bar 24 is once be fixed in metal framework 22, removes more difficult.

Chinese Patent Application No. is 00107237.4 disclose a kind of refrigerator and put dish, but it solves the problems of the technologies described above not yet.

In prior art, the framework putting dish adopts injection molding, is cemented between glass plate and framework by adhesion substances such as glue.The both sides of putting dish front end have raised structures, prevent from putting rocking of dish.The rear end of putting dish is provided with hook and prevents from carrying out, in the process of pull, putting tumbling of dish to putting dish.But adopt glue to bond between glass plate and framework, glass plate and framework are easy to depart from.And adopting raised structures to prevent from putting rocking of dish, the sidewall putting dish and inner bag can not be made to fit completely, put dish and still can rock, and adopt the anti-effect of turning over of hook bad, hook easily ruptures, unsightly.

And for adopt metal framework put dish for, steel wire bar is directly fixed on metal framework can cause steel wire bar dismounting difficulty, meanwhile, the contrast locating of steel wire bar on metal framework is more difficult.

Shelving unit of the present invention by keeper with framework, coordinating of inner bag muscle fix shelving unit, prevent rocking and tumbling of shelving unit; The first department of assembly by bottom being W connected in star, by shelf and framework compact siro spinning technology, prevents loosening of shelf; Not only arranged in the second department of assembly of groove-like by direct the second side at framework, coordinate with inner bag muscle, making can push-and-pull shelving unit but also can prevent tumbling of shelving unit in push-and-pull process; By connector, metallic rod is connected with shelving unit, prevents the uneven of circulating cold air in refrigerating chamber, also prevent dropping of in the process of push-and-pull shelf article placed thereon, and the installation of metallic rod, dismantle more convenient.

Fig. 3 shows a kind of structural representation of refrigerating equipment, and at this, described refrigerating equipment is described for desk refrigerator, but not as limit, other equipment with chilled goods function are all applicable, as antistaling cabinet etc.

As shown in Figure 3, refrigerator 3 comprises casing 30 and the door leaf 31 for forming storage space under the door state of pass with casing 30.Described casing 30 comprises shell 32, keeps inner bag 33 at regular intervals with shell 32, and described inner bag 33 comprises sidewall 330, rear wall 331.The sidewall 330 of inner bag 33 is provided with multiple inner bag muscle 332 stacked up and down, for supporting shelving unit 34 or drawer 35.Particularly, each inner bag muscle 332 can be that a whole piece is arranged on (as shown in Figure 3) on the sidewall 330 of inner container of icebox, also can form (not shown in the figures by an inner bag muscle being positioned at the length of refrigerator sidewall 330 rear end away from refrigerator door leaf 31 and a short inner bag muscle being positioned at refrigerator sidewall 330 front end, specifically can see Figure 13, the length that inner bag muscle is concrete and position are determined by other factors such as size of inner bag during actual design refrigerator).

Summary of the invention

The problem that the present invention solves is to provide a kind of shelving unit and refrigerating equipment, to solve the problem that in prior art, shelving unit is easily rocked and tumbled.

For solving the problems of the technologies described above, the invention provides a kind of shelving unit, be assemblied on the inner bag muscle of refrigerating equipment side wall of inner, described shelving unit comprises shelf, also comprises framework and the keeper of described shelf both sides,

Described framework has the first relative side and the second side, relative first end and the second end, the surface of described first end is connected the surface of described first side and the surface of the second side with the surface of the second end, the surface of described second side is relative with described side wall of inner, and the surface of described second end is relative with described inner bag rear wall;

First side of described framework has the first department of assembly coordinated with described shelf, and the side of described shelf is assemblied in the first department of assembly of described framework;

Second side of described framework has the second department of assembly coordinated with described inner bag muscle, and the second department of assembly of described framework is assemblied in described inner bag muscle;

The first end of described framework is provided with the first Embedded Division, and described keeper comprises holding section, and described keeper embeds described first Embedded Division, and described holding section and described inner bag muscle fasten.

Optionally, the surface of the first side of described framework or the surface of the second side are provided with the first locating hole near the surface of described first end, described keeper also comprises the first location division be connected with described holding section, described first location division has the first elastic portion, described first elastic portion is provided with the first projection, and described first projection coordinates with described first locating hole.

Optionally, the material of described keeper is plastics, and the material of described framework is aluminium alloy.

Optionally, described first department of assembly is first groove of bottom in W shape.

Optionally, described second department of assembly is second groove on the surface of through described second end, described framework by described second groove slidable fit in described inner bag muscle.

Optionally, also comprise metallic rod and connector, described connector embeds described second groove from the surface of described second end, and described connector has connecting hole, and described metallic rod is inserted in described connecting hole.

Optionally, described connector comprises connecting portion and the second location division, and described connecting portion is connected L-shaped with the second location division, and described connecting hole is located on described connecting portion.

Optionally, the surface of the first side of described framework or the surface of the second side are provided with the second locating hole near the surface of described second end, described second location division has the second elastic portion, and described second elastic portion is provided with the second projection, and described second projection coordinates with described second locating hole.

Optionally, the material of described connector is plastics.

For solving the problems of the technologies described above, the present invention also provides a kind of refrigerating equipment comprising above-mentioned shelving unit.

Compared with prior art, technique scheme has the following advantages:

Fix shelving unit by keeper, particularly, keeper embeds the first Embedded Division being located at framework first end, and the holding section of keeper and inner bag muscle fasten, and thus prevent rocking and tumbling of shelving unit.Further, for the inner bag with different drafting angle, different sizes can be designed to the holding section of keeper, make to reach real laminating between keeper and inner bag muscle.For the raised structures that the direct front end at framework of prior art is arranged, the mode of keeper is adopted to fix shelving unit, prevent rocking and tumbling of shelving unit better, and keeper be embedded into framework the first Embedded Division among, thus invisible, for raised structures, more attractive in appearance.

By arranging elastic portion on the positioning element and being positioned at the first projection in elastic portion, and the first locating hole coordinated with the first projection is set on framework, keeper and framework is fixed further, prevents rocking of shelving unit.

Make shelf can be convenient for assembly to framework by the first department of assembly be positioned on framework, and the first department of assembly is the groove of bottom in W shape, make shelf and framework can compact siro spinning technology, relative to prior art, without the need to re-using the glue with aliment security level, avoid by adhesion substances such as glue by framework and shelf bonding, under the environment of low temperature and moisture, glue easily comes off and causes the problem that framework and shelf depart from.

The second department of assembly coordinated with inner bag muscle is groove-like, increase the area contacted with inner bag muscle, also the effect preventing shelving unit from tumbling is served in the process of push-and-pull shelving unit, anti-turning over is linked up with in employing that is relative and prior art, its anti-better effects if of turning over, because the rear end noting be used in shelving unit arranges hook, also improve the aesthetics of shelving unit.Further, the second department of assembly is the groove of through second end surfaces, the second department of assembly and inner bag muscle is slidably matched, facilitates the push-and-pull of shelving unit, thus facilitates user and pick and place food.

By connector, metallic rod is connected with shelving unit, prevent the rear end of shelving unit and the intimate surface contact of refrigerating chamber rear wall, and cause the cold air circulated in refrigerating chamber to be subject to the obstruction of shelving unit, the food being placed on shelving unit rear end can not effectively be refrigerated, meanwhile, also prevent dropping of in the process of push-and-pull shelving unit article placed thereon.For metallic rod being directly fixed on framework of prior art, only needing metallic rod to extract from the connecting hole be arranged in connector connecting portion, just can dismantle metallic rod and clean.And by connector, metallic rod is fixed, the contrast locating of connecting hole is more convenient.

Accompanying drawing explanation

Fig. 1 is the schematic diagram that prior art puts dish;

Fig. 2 is the sectional perspective schematic diagram putting dish of prior art steel wire;

The structural representation of Fig. 3 refrigerating equipment;

Fig. 4 is the perspective exploded view of the shelving unit of the present invention one specific embodiment;

Fig. 5 is the close-up schematic view of the first department of assembly of the shelving unit of the present invention one specific embodiment;

Fig. 6 is the schematic perspective view of the keeper of the present invention one specific embodiment;

Fig. 7 is the cross section stereo schematic diagram that the keeper of the present invention one specific embodiment and inner bag muscle fasten;

Fig. 8 is the schematic perspective view of the shelving unit of the present invention one specific embodiment;

Fig. 9 is the perspective exploded view of the shelving unit of another specific embodiment of the present invention;

Figure 10 is the schematic perspective view of the connector of the shelving unit of another specific embodiment of the present invention;

Figure 11 is the sectional perspective schematic diagram that the connector of the shelving unit of another specific embodiment of the present invention embeds the second department of assembly;

Figure 12 is the schematic perspective view of the shelving unit of another specific embodiment of the present invention;

Figure 13 is the schematic diagram that the shelving unit of another specific embodiment of the present invention is assemblied in inner container of icebox muscle.

Detailed description of the invention

Embodiment one

Below in conjunction with Fig. 4 to Fig. 6, the shelving unit of the present embodiment is described in detail.

Fig. 4 is the three-dimensional exploded view of the shelving unit of the present embodiment, and as shown in Figure 4, shelving unit 4 is assemblied on the inner bag muscle of refrigerating equipment side wall of inner, and shelving unit 4 comprises shelf 40, the framework 41 of shelf 40 both sides and keeper 42.

Framework 41 has the first relative side 410 and the second side 412, relative first end 411 and the second end 413, the surface of first end 411 is connected the surface of the first side 410 and the surface of the second side 412 with the surface of the second end 413, the surface of the second side 412 is relative with side wall of inner, and the surface of the second end 413 is relative with inner bag rear wall;

First side 410 of framework 41 has the first department of assembly 414 coordinated with shelf 40, and the side of shelf 40 is assemblied in the first department of assembly 414 of framework 41.

In the present embodiment, the material of described framework 41 is preferably aluminium alloy because aluminium alloy is relatively light, intensity and hardness moderate, in other embodiments, the material of described framework 41 also can be hardness and moderate strength, light material.Described first department of assembly 414 can be a groove, the side of shelf 40 can be inserted therein, in order to shelf 40 and framework 41 compact siro spinning technology can be made, preferably described first department of assembly 414 for bottom be first groove (as shown in Figure 5) of W shape, the first department of assembly 414 that side and the bottom of shelf 40 have W connected in star tightens together.Therefore, without the need to framework 41 and shelf 40 being bonded by adhesion substances such as glue, and then avoid under the environment of low temperature and moisture, glue easily comes off and causes the disengaging of framework 41 and shelf 40.

Second side 412 of framework 41 has the second department of assembly 416 coordinated with inner bag muscle, and the second department of assembly 416 of framework 41 is assemblied in inner bag muscle.

Second department of assembly 416 described in the present embodiment is second groove on through second end 413 surface, and by being slidably matched of the second groove and inner bag muscle, shelving unit 4 along the direction slide anteroposterior of refrigerator sidewall, can facilitate user's taking and placing food.Meanwhile, the second department of assembly 416 adopts the structure of groove to increase the area contacted with inner bag muscle, is carrying out serving the effect preventing shelving unit 4 from tumbling in the process of push-and-pull to shelving unit 4.

The first end 411 of framework 41 is provided with the first Embedded Division 415, and keeper 42 comprises holding section 421, and keeper 42 embeds the first Embedded Division 415, and holding section 421 and inner bag muscle fasten.

Composition graphs 4 and Fig. 6, as indicated with 6, keeper 42 comprises holding section 421 to the stereogram of keeper 42 described in the present embodiment, described holding section 421 for inner bag muscle card and, prevent shelving unit 4 from rocking in refrigerator and tumbling.More firm in order to what make shelving unit 4 and inner bag muscle to engage, preferably, keeper 42 also comprises the first location division 422 be connected with holding section 421, still with reference to figure 6, the surface that in Fig. 6, the first location division 422 is relative with the second side 412 of framework 41 has the first elastic portion 423, first elastic portion 423 and be provided with the first projection 424; Continue composition graphs 6 and Fig. 4, the first projection 424 coordinates with the first locating hole 418, and described first locating hole 418, near first end 411 surface, is located at the surface of the second side 412 of framework 41.Described first locating hole 418 also can be near first end 411 surface in other embodiments, be located at the surperficial (not shown) of the first side 410 of framework 41, correspondingly, the first elastic portion and the first projection provided thereon are then arranged on the surface relative with the first side 410 of framework 41, the first location division 422.By being located at the cooperation of the first elastic portion 423 on the first location division 422 and the first projection 424, keeper 42 can be fixed on framework 41, again by the cooperation of holding section 421, keeper 42 and inner bag muscle are fitted closely, as shown in Figure 7, Fig. 7 shows the cross section stereo schematic diagram that keeper 42 closely engages with inner bag muscle, as can be seen from Figure, keeper 42 is embedded in the first Embedded Division 415, holding section 421 and inner bag muscle block mutually and, make shelving unit 4 be close to inner bag muscle, prevent rocking and tumbling of shelving unit 4.In the present embodiment, the material of keeper 42 is plastics, and plastics cost is lower, and plasticity is relatively good.In addition, due to keeper 42 be embedded into framework 41 the first Embedded Division 415 among, therefore keeper 42 is invisible, and therefore, whole shelving unit 4 is more attractive in appearance.

Fig. 8 is the stereogram of the shelving unit 4 of the present embodiment, and composition graphs 4, Fig. 6 and Fig. 8 can be clear that, for the installation of shelving unit 4, first, is fixed on framework 41 by the first department of assembly 414 being positioned at framework 41 by the both sides of the edge of shelf 40; Then, the framework 41 being equipped with shelf 40 is assemblied in the side wall of inner (not shown) of refrigerator, makes inner bag muscle insert the second department of assembly 416 of groove-like; Again keeper 42 is embedded in the first Embedded Division 415, fasten with the first locating hole 418 being located at the second surface, side 412 near first end 411 surface by being positioned at the first projection 424 on keeper 42, keeper 42 is fixed on framework 41, the holding section 421 of keeper 42 engages closely with inner bag muscle simultaneously, makes firm being assemblied on inner bag muscle of whole shelving unit 4 thus.

In addition, be only described above-mentioned shelving unit 4 for the side of shelf 41 in the present embodiment, for the opposite side of shelf 40, its assembling with framework 41 and engage same as described above with inner bag muscle, repeats no more herein.

Embodiment two

Fig. 9 is the three-dimensional exploded view of the shelving unit of the present embodiment, and as shown in Figure 9, shelving unit 5 comprises shelf 50, the framework 51 of shelf 50 both sides, keeper 52, metallic rod 53 and connector 54.

In order to the back wall surface close contact of the rear end and refrigerating chamber that prevent shelving unit 5, and cause the cold air circulated in refrigerating chamber to be subject to the obstruction of shelving unit 5, the food being placed on shelf 50 rear end can not effectively be refrigerated, also in order to prevent dropping of in the process of push-and-pull shelving unit 5 article placed thereon, the present embodiment adds metallic rod 53 and connector 54 on the basis of above-described embodiment one.

With reference to figure 9, framework 51 has the first relative side 510 and the second side 512, relative first end 511 and the second end 513, the surface of first end 511 is connected the surface of the first side 510 and the surface of the second side 512 with the surface of the second end 513, the surface of the second side 512 is relative with side wall of inner, and the surface of the second end 513 is relative with inner bag rear wall; First side 510 of framework 51 has the first department of assembly 514 coordinated with shelf 50, and the side of shelf 50 is assemblied in the first department of assembly 514 of framework 51; Second side 512 of framework 51 has the second department of assembly 516 coordinated with inner bag muscle, and the second department of assembly 516 of framework 51 is assemblied in inner bag muscle.

The structure of keeper 52 and shelf 50 and framework 51, assembling mode between keeper 52 and framework 51 are identical with embodiment one, repeat no more herein.Shelving unit 5 below for above-mentioned metallic rod 53 and connector 54 pairs of the present embodiment illustrates accordingly.

Composition graphs 9 to Figure 11, connector 54 embeds the second department of assembly 516 from the surface of the second end 513, in the present embodiment, the second department of assembly 516 is the groove on through second end 513 surface, connector 54 has connecting hole 543 (see Figure 11), and described metallic rod 53 is inserted in described connecting hole 543.In order to make to fix better between connector 54 and framework 51, preferably, as shown in Figure 10, connector 54 comprises connecting portion 541 and the second location division 542, connecting portion 541 is connected L-shaped with the second location division 542, and connecting hole 543 is located at (see Figure 11) on connecting portion 541.The surface that second location division 542 is relative with the second side 512 of framework 51 has the second elastic portion 544, second elastic portion 544 to be provided with the second projection 545, second projection 545 and to coordinate with the second locating hole 520.

Still with reference to figure 9, described in the present embodiment, the second locating hole 520 is near the surface of the second end 513, is located at the surface of the second side 512 of framework 51.Described second locating hole 520 also can near the surface of the second end 513 in other embodiments, be located at the surperficial (not shown) of the first side 510 of framework 51, correspondingly, the second elastic portion and the second projection provided thereon are then arranged on the surface relative with the first side 510 of framework 51, the second location division 542.With reference to Figure 10 and Figure 11, by being located at the cooperation of the second elastic portion 544 on the second location division 542 and the second projection 545, connector 54 can be fixed on framework 51, and metallic rod 53 is then fixed together with connector 54 by inserting the connecting hole 543 being arranged in connecting portion 541.When needs clean metallic rod 53, only need the connecting hole 543 of metallic rod 53 from the connecting portion 541 being arranged in connector 54 to extract, just can metallic rod 53 be dismantled and be cleaned.And by adopting the connecting hole 543 pairs of metallic rod 53 be located on connector 54 to be fixed, the contrast locating of connecting hole 543 is more convenient.

Composition graphs 9 to Figure 11 can be clear that, for the installation by metallic rod 53 and connector 54, first by the second projection 545 be located on the second location division 542 of connector 54, connector 54 and framework 51 are fastened, and then metallic rod 53 insertion is located among the connecting hole 543 on the connecting portion 541 of connector 54.

The process being assemblied in inner container of icebox muscle below in conjunction with the shelving unit 5 of Fig. 9 to Figure 13 to the present embodiment is described.

Figure 12 gives the stereogram of shelving unit 5, and it is assembled in the following manner.First, the both sides of the edge of shelf 50 are fixed on the first department of assembly 514 of framework 51, then, connector 54 is embedded the second department of assembly 516 from the second end 513 of framework 51, and the second projection 545 on the second location division 542 of connector 54 is fastened with the second locating hole 520 of framework 51, then metallic rod 53 is inserted in the connecting hole 543 on connector 54, then, shelf 50 will be equipped with, the framework 51 of connector 54 and metallic rod 53 is assemblied on the side wall of inner of refrigerator, as shown in figure 13, inner bag muscle 60 is made to insert the second department of assembly 516 of groove-like, arbitrary the inner bag muscle be positioned in the present embodiment on refrigerator sidewall forms by two parts, first be slidably matched with the second department of assembly 516 in groove-like near the inner bag muscle 60 of refrigerator rear wall in Figure 13, slowly embed among groove, next keeper 52 is embedded among the first Embedded Division 515, and the first locating hole 518 of the first projection making to be positioned on keeper 52 and framework 51 fastens, keeper 52 is made to be fixed on framework 51, continue to push away shelving unit 5, until the holding section of keeper 52 fastens with the inner bag muscle 61 away from refrigerator rear wall.So far, whole shelving unit 5 is assemblied on inner bag muscle.

In sum, the shelving unit that the embodiment of the present invention provides, adopts the mode embedding keeper to fix the sidewall of shelving unit and inner bag, prevents rocking and tumbling of shelving unit.

And, for the inner bag of different drafting angle, the keeper of different size can be designed, make between keeper and side wall of inner, to reach real laminating.Because keeper is embedded among framework, more attractive in appearance.

The first department of assembly on framework adopts bottom in the groove of W shape, makes shelf and framework can compact siro spinning technology, prevents the loosening of shelf.

The second department of assembly on framework is groove-like, makes in the process of push-and-pull shelving unit, serve the effect preventing shelving unit from tumbling.

Connector is adopted metallic rod to be connected with shelving unit, the food being placed on shelving unit rear end can effectively be refrigerated, meanwhile, also prevent dropping of in the process of push-and-pull shelving unit article placed thereon, and to the location of metallic rod and dismounting and cleaning more convenient.

Although the present invention with preferred embodiment openly as above; but it is not for limiting the present invention; any those skilled in the art without departing from the spirit and scope of the present invention; can make possible variation and amendment, the scope that therefore protection scope of the present invention should define with the claims in the present invention is as the criterion.

Claims (10)

1. a shelving unit, be assemblied on the inner bag muscle of refrigerating equipment side wall of inner, described shelving unit comprises shelf, it is characterized in that, also comprises framework and the keeper of described shelf both sides,

Described framework has the first relative side and the second side, relative first end and the second end, the surface of described first end is connected the surface of described first side and the surface of the second side with the surface of the second end, the surface of described second side is relative with described side wall of inner, and the surface of described second end is relative with described inner bag rear wall;

First side of described framework has the first department of assembly coordinated with described shelf, and the side of described shelf is assemblied in the first department of assembly of described framework;

Second side of described framework has the second department of assembly coordinated with described inner bag muscle, and the second department of assembly of described framework is assemblied in described inner bag muscle;

The first end of described framework is provided with the first Embedded Division, and described keeper comprises holding section, and described keeper embeds described first Embedded Division, and described holding section and described inner bag muscle fasten.

2. shelving unit as claimed in claim 1, it is characterized in that, the surface of the first side of described framework or the surface of the second side are provided with the first locating hole near the surface of described first end, described keeper also comprises the first location division be connected with described holding section, described first location division has the first elastic portion, described first elastic portion is provided with the first projection, and described first projection coordinates with described first locating hole.

3. shelving unit as claimed in claim 1, it is characterized in that, the material of described keeper is plastics, and the material of described framework is aluminium alloy.

4. shelving unit as claimed in claim 1, is characterized in that, described first department of assembly is first groove of bottom in W shape.

5. shelving unit as claimed in claim 1, it is characterized in that, described second department of assembly is second groove on the surface of through described second end, described framework by described second groove slidable fit in described inner bag muscle.

6. shelving unit as claimed in claim 5, is characterized in that, also comprise metallic rod and connector, and described connector embeds described second groove from the surface of described second end, and described connector has connecting hole, and described metallic rod is inserted in described connecting hole.

7. shelving unit as claimed in claim 6, it is characterized in that, described connector comprises connecting portion and the second location division, and described connecting portion is connected L-shaped with the second location division, and described connecting hole is located on described connecting portion.

8. shelving unit as claimed in claim 7, it is characterized in that, the surface of the first side of described framework or the surface of the second side are provided with the second locating hole near the surface of described second end, described second location division has the second elastic portion, described second elastic portion is provided with the second projection, and described second projection coordinates with described second locating hole.

9. shelving unit as claimed in claim 6, it is characterized in that, the material of described connector is plastics.

10. one kind comprises the refrigerating equipment of shelving unit described in any one of claim 1 to 9.