CN213687405U - Ice box set and ice box thereof - Google Patents

Abstract

The utility model relates to an ice making box field especially relates to an ice box suit and ice box thereof. An ice box comprises a box body; the method is characterized in that: the box cavity of the box body is at least internally provided with a first storage cavity for accommodating tweezers and a second storage cavity for forming and/or accommodating ice blocks; the first storage cavity at least comprises two sections of first accommodating areas, and the two sections of first accommodating areas are respectively used for accommodating two clamping arms of the tweezers in an open state; the second storage cavity is positioned between the two sections of the first containing areas of the first storage cavity. The ice box is provided with the first storage cavity for accommodating tweezers, and the space layout utilization rate is maximized.

Description

Ice box set and ice box thereof

Technical Field

The utility model relates to an ice making box field especially relates to an ice box suit and ice box thereof.

Background

The ice-making box in the prior art has two modes, wherein the first scheme is the traditional ice-making box, ice grids are arranged on the ice-making box, a refrigerator is placed after drinking water is added, and the shape of the formed ice blocks is limited by the ice grids; such conventional ice cubes are made of water, so that they are put in wine or beverage to melt, making the taste of the beverage light and affecting the taste. The second scheme adopts stainless steel ice blocks, namely stainless steel ice particles, which are called steel ice for short; the surface of the novel stainless steel ice block is made of 304 stainless steel, and the novel stainless steel ice block cannot be dissolved into water to influence the taste. The special freezing liquid is filled in the ice block, and the freezing quantity is more durable than that of the traditional ice block. The physical cooling principle is adopted, the water-based paint can be recycled for unlimited times, and is easy to clean; the harm to human body caused by ice blocks made from unclean water source is completely avoided.

The ice making box adopting the two modes needs to be clamped by a tool-tweezers after ice cubes are made so as to ensure the sanitary condition. However, most of the existing ice boxes are not provided with tweezers and need to be purchased additionally. And the ice box partially provided with the tweezers is also provided with different storage containers for storage. The size of the clamping opening of the tweezers is larger than that of the ice block in a natural state, so that the tweezers are large in general size; the ice box is simply provided with a containing area for storing tweezers, so that the volume of the ice box is increased; it is therefore necessary to consider how to store the tweezers and how to arrange them to maximize space utilization.

Disclosure of Invention

In order to solve the above problem, a first object of the present invention is to provide an ice box, which is provided with a first storage chamber for accommodating tweezers, and which achieves the maximum space layout utilization.

A second object of the present invention is to provide an ice box set, which has the above structure and function.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an ice box comprises a box body; the method is characterized in that: the box cavity of the box body is at least internally provided with a first storage cavity for accommodating tweezers and a second storage cavity for forming and/or accommodating ice blocks; the first storage cavity at least comprises two sections of first accommodating areas, and the two sections of first accommodating areas are respectively used for accommodating two clamping arms of the tweezers in an open state; the second storage cavity is positioned between the two sections of the first containing areas of the first storage cavity.

The utility model adopts the technical scheme, which relates to an ice box; the ice box is provided with a first storage cavity for storing the tweezers, and in consideration of the requirement of maximizing the shapes of the tweezers and the utilization rate of the spatial layout, the first storage cavity in the scheme at least comprises two sections of first storage areas, and the first storage areas are used for storing clamping arms of the tweezers in an open state. The scheme adopts a mode of transversely accommodating the tweezers to replace a mode of arranging a single accommodating groove to accommodate the tweezers longitudinally in the traditional scheme, and compared with the mode that the thickness of the ice box can be smaller; the second storage cavity for forming and/or storing the ice blocks is further arranged between the two sections of the first storage areas of the first storage cavity, so that the tweezers can be stored by only increasing a small space outside the second storage cavity.

Preferably, the first storage cavity further comprises a second receiving area for receiving the connecting part of the tweezers; the first storage cavity formed by the first storage area and the second storage area is arranged around the periphery of the second storage cavity.

Preferably, two ends of the second accommodating area are respectively communicated with two sections of the first accommodating areas; or the second containing area is positioned at the end parts of the two sections of the first containing areas and is separated from the two sections of the first containing areas. In the above technical solution, considering that the first storage cavity is used for storing the tweezers, and two clamping arms of the tweezers need to be connected through the connecting part, the first storage cavity in the solution is further provided with a second storage area, considering that the clamping arms and the connecting part of the tweezers can be connected integrally or detachably, two ends of the second storage area in the solution can be respectively communicated with the two first storage areas, and can also be arranged separately; but preferably in a communicating arrangement.

Preferably, the first storage chamber is U/V shaped and the second storage chamber is between two U/V arms on the first storage chamber. In the scheme, the first storage cavity is limited to be U-shaped or V-shaped, the first storage cavity in the U/V shape is used for storing tweezers, and the second storage cavity for forming and/or storing ice blocks is arranged between the two U-shaped arms on the first storage cavity; therefore, the tweezers can be stored by only increasing a small space outside the second storage cavity.

Preferably, the box body comprises a base and a top cover which is hinged/detachably connected to the base; the first storage cavity and the second storage cavity are both located on the base, and the top cover can seal the first storage cavity and the second storage cavity when covering on the base. The box body in the scheme adopts a base and a top cover, and the top cover and the base can be used for storing or taking ice cubes when being separated; the top cover covers the base, and the ice cubes and the tweezers on the inner wall are stored in a sealed mode and can be used for making ice or carrying.

Preferably, the box body comprises a shell and a base movably arranged in the shell in a drawing manner; the first storage cavity and the second storage cavity are both located on the base, and when the base is completely pushed into the shell, the first storage cavity and the second storage cavity are arranged in a closed mode. The scheme is a box body structure with another box opening mode as shown in the figure, and the scheme adopts a drawing mode to open or close the box body; when the ice cube is taken out, the ice cube can be stored or taken, and when the ice cube is pushed in, the ice cube and the tweezers on the inner wall can be sealed and stored for making ice or carrying.

Preferably, an opening is arranged on at least one side wall of the shell; the end part of the base is provided with an end plate, and the base can be drawn out of or pushed into the shell through the opening; when the base is pushed completely into the housing, the end plate closes the opening. This solution further defines the way of drawing and the way of sealing engagement of the casing and the base on the basis of the second above-mentioned case-opening solution.

Preferably, a sliding groove arranged along the drawing direction of the base is arranged at one of the outer wall of the base and the side wall of the shell, and a sliding block positioned in the sliding groove is arranged at the other position. In this scheme, through the cooperation of spout and slider, direction when realizing the relative shell pull of base or pushing in guarantees that whole process is more smooth and easy. Furthermore, the maximum position of the base relative to the shell when the base is drawn out can be limited by taking the sliding block as a reference; namely, when the slide block moves to the outermost end of the slide groove, the slide block can abut against the side wall of the slide groove, so that the slide block cannot be separated from the slide groove.

Preferably, the second storage cavity is formed by a coaming and a plurality of clapboards which are integrally connected with the inner wall of the box body in a separating way; a plurality of baffles are arranged in the coaming, and the baffles, the adjacent coaming side walls or the inner wall of the box body and the storage unit are formed between the two adjacent baffles. In the technical scheme, the second storage cavity is integrally formed on the inner wall of the box body and is formed by enclosing a surrounding plate and a plurality of partition plates. Therefore, in the scheme, if the scheme I is adopted for ice making, the whole ice box needs to be placed in a refrigerator, and the ice box can also be used as a container for carrying; however, when the scheme two is used for making ice, the stainless steel ice blocks can be independently placed into the refrigerator, and the ice box is only used as a container when the refrigerator is carried; of course, the whole ice box can be placed in the refrigerator in consideration of the sanitary requirements of the stainless steel ice blocks.

Preferably, the box cavity of the box body is internally detachably connected with an inner box body, and the second storage cavity is arranged in the inner box body. In the technical scheme, the second storage cavity is arranged in a detachable inner box body. Therefore, the inner box can be detached and placed into the refrigerator no matter in the first scheme and the second scheme; in the first scheme, the detachable inner box can ensure that the whole ice box is not needed in the ice block forming process, and the box body and the tweezers therein are not needed to be placed in the ice chest; further, the inner box can be arranged into an inner base and an inner cover, so that the forming shape of the ice cubes can be ensured. In the second scheme, the stainless steel ice blocks can be independently placed into the refrigerator, but the inner box and the stainless steel ice blocks are placed into the refrigerator together; the whole body can be taken conveniently and the sanitary effect is improved.

An ice box set comprises an ice box and tweezers; the ice box is the ice box as described above, and the tweezers are placed in the first storage cavity of the ice box. The ice box set defined by the scheme can adopt two ice making modes of the existing scheme I and the scheme II.

Preferably, the stainless steel ice cube storage device further comprises a plurality of stainless steel ice cubes, and the stainless steel ice cubes are placed in the second storage cavity. The ice box set limited by the scheme adopts the ice making mode of the second scheme.

Drawings

Fig. 1 is a schematic view of the storage state of the ice bin structure in embodiment 1.

Fig. 2 is a schematic view showing an opened state of the ice bank structure in embodiment 1.

Fig. 3 is a schematic view of the sliding fit of the ice bin structure in embodiment 1.

Fig. 4 is a diagram showing an opened state of the ice box set in embodiment 2.

Fig. 5 is a schematic view showing that the stainless steel ice cubes and tweezers in example 2 are received on the base.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example 1:

as shown in FIGS. 1 to 3, the present embodiment relates to an ice box, which includes a box body 1. The box cavity of the box body 1 is at least provided with a first storage cavity 2 for accommodating tweezers 4 and a second storage cavity 3 for forming and/or accommodating ice blocks. The structure and the opening mode of the box body 1 can adopt at least two types as follows:

mode 1 (this scheme is omitted), the box body 1 comprises a base and a top cover which is hinged/detachably connected to the base. First storage chamber 2 and second storage chamber 3 all are in on the base, can seal when the top cap lid closes on the base first storage chamber 2 and second storage chamber 3. The box body 1 in the scheme adopts a base and a top cover, and the top cover and the base can be used for storing or taking ice cubes when being separated. The top cover covers the base, and the ice cubes and the tweezers 4 on the inner wall are stored in a sealed mode and can be used for making ice or carrying.

Mode 2 (this solution is shown in fig. 2 and 3), the box 1 includes a housing 11, and a base 12 movably drawn and disposed in the housing 11. First storage chamber 2 and second storage chamber 3 all are in on base 12, and when base 12 pushed completely in shell 11, first storage chamber 2 and second storage chamber 3 seal the setting. This solution uses a pull-out to open or close the case 1. When the ice cube is taken out, the ice cube can be stored or taken, and when the ice cube is pushed in, the ice cube and the tweezers 4 on the inner wall can be sealed and stored for making ice or carrying.

In a further preferred version of this embodiment, the housing 11 is provided with an opening 13 on at least one side wall. The end of the base 12 is provided with an end plate 14, and the base 12 can be drawn out of or pushed into the housing 11 through the opening 13. When the base 12 is pushed completely into the housing 11, the end plate 14 closes the opening 13. This solution further defines the way in which the housing 11 and the base 12 are drawn and sealingly engaged on the basis of the second opening solution described above. As shown in the drawing, a handle 17 is further provided on the end plate 14 of the base 12 to facilitate the extraction of the base 12. Furthermore, a sliding groove 15 arranged along the drawing direction of the base 12 is arranged on one of the outer wall of the base 12 and the side wall of the housing 11, and a sliding block 16 positioned in the sliding groove 15 is arranged on the other position. This scheme is through the cooperation of spout 15 and slider 16, realizes the direction when base 12 draws or pushes in relative shell 11, guarantees that whole process is more smooth and easy. Furthermore, the slider 16 can be used as a reference to define the maximum position of the base 12 when being drawn out relative to the housing 11; i.e. when the sliding block 16 moves to the outermost end of the sliding slot 15, it can abut against the side wall of the sliding slot 15, so that the sliding block 16 will not be separated from the sliding slot 15. In addition, the sliding slot 15 may penetrate through the side wall of the housing 11, as shown in fig. 3; or may be provided only on the inner end surface of the side wall of the housing 11 but not penetrating the housing 11.

Under the above scheme, the first storage cavity 2 includes a second receiving area 22 and two first receiving areas 21, the second receiving area 22 is used for receiving a connecting portion 41 of the forceps 4, the connecting portion 41 is a connecting position of two clamping arms of the forceps 4, and the two first receiving areas 21 are respectively used for receiving two clamping arms 42 of the forceps 4 in an open state. Two ends of the second receiving area 22 are respectively communicated with the two sections of the first receiving areas 21, or the second receiving area 22 is located at the end of the two sections of the first receiving areas 21 and is separated from the two sections of the first receiving areas 21. In the above technical solution, considering that the first storage cavity 2 is used for storing the tweezers 4, and the two clamping arms 42 of the tweezers 4 need to be connected through the connecting portion 41, the first storage cavity 2 in this solution is further provided with the second storage area 22, considering that the clamping arms 42 and the connecting portion 41 of the tweezers 4 can be connected integrally or detachably, two ends of the second storage area 22 in this solution can be respectively communicated with the two first storage areas 21, or can be separately arranged. However, in a preferred embodiment, the second receiving area 22 is communicated with the two first receiving areas 21; the forceps 4 housed at this time is of an integral structure and does not need to be detached.

The forceps 4 in the above solution may be of a conventional U-shape, V-shape or scissor-fork shape, but in a further preferred solution of the above solution the first reservoir 2 is of a U/V-shape, the second reservoir 3 being located between two U/V-shaped arms on the first reservoir 2. In the above-described embodiment, the first storage chamber 2 is defined to have a U-shape or a V-shape, the first storage chamber 2 having the U/V-shape is used for storing tweezers 4, and the second storage chamber 3 for forming and/or storing ice cubes is disposed between two U-shaped arms on the first storage chamber 2. Therefore, the tweezers 4 can be accommodated in the second storage cavity 3 with a small space.

In addition, the second storage chamber 3 is located between two sections of the first receiving areas 21 of the first storage chamber 2; the first storage cavity 2 formed by the first receiving area 21 and the second receiving area 22 is disposed around the periphery of the second storage cavity 3. The ice box is provided with a first storage cavity 2 for accommodating tweezers 4, and in consideration of the requirement of maximizing the shape and space layout utilization rate of the tweezers 4, the first storage cavity 2 in the scheme at least comprises two sections of first accommodating areas 21, and the first accommodating areas 21 are used for accommodating clamping arms 42 of the tweezers 4 in an open state. This scheme adopts the mode of transversely accomodating tweezers 4 to replace the mode of setting up single storage groove and vertically accomodating tweezers 4 in traditional scheme, and the thickness that compares can make is less of ice chest. Further, the second storage chamber 3 for forming and/or storing ice is disposed between the two sections of the first storage areas 21 of the first storage chamber 2, so that the tweezers 4 can be stored by only adding a small space outside the second storage chamber 3.

As shown in fig. 2, the second storage chamber 3 is formed by a surrounding plate 31 integrally connected to the inner wall of the box body 1 and a plurality of partitions 32. A plurality of partition plates 32 are arranged in the enclosing plate 31, and the partition plates 32 and the side walls of the adjacent enclosing plate 31 or the inner wall of the box body 1 as well as the storage units 33 are formed between two adjacent partition plates 32. In the technical scheme, the second storage cavity 3 is integrally formed on the inner wall of the box body 1 and is formed by enclosing a coaming 31 and a plurality of partition plates 32. If the scheme I is adopted, the whole ice box needs to be placed in a refrigerator when ice is made, and the ice box can also be used as a container when the ice box is carried. However, when the second scheme is used for making ice, stainless steel ice blocks can be independently placed in the refrigerator, and the ice box is only used as a container when the refrigerator is carried. Of course, the whole ice box can be placed in the refrigerator in consideration of the sanitary requirements of the stainless steel ice blocks.

Except that in above-mentioned scheme, the structure that still a cost is high but the user of being convenient for uses slightly, promptly box body 1 in can dismantling the connection to the box intracavity portion of box body 1, box body 1 including the setting of second storage chamber 3. In this solution, the second storage chamber 3 is arranged in a removable inner shell 1. Therefore, the inner box can be detached to be used in a refrigerator in both the first scheme and the second scheme. In the first scheme, the detachable inner box can ensure that the whole ice box is not needed in the ice block forming process, and the box body 1 and the tweezers 4 in the box body do not need to be placed in the ice chest. Further, the inner box can be arranged into an inner base and an inner cover, so that the forming shape of the ice cubes can be ensured. Scheme two can be along with putting into the freezer alone with the stainless steel ice-cube alone, but in this scheme put into the freezer with interior box and stainless steel ice-cube together, more be favorable to wholly taking, also more sanitary.

Finally, in the present embodiment, "the second storage chamber 3 is used for forming and/or storing ice cubes"; the term "shaping" means that the second storage chamber 3 has a function of shaping the shape of the ice cubes, as in the first embodiment, the shape of the inner cavity of the second storage chamber 3 defines the shape of the ice cubes; "storage" means that the ice bin serves as a container for ice cubes after the ice cubes are formed, and the second storage chamber 3 is a specific placement position for the ice cubes. Since the scheme of the above embodiment 1 is compatible with the ice cube forming method of the first and second schemes, the second storage chamber 3 can be used for "forming" or "storing" alone, and also can be used for "forming and storing".

Example 2:

the embodiment relates to an ice box set, which comprises an ice box and tweezers 4. The ice box is the ice box as described above, and the tweezers 4 are placed in the first storage cavity 2 of the ice box. The ice box set defined by the scheme can adopt two ice making modes of the existing scheme I and the scheme II (the scheme I and the scheme II are described in the background technology). In a further preferred embodiment, as depicted in FIGS. 4 and 5; the ice box set in the scheme comprises an ice box and tweezers 4; the stainless steel ice cube storage device further comprises a plurality of stainless steel ice cubes 5, and the stainless steel ice cubes 5 are placed in the second storage cavity 3. The ice box set defined in the preferred scheme adopts the ice making mode of the second scheme.

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

Although embodiments of the present invention have been shown and described, it is to be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the principles and spirit of the present invention.

Claims (12)

1. An ice box comprises a box body (1); the method is characterized in that: the box cavity of the box body (1) is at least internally provided with a first storage cavity (2) for accommodating tweezers (4) and a second storage cavity (3) for forming and/or accommodating ice blocks; the first storage cavity (2) at least comprises two sections of first accommodating areas (21), and the two sections of first accommodating areas (21) are respectively used for accommodating two clamping arms (42) of the tweezers (4) in an open state; the second storage chamber (3) is located between two sections of the first receiving areas (21) of the first storage chamber (2).

2. An ice bin according to claim 1, wherein: the first storage cavity (2) further comprises a second receiving area (22), and the second receiving area (22) is used for receiving a connecting part (41) of the tweezers (4); the first storage cavity (2) formed by the first storage area (21) and the second storage area (22) is arranged around the periphery of the second storage cavity (3).

3. An ice bin according to claim 2, wherein: two ends of the second containing area (22) are respectively communicated with two sections of first containing areas (21); or the second containing area (22) is positioned at the end part of the two sections of the first containing areas (21) and is separated from the two sections of the first containing areas (21).

4. An ice bin according to claim 2, wherein: the first storage cavity (2) is U/V-shaped, and the second storage cavity (3) is positioned between two U/V-shaped arms on the first storage cavity (2).

5. An ice bin according to claim 1, wherein: the box body (1) comprises a base and a top cover which is hinged/detachably connected to the base; the first storage cavity (2) and the second storage cavity (3) are both located on the base, and the first storage cavity (2) and the second storage cavity (3) can be sealed when the top cover covers the base.

6. An ice bin according to claim 1, wherein: the box body (1) comprises a shell (11) and a base (12) movably arranged in the shell (11) in a drawing mode; first storage chamber (2) and second storage chamber (3) all are in on base (12), and when base (12) pushed completely in shell (11), first storage chamber (2) and second storage chamber (3) seal the setting.

7. An ice bin according to claim 6, wherein: an opening (13) is formed in at least one side wall of the shell (11); an end plate (14) is arranged at the end part of the base (12), and the base (12) can be drawn out from the opening (13) or pushed into the shell (11); when the base (12) is pushed completely into the housing (11), the end plate (14) closes the opening (13).

8. An ice bin according to claim 7, wherein: in the outer wall of base (12) and the lateral wall of shell (11), be equipped with spout (15) that set up along base (12) pull direction in one of them department, be equipped with in another department be in slide block (16) in spout (15).

9. An ice bin according to claim 1, wherein: the second storage cavity (3) is formed by a coaming (31) and a plurality of partition plates (32) which are integrally connected to the inner wall of the box body (1) in a separated manner; a plurality of clapboards (32) are arranged in the enclosing plates (31), and the clapboards (32) and the side walls of the adjacent enclosing plates (31) or the inner wall of the box body (1) as well as the containing units (33) are formed between the two adjacent clapboards (32).

10. An ice bin according to claim 1, wherein: the box intracavity portion of box body (1) can be dismantled and be connected with interior box body, and second storage chamber (3) sets up in the box body including.

11. An ice box set comprises an ice box and tweezers (4); the method is characterized in that: the ice box is according to any one of claims 1-10, wherein the tweezers (4) are placed in the first storage chamber (2) of the ice box.

12. An ice box set according to claim 11, wherein: the stainless steel ice cube storage device is characterized by further comprising a plurality of stainless steel ice cubes (5), and the stainless steel ice cubes (5) are placed in the second storage cavity (3).

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