CN202828341U - Refreshment container - Google Patents

Abstract

The utility model provides a refreshment container capable of being piled. The refreshment container comprises a container body and a cover body. A meshing structure is arranged on the surface of the cover body, a clamp position structure is arranged at the bottom of the container body, and the clamp position structure is matched with the meshing structure and is attached to the meshing structure. Floating points are further arranged on the surface of the cover body, and a trace formed by arranging the floating points corresponds to the position of the clamp position structure. The refreshment containers are placed together, even the refreshment containers are inclined a certain angle, the refreshment containers cannot be laterally shifted, and improvement of a space utilization rate is facilitated. Simultaneously, due to the fact that the floating points are arranged on the surface of the cover body, abrasion of the bottom of an upper-layer container to the surface of the cover body of a lower-layer container can be avoided during piling, and maintenance of appearance attractiveness of the surface of the cover body is facilitated.

Description

A kind of antistaling container

One, technical field

The utility model relates to a kind of container, especially relates to a kind of container of fresh-keeping usefulness.

Two, background technology

It is one of important content of the modern life that food fresh keeping and medicine are preserved.Preserving quality and space service efficiency is directly connected to environment, health and saves the energy.

Along with improving constantly of masses' living standard, to environmental protection with energy-conservationly more and more pay attention to, the container of pure pottery or glass will be subjected to everybody welcome very much.People can use relievedly, deposit and heat in micro-wave oven, and do not worry because the release of objectionable impurities damages health and to environment.But the antistaling container of this material is very level and smooth, and its lid also is level and smooth usually, does not have anti-skid structure, causes can not firmly agree with between the antistaling container or stacking, usually can only deposit by individual layer, and this greatly reduces space availability ratio.

Three, summary of the invention

The shortcoming that can not stack in order to overcome above-mentioned existing antistaling container, the utility model provides a kind of antistaling container that can be stacking, and this antistaling container is stacked together, even tilt certain angle, sidesway can not occur in antistaling container yet, is conducive to improve space availability ratio; The floating-point of some is set in top surface simultaneously, can prevents that when stacking, the bottom of upper strata container produces wearing and tearing to the top surface of lower floor's container, is conducive to keep the attractive in appearance of top surface.

The purpose of this utility model is achieved through the following technical solutions:

A kind of antistaling container comprises vessel, lid, and described top surface is provided with occlusion structure, and described vessel bottom is provided with retaining structure, and described retaining structure and occlusion structure are suitable, just fit together fully.

Foregoing antistaling container, described occlusion structure are the graininess projections, and described retaining structure is strip projected parts or concave regions, and when occlusion structure and retaining structure were fitted, the graininess projection placed the inboard of strip projected parts or concave regions.

Foregoing antistaling container, described graininess projection is the projection of cuboid, hemisphere, cylinder or square.

Foregoing antistaling container, described top surface also is provided with floating-point, and it is consistent with strip projected parts or concave regions position that floating-point is arranged formed track.

Foregoing antistaling container, described occlusion structure is strip projected parts, and described retaining structure is the graininess projection, and when occlusion structure and retaining structure were fitted, strip projected parts placed the outside of graininess projection.

Foregoing antistaling container, described occlusion structure is strip projected parts, and described retaining structure is concave regions, and when occlusion structure and retaining structure were fitted, strip projected parts placed the inboard of concave regions.

Foregoing antistaling container, described occlusion structure is concave regions, and described retaining structure is strip projected parts or graininess projection, and when occlusion structure and retaining structure were fitted, strip projected parts or graininess projection placed the inboard of concave regions.

Foregoing antistaling container, described concave regions madial wall and bottom intersection are provided with floating-point.

Foregoing antistaling container, described top surface is provided with handle.

The utility model has following good effect:

1, by occlusion structure, vessel bottom is set in top surface retaining structure is set, so that two containers when stacking, can be interlocked, keeps stable, thereby can improve space availability ratio;

2, by in top surface floating-point being set, can avoid the bottom of upper strata container to the top surface generation wearing and tearing of lower floor's container.

Four, description of drawings

The structural representation of the antistaling container among Fig. 1: the embodiment one.

Fig. 2: the section-drawing of lid shown in Figure 1.

Fig. 3: the section-drawing of antistaling container body shown in Figure 1 (antistaling container body bottom is strip projected parts).

Fig. 4: two section-drawings (antistaling container body bottom is strip projected parts) that antistaling container is stacked together.

The section-drawing of the another kind of structure of the antistaling container body among Fig. 5: the embodiment one (antistaling container body bottom is concave regions).

The structural representation of the antistaling container among Fig. 6: the embodiment two.

Fig. 7: the section-drawing of lid shown in Figure 6.

Fig. 8: the structural representation of antistaling container body shown in Figure 6 bottom (antistaling container body bottom is the strip projected parts of noncontinuity).

Fig. 9: the another kind of structural representation of the antistaling container body bottom of enforcement two (antistaling container body bottom is the graininess projection).

The structural representation of the antistaling container among Figure 10: the embodiment three.

Five, the specific embodiment

Embodiment one:

A kind of antistaling container shown in Fig. 1-4, by vessel 1, lid 2 forms, lid 2 surfaces are provided with occlusion structure---graininess projection 21, be provided with simultaneously handle 23, vessel 1 bottom is provided with retaining structure--strip projected parts 11a, this strip projected parts 11a is closed continuous state, be similar to a bowl bottom structure, certainly strip projected parts 11a also can be discontinuous state, be that projection cuts in and out, but overall shape is corresponding with graininess projection 21 formed shapes, wherein graininess projection 21 is that rectangular shape (also can be the square shape, cylinder, Else Rule or irregularly shaped), when two same antistaling containers are stacked together, the strip projected parts 11a of upper strata antistaling container bottom is just in the outside of graininess projection 21, so that inboard complete and strip projected parts 11a, the outside of graininess projection 21 fits, produced logic relationship so between the two, when two-layer container lean, this agrees with structure so that both can snap together relatively securely, and sidesway does not occur.Simultaneously on lid 2 surfaces floating-point 22 is set, it is consistent with strip projected parts 11a position that floating-point 22 is arranged formed track, be antistaling container when stacking, the strip projected parts 11a of upper strata container bottom just places on the floating-point 22 of lower floor's container top, can prevent that the surface of lid 2 is worn.

In another case, the retaining structure of vessel 1 bottom can be made a this concave regions of concave regions 11b(can be peviform, also can be groove shape or several pit shapes) (such as Fig. 5), other structure is constant, when two same antistaling containers are stacked together, graininess projection 21 is still the madial wall of being close to concave regions 11b, such agree with structure same so that up and down two-layer container closely fasten.

Embodiment two:

Another kind of antistaling container shown in Fig. 6-8, formed by vessel 1, lid 2, lid 2 surfaces are provided with occlusion structure---concave regions 21b, vessel 1 bottom is provided with retaining structure---the discontinuous state of strip projected parts 11a(), be provided with simultaneously handle 23, when two same antistaling containers were stacked together, the strip projected parts 11a of the bottom of upper strata antistaling container just tightly fitted in the inboard of concave regions 21b.When two-layer container lean, what produce between two containers agrees with, so that both can relatively firmly snap together, sidesway does not occur.Simultaneously be provided with floating-point 22 at the edge of concave regions 21b (with container bottom contact position, upper strata), so that antistaling container is when stacking, the strip projected parts 11a of upper strata container bottom just places on the floating-point 22 of lower floor's container top, can prevent that the surface of lid 2 is worn.

In another case, the retaining structure of vessel 1 bottom can be made graininess projection 11c(such as Fig. 9), other structure is constant, when two same antistaling containers are stacked together, it can be peviform that the graininess projection 11c of antistaling container bottom, upper strata is still this concave regions of concave regions 21b(of being close to lower floor's antistaling container lid, also can be groove shape or several pit shapes) madial wall so that two containers closely fasten, be unlikely to occur sidesway.

Embodiment three:

Another antistaling container as shown in figure 10, formed by vessel 1, lid 2, lid 2 surfaces are provided with occlusion structure---strip projected parts 21c, vessel 1 bottom is provided with retaining structure---concave regions 11b, when two same antistaling containers were stacked together, the strip projected parts 21c of lower floor's antistaling container lid just tightly fitted in the inboard of the concave regions 11b of upper strata container bottom.When two-layer container lean, produced mutual application force between two containers, so that both can relatively firmly snap together, sidesway does not occur.

In another case, lid constant (surface is provided with occlusion structure---strip projected parts 21c), vessel 1 bottom is provided with retaining structure---and also be strip projected parts (11a), when two same antistaling containers are stacked together, the strip projected parts 21c of lower floor's antistaling container lid just fits in the inboard of the formed annular section of strip projected parts 11a of upper strata container bottom.When two-layer container lean, agree with structure between two containers, so that both can relatively firmly snap together, sidesway does not occur.

Claims (9)

1. an antistaling container comprises vessel, lid, it is characterized in that: described top surface is provided with occlusion structure, and described vessel bottom is provided with retaining structure, and described retaining structure and occlusion structure are suitable, just fit together fully.

2. antistaling container as claimed in claim 1, it is characterized in that: described occlusion structure is the graininess projection, described retaining structure is strip projected parts or concave regions, and when occlusion structure and retaining structure were fitted, the graininess projection placed the inboard of strip projected parts or concave regions.

3. antistaling container as claimed in claim 2 is characterized in that: described graininess projection is protruding for long solid, hemisphere, cylinder or square.

4. antistaling container as claimed in claim 2 or claim 3, it is characterized in that: described top surface also is provided with floating-point, and it is consistent with strip projected parts or concave regions position that floating-point is arranged formed track.

5. antistaling container as claimed in claim 1, it is characterized in that: described occlusion structure is strip projected parts, and described retaining structure is the graininess projection, and occlusion structure is during with the retaining structure applying, and strip projected parts places the outside of graininess projection.

6. antistaling container as claimed in claim 1, it is characterized in that: described occlusion structure is strip projected parts, and described retaining structure is concave regions, and when occlusion structure and retaining structure were fitted, strip projected parts placed the inboard of concave regions.

7. antistaling container as claimed in claim 1, it is characterized in that: described occlusion structure is concave regions, described retaining structure is strip projected parts or graininess projection, and when occlusion structure and retaining structure were fitted, strip projected parts or graininess projection placed the inboard of concave regions.

8. antistaling container as claimed in claim 7, it is characterized in that: described concave regions madial wall and bottom intersection are provided with floating-point.

9. such as the described antistaling container of arbitrary claim in the claim 1,2,3,5,6,7,8, it is characterized in that: described top surface is provided with handle.

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