CN213488187U - Rotary storage device - Google Patents

Abstract

The utility model discloses a rotation type storage device, storage device including base and base top, storage device includes the chassis, hanging wall and longitudinal extension's connecting shaft, the bottom and the chassis fixed connection of connecting shaft, the hanging wall is located the chassis top and can reciprocates along the connecting shaft, the bottom on chassis is located with rotatable structure to the base, so that storage device can be rotatory for the base, then be convenient for the user to get the article of putting the holding in storage device different positions, on the other hand, the hanging wall can be followed connecting shaft rebound in order to open the chassis, so that the user gets article from getting in the chassis, perhaps the hanging wall falls back under the dead weight and closes the chassis with the lid, then make storage device be in the state of accomodating that the wholeness has more and make the device occupy less space.

Description

Rotary storage device

Technical Field

The utility model relates to a receiver for accomodate, putting the candy especially relates to a rotation type storage device of accomodating, putting the candy.

Background

The candy box can contain and store candies; different from materials, the box can be divided into an iron box or a plastic box.

With the progress of the technology, the candy box is also upgraded from a simple box body structure to various structural styles. The development is from a single containing cavity to a plurality of containing cavities and from a fixed type to a changeable type.

A candy box with a notice number of CN209521995U, which is divided into a plurality of containing cavities in a single layer;

the candy box of CN208948029U, including at least one rotatory storage device and control knob, rotatory storage device includes base plate, a plurality of storing box and central rotating assembly, has realized rotating the function that a plurality of storing boxes were once only opened to rotatory knob.

The lifting layered candy box of CN210311437U comprises a main box body, an auxiliary box body and a transmission mechanism; the auxiliary box body is connected to the top wall of the main box body, the main box body is provided with a first accommodating box capable of extending out from the side wall of the main box body, and the auxiliary box body is provided with a second accommodating box capable of extending out from the top wall of the auxiliary box body. The transmission mechanism of the candy box is complex and has high production cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a rotation type storage device is provided.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the rotary receiving device is characterized by comprising a base and a receiving device above the base, wherein the receiving device comprises a base plate, an upper plate and a longitudinally extending coupling shaft, the bottom of the coupling shaft is fixedly connected with the base plate, the upper plate is positioned above the base plate and can move up and down along the coupling shaft, and the base is arranged at the bottom of the base plate in a rotatable structure so that the receiving device can rotate relative to the base.

The utility model discloses further preferred technical scheme does: the base is sleeved on the convex ring below the base plate, the base plate can rotate relative to the base plate, and a plurality of balls in contact with the bottom of the base plate are arranged on the upper surface of the base plate.

The utility model discloses further preferred technical scheme does: the side wall of the central hole of the base and the outer wall of the convex ring are at least provided with a limiting structure so as to limit the base to be separated from the convex ring.

The utility model discloses further preferred technical scheme does: the middle of the upper disc is provided with an upper inner annular wall, the upper inner annular wall is provided with at least one guide part protruding inwards, and the outer wall of the connecting shaft is provided with at least one guide groove for the guide part to slide.

The utility model discloses further preferred technical scheme does: the guide groove comprises a forward sliding groove and a laying groove, wherein the upper plate can move downwards by means of self weight, the laying groove is used for keeping the guide part at a certain height in the guide groove, and the laying groove is eccentrically arranged at the side of the upper end of the forward sliding part; the guide part is transited from the smooth groove to the rest groove, so that the upper disc is eccentrically rotated relative to the coupling shaft.

The utility model discloses further preferred technical scheme does: the uppermost end of the guide groove is provided with an upper limit groove which is used for limiting the guide part to move upwards continuously so as to avoid the upper disc from being separated from the coupling shaft.

The utility model discloses further preferred technical scheme does: the middle of the base plate is provided with a bottom inner annular wall, the bottom of the coupling shaft is connected with the bottom of the bottom annular wall, an annular gap is formed between the outer wall of the coupling shaft and the bottom annular wall, the upper inner annular wall extends downwards to exceed the bottom of the upper plate to form an extension annular wall, when the upper plate is abutted against the base plate, the extension annular wall extends into the annular gap, and the guide part is arranged at the bottom of the extension annular wall.

The utility model discloses further preferred technical scheme does: the upper inner annular wall extends upwards to form an upper convex annular wall, a blank cap is arranged above the upper convex annular wall, a disc cover is arranged on the upper disc, a flexible sealing layer is arranged on the inner surface of the disc cover, the disc cover comprises a flat cover part and a central convex ring, and the central convex ring is positioned on the outer side of the upper convex annular wall.

The utility model discloses further preferred technical scheme does: the connecting shaft is of a hollow structure and is of a two-section type, the lower section shaft and the chassis are fixed together, and the upper section shaft and the lower section shaft are fixed through a clamping structure.

The utility model discloses further preferred technical scheme does: the base plate or the upper plate is provided with three or four receiving cavities, and the profiles of the outer walls of the upper plate and the base plate are consistent, so that downward orthographic projections of the upper plate and the base plate are overlapped when the upper plate and the base plate are folded.

Compared with the prior art, the utility model has the advantages that the base is rotationally installed in the chassis bottom so that storage device can be rotatory for the base, and the user of being convenient for gets the article of putting the holding different positions in storage device, and on the other hand, the hanging wall can be followed coupling shaft upward movement in order to open the chassis to get from getting in the chassis and putting article for the user, when the hanging wall fell back and close the chassis with the lid, can make storage device be in and have more holistic state of accomodating and make the device occupy less space.

Drawings

The present invention will be described in further detail below with reference to the drawings and preferred embodiments, but those skilled in the art will appreciate that the drawings are only drawn for the purpose of explaining the preferred embodiments, and therefore should not be taken as limiting the scope of the present invention. Furthermore, unless specifically stated otherwise, the drawings are merely schematic representations based on conceptual representations of elements or structures depicted and may contain exaggerated displays and are not necessarily drawn to scale.

FIG. 1 is a first schematic structural view of a rotary storage device;

FIG. 2 is a second schematic structural view of the rotary receiving device;

FIG. 3 is a first exploded view of the rotary container;

FIG. 4 is a second exploded view of the rotary container;

FIG. 5 is a schematic structural view of the upper tray, the bottom tray and the tray cover;

fig. 6 is an enlarged view of a point a in fig. 4 according to the present invention;

FIG. 7 is a schematic structural view of the base in the present embodiment;

figure 8 is a schematic view of the elongated annular wall and guide member.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate that the description is illustrative only, and is not to be construed as limiting the scope of the invention.

As shown in fig. 1 to 4, the rotary receiving device 100 includes a base 80 and a receiving device above the base 80, and the receiving device is preferably a layered receiving device 200, the layered receiving device 200 includes a base plate 20, an upper plate 10 and a coupling shaft 30 extending longitudinally, a bottom of the coupling shaft 30 is fixedly connected with the base plate 20, the upper plate 10 is located above the base plate 20 and can move up and down along the coupling shaft 30, and the base 80 is rotatably disposed at a bottom of the base plate 20 so that the receiving device can rotate relative to the base 80.

The base 80 is rotatably installed at the bottom of the base 20 so that the tiered storage device 200 can rotate relative to the base 80 to facilitate a user to take and place items housed at different positions in the tiered storage device 200, and on the other hand, the upper tray 10 can move upward along the coupling shaft 30 to open the base 20 to facilitate the user to take and place items from the base 20, or the upper tray 10 falls back under its own weight to cover the base 20, so that the tiered storage device 200 is in a more integrated storage state and occupies less space.

Specifically, the lower portion of the base plate 20 in this embodiment is provided with a protruding ring 21, the base plate 80 is sleeved on the protruding ring 21, the base plate 20 can rotate relative to the base plate 80, and the upper surface of the base plate 80 is provided with a plurality of balls 81 contacting with the bottom of the base plate 20.

As shown in fig. 7, the balls 81 in this embodiment on the one hand make the chassis 20 rotate smoothly relative to the base 80, and on the other hand, a plurality of balls 81 uniformly distributed in a ring shape are supported on the bottom surface of the chassis 20, so as to increase the contact point of the base 80 for supporting the chassis 20 and improve the stability of the base 80 for supporting the chassis 20.

Preferably, the side wall of the central hole of the base 80 and the outer wall of the convex ring 21 in this embodiment are provided with annularly distributed limiting structures to limit the base 80 from being separated from the convex ring 21. Specifically, the limiting structure may be a slot formed on the outer wall of the protruding ring 21, and a buckle mounted on the side wall of the central hole of the base 80, and the buckle is clamped into the slot to mount the base 80 on the protruding ring 21 of the chassis 20.

For the tiered storage device 200, preferably, the storage device in this embodiment includes a base plate 20 having a first storage chamber 01, an upper plate 10 having a second storage chamber 02, and a coupling shaft 30, the coupling shaft 30 is longitudinally and fixedly disposed in the middle of the base plate 20 and extends upward, a middle through hole of the upper plate 10 is fitted over the coupling shaft 30, and the upper plate 10 is axially movable up and down along the coupling shaft 30;

in an initial state, the bottom of the upper tray 10 is dropped on the top of the bottom tray 20 to close the first receiving chamber 01; the upper tray 10 is moved upward along the coupling shaft 30 by a distance such that the bottom of the upper tray 10 is spaced apart from the top of the lower tray 20, and the first receiving chamber 01 is opened.

The upper plate 10 has an upper inner annular wall 40 in the middle, the upper inner annular wall 40 is provided with a guide part 41 protruding inwards, and the outer wall of the coupling shaft 30 is provided with a guide groove 50 for the guide part 41 to slide. The number and positions of the guide members 41 and the guide grooves 50 correspond to each other.

The coupling shaft 30 is longitudinally and fixedly arranged in the middle of the base plate 20 and extends upwards, and the upper plate 10 is sleeved on the coupling shaft 30 through a middle through hole and can move up and down along the coupling shaft 30 in the axial direction; when the device is used, a user lifts the upper disc 10 upwards and moves the upper disc upwards for a certain distance along the connecting shaft 30, so that the bottom of the upper disc 10 is separated from the top of the bottom disc 20 for a certain distance, and then the first accommodating cavity 01 on the bottom disc 20 is in an open state for the user to take and place articles; on the other hand, the upper tray 10 can move downwards under its own weight and cover the top of the bottom tray 20 to cover the first receiving cavity 01; namely, the upper plate 10 can be lifted and lowered more simply and more quickly.

As shown in fig. 6 and 8, the guide groove 50 includes a slide groove 51 in which the upper plate 10 can move down by its own weight and a resting groove 52 in which the guide member 41 is held at a certain height in the guide groove 50, the resting groove 52 is eccentrically provided at a side of an upper end of the slide groove 51; the guide member 41 is passed from the slide groove 51 to the rest groove 52 to cause the upper disc 10 to perform the offset rotation with respect to the coupling shaft 30.

What should be noted about the creative contribution of the above technical means is that, in this embodiment, the whole of the combination of the base plate 20 and the plurality of receiving cavities on the upper plate 10 is in the shape of petals, that is, the whole outer contour of the combination of the receiving cavities is not in a regular circle, but has an area recessed inwards, and based on the consideration of the appearance characteristics of the combination of the receiving cavities, in the design of the technical scheme, the upper plate 10 moves upwards to be separated from the base plate 20, and the upper plate 10 rotates relative to the base plate 20 at a certain angle, so that the outer contour of the upper plate 10 is staggered from the outer contour of the base plate 20; that is, the outer surface of the recessed area of the upper tray 10 corresponds to the arc surface of the bottom tray 20 protruding outward, so that the candy in the receiving cavity of the bottom tray 20 can be conveniently taken by the user.

The guide groove 50 is provided at the uppermost end thereof with an upper limit groove 53, and the upper limit groove 53 is provided to limit the guide member 41 from moving upward to prevent the upper plate 10 from being separated from the coupling shaft 30.

The bottom disc 20 is provided with a bottom annular wall 60 in the middle, the bottom of the coupling shaft 30 is connected with the bottom of the bottom annular wall 60, and an annular gap 03 is formed between the outer wall of the coupling shaft 30 and the bottom annular wall 60; the upper inner annular wall 40 extends downward beyond the bottom of the upper tray 10 to form an extended annular wall 42, the extended annular wall 42 extends into the annular gap 03 when the upper tray 10 abuts against the bottom tray 20, and the plurality of guide members 41 are uniformly arranged annularly at the bottom position of the extended annular wall 42.

The extension annular wall 42 extends into the annular gap 03, and the length of the extension annular wall 42 is substantially equivalent to the displacement generated when the upper tray 10 is completely extended, so that the extension annular wall 42 can shield the coupling shaft 30 inside even in the extended state of the upper tray 10, thereby improving the aesthetic appearance of the entire storage device. Of course, the length of the extended annular wall 42 can be greater than the displacement of the upper plate 10 when fully extended, and the above-mentioned desired technical effects can be achieved.

The coupling shaft 30 is a hollow structure and the coupling shaft 30 is a two-section type, the lower section shaft 32 is fixed with the chassis 20, and the upper section shaft 31 and the lower section shaft 32 are fixed through a clamping structure.

The bottom plate 20 or the upper plate 10 is provided with three or four receiving cavities, and the outer wall profiles of the upper plate 10 and the bottom plate 20 are consistent, so that the downward orthographic projections when the two are folded are overlapped. Thereby the storage device is more tidy and beautiful in the storage state.

The upper inner annular wall 40 extends upwards to form an upper convex annular wall 43, a blank cap 04 is arranged above the upper convex annular wall 43, a tray cover 70 is arranged on the upper tray 10, a flexible sealing layer 71 is arranged on the inner surface of the tray cover 70, the tray cover 70 comprises a flat cover part 72 and a central convex ring 73, and the central convex ring 73 is positioned on the outer side of the upper convex annular wall 43. This flexible sealing layer 71 can choose for use the sealing rubber strip to make storage device have more leakproofness, when avoiding mosquito bites food, further avoid storing and accomodate intracavity food and wet, thereby reach better storage effect.

It is right above the utility model provides a rotation type storage device has carried out detailed introduction, and it is right to have used specific individual example herein the utility model discloses a principle and embodiment have been expounded, and the explanation of above embodiment is only used for helping to understand the utility model discloses and core thought. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The rotary receiving device is characterized by comprising a base and a receiving device above the base, wherein the receiving device comprises a base plate, an upper plate and a longitudinally extending coupling shaft, the bottom of the coupling shaft is fixedly connected with the base plate, the upper plate is positioned above the base plate and can move up and down along the coupling shaft, and the base is arranged at the bottom of the base plate in a rotatable structure so that the receiving device can rotate relative to the base.

2. The rotary storage device of claim 1, wherein the base is mounted on a collar beneath the base and the base is rotatable relative to the base, the upper surface of the base having a plurality of balls in contact with the bottom of the base.

3. The rotary receiver of claim 2, wherein the sidewall of the central hole of the base and the outer wall of the collar are at least provided with a limiting structure to limit the base from being disengaged from the collar.

4. The rotary storage device of claim 1, wherein an upper inner annular wall is disposed in the middle of the upper plate, at least one guide member protruding inward is disposed on the upper inner annular wall, and at least one guide groove for the guide member to slide is disposed on the outer wall of the coupling shaft.

5. The rotary storage device of claim 4, wherein the guide groove comprises a slide groove, the upper plate of which can move downwards by means of self-weight, and a placement groove for keeping the guide member at a certain height in the guide groove, the placement groove is eccentrically arranged at the side of the upper end of the slide part; the guide part is transited from the smooth groove to the rest groove, so that the upper disc is eccentrically rotated relative to the coupling shaft.

6. The rotary storage device of claim 4, wherein the guide groove has an upper limit groove at an uppermost end thereof, the upper limit groove limiting the guide member from moving upward to prevent the upper plate from being disengaged from the coupling shaft.

7. The rotary receiver of claim 4, wherein the base plate has a bottom inner annular wall in the middle, the bottom of the coupling shaft is connected to the bottom of the bottom annular wall, and an annular gap is formed between the outer wall of the coupling shaft and the bottom annular wall, the upper inner annular wall extends downward beyond the bottom of the upper plate to form an extended annular wall, the extended annular wall extends into the annular gap when the upper plate abuts against the base plate, and the guide member is disposed at the bottom of the extended annular wall.

8. The rotating storage device of claim 7, wherein the upper inner annular wall extends upward to form an upper annular wall, a blank cap is disposed above the upper annular wall, a lid is disposed on the upper plate, a flexible sealing layer is disposed on an inner surface of the lid, the lid includes a flat cap portion and a central convex ring, and the central convex ring is disposed outside the upper annular wall.

9. The rotary storage device of claim 1, wherein the coupling shaft is hollow, the coupling shaft is two-segment, the lower shaft is fixed to the chassis, and the upper shaft is fixed to the lower shaft by a snap-fit structure.

10. The rotary receiving device of claim 1, wherein the bottom plate or the upper plate has three or four receiving cavities, and the outer walls of the upper plate and the bottom plate have the same contour, so that the downward orthographic projections of the two when they are folded are coincident.

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