CN210696430U

CN210696430U - Rotary type powder dispersing tank

Info

Publication number: CN210696430U
Application number: CN201921444665.6U
Authority: CN
Inventors: 魏朝阳; 张波; 朱捷; 何强
Original assignee: Zhejiang Ruichang Industrial Co ltd
Current assignee: Zhejiang Ruichang Industrial Co ltd
Priority date: 2019-09-02
Filing date: 2019-09-02
Publication date: 2020-06-09
Anticipated expiration: 2029-09-02

Abstract

The utility model discloses a rotary type powder scattering tank, which comprises a tank body, an interlayer and a tank cover, wherein the opening side of the tank body is provided with the interlayer, a powder scattering cavity for placing powder scattering blocks is arranged in the tank body, a rotating cover is arranged between the interlayer and the tank cover, the middle part of the rotating cover forms a channel, the tank cover is arranged at the upper end of the channel, a guide block is arranged on the rotating cover, a guide groove is obliquely arranged on the side wall of the tank body, the guide block is arranged in the guide groove in a sliding fit manner, a plurality of powder scattering through holes are arranged on the interlayer, the rotating cover is lifted by the guide of the guide groove during rotation, and the powder scattering through holes are plugged when the; when the rotating cover rotates to the bottom and a gap is formed between the bottom and the upper surface of the interlayer, the powder scattering cavity is communicated with the upper part of the interlayer through the powder scattering through hole. When the rotary powder dispersing tank is used, all the powder cannot be exposed to the air, only a proper amount of powder is required to be used after being taken out every time, and the powder puff cannot directly contact all the powder, so that the pollution or the damp of the powder is prevented.

Description

Rotary type powder dispersing tank

Technical Field

The utility model belongs to the technical field of the cosmetics packaging box, specifically a rotation type powder jar that looses.

Background

The powder that looses is women's cosmetics commonly used, and current powder jar that looses generally includes jar body and cover, is equipped with the interlayer between jar body and cover, and the space between jar body and the interlayer is used for storing the powder that looses, and the space between cover and the interlayer is used for depositing the powder puff, and current powder jar that looses generally opens the cover when using and takes out the powder puff, then opens the interlayer and directly dips in some loose powder and scribble on face on loosing the powder. When the powder spreading tank is used, all the scattered powder is required to be exposed in the air, when the powder puff dips the scattered powder, the scattered powder block can be stained with other cosmetics on the face, and after the powder spreading tank is used for a period of time, all the scattered powder can be polluted or moistened, so that subsequent use is influenced.

Disclosure of Invention

The utility model discloses not enough to prior art, provide a powder jar is scattered to rotation type, this kind of powder jar is scattered to rotation type can not expose whole powder in the air when using, only takes out at every turn and need use the powder that looses of appropriate amount, and the powder puff can not whole powder that looses of direct contact, prevents to loose the powder pollution or wet.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve: a rotary type powder scattering tank comprises a tank body, an interlayer and a tank cover, wherein the interlayer is arranged on the opening side of the tank body, a powder scattering cavity for placing powder scattering blocks is arranged in the tank body, a rotary cover is arranged between the interlayer and the tank cover, a channel is formed in the middle of the rotary cover, the tank cover is arranged at the upper end of the channel in a covering mode, a guide block is arranged on the rotary cover, a guide groove is obliquely arranged on the side wall of the tank body, the guide block is arranged in the guide groove in a sliding fit mode, a plurality of powder scattering through holes are formed in the interlayer, the rotary cover is guided by the guide groove to lift during rotation, and the powder scattering through holes are blocked when the rotary cover rotates to the bottom and is attached to the upper surface of the; when the rotating cover rotates to the bottom and a gap is formed between the rotating cover and the upper surface of the interlayer, the powder scattering cavity is communicated with the upper part of the interlayer through the powder scattering through hole. The powder scattering tank can control the connection and disconnection between the upper part of the interlayer and the powder scattering cavity through the rotation of the rotating cover. When the powder scattering tank is used, the rotating cover is rotated until a gap is reserved between the bottom of the rotating cover and the interlayer, and some scattered powder is shaken above the interlayer in a manner of shaking the powder scattering tank; then the rotating cover is rotated until the bottom is attached to the interlayer, and the powder scattering through hole is disconnected and can not discharge powder; then the cover of the jar is opened to take the powder from the upper part of the interlayer for makeup. When the rotary powder dispersing tank is used, all the powder cannot be exposed to the air, only a proper amount of powder is required to be used after being taken out every time, and the powder puff cannot directly contact all the powder, so that the pollution or the damp of the powder is prevented.

In the above technical scheme, preferably, the tank body opening side is provided with a positioning convex ring radially towards the outside, the periphery of the interlayer is provided with a first flanging, the side face of the first flanging is provided with the annular groove matched with the positioning convex ring, the positioning convex ring is buckled into the annular groove to limit the interlayer on the tank body, the bottom edge of the interlayer is provided with a plurality of powder scattering through holes, and the rotating cover is provided with a sealing ring matched with the powder scattering through holes.

In the above technical scheme, preferably, the two opposite sides of the outer side wall of the tank body are both obliquely provided with the guide grooves, the periphery of the rotating cover is provided with a second flanging, two opposite side faces of the second flanging are both provided with the guide blocks, and the guide blocks slide in the guide grooves.

Among the above-mentioned technical scheme, preferably, the guide way towards the opening side of the jar body is provided with the mounting groove of the shallow from top to bottom.

In the above technical solution, preferably, the top of the second flange on the rotating cover above the guide block is provided with an observation port.

In the above technical scheme, preferably, the guide groove is provided with a limiting protrusion near the bottom, when the guide block moves to the bottom of the guide groove, the bottom of the rotating cover is attached to the upper surface of the interlayer, and the limiting protrusion limits the guide block at the bottom of the guide groove.

In the above technical scheme, preferably, the powder scattering through holes are distributed at the edge of the bottom of the interlayer, and the upper surface of the interlayer is concave downwards from the powder scattering through holes to the center.

Compared with the prior art, the utility model, following beneficial effect has: the powder scattering tank can control the connection and disconnection between the upper part of the interlayer and the powder scattering cavity through the rotation of the rotating cover. When the powder scattering tank is used, the rotating cover is rotated until a gap is reserved between the bottom of the rotating cover and the interlayer, and some scattered powder is shaken above the interlayer in a manner of shaking the powder scattering tank; then the rotating cover is rotated until the bottom is attached to the interlayer, and the powder scattering through hole is disconnected and can not discharge powder; then the cover of the jar is opened to take the powder from the upper part of the interlayer for makeup. When the rotary powder dispersing tank is used, all the powder cannot be exposed to the air, only a proper amount of powder is required to be used after being taken out every time, and the powder puff cannot directly contact all the powder, so that the pollution or the damp of the powder is prevented.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

Fig. 2 is an exploded schematic view of the embodiment of the present invention.

Fig. 3 is a cross-sectional view of an embodiment of the present invention.

Detailed Description

The invention will be described in further detail with reference to the following detailed description and accompanying drawings: referring to fig. 1 to 3, a rotary powder scattering tank comprises a tank body 1, an interlayer 2, a tank cover 3 and a rotary cover 4, wherein a powder scattering cavity 11 for placing powder scattering blocks is arranged in the tank body 1, a positioning convex ring 13 is arranged on the side of the opening of the tank body 1 facing outward in the radial direction, a first flanging 22 is arranged on the periphery of the interlayer 2, an annular groove 23 matched with the positioning convex ring 13 is arranged on the side surface of the first flanging 22, the positioning convex ring 13 is buckled into the annular groove 23 to limit the interlayer 2 on the tank body 1, a plurality of powder scattering through holes 21 are distributed on the edge of the bottom of the interlayer 2, and the upper surface of the interlayer 2 is concave downwards from.

A rotating cover 4 is arranged between the interlayer 2 and the tank cover 3, a channel 41 is formed in the middle of the rotating cover 4, the tank cover 3 is covered at the upper end of the channel 41, guide grooves 12 are obliquely arranged on two opposite sides of the outer side wall of the tank body 1, a second flanging 44 is arranged on the periphery of the rotating cover, guide blocks 42 are arranged on two opposite side surfaces of the second flanging 44, the guide blocks 42 slide in the guide grooves 12, and a sealing ring 43 matched with the scattered powder through hole 21 is arranged on the rotating cover 4; the rotating cover 4 is lifted and lowered under the guidance of the guide groove 12 during rotation, and when the rotating cover 4 rotates to the bottom to be attached to the upper surface of the interlayer 2, the powder scattering through hole 21 is blocked; when the rotating cover 4 rotates to the bottom and a gap is formed between the bottom and the upper surface of the interlayer 2, the powder scattering cavity 11 is communicated with the upper part of the interlayer 2 through the powder scattering through hole 21.

The guide groove 12 is provided with a mounting groove 14 with a deep upper part and a shallow lower part towards the opening side of the tank body 1. When installed, guide block 42 slides down from mounting slot 14 into guide slot 12, facilitating assembly of rotating cover 4.

The top of the second flange 44 of the rotary cover 4 above the guide block 42 is provided with a viewing port 45. Whether the guide block 42 is aligned with the mounting groove 14 can be observed through the observation port 45, and the installation is convenient.

In order to position when the bottom of the rotating cover 4 is attached to the upper surface of the interlayer 2, a limiting protrusion 121 is arranged on the side, close to the bottom, of the guide groove 12, when the guide block 42 moves to the bottom of the guide groove 12, the bottom of the rotating cover 4 is attached to the upper surface of the interlayer 2, and the guide block 42 is limited at the bottom of the guide groove 12 by the limiting protrusion 121.

When the rotary powder scattering tank is assembled, powder scattering blocks are firstly arranged in the powder scattering cavity 11 of the tank body 1, then the interlayer 2 is arranged on the opening of the tank body 1, the guide block 42 on the rotary cover 4 is aligned with the guide groove 12 on the tank body 1 and pressed downwards, so that the guide block 42 is arranged in the guide groove 12 to complete the installation of the rotary cover 4, and then the tank cover 3 is buckled at the upper end of the channel 41 of the rotary cover 4, thus the assembly is completed.

The powder scattering tank can control the connection and disconnection of the upper part of the interlayer 2 and the powder scattering cavity 11 through the rotation of the rotating cover 4. When the powder scattering tank is used, the rotating cover 4 is rotated until a gap is reserved between the bottom of the rotating cover and the interlayer 2, and some scattered powder is shaken above the interlayer in a manner of shaking the powder scattering tank; then the rotating cover 4 is rotated until the bottom is attached to the interlayer 2, and the powder scattering through hole 21 is disconnected and powder can not be discharged; then the can cover 3 is opened to take the powder from the upper part of the interlayer 2 for makeup. When the rotary powder dispersing tank is used, all the powder cannot be exposed to the air, only a proper amount of powder is required to be used after being taken out every time, and the powder puff cannot directly contact all the powder, so that the pollution or the damp of the powder is prevented.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a powder jar is scattered to rotation type, includes a jar body (1), interlayer (2) and cover (3), jar body (1) opening side is provided with interlayer (2), be equipped with in jar body (1) and be used for placing scattered powder chamber (11), its characterized in that looses the powder piece: a rotating cover (4) is arranged between the interlayer (2) and the tank cover (3), a channel (41) is formed in the middle of the rotating cover (4), the tank cover (3) is arranged at the upper end of the channel (41) in a covering mode, a guide block (42) is arranged on the rotating cover (4), a guide groove (12) is obliquely arranged on the side wall of the tank body (1), the guide block (42) is arranged in the guide groove (12) in a sliding fit mode, a plurality of powder scattering through holes (21) are formed in the interlayer (2), the rotating cover (4) is guided by the guide groove (12) to lift during rotation, and when the rotating cover (4) rotates to the bottom and is attached to the upper surface of the interlayer (2), the powder scattering through holes (21) are blocked; when the rotating cover (4) rotates to the bottom and a gap is reserved between the rotating cover and the upper surface of the interlayer (2), the powder scattering cavity (11) is communicated with the upper part of the interlayer (2) through a powder scattering through hole (21).

2. The rotating powder dispersing tank as claimed in claim 1, wherein: the jar body (1) opening side is radially provided with location bulge loop (13) towards the outside, interlayer (2) periphery is provided with first turn-ups (22), first turn-ups (22) side is provided with location bulge loop (13) complex ring channel (23), location bulge loop (13) are detained annular channel (23) will interlayer (2) are spacing in on the jar body (1), interlayer (2) bottom edge distribution has a plurality of loose powder through-hole (21), be provided with on rotating lid (4) with loose powder through-hole (21) complex sealing ring (43).

3. The rotating powder dispersing tank as claimed in claim 1, wherein: the both sides that the lateral wall is relative of the jar body (1) all incline to be provided with guide way (12), it is provided with second turn-ups (44) to rotate the lid periphery, the relative both sides face of second turn-ups (44) all is provided with guide block (42), guide block (42) are in slide in guide way (12).

4. A rotating powder spreading jar as claimed in claim 3, wherein: the guide groove (12) is provided with an installation groove (14) which is deep at the upper part and shallow at the lower part towards the opening side of the tank body (1).

5. The rotating powder dispersing tank as claimed in claim 4, wherein: and an observation port (45) is arranged at the top of a second flanging (44) above the guide block (42) on the rotating cover (4).

6. The rotating powder dispersing tank as claimed in claim 1, wherein: the side, close to the bottom, of the guide groove (12) is provided with a limiting protrusion (121), when the guide block (42) moves to the bottom of the guide groove (12), the bottom of the rotating cover (4) is attached to the upper surface of the interlayer (2), and the limiting protrusion (121) limits the guide block (42) at the bottom of the guide groove (12).

7. The rotating powder dispersing tank as claimed in claim 1, wherein: the powder scattering device is characterized in that a plurality of powder scattering through holes (21) are distributed on the edge of the bottom of the interlayer (2), and the upper surface of the interlayer (2) is concave downwards from the powder scattering through holes (21) to the center.