CN218303809U - Powder box assembly - Google Patents

Abstract

The application relates to the technical field of cosmetics and provides a powder box assembly, which comprises a bracket, a powder disc and a sliding piece. The bracket is provided with a disc cavity with an opening at the top side, and the bottom side of the bracket is provided with a first sliding chute communicated with the disc cavity; the powder disc is detachably arranged in the disc cavity; the sliding piece comprises a plate body and a pushing part arranged at the upper end of the plate body; the plate body is slidably arranged below the bracket; the plate body slides to drive the pushing part to slide into the first chute and push the powder plate to be separated from the plate cavity. The application provides a powder box subassembly has the slider of top portion of pushing away through the setting, when needs change or take out the powder dish from the dish chamber of bracket, utilizes the relative bracket slip of slider, and the top portion of pushing away slides in the first spout of bracket and promotes the powder dish for the powder dish can deviate from the dish chamber, and it is easier that the powder dish takes out and replaces in the bracket, the convenience of the operation of improvement, and the use of powder box subassembly is experienced better, and the product has more competitiveness.

Description

Powder box assembly

Technical Field

The application relates to the technical field of cosmetics, in particular to a powder box assembly.

Background

Cosmetic powder, which is the most common cosmetic, has become a necessity for people to make up. The conventional cosmetic powder case is used by opening or turning over a case cover, putting corresponding cosmetic powder in a powder tray in the case, dipping the cosmetic powder by a cosmetic tool such as a sponge, a puff, a brush and the like, and then applying the cosmetic powder on the face of a human body and the like for making up. However, the powder tray of the conventional cosmetic powder box is generally fixed in the box by gluing and the like, the powder tray cannot be taken out and replaced, if a user needs to use cosmetic powder with different formulas according to different requirements, the user needs to purchase a plurality of cosmetic powder boxes with different use types, and the whole powder box is discarded after the cosmetic powder in one powder tray is used up, so that resources are seriously wasted, the cost is increased, higher and higher requirements of people cannot be met, and the application and development of products are influenced.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present disclosure provides a compact assembly capable of replacing a powder tray, which is easier to replace.

In order to achieve the above purpose, the technical solution of the embodiment of the present application is implemented as follows:

the application provides a powder box subassembly includes:

a bracket formed with a disc cavity having an open top side, a bottom side of the bracket formed with a first runner communicating with the disc cavity;

the powder tray is detachably arranged in the tray cavity;

the sliding piece comprises a plate body and a pushing part arranged at the upper end of the plate body; the plate body is slidably arranged below the bracket; the plate body slides to drive the pushing part to slide into the first sliding groove and push the powder disc to be separated from the disc cavity.

In some embodiments, the pushing portion is a protruding structure disposed on the upper surface of the plate body, a direction of the pushing portion approaching the first sliding groove is an advancing direction, and a thickness of the pushing portion gradually decreases along the advancing direction.

In some embodiments, the number of the powder discs is plural, the tray is provided with a plurality of disc cavities corresponding to the plural powder discs one to one, the sliding member is provided with a plurality of pushing portions corresponding to the plural powder discs one to one, and the plate body slides to drive the plurality of pushing portions to slide synchronously and push the plural powder discs to be separated from the plural disc cavities simultaneously.

In some embodiments, the powder pan has a locked state locked with the plate body and an unlocked state unlocked with the plate body, and the plate body slides to switch the powder pan between the locked state and the unlocked state;

in the locking state, the pushing part is positioned outside the first sliding groove;

in the unlocking state, the pushing part slides into the first sliding groove and pushes the lower end face of the powder tray, so that the powder tray slides upwards and is separated from the tray cavity.

In some embodiments, a second sliding slot is formed on the plate body, the second sliding slot is partially contracted to form a necking section, a hook nail is formed at the bottom of the powder tray, the hook nail comprises a nail column and a nail cap connected with the lower end of the nail column, and the nail column is slidably arranged in the second sliding slot;

in the locking state, the nail column enters the necking section, and the upper end surface of the nail cap abuts against the lower end surface of the plate body; in the unlocked state, the nail post is disengaged from the throat section.

In some embodiments, a direction of the pushing portion approaching to the first chute is a forward direction, a first hook opening away from the forward direction is formed on the upper surface of the plate body, and a second hook opening along the forward direction is formed on the powder tray;

in the locked state, the first hook and the second hook are hooked; in the unlocked state, the first hook and the second hook are separated.

In some embodiments, the powder container assembly comprises a box cover and a box body, wherein the box body is provided with a containing cavity with an opening at the top side, the bottom side of the box body is provided with a push groove communicated with the containing cavity, the box cover covers the opening at the top side of the containing cavity, and the powder disc, the bracket and the plate body are all arranged in the containing cavity;

and a push button located at the position of the push groove is formed on the lower surface of the plate body, and the push button is pushed to drive the plate body to slide.

In some embodiments, the push button is slidably embedded in the push slot.

In some embodiments, the plate body is provided with a clamping groove which is the same as the extending direction of the first sliding groove, the bottom of the accommodating cavity is provided with a clamping strip extending upwards, and the clamping strip is slidably arranged in the clamping groove in a penetrating manner and clamped with the clamping groove.

In some embodiments, the upper end of the clamping strip is formed with a clamping protrusion, and the clamping protrusion extends towards the peripheral side wall parallel to the extending direction of the clamping groove and is lapped on the upper end face of the plate body.

The application provides a powder box subassembly has the slider of top portion of pushing away through the setting, when needs change or take out the powder dish from the dish chamber of bracket, utilizes the relative bracket slip of slider, and the top portion of pushing away slides in the first spout of bracket and promotes the powder dish for the powder dish can deviate from the dish chamber, and it is easier that the powder dish takes out and replaces in the bracket, the convenience of the operation of improvement, and the use of powder box subassembly is experienced better, and the product has more competitiveness.

Drawings

Fig. 1 is a schematic structural view of a compact assembly according to an embodiment of the present application;

FIG. 2 is a schematic diagram of the structure of FIG. 1 from another perspective;

FIG. 3 is an exploded view of the structure shown in FIG. 1;

FIG. 4 is a cross-sectional view of the powder pan in the locked configuration of FIG. 1;

FIG. 5 is a cross-sectional view of the powder pan of the arrangement of FIG. 1 in an unlocked position;

FIG. 6 is a schematic structural view of the structure shown in FIG. 1, wherein the powder tray is schematically shown in cooperation with the sliding member in a locked state;

FIG. 7 is a schematic structural view of the structure shown in FIG. 1, wherein the sliding member is schematically shown in cooperation with the case;

fig. 8 is an enlarged view of the structure shown in fig. 7 at a.

Description of reference numerals:

a compact assembly 100; a bracket 1; a disc chamber 1a; a first chute 1b; a powder tray 2; a hook nail 21; a nail post 211; a nail cap 212; a slider 3; a plate body 31; the second chute 31a; a throat section 31aa; a push button 311; a card slot 31b; a pushing portion 32; a box cover 4; a box body 5; the housing chamber 5a; a push slot 5b; a clip strip 51; the snap projections 511.

Detailed Description

It should be noted that the various embodiments/implementations provided in this application can be combined with each other without contradiction. The detailed description in the specific embodiments should be understood as an illustration of the spirit of the application and not as an undue limitation of the application.

In the description of the present application, the terms "top", "bottom", "upper", "lower", "front", "rear", "left", "right", and "forward direction" are oriented or positioned in relation to each other based on the orientation or position shown in fig. 1, fig. 2, fig. 4, and fig. 5. It is to be understood that such directional terms are merely used to facilitate the description of the application and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must be constructed and operated in a particular orientation or orientation, and thus should not be considered as limiting the application. The term "first/second" merely distinguishes between different objects and does not denote the same or a relationship between the two.

Referring to fig. 1-3, compact assembly 100 includes a bracket 1, a powder tray 2, and a sliding member 3.

The tray 1 is formed with a disk chamber 1a opened at the top side, and the bottom side of the tray 1 is formed with a first slide groove 1b communicating with the disk chamber 1a. The powder disk 2 is detachably disposed in the disk chamber 1a. Specifically, the powder tray 2 is a shell-shaped structure with an open top, and the open top of the shell-shaped structure can be used for containing cosmetic materials, including but not limited to various liquid-solid mixtures such as powder, paste or the like for makeup. The bracket 1 is a frame structure provided with a disc cavity 1a, the disc cavity 1a is used for bearing a powder disc 2, the powder disc 2 can be installed or placed in the disc cavity 1a from the top opening of the disc cavity 1a, the first sliding groove 1b is communicated with the bottom side of the disc cavity 1a, and the pushing part 32 can slide along the extending direction of the first sliding groove 1b.

The slider 3 comprises a plate body 31 and a pushing part 32 arranged at the upper end of the plate body 31; the plate body 31 is slidably arranged below the bracket 1; the plate 31 slides to drive the pushing portion 32 to slide into the first sliding slot 1b and push the powder tray 2 to be taken out of the tray cavity 1a. That is, the sliding member 3 can slide relative to the bracket 1, the pushing portion 32 is located at the upper end of the plate 31 and can slide along with the plate 31, and the pushing portion 32 slides into the first sliding slot 1b to drive the powder tray 2 to be taken out of the tray cavity 1a.

In an exemplary embodiment, referring to fig. 1 to fig. 3, the powder tray 2 is a rectangular shell structure with an opening on a top side, the tray cavity 1a is adapted to a structural shape of the powder tray 2, the powder tray 2 can be embedded in the tray cavity 1a, the first sliding slot 1b extends along a front-back direction, a sliding-in gap is formed at a rear end of the first sliding slot 1b close to the pushing portion 32, the sliding-in gap is formed on a peripheral sidewall of the tray cavity 1a, the pushing portion 32 can slide into the first sliding slot 1b along an advancing direction by sliding into the gap, and the pushing portion 32 after sliding into the first sliding slot 1b abuts against a lower end surface of the powder tray 2, so that the powder tray 2 is separated from the tray cavity 1a upwards.

The application provides a powder box assembly 100, through setting up slider 3 that has top push portion 32, when needs change or take out powder dish 2 from the dish chamber 1a of bracket 1, utilize slider 3 to slide relative to bracket 1, top push portion 32 slides in the first spout 1b of bracket 1 and promotes powder dish 2 for powder dish 2 can deviate from dish chamber 1a, it is easier that powder dish 2 takes out and replaces from the bracket 1, the convenience of operation that improves, powder box assembly 100's use experience is better, the product has more competitiveness.

In one embodiment, referring to fig. 1-3, compact assembly 100 includes a lid 4 and a box 5. The box body 5 is formed with the chamber 5a that holds of top side open-ended, and the bottom side of box body 5 is formed with the push away groove 5b that holds chamber 5a intercommunication, and the lid 4 lid closes the top side open-ended that holds chamber 5a, and powder dish 2, bracket 1 and plate body 31 all set up in holding chamber 5 a. That is to say, powder dish 2, bracket 1 and plate body 31 all set up in box body 5, and the upper end of box body 5 is covered to lid 4 to make the outward appearance of powder box subassembly 100 cleaner and tidier.

In an exemplary embodiment, referring to fig. 1 to 3, the box cover 4 is a rectangular plate structure and the box body 5 is a rectangular shell structure with an open top, and after the box cover 4 is covered on the box body 5, the compact assembly 100 forms a substantially rectangular structure.

The lower surface of the plate 31 is formed with a push button 311 located at the push slot 5b, and the push button 311 is pushed to drive the plate 31 to slide. Specifically, the extending direction of the push slot 5b is the same as the extending direction of the first sliding slot 1b, that is, the push slot 5b also extends in the front-back direction, and the push button 311 is exposed at the bottom end of the box body 5 through the push slot 5 b. In this way, the push button 311 is disposed on the plate body 31, so that the user can operate the push button more conveniently, and the user can slide the plate body 31 only by shifting the push button 311 located in the push slot 5b, so that the product design is more humanized.

For example, in an embodiment, referring to fig. 1 to fig. 3, the push button 311 is slidably embedded in the push slot 5 b. That is to say, the push slot 5b is matched with the push button 311 in shape, and thus the push slot 5b can play a guiding role, so that the push button 311 can only slide back and forth along the extending direction of the push slot 5b, thereby avoiding the phenomenon that a user pushes the push button 311 obliquely to cause the sliding member 3 to be immovable and generate clamping stagnation, and improving the working reliability of the sliding member 3.

In one embodiment, referring to fig. 1 to 3, one end of the box cover 4 is pivotally connected to one end of the box body 5. The mode that adopts the pin joint can be convenient for the user through rotating the top side opening that lid 4 opened box body 5, lid 4 open the back can rotate relatively with box body 5, nevertheless can not separate with box body 5, and the user covers lid 4 convenient and fast after using, can not appear neglecting and fall the condition of lid 4.

The pivoting manner of the lid 4 and the box 5 is not limited, and includes, but not limited to, pivoting via a hinge, a pin, etc.

In one embodiment, referring to fig. 1 to 5, the bracket 1 is clamped on the inner peripheral wall of the accommodating cavity 5 a. Specifically, the bracket 1 is also roughly a rectangular plate 31 structure for adapting to the box body 5, and in order to facilitate the installation of the bracket 1, the bracket 1 is clamped in the accommodating cavity 5a of the box body 5 along the top opening of the box body 5 in a clamping manner.

The manner of clamping the bracket 1 to the inner peripheral wall of the accommodating cavity 5a is not limited, and includes but is not limited to clamping by one or more pairs of concave grooves and convex grooves.

In an embodiment, referring to fig. 7 and 8, the plate 31 is formed with a slot 31b having the same extending direction as the first sliding groove 1b, the bottom of the accommodating cavity 5a is formed with a strip 51 extending upward, and the strip 51 slidably penetrates through the slot 31b and is clamped with the slot 31 b. So set up, on one hand, card strip 51 and draw-in groove 31b joint to make plate body 31 be fixed in the bottom that holds chamber 5a along the upper and lower direction. On the other hand, the engaging groove 31b extends in the same direction as the first sliding groove 1b, and the sliding of the slider 3 can be ensured smoothly. Because the clamping strip 51 is fixedly arranged at the bottom of the accommodating cavity 5a, when the plate body 31 slides along the extending direction of the first sliding chute 1b, the clamping strip 51 is slidably arranged in the clamping groove 31b in the opposite sliding direction relative to the plate body 31, and therefore, the clamping strip 51 can not obstruct the plate body 31 from sliding along the extending direction of the first sliding chute 1b when being clamped with the clamping groove 31b along the up-down direction.

In an exemplary embodiment, referring to fig. 7 and 8, a locking protrusion 511 is formed at an upper end of the locking strip 51, and the locking protrusion 511 extends toward a peripheral side wall parallel to an extending direction of the locking slot 31b and is overlapped on an upper end surface of the plate body 31. Specifically, the clip strip 51 penetrates through the slot 31b from bottom to top, and the protruding portion 511 horizontally extends toward the peripheral side wall of the slot 31b along the direction perpendicular to the front-back direction and is lapped on the upper end surface of the plate body 31, so that the protruding portion 511 does not obstruct the plate body 31 from sliding along the extending direction of the first sliding groove 1b, but can restrict the plate body 31 from moving along the up-down direction. The horizontal direction in the horizontal extension is a horizontal plane perpendicular to the up-down direction, and the front-back direction and the left-right direction are parallel to the horizontal plane.

In an embodiment, referring to fig. 7 and 8, the card slot 31b is a rectangular slot extending along the front-back direction, the number of the card strips 51 is plural, and the plural card strips 51 are symmetrically arranged with respect to each other with the extending direction of the card slot 31b as a symmetry axis. A plurality of card strips 51 symmetrical arrangement can restrict the slip of plate body 31 along the upper and lower direction more reliably, guarantee plate body 31 joint in the bottom that holds chamber 5 a.

In an embodiment, referring to fig. 3 to 5, the pushing portion 32 is a protrusion structure disposed on the upper surface of the plate 31, a direction of the pushing portion 32 approaching the first sliding groove 1b is an advancing direction, and a thickness of the pushing portion 32 gradually decreases along the advancing direction. That is, when the plate 31 slides in the forward direction, the pushing portion 32 gradually slides into the first chute 1b and abuts against the lower end surface of the powder tray 2, and the thickness of the contact area between the pushing portion 32 and the lower end of the powder tray 2 is smaller when the pushing portion 32 just slides into the first chute 1b, and as the pushing portion 32 gradually slides in the forward direction, the thickness of the contact area between the pushing portion 32 and the lower end of the powder tray 2 is gradually increased, the contact area between the pushing portion 32 and the powder tray 2 gradually moves upward, and the powder tray 2 is gradually pushed out of the tray cavity 1a by the pushing portion 32 from bottom to top.

The pushing portion 32 is a convex structure, which includes, but is not limited to, a triangle, a hemisphere, etc. which gradually protrudes upwards. In an exemplary embodiment, referring to fig. 3-5, the pushing portion 32 is a triangular prism structure with the edge of the triangular prism extending horizontally.

In one embodiment, referring to fig. 3 to 5, the number of the powder discs 2 is multiple, the tray 1 is provided with a plurality of disc cavities 1a corresponding to the powder discs 2 one by one, the sliding member 3 is provided with a plurality of pushing portions 32 corresponding to the powder discs 2 one by one, and the plate 31 slides to drive the pushing portions 32 to slide synchronously and push the powder discs 2 to be removed from the disc cavities 1a. That is, a plurality of powder discs 2 can be stored in one compact assembly 100, and a plurality of powder discs 2 can satisfy the storage requirements of users for different types of cosmetic materials. When the powder plate 2 needs to be replaced, a user only needs to simply slide the push button 311, and can directly drive the powder plates 2 to be separated from the respective plate cavities 1a, so that the operation times are reduced, and the replacement convenience is improved.

For example, referring to fig. 3-5, in one embodiment, compact assembly 100 includes four compact discs 2, four disc cavities 1a disposed on a carrier 1, and four pushing portions 32 disposed on a slide 3. The four powder discs 2 are respectively and uniformly arranged in the four disc cavities 1a along the front-back direction and the left-right direction vertical to the front-back direction.

In one embodiment, referring to fig. 3 to 6, the powder tray 2 has a locked state locked with the plate 31 and an unlocked state unlocked with the plate 31, and the plate 31 slides to switch the powder tray 2 between the locked state and the unlocked state.

In the locked state of the powder pan 2, the pushing portion 32 is located outside the first chute 1b. That is, the powder pan 2 is inserted into the pan chamber 1a in the locked state, and the powder pan 2 is locked with the plate body 31, so that the powder pan 2 does not come out of the pan chamber 1a.

When the powder tray 2 is in the unlocked state, the pushing part 32 slides into the first chute 1b and pushes the lower end surface of the powder tray 2, so that the powder tray 2 slides upwards to be separated from the tray cavity 1a. That is, the powder tray 2 is pushed upward out of the tray cavity 1a by the pushing portion 32 in the unlocked state, and the ejected powder tray 2 can be taken out to realize replacement and secondary use of the powder tray 2.

In an exemplary embodiment, referring to fig. 3 to 6, the plate 31 is formed with a second chute 31a, the second chute 31a is partially contracted to form a necking section 31aa, the bottom of the powder pan 2 is formed with a hook nail 21, the hook nail 21 includes a nail post 211 and a nail cap 212 connected to a lower end of the nail post 211, and the nail post 211 is slidably disposed in the second chute 31 a. Specifically, the hook nail 21 extends in the up-down direction, the extending direction of the second slide groove 31a is the same as the extending direction of the first slide groove 1b, the width of the necking section 31aa is narrower relative to the width of the second slide groove 31a at other positions, the width of the necking section 31aa can only allow the nail post 211 to pass through, but the nail cap 212 cannot pass through.

In the locked state of the powder pan 2, the stud 211 enters the throat section 31aa, and the upper end surface of the nut 212 abuts against the lower end surface of the plate body 31. For example, referring to fig. 3 to 6, the stud 211 and the nut 212 are both circular cylindrical structures, the outer diameter of the stud 211 is smaller than the outer diameter of the nut 212, the upper end surface of the stud 211 is connected to the lower end surface of the powder pan 2, the lower end surface of the stud 211 is connected to the upper end surface of the nut 212, the pushing portion 32 of the powder pan 2 is located outside the first chute 1b in the locked state, the stud 211 penetrates through the throat section 31aa, the nut 212 is located below the throat section 31aa, and the upper end surface of the nut 212 can abut against the lower end surface of the plate body 31 to limit the powder pan 2 from coming out of the pan cavity 1a upward.

In the unlocked state of the powder pan 2, the stud 211 comes out of the throat section 31aa. Specifically, the plate body 31 slides along the forward direction, the nail post 211 relatively slides out of the necking section 31aa along the reverse direction of the forward direction, the second chute 31a can allow the nail post 211 and the nail cap 212 to pass through along the up-and-down direction, the nail cap 212 is separated from the necking section 31aa, and the powder tray 2 can be pulled out of the tray cavity 1a upwards.

That is to say, through the cooperation of the second chute 31a and the hook nail 21, on the one hand, the powder tray 2 can be locked or unlocked, and in the locked state of the powder tray 2, the hook nail 21 is hooked with the second chute 31a, so that the powder tray 2 can be ensured not to accidentally fall out of the tray cavity 1a in the normal use state. On the other hand, the engagement of the second slide groove 31a with the hook nail 21 is highly reliable in the hooking engagement.

In one embodiment, the direction of the pushing portion 32 approaching the first chute 1b is the advancing direction, the upper surface of the plate 31 is formed with a first hook opening away from the advancing direction, and the powder tray 2 is formed with a second hook opening along the advancing direction. Specifically, first couple and second couple are all roughly "L" shape structure, and first couple includes first riser and first diaphragm, and the first riser upwards extends from the up end of plate body 31, and first riser upper end is connected to the first diaphragm and is extended towards the direction of advance, and the second couple includes second riser and second diaphragm, and the second riser extends downwards from the lower terminal surface of powder dish 2, and the second diaphragm is connected the second riser lower extreme and is extended along the opposite direction of advance.

The first hook and the second hook are hooked when the powder plate 2 is in a locked state. Specifically, under the locking state of powder dish 2, first diaphragm is inserted and is located the second couple in the opening along the advancing direction, and the second diaphragm is inserted and is located the first couple and deviate from the advancing direction in the opening, the lower terminal surface of first diaphragm can with the up end butt of second diaphragm to restriction powder dish 2 upwards deviates from a set chamber 1a.

The powder plate 2 is under the unblock state, and first couple and second couple are separated. Specifically, the plate body 31 slides along the advancing direction, the first transverse plate is separated from the opening of the second hook along the advancing direction, the second transverse plate is separated from the opening of the first hook along the reverse direction of the advancing direction, the first transverse plate and the second transverse plate are separated, and the powder plate 2 can be separated from the plate cavity 1a upwards.

That is to say, through the cooperation of first couple and second couple, also can lock or unblock powder dish 2, powder dish 2 is under the locking state, and first couple and second couple hookup can guarantee that powder dish 2 can not unexpected deviate from dish chamber 1a under normal use state.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A compact assembly, comprising:

a bracket formed with a disc cavity having an open top side, a bottom side of the bracket being formed with a first sliding groove communicating with the disc cavity;

the powder disc is detachably arranged in the disc cavity;

the sliding piece comprises a plate body and a pushing part arranged at the upper end of the plate body; the plate body is slidably arranged below the bracket; the plate body slides to drive the pushing part to slide into the first chute and push the powder plate to be separated from the plate cavity.

2. The powder container assembly according to claim 1, wherein the pushing portion is a protrusion structure provided on an upper surface of the plate, a direction of the pushing portion approaching the first sliding groove is an advancing direction, and a thickness of the pushing portion gradually decreases along the advancing direction.

3. The powder container assembly according to claim 1, wherein the powder discs are provided in plural numbers, the bracket is provided with plural disc cavities corresponding to the plural powder discs one to one, the sliding member is provided with plural pushing portions corresponding to the plural powder discs one to one, and the plate body slides to drive the plural pushing portions to slide synchronously and push the plural powder discs to come out of the plural disc cavities simultaneously.

4. The powder container assembly according to claim 1, wherein the powder pan has a locked state locked with the plate body and an unlocked state unlocked with the plate body, the plate body sliding to switch the powder pan between the locked state and the unlocked state;

in the locking state, the pushing part is positioned outside the first sliding groove;

in the unlocking state, the pushing part slides into the first chute and pushes the lower end face of the powder tray, so that the powder tray slides upwards to be separated from the tray cavity.

5. The powder box assembly according to claim 4, wherein a second chute is formed on the plate body, a part of the second chute is contracted to form a contracted section, a hook nail is formed at the bottom of the powder tray, the hook nail comprises a nail column and a nail cap connected with the lower end of the nail column, and the nail column is slidably arranged in the second chute;

in the locking state, the nail column enters the necking section, and the upper end face of the nail cap abuts against the lower end face of the plate body; in the unlocked state, the nail post is disengaged from the throat section.

6. The powder container assembly according to claim 4, wherein a direction in which the pushing portion approaches the first chute is a forward direction, a first hook that opens away from the forward direction is formed on an upper surface of the plate body, and a second hook that opens along the forward direction is formed on the powder pan;

in the locked state, the first hook and the second hook are hooked; in the unlocked state, the first hook and the second hook are separated.

7. The powder box assembly according to any one of claims 1 to 6, comprising a box cover and a box body, wherein the box body is formed with a containing cavity with an open top, the bottom side of the box body is formed with a push groove communicated with the containing cavity, the box cover covers the open top of the containing cavity, and the powder disc, the bracket and the plate body are all arranged in the containing cavity;

the lower surface of the plate body is provided with a push button located at the position of the push groove, and the push button is pushed to drive the plate body to slide.

8. The compact assembly of claim 7 wherein the push knob is slidably nested within the push slot.

9. The powder box assembly according to claim 7, wherein a clamping groove is formed on the plate body and extends in the same direction as the first sliding groove, an upward extending clamping strip is formed at the bottom of the accommodating cavity, and the clamping strip is slidably inserted into the clamping groove and clamped with the clamping groove.

10. The compact assembly of claim 9 wherein the upper end of the locking strip is formed with a locking projection extending toward the peripheral sidewall parallel to the direction of extension of the locking slot and overlapping the upper end surface of the plate.

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