A rotary eyeshadow palette
The rotating eyeshadow palette uses a combination of grooves and sliders to open and close the inner box, solving the problems of damage to long nails and inconvenience in operation caused by traditional flip-top eyeshadow palettes, and providing a safe and reliable user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN JIPEI GREEN SCI & TECH LTD
- Filing Date
- 2025-07-11
- Publication Date
- 2026-06-19
Smart Images

Figure CN224369277U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of cosmetic technology, and in particular relates to a rotating eyeshadow palette. Background Technology
[0002] As an essential tool for makeup creation, the ease of use of eyeshadow containers directly impacts user experience. Traditional eyeshadow palettes often employ a flip-top design, requiring one hand to hold the base while the other flips up the lid. This two-handed operation has significant limitations in certain situations: firstly, for people with long nails or those who have had manicures, frequent friction between the nails and the edge of the lid can easily damage the nail surface or cause decorations to fall off, making the opening and closing process both strenuous and potentially dangerous; secondly, conventional flip-top eyeshadow palettes require the user's entire palm to support the base, which can be difficult for users with smaller hands to maintain stability, making them inconvenient to use.
[0003] Therefore, there is an urgent need for a rotating eyeshadow palette that is easy to open and close and convenient to use. Utility Model Content
[0004] The purpose of this invention is to address the shortcomings of existing technologies by providing a rotating eyeshadow palette that allows for opening and closing by rotating the inner box, which is safe, reliable, and easy to use.
[0005] To achieve the above objectives, the present invention adopts the following technical solution:
[0006] A rotating eyeshadow palette, comprising:
[0007] The outer box has a screw outlet on one side and at least one set of sliding grooves on the inner side of the front or the inner side of the back of the outer box.
[0008] An inner box is installed inside the outer box. The inner box is provided with a storage slot and a traction component. The front or back of the inner box is provided with a slider assembly that cooperates with the sliding groove assembly.
[0009] The slide group includes a first slide and a second slide, and the slider group includes a first slider falling into the first slide and a second slider falling into the second slide. When the inner box is screwed out from the screw outlet of the outer box, the inner box rotates about the first slider as an axis, and the second slider slides in the second slide along the opening direction of the second slide in an arc.
[0010] Furthermore, the outer box has a clearance opening on the side adjacent to the rotating outlet, the clearance opening being located at the end away from the slide rail assembly, and the rotating outlet and the clearance opening together form an L-shaped opening.
[0011] Furthermore, the second slide includes a straight segment and an arc segment connected to the straight segment. The first slide is parallel to the straight segment and forms a locking position and a rotating position at both ends of the first slide. When the first slider is in the locking position and the second slider is in the straight segment, the inner box is locked inside the outer box. When the inner box is moved so that the first slider is in the rotating position and the second slider is in the arc segment, the inner box can rotate about the first slider as an axis, and the second slider will slide in the arc segment.
[0012] Furthermore, when the inner box is moved so that the first slider is in the rotation position and the second slider is in the arc segment, a portion of the inner box extends out from the clearance opening.
[0013] Furthermore, the traction member is located on the side of the inner box at one end corresponding to the clearance opening.
[0014] Furthermore, the traction component is a rope or belt.
[0015] Furthermore, the side of the second slide groove is provided with a first protrusion at the connection between the straight segment and the arc segment, and the second slider passes over the first protrusion at the straight segment and enters the arc segment.
[0016] Furthermore, a second protrusion is provided on the side of the arc segment near the first protrusion. When the inner box rotates about the first slider to unscrew the inner box, the second slider will pass the second protrusion in the arc segment and then slide along the arc segment.
[0017] Furthermore, the outer box has a blocking edge on the side where the rotating outlet is located. When the first slider is in the locked position and the second slider is in the straight line segment, a portion of the inner box corresponds to the inside of the blocking edge.
[0018] Furthermore, when the inner box rotates 90 degrees about the first slider as an axis, the second slider is at one end of the second slide groove.
[0019] The beneficial effects of this utility model are:
[0020] This invention utilizes the symmetrical cooperation of the outer box's sliding groove assembly and the inner box's slider assembly. Users can rotate the inner box around the first slider as an axis by operating the traction component, avoiding the damage to users with long nails caused by traditional flip-top designs and improving ease of operation. The locking and rotating positions of the first sliding groove, along with the segmented design of the straight and curved sections of the second sliding groove, enable dual-state switching of the inner box. The first and second protrusions on the curved section effectively confine the second slider within the straight section, preventing the inner box from accidentally sliding into the rotating state. A blocking edge on the rotating outlet side limits the inner box's closure, creating a double safety mechanism combined with the sliding groove locking. This invention allows for the opening and closing of the eyeshadow palette by rotating the inner box, ensuring safety, reliability, and ease of use. Attached Figure Description
[0021] Appendix Figure 1 This is a schematic diagram of the structure of the rotating eyeshadow palette of this utility model;
[0022] Appendix Figure 2 This is a schematic diagram of the outer box of this utility model;
[0023] Appendix Figure 3 This is a cross-sectional view of the outer box of this utility model;
[0024] Appendix Figure 4 This is a structural schematic diagram of the inner box of this utility model;
[0025] Appendix Figure 5 This is a schematic diagram of the rotating eyeshadow palette of this utility model in a locked state;
[0026] Appendix Figure 6 This is a schematic diagram of the rotating eyeshadow palette of this utility model in a ready state;
[0027] Appendix Figure 7 This is a schematic diagram of the rotating eyeshadow palette of this utility model in a rotating state;
[0028] Appendix Figure 8 This is a schematic diagram of the rotating eyeshadow palette of this utility model in the open state;
[0029] The diagram shows the following markings: 1-Outer box, 110-Screw outlet, 120-Slide group, 121-First slide, 1211-Locking position, 1212-Rotation position, 122-Second slide, 1221-Straight segment, 1222-Curved segment, 1223-First protrusion, 1224-Second protrusion, 130-Leaving opening, 140-Blocking edge; 2-Inner box, 210-Storage slot, 220-Slider group, 221-First slider, 222-Second slider; 3-Traction component. Detailed Implementation
[0030] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this utility model, and should not be construed as limiting this utility model.
[0031] In the description of this utility model, it should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0032] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying 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 this utility model, "a plurality of" means two or more, unless otherwise explicitly specified.
[0033] In the embodiments of this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "joining," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. For those skilled in the art, the specific meaning of the above terms in this utility model can be understood according to the specific circumstances.
[0034] See appendix Figure 1 To be continued Figure 8 The figure shows a specific embodiment of the rotating eyeshadow palette provided by this utility model.
[0035] See appendix Figure 1 The rotating eyeshadow palette includes:
[0036] Outer box 1, with a screw outlet 110 on one side, and at least one set of slide grooves 120 on the inner side of the front or the inner side of the back of the outer box 1.
[0037] The inner box 2 is installed inside the outer box 1. The inner box 2 is provided with a storage slot 210 and a traction component 3. The front or back of the inner box 2 is provided with a slider assembly 220 that cooperates with the slide groove assembly 120.
[0038] The slide rail assembly 120 includes a first slide rail 121 and a second slide rail 122. The slider assembly 220 includes a first slider 221 that falls into the first slide rail 121 and a second slider 222 that falls into the second slide rail 122. When the inner box 2 is screwed out from the screw outlet 110 of the outer box 1, the inner box 2 rotates about the first slider 221 as an axis, and the second slider 222 slides in an arc shape in the second slide rail 122 along the opening direction of the second slide rail 122.
[0039] See appendix Figure 2 and attached Figure 4 In the above embodiment, both the outer box 1 and the inner box 2 are cuboid structures. The screw-out opening 110 is located on the long side of the outer box 1. The outer front and outer back of the outer box 1 are used to print product information. The inner front and inner back of the outer box 1 are provided with symmetrical sliding grooves 120. These grooves cooperate with the sliding block assemblies 220 on the front and back of the inner box 2 to achieve relative rotation between the inner box 2 and the outer box 1. Specifically, the first sliding groove 121 and the first protrusion 1223 form a rotating shaft. The second sliding groove 122 is arc-shaped. In use, the user drives the inner box 2 to rotate relative to the outer box 1 by flicking or pulling the traction member 3, thus screwing a part of the inner box 2 out of the outer box 1, avoiding damage to users with long nails caused by traditional flip-top designs. The storage compartment 210 is used to store eyeshadow powder and is located in the part of the inner box 2 that is twisted out. The outer box 1 after the inner box 2 is twisted out naturally becomes the force point for holding. Users can easily hold the outer box 1 from the side without using their palm to support the entire eyeshadow palette, making it convenient to use.
[0040] See appendix Figure 1 In the above embodiment, the outer box 1 has a clearance opening 130 on the side adjacent to the screw-out outlet 110. The clearance opening 130 is located at the end away from the slide rail assembly 120, and the screw-out outlet 110 and the clearance opening 130 together form an L-shaped opening. In this embodiment, the clearance opening 130 facilitates the inner box 2 to obtain sufficient extension space when rotating, avoiding structural interference between the inner box 2 and the outer box 1.
[0041] See appendix Figure 3In the above embodiment, the second slide 122 includes a straight segment 1221 and an arc segment 1222 connected to the straight segment 1221. The first slide 121 is parallel to the straight segment 1221 and forms a locking position 1211 and a rotating position 1212 at both ends of the first slide 121. When the first slider 221 is in the locking position 1211 and the second slider 222 is in the straight segment 1221, the inner box 2 is locked inside the outer box 1. When the inner box 2 is moved so that the first slider 221 is in the rotating position 1212 and the second slider 222 is in the arc segment 1222, the inner box 2 can rotate about the first slider 221 as an axis, and the second slider 222 will slide in the arc segment 1222. In the embodiment, when the first slider 221 is in the locking position 1211 and the second slider 222 is in the straight segment 1221, the inner box 2 is in a locked state, as shown in the attached figure. Figure 5 As shown, if an attempt is made to rotate the inner box 2 about the first slider 221, the inner box 2 cannot be successfully rotated because the second slider 222 is not in the arc segment 1222, thus locking the inner box 2 and ensuring carrying stability. When the inner box 2 is moved so that the first slider 221 is in the rotation position 1212 and the second slider 222 is in the arc segment 1222, the inner box 2 is in a rotating state or about to rotate, as shown in the attached diagram. Figure 7 As shown, the arc segment 1222 provides a smooth opening and closing path. In this embodiment, the dual state switching of the inner box 2 is achieved through the segmented design of the locking position 1211 and the rotation position 1212 of the first slide 121 and the straight segment 1221 and the arc segment 1222 of the second slide 122.
[0042] See appendix Figure 6 In the above embodiment, when the inner box 2 is moved so that the first slider 221 is in the rotation position 1212 and the second slider 222 is in the arc segment 1222, a portion of the inner box 2 extends out from the relief opening 130. In this embodiment, the traction member 3 is provided on the side of the inner box 2 corresponding to one end of the relief opening 130. In use, pulling the traction member 3 outward causes the inner box 2, which was originally in the locked state, to slide to the rotation state. At the same time, a portion of the inner box 2 extends out from the relief opening 130. At this time, the edge of the portion of the inner box 2 extending from the relief opening 130 can be pushed towards the rotation outlet 110 to make the inner box 2 rotate, or the traction member 3 can be pulled towards the rotation outlet 110 to make the inner box 2 rotate. In this embodiment, the traction member 3 is a rope.
[0043] See appendix Figure 3In the above embodiment, a first protrusion 1223 is provided on the side of the second slide groove 122 at the connection between the straight segment 1221 and the arc segment 1222. The second slider 222 passes over the first protrusion 1223 at the straight segment 1221 and enters the arc segment 1222. In this embodiment, by providing the first protrusion 1223 at the connection between the straight segment 1221 and the arc segment 1222, a certain force needs to be applied when opening the inner box 2 to make the second slider 222 pass over the first protrusion 1223, preventing the inner box 2 from accidentally sliding into a rotating state and enhancing the closing stability.
[0044] See appendix Figure 3 In the above embodiment, a second protrusion 1224 is provided on the side of the arc segment 1222 near the first protrusion 1223. When the inner box 2 rotates about the first slider 221 to unscrew the inner box 2, the second slider 222 will slide along the arc segment 1222 after passing the second protrusion 1224. In the embodiment, during use, the traction member 3 is pulled outward to make the original position as attached Figure 5 As shown, a portion of the inner box 2 in the locked state extends out of the clearance opening 130, while the second slider 222 of the inner box 2 passes over the first protrusion 1223. At this time, the second slider 222 is positioned between the first protrusion 1223 and the second protrusion 1224 as shown in the attached figure. Figure 6 The prepared state is shown; then, a force is applied towards the rotary outlet 110 to pull the traction member 3, and when the second slider 222 passes the second protrusion 1224, the inner box 2 rotates and enters as shown in the attached figure. Figure 7 The inner box 2 is in the rotational state shown; when the inner box 2 continues to rotate until the second slider 222 is at the end of the arc segment 1222, the inner box 2 is in the position shown in the attached figure. Figure 8 The open state shown is as follows: when the inner box 2 rotates 90 degrees about the first slider 221, the second slider 222 is at the end of the second slide groove 122. At this time, the storage slot 210 on the inner box 2 is fully exposed, which is convenient for the user to perform makeup operations.
[0045] See appendix Figure 3 In the above embodiment, the outer box 1 has a blocking edge 140 on the side where the screw outlet 110 is located. When the first slider 221 is in the locked position 1211 and the second slider 222 is in the straight segment 1221, a part of the inner box 2 corresponds to the blocking edge 140. In this embodiment, by providing a blocking edge 140 on the side of the screw outlet 110, the inner box 2 is limited by the blocking edge 140 when closed. Combined with the locking position 1211 of the first slide groove 121, the straight segment 1221 of the second slide groove 122, and the first protrusion 1223 of the second slide groove 122, a double insurance mechanism is formed to prevent accidental opening during transportation.
[0046] In summary, this embodiment provides a rotating eyeshadow palette. Through the symmetrical cooperation of the sliding groove assembly 120 of the outer box 1 and the slider assembly 220 of the inner box 2, the user can rotate the inner box 2 about the first slider 221 by operating the traction member 3, avoiding damage to users with long nails caused by traditional flip-top designs and improving ease of operation. The segmented design of the locking position 1211 and rotating position 1212 of the first sliding groove 121, and the straight segment 1221 and curved segment 1222 of the second sliding groove 122, effectively... The inner box 2 has a dual-state switching capability. By setting a first protrusion 1223 and a second protrusion 1224 on the arc segment 1222, the second slider 222 is easily restricted in the straight segment 1221, preventing the inner box 2 from accidentally sliding into the rotation state. By setting a blocking edge 140 on the side of the rotating outlet 110, the inner box 2 is limited by the blocking edge 140 when closed, and a double safety is formed by combining the sliding groove locking. This embodiment can realize the opening and closing operation of the eyeshadow palette by rotating the inner box 2, which is safe, reliable and convenient to use.
[0047] The embodiments described above are merely one of the preferred embodiments of this utility model. Ordinary variations and substitutions made by those skilled in the art within the scope of the technical solution of this utility model should be included within the protection scope of this utility model.
Claims
1. A rotating eyeshadow palette, characterized in that, include: The outer box (1) has a screw outlet (110) on one side and at least one set of slide grooves (120) on the inner side of the front or the inner side of the back of the outer box (1). The inner box (2) is installed inside the outer box (1). The inner box (2) is provided with a storage slot (210) and a traction member (3). The front or back of the inner box (2) is provided with a slider group (220) that cooperates with the slide group (120). The slide group (120) includes a first slide (121) and a second slide (122). The slider group (220) includes a first slider (221) falling into the first slide (121) and a second slider (222) falling into the second slide (122). When the inner box (2) is screwed out from the screw outlet (110) of the outer box (1), the inner box (2) rotates about the first slider (221) as an axis, and the second slider (222) slides in an arc shape in the second slide (122) along the opening direction of the second slide (122).
2. A rotating eyeshadow palette according to claim 1, characterized in that, The outer box (1) has a clearance opening (130) on the side adjacent to the rotary outlet (110). The clearance opening (130) is located at the end away from the slide group (120). The rotary outlet (110) and the clearance opening (130) together form an L-shaped opening.
3. A rotating eyeshadow palette according to claim 2, characterized in that, The second slide (122) includes a straight segment (1221) and an arc segment (1222) connected to the straight segment (1221). The first slide (121) is parallel to the straight segment (1221) and forms a locking position (1211) and a rotating position (1212) at both ends of the first slide (121). When the first slider (221) is in the locking position (1211) and the second slider (222) is in the straight segment (1221), the inner box (2) is locked inside the outer box (1). When the inner box (2) is moved so that the first slider (221) is in the rotating position (1212) and the second slider (222) is in the arc segment (1222), the inner box (2) can rotate about the first slider (221) as an axis, and the second slider (222) will slide in the arc segment (1222).
4. A rotating eyeshadow palette according to claim 3, characterized in that, When the inner box (2) is moved such that the first slider (221) is in the rotation position (1212) and the second slider (222) is in the arc segment (1222), a portion of the inner box (2) extends out from the relief opening (130).
5. A rotating eyeshadow palette according to claim 3, characterized in that, The traction member (3) is located on the side of the inner box (2) at one end corresponding to the relief opening (130).
6. A rotating eyeshadow palette according to claim 5, characterized in that, The traction component (3) is a rope.
7. A rotating eyeshadow palette according to claim 3, characterized in that, The side of the second slide (122) is provided with a first protrusion (1223) at the connection between the straight segment (1221) and the arc segment (1222), and the second slider (222) passes the first protrusion (1223) at the straight segment (1221) and enters the arc segment (1222).
8. A rotating eyeshadow palette according to claim 7, characterized in that, A second protrusion (1224) is provided on the side of the arc segment (1222) near the first protrusion (1223). When the inner box (2) rotates about the first slider (221) to unscrew the inner box (2), the second slider (222) will slide along the arc segment (1222) after passing the second protrusion (1224) in the arc segment (1222).
9. A rotating eyeshadow palette according to claim 7, characterized in that, The outer box (1) has a blocking edge (140) on the side where the rotating outlet (110) is located. When the first slider (221) is in the locked position (1211) and the second slider (222) is in the straight line segment (1221), a part of the inner box (2) corresponds to the blocking edge (140).
10. A rotating eyeshadow palette according to claim 1, characterized in that, When the inner box (2) rotates 90 degrees about the first slider (221) as an axis, the second slider (222) is located at one end of the second groove (122).