Resin table top ornament craft

Abstract

The utility model discloses resin desktop ornament handicraft relates to the field of spherical handicraft ornament, including protection seat subassembly and the spherical ornament body of placing in protection seat subassembly inside, the support seat subassembly of limiting spherical ornament body is provided to protection seat subassembly inside, the suction assembly of negative pressure adsorption on the desktop is provided with to the lower part of protection seat subassembly, and protection seat subassembly is composed of two parts of sheath no.

Description

Technical Field

[0001] This utility model relates to the field of spherical craft ornaments, and more particularly to resin desktop ornament crafts. Background Technology

[0002] These spherical crafts, made from transparent or colored resin, are approximately 80-150 mm in diameter and often feature decorative elements such as dried flowers, seashells, or miniature landscapes. Because the bottom of the sphere has no flat surface, it needs to be placed on a table with a special metal or wooden stand. They are widely used in office and home settings.

[0003] Existing spherical resin desktop ornaments generally rely on ring brackets or three-point support frames for fixation. Their core flaw lies in the fact that the sphere and the support only form point or line contact: the inner diameter of the ring bracket is usually 0.5 times larger than the diameter of the sphere to ensure smooth rotation, resulting in the sphere actually only having 2-3 scattered tiny contact points with the upper edge of the support; although the three-point support frame increases the number of contact points, the top of each support point often uses a smooth metal protrusion or narrow edge design to reduce frictional resistance, forming a discontinuous short line contact area. This micro-contact structure makes the sphere's resistance to displacement extremely weak. When the desktop is disturbed by external force or when the user picks up the support with one hand, the sphere instantly detaches from the contact point due to inertia and falls down the inclined surface of the support. Utility Model Content

[0004] The purpose of this utility model is to provide a resin desktop ornament craft to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention adopts the following technical solution: a resin desktop ornament, comprising a protective base assembly and a spherical ornament body placed inside the protective base assembly, wherein a support base assembly for limiting the spherical ornament body is provided on the inner side of the protective base assembly, and a suction component for negative pressure adsorption on the desktop is provided at the lower part of the protective base assembly.

[0006] The protective base assembly includes a first protective sleeve and a second protective sleeve that slides on its outer side, and a locking component for locking is provided between the first protective sleeve and the second protective sleeve.

[0007] The suction component includes a ring seat coaxially fixedly installed on the lower side of the second sheath, and the bottom of the ring seat has a plurality of rubber suction cups arranged in a ring.

[0008] As a further description of the above technical solution: the bottom of the ring seat has a ring array through which several through holes 1 are opened, and several rubber suction cups are respectively connected to the inner cavity of the ring seat through several through holes 1. The top of the ring seat has a ring array through which several through holes 2 are opened.

[0009] As a further description of the above technical solution: the second sheath is concentric with the ring seat, and the bottom end of the second sheath is fixedly connected to a sealing pressure plate for sealing several through holes.

[0010] As a further description of the above technical solution: the locking assembly includes a through groove 2 symmetrically opened through the outer side of the sheath 1 and a through groove 1 symmetrically opened through the outer side of the sheath 2. Guide rings are slidably connected in both through grooves 2, and two slide rods are slidably connected in each of the two guide rings.

[0011] As a further description of the above technical solution: the locking assembly also includes a plurality of toothed plates arranged in a rectangular array on the inner side of the sheath one, the plurality of toothed plates on the same side being symmetrically arranged on both sides of the through groove two, the opposite faces of the two slide rods being respectively fixedly connected with two toothed blocks that engage with the plurality of toothed plates on the same side, and two springs being respectively sleeved on the outer surface of the two slide rods, the two ends of the two springs being respectively abutted between the toothed blocks on the same side and the guide ring on the same side.

[0012] As a further description of the above technical solution: the support assembly includes a ring frame fixedly connected to the lower side of the inner cavity of the sheath, and a fixed plate coaxially disposed on the upper part of the ring frame. A plurality of L-shaped connecting arms are installed in a ring array between the ring frame and the fixed plate. A plurality of hinge frames are installed in a ring array on the side of the top of the fixed plate away from the axis. A plurality of hinge rods are hingedly installed on each of the hinge frames.

[0013] As a further description of the above technical solution: metal springs are provided between the opposing surfaces of the several hinge rods and the several L-shaped connecting arms, and several retainers for limiting the several metal springs are fixedly installed at the top of the several L-shaped connecting arms in the horizontal direction.

[0014] In summary, due to the adoption of the above technical solution, the beneficial effects of this utility model are:

[0015] When the spherical ornament is placed on the table via the protective base assembly, it is firmly fixed to the table by the negative pressure adsorption of the suction component at the bottom of the protective base assembly. The protective base assembly consists of two parts, a slidingly connected sleeve one and a sleeve two. When it is necessary to pick up the device to clean the table, firstly, the locking component releases the locking state of sleeve one and sleeve two, and then sleeve two is lifted upwards. This operation has a dual effect: on the one hand, the upward movement of sleeve two extends the vertical length of sleeve one, thereby enhancing the restriction of the spherical ornament inside sleeve one and effectively reducing the risk of the spherical ornament falling out due to tilting during the picking process; on the other hand, the upward movement of sleeve two simultaneously releases the negative pressure adsorption between the suction component and the table, preventing the spherical ornament from falling out of sleeve one due to the inertia generated by forceful pulling. Attached Figure Description

[0016] Figure 1 This is a side elevation view of the overall structure of this utility model;

[0017] Figure 2 This is a partial cross-sectional structural diagram of the present invention.

[0018] Figure 3 This is a schematic diagram of the connection structure of the support base assembly in this utility model;

[0019] Figure 4 This is a schematic diagram of the cross-sectional disassembly of sheath one and sheath two in this utility model;

[0020] Figure 5 This utility model Figure 4 Enlarged view of node A in the middle;

[0021] Figure 6 This utility model Figure 4 A magnified view of node B in the middle.

[0022] Legend:

[0023] 1. Protective base assembly; 11. Sheath 1; 12. Sheath 2; 121. Sealing pressure plate; 2. Spherical ornament body; 3. Support base assembly; 31. Ring frame; 32. Fixing plate; 33. L-shaped connecting arm; 34. Hinge frame; 341. Hinge rod; 35. Sleeve; 351. Metal spring; 4. Suction assembly; 41. Ring seat; 411. Through hole 1; 412. Through hole 2; 42. Rubber suction cup; 5. Locking assembly; 51. Through groove 1; 511. Through groove 2; 52. Toothed plate; 53. Slide rod; 54. Toothed block; 55. Spring. Detailed Implementation

[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0025] like Figure 1 - Figure 6 As shown, the present invention provides a resin desktop ornament craft, including a protective base assembly 1 and a spherical ornament body 2 placed inside the protective base assembly 1. A support base assembly 3 is provided inside the protective base assembly 1 to limit the spherical ornament body 2, and a suction component 4 for negative pressure adsorption on the desktop is provided at the lower part of the protective base assembly 1.

[0026] The protective base assembly 1 includes a first sleeve 11 and a second sleeve 12 that slides on its outer side. A locking component 5 for locking is provided between the first sleeve 11 and the second sleeve 12.

[0027] The suction component 4 includes a ring seat 41 coaxially fixedly installed on the lower side of the protective sleeve 12, and a number of rubber suction cups 42 are arranged in a ring at the bottom of the ring seat 41;

[0028] In actual use, the device is tightly adhered to the tabletop by several rubber suction cups 42 under the ring seat 41 under negative pressure. The protective seat assembly 1 consists of two parts: a slidingly connected protective sleeve 11 and a protective sleeve 2 12. When it is necessary to pick up the device to clean the tabletop, the locking assembly 5 is used to release the locking state between the protective sleeve 11 and the protective sleeve 2 12. Then, the protective sleeve 2 12 is lifted upward. The upward movement of the protective sleeve 2 12 extends the vertical length of the protective sleeve 11, thereby enhancing the limitation on the spherical ornament body 2 inside the protective sleeve 11 and effectively reducing the risk of the spherical ornament body 2 falling out due to tilting during the picking process.

[0029] At the same time, the upward movement of the protective sleeve 12 releases the negative pressure adsorption between the suction component 4 and the table, preventing the spherical ornament body 2 from falling off the protective sleeve 11 due to the inertia caused by the forceful pulling.

[0030] Specifically, the bottom of the ring seat 41 has a ring array with several through holes 411, and several rubber suction cups 42 are connected to the inner cavity of the ring seat 41 through several through holes 411. The top of the ring seat 41 has a ring array with several through holes 412.

[0031] The second sheath 12 is concentric with the ring seat 41, and the bottom end of the second sheath 12 is fixedly connected to a sealing pressure plate 121 with several through holes 412.

[0032] When this device is placed on a table, several rubber suction cups 42 are first pressed against the table. After the rubber suction cups 42 are pressed, the air inside them is forced out, and thus several rubber suction cups 42 are attracted to the table by negative pressure.

[0033] The rubber suction cup 42 is connected to the inner cavity of the ring seat 41 through the through hole 411. When the device needs to be lifted off the table, the protective sleeve 12 is pulled upward to protect the spherical ornament body 2 inside the protective seat assembly 1. At the same time, the protective sleeve 12 drives the sealing pressure plate 121 upward to release the sealing effect of several through holes 412 on the ring seat 41. In this way, external air can enter the ring seat 41 through several through holes 412, thereby releasing the negative pressure suction effect between the rubber suction cup 42 and the table.

[0034] Furthermore, the locking assembly 5 includes a through groove 2 511 symmetrically opened through the outer side of the sheath 11 and a through groove 1 51 symmetrically opened through the outer side of the sheath 2 12. Guide rings are slidably connected in both through grooves 2 511, and two slide rods 53 are slidably connected in each of the two guide rings.

[0035] The locking assembly 5 also includes a number of toothed plates 52 mounted in a rectangular array on the inner side of the sheath 11. The number of toothed plates 52 on the same side are symmetrically arranged on both sides of the through groove 2 511. The opposite faces of the two slide rods 53 are respectively fixedly connected to two toothed blocks 54 that engage with the number of toothed plates 52 on the same side. The outer surfaces of the two slide rods 53 are respectively fitted with two springs 55. The two ends of the two springs 55 are respectively abutted between the toothed blocks 54 on the same side and the guide ring on the same side.

[0036] When it is necessary to pull the second sleeve 12 upward, the two slide rods 53 are pushed closer to each other. When the two slide rods 53 are closer to each other, the limiting effect of the toothed block 54 and the toothed plate 52 on the same side is released, so the second sleeve 12 can be pulled upward. After the second sleeve 12 is reset, the two slide rods 53 are released, and the tension of the spring 55 on the same side pushes the toothed block 54 on the same side to be locked back to the toothed plate 52 on the same side.

[0037] Specifically, the support assembly 3 includes a ring frame 31 fixedly connected to the lower side of the inner cavity of the sheath 11, and a fixed plate 32 coaxially arranged on the upper part of the ring frame 31. A number of L-shaped connecting arms 33 are installed in a ring array between the ring frame 31 and the fixed plate 32. A number of hinge frames 34 are installed in a ring array on the side away from the axis at the top of the fixed plate 32. A number of hinge rods 341 are hingedly installed on each of the hinge frames 34.

[0038] Metal springs 351 are provided between the opposite faces of several hinge rods 341 and several L-shaped connecting arms 33, and several ferrules 35 for limiting several metal springs 351 are fixedly installed at the top of several L-shaped connecting arms 33 in the horizontal direction.

[0039] The spherical pendant body 2 is placed between several hinge rods 341. Due to the gravity of the spherical pendant body 2, the hinge rods 341 are pushed away from each other and open up. During this process, several metal springs 351 support the hinge rods 341. In this way, the hinge rods 341 clamp and limit the spherical pendant body 2, so that the spherical pendant body 2 can be placed in the center within the protective sleeve 11, and avoids unnecessary displacement without the action of absolute external force.

[0040] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A resin desktop ornament, comprising a protective base assembly (1) and a spherical ornament body (2) placed within the protective base assembly (1), characterized in that: The protective base assembly (1) is provided with a support base assembly (3) for the limited spherical ornament body (2) on the inner side, and a suction assembly (4) for negative pressure adsorption on the table is provided at the lower part of the protective base assembly (1). The protective seat assembly (1) includes a first sleeve (11) and a second sleeve (12) that slides on its outer side, and a locking component (5) for locking is provided between the first sleeve (11) and the second sleeve (12). The suction component (4) includes a ring seat (41) coaxially fixedly installed on the lower side of the second sheath (12), and the bottom of the ring seat (41) has a plurality of rubber suction cups (42) arranged in a ring.

2. The resin desktop ornament craft according to claim 1, characterized in that, The bottom of the ring seat (41) has a series of through holes (411) in a ring array. Several rubber suction cups (42) are connected to the inner cavity of the ring seat (41) through several through holes (411). The top of the ring seat (41) has a series of through holes (412) in a ring array.

3. The resin desktop ornament craft according to claim 2, characterized in that, The second sheath (12) is concentric with the ring seat (41), and the bottom end of the second sheath (12) is fixedly connected to a sealing pressure plate (121) for sealing and covering several through holes (412).

4. The resin desktop ornament craft according to claim 3, characterized in that, The locking assembly (5) includes a through groove two (511) symmetrically opened through the outside of the sheath one (11) and a through groove one (51) symmetrically opened through the outside of the sheath two (12). Guide rings are slidably connected in both through grooves two (511), and two slide rods (53) are slidably connected in the two guide rings respectively.

5. The resin desktop ornament craft according to claim 4, characterized in that, The locking assembly (5) also includes a number of toothed plates (52) arranged in a rectangular array on the inner side of the sheath (11). The number of toothed plates (52) on the same side are symmetrically arranged on both sides of the through groove (511). The opposite surfaces of the two slide rods (53) are respectively fixedly connected to two toothed blocks (54) that engage with the number of toothed plates (52) on the same side. The outer surfaces of the two slide rods (53) are respectively fitted with two springs (55). The two ends of the two springs (55) abut against the toothed blocks (54) on the same side and the guide ring on the same side.

6. The resin desktop ornament craft according to claim 5, characterized in that, The support assembly (3) includes a ring frame (31) fixedly connected to the lower side of the inner cavity of the sheath (11), and a fixed plate (32) coaxially disposed on the upper part of the ring frame (31). A plurality of L-shaped connecting arms (33) are installed in an annular array between the ring frame (31) and the fixed plate (32). A plurality of hinge frames (34) are installed in an annular array on the side away from the axis at the top of the fixed plate (32). A plurality of hinge rods (341) are hingedly installed on each of the hinge frames (34).

7. The resin desktop ornament craft according to claim 6, characterized in that, Metal springs (351) are provided between the opposing surfaces of several hinge rods (341) and several L-shaped connecting arms (33), and several retainers (35) for limiting several metal springs (351) are fixedly installed at the top of several L-shaped connecting arms (33) in the horizontal direction.

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