A snap-on metal sign and a bed using the same
The design of the snap-on metal tag solves the problems of deformation, loosening, and hand injury during the installation of metal tags, and achieves a repeatable and safe and efficient fixing method.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SLEEMON HEALTHY SLEEP TECHNOLOGY CO LTD
- Filing Date
- 2025-06-30
- Publication Date
- 2026-06-19
Smart Images

Figure CN224383828U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to labels on beds, and in particular to a snap-on metal label and a bed using the same. Background Technology
[0002] Branded beds often feature a metal tag with the brand logo at the foot of the bed. The current method involves hammering the tag into the wood veneer, using a nail on the back to embed it. The hammer blows cause the nail's tip to pierce the veneer and embed itself in the wood, securing the tag. However, varying hammer force can lead to inconsistent installation results. The front of the tag is easily deformed by the impact, and the nail may also bend during the hammering process. If the tag isn't installed correctly and needs to be pried off again, it cannot be reused, resulting in a high rate of installation failures. Even if the tag is successfully secured, there's a risk of it slipping out if the nail loosens later. Furthermore, the sharp nail tips can cut hands during installation. Utility Model Content
[0003] To address the technical problems of existing brand metal tags on beds, such as deformation of the front during installation, bending of the nails on the back, inability to reuse tags if not installed correctly the first time, high scrap rate, loosening and slipping out during later use, and hand injuries during installation and removal, this utility model provides a snap-lock metal tag and a bed using it. The metal tag adopts a snap-lock structure that is easy to install and remove, and can be easily fixed to the veneer covering the wood. Not only will the front of the metal tag not be damaged during the fixing process with the veneer, but it can also be disassembled and reinstalled if not installed correctly the first time, reducing waste. Once installed, the metal tag will not loosen, and it will not cause hand injuries during operation, thus improving operational safety.
[0004] The technical solution adopted by this utility model to solve the technical problem is as follows: a snap-on fixed metal tag, including a metal plate with an identification mark on the front, characterized in that a snap is provided on the back of the metal plate, and the metal plate is detachably connected and locked to an external back plate by bending the snap, so that the metal plate can be detachably fixed to the upholstery surface. When the metal plate is fixed to the upholstery, the upholstery is locked between the metal plate and the back plate. This utility model achieves the connection and fixation between the metal plate and the upholstery by bending the snap of the metal plate and connecting and locking it to the external back plate, thereby locking the upholstery between the metal plate and the back plate, and allowing the metal plate to be installed on the bedding. Because the metal plate and back panel are detachably connected, they can be repeatedly disassembled and reassembled, reducing the waste caused by installation errors that occurred with metal plates used only once in the past. At the same time, the buckle bends and locks onto the back panel during installation, eliminating the need for repeated hammering and preventing damage to the markings on the front of the metal plate. The buckle bends and locks onto the back panel, and it will not come loose as long as it is not bent in the opposite direction. There is no need to use sharp nails for fixing, making installation safer and less likely to injure your hands.
[0005] As a further improvement and supplement to the above technical solution, this utility model adopts the following technical measures: The buckle includes at least one bendable thin sheet extending from one side of the back of the metal plate. The back plate is an independent flat plate with a flat hole matching the thin sheet. After the thin sheet passes through the flat hole, it bends and presses against the back plate, which can connect and lock the metal plate to the back plate. When the thin sheet is bent and straightened, it can exit the flat hole, allowing the metal plate to be disassembled and separated from the back plate. Since the thin sheet is on one side of the back of the metal plate, and the flat hole on the back plate also matches the thin sheet, when the thin sheet passes through the flat hole on the back plate and bends and presses against the back plate, the metal plate and the back plate can be connected and locked. It is only necessary to place the metal plate and the back plate on the front and back sides of the upholstery in advance, and at the same time, the upholstery is reserved with holes for the thin sheet to pass through. When the metal plate and the back plate are connected and locked, they can clamp the upholstery, thereby realizing the connection and fixation of the metal plate and the upholstery. When the thin sheet is bent and straightened in the opposite direction, it can exit the flat hole and detach from the back plate, allowing the metal plate and the back plate to be disassembled and separated.
[0006] A flexible long plate is fixed to the back of the metal plate. The long plate consists of a middle section connected to the back of the metal plate and two bent sections connected to its two sides. The middle section is fixed to the back of the metal plate, and the two bent sections form two bendable thin pieces for a snap fastener. The back plate has at least two flat holes corresponding to the thin pieces. After passing through the corresponding flat holes, the two thin pieces bend towards the thin pieces on the opposite side and fit tightly against the back plate, thus locking the metal plate and the back plate together. The back of the metal plate is connected to a long plate to create a snap fastener, where the middle section of the long plate is fixed to the metal plate, and the remaining parts at both ends form two bent thin pieces for the snap fastener. The corresponding back plate also has two flat holes to match the two thin pieces. During installation, after passing through the two flat holes, the two thin pieces bend towards the thin pieces on the opposite side and fit against the back plate, thus locking the metal plate and the back plate together. To disassemble, the two thin pieces are bent in the opposite direction and straightened, allowing the metal plate and the back plate to be separated.
[0007] The back panel has two symmetrical grid groups, each consisting of several flat holes arranged in a parallel row. The symmetrically distributed grid groups and the multiple flat holes on them accommodate variations in the spacing between the two thin plates, ensuring that the two thin plates of the latch can find the appropriate flat holes for installation when the metal plate and the upholstery are fixed in place.
[0008] An anti-detachment structure is provided between the two thin sheets or between the two thin sheets and the metal plate. This anti-detachment structure allows the two thin sheets, passing through the flat holes, to lock together after bending. By locking the two thin sheets together using the anti-detachment structure, a reliable locked connection is maintained, ensuring that the two thin sheets will not detach and improving the reliability of the fixation between the metal plate and the upholstery. The anti-detachment structure can be located between the two thin sheets or between the two thin sheets and the metal plate.
[0009] The anti-detachment structure includes an extension piece extending from one sheet and a through hole on another sheet. The extension piece can be bent after passing through the through hole to lock the two sheets together. The anti-detachment structure between the two sheets includes an extension piece on one sheet and a through hole on the other sheet. The extension piece can be bent through the through hole to achieve a locking connection between the two sheets. When bending, the extension piece can be bent towards the sheet it is bending towards or towards the other sheet.
[0010] The anti-detachment structure includes a first positioning post on one thin sheet and a positioning hole on another thin sheet. The first positioning post passes through the positioning hole to lock the two thin sheets together. Alternatively, the anti-detachment structure includes positioning holes on two thin sheets and a second positioning post on the back of the metal plate. The second positioning post passes through the positioning holes on the two thin sheets to lock them together. The anti-detachment structure uses the matching of the post and the hole to achieve the locking connection between the two thin sheets. The post and the hole can be respectively provided on the two thin sheets, or one hole can be provided on each of the two thin sheets, and a post can be provided on the back of the metal plate.
[0011] The inner edge of the positioning hole is provided with circumferential protrusions and recesses, which fit tightly with the second positioning post when the second positioning post passes through the positioning hole. When the second positioning post passes through the positioning hole, it fits tightly with the protrusions and recesses on the inner edge of the positioning hole, further locking the second positioning post and the two thin plates, thus achieving a locking connection between the two thin plates.
[0012] The anti-detachment structure includes a binding wire and two locking holes on two thin sheets. After passing through the two locking holes, the binding wire tightens and pulls the two thin sheets together, thus locking them together. By tightening the binding wire after passing through the two locking holes and binding it to the two thin sheets, the locking connection between the two thin sheets is achieved.
[0013] The second objective of this invention is to provide a bed with a upholstery featuring a metal logo. The metal logo is characterized by being a snap-on type, as described above. Using this snap-on type of metal logo, the bed is designed to prevent hand injury during installation. The entire installation process requires no hammering, thus preserving the brand logo on the front of the metal logo. If the logo is not installed correctly the first time, it can be removed and reinstalled, reducing waste. Once installed, the logo remains secure, improving installation success rate and operational safety.
[0014] The beneficial technical effects of this utility model are as follows: The metal label adopts a convenient snap-on structure, which can be easily fixed to the veneer covering the wood. The front of the metal label will not be damaged during the fixing process with the veneer. If it is not installed correctly the first time, it can be removed and reinstalled, preventing waste caused by one-time installation and use. The metal label will not come loose after being installed properly, and it will not hurt your hands during installation. The success rate of metal label installation and operation safety are improved. Beds using snap-on metal labels can quickly and easily install metal labels, and the labeling surface of the metal label will not be damaged without repeated hammering. If the metal label is not installed correctly, it can be removed and reinstalled, avoiding waste caused by one-time use. Attached Figure Description
[0015] Figure 1 : Schematic diagram of an existing bed with a metal label.
[0016] Figure 2 Example 1: Schematic diagram of the installation of the metal label.
[0017] Figure 3 : Figure 2 Enlarged view of part A.
[0018] Figure 4 Example 1: Schematic diagram of the metal plate and back panel structure.
[0019] Figure 5 Example 1: Schematic diagram of the assembly of the metal plate and back panel.
[0020] Figure 6 Example 2: Schematic diagram of the assembly of the metal plate and back panel.
[0021] Figure 7 Example 2: Schematic diagram of the connection of two bent segments on the thin sheet.
[0022] Figure 8 Example 3: Assembly structure diagram of the metal plate and back panel.
[0023] Figure 9 Example 3: Schematic diagram of the connection of two bent segments on the thin sheet.
[0024] Figure 10 Example 4: Schematic diagram of the assembly of the metal plate and back panel.
[0025] Figure 11 Example 4: Schematic diagram of the two bent sections on the thin sheet as positioning holes and the first positioning post.
[0026] Figure 12 Example 4: Schematic diagram of the positioning hole with concave and convex features.
[0027] Figure 13 Used on two bent sections of the thin sheet Figure 12 Diagram of locking the center positioning hole.
[0028] Figure 14 : Figure 13 Enlarged view of part B.
[0029] Figure 15 Example 5: Schematic diagram of the assembly of the metal plate and back panel.
[0030] Figure 16 Example 6: Schematic diagram of the assembly of the metal plate and back panel.
[0031] Figure 17 : Figure 16 Enlarged view of part C.
[0032] In the diagram: 1. Metal plate, 2. Back plate, 3. Lining, 4. Thin sheet, 5. Flat hole, 6. Long plate, 7. Grid group, 81. Single piece, 82. Multi-piece, 9. Through hole, 10. First positioning post, 11. Positioning hole, 12. Mounting hole, 13. Second positioning post, 14. Concave and convex, 15. Binding wire, 16. Lock hole. Detailed Implementation
[0033] The present invention will be further described below with reference to the accompanying drawings and specific embodiments.
[0034] Example 1 Figures 1-5 The image shows a snap-on metal tag, typically fixed to... Figure 1 The metal tag shown is fixed to the surface of the upholstery 3 at the foot of the bed. The snap-on metal tag includes a metal plate 1 with an identification mark on the front and a snap fastener on the back of the metal plate 1. The metal plate 1 is detachably connected and locked to an external back panel 2 by bending the snap fastener, so that the metal plate 1 can be detachably fixed to the surface of the upholstery 3. When the metal plate 1 is fixed to the upholstery 3, the upholstery 3 is locked between the metal plate 1 and the back panel 2.
[0035] Because the metal plate and back panel can be repeatedly disassembled and reassembled, it reduces the waste caused by installation errors due to the single use of metal labels in the past; at the same time, during the installation process, the buckle bends and locks to the back panel, eliminating the need for repeated hammering and preventing damage to the logo on the front of the metal plate; after the buckle is bent and locked to the back panel, it will not loosen as long as the buckle is not bent in the opposite direction; no sharp nails are inserted to fix the metal label during installation, so installation is safe and does not hurt hands, making the operation safer.
[0036] Furthermore, the buckle in this embodiment includes at least one bendable sheet 4 extending from one side of the back of the metal plate 1. In this embodiment, two bendable sheets 4 extending from one side of the back of the metal plate are preferred. The back plate 2 is an independent flat plate with flat holes 5 that match the sheets 4. After the sheets 4 pass through the flat holes 5, they are bent and pressed tightly against the back plate 2 to connect and lock the metal plate 1 to the back plate 2. When the sheets 4 are bent and straightened, they can exit the flat holes 5 to disassemble the metal plate 1 from the back plate 2. To prevent cutting hands, the outer end of the sheets 4 is made into a blunt arc shape as shown in the figure.
[0037] During installation, the two thin plates are passed through the flat holes on the back panel and then bent one after the other to fit snugly against the back panel, thus connecting and locking the metal plate to the back panel. The metal plate and back panel are placed on the front and back of the upholstery at the foot of the bed in advance, and holes are pre-drilled in the upholstery for the thin plates to pass through. When the metal plate and back panel are connected and locked, they can clamp the upholstery, thus achieving the connection and fixation between the metal plate and the upholstery. When the thin plates are bent and straightened in the opposite direction, they can be removed from the flat holes and detached from the back panel, allowing the metal plate and back panel to be disassembled and separated for reinstallation.
[0038] In this embodiment, both thin sheets are located on a flexible long plate 6. The long plate 6 consists of a middle section connected to the back of the metal plate 1 and bent sections connected to both sides. The middle section of the long plate 6 is fixed to the back of the metal plate with rivets through openings, or directly welded to the back of the metal plate. The two bent sections form two flexible thin sheets 4 that are snapped together. The long plate 6 can be adjusted by changing the length of the middle section to accommodate metal plates of different lengths, and the spacing between the two bent sections changes accordingly. The back plate 2 has at least two flat holes 5 corresponding to the thin sheets 4. In this embodiment, the back plate 2 has six flat holes 5, and every three flat holes are arranged in parallel to form a grid group 7. The six flat holes are divided into two symmetrical grid groups 7. During installation, select appropriate flat holes from the two grid groups according to the spacing between the two thin plates 4. After the two thin plates 4 pass through the selected flat holes 5, bend them one after the other towards the opposite side of the thin plate 4 and stick them tightly to the back plate 2 to connect and lock the metal plate 1 and the back plate 2. When disassembly is required, bend the two thin plates in the opposite direction to straighten them, and then the metal plate and the back plate can be disassembled and separated.
[0039] To further ensure that the two thin sheets passing through the flat hole lock together after bending and maintain the locked connection, an anti-detachment structure can be provided between the two thin sheets, or between the two thin sheets and the metal plate. This anti-detachment structure ensures that the two thin sheets 4 passing through the flat hole 5 lock together after bending. For example... Figure 6 and Figure 7 As shown, Embodiment 2 is also a snap-on metal tag. The difference from Embodiment 1 is that an anti-detachment structure is provided between the two thin sheets. The anti-detachment structure includes an extension piece extending from one thin sheet 4 and a through hole 9 on the other thin sheet 4. The extension piece can be bent after passing through the through hole 9 to lock the two thin sheets 4 together. In this embodiment, the extension piece is a single piece 81. After passing through the through hole, the single piece 81 is preferably bent toward its own thin sheet side to lock the two thin sheets together.
[0040] like Figure 8 and Figure 9 As shown, Embodiment 3 is also a snap-lock metal tag. The difference from Embodiment 2 is that the extension piece in this embodiment is two separate composite pieces 82. As shown in the figure, the two composite pieces bend in opposite directions after passing through the through hole, tending to separate, so as to realize the locking connection between the two thin pieces.
[0041] like Figure 10 and Figure 11As shown, Embodiment 4 is also a snap-on metal tag. The difference from Embodiment 1 is that an anti-detachment structure is provided between the two thin sheets. The anti-detachment structure includes a first positioning post 10 on one thin sheet 4 and a positioning hole 11 on the other thin sheet 4. The first positioning post 10 passes through the positioning hole 11 to lock the two thin sheets 4 together. In this embodiment, the anti-detachment structure uses the first positioning post on one thin sheet and the positioning hole on the other thin sheet to lock the two thin sheets together.
[0042] In this embodiment, to further improve the reliability of the fit between the first positioning pin and the positioning hole, such as... Figures 12-14 As shown, a circumferential protrusion 14 is provided on the inner edge of the positioning hole 11, which allows the first positioning pin 10 to fit tightly with it when it passes through the positioning hole 11. Figure 13 and Figure 14 The first positioning post 10 is drawn separately from the thin sheet it is on, so as to clearly show the fit between the concave and convex 14 and the first positioning post 10.
[0043] The position of the first positioning post can also be changed from one of the thin plates to be set on the back of the metal plate, becoming... Figure 15 Example 5 is shown. The difference between Example 5 and Example 4 lies in the change of the anti-detachment structure; the rest is the same as Example 4. In this example, the anti-detachment structure includes two positioning holes on the thin sheets and a second positioning post on the back of the metal plate. Each of the two thin sheets 4 has a positioning hole 11. The back of the metal plate 1 is provided with a second positioning post 13 that matches the two positioning holes 11. In use, the second positioning post 13 passes through the positioning holes 11 of the two thin sheets 4 simultaneously to lock the two thin sheets 4 together. In order to allow the second positioning post 13 to pass through the back plate and mate with the positioning holes on the two thin sheets, the back plate 2 has a mounting hole 12 that matches the second positioning post 13. Similarly, in order to ensure a tight fit between the second positioning post 13 and the positioning hole 11, the inner edge of the positioning hole 11 can also be provided with concave and convex shapes around the circumference.
[0044] like Figure 11 As shown, Embodiment 6 is also a snap-on metal tag. The difference from Embodiment 1 is that an anti-detachment structure is provided between the two thin pieces. This anti-detachment structure includes a binding wire 15 and locking holes 16 on the two thin pieces 4. After passing through the two locking holes 16, the binding wire 15 tightens and pulls the two thin pieces 4, thus locking them together. In this embodiment, the binding wire passes through the two locking holes and tightens, binding the two thin pieces together to achieve a locking connection between them.
[0045] Example 7 is a bed, see [link to example]. Figure 1As shown, the bed has a leather upholstery 3 with a metal label on its surface. This metal label can be a snap-on type metal label as described in any of the embodiments 1 to 6. The metal label is quick and easy to install, and the labeling speed is fast. The outward-facing label surface does not need to be repeatedly hammered and will not be damaged. If the metal label is not installed properly, it can be removed and reinstalled, preventing waste caused by the fact that the metal label can only be installed and used once.
Claims
1. A metal sign of the snap-on type comprising a metal plate (1) provided with an indication on the front face, characterized in that The metal plate (1) is provided with a buckle on the back. The metal plate (1) is detachably connected and locked to an external back plate (2) by bending the buckle, so that the metal plate (1) can be detachably fixed to the surface of the leather (3). When the metal plate (1) is fixed to the leather (3), the leather (3) is locked between the metal plate (1) and the back plate (2).
2. The snap-on metal tag of claim 1, wherein The buckle includes at least one bendable sheet (4) extending from the back side of the metal plate (1). The back plate (2) is an independent flat plate with a flat hole (5) that matches the sheet (4). The sheet (4) passes through the flat hole (5) and bends to fit tightly against the back plate (2), which can connect and lock the metal plate (1) to the back plate (2). When the sheet (4) is bent and straightened, it can exit the flat hole (5) to disassemble and separate the metal plate (1) from the back plate (2).
3. The snap-on metal tag of claim 2, wherein A bendable long plate (6) is fixed to the back of the metal plate (1). The long plate (6) consists of a middle section connected to the back of the metal plate (1) and a bent section connected to both sides. The two bent sections form two bendable thin pieces (4) for a snap fastener. At least two flat holes (5) corresponding to the thin pieces (4) are opened on the back plate (2). After passing through the corresponding flat holes (5), the two thin pieces (4) bend towards the thin pieces (4) on the opposite side and stick tightly to the back plate (2), so that the metal plate (1) and the back plate (2) are connected and locked.
4. The snap-on metal tag according to claim 3, characterized in that: The back plate (2) is provided with two symmetrical grid groups (7), which are composed of several flat holes (5) arranged in parallel.
5. The snap-on metal tag according to claim 3, characterized in that: An anti-detachment structure is provided between the two thin sheets (4) or between the two thin sheets (4) and the metal plate (1). The anti-detachment structure can lock the two thin sheets (4) that pass through the flat hole (5) together after bending.
6. The snap-on metal tag according to claim 5, characterized in that: The anti-detachment structure includes an extension piece extending from a thin sheet (4) and a through hole (9) on another thin sheet (4). The extension piece can be bent after passing through the through hole (9) to lock the two thin sheets (4) together.
7. The snap-on metal tag according to claim 5, characterized in that: The anti-detachment structure includes a first positioning post (10) on a thin sheet (4) and a positioning hole (11) on another thin sheet (4). The first positioning post (10) passes through the positioning hole (11) to lock the two thin sheets (4) together. Alternatively, the anti-detachment structure includes positioning holes (11) on two thin plates (4) and a second positioning post (13) on the back of the metal plate (1). The second positioning post (13) passes through the positioning holes (11) of the two thin plates (4) to lock the two thin plates (4) together. The back plate (2) has mounting holes (12) to match the second positioning post (13).
8. The snap-on metal tag according to claim 7, characterized in that... The inner edge of the positioning hole (11) is provided with a concave-convex shape (14) around the circumference. The concave-convex shape (14) fits tightly with the second positioning post (13) when the second positioning post (13) passes through the positioning hole (11).
9. The snap-on metal tag according to claim 5, characterized in that: The anti-detachment structure includes a tie wire (15) and two locking holes (16) on the two thin plates (4). After passing through the two locking holes (16), the tie wire (15) tightens and pulls the two thin plates (4) so that the two thin plates (4) are locked together.
10. A bed having a leather upholstery (3) with a metallic marking on its surface, characterized in that... The metal tag is a snap-on metal tag as described in any one of claims 1 to 9.