A connecting structure for a stainless steel combination floor cabinet

By using a combination of connecting strips and self-tapping screws in the modular cabinet, the problem of insufficient strength during assembly of the modular cabinet is solved, achieving higher connection strength and simplifying operation steps, thereby improving the service life and practicality of the cabinet.

CN224440746UActive Publication Date: 2026-07-03ZHEJIANG SENG SMART KITCHEN APPLIANCE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG SENG SMART KITCHEN APPLIANCE CO LTD
Filing Date
2025-06-11
Publication Date
2026-07-03

Smart Images

  • Figure CN224440746U_ABST
    Figure CN224440746U_ABST
Patent Text Reader

Abstract

This utility model discloses a connecting structure for a stainless steel modular cabinet, including a connecting strip installed in the modular cabinet body. The connecting strip is used for connecting the modular cabinet body and has a fixed cavity. The connecting strip is connected to the modular cabinet body through the fixed cavity. By installing the connecting strip in the modular cabinet body, the modular cabinet body is assembled by using the connecting strip and self-tapping screws. At the same time, the fixed cavity on the connecting strip allows the self-tapping screws to be fixed in the fixed cavity after connection, avoiding drilling holes in the connecting strip. This increases the connection strength of the modular cabinet body while reducing operation steps and simplifying manufacturing and installation, making it highly practical.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model belongs to the field of cabinet technology, and in particular relates to a connection structure for stainless steel modular cabinets. Background Technology

[0002] In modern home and office environments, base cabinets are a common type of storage furniture, widely used in living rooms, bedrooms, studies and other places to store items, save space and improve the tidiness of the environment. In order to increase the usable space of base cabinets, dividers are usually installed in the cabinet body, so that the cabinet has two or more layers, thereby increasing the usable space of the cabinet.

[0003] Existing modular cabinets are typically assembled by using screws to fix the individual cabinets together. However, modular cabinets assembled in this way have low strength, resulting in a short service life and easy damage. Utility Model Content

[0004] The purpose of this utility model is to solve the above-mentioned technical problems existing in the prior art and to provide a connecting structure for stainless steel modular cabinets. By installing connecting strips in the modular cabinet, the modular cabinet is assembled by connecting strips and self-tapping screws. At the same time, a fixing cavity is provided on the connecting strip, and the self-tapping screws are fixed in the fixing cavity after connection. This avoids drilling holes in the connecting strip, increases the connection strength of the modular cabinet, reduces operation steps, reduces the complexity of manufacturing and installation, and has strong practicality.

[0005] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:

[0006] A connecting structure for a stainless steel modular cabinet is characterized by: a connecting strip installed in the modular cabinet body; the connecting strip is used for connecting the modular cabinet body; the connecting strip has a fixed cavity; the connecting strip is connected to the modular cabinet body through the fixed cavity; by installing the connecting strip in the modular cabinet body, the modular cabinet body is assembled by using the connecting strip in conjunction with self-tapping screws during assembly; at the same time, the fixed cavity on the connecting strip allows the self-tapping screws to be fixed in the fixed cavity after connection, avoiding drilling holes in the connecting strip, increasing the connection strength of the modular cabinet body while reducing operation steps, reducing the complexity of manufacturing and installation, and having strong practicality.

[0007] Furthermore, the fixing cavity is provided with a fixing protrusion, which can increase the tightness of the contact between the fixing cavity and the self-tapping screw, thereby increasing the fixing strength of the self-tapping screw.

[0008] Furthermore, the connecting strip is equipped with locking feet, which limit the connecting strip within the modular cabinet.

[0009] Furthermore, a snap-fit ​​space is formed between the clip and the connecting strip, which is used for snap-fitting between the combined cabinet and the connecting strip.

[0010] Furthermore, a guide slope is formed between the snap-fit ​​space and the snap-fit ​​foot, which facilitates the installation of the connecting strip into the modular cabinet.

[0011] Furthermore, the corners of the connecting strips are equipped with rounded chamfers, which prevents the connecting strips from scratching the cabinet.

[0012] Furthermore, the connecting strip has a frame space inside, which is used to reduce the weight of the connecting strip.

[0013] Furthermore, reinforcing ribs are provided in the frame space to increase the strength of the connecting strips.

[0014] This utility model, by adopting the above-mentioned technical solution, has the following beneficial effects:

[0015] In this utility model, a connecting strip is installed in the modular cabinet. The connecting strip is used to connect the modular cabinet. The connecting strip has a fixed cavity, and the connecting strip is connected to the modular cabinet through the fixed cavity. By installing the connecting strip in the modular cabinet, the modular cabinet is assembled by connecting the connecting strip and self-tapping screws. At the same time, the connecting strip has a fixed cavity, and the self-tapping screws are fixed in the fixed cavity after connection, avoiding drilling holes in the connecting strip. This increases the connection strength of the modular cabinet while reducing operation steps and simplifying manufacturing and installation, making it highly practical. Attached Figure Description

[0016] The present invention will be further described below with reference to the accompanying drawings:

[0017] Figure 1 This is a schematic diagram of the connection structure for a stainless steel modular cabinet according to the present invention;

[0018] Figure 2 This is a cross-sectional view of the connecting strip and the combined cabinet in this utility model.

[0019] In the diagram: 1-Combined cabinet; 2-Connecting strip; 3-Fixed cavity; 4-Fixed protrusion; 5-Clamping foot; 6-Clamping space; 7-Guide slope; 8-Curved chamfer; 9-Frame space; 10-Reinforcing rib; 11-Self-tapping screw. Detailed Implementation

[0020] like Figures 1 to 2As shown, this utility model discloses a connecting structure for a stainless steel modular cabinet, including a connecting strip 2. The connecting strip 2 is installed in the modular cabinet body 1 and is used for connecting the modular cabinet body 1. The connecting strip 2 has a fixing cavity 3, and the connecting strip 2 is connected to the modular cabinet body 1 through the fixing cavity 3. The fixing cavity 3 has a fixing protrusion 4, which can increase the tightness of the contact between the fixing cavity 3 and the self-tapping screw 11, thereby increasing the fixing strength of the self-tapping screw 11. By installing the connecting strip 2 in the modular cabinet body 1, the modular cabinet body 1 is assembled by connecting the connecting strip 2 and the self-tapping screw 11. At the same time, the fixing cavity 3 on the connecting strip 2 allows the self-tapping screw 11 to be fixed in the fixing cavity 3 after connection, avoiding drilling holes in the connecting strip 2. This increases the connection strength of the modular cabinet body 1 while reducing operation steps and simplifying manufacturing and installation, making it highly practical.

[0021] The connecting strip 2 is provided with a locking foot 5, and a locking space 6 is formed between the locking foot 5 and the connecting strip 2. A guide slope 7 is formed between the locking space 6 and the locking foot 5. The connecting strip 2 is limited in the combined cabinet 1 by the locking foot 5. When installing the connecting strip 2, the locking foot 5 on one side is first limited in the corresponding locking groove of the combined cabinet 1. During installation, the guide slope 7 can reduce the distance between the connecting strip 2 and the combined cabinet 1, making it easier to install the connecting strip 2 into the combined cabinet 1. After the connecting strip 2 is installed, the combined cabinet 1 is locked in the locking space 6 by a folding plate. The folding plates of the two cabinets are interlocked and locked in the locking space 6. The structure is simple, easy to operate, and reduces the operation of applying glue.

[0022] Furthermore, the bottom of the clip 5 is hollow, saving material.

[0023] The corner of the connecting strip 2 is provided with an arc-shaped chamfer 8. The design of the arc-shaped chamfer 8 prevents the connecting strip 2 from scratching the cabinet.

[0024] The connecting strip 2 has a frame space 9, and the frame space 9 has a reinforcing rib 10. The frame space 9 is used to reduce the weight of the connecting strip 2, and the reinforcing rib 10 is used to increase the strength of the connecting strip 2. This saves materials while ensuring the overall strength of the connecting strip 2.

[0025] The above are merely specific embodiments of this utility model, but the technical features of this utility model are not limited thereto. Any simple changes, equivalent substitutions, or modifications made based on this utility model to solve essentially the same technical problems and achieve essentially the same technical effects are all covered within the protection scope of this utility model.

Claims

1. A connecting structure for a stainless steel modular cabinet, characterized in that: The device includes a connecting strip, which is installed in the modular cabinet and is used to connect the modular cabinet. The connecting strip has a fixed cavity, and the connecting strip is connected to the modular cabinet through the fixed cavity.

2. The connecting structure for a stainless steel combination cabinet according to claim 1, characterized in that: The fixed cavity is provided with a fixing protrusion, which is used to increase the connection strength.

3. The connecting structure for a stainless steel combination cabinet according to claim 1, characterized in that: The connecting strip is provided with a locking foot, and the connecting strip is limited in the combined cabinet by the locking foot.

4. The connecting structure for a stainless steel combination cabinet according to claim 3, wherein: A snap-fit ​​space is formed between the latch and the connecting strip, and the snap-fit ​​space is used for snap-fit ​​between the combined cabinet and the connecting strip.

5. The connecting structure for a stainless steel combination cabinet according to claim 4, wherein: A guide slope is formed between the snap-fit ​​space and the snap-fit ​​foot.

6. The connecting structure for a stainless steel combination cabinet according to claim 1, characterized in that: The corners of the connecting strip are provided with curved chamfers.

7. The connecting structure for a stainless steel combination cabinet according to claim 1, characterized in that: The connecting strip has a frame space inside, which is used to reduce the weight of the connecting strip.

8. The connecting structure for a stainless steel combination cabinet according to claim 7, wherein: The frame space is provided with reinforcing ribs, which are used to increase the strength of the connecting strip.