Split type faucet structure
The design of detachable connection between the main body shell and the faucet shell realizes the split structure of the faucet, which solves the problem that the integrated faucet cannot be disassembled for maintenance, reduces the cost of use and transportation, and improves assembly efficiency and stability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 黄玉慈
- Filing Date
- 2025-05-26
- Publication Date
- 2026-06-26
AI Technical Summary
The existing integrated faucet structure cannot be disassembled for repair, which means that the whole unit needs to be replaced when the parts are damaged, increasing the cost of use and transportation, and taking up a lot of space.
The main body shell and the faucet shell are detachably connected. Quick disassembly and installation are achieved through mounting holes, mounting protrusions and bolt holes. The split structure facilitates storage and transportation and supports the replacement of accessories.
It reduces the storage and transportation costs of faucets, lowers usage costs, and improves assembly efficiency and structural stability.
Smart Images

Figure CN224414451U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of faucets, and more particularly to a split-type faucet structure. Background Technology
[0002] Currently, in the production of faucets, it is necessary to control many aspects to make a faucet that fully meets national safety standards, and each aspect requires a relatively large cost. Therefore, under the premise of meeting national standards, how to reduce the cost of faucets is an urgent problem to be solved so that faucets, as a basic household item, are not too expensive, so as to meet the consumption needs of the general public.
[0003] Patent No. ZL201420406600.3 discloses a faucet whose inner core is not easily damaged, which extends the faucet's service life by wrapping the inner core with a metal shell. However, this faucet has a one-piece structure, which cannot be disassembled and repaired. When the internal parts of the faucet shell are damaged, the whole faucet can only be replaced, and parts cannot be replaced, which increases the cost of using the faucet. At the same time, the faucet structure cannot be disassembled, and its overall structure occupies a lot of space, increasing the storage and transportation costs of the faucet product. Therefore, it is necessary to study a split faucet structure to solve the above problems. Summary of the Invention
[0004] The purpose of this utility model is to address the above-mentioned problems by providing a simple and quick-assembly split-type faucet structure.
[0005] To achieve the above objectives, the technical solution of this utility model is as follows:
[0006] A split-type faucet structure includes a faucet body, which comprises a main body shell and a faucet shell, with one end of the main body shell and the faucet shell detachably connected. The main body shell is a hollow column with openings at both ends. A mounting through hole is provided on the side wall of the main body shell. An upper limiting plate and a lower limiting plate are welded to the inner wall of the main body shell. The upper limiting plate is located inside the mounting through hole, and the lower limiting plate is located below the mounting through hole. A mounting cavity is formed between the lower limiting plate and the upper limiting plate. A first bolt hole is provided on the lower limiting plate, penetrating longitudinally. The faucet shell is a horizontally placed tube. A mounting protrusion is integrally formed on the bottom of the end of the faucet shell near the main body shell, and a second bolt hole is provided on the mounting protrusion, penetrating longitudinally. When the faucet shell is connected to the main body shell, one end of the faucet shell is inserted into the mounting through hole, and the mounting protrusion is inserted into the mounting cavity, aligning the second bolt hole with the first bolt hole. The first bolt hole and the second bolt hole are connected by a fixing bolt.
[0007] Furthermore, the rear end of the lower limiting plate and the bottom middle part of the upper lower plate are welded together by a sealing plate, so that the mounting cavity forms a sealed cavity structure with an opening on one side.
[0008] Furthermore, a main body clearance hole is provided at the center of the upper limiting plate, and a first water pipe clearance groove and a second water pipe clearance groove are symmetrically provided on the side of the upper limiting plate away from the installation cavity.
[0009] Furthermore, the split-type faucet structure also includes a water control valve core, which is located inside the main body shell and placed at the top of the upper limiting plate. The bottom end of the water control valve core is provided with a cold water inlet connector and a hot water inlet connector. The cold water inlet connector extends out from the first water pipe clearance groove and is connected to the cold water inlet pipe. The hot water inlet connector extends out from the second water pipe clearance groove and is connected to the hot water inlet pipe.
[0010] Furthermore, a water outlet connector is provided on one side of the water control valve core. The water outlet connector is connected to one end of the water outlet hose, and the other end of the water outlet hose extends into the faucet housing, so that the end of the faucet housing away from the main housing achieves the water outlet effect.
[0011] Furthermore, the top of the water control valve core is provided with a water control rod for controlling the opening and closing state of the water control valve core; the top of the main body shell is threadedly connected to a pressure cap, and the top of the water control rod extends out from the central hole located at the center of the pressure cap and connects to the control handle.
[0012] Furthermore, the upper limiting plate is circular in shape, and its outer periphery is welded to the inner wall of the main body shell. A reinforcing rib is welded to the bottom end of the upper limiting plate on the side away from the lower limiting plate. The reinforcing rib is located between the first water pipe clearance groove and the second water pipe clearance groove. The length direction of the reinforcing rib is consistent with the radial direction of the upper limiting plate, and one end of the reinforcing rib in the length direction is welded to the inner wall of the main body shell.
[0013] Compared with the prior art, the advantages and positive effects of this utility model are:
[0014] This utility model employs a design where the main body shell and the faucet shell are detachably connected. This allows the faucet shell and the water outlet pipe located inside the shell to be disassembled and packaged during storage and transportation, and then quickly reassembled before use. This disassembly effectively reduces the space occupied by the faucet, lowering storage and transportation costs. Furthermore, in case of malfunction of internal components, disassembly allows for quick replacement and maintenance of these components without requiring a complete faucet replacement, further reducing operating costs. Its simple structure and quick assembly, while achieving a modular faucet design, also ensure structural stability after assembly, further improving the faucet's performance. Attached Figure Description
[0015] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0016] Figure 1 This is an assembly structure diagram of the present utility model;
[0017] Figure 2 This is a cross-sectional view of the present invention;
[0018] Figure 3 for Figure 2 A magnified view of the local structure;
[0019] Figure 4 A top view of the main body shell;
[0020] Figure 5 A bottom view of the main body's outer shell;
[0021] Figure 6 This is a bottom view of the water control valve core. Detailed Implementation
[0022] 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, any modifications, equivalent substitutions, improvements, etc., made by those skilled in the art to all other embodiments obtained without creative effort should be included within the protection scope of the present utility model.
[0023] like Figures 1 to 6 As shown, this embodiment discloses a split-type faucet structure, including a faucet body, the faucet body including a main body shell 1 and a faucet shell 2, and the main body shell 1 and the faucet shell 2 are detachably connected at one end;
[0024] The main body shell 1 is a hollow column with openings at both the upper and lower ends. The side wall of the main body shell 1 is provided with a mounting through hole 101. The inner wall of the main body shell 1 is welded with an upper limiting plate 3 and a lower limiting plate 4. The upper limiting plate 3 is located inside the mounting through hole 101, and the lower limiting plate 4 is located below the mounting through hole 101. The rear end of the lower limiting plate 4 is welded to the middle bottom end of the upper lower plate 3 through a sealing plate 5. The lower limiting plate 4, the upper limiting plate 3, and the sealing plate 5 form a mounting cavity 6 with an opening near the mounting through hole 101. The lower limiting plate 4 is provided with a first bolt hole 401 that penetrates the lower limiting plate 4 longitudinally.
[0025] The faucet shell 2 is arranged in a horizontal tubular shape. The bottom of the faucet shell 2 near the main shell 1 is integrally formed with a mounting protrusion 201. The outer diameter of the mounting protrusion 201 is adapted to the inner diameter of the mounting cavity 6. A second bolt hole 202 is provided on the mounting protrusion 201, which runs longitudinally through the mounting protrusion 201.
[0026] When the faucet housing 2 is connected to the main housing 1, one end of the faucet housing 2 is inserted into the mounting through hole 101, the mounting protrusion 201 is inserted into the mounting cavity 6 and the second bolt hole 202 corresponds to the first bolt hole 401, and the first bolt hole 401 and the second bolt hole 202 are connected by a fixing bolt 7.
[0027] When assembling a faucet, after assembling the internal components, simply insert the end of the faucet housing with the mounting protrusion into the mounting through hole on the side wall of the faucet housing, allowing the mounting protrusion to embed into the mounting cavity. Finally, use fixing bolts to connect the first bolt hole on the lower limiting plate with the second bolt hole on the mounting protrusion. This initial positioning between the faucet housing and the main body housing is achieved through the mating structure of the mounting through hole and the faucet housing. At the same time, the bolt fixing between the mounting protrusion and the lower limiting plate achieves a stable connection between the faucet housing and the main body housing. Its structure is simple, the connection structure is stable, and it is convenient for quick assembly, effectively improving the performance of the faucet.
[0028] The split-type faucet structure also includes a water control valve core 8, which is located inside the main body shell 1 and positioned at the top of the upper limiting plate 3. The upper limiting plate 3 has a main body clearance hole 301 at its center to allow passage of the protruding structure at the bottom of the water control valve core 8. A first water pipe clearance groove 302 and a second water pipe clearance groove 303 are symmetrically arranged on the side of the upper limiting plate 3 away from the mounting cavity 6. The bottom of the water control valve core 8 is provided with a cold water inlet connector 802 and a hot water inlet connector. 803, the cold water inlet connector 802 extends out of the first water pipe clearance groove 302 and connects to the cold water inlet pipe 11, and the hot water inlet connector 803 extends out of the second water pipe clearance groove 303 and connects to the hot water inlet pipe 12; the water control valve core 8 is provided with a water outlet connector 801 on one side, the water outlet connector 801 is connected to one end of the water outlet hose 13, and the other end of the water outlet hose 13 extends into the faucet housing 2, so that the end of the faucet housing 2 away from the main housing 1 achieves the water outlet effect.
[0029] The top of the water control valve core 8 is provided with a water control rod 804 for controlling the opening and closing state of the water control valve core 8; the top of the main body shell 1 is threadedly connected to a pressure cap 9, and the top of the water control rod 804 extends out from the central hole located at the center of the pressure cap 9 and is connected to the control handle 10.
[0030] The main body clearance hole and the first water pipe clearance groove and the second water pipe clearance groove provided on the upper limit plate can stably place the water control valve core on the upper limit plate without obstructing the connection between the water control valve core and the cold water inlet pipe, hot water inlet pipe and water outlet hose. At the same time, it effectively realizes the installation and positioning of the water control valve core and avoids any rotation of the water control valve core during use. This makes the installation and operation of the water control valve core in the faucet more convenient and further improves the use effect of this utility model.
[0031] The upper limiting plate 3 is circular. The outer periphery of the upper limiting plate 3 is welded to the inner wall of the main body shell 1. A reinforcing rib 304 is welded to the bottom end of the upper limiting plate 3 on the side away from the lower limiting plate 4. The reinforcing rib 304 is located between the first water pipe avoidance groove 302 and the second water pipe avoidance groove 303. The length direction of the reinforcing rib 304 is consistent with the radial direction of the upper limiting plate 3. One end of the length direction of the reinforcing rib 304 is welded to the inner wall of the main body shell 1.
[0032] The overall circular structure design of the upper limiting plate facilitates the welding operation between it and the faucet shell. At the same time, by welding reinforcing ribs to the bottom of the upper limiting plate, the connection strength between the upper limiting plate and the faucet shell can be further improved, thus further enhancing the effectiveness of this utility model.
[0033] This utility model employs a design where the main body shell and the faucet shell are detachably connected. This allows the faucet shell and the water outlet pipe located inside the shell to be disassembled and packaged during storage and transportation, and then quickly reassembled before use. This disassembly effectively reduces the space occupied by the faucet, lowering storage and transportation costs. Furthermore, in case of malfunction of internal components, disassembly allows for quick replacement and maintenance of these components without requiring a complete faucet replacement, further reducing operating costs. Its simple structure and quick assembly, while achieving a modular faucet design, also ensure structural stability after assembly, further improving the faucet's performance.
Claims
1. A split-type faucet structure, comprising a faucet body, characterized in that: The faucet body includes a main body shell and a faucet shell, with one end of the main body shell and the faucet shell detachably connected. The main body shell is a hollow column with openings at both ends. A mounting through hole is provided on the side wall of the main body shell. An upper limiting plate and a lower limiting plate are welded to the inner wall of the main body shell. The upper limiting plate is located inside the mounting through hole, and the lower limiting plate is located below the mounting through hole. A mounting cavity is formed between the lower limiting plate and the upper limiting plate. A first bolt hole is provided on the lower limiting plate, penetrating longitudinally. The faucet shell is a horizontally placed tube. A mounting protrusion is integrally formed on the bottom of the end of the faucet shell near the main body shell. A second bolt hole is provided on the mounting protrusion, penetrating longitudinally. When the faucet shell is connected to the main body shell, one end of the faucet shell is inserted into the mounting through hole, and the mounting protrusion is inserted into the mounting cavity, aligning the second bolt hole with the first bolt hole. The first bolt hole and the second bolt hole are connected by a fixing bolt.
2. The split-type faucet structure as described in claim 1, characterized in that: The rear end of the lower limiting plate and the bottom middle part of the upper lower plate are welded together by a sealing plate so that the mounting cavity forms a sealed cavity structure with an opening on one side.
3. The split-type faucet structure as described in claim 2, characterized in that: The upper limiting plate has a main body clearance hole at its center, and a first water pipe clearance groove and a second water pipe clearance groove are symmetrically arranged on the side of the upper limiting plate away from the installation cavity.
4. The split-type faucet structure as described in claim 3, characterized in that: The split-type faucet structure also includes a water control valve core, which is located inside the main body shell and placed on the top of the upper limiting plate. The bottom of the water control valve core is provided with a cold water inlet connector and a hot water inlet connector. The cold water inlet connector extends out from the first water pipe clearance groove and is connected to the cold water inlet pipe. The hot water inlet connector extends out from the second water pipe clearance groove and is connected to the hot water inlet pipe.
5. The split-type faucet structure as described in claim 4, characterized in that: The water control valve core is provided with a water outlet connector on one side. The water outlet connector is connected to one end of the water outlet hose, and the other end of the water outlet hose extends into the faucet housing, so that the end of the faucet housing away from the main housing achieves the water outlet effect.
6. The split-type faucet structure as described in claim 5, characterized in that: The top of the water control valve core is provided with a water control rod for controlling the opening and closing state of the water control valve core; the top of the main body shell is threadedly connected to a pressure cap, and the top of the water control rod extends out from the central hole located in the center of the pressure cap and is connected to the control handle.
7. The split-type faucet structure as described in claim 6, characterized in that: The upper limiting plate is circular. The outer periphery of the upper limiting plate is welded to the inner wall of the main body shell. A reinforcing rib is welded to the bottom end of the upper limiting plate on the side away from the lower limiting plate. The reinforcing rib is located between the first water pipe clearance groove and the second water pipe clearance groove. The length direction of the reinforcing rib is consistent with the radial direction of the upper limiting plate. One end of the reinforcing rib in the length direction is welded to the inner wall of the main body shell.