A gully pot garbage interceptor

By using a connecting rod, locking pin, and sliding rod structure, the problems of unstable installation and cumbersome disassembly of the garbage interceptor are solved, achieving stable installation and quick disassembly, and improving the effectiveness and convenience of the rainwater inlet garbage interceptor.

CN224468538UActive Publication Date: 2026-07-07SHANGHAI XINLI ENVIRONMENTAL PROTECTION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI XINLI ENVIRONMENTAL PROTECTION TECH CO LTD
Filing Date
2025-08-18
Publication Date
2026-07-07

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  • Figure CN224468538U_ABST
    Figure CN224468538U_ABST
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Abstract

This utility model relates to the field of interceptor technology, specifically a rainwater inlet garbage interceptor, including a shell assembly and a sludge interception basket. The improved garbage interceptor, through the cooperation of a connecting rod, a first locking pin, and a second locking pin, significantly enhances the stability of the sludge interception basket during installation by utilizing the cooperation of the locking block and the mounting groove. This solves the problem that the hooks of the rainwater inlet garbage interceptor are prone to breakage due to aging or corrosion from prolonged hook-type installation, thus greatly increasing the fixing strength of the sludge interception basket during installation and improving the effectiveness of the garbage interceptor. Through the cooperation of a sliding rod, a pressure plate, and a compression spring, the sludge interception basket can be quickly disassembled during disassembly, significantly reducing the labor intensity of workers during disassembly and increasing the convenience of disassembly, thereby meeting the requirements of rainwater inlet garbage interceptors.
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Description

Technical Field

[0001] This utility model relates to the field of interceptor technology, specifically a rainwater inlet garbage interceptor. Background Technology

[0002] A storm drain is a structure that collects rainwater in storm drains or combined sewer systems. Rainwater from the street surface first passes through the storm drain and flows into the drainage system via connecting pipes. The form, number, and layout of storm drains should be determined based on the catchment area, the drainage capacity of the storm drains, and the road type. The location of the storm drains should ensure the rapid and effective collection of surface rainwater.

[0003] In the process of developing this utility model, the inventors discovered the following problems with the existing technology: 1. Existing garbage interceptors typically use hooks to suspend them inside the drain inlet. Prolonged use of hook-based installation causes the hooks to easily break due to aging or corrosion, resulting in insufficient strength when the garbage interceptor is fixed, thus significantly reducing its effectiveness; 2. During maintenance and disassembly, existing garbage interceptors cannot be quickly disassembled. Workers need to use various auxiliary tools for disassembly, making the process cumbersome, time-consuming, and labor-intensive, significantly increasing the workload of workers and reducing the ease of disassembly. Utility Model Content

[0004] The purpose of this utility model is to provide a rainwater inlet garbage interceptor to solve the problems mentioned in the background art. Existing garbage interceptors usually use hooks to suspend the garbage interceptor inside the rainwater inlet. With long-term use of hook-type installation and fixation, the hooks of the garbage interceptor are prone to breakage due to aging or corrosion, resulting in insufficient strength when fixing the garbage interceptor, thus greatly reducing the effectiveness of the garbage interceptor. In addition, existing garbage interceptors require workers to use a variety of auxiliary tools to assist in disassembly during maintenance, which greatly increases the labor intensity of workers and reduces the convenience of disassembly. To achieve the above objectives, this utility model provides the following technical solution: a rainwater inlet garbage interceptor, comprising a shell assembly and a sewage interception basket. Each of the four corners of the top of the sewage interception basket is provided with a fixed base. The four fixed bases have cavities inside. The bottom of each of the four cavities has a guide groove. Connecting rods are provided inside the four cavities. A locking block is provided at one end of each of the four connecting rods. First locking pins are provided on the outside of each of the four connecting rods. A spring is provided on one side of each of the four first locking pins. A guide block is provided at the bottom of each of the four first locking pins. Slots are provided at the top of each of the four cavities. Sliding grooves are provided on both sides of the inside of each of the four slots. Sliding rods are provided inside each of the four slots. Pressure plates are provided on the outside of each of the four sliding rods. Compression springs are provided on the top of each of the four pressure plates. Sliding blocks are provided at both ends of each of the four pressure plates. Second locking pins are provided at the bottom of each of the four sliding rods.

[0005] More preferably, the outer casing assembly includes a rainwater inlet, with two mounting grooves respectively formed on the two inner walls of the rainwater inlet, and a manhole cover provided at the top of the rainwater inlet.

[0006] More preferably, the mounting slot and the card block are configured with a snap-fit ​​structure.

[0007] More preferably, the external dimensions of the guide groove and the internal dimensions of the guide block are the same.

[0008] More preferably, the groove and the slider are configured to slide together.

[0009] More preferably, the first locking pin and the second locking pin are configured with a locking structure.

[0010] More preferably, the slide rod and the compression spring are symmetrical about the vertical center line of the sewage interception basket.

[0011] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0012] In this invention, the cooperation of the connecting rod, the first locking pin, and the second locking pin significantly improves the stability of the intercepting basket during installation by utilizing the cooperation of the locking block and the installation groove. This solves the problem that the hook of the intercepting basket is prone to breakage due to aging or corrosion when it is fixed by hook-type installation for a long time. As a result, the fixing strength of the intercepting basket during installation is greatly increased, thereby improving the effectiveness of the interceptor.

[0013] In this invention, the sliding rod, pressure plate, and compression spring work together to enable the rapid disassembly of the intercepting basket during the disassembly of the rainwater inlet garbage interceptor. This significantly reduces the labor intensity of workers when disassembling the intercepting basket, thereby increasing the convenience of disassembling the intercepting basket and meeting the requirements of the rainwater inlet garbage interceptor. Attached Figure Description

[0014] Figure 1 This is a frontal view of the internal cross-sectional structure of this utility model;

[0015] Figure 2 This is a front view of the enlarged internal structure of the fixing base of this utility model;

[0016] Figure 3 This utility model Figure 2 Enlarged structural diagram at point A in the middle;

[0017] Figure 4 This is a top view of the structure of this utility model.

[0018] In the diagram: 1. Outer shell assembly; 101. Rainwater inlet; 102. Mounting groove; 103. Manhole cover; 2. Sewage interception basket; 3. Fixing base; 4. Cavity; 5. Guide groove; 6. Connecting rod; 7. Locking block; 8. First locking pin; 9. Spring; 10. Guide block; 11. Slot; 12. Sliding groove; 13. Sliding rod; 14. Pressure plate; 15. Compression spring; 16. Sliding block; 17. Second locking pin. Detailed Implementation

[0019] 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 skilled in the art without creative effort are within the protection scope of the present utility model.

[0020] Please see Figures 1 to 4This utility model provides a technical solution: a rainwater inlet garbage interceptor, including a shell assembly 1 and a sewage interception basket 2. Each of the four corners of the top of the sewage interception basket 2 is provided with a fixing seat 3. The four fixing seats 3 have cavities 4 inside. The bottom of each cavity 4 has a guide groove 5. Each cavity 4 has a connecting rod 6 inside. One end of each connecting rod 6 has a locking block 7. The outside of each connecting rod 6 has a first locking pin 8. One side of each first locking pin 8 has a spring 9. The bottom of each first locking pin 8 has a guide block 10. The top of each cavity 4 has a slot 11. The two inner walls of each slot 11 have sliding grooves 12. The inside of each slot 11 has a sliding rod 13. The outside of each sliding rod 13 has a pressure plate 14. The top of each pressure plate 14 has a compression spring 15. Both ends of each pressure plate 14 have sliders 16. The bottom of each sliding rod 13 has a second locking pin 17.

[0021] In this embodiment, as Figure 1 As shown, the outer casing assembly 1 includes a rainwater inlet 101, with two mounting slots 102 respectively opened on the two inner walls of the rainwater inlet 101, and a manhole cover 103 is provided on the top of the rainwater inlet 101.

[0022] In this embodiment, as Figure 1 As shown, the mounting groove 102 and the locking block 7 are designed with a snap-fit ​​structure; this increases the stability of the intercepting basket 2 during installation, thereby preventing the intercepting basket 2 from detaching from the rainwater inlet 101 during use.

[0023] In this embodiment, as Figure 2 As shown, the external dimensions of the guide groove 5 and the internal dimensions of the guide block 10 are consistent; this ensures that the first locking pin 8 moves in a single direction, preventing the first locking pin 8 from tilting or deviating during movement, thereby increasing the stability of the first locking pin 8 during movement.

[0024] In this embodiment, as Figure 3 As shown, the slide groove 12 and the slider 16 are connected by a sliding connection; this prevents the pressure plate 14 from rotating during movement, thereby greatly increasing the stability of the pressure plate 14 during movement and preventing the pressure plate 14 from shifting or tilting during movement.

[0025] In this embodiment, as Figure 2 As shown, the first locking pin 8 and the second locking pin 17 are designed with a snap-fit ​​structure; the cooperation between the locking block 7 and the mounting groove 102 greatly improves the stability of the intercepting basket 2 during installation and fixation, and solves the problem that the hook of the rainwater inlet 101 garbage interceptor is prone to breakage due to aging or corrosion when the intercepting basket 2 is fixed by hook installation for a long time. This greatly increases the fixing strength of the intercepting basket 2 during installation, thereby improving the use effect of the garbage interceptor.

[0026] In this embodiment, as Figure 1 As shown, the slide bar 13 and the compression spring 15 are symmetrical about the vertical center line of the intercepting basket 2 with respect to the second locking pin 17; this enables the quick disassembly of the intercepting basket 2, greatly reducing the labor intensity of the workers when disassembling the intercepting basket 2, thereby increasing the convenience of the intercepting basket 2 during disassembly, and thus meeting the requirements of the rainwater inlet 101 garbage interceptor.

[0027] The method of use and advantages of this utility model: When using this type of rainwater inlet garbage interceptor, the working process is as follows:

[0028] like Figure 1 , Figure 2 , Figure 3 and Figure 4As shown, when installing the sewage intercepting basket 2, firstly, align the locking blocks 7 on both sides of the top of the sewage intercepting basket 2 with the installation groove 102 opened inside the rainwater inlet 101. Then, push the four push plates. At this time, the four push plates drive the locking blocks 7 to engage in the installation groove 102 through the connecting rod 6. Simultaneously, the connecting rod 6 drives the first locking pin 8 to move synchronously in the cavity 4 under the cooperation of the guide groove 5 and the guide block 10, compressing the spring 9. When the first locking pin 8 contacts the second locking pin 17, the second locking pin 17 will move upward under the force. At this time, the second locking pin 17... 7. The sliding rod 13 drives the pressure plate 14 to move upward with the cooperation of the slider 16 and the sliding groove 12. At the same time, the pressure plate 14 compresses the compression spring 15. As the first locking pin 8 moves continuously, when the first locking pin 8 moves past the second locking pin 17, the compression spring 15 uses its own elastic structure to drive the second locking pin 17 to move downward, so that the first locking pin 8 and the second locking pin 17 form a mutually resisting locking structure. The cooperation between the locking block 7 and the mounting groove 102 greatly improves the stability of the sewage intercepting basket 2 during installation and fixation, and solves the problem of the sewage intercepting basket 2 being subjected to long-term hanging The hook-type installation and fixing method can easily lead to breakage of the hook at the rainwater inlet 101 garbage interceptor due to aging or corrosion. This significantly increases the fixing strength of the intercepting basket 2 during installation, thereby improving the effectiveness of the garbage interceptor. When it is necessary to disassemble the intercepting basket 2, open the cover plate at the top of the fixing base 3, and then pull the pull ring. This causes the pull ring to move the slide rod 13 upwards. At this time, the slide rod 13 drives the pressure plate 14 upwards in cooperation with the slider 16 and the slide groove 12. Simultaneously, the pressure plate 14 compresses the compression spring 15, and the slide rod 13 drives the second... The locking pin 17 moves upward synchronously, causing the second locking pin 17 to disengage from the first locking pin 8 in the resisting engagement structure. After the second locking pin 17 disengages from the first locking pin 8 in the resisting engagement structure, the spring 9 uses its own elastic structure to drive the locking block 7 out of the interior of the mounting groove 102 through the connecting rod 6, so that the locking block 7 and the mounting groove 102 make contact engagement structure, realizing the quick disassembly of the intercepting basket 2, greatly reducing the labor intensity of the workers when disassembling the intercepting basket 2, thereby increasing the convenience of the intercepting basket 2 during disassembly, and thus meeting the requirements of the rainwater inlet 101 garbage interceptor.

[0029] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely preferred examples and are not intended to limit the utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A rainwater inlet garbage interceptor, comprising a housing assembly (1) and a sewage interception basket (2), characterized in that: The top four corners of the intercepting basket (2) are each provided with a fixing seat (3). The four fixing seats (3) have cavities (4) inside. The bottom of the four cavities (4) has a guide groove (5). The four cavities (4) are provided with connecting rods (6). One end of the four connecting rods (6) is provided with a locking block (7). The four connecting rods (6) are provided with first locking pins (8) on the outside. One side of the four first locking pins (8) is provided with a spring (9). The bottom of the four first locking pins (8) is... A guide block (10) is provided. The top of each of the four cavities (4) is provided with a slot (11). The two inner walls of the four slots (11) are provided with sliding grooves (12). The inside of each slot (11) is provided with a sliding rod (13). The outside of each sliding rod (13) is provided with a pressure plate (14). The top of each pressure plate (14) is provided with a compression spring (15). The two ends of each pressure plate (14) are provided with sliders (16). The bottom of each sliding rod (13) is provided with a second locking pin (17).

2. The rainwater inlet garbage interceptor according to claim 1, characterized in that: The outer casing assembly (1) includes a rainwater inlet (101), and two mounting grooves (102) are respectively opened on the two inner walls of the rainwater inlet (101). A manhole cover (103) is provided on the top of the rainwater inlet (101).

3. A rainwater inlet garbage interceptor according to claim 2, characterized in that: The mounting slot (102) and the card block (7) are designed with a snap-fit ​​structure.

4. A rainwater inlet garbage interceptor according to claim 1, characterized in that: The external dimensions of the guide groove (5) are consistent with the internal dimensions of the guide block (10).

5. A rainwater inlet garbage interceptor according to claim 1, characterized in that: The groove (12) and the slider (16) are configured to be slidably connected.

6. A rainwater inlet garbage interceptor according to claim 1, characterized in that: The first locking pin (8) and the second locking pin (17) are configured to have a locking structure.

7. A rainwater inlet garbage interceptor according to claim 1, characterized in that: The slide bar (13) and compression spring (15) are symmetrical about the vertical center line of the intercepting basket (2) with respect to the second locking pin (17).