A refuse container water receiving device
By installing a U-shaped shielding door and a water collection tank controlled by a telescopic actuator on the waste container, the problems of leachate outflow pollution and cumbersome operation of the water collection tank were solved, realizing automated liquid treatment and reducing environmental pollution and operational difficulty.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHENGDU YUNHAITIAN ENV PROTECTION TECH CO LTD
- Filing Date
- 2025-07-22
- Publication Date
- 2026-07-14
AI Technical Summary
During transportation, leachate from existing garbage containers can easily leak out, causing road pollution. Furthermore, the installation and dismantling of existing water collection tanks are cumbersome, labor-intensive, and require significant space.
The water receiving trough device adopts a U-shaped shielding door and a telescopic actuator. The telescopic actuator controls the movement of the U-shaped shielding door to realize the automatic flipping and positioning of the water receiving trough, avoiding frequent disassembly and installation.
It reduces the labor intensity of operators, lowers the risk of environmental pollution during waste transportation, simplifies the operation process, and saves operating space.
Smart Images

Figure CN224492331U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of waste container technology, specifically relating to a waste container water receiving device. Background Technology
[0002] As people's living standards improve, the amount of garbage is increasing, and people's demands for environmental sanitation are also rising. Garbage disposal sites are being moved further and further away from cities. Although sanitation departments use specialized garbage containers, during transport, the prolonged jolting of the vehicles causes the garbage inside the containers to become increasingly compacted from top to bottom. This increased pressure at the bottom forces liquid out of the garbage, forming leachate. Due to the high pressure of the leachate inside the container, if the rear door is not closed tightly, the sealing device is damaged, or foreign objects are trapped in the rear door, the leachate will leak out and spill onto the road, causing secondary pollution.
[0003] To address the aforementioned issues, existing garbage containers typically have a water collection trough installed below the rear door to collect any liquids that may leak out. However, the existing water collection troughs are floating, requiring manual installation and removal for each operation. Removal requires two or more people, making the process cumbersome and labor-intensive. Furthermore, the placement of the removed troughs occupies valuable work space, which is extremely inconvenient. Utility Model Content
[0004] The purpose of this invention is to provide a water collection device for garbage containers to solve the aforementioned problems in the prior art.
[0005] To achieve the above objectives, the present invention adopts the following technical solution:
[0006] A water receiving device for a garbage container includes a water receiving trough and a shielding door mechanism. The shielding door mechanism includes a U-shaped shielding door and a telescopic actuator. The U-shaped shielding door is located at the rear of the garbage container, and the two sides of the U-shaped shielding door are slidably connected to the two sides of the garbage container. The telescopic actuator is installed on the side of the garbage container and is connected to the side of the U-shaped shielding door to drive the U-shaped shielding door to move closer to or away from the rear door of the garbage container.
[0007] The upper end of the water receiving trough is rotatably connected to the lower end of the U-shaped shielding door, and in its natural state, the water receiving trough is in a pouring state where the lower end is flipped away from the garbage container and the liquid in the water receiving trough can be poured out.
[0008] The upper end of each side of the water receiving trough is fixed with a water receiving trough lever, and the side of the garbage container is fixed with a stop bar located between the U-shaped shielding door and the water receiving trough. When the U-shaped shielding door moves towards the rear door of the garbage container, the water receiving trough lever can abut against the stop bar and cause the water receiving trough to flip to the water receiving state when it moves to the bottom of the rear door of the garbage container.
[0009] As a preferred technical solution of this utility model, telescopic actuators are installed on both sides of the garbage container, and the two telescopic actuators are respectively connected to the two sides of the U-shaped shielding door.
[0010] As a preferred technical solution of this utility model, the U-shaped shielding door is fixed with limit rods on both sides, and the garbage container is provided with long strip limit holes extending along its length on both sides, with the limit rods slidably connected in the long strip limit holes.
[0011] As a preferred technical solution of this utility model, the garbage container is fixed with horizontal support plates on both sides, and the U-shaped shielding door is slidably connected to the two horizontal support plates on both sides.
[0012] As a preferred technical solution of this utility model, water receiving trough levers are fixed at the upper ends of both sides of the water receiving trough, and baffles are fixed on both sides of the garbage container. Each of the two water receiving trough levers is correspondingly set with a baffle.
[0013] As a preferred technical solution of this utility model, the lower parts of both sides of the U-shaped shielding door are connected to the middle part of the rear side of the water receiving trough by tension springs. When the water receiving trough is in the pouring state, the tension springs are in the natural state.
[0014] As a preferred technical solution of this utility model, the telescopic actuator is an electric cylinder, a pneumatic cylinder, or a hydraulic cylinder.
[0015] Beneficial effects: This utility model rotatably connects the water receiving trough to the lower end of the U-shaped shielding door. In practice, the U-shaped shielding door can move closer to or further away from the rear door of the garbage container under the drive of the telescopic actuator, thus avoiding disassembly and interference with the dumping of garbage inside the garbage container. Naturally, it eliminates the need for frequent disassembly and installation of the water receiving trough, saving manpower and eliminating the problem of occupying work space during placement. In actual operation, as the U-shaped shielding door moves away from the rear door of the garbage container, the water receiving trough can naturally flip to the pouring state, thereby pouring the liquid in the trough to the designated location. After the garbage is processed, the telescopic actuator controls the U-shaped shielding door to retract towards the garbage container. As the U-shaped shielding door moves closer to the rear door of the garbage container, the water receiving trough lever can abut against the stop bar, causing the water receiving trough to flip to the water receiving state when it moves to the bottom of the rear door of the garbage container. This reduces the possibility of secondary environmental pollution caused by container dripping and spillage during garbage transportation, reduces the labor intensity of operators, and simplifies the equipment operation process. Attached Figure Description
[0016] Figure 1 This is a side view of the water receiving trough in the present invention when it is in the pouring state;
[0017] Figure 2 This is a side view of the water receiving trough in the present invention when it is in the water receiving state;
[0018] Figure 3 This is a three-dimensional schematic diagram of the water receiving trough in the present invention when it is in the water receiving state.
[0019] In the diagram: 1-Water inlet trough; 101-Water inlet trough lever; 2-Shelter door mechanism; 201-U-shaped shelter door; 202-Telescopic actuator; 203-Limit rod; 3-Garbage container; 301-Horizontal support plate; 4-Stop bar; 5-Tension spring. Detailed Implementation
[0020] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the present utility model will be briefly introduced below in conjunction with the accompanying drawings and descriptions of the embodiments or the prior art. Obviously, the following description of the structure of the accompanying drawings is 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. It should be noted that the description of these embodiments is used to help understand this utility model, but does not constitute a limitation on this utility model.
[0021] Example:
[0022] like Figure 1 , Figure 2 and Figure 3As shown, this embodiment provides a water receiving device for a garbage container, including a water receiving trough 1 and a shielding door mechanism 2. The shielding door mechanism 2 includes a U-shaped shielding door 201 and a telescopic actuator 202. The U-shaped shielding door 201 is located at the rear of the garbage container 3, with its opening facing the garbage container 3. The two sides of the U-shaped shielding door 201 are slidably connected to the two sides of the garbage container 3 to ensure the stability and flexibility of the U-shaped shielding door 201. The telescopic actuator 202 is installed on the side of the garbage container 3 and is connected to the side of the U-shaped shielding door 201. The telescopic actuator 202 is used to drive the U-shaped shielding door 201 to move closer to or away from the rear door of the garbage container 3. When the U-shaped shielding door 201 is close to the rear door of the garbage container 3, it is preferably very close to or flush with the rear door of the garbage container 3, reducing the floor space. When the U-shaped shielding door 201 is away from the rear door of the garbage container 3, it does not affect the opening of the rear door of the garbage container 3. The rear door of the garbage container 3 is preferably... Figures 1-3 As shown, it has a rotating shaft at the top and opens by flipping upwards at the bottom. This way, as long as the rear door of the garbage container 3 is flipped at a certain angle, the garbage inside the garbage container 3 can be dumped out.
[0023] Furthermore, the upper end of the water receiving trough 1 is rotatably connected to the lower end of the U-shaped shielding door 201. Here, two extension rods can be installed at the lower ends on both sides of the U-shaped shielding door 201. The lower ends of the extension rods are rotatably connected to the upper end of the water receiving trough 1 to ensure that the water receiving trough 1 will not fall off. The water receiving trough 1 can be flipped relative to the lower end of the extension rods to switch between the water receiving trough 1 in the pouring state and the water receiving state. In the natural state, the water receiving trough 1 is in the pouring state, with its lower end flipped away from the garbage container 3, and the liquid in the water receiving trough 1 can be poured out. In this way, when dumping garbage, the U-shaped shielding door 201 moves away from the rear door of the garbage container 3, and at the same time, it drives the water receiving trough 1 to flip to the pouring state, so that the liquid in the water receiving trough 1 is poured out while dumping garbage.
[0024] Furthermore, the upper end of each side of the water receiving trough 1 is fixed with a water receiving trough lever 101, which is located on the side of the extension rod near the garbage container 3. The side of the garbage container 3 is fixed with a stop bar 4 located in the height direction between the U-shaped shielding door 201 and the water receiving trough 1. When the U-shaped shielding door 201 moves towards the rear door of the garbage container 3, the water receiving trough lever 101 can abut against the stop bar 4, causing the water receiving trough 1 to flip into a water receiving state when it moves below the rear door of the garbage container 3. Figure 1As shown, in its natural state, the upper end of the water receiving trough lever 101 first abuts against the baffle 4. As the water receiving trough 1 approaches the garbage container 3, the middle and even the lower part of the water receiving trough lever 101 gradually abuts against the baffle 4, thereby enabling the water receiving trough 1 to flip to the water receiving state so that the water receiving trough 1 can collect the liquid flowing out of the rear door of the container during the transfer of the garbage container.
[0025] This invention rotatably connects the water receiving trough 1 to the lower end of the U-shaped shielding door 201. In practice, the U-shaped shielding door 201 can move closer to or further away from the rear door of the garbage container 3 under the drive of the telescopic actuator 202, thus avoiding disassembly and interference with the dumping of garbage inside the garbage container 3. This eliminates the need for frequent disassembly and installation of the water receiving trough 1, saving manpower and eliminating the problem of occupying work space during placement. During actual operation, as the U-shaped shielding door 201 moves away from the rear door of the garbage container 3, the water receiving trough 1 can naturally rotate to the water-pouring state, thereby... The liquid in the water receiving tank 1 is poured into the designated location. After the garbage is processed, the telescopic actuator 202 controls the U-shaped shielding door 201 to retract towards the garbage container 3. As the U-shaped shielding door 201 moves towards the rear door of the garbage container 3, the water receiving tank lever 101 can abut against the stop bar 4, causing the water receiving tank 1 to flip into a water receiving state when it moves to the bottom of the rear door of the garbage container 3. This reduces the possibility of secondary environmental pollution caused by leakage and spillage of the container during garbage transportation, reduces the labor intensity of operators, and also reduces the equipment operation process.
[0026] As a preferred technical solution of this utility model, telescopic actuators 202 are installed on both sides of the garbage container 3. The two telescopic actuators 202 are respectively connected to both sides of the U-shaped shielding door 201. This makes the movement of the U-shaped shielding door 201 more stable and extends the service life of the shielding door mechanism 2.
[0027] As a preferred technical solution of this utility model, the U-shaped shielding door 201 is fixed with limit rods 203 on both sides, and the garbage container 3 is provided with elongated limit holes extending along its length on both sides. The limit rods 203 are slidably connected in the elongated limit holes, and the U-shaped shielding door 201 is limited by sliding cooperation, thereby ensuring that the U-shaped shielding door 201 can continue to slide more stably.
[0028] As a preferred technical solution of this utility model, the garbage container 3 is fixed with horizontal support plates 301 on both sides, and the U-shaped shielding door 201 is slidably connected to the two horizontal support plates 301 on both sides, which supports the U-shaped shielding door 201, so that the U-shaped shielding door 201 can be more stably set on the garbage container 3.
[0029] As a preferred technical solution of this utility model, water receiving trough levers 101 are fixed at the upper ends of both sides of the water receiving trough 1, and baffles 4 are fixed on both sides of the garbage container 3. Each of the two water receiving trough levers 101 is correspondingly set with a baffle 4, so that both ends of the water receiving trough 1 are under force when the water receiving trough levers 101 contact the baffles 4, thereby making the force on the water receiving trough 1 more uniform and the structural stability better.
[0030] As a preferred technical solution of this utility model, the lower parts of both sides of the U-shaped shielding door 201 are connected to the middle of the rear side of the water receiving tank 1 by tension springs 5. When the water receiving tank 1 is in the pouring state, the tension springs 5 are in the natural state. Thus, when the water receiving tank 1 is in the receiving state, the tension springs 5 will also be in the stretched state. At this time, as long as the U-shaped shielding door 201 moves away from the garbage container 3, the tension springs 5 will also drive the water receiving tank 1 to flip.
[0031] As a preferred technical solution of this utility model, the telescopic actuator 202 is an electric cylinder, a pneumatic cylinder or a hydraulic cylinder, all of which are conventional existing technologies that are easy to purchase, easy to control costs, and easier to realize the sliding control of the U-shaped shielding door 201.
[0032] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the scope of protection of this utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the scope of protection of this utility model.
Claims
1. A waste container water receiving device, comprising a water receiving tank (1), characterized in that, It also includes a shielding door mechanism (2), which includes a U-shaped shielding door (201) and a telescopic actuator (202). The U-shaped shielding door (201) is located at the rear of the garbage container (3). The two sides of the U-shaped shielding door (201) are slidably connected to the two sides of the garbage container (3). The telescopic actuator (202) is installed on the side of the garbage container (3). The telescopic actuator (202) is connected to the side of the U-shaped shielding door (201) and is used to drive the U-shaped shielding door (201) to move closer to or away from the rear door of the garbage container (3) through the telescopic actuator (202). The upper end of the water receiving trough (1) is rotatably connected to the lower end of the U-shaped shielding door (201), and in its natural state, the water receiving trough (1) is in a water-pouring state where the lower end is flipped away from the garbage container (3) and the liquid in the water receiving trough (1) can be poured out. The upper end of the side of the water receiving trough (1) is fixed with a water receiving trough lever (101). The side of the garbage container (3) is fixed with a stop bar (4) located between the U-shaped shielding door (201) and the water receiving trough (1). When the U-shaped shielding door (201) moves toward the rear door of the garbage container (3), the water receiving trough lever (101) can abut against the stop bar (4) and make the water receiving trough (1) flip to the water receiving state when it moves to the bottom of the rear door of the garbage container (3).
2. The waste container water receiving device according to claim 1, characterized in that, The garbage container (3) is equipped with telescopic actuators (202) on both sides, and the two telescopic actuators (202) are respectively connected to the two sides of the U-shaped shielding door (201).
3. A waste container water receiving device according to claim 1 or 2, characterized in that, Both sides of the U-shaped shielding door (201) are fixed with limit rods (203), and both sides of the garbage container (3) are provided with long strip limit holes extending along its length direction. The limit rods (203) are slidably connected in the long strip limit holes.
4. A waste container water receiving device according to claim 3, characterized in that, The garbage container (3) has horizontal support plates (301) fixed on both sides, and the U-shaped shielding door (201) is slidably connected to the two horizontal support plates (301) on both sides.
5. A waste container water receiving device according to claim 1, characterized in that, The upper ends of both sides of the water receiving trough (1) are fixed with water receiving trough levers (101), and both sides of the garbage container (3) are fixed with baffles (4). Each of the two water receiving trough levers (101) is set with a baffle (4).
6. A waste container water receiving device according to claim 1, characterized in that, The lower parts of both sides of the U-shaped shielding door (201) are connected to the middle of the back side of the water receiving tank (1) by tension springs (5). When the water receiving tank (1) is in the pouring state, the tension springs (5) are in the natural state.
7. A waste container water receiving device according to claim 1, characterized in that, The telescopic actuator (202) is an electric cylinder, a pneumatic cylinder, or a hydraulic cylinder.