Odor control device that can be injected with deodorizing agent
By setting up a delivery channel and flow guiding structure inside the purification chamber, the deodorizing agent can be injected and replenished, solving the problem that existing equipment needs to be shut down and disassembled for replenishment of the deodorizing agent, and ensuring that the equipment continuously and efficiently purifies odors.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI QIFEITE ENVIRONMENTAL BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-08-01
- Publication Date
- 2026-07-03
AI Technical Summary
The deodorizing agent containers in existing odor control equipment are designed to be fixed, which means that the machine needs to be stopped and disassembled for replenishment after the deodorizing agent is consumed to a certain extent. This can easily lead to problems such as untimely replenishment and a decrease in deodorizing effect.
Design an odor control device that can inject odor-reducing agent. By setting up a conveying channel, a mixing channel and a flow guiding structure in the purification chamber, the odor-reducing agent can be injected and replenished, ensuring timely replenishment of the odor-reducing agent in the treatment chamber and avoiding insufficient odor-reducing agent.
It enables timely replenishment of the deodorizing agent, ensuring that the equipment always maintains good odor purification capabilities and avoiding a decline in purification effect due to insufficient deodorizing agent.
Smart Images

Figure CN224442626U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to an odor control device that can be injected with odor-removing agents, belonging to the field of odor purification technology. Background Technology
[0002] Odor pollution is a common problem in industrial production, municipal facilities, and daily life. To improve environmental quality, various odor control devices are widely used. Most existing odor control devices work by using built-in deodorizing agents that react chemically with odorous gases or undergo physical adsorption to purify them. However, the deodorizing agent containers in common devices are fixed in design. When the deodorizing agent is depleted to a certain level, the machine must be stopped and disassembled for replenishment, which can easily lead to a decrease in deodorization effectiveness due to untimely replenishment. Utility Model Content
[0003] The technical problem to be solved by this utility model is to provide an odor control device that can inject odor deodorizer. It solves the problem that the odor deodorizer container of common devices in the prior art is fixed. When the odor deodorizer is consumed to a certain extent, the machine needs to be stopped and the device needs to be disassembled to replenish it. This can easily lead to a decrease in the odor deodorization effect due to untimely replenishment.
[0004] The technical problem to be solved by this utility model is achieved by the following technical solution: an odor control device that can inject deodorizing agent, including a purification box, two conveying channels are opened inside the purification box, a mixing channel is connected between the two conveying channels, an air inlet pipe and an air outlet pipe are respectively connected to the conveying channels, a connecting plate is provided on the purification box, a processing chamber is opened on the connecting plate, the processing chamber is connected to the mixing channel, an installation groove is opened on the purification box, a number of storage tanks are fixedly installed inside the installation groove, and a guide structure for connecting the storage tanks and the processing chamber is provided on the purification box.
[0005] By adopting the above technical solution, the gas to be purified is first transported through the inlet pipe to the conveying channel inside the purification chamber, and then through the conveying channel to the mixing channel. The deodorizing agent in the treatment chamber mixes with the gas, and the odor is treated by mixing the deodorizing agent with the odor. The treated gas is discharged through the conveying channel and the outlet pipe. When it is necessary to inject deodorizing agent into the treatment chamber, the treatment liquid in the storage tank is transported into the treatment chamber under the action of the guide structure. The deodorizing agent can be replenished into the treatment chamber in a timely manner through the injectable method, so as to avoid the odor treatment effect from decreasing due to insufficient deodorizing agent and ensure that the equipment always maintains a good odor purification capacity.
[0006] The present invention is further configured such that: the guiding structure includes a first guide hole, a second guide hole, a conveying cavity, a conveying groove, and a connecting groove; the first guide hole is opened on the storage tank and communicates with the inside of the storage tank; the conveying cavity is opened on the purification box; the second guide hole is opened on the storage tank, and the two ends of the second guide hole are respectively connected to the first guide hole and the conveying cavity; the connecting groove is opened on the connecting plate; the conveying groove is opened on the purification box, and the two ends of the conveying groove are respectively connected to the conveying cavity and the connecting groove.
[0007] The present invention is further configured such that: a sealing groove is provided on the storage tank, the sealing groove is connected to the first guide hole, a sealing plate is slidably provided inside the sealing groove, the sealing plate can seal the first guide hole, and the end of the sealing plate away from the first guide hole extends to the outside of the purification box and is fixedly provided with a lever.
[0008] The present invention is further configured such that: a fixing block is fixedly installed on the purification box, a positioning groove communicating with the conveying cavity is opened on the fixing block, a positioning plate is slidably installed inside the positioning groove, a baffle is fixedly installed at the end of the positioning plate facing the conveying cavity, and the end of the baffle away from the positioning plate can pass through the conveying cavity and abut against the inner wall of the conveying groove.
[0009] The present invention is further configured such that: a threaded rod is rotatably provided on the fixed block, one end of the threaded rod extends into the interior of the positioning groove and is threadedly connected to the positioning plate, and the other end of the threaded rod extends to the outside of the fixed block and is fixedly provided with a rotating block.
[0010] By adopting the above technical solution, during liquid injection, the rotating block is first rotated to drive the threaded rod to rotate. Under the action of the threaded structure, the threaded rod drives the positioning plate to slide in the positioning groove, causing the positioning plate to move the baffle away from the connecting plate, so that the baffle abuts against the inner wall of the positioning groove. At this time, the conveying groove and the conveying cavity are connected. Then, the lever is pulled to drive the sealing plate to move away from the storage tank in the sealing groove, so that the sealing plate releases the seal on the first guide hole. At this time, the treatment liquid in the storage tank is first conveyed to the second guide hole through the first guide hole, and then conveyed to the inside of the conveying cavity through the second guide hole. Then, the deodorizing agent is conveyed to the inside of the treatment cavity through the conveying groove and the connecting groove.
[0011] The present invention is further provided with a handle fixedly mounted on the connecting plate.
[0012] The beneficial effects of this utility model are as follows: First, the gas to be purified is transported through the inlet pipe to the conveying channel inside the purification chamber, and then through the conveying channel to the mixing channel. The deodorizing agent in the treatment chamber mixes with the gas, and the odor is treated by mixing the deodorizing agent with the odor. The treated gas is discharged through the conveying channel and the outlet pipe. When it is necessary to inject deodorizing agent into the treatment chamber, the treatment liquid in the storage tank is transported into the treatment chamber under the action of the guide structure. The deodorizing agent can be replenished into the treatment chamber in a timely manner through the injectable method, avoiding the decline in odor treatment effect due to insufficient deodorizing agent, and ensuring that the equipment always maintains good odor purification ability. Attached Figure Description
[0013] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0014] Figure 2 This is a cross-sectional structural diagram of the present invention;
[0015] Figure 3 This is a three-dimensional structural diagram of the present invention;
[0016] Figure 4 This utility model Figure 3 Enlarged view of point A in the middle;
[0017] Figure 5 This is a cross-sectional structural diagram of the present invention;
[0018] Figure 6 This utility model Figure 5 Enlarged view of point A in the middle;
[0019] Figure 7 This utility model Figure 5 Enlarged diagram of point B in the middle.
[0020] In the diagram: 1. Purification chamber; 2. Conveying channel; 3. Mixing channel; 4. Inlet pipe; 5. Outlet pipe; 6. Connecting plate; 7. Mounting groove; 8. Storage tank; 9. Processing chamber; 1011. First guide hole; 1012. Second guide hole; 1013. Conveying chamber; 1014. Conveying groove; 1015. Connecting groove; 1021. Sealing groove; 1022. Sealing plate; 1023. Paddle plate; 1031. Fixing block; 1032. Positioning groove; 1033. Positioning plate; 1034. Baffle; 1041. Threaded rod; 1042. Rotating block; 1051. Handle. Detailed Implementation
[0021] To facilitate a clear understanding of the technical means, creative features, objectives, and effects of this utility model, the following description, in conjunction with specific illustrations, further elaborates on this utility model.
[0022] like Figure 1 and Figure 3 As shown, an odor control device capable of injecting deodorizing agent includes a purification box 1. The purification box 1 has two conveying channels 2 inside, and a mixing channel 3 is connected between the two conveying channels 2. The purification box 1 is equipped with an air inlet pipe 4 and an air outlet pipe 5, respectively connected to the conveying channels 2. The end of the air inlet pipe 4 away from the purification box 1 extends to the odor area to be treated. The purification box 1 is equipped with a connecting plate 6, and a processing chamber 9 is formed on the connecting plate 6. The processing chamber 9 is used to store the processing liquid and is connected to the mixing channel 3. The purification box 1 has an installation groove 7, and several storage tanks 8 are fixedly installed inside the installation groove 7. The storage tanks 8 contain the processing liquid to be injected. A cover is provided at the end of the storage tank 8 away from the purification box 1, allowing for easy addition of processing liquid by opening the cover. The purification box 1 is equipped with a guide structure for connecting the storage tanks 8 to the processing chamber 9.
[0023] like Figures 4 to 7 As shown, the guiding structure includes a first guide hole 1011, a second guide hole 1012, a conveying cavity 1013, a conveying groove 1014, and a connecting groove 1015. The first guide hole 1011 is opened on the storage tank 8 and communicates with the inside of the storage tank 8. The conveying cavity 1013 is vertically opened on the purification box 1 and is arranged in an inverted triangle. The second guide hole 1012 is horizontally opened on the storage tank 8, and its two ends are respectively connected to the first guide hole 1011 and the conveying cavity 1013. The connecting groove 1015 is opened on the connecting plate 6. The conveying groove 1014 is opened on the purification box 1, and its two ends are respectively connected to the conveying cavity 1013 and the connecting groove 1015.
[0024] like Figure 5 and Figure 6 As shown, a sealing groove 1021 is horizontally opened on the storage tank 8. The sealing groove 1021 is aligned with several storage tanks 8 respectively. The sealing groove 1021 is connected to the first guide hole 1011. A sealing plate 1022 is slidably arranged inside the sealing groove 1021. A limiting block is fixedly arranged on the sealing plate 1022. A limiting groove is opened on the inner wall of the sealing groove 1021. The limiting block is slidably arranged inside the limiting groove. The limiting block and the sealing plate 1022 move synchronously. Through the cooperation of the limiting block and the limiting groove, the sealing plate 1022 is limited to prevent the sealing plate 1022 from separating from the storage tank 8, and ensure the sealing of the deodorizing agent during delivery. The sealing plate 1022 can seal the first guide hole 1011. The end of the sealing plate 1022 away from the first guide hole 1011 extends to the outside of the purification box 1 and is fixedly arranged with a lever 1023.
[0025] like Figure 7As shown, a fixing block 1031 is fixedly installed on the purification box 1. A positioning groove 1032 communicating with the conveying cavity 1013 is horizontally opened on the fixing block 1031. A positioning plate 1033 is slidably installed inside the positioning groove 1032. The positioning plate 1033 slides along the opening direction of the positioning groove 1032. A baffle 1034 is fixedly installed at the end of the positioning plate 1033 facing the conveying cavity 1013. The end of the baffle 1034 away from the positioning plate 1033 can pass through the conveying cavity 1013 and abut against the inner wall of the conveying groove 1014. When the positioning plate 1033 abuts against the conveying groove 1014, it can seal the conveying cavity 1013 to prevent odors from entering the conveying cavity 1013 through the conveying groove 1014 when the purification box 1 is working. When the positioning plate 1033 abuts against the inner wall of the conveying cavity 1013, it can seal the positioning groove 1032 to prevent the deodorizing agent from flowing into the interior of the positioning groove 1032 when it is injected.
[0026] like Figure 7 As shown, a threaded rod 1041 is rotatably mounted on the fixed block 1031. One end of the threaded rod 1041 extends into the interior of the positioning groove 1032 and is threadedly connected to the positioning plate 1033. The other end of the threaded rod 1041 extends to the outside of the fixed block 1031 and is fixedly mounted on the rotating block 1042.
[0027] like Figure 2 As shown, a handle 1051 is fixedly installed on the connecting plate 6. By holding the handle 1051, the connecting plate 6 can be pulled to move away from the purification box 1, which facilitates the maintenance or replacement of the connecting plate 6 and the treatment chamber 9.
[0028] First, the gas to be purified is transported through the inlet pipe 4 to the conveying channel 2 inside the purification chamber 1, and then through the conveying channel 2 to the mixing channel 3. The deodorizing agent in the treatment chamber 9 mixes with the gas, and the odor is treated by mixing the deodorizing agent with the odor. The treated gas is discharged through the conveying channel 2 and the outlet pipe 5. When it is necessary to inject deodorizing agent into the treatment chamber 9, the treatment liquid in the storage tank 8 is transported into the treatment chamber 9 under the action of the guide structure. The deodorizing agent can be replenished into the treatment chamber 9 in a timely manner through the injection method, so as to avoid the odor treatment effect from decreasing due to insufficient deodorizing agent and ensure that the equipment always maintains a good odor purification capacity.
[0029] During liquid injection, firstly, rotating block 1042 drives threaded rod 1041 to rotate. Under the action of the threaded structure, threaded rod 1041 drives positioning plate 1033 to slide in positioning groove 1032, causing positioning plate 1033 to drive baffle 1034 to move away from connecting plate 6, so that baffle 1034 abuts against the inner wall of positioning groove 1032. At this time, conveying groove 1014 is connected to conveying cavity 1013. Then, pull plate 1023 drives sealing plate 1022 to move away from storage tank 8 in sealing groove 1021, so that sealing plate 1022 cancels the seal on first guide hole 1011. At this time, the treatment liquid in storage tank 8 is first conveyed to second guide hole 1012 through first guide hole 1011, and then conveyed to the inside of conveying cavity 1013 through second guide hole 1012. Then, deodorizing agent is conveyed to the inside of treatment cavity 9 through conveying groove 1014 and connecting groove 1015.
[0030] After the liquid injection is completed, the push plate 1023 is first pushed to move the sealing plate 1022 in the sealing groove 1021 toward the first guide hole 1011, so that the sealing plate 1022 seals the first guide hole 1011. Then, the rotating block 1042 drives the threaded rod 1041 to rotate. Under the action of the threaded structure, the threaded rod 1041 drives the positioning plate 1033 to slide in the positioning groove 1032, so that the positioning plate 1033 drives the baffle 1034 to move toward the connecting plate 6, so that the baffle 1034 abuts against the inner wall of the conveying groove 1014, sealing the conveying cavity 1013.
[0031] 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, and various changes and modifications can be made without departing from the spirit and scope of this utility model. All such changes and modifications fall within the scope of protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. An odor control device capable of injecting deodorizing agents, characterized in that: The system includes a purification chamber (1), which has two conveying channels (2) inside and a mixing channel (3) connected between the two conveying channels (2). The purification chamber (1) is provided with an air inlet pipe (4) and an air outlet pipe (5) respectively connected to the conveying channels (2). The purification chamber (1) is provided with a connecting plate (6), which has a processing chamber (9) connected to the mixing channel (3). The purification chamber (1) is provided with an installation groove (7), which has several storage tanks (8) fixedly installed inside. The purification chamber (1) is provided with a flow guiding structure for connecting the storage tanks (8) and the processing chamber (9).
2. The odor control device with injectable deodorizing agent according to claim 1, characterized in that: The flow guiding structure includes a first flow guiding hole (1011), a second flow guiding hole (1012), a conveying cavity (1013), a conveying groove (1014), and a connecting groove (1015). The first flow guiding hole (1011) is opened on the storage tank (8) and communicates with the inside of the storage tank (8). The conveying cavity (1013) is opened on the purification box (1). The second flow guiding hole (1012) is opened on the storage tank (8). The two ends of the second flow guiding hole (1012) are respectively connected to the first flow guiding hole (1011) and the conveying cavity (1013). The connecting groove (1015) is opened on the connecting plate (6). The conveying groove (1014) is opened on the purification box (1). The two ends of the conveying groove (1014) are respectively connected to the conveying cavity (1013) and the connecting groove (1015).
3. The odor control device with injectable deodorizing agent according to claim 2, characterized in that: The storage tank (8) is provided with a sealing groove (1021), which is connected to the first guide hole (1011). A sealing plate (1022) is slidably arranged inside the sealing groove (1021), which can seal the first guide hole (1011). One end of the sealing plate (1022) away from the first guide hole (1011) extends to the outside of the purification box (1) and is fixedly provided with a lever (1023).
4. The odor control device with injectable deodorizing agent according to claim 2, characterized in that: A fixing block (1031) is fixedly installed on the purification box (1). A positioning groove (1032) communicating with the conveying cavity (1013) is opened on the fixing block (1031). A positioning plate (1033) is slidably installed inside the positioning groove (1032). A baffle (1034) is fixedly installed at one end of the positioning plate (1033) facing the conveying cavity (1013). The end of the baffle (1034) away from the positioning plate (1033) can pass through the conveying cavity (1013) and abut against the inner wall of the conveying groove (1014).
5. An odor control device capable of injecting deodorizing agent according to claim 4, characterized in that: A threaded rod (1041) is rotatably mounted on the fixed block (1031). One end of the threaded rod (1041) extends into the interior of the positioning groove (1032) and is threadedly connected to the positioning plate (1033). The other end of the threaded rod (1041) extends to the outside of the fixed block (1031) and is fixedly mounted on a rotating block (1042).
6. The odor control device with injectable deodorizing agent according to claim 1, characterized in that: A handle (1051) is fixedly installed on the connecting plate (6).