Winding structure, malodor control system
By designing wire channels and through holes on the casing of the odor control system and adjusting the insertion method of the wires, the problems of low wire utilization and messy wiring were solved, achieving flexible wiring and efficient utilization of the wires.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CNUS TECH (GUANGDONG) CO LTD
- Filing Date
- 2025-06-18
- Publication Date
- 2026-07-03
AI Technical Summary
Existing odor control systems have low wire utilization and messy wiring, resulting in insufficient wire length and inconvenient installation.
Design a winding structure with wire grooves and wire holes on the outer shell. The insertion method of the wire can be adjusted by different grooves and combinations of grooves to avoid tangling and crossing, thereby improving the utilization rate of the wire.
By adjusting the way the wires are inserted, the problems of low wire utilization and messy wiring have been solved, improving the flexibility and efficiency of the wires.
Smart Images

Figure CN224459096U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of electronic equipment, and in particular to a winding structure and an odor control system. Background Technology
[0002] Existing odor control systems can be made into fragrance diffusers, aroma diffusers, etc. Most existing odor control systems require an external power source or a charging cable. However, some odor control systems need to be fixed to a wall, and the installation location and socket location of the odor control system were not designed in advance.
[0003] After installing an odor control system, the wiring port of the odor control system may be far from the socket, which means that the wires need to be twisted, crossed, and hung on one side of the odor control system. In addition, such wiring requires the wires to be of sufficient length, which reduces the efficiency of the wires. Moreover, the twisted, crossed, and hung wires give people a messy impression. Utility Model Content
[0004] The purpose of this invention is to improve the low wire utilization rate and messy wiring problems of existing odor control systems, and to provide a winding structure and odor control system.
[0005] The technical solutions for achieving the above objectives include the following:
[0006] An odor control system includes: a housing, the outer surface of which is recessed inward to form a groove, the groove having a through hole that passes through the outer surface of the housing from the inner side;
[0007] The outer casing has a first sidewall and a second sidewall; the first sidewall has a first slot and the second sidewall has a second slot, and both the first slot and the second slot are connected to the wire groove.
[0008] The first sidewall and the second sidewall are arranged adjacent to each other or opposite to each other.
[0009] In one embodiment, there are two first sidewalls, which are arranged opposite to each other; there are also two second sidewalls, which are arranged opposite to each other.
[0010] Two first sidewalls and two second sidewalls are respectively disposed around the perimeter of the outer shell.
[0011] In one embodiment, the wire groove is located near the top corner of the housing;
[0012] A first line is formed between the first slot and the wire hole, and a second line is formed between the second slot and the wire hole. The angle between the first line and the second line is equal to 90 degrees.
[0013] In one embodiment, the wire groove includes a first receiving groove and a second receiving groove, the first receiving groove and the second receiving groove are respectively located on both sides of the wire hole, the first receiving groove is connected to a first slot opening, and the second receiving groove is connected to a second slot opening.
[0014] In one embodiment, the groove also has a slot, the thread hole is located in the slot, and the slot is circular in shape.
[0015] In one embodiment, the outer shell has a first surface and a second surface, and both the first sidewall and the second sidewall are disposed between the first surface and the second surface, and the two ends of the first sidewall are respectively connected to the first surface and the second surface, and the two ends of the second sidewall are respectively connected to the first surface and the second surface.
[0016] The first surface and the second surface are positioned opposite to each other.
[0017] The first surface has an operation panel, and the groove is located on the second surface.
[0018] This utility model also proposes an odor control system, including an atomizer, an air tube, an air pump, a wire, and a winding structure as described above. The atomizer, air pump, and air tube are all installed inside the housing of the winding structure. The atomizer is connected to the air pump through the air tube. The wiring hole of the air pump corresponds to the wire hole. The first end of the wire is detachably installed in the wire hole and electrically connected to the air pump.
[0019] In one embodiment, the odor control system further includes a fan assembly installed inside the housing. The fan assembly has an air outlet, and the atomizer has a spray nozzle. Both the spray nozzle and the air outlet are disposed on the outer surface of the housing, with the air outlet located close to the spray nozzle.
[0020] In one embodiment, the fan assembly includes an air outlet cover and a fan, the atomizer has an atomizing cover, the air outlet cover is sleeved on the atomizing cover, the spray nozzle is located on the atomizing cover, an air outlet channel is formed between the inner wall of the air outlet cover and the outer wall of the atomizing cover, one end of the air outlet channel is connected to the fan, and the other end of the air outlet channel is connected to the air outlet.
[0021] In one embodiment, the air outlet cover has multiple air guide plates, with adjacent two air guide plates spaced apart to form multiple air outlets;
[0022] The air guide plate is set at an angle.
[0023] The technical solution provided by this utility model has the following advantages and effects:
[0024] The first sidewall is adjacent to the second sidewall, and a first slot or a second slot suitable for the length of the wire is selected to guide the wire. The first sidewall is set opposite to the second sidewall, and the difference between selecting the first slot or the second slot to guide the wire is large. This allows the insertion method of the wire to be adjusted according to the installation position of the socket, avoiding the wire from getting tangled or crossed, improving the utilization rate of the wire, and solving the problems of low utilization rate of existing wires and messy wiring. Attached Figure Description
[0025] The accompanying drawings illustrate specific examples of the technical solutions described in this utility model, and together with the detailed embodiments, form part of the specification, serving to explain the technical solutions, principles, and effects of this utility model.
[0026] Unless otherwise specified or defined, the same reference numerals in different figures represent the same or similar technical features, and different reference numerals may be used to represent the same or similar technical features.
[0027] Figure 1 This is a schematic diagram of the winding structure in an odor control system according to one embodiment of the present invention;
[0028] Figure 2 This is one embodiment of the present invention. Figure 1 Enlarged view of point A in the image;
[0029] Figure 3 This is a front view of an embodiment of the odor control system of this utility model;
[0030] Figure 4 This is an internal schematic diagram of the odor control system in one embodiment of the present invention;
[0031] Figure 5 This is a schematic diagram of the connection between the atomizing cover and the air outlet cover in one embodiment of this utility model;
[0032] Figure 6 This is a front view of the connection between the atomizing cover and the air outlet cover in one embodiment of this utility model;
[0033] Figure 7 This is one embodiment of the present invention. Figure 6 Cross-sectional view of section AA;
[0034] Figure 8 This is one embodiment of the present invention. Figure 6 Cross-sectional view of BB section;
[0035] Explanation of reference numerals in the attached figures:
[0036] 100. Odor control system;
[0037] 1. Outer shell; 101. First sidewall; 102. Second sidewall; 103. First surface; 1031. Operation panel; 104. Second surface; 11. Wire groove; 111. First receiving groove; 112. Second receiving groove; 12. First slot opening; 13. Second slot opening; 14. Wire hole; 141. Card slot;
[0038] 2. Wire;
[0039] 3. Atomizer; 31. Spray nozzle; 32. Atomizing cap; 33. Spray direction; 34. Angle; 35. Spray channel; 4. Air pump; 5. Air pipe; 61. Air outlet cap; 611. Air outlet; 612. Air guide plate; 613. Baffle; 614. Air outlet direction; 615. Support body; 601. First side; 602. Second side; 62. Fan; 63. Air outlet channel. Detailed Implementation
[0040] To facilitate understanding of this utility model, the specific embodiments of this utility model will be described in more detail below with reference to the accompanying drawings.
[0041] Unless otherwise specified or defined, the terms "first," "second," etc., used in this document are for distinguishing names only and do not represent a specific number or order.
[0042] Unless otherwise stated or defined, the term “and / or” as used herein includes any and all combinations of one or more of the related listed items.
[0043] It should be noted that when a component is considered "fixed" to another component, it can be directly fixed to the other component or there can be an intervening component; when a component is considered "connected" to another component, it can be directly connected to the other component or there can be an intervening component; when a component is considered "mounted" on another component, it can be directly mounted on the other component or there can be an intervening component; when a component is considered "placed" on another component, it can be directly placed on the other component or there can be an intervening component.
[0044] This utility model proposes a winding structure, such as Figures 1 to 4 As shown, the device includes a housing 1, the outer surface of which is recessed inward to form a wire groove 11. The wire groove 11 has a wire hole 14 that passes through the outer surface of the housing 1 from the inner side. The housing 1 has a first sidewall 101 and a second sidewall 102. The first sidewall 101 has a first slot 12 and the second sidewall 102 has a second slot 13. Both the first slot 12 and the second slot 13 are connected to the wire groove 11. The first sidewall 101 and the second sidewall 102 are arranged adjacent to each other or opposite to each other.
[0045] Specifically, the outer casing 1 has a wire groove 11, and one end of the wire 2 has a connector for insertion into the wire groove 11. The outer wall of the connector is lower than the outer surface of the outer casing 1, so that the connector is hidden inside the wire groove 11. The other end of the wire 2 passes through the first slot 12 or the second slot 13. When the socket is close to the first side wall 101, the other end of the wire 2 passes through the first slot 12 and connects to the socket. When the socket is close to the second side wall 102, the other end of the wire 2 passes through the second slot 13 and connects to the socket. In this embodiment, the first side wall 101 and the second side wall 102 are adjacent, and the first slot 12 or the second slot 13, which is adapted to the length of the wire 2, is selected to guide the wire 2. The first side wall 101 and the second side wall 102 are set opposite each other, and the difference between selecting the first slot 12 or the second slot 13 to guide the wire 2 is large. This allows the insertion method of the wire 2 to be adjusted according to the installation position of the socket, avoiding the wire 2 from getting tangled or crossed, improving the utilization rate of the wire 2, and solving the problems of low utilization rate and messy wiring of existing wires 2.
[0046] In some embodiments, there are two first sidewalls 101, which are arranged opposite to each other, and second sidewalls 102 are arranged adjacent to each of the two first sidewalls 101; and / or, there are two second sidewalls 102, which are arranged opposite to each other, and first sidewalls 101 are arranged adjacent to each of the two second sidewalls 102. Specifically, when there are two first sidewalls 101, which are arranged opposite to each other, and second sidewalls 102 are arranged adjacent to each of the two first sidewalls 101, the wire groove 11 has three different wire routing directions, which greatly improves the flexibility of wiring the wires 2 around the housing 1 to accommodate the connection of the socket to the wires 2 at different positions.
[0047] Preferably, there are two first sidewalls 101, which are arranged opposite to each other; there are also two second sidewalls 102, which are arranged opposite to each other; the two first sidewalls 101 and the two second sidewalls 102 are respectively arranged around the perimeter of the housing 1. Specifically, when there are two first sidewalls 101 and two second sidewalls 102, and the two first sidewalls 101 and the two second sidewalls 102 are respectively arranged around the perimeter of the housing 1, the wire groove 11 has four different wire-passing directions, further improving the flexibility of wiring the wires 2 around the housing 1.
[0048] Preferably, the wire groove 11 is positioned near the top corner of the outer casing 1; specifically, this allows the wire groove 11 to be positioned near the edge of the outer casing 1, reducing the length of the first groove 12 and the second groove 13, and reducing the distance between the first groove 12 or the second groove 13 and the wire groove 11. A first connecting line is formed between the first groove 12 and the wire hole 14, and a second connecting line is formed between the second groove 13 and the wire hole 14. The angle formed between the first connecting line and the second connecting line is equal to 90 degrees, making the first connecting line perpendicular to the second connecting line, further increasing the flexibility between the first groove 12 or the second groove 13 and the wire hole 14.
[0049] Preferably, the wire trough 11 includes a first receiving groove 111 and a second receiving groove 112, which are located on both sides of the wire hole 14. The first receiving groove 111 communicates with the first slot 12, and the second receiving groove 112 communicates with the second slot 13. Specifically, when the connector of the wire 2 is inserted into the wire trough 11 through the first slot 12, the connector is accommodated in the first receiving groove 111. When the connector of the wire 2 is inserted into the wire trough 11 through the second slot 13, the connector is accommodated in the second receiving groove 112. Therefore, the connector of the wire 2 can be completely accommodated in the wire trough 11 regardless of whether it is connected to the wire trough 11 through the first slot 12 or the second slot 13.
[0050] Preferably, the wire groove 11 also has a retaining groove 141, and the wire hole 14 is located in the retaining groove 141, which is circular in shape. Specifically, the retaining groove 141 is used to engage with the connector, thereby improving the stability of the connector in the wire hole 14 after the connector is inserted.
[0051] Preferably, the outer casing 1 has a first surface 103 and a second surface 104. A first sidewall 101 and a second sidewall 102 are both disposed between the first surface 103 and the second surface 104. The two ends of the first sidewall 101 are connected to the first surface 103 and the second surface 104, respectively, and the two ends of the second sidewall 102 are also connected to the first surface 103 and the second surface 104, respectively. The first surface 103 and the second surface 104 are arranged opposite to each other. The first surface 103 has an operation panel 1031, and a wire trough 11 is located on the second surface 104. Specifically, the outer casing 1 has a first surface 103 and a second surface 104. The first surface 103 has an operation panel 1031 for controlling the odor control system 100, while the wire trough 11 is disposed on the second surface 104. The first surface 103 and the second surface 104 are arranged opposite to each other. When the outer casing 1 is hung on a wall, the second surface 104 is flush with the wall, and the wire trough 11 is hidden, allowing the connector of the wire 2 to be installed in a concealed manner.
[0052] like Figures 4 to 8As shown, this utility model also proposes an odor control system 100, including an atomizer 3, an air tube 5, an air pump 4, a wire 2, and a winding structure as described above. The atomizer 3, air pump 4, and air tube 5 are all installed inside the outer shell 1 of the winding structure. The atomizer 3 is connected to the air pump 4 through the air tube 5. The wiring hole of the air pump 4 corresponds to the wire hole 14. The first end of the wire 2 is detachably installed in the wire hole 14 and electrically connected to the air pump 4. Specifically, after the air pump 4 is electrically activated, it generates high-pressure gas. The high-pressure gas is delivered to the atomizing core of the atomizer 3 through the air tube 5. The atomizing position of the atomizing core draws in the essential oil in the atomizing bottle and atomizes the essential oil into particulate spray. The particulate spray flows into the spray port 31 from the spray channel 35 and is sprayed out. The wire 2 is inserted into the wire hole 14 from the wire groove 11 of the outer shell 1, saving the length of the wire 2 and avoiding the wire 2 from hanging or being crisscrossed.
[0053] Preferably, the odor control system 100 further includes a spray system, which has an air outlet cover 61 and an atomizing cover 32. The air outlet cover 61 is fitted over the atomizing cover 32, and an air outlet channel 63 is formed between the inner wall of the air outlet cover 61 and the outer wall of the atomizing cover 32. The air outlet cover 61 has an air outlet 611, which is connected to one end of the air outlet channel 63, and the other end of the air outlet channel 63 is connected to the air outlet of the fan 62. The atomizing cover 32 has a spray nozzle 31, and the air outlet 611 is disposed close to the spray nozzle 31. The air outlet cover 61 has a first side 601 and a second side 602, the spray nozzle 31 is located between the first side 601 and the second side 602, and the air outlet 611 is disposed on the first side 601.
[0054] Specifically, when the atomizing cap 32 sprays particulate mist from the spray nozzle 31, the fan 62 is activated. The gas blown by the fan 62 is blown towards the air outlet 611 through the air outlet channel 63. Since the air outlet 611 is close to the spray nozzle 31, the airflow from the air outlet 611 acts on the spray nozzle 31, accelerating the gas flow rate near the spray nozzle 31, providing power for the flow of particulate mist, making the particulate mist travel a longer distance, and increasing the diffusion range of the particulate mist.
[0055] Furthermore, the air outlet cover 61 has a first side portion 601 and a second side portion 602. The spray nozzle 31 is located between the first side portion 601 and the second side portion 602. The air outlet 611 is disposed on the first side portion 601. Therefore, the second side portion 602 is in a sealed state. This reduces the area of the air outlet 611 on the air outlet cover 61. When the air outlet 611 is reduced, the gas flow rate of the air outlet 611 decreases and the speed increases, further accelerating the gas flow rate near the spray nozzle 31. Furthermore, the air outlet 611 is located on the first side 601. When the airflow from the air outlet 611 acts on the area above the spray nozzle 31, the gas velocity above the spray nozzle 31 increases, and a certain negative pressure is generated in the area above the spray nozzle 31 where the air outlet 611 acts. The particulate spray from the spray nozzle 31 will approach the area above the spray nozzle 31 due to the negative pressure, so that the airflow from the air outlet 611 acts on the particulate spray, preventing the particulate spray from falling downwards, further improving the diffusion effect of the particulate spray, and also preventing the particulate spray from falling onto the outer surface of the odor control system 100.
[0056] Preferably, the air outlet cover 61 includes a supporting body 615, a baffle 613, and at least two air guide plates 612. The supporting body 615 is fitted over the atomizing cover 32. On the first side 601, both ends of each air guide plate 612 are installed on the inner wall of the supporting body 615, forming an air outlet 611 between the two air guide plates 612. Specifically, the supporting body 615 is fitted over the atomizing cover 32. On the first side 601 and the second side 602, there is a ventilation gap between the supporting body 615 and the atomizing cover 32. On the first side 601, the air guide plate 612 is used to guide the air outlet 611 in a direction 614, giving the air outlet 611 a strong directional characteristic. On the second side 602, both ends of the baffle 613 are installed on the inner wall of the supporting body 615, and the gap between the supporting body 615 and the atomizing cover 32 is sealed by the baffle 613. On the second side 602, the baffle 613 seals the ventilation gap on the second side 602, so that the first side 601 has an air outlet 611, further reducing the air flow of the air outlet 611 on the air outlet cover 61.
[0057] In some embodiments, multiple air guide plates 612 are spaced apart on a first side 601 and a second side 602. On the first side 601, an air outlet 611 is formed between two adjacent air guide plates 612. On the second side 602, the air outlet 611 between two adjacent air guide plates 612 is sealed by a baffle 613. Specifically, when manufacturing a spray system, some fans 62 have higher power and require air outlets 611 on both the first side 601 and the second side 602 to increase the air outlet area; while some fans 62 have lower power and only require air outlets 611 on either the first side 601 or the second side 602. Therefore, by using the same mold to manufacture a spray system with air outlets 611 on both the first side 601 and the second side 602, and then sealing the air outlet 611 on the second side 602 with a baffle 613, the utilization efficiency of the mold can be improved.
[0058] Preferably, the air guide plate 612 is inclined, and the air outlet 611's air outlet direction 614 intersects with the spray direction 33 of the spray nozzle 31, forming an angle 34 between them. Specifically, the air guide plate 612 is inclined and guides the air outlet 611's air outlet direction 614 so that it faces upwards towards the spray nozzle 31; while the air outlet 611's air outlet direction 614 intersects with the spray direction 33 of the spray nozzle 31, so that the air outlet 611 directly acts on the spray direction 33 of the spray nozzle 31, accelerating the particle spray in the spray direction 33, and further increasing the diffusion distance of the particle spray.
[0059] Preferably, the included angle 34 is greater than or equal to 45 degrees. Specifically, testing of this spray system has shown that setting the included angle 34 to be greater than 45 degrees allows the airflow from the outlet 611 to act on the position near the lower part of the spray nozzle 31. When the particulate spray flows out of the spray nozzle 31, the particulate spray can be immediately carried and dispersed by the airflow from the outlet 611, resulting in a more significant dispersion effect. If the included angle 34 is less than 45 degrees, then the airflow from the outlet 611 will act on the position above the spray nozzle 31, its effective distance will decrease, and the effect of the airflow will be weakened.
[0060] When referencing drawings, new features are explained. To avoid redundant references to drawings that would make the description less concise, features already described will not be referenced again on the drawings if the description is clear.
[0061] The purpose of the above embodiments is to reproduce and derive the technical solution of this utility model by way of example, and to fully describe the technical solution, purpose and effect of this utility model. The purpose is to enable the public to have a more thorough and comprehensive understanding of the disclosed content of this utility model, and it is not intended to limit the protection scope of this utility model.
[0062] The above embodiments are not an exhaustive list based on the present invention, and there may be other embodiments not listed. Any substitutions and improvements made without departing from the concept of the present invention are within the protection scope of the present invention.
Claims
1. A wire winding structure, characterized by, include: The outer surface of the outer casing is recessed inward to form a groove, and the groove has a through hole that passes through the outer surface of the outer casing from the inside. The outer casing has a first sidewall and a second sidewall; the first sidewall has a first slot and the second sidewall has a second slot, and both the first slot and the second slot are connected to the wire groove. The first sidewall and the second sidewall are arranged adjacent to each other or opposite to each other.
2. The winding structure of claim 1, wherein, The number of first sidewalls is two, the two first sidewalls are arranged opposite to each other, and the second sidewalls are arranged adjacent to the two first sidewalls respectively; And / or, the number of the second sidewalls is two, the two second sidewalls are arranged opposite to each other, and the first sidewall is arranged adjacent to the two second sidewalls respectively.
3. The winding structure as described in claim 1, characterized in that, The cable tray is located near the top corner of the outer casing; A first line is formed between the first slot and the wire hole, and a second line is formed between the second slot and the wire hole. The angle between the first line and the second line is equal to 90 degrees.
4. The winding structure of claim 1, wherein, The wire groove includes a first receiving groove and a second receiving groove, which are located on both sides of the wire hole. The first receiving groove is connected to the first slot opening, and the second receiving groove is connected to the second slot opening.
5. The winding structure of claim 4, wherein, The groove also has a slot, and the threading hole is located inside the slot, which is circular in shape.
6. The wire winding structure of claim 1, wherein, The outer shell has a first surface and a second surface, and the first sidewall and the second sidewall are both disposed between the first surface and the second surface. The two ends of the first sidewall are respectively connected to the first surface and the second surface, and the two ends of the second sidewall are respectively connected to the first surface and the second surface. The first surface and the second surface are positioned opposite to each other. The first surface has an operation panel, and the groove is located on the second surface.
7. An odor control system characterized by, The device includes an atomizer, an air tube, an air pump, a wire, and a winding structure as described in any one of claims 1 to 6. The atomizer, air pump, and air tube are all installed inside the housing of the winding structure. The atomizer is connected to the air pump through the air tube. The wiring hole of the air pump corresponds to the wire hole. The first end of the wire is detachably installed in the wire hole and electrically connected to the air pump.
8. The malodor control system of claim 7, wherein, The odor control system also includes a fan assembly, which is installed inside the housing. The fan assembly has an air outlet, and the atomizer has a spray nozzle. Both the spray nozzle and the air outlet are located on the outer surface of the housing, with the air outlet positioned close to the spray nozzle.
9. The malodor control system of claim 8, wherein, The fan assembly includes an air outlet cover and a fan. The atomizer has an atomizing cover. The air outlet cover is fitted over the atomizing cover. The spray nozzle is located on the atomizing cover. An air outlet channel is formed between the inner wall of the air outlet cover and the outer wall of the atomizing cover. One end of the air outlet channel is connected to the fan, and the other end of the air outlet channel is connected to the air outlet.
10. The malodor control system of claim 9, wherein, The air outlet cover has multiple air guide plates, with adjacent air guide plates spaced apart to form multiple air outlets; The air guide plate is set at an angle.