Mounting structure of oil cup pendant and range hood
By installing an oil-proof cover at the connection between the oil cup holder and the bottom plate of the oil collection chamber, the problem of oil overflow is solved, the oil cup holder can be detached and installed with oil prevention effect, and the performance of the range hood is improved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG CHENGYI TECH CO LTD
- Filing Date
- 2025-04-29
- Publication Date
- 2026-06-30
AI Technical Summary
The oil cup holder is exposed in the oil collection chamber, causing oil to flow onto the oil cup holder and overflow, affecting the performance of the range hood.
An installation structure for an oil cup holder was designed, including a range hood body, an oil cup holder, and an oil shield. The oil cup holder is fixed with fasteners, and an oil shield is installed at the connection between the oil cup holder and the bottom plate of the oil collection chamber to prevent oil from flowing into the gap and overflowing.
It effectively prevents oil from flowing from the oil cup holder onto the outer surface of the oil cup or the stovetop, improving the performance of the range hood and avoiding oil spillage.
Smart Images

Figure CN224434498U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of range hood technology, specifically to an installation structure for an oil cup holder and a range hood. Background Technology
[0002] Range hoods are typically equipped with an oil cup to collect grease. The oil cup is installed on the main body of the range hood and can be removed for easy cleaning. In related technologies, the oil cup is connected to the main body of the range hood via an oil cup holder. The oil cup holder is fixedly installed on the main body, and the oil cup is hung on the holder. However, part of the oil cup holder is exposed in the oil collection chamber. Grease in the collection chamber can easily flow onto the oil cup holder, and then from the holder onto the outer surface of the oil cup or drip directly onto the cooktop, causing grease overflow from the range hood. Utility Model Content
[0003] The purpose of this utility model is to provide an installation structure for an oil cup holder for a range hood, which solves the above-mentioned technical problems.
[0004] The installation structure of the oil cup holder proposed in this utility model includes a range hood body, an oil cup holder, and an oil cover; the range hood body has an oil collection cavity, and the bottom plate of the oil collection cavity is provided with an oil leakage hole; the oil cup holder is connected to the bottom plate of the oil collection cavity; the oil cover is installed on the bottom plate of the oil collection cavity, and the oil cover covers the connection between the oil cup holder and the bottom plate of the oil collection cavity.
[0005] According to one embodiment of the present invention, the oil cup hanger includes a base and a housing. The housing is disposed above the base and snaps into the base. After the housing and the base are connected in place, there is a gap between the upper surface of one side of the base and the lower surface of the corresponding side of the housing. The gap is used to hang the oil cup hanging ear on the oil cup of the range hood. The base is provided with a first connecting hole, the housing is provided with a second connecting hole corresponding to the first connecting hole, and the bottom plate of the oil collecting cavity is provided with a third connecting hole. Fasteners pass through the first connecting hole, the second connecting hole and the third connecting hole in sequence to fix the base, the housing and the bottom plate of the oil collecting cavity together. An oil cover covers the third connecting hole.
[0006] According to one embodiment of the present invention, the oil-proof cover includes a body, a protruding post on the body, a cavity on the protruding post, and a third connecting hole covered by the cavity of the protruding post.
[0007] According to one embodiment of the present invention, the oil cover includes a body, a connecting post on the body, a fourth connecting hole on the connecting post, a fifth connecting hole aligned with the fourth connecting hole on the bottom plate of the oil collecting chamber, and a connecting member passing through the fifth connecting hole and the fourth connecting hole sequentially from below the bottom plate of the oil collecting chamber to fix the body to the bottom plate of the oil collecting chamber.
[0008] According to one embodiment of the present invention, the oil cup holder further includes a top bead and an elastic element. The side of the housing corresponding to the gap has a cavity with an opening facing downwards. A groove is provided on the wall of the cavity. The top bead is at least partially disposed in the cavity. A buckle corresponding to the groove is provided on the wall of the top bead. The buckle is engaged with the groove and slidably connected in the groove. The elastic element is disposed in the cavity and acts on the upper end face of the top bead, and always applies downward pressure to the top bead. The bottom plate of the oil collecting cavity is also provided with a mounting hole. The cavity extends into the oil collecting cavity through the mounting hole. The oil cover has a cover body located above the main body of the oil cover. The main body has a through hole communicating with the interior of the cover body. The cover body covers the cavity and the mounting hole.
[0009] According to one embodiment of the present invention, the edge of the mounting hole is provided with a flange facing upward relative to the bottom plate of the oil collecting cavity, and the flange extends into the cover body through the mounting hole.
[0010] According to one embodiment of the present invention, the size of the top bead is adapted to the opening and internal size of the cavity. There are two buckles, and the number of sliding grooves is adapted to the number of buckles. The two buckles are symmetrically arranged and protrude above the top bead. The distance between the outermost points of the two buckles is greater than the size of the opening of the cavity and less than the distance between the farthest sides of the two sliding grooves. After the top bead is installed into the cavity through the opening, the two buckles are slidably connected in the corresponding sliding grooves.
[0011] According to one embodiment of the present invention, the base has a first part and a second part, the housing has a third part and a fourth part, the fourth part has a cavity with an opening facing downward, the third part is engaged with the first part, and a gap is formed between the upper surface of the second part and the lower surface of the fourth part.
[0012] According to one embodiment of the present invention, the first part is provided with a positioning post and a first connecting hole, and the third part is provided with a positioning hole corresponding to the positioning post and a second connecting hole corresponding to the first connecting hole, and the positioning post is connected to the positioning hole.
[0013] This utility model also proposes a range hood that adopts the above-mentioned oil cup hanger installation structure. The range hood includes an oil cup, and oil cup hanging ears are provided at both ends of the oil cup, which are connected to the oil cup hanger.
[0014] Compared with the prior art, the installation structure of the oil cup holder of this utility model has the following advantages:
[0015] This utility model discloses an installation structure for an oil cup holder. The oil cup holder allows for the detachable installation of the oil cup, enabling the oil cup to collect oil flowing from the drain hole. An oil cover conceals the portion of the oil cup holder exposed in the oil collection chamber, and also covers the connection between the oil cup holder and the bottom plate of the oil collection chamber. This prevents oil from flowing into the oil cup holder or into the gap between the oil cup holder and the bottom plate of the oil collection chamber, thus preventing oil from flowing along the oil cup holder to the outer surface of the oil cup or dripping directly onto the stovetop. This avoids oil overflow from the range hood and improves its performance. Attached Figure Description
[0016] Figure 1 This is a structural cross-sectional view of the smoke hood of this utility model;
[0017] Figure 2 for Figure 1 A magnified view of a section at point A in the middle;
[0018] Figure 3 This is a structural cross-sectional view of another embodiment of the smoke hood of this utility model;
[0019] Figure 4 for Figure 3 A magnified view of a section at point B in the middle;
[0020] Figure 5 This is a schematic diagram of the structure of the oil shield in this utility model;
[0021] Figure 6 This is a schematic diagram of the oil shield in this utility model from another direction;
[0022] Figure 7 This is an exploded view of the structure of the oil cup holder in this utility model.
[0023] In the diagram: a. Gap, 1. Main body of the range hood, 11. Oil collection chamber, 111. Oil leakage hole, 112. Third connecting hole, 113. Mounting hole, 114. Flanged edge, 115. Fifth connecting hole, 2. Oil cup hanger, 21. Base, 211. First part, 2111. Positioning post, 2112. First connecting hole, 212. Second part, 22. Shell, 221. Cavity, 2211. Slide groove, 222. Third part, 2221. Positioning hole, 2222. Second connecting hole, 223. Fourth part, 23. Top bead, 231. Buckle, 24. Elastic element, 3. Oil cover, 31. Main body, 311. Protruding post, 312. Connecting post, 3121. Fourth connecting hole, 32. Cover body, 4. Oil cup, 41. Oil cup hanging ear.
[0024] The implementation and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation
[0025] The following drawings will disclose several embodiments of this utility model. For clarity, many practical details will be described in the following description. However, it should be understood that these practical details should not be used to limit this utility model. That is, in some embodiments of this utility model, these practical details are not essential. In addition, for the sake of simplicity, some conventional structures and components will be shown in the drawings in a simple schematic manner.
[0026] It should be noted that all directional indicators (such as up, down, left, right, front, back, etc.) in this utility model embodiment are only used to explain the relative positional relationship and movement of each component in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicator will also change accordingly.
[0027] Furthermore, in this utility model, the use of terms such as "first" and "second" is for descriptive purposes only and does not specifically refer to any order or sequence, nor is it intended to limit the utility model. They are merely used to distinguish components or operations described with the same technical terms and should not be construed as indicating or implying their relative importance or implicitly specifying the number of indicated technical features. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the technical solutions of various embodiments can be combined with each other, but only if they are feasible for those skilled in the art. If a combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.
[0028] To further understand the content, features, and effects of this utility model, the following embodiments are provided, and detailed descriptions are given below in conjunction with the accompanying drawings:
[0029] This utility model discloses an installation structure for an oil cup holder, used in a range hood. Please refer to [link / reference]. Figures 1 to 4 The installation structure of the oil cup holder proposed in this utility model includes a range hood body 1, an oil cup holder 2, and an oil cover 3; the range hood body 1 has an oil collection cavity 11, and an oil leakage hole 111 is provided on the bottom plate of the oil collection cavity 11; the oil cup holder 2 is connected to the bottom plate of the oil collection cavity 11; the oil cover 3 is installed on the bottom plate of the oil collection cavity 11, and the oil cover 3 covers the connection between the oil cup holder 2 and the bottom plate of the oil collection cavity 11.
[0030] In this embodiment, the oil cup holder 2 is used to install the oil cup 4. After being installed on the oil cup holder 2, the oil cup 4 is located below the bottom plate of the oil collection chamber 11, with the opening of the oil cup 4 facing upwards and aligned with the oil drain hole 111. During the exhaust process of the range hood, the mixture of oil and water in the fumes forms an oily liquid that accumulates in the oil collection chamber 11. The oily liquid eventually flows to the oil cup 4 to achieve oil collection.
[0031] The oil cup holder 2 is partially exposed in the oil collection chamber 11, and partially located below the bottom plate of the oil collection chamber 11. The oil cover 3 can cover the part of the oil cup holder 2 exposed in the oil collection chamber 11, and also cover the connection between the oil cup holder 2 and the bottom plate of the oil collection chamber 11. In this way, the oil in the oil collection chamber 11 can be prevented from flowing into the oil cup holder 2 or into the gap between the oil cup holder 2 and the bottom plate of the oil collection chamber 11. This prevents the oil in the oil collection chamber 11 from flowing along the oil cup holder 2 to the outer surface of the oil cup 4 or dripping directly onto the stove. As a result, the problem of oil overflow from the range hood can be avoided, and the performance of the range hood can be improved.
[0032] The installation structure of the oil cup holder of this utility model is as follows: Figure 2 , Figure 4 and Figure 7 As shown, the oil cup hanger 2 includes a base 21 and a housing 22. The housing 22 is positioned above the base 21 and snaps into the base 21. After the housing 22 is connected to the base 21, there is a gap between the upper surface of one side of the base 21 and the lower surface of the corresponding side of the housing 22. The gap is used to hang the oil cup hanger 41 on the oil cup 4 of the range hood. The base 21 is provided with a first connecting hole 2112, and the housing 22 is provided with a second connecting hole 2222 corresponding to the first connecting hole 2112. The bottom plate of the oil collecting chamber 11 is provided with a third connecting hole 112. Fasteners pass through the first connecting hole 2112, the second connecting hole 2222 and the third connecting hole 112 in sequence to fix the base 21, the housing 22 and the bottom plate of the oil collecting chamber 11 together. The oil cover 3 covers the third connecting hole 112.
[0033] The base 21 is snapped into the housing 22, which allows for pre-fixation of the base 21 and housing 22, facilitating subsequent formal fixing. The base 21 is located on the lower surface of the bottom plate of the oil collecting chamber 11. The portion of the housing 22 with the second connecting hole 2222 is located between the bottom plate of the oil collecting chamber 11 and the base 21. The first connecting hole 2112, the second connecting hole 2222, and the third connecting hole 112 correspond sequentially from bottom to top. The third connecting hole 112 is a screw hole, and the fastener is a screw. When installing the oil cup hanger 2, the fastener can be passed sequentially through the first connecting hole 2112, the second connecting hole 2222, and the third connecting hole 112 from below the base 21. In this way, while formally fixing the base 21 and housing 22, the oil cup hanger 2 is also fixed to the bottom plate of the oil collecting chamber 11, thereby simplifying the installation process of the oil cup hanger 2 and improving installation convenience.
[0034] The oil cover 3 covers the third connecting hole 112 inside the oil collecting chamber 11, preventing oil in the oil collecting chamber 11 from flowing through the gap between the fastener and the third connecting hole 112 to the bottom plate, thus preventing oil spillage. The gap between the base 21 and the housing 22 is located below the bottom plate of the oil collecting chamber 11, and the oil cup hanging ear 41 on the oil cup 4 can be hung in this gap, thereby realizing the detachable installation of the oil cup 4 in the oil cup hanging position.
[0035] The installation structure of the oil cup holder of this utility model is as follows: Figure 5 and Figure 6 As shown, the oil shield 3 includes a body 31, on which a protrusion 311 is provided. The protrusion 311 has a cavity, and the cavity of the protrusion 311 covers a third connecting hole 112. After the third connecting hole 112 is machined, its upper edge protrudes from the upper surface of the bottom plate of the oil collecting cavity 11. The cavity of the protrusion 311 opens downwards, and the upper edge of the third connecting hole 112 can be received within the cavity of the protrusion 311 through this opening, thereby improving the shielding effect of the oil shield 3 on the third connecting hole 112.
[0036] The installation structure of the oil cup holder of this utility model is as follows: Figure 5 and Figure 6 As shown, the oil shield 3 includes a body 31, a connecting post 312 on the body 31, a fourth connecting hole 3121 on the connecting post 312, and a fifth connecting hole 115 on the bottom plate of the oil collecting chamber 11, which is aligned with the fourth connecting hole 3121. The connecting piece passes through the fifth connecting hole 115 and the fourth connecting hole 3121 sequentially from below the bottom plate of the oil collecting chamber 11 to fix the body 31 to the bottom plate of the oil collecting chamber 11.
[0037] The connecting post 312 protrudes from the upper surface of the body 31. The fourth connecting hole 3121 is opened on the lower surface of the body 31 and extends upward to the connecting post 312. The fourth connecting hole 3121 is a screw hole, and the connector is a screw. After the oil cover 3 covers the connection between the bottom plate of the oil collecting chamber 11 and the oil cup hanger 2, the fourth connecting hole 3121 is aligned with the fifth connecting hole 115. At this time, the connector can be passed from below the bottom plate of the oil collecting chamber 11 upward through the fifth connecting hole 115 and the fourth connecting hole 3121 in sequence to fix the oil cover 3 to the bottom plate of the oil collecting chamber 11. Extending the fourth connecting hole 3121 to the connecting post 312 increases the depth of the fourth connecting hole 3121, thereby increasing the mating area between the connector and the fourth connecting hole 3121 and improving the mating stability. It should be noted that the fourth connecting hole 3121 is a blind hole that does not penetrate the upper end face of the connecting post 312, in order to prevent the oil in the oil collecting cavity 11 from flowing into the fourth connecting hole 3121 and then flowing down to the bottom plate.
[0038] The installation structure of the oil cup holder of this utility model is as follows: Figure 7As shown, the oil cup holder 2 also includes a top bead 23 and an elastic element 24. The side of the housing 22 corresponding to the gap has a cavity 221 with the opening facing downward. The wall of the cavity 221 is provided with a groove 2211. The top bead 23 is at least partially disposed in the cavity 221. The wall of the top bead 23 is provided with a buckle 231 corresponding to the groove 2211. The buckle 231 is fastened to the groove 2211 and slidably connected in the groove 2211. The elastic element 24 is disposed in the cavity 221 and acts on the upper end face of the top bead 23, and always applies downward pressure to the top bead 23. The bottom plate of the oil collecting cavity 11 is also provided with a mounting hole 113. The cavity 221 extends into the oil collecting cavity 11 through the mounting hole 113. The oil cover 3 has a cover body 32. The cover body 32 is located above the body 31 of the oil cover 3. The body 31 has a through hole communicating with the inside of the cover body 32. The cover body 32 covers the cavity 221 and the mounting hole 113.
[0039] The top bead 23 can move up and down within the cavity 221 of the housing 22. The lower end of the top bead 23 extends into the gap to press the lug of the oil cup hanger 2 into the base 21. When the lug of the oil cup hanger 2 enters the gap, it can push the top bead 23 upward. The upward movement of the top bead 23 will compress and deform the elastic element 24. The elastic element 24 will then apply a downward elastic force to the top bead 23. This elastic force will act on the lug of the oil cup hanger 2 through the top bead 23 to press the lug of the oil cup hanger 2 into the base 21, thereby improving the connection stability between the lug of the oil cup hanger 2 and the gap.
[0040] When installing the oil cup hanger 2, the cavity 221 of the housing 22 extends into the oil collection cavity 11 through the mounting hole 113. Since the cover 32 covers the mounting hole 113, the cavity 221 will be received in the cover 32 through the through hole of the body 31 after it extends into the oil collection cavity 11. This allows the oil drain cover to cover both the cavity 221 and the mounting hole 113, thereby improving the oil-proof effect of the oil cup hanger 2.
[0041] The installation structure of the oil cup holder of this utility model is as follows: Figure 7 As shown, the edge of the mounting hole 113 is provided with an upward flange 114 relative to the bottom plate of the oil collecting chamber 11. The flange 114 extends into the cover 32 through the mounting hole 113. After the oil cover 3 covers the mounting hole 113, the oil in the oil collecting chamber 11 may still flow from the gap between the body 31 and the bottom plate of the oil collecting chamber 11 to the mounting hole 113. The flange 114 extends circumferentially along the mounting hole 113 and protrudes from the upper surface of the bottom plate of the oil collecting chamber 11. The flange 114 can block the oil to prevent the oil from flowing into the mounting hole 113, thereby further preventing the oil from overflowing from the mounting hole 113.
[0042] The installation structure of the oil cup holder of this utility model is as follows: Figure 7As shown, the size of the top bead 23 is adapted to the opening and internal size of the cavity 221. There are two buckles 231, and the number of sliding grooves 2211 is adapted to the number of buckles 231. The two buckles 231 are symmetrically arranged and protrude above the top bead 23. The distance between the outermost points of the two buckles 231 is greater than the size of the opening of the cavity 221 and less than the distance between the farthest sides of the two sliding grooves 2211. After the top bead 23 is installed into the cavity 221 through the opening of the cavity 221, the two buckles 231 are slidably connected in the corresponding sliding grooves 2211.
[0043] Two grooves 2211 are respectively formed on the opposite side walls of the cavity 221. Two latches 231 slide along the two grooves 2211 respectively, which can guide the up and down movement of the top ball 23 and prevent the top ball 23 from tilting or getting stuck. When the two latches 231 move to the lowest point, they engage with the groove wall of the groove 2211, which can also limit the top ball 23 and prevent the top ball 23 from entering the gap too much and obstructing the process of the lug of the oil cup hanger 2 entering the gap, thereby ensuring the ease of installation of the lug of the oil cup hanger 2 into the gap.
[0044] The installation structure of the oil cup holder of this utility model is as follows: Figure 7 As shown, the base 21 has a first part 211 and a second part 212, and the housing 22 has a third part 222 and a fourth part 223. The fourth part 223 has a cavity 221 with an opening facing downwards. The third part 222 engages with the first part 211, forming a gap between the upper surface of the second part 212 and the lower surface of the fourth part 223. The engagement of the third part 222 with the first part 211 enables pre-fixation of the base 21 and the housing 22. The gap is formed between the second part 212 and the fourth part 223. In conjunction with the above embodiment of the top bead 23 and the elastic member 24, the top bead 23 and the elastic member 24 are installed in the cavity 221 located on the fourth part 223.
[0045] The installation structure of the oil cup holder of this utility model is as follows: Figure 7 As shown, the first part 211 is provided with a positioning post 2111 and a first connecting hole 2112, and the third part 222 is provided with a positioning hole 2221 corresponding to the positioning post 2111 and a second connecting hole 2222 corresponding to the first connecting hole 2112. The positioning post 2111 is connected to the positioning hole 2221. When assembling the oil cup hanger 2, the initial assembly of the shell 22 and the base 21 can be achieved through the positioning post 2111 and the positioning hole 2221, allowing the operator to quickly align the first connecting hole 2112 with the second connecting hole 2222. This helps to prevent mistakes during the initial assembly of the oil cup hanger 2 and improves the ease of assembly.
[0046] This utility model also proposes a range hood that adopts the oil cup hanger installation structure as described above. The range hood includes an oil cup 4, and oil cup hanger ears 41 are provided at both ends of the oil cup 4. The oil cup hanger ears 41 are connected to the oil cup hanger 2.
[0047] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modifications, equivalent substitutions or improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. An installation structure of an oil cup hanger for a hood, characterized by comprising: include: The main body of the range hood (1) has an oil collection chamber (11) and an oil leakage hole (111) is provided on the bottom plate of the oil collection chamber (11). Oil cup hanger (2), the oil cup hanger (2) is connected to the bottom plate of the oil collection cavity (11); Oil shield (3) is installed on the bottom plate of the oil collection chamber (11). The oil shield (3) covers the connection between the oil cup hanger (2) and the bottom plate of the oil collection chamber (11).
2. The oil cup hanger mounting structure according to claim 1, characterized by The oil cup hanger (2) includes a base (21) and a housing (22). The housing (22) is positioned above the base (21) and snaps into the base (21). After the housing (22) is connected to the base (21), there is a gap (a) between the upper surface of one side of the base (21) and the lower surface of the corresponding side of the housing (22). The gap (a) is used to hang the oil cup hanger on the oil cup of the range hood. The base (21) is provided with a first connecting hole (2112). The housing (22) is provided with a second connection hole (2222) corresponding to the first connection hole (2112), and the bottom plate of the oil collection chamber (11) is provided with a third connection hole (112). Fasteners pass through the first connection hole (2112), the second connection hole (2222) and the third connection hole (112) in sequence to fix the base (21), the housing (22) and the bottom plate of the oil collection chamber (11) together. The oil cover (3) covers the third connection hole (112).
3. The oil cup hanger mounting structure according to claim 2, characterized by The oil shield (3) includes a body (31), on which a protrusion (311) is provided, and a cavity is provided on the protrusion (311), and the cavity of the protrusion (311) covers the third connecting hole (112).
4. The oil cup hanger mounting structure according to claim 1, characterized by The oil shield (3) includes a body (31), a connecting post (312) is provided on the body (31), a fourth connecting hole (3121) is provided on the connecting post (312), and a fifth connecting hole (115) is provided on the bottom plate of the oil collecting chamber (11) that is aligned with the fourth connecting hole. The connecting piece passes through the fifth connecting hole (115) and the fourth connecting hole (3121) sequentially from below the bottom plate of the oil collecting chamber (11) to fix the body (31) to the bottom plate of the oil collecting chamber (11).
5. The oil cup hanger mounting structure according to claim 2, characterized by The oil cup holder (2) further includes a top bead (23) and an elastic element (24). The housing (22) has a downward-facing cavity (221) on the side corresponding to the gap (a). A groove (2211) is provided on the wall of the cavity (221). The top bead (23) is at least partially disposed in the cavity (221). A buckle (231) corresponding to the groove (2211) is provided on the wall of the top bead (23). The buckle (231) is fastened to the groove (2211) and slidably connected in the groove (2211). The elastic element (24) is disposed in the cavity. The body (221) acts on the upper surface of the top bead (23) and always applies downward pressure to the top bead (23); the bottom plate of the oil collection cavity (11) is also provided with a mounting hole (113), the cavity (221) extends into the oil collection cavity (11) through the mounting hole (113), the oil cover (3) has a cover body (32), the cover body (32) is located above the body (31) of the oil cover (3), the body (31) has a through hole communicating with the inside of the cover body (32), and the cover body (32) covers the cavity (221) and the mounting hole (113).
6. The oil cup hanger mounting structure according to claim 5, characterized by The edge of the mounting hole (113) is provided with a flange (114) facing upward relative to the bottom plate of the oil collection cavity (11), and the flange (114) extends into the cover (32) through the mounting hole.
7. The oil cup hanger mounting structure according to claim 5, characterized by The size of the top bead (23) is adapted to the opening of the cavity (221) and the internal size of the cavity (221). There are two buckles (231). The number of the sliding grooves (2211) is adapted to the number of buckles (231). The two buckles (231) are symmetrically arranged and protrude above the top bead (23). The distance between the outermost points of the two buckles (231) is greater than the size of the opening of the cavity (221) and less than the distance between the farthest sides of the two sliding grooves (2211). After the top bead (23) is installed into the cavity (221) through the opening of the cavity (221), the two buckles (231) are slidably connected in the corresponding sliding grooves (2211).
8. The oil cup hanger mounting structure according to claim 5, characterized by The base (21) has a first part (211) and a second part (212), and the housing (22) has a third part (222) and a fourth part (223). The fourth part (223) has a cavity (221) with an opening facing downward. The third part (222) engages with the first part (211) and forms the gap (a) between the upper surface of the second part (212) and the lower surface of the fourth part (223).
9. The oil cup hanger mounting structure according to claim 8, characterized by The first part (211) is provided with a positioning post (2111) and a first connecting hole (2112), and the third part (222) is provided with a positioning hole (2221) corresponding to the positioning post (2111) and a second connecting hole (2222) corresponding to the first connecting hole (2112). The positioning post (2111) is connected to the positioning hole (2221).
10. A hood, which adopts the mounting structure of the oil cup hanger according to any one of claims 1 to 9, characterized in that: It includes an oil cup (4), and oil cup hanging ears (41) are provided at both ends of the oil cup (4), and the oil cup hanging ears (41) are connected to the oil cup hanger (2).