Floating ball type water surface scum collector
By designing a float-type surface scum collector, which uses a float and a buoy to float on the water surface, combined with a Y-shaped structure to adsorb floating oil and a sliding rod to adjust the retrieval range, the problem of low efficiency in water scum removal in existing technologies has been solved, achieving efficient scum collection and floating oil removal.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HOHHOT CAPITAL CHUNHUA WATER CO LTD
- Filing Date
- 2025-04-07
- Publication Date
- 2026-07-07
AI Technical Summary
In the current technology, the removal of scum in water bodies mainly relies on manual dredging, which is inefficient and time-consuming.
A float-type surface scum collector was designed, comprising a float body, a float rod, a Y-shaped oil cleaning structure, and a scum retrieval structure. The float and float rod float on the water surface, the Y-shaped structure absorbs oil, the sliding rod adjusts the retrieval range, the cloth bag collects scum, and the buoyancy is increased by a floating aid component.
It improves the efficiency of scum removal in water bodies, reduces manual operation, expands the dredging range, enhances buoyancy and adsorption capacity on the water surface, and achieves efficient scum collection.
Smart Images

Figure CN224468335U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of water body cleaning technology, specifically a float-type surface scum collector. Background Technology
[0002] When scum forms on the water surface, it affects water quality, aquatic life, and the environment.
[0003] Therefore, scum on the water surface needs to be collected and treated in a timely manner to protect water quality, maintain the health of aquatic organisms, preserve the beauty of the environment, and maintain ecological balance.
[0004] In existing technologies, the removal of scum from water bodies is mostly done by cleaners using dredging tools to collect it from the water surface. However, this manual method of collecting scum is time-consuming, labor-intensive, and inefficient.
[0005] For example, the liquid scum retrieval device disclosed in Chinese utility model patent with announcement number CN215781974U clearly states in paragraph
[0003] of its background technology: In most cases, manual retrieval is still used, which is not only slow but also has an unsatisfactory retrieval effect.
[0006] Based on this, in order to solve the above-mentioned technical problems, a float-type surface scum collector is proposed. Summary of the Invention
[0007] (a) Technical problems to be solved
[0008] To address the shortcomings of existing technologies, this utility model provides a float-type surface scum collector to solve the problem mentioned in the background art: In the existing technology, the removal of scum in water bodies is mostly done by cleaning workers using dredging tools to collect it from the water surface, which is time-consuming, labor-intensive, and inefficient.
[0009] (II) Technical Solution
[0010] To achieve the above objectives, this utility model provides the following technical solution:
[0011] A float-type surface scum collector includes:
[0012] Float sphere;
[0013] Two floats are detachably mounted on both sides of the float body;
[0014] Two sets of Y-shaped oil spill cleaning structures are installed on corresponding floats.
[0015] Two sets of scum removal structures are provided, each set of which is slidably installed on a corresponding float. After installation, the two sets of scum removal structures are arranged in an axisymmetric manner.
[0016] Both sets of scum retrieval structures can extend or shorten on the corresponding floats. When extended, they can expand the scum retrieval radius.
[0017] Both of the floats have cavities, and one end of each cavity is open.
[0018] Both sets of scum removal structures include sliding rods, and the two sliding rods are respectively inserted into the corresponding cavities. After insertion, the sliding rods can be pulled out or slid in into the corresponding cavities.
[0019] Each of the slide bars has a fixing ring fixedly installed at one outer end, and a cloth bag is fixedly installed on the side wall of each of the two fixing rings; and
[0020] Multiple float-aiding components are installed on the float sphere and are distributed circumferentially on the float sphere.
[0021] Preferably, the float ball has internal threaded assembly holes on both sides;
[0022] Both of the aforementioned floats have externally threaded fittings at the end facing the float sphere;
[0023] Both of the external threaded assembly parts of the floats can be threaded into the corresponding internal threaded assembly holes.
[0024] Preferably, both sets of Y-shaped oil spill cleaning structures include three inverted U-shaped fixing frames, and the three inverted U-shaped fixing frames are fixedly installed on the corresponding floats, and the three inverted U-shaped fixing frames are equidistantly distributed in a circular pattern on the floats;
[0025] Each of the inverted U-shaped brackets is detachably fitted with oil-absorbing filter paper.
[0026] Preferably, each of the inverted U-shaped fixing brackets is provided with a clamping groove, and two clamping arms are formed on both sides of the clamping groove;
[0027] The oil-absorbing filter paper is clamped and installed in the corresponding clamping groove, and can be clamped and fixed by the two clamping arms of the inverted U-shaped fixing frame.
[0028] Preferably, the thickness of the oil-absorbing filter paper is equal to the gap thickness of the groove.
[0029] Preferably, each of the two clamping arms of the inverted U-shaped fixing bracket is provided with a locking groove at both ends;
[0030] U-shaped locking heads are inserted into the two adjacent locking slots, and the two U-shaped locking heads arranged opposite each other can lock and fix the two clamping arms of the inverted U-shaped fixing frame.
[0031] Preferably, each set of the float-aiding components includes a float ball, and multiple float balls are arranged circumferentially on the outside of the float ball body;
[0032] Each of the floating balls is fixedly equipped with a flexible connecting strap, and the free end of each flexible connecting strap is fixedly installed on the side wall of the floating ball.
[0033] Preferably, each of the floating balls is arranged perpendicular to the internal threaded mounting hole.
[0034] Preferably, each of the floating balls is hollow.
[0035] Preferably, each of the floating balls is solid.
[0036] Beneficial effects:
[0037] This utility model provides a float-type surface scum collector, which has the following beneficial effects:
[0038] I. In this utility model, after the scum collector is placed into the water, the float ball and two float rods enable the scum collector to float better on the water surface. The two sets of Y-shaped oil removal structures can be submerged in the water. After submersion, they can simultaneously adsorb and remove the oil in the water as the scum collector floats freely in the water.
[0039] Two sets of scum retrieval structures are arranged symmetrically on an axis. As the scum collector floats freely in the water, it can simultaneously retrieve and collect scum in the water. Both sets of scum retrieval structures can extend or shorten on their corresponding floats. When extended, the retrieval radius of the scum can be expanded, thereby expanding the scum retrieval range.
[0040] This scum collector effectively solves the problem of traditional manual scum removal from the water surface, and it also improves the efficiency of scum removal in the water after being placed in the water.
[0041] II. In this utility model, both sets of scum removal structures include sliding rods. The two sliding rods are respectively inserted into the corresponding cavities. After insertion, the sliding rods can be pulled out or slid in into the corresponding cavities, thereby enabling the two sliding rods to adjust their length on the corresponding floats.
[0042] Each sliding rod has a fixed ring fixedly installed at one end of its outer side, and a cloth bag is fixedly installed on the side wall of each of the two fixed rings. Specifically, the cloth bags in the two sets of scum removal structures are used to remove and collect scum in the water. Each cloth bag can be sewn onto the corresponding fixed ring, and both cloth bags have water-permeable gaps. After water containing scum enters the cloth bag, the water can flow out through the water-permeable gaps, leaving the scum inside.
[0043] Third, in this utility model, multiple floating aid components are also installed on the float ball. After the multiple floating aid components are installed on the float ball, they can further increase the buoyancy of the scum collector in the water body on the original basis, so that the scum collector can float better on the water surface.
[0044] Fourth, in this utility model, the external threaded assembly parts of the two floats can be threaded into the corresponding internal threaded assembly holes, and the two floats can be easily installed or removed from the float body.
[0045] V. In this utility model, each oil-absorbing filter paper, after being installed on the corresponding inverted U-shaped fixing frame, is used to absorb and remove floating oil in the water. Furthermore, the oil-absorbing filter paper installed on the inverted U-shaped fixing frame can be easily replaced.
[0046] Specifically, the oil-absorbing filter paper can be detachably connected to the inverted U-shaped fixing frame by being clamped in the groove of the frame, so as to facilitate the replacement of the oil-absorbing filter paper.
[0047] VI. In this utility model, after the oil-absorbing filter paper is installed on the inverted U-shaped fixing frame, the two clamping arms of the inverted U-shaped fixing frame can clamp and fix the oil-absorbing filter paper.
[0048] VII. In this utility model, a U-shaped locking head is inserted and installed in two adjacent locking slots. The two U-shaped locking heads arranged opposite each other can lock and fix the two clamping arms of the inverted U-shaped fixing frame. After the two U-shaped locking heads arranged opposite each other lock and fix the two clamping arms of the inverted U-shaped fixing frame, the oil-absorbing filter paper installed on the inverted U-shaped fixing frame can be more firmly and is not easy to fall off.
[0049] 8. In this utility model, when multiple floating balls are installed on the floating ball body through flexible connecting straps, the buoyancy of the scum collector in water can be further improved. Attached Figure Description
[0050] Figure 1 This is a three-dimensional schematic diagram of the present invention;
[0051] Figure 2 This is a three-dimensional schematic diagram of the cross-section of this utility model;
[0052] Figure 3This is a three-dimensional schematic diagram of the combination of the float, the Y-shaped oil cleaning structure, and the scum removal structure of this utility model.
[0053] Figure 4 This is a three-dimensional schematic diagram of the combination of the float and three inverted U-shaped fixing frames of this utility model;
[0054] Figure 5 for Figure 3 An enlarged 3D schematic diagram of section A in the middle;
[0055] Figure 6 for Figure 4 Enlarged 3D schematic diagram of section B;
[0056] Figure 7 This is a three-dimensional schematic diagram of the float sphere of this utility model.
[0057] In the diagram: 10, float body; 101, internal thread assembly hole; 20, float rod; 201, external thread assembly part; 202, cavity; 30, inverted U-shaped fixing bracket; 301, clamping groove; 302, locking groove; 40, oil absorption filter paper; 50, U-shaped locking head; 60, slide rod; 70, fixing ring; 80, cloth bag; 90, float ball; 100, flexible connecting belt. Detailed Implementation
[0058] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0059] Example 1
[0060] like Figure 1-2 As shown, this utility model provides a technical solution:
[0061] A float-type surface scum collector includes:
[0062] The float sphere 10 is used to float on the water surface and is solid.
[0063] Two floats 20 are detachably mounted on both sides of the float sphere 10, and the two floats 20 can also float on the water surface;
[0064] After the scum collector is placed into the water, the float sphere 10 and the two float rods 20 enable the scum collector to float better on the water surface.
[0065] Two sets of Y-shaped oil spill cleaning structures are installed on the corresponding floats 20 respectively;
[0066] The two sets of Y-shaped oil spill cleaning structures can be submerged in water. After submersion, they can simultaneously adsorb and remove oil spills in the water as the scum collector floats freely in the water.
[0067] Two sets of scum removal structures are slidably installed on corresponding floats 20, and after installation, the two sets of scum removal structures are arranged axially symmetrically.
[0068] The two sets of scum removal structures arranged symmetrically on the axis can simultaneously remove and collect scum in the water as the scum collector floats freely in the water.
[0069] Both sets of scum retrieval structures can extend or shorten on the corresponding float 20. When extended, they can expand the scum retrieval radius, thereby expanding the scum retrieval range.
[0070] In order to better optimize the two sets of scum removal structures, such as... Figure 1-4 As shown, each of the two floats 20 has a cavity 202, and one end of each cavity 202 is open.
[0071] Both sets of scum removal structures include sliding rods 60. The two sliding rods 60 are respectively inserted into the corresponding cavities 202. After insertion, the sliding rods 60 can be pulled out or slid in into the corresponding cavities 202.
[0072] Each sliding rod 60 has a fixing ring 70 fixedly installed at one end of its outer side. A cloth bag 80 is fixedly installed on the side wall of each of the two fixing rings 70. Specifically, the cloth bags 80 in the two sets of scum removal structures are used to remove and collect scum from the water. Each cloth bag 80 can be sewn onto its corresponding fixing ring 70, and both cloth bags 80 have water-permeable gaps. After water containing scum enters the cloth bag 80, the water can flow out through the water-permeable gaps, leaving the scum inside.
[0073] Multiple float-aiding components are installed on the float sphere 10, and the multiple float-aiding components are distributed circumferentially on the float sphere 10.
[0074] After multiple float-aiding components are installed on the float sphere 10, they can further increase the buoyancy of the scum collector in the water, so that the scum collector can float better on the water surface.
[0075] Example 2
[0076] In order to achieve a detachable connection between the two floats 20 and the float ball 10, the researchers, such as Figure 2-4 as well as Figure 7 As shown, improvements are made based on Example 1:
[0077] Furthermore, such as Figure 7 As shown, the float ball 10 has internal threaded assembly holes 101 on both sides.
[0078] like Figure 3-4 As shown, both floats 20 have an externally threaded mounting portion 201 at the end facing the float ball 10;
[0079] like Figure 2 As shown, the external threaded assembly parts 201 of the two floats 20 can be threaded into the corresponding internal threaded assembly holes 101.
[0080] In this embodiment, the two floats 20 can be easily installed or removed from the float sphere 10.
[0081] Example 3
[0082] like Figure 1-6 As shown, improvements are made based on Example 1:
[0083] In order to optimize the two sets of Y-shaped oil spill removal structures, the researchers further, in this embodiment, such as... Figure 1-4 As shown, both sets of Y-shaped oil spill cleaning structures include three inverted U-shaped fixing frames 30. The three inverted U-shaped fixing frames 30 are fixedly installed on the corresponding floats 20, and the three inverted U-shaped fixing frames 30 are equidistantly distributed in a circular pattern on the floats 20. Furthermore, both sets of inverted U-shaped fixing frames 30 have a Y-shaped structure.
[0084] In this embodiment, the above structure is a preferred structure of two sets of Y-shaped oil spill cleaning structures;
[0085] like Figure 1-3 As shown, each inverted U-shaped bracket 30 is detachably fitted with an oil-absorbing filter paper 40.
[0086] In this embodiment, each oil-absorbing filter paper 40, after being installed on the corresponding inverted U-shaped fixing frame 30, is used to absorb and remove floating oil in the water. Furthermore, the oil-absorbing filter paper 40 installed on the inverted U-shaped fixing frame 30 can be easily replaced.
[0087] In order to optimize the detachable method of the oil-absorbing filter paper 40 on the inverted U-shaped fixing bracket 30, the researchers, in this embodiment, further, such as Figure 4-6 As shown, each inverted U-shaped fixing bracket 30 is provided with a clamping groove 301, and two clamping arms are formed on both sides of the clamping groove 301;
[0088] like Figure 1-3 as well as Figure 5 As shown, the oil-absorbing filter paper 40 is clamped and installed in the corresponding clamping groove 301, and can be clamped and fixed by the two clamping arms of the inverted U-shaped fixing bracket 30.
[0089] In this embodiment, the oil-absorbing filter paper 40 can be detachably connected to the inverted U-shaped fixing frame 30 by being clamped in the clamping groove 301 of the inverted U-shaped fixing frame 30, so as to facilitate the replacement of the oil-absorbing filter paper 40;
[0090] Furthermore, after the oil-absorbing filter paper 40 is installed on the inverted U-shaped fixing bracket 30, the two clamping arms of the inverted U-shaped fixing bracket 30 can clamp and fix the oil-absorbing filter paper 40.
[0091] To facilitate the installation of the oil-absorbing filter paper 40 and the inverted U-shaped fixing bracket 30, in this embodiment, specifically, as follows: Figure 5 As shown, the thickness of the oil-absorbing filter paper 40 is equal to the gap thickness of the groove 301.
[0092] In order to improve the tightness of the two clamping arms of the inverted U-shaped fixing bracket 30, the researchers, in this embodiment, further, such as... Figure 6 As shown, each of the two clamping arms of the inverted U-shaped fixing bracket 30 has a locking groove 302 at both ends;
[0093] like Figure 5-6 As shown, U-shaped locking heads 50 are inserted into two adjacent locking slots 302. The two U-shaped locking heads 50 arranged opposite each other can lock and fix the two clamping arms of the inverted U-shaped fixing bracket 30.
[0094] In this embodiment, after the two U-shaped locking heads 50 are locked and fixed to the two clamping arms of the inverted U-shaped fixing frame 30, the oil-absorbing filter paper 40 installed on the inverted U-shaped fixing frame 30 can be more secure and less likely to fall off.
[0095] Example 4
[0096] like Figure 1-7 As shown, improvements are made based on Example 1:
[0097] In order to enhance the buoyancy of the scum collector in water, the researchers further developed, for example... Figure 1-2 As shown, each set of float-aid components includes a float ball 90, and multiple float balls 90 are arranged circumferentially on the outside of the float ball body 10;
[0098] Each float 90 is fixedly equipped with a flexible connecting strap 100. The free end of each flexible connecting strap 100 is fixedly installed on the side wall of the float sphere 10. One end of the flexible connecting strap 100 can be integrally formed with the float 90, or it can be fixed to the float 90 by adhesive connection or hot melting. At the same time, the other end (i.e. the free end) of the flexible connecting strap 100 can also be fixed to the float sphere 10 by adhesive connection or hot melting.
[0099] In this embodiment, the above structure is a preferred structure for the floatation aid component. After multiple floating balls 90 are installed on the floating ball body 10 via the flexible connecting belt 100, the buoyancy of the scum collector in the water can be further improved.
[0100] Specifically, such as Figure 1-2 As shown, each floating ball 90 is perpendicular to the internal threaded mounting hole 101.
[0101] Furthermore, such as Figure 1-2 As shown, each floating ball 90 is hollow.
[0102] In this embodiment, each floating ball 90 can be configured to be hollow.
[0103] Furthermore, such as Figure 1-2 As shown, each floating ball 90° is solid.
[0104] In this embodiment, each floating ball 90 can also be made solid.
[0105] In summary, the workflow of this utility model is as follows:
[0106] like Figure 1-7 As shown, after the scum collector is placed into the water, the float 10 and the two floats 20 enable the scum collector to float better on the water surface. The two sets of Y-shaped oil removal structures can be submerged in the water. After submersion, they can simultaneously adsorb and remove the oil in the water as the scum collector floats freely in the water. The two sets of scum retrieval structures, which are arranged axially symmetrically, can simultaneously retrieve and collect the scum in the water as the scum collector floats freely in the water. Both sets of scum retrieval structures can extend or shorten on the corresponding floats 20. When extended, the retrieval radius of the scum can be expanded, thereby expanding the scum retrieval range.
[0107] To better optimize the two sets of scum removal structures, both sets of scum removal structures include sliding rods 60. The two sliding rods 60 are respectively inserted into the corresponding cavities 202. After insertion, the sliding rods 60 can be pulled out or slid in into the corresponding cavities 202. A fixing ring 70 is fixedly installed on one side of each sliding rod 60. A cloth bag 80 is fixedly installed on the side wall of each of the two fixing rings 70. Specifically, the cloth bags 80 in the two sets of scum removal structures are used to remove and collect scum in the water. Each cloth bag 80 can be sewn onto the corresponding fixing ring 70. Both cloth bags 80 have water-permeable gaps. After water containing scum enters into the cloth bag 80, the water can flow out through the water-permeable gaps, leaving the scum inside.
[0108] The float sphere 10 is also equipped with multiple floating aids. After the multiple floating aids are installed on the float sphere 10, they can further increase the buoyancy of the scum collector in the water, so that the scum collector can float better on the water surface.
[0109] Specifically, the external threaded assembly parts 201 of the two floats 20 can be threaded into the corresponding internal threaded assembly holes 101, and the two floats 20 can be easily installed or removed from the float ball 10.
[0110] Both sets of Y-type oil spill cleaning structures include three inverted U-shaped fixing frames 30. The three inverted U-shaped fixing frames 30 are equidistantly distributed in a circular pattern on the float 20. Furthermore, both sets of inverted U-shaped fixing frames 30 are Y-shaped structures. The above structure is the preferred structure of the two sets of Y-type oil spill cleaning structures.
[0111] Each inverted U-shaped fixing bracket 30 is detachably equipped with an oil-absorbing filter paper 40. After each oil-absorbing filter paper 40 is installed on the corresponding inverted U-shaped fixing bracket 30, it is used to absorb and remove floating oil in the water. Furthermore, the oil-absorbing filter paper 40 installed on the inverted U-shaped fixing bracket 30 can be easily replaced.
[0112] The oil-absorbing filter paper 40 can be detachably connected to the inverted U-shaped fixing frame 30 by being clamped in the clamping groove 301 of the inverted U-shaped fixing frame 30, so as to facilitate the replacement of the oil-absorbing filter paper 40;
[0113] Furthermore, after the oil-absorbing filter paper 40 is installed on the inverted U-shaped fixing bracket 30, the two clamping arms of the inverted U-shaped fixing bracket 30 can clamp and fix the oil-absorbing filter paper 40.
[0114] U-shaped locking heads 50 are inserted into two adjacent locking slots 302. The two U-shaped locking heads 50 arranged opposite each other can lock and fix the two clamping arms of the inverted U-shaped fixing frame 30. After the two U-shaped locking heads 50 arranged opposite each other lock and fix the two clamping arms of the inverted U-shaped fixing frame 30, the oil-absorbing filter paper 40 installed on the inverted U-shaped fixing frame 30 can be more secure and less likely to fall off.
[0115] After multiple floating balls 90 are installed onto the floating ball body 10 via flexible connecting straps 100, the buoyancy of the scum collector in water can be further improved.
[0116] Each floating ball 90 can be set to be hollow, or each floating ball 90 can be set to be solid.
[0117] The different embodiments described above can be combined, substituted, or used in combination with each other.
[0118] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.
[0119] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A float-type surface scum collector, characterized in that, include: Floating sphere (10); Two floats (20) are detachably mounted on both sides of the float sphere (10); Two sets of Y-shaped oil spill cleaning structures are installed on corresponding floats (20), respectively. Two sets of scum retrieval structures are slidably installed on corresponding floats (20) respectively, and after installation, the two sets of scum retrieval structures are arranged in an axisymmetric manner; Both sets of scum retrieval structures can be extended or shortened on the corresponding floats (20). When extended, they can expand the scum retrieval radius. Both of the floats (20) have cavities (202) and one end of each cavity (202) is open. Both sets of scum retrieval structures include sliding rods (60), and the two sliding rods (60) are respectively inserted into the corresponding cavities (202). After insertion, the sliding rods (60) can be pulled out or slid into the corresponding cavities (202); Each of the slide bars (60) has a fixing ring (70) fixedly installed at one outer end, and a cloth bag (80) is fixedly installed on the side wall of each of the two fixing rings (70); and Multiple float-aiding components are installed on the float sphere (10) and are circumferentially distributed on the float sphere (10).
2. The float-type surface scum collector according to claim 1, characterized in that: The float ball (10) has internal threaded assembly holes (101) on both sides. Both of the floats (20) have an external threaded assembly (201) at one end facing the float ball (10). The external threaded assembly parts (201) of both floats (20) can be threaded into the corresponding internal threaded assembly holes (101).
3. The float-type surface scum collector according to claim 1, characterized in that: Both sets of Y-type oil spill cleaning structures include three inverted U-shaped fixing frames (30), and the three inverted U-shaped fixing frames (30) are fixedly installed on the corresponding floats (20), and the three inverted U-shaped fixing frames (30) are equidistantly distributed in a circular pattern on the floats (20); Each of the inverted U-shaped brackets (30) is detachably fitted with an oil-absorbing filter paper (40).
4. The float-type surface scum collector according to claim 3, characterized in that: Each of the inverted U-shaped fixing brackets (30) is provided with a clamping groove (301), and two clamping arms are formed on both sides of the clamping groove (301); The oil-absorbing filter paper (40) is clamped and installed in the corresponding clamping groove (301) and can be clamped and fixed by the two clamping arms of the inverted U-shaped fixing frame (30).
5. The float-type surface scum collector according to claim 4, characterized in that: The thickness of the oil-absorbing filter paper (40) is equal to the gap thickness of the groove (301).
6. The float-type surface scum collector according to claim 4, characterized in that: Each of the two clamping arms of the inverted U-shaped fixing bracket (30) is provided with a locking groove (302) at both ends; U-shaped locking heads (50) are inserted into the two adjacent locking slots (302), and the two U-shaped locking heads (50) arranged opposite each other can lock and fix the two clamping arms of the inverted U-shaped fixing frame (30).
7. The float-type surface scum collector according to claim 1, characterized in that: Each of the aforementioned float-aid components includes a float ball (90), and multiple float balls (90) are arranged circumferentially on the outside of the float ball body (10); Each of the floating balls (90) is fixedly installed with a flexible connecting strap (100), and the free end of each of the flexible connecting straps (100) is fixedly installed on the side wall of the floating ball body (10).
8. The float-type surface scum collector according to claim 7, characterized in that: Each of the floating balls (90) is positioned perpendicular to the internal threaded mounting hole (101).
9. The float-type surface scum collector according to claim 7, characterized in that: Each of the aforementioned floating balls (90) is hollow.
10. The float-type surface scum collector according to claim 7, characterized in that: Each of the aforementioned floating balls (90) is solid.