A waste liquid tank for preliminary waste liquid treatment

By designing the rebound component, column, positioning component, and control component of the waste liquid tank, the problem of the inability to collect solid impurities and metal shavings in the existing technology has been solved, realizing the effective interception and collection of metal shavings and abrasive particles, and avoiding resource waste.

CN224422203UActive Publication Date: 2026-06-30无锡恒大电子科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
无锡恒大电子科技有限公司
Filing Date
2025-07-31
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing waste liquid tanks cannot effectively collect solid impurities, metal shavings, and abrasive particles during the coarse treatment process, resulting in resource waste.

Method used

A waste liquid tank comprising a barrel body, a barrel lid, and a filter barrel was designed. Through the coordinated use of a rebound component, a column, a positioning component, and a control component, metal shavings and abrasive particles are intercepted and collected.

Benefits of technology

It effectively intercepts and collects metal shavings and abrasive particles in waste liquid, avoiding resource waste.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of waste liquid coarse treatment technology. It discloses a waste liquid tank for coarse treatment, including a tank body, a lid, and a filter tank. The top of the tank body is movably connected to the lid via threads. The filter tank is movably connected to the inner cavity of the tank body, and its surface has multiple holes. This utility model utilizes a combination of a spring-loaded component, a column, a receiving groove, a positioning component, and a control component. The waste liquid discharge pipe is inserted into the opening at the top of the lid, and the waste liquid discharge filter tank can intercept metal shavings and abrasive particles in the waste liquid. This solves the problem of waste liquid tanks lacking components for coarse treatment of grinding fluid waste, which prevents the collection of solid impurities, metal shavings, and abrasive particles, which are valuable metals and would otherwise be wasted.
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Description

Technical Field

[0001] This utility model belongs to the field of waste liquid coarse treatment technology, and in particular relates to a waste liquid tank for waste liquid coarse treatment. Background Technology

[0002] Grinding slurry wastewater is wastewater generated during cutting, grinding or other machining processes. This wastewater usually contains a variety of contaminants, including grease, metal particles and chemical additives. In the coarse treatment of grinding slurry wastewater, the main filtration objective is to remove large solid impurities, metal shavings, abrasive particles and other solid substances suspended in the liquid.

[0003] However, the above-mentioned device still has the following problems during implementation:

[0004] Existing technologies intercept solid impurities, metal shavings, and abrasive particles during the coarse treatment of grinding slurry waste. However, existing waste tanks lack components for coarse treatment of grinding slurry waste, making it impossible to collect solid impurities, metal shavings, and abrasive particles. Since these are valuable metals, this would result in waste. Therefore, a waste tank for coarse treatment of waste slurry is proposed to solve the above problems. Utility Model Content

[0005] To address the problems existing in the prior art, this utility model provides a waste liquid tank for coarse waste liquid treatment. It has the advantages of coarse waste liquid treatment and can overcome the above-mentioned problems or at least partially solve the problem that the waste liquid tank does not have a component for coarse treatment of grinding slurry waste liquid. This makes it impossible to collect solid impurities, metal shavings and abrasive particles, which are metals with certain value, thus causing waste.

[0006] This utility model is implemented as follows: a waste liquid tank for preliminary waste liquid treatment includes a tank body, a tank cover and a filter tank. The top of the tank body is movably connected to the tank cover by threads. The filter tank is movably connected to the inner cavity of the tank body, and the surface of the filter tank has multiple holes.

[0007] The inner cavity of the bucket lid is provided with a spring-loaded component, and a column is fixedly connected to the bottom of the inner cavity of the bucket. The inner cavity of the column is provided with a receiving groove, and the inner cavity of the receiving groove is provided with a positioning component.

[0008] A control component for controlling the positioning component is located on the left side of the column.

[0009] As a preferred embodiment of this utility model, the barrel body and the barrel lid are provided with stroke grooves on opposite sides, and the number of stroke grooves is four. The inner cavity of the stroke groove is slidably connected to a stroke block. The side of the stroke block near the filter barrel is fixedly connected to the filter barrel. By setting the stroke groove and the stroke block, the filter barrel is placed in the barrel body. At this time, the stroke block will move into the stroke groove. At this time, the stroke block and the stroke groove can position the filter barrel.

[0010] In a preferred embodiment of this invention, the rebound assembly includes a rebound ring, which is movably connected to the inner cavity of the bucket lid. A fixing ring is fixedly connected to the inner cavity of the bucket lid. A first spring is fixedly connected to the top of the rebound ring, and there are six first springs. The top of the first spring is fixedly connected to the fixing ring. By setting the rebound assembly, when the filter bucket rises, the rising filter bucket will squeeze the rebound ring. The rebound ring moves and squeezes the first spring. Subsequently, the first spring will drive the rebound ring and the filter bucket back to their original position, thus continuously generating vibration up and down.

[0011] In a preferred embodiment of this invention, the positioning component includes a pressing plate, a control rod is fixedly connected to the top of the pressing plate, the top of the control rod passes through the receiving groove and is fixedly connected to a protective shell, and a second spring is sleeved on the surface of the control rod. By setting the positioning component, when the protective shell moves up and down, it will drive the pressing plate to move through the control rod, the pressing plate will compress the spring, and the second spring can position the protective shell.

[0012] As a preferred embodiment of this utility model, a striking rod is fixedly connected to the top of the protective shell. The top of the striking rod contacts the filter barrel. By setting the striking rod, when the protective shell moves up and down, it can drive the striking rod to continuously strike the filter barrel. The striking rod can drive the filter barrel to move up and down, thereby moving metal shavings and abrasive particles.

[0013] In a preferred embodiment of this invention, the control component includes a connecting plate. The right side of the connecting plate is fixedly connected to the protective shell, and the left side of the connecting plate has an extrusion groove. An extrusion member is movably connected to the inner cavity of the extrusion groove. A rotating rod is fixedly connected to the left side of the extrusion member. The left side of the rotating rod passes through the barrel and extends to the outside of the barrel. By setting the control component, when it is necessary to control the up and down movement of the protective shell, rotating the rotating rod will drive the extrusion member to extrude the inner wall in the extrusion groove. The extrusion force generated at this time will drive the protective shell to rise. The rising of the protective shell will drive the control rod to move. The movement of the control rod will drive the extrusion plate to extrude the second spring. Subsequently, the protective shell will drive the striking rod to strike the filter barrel.

[0014] As a preferred embodiment of this utility model, the front side of the filter bucket is provided with an installation hole, and a transparent acrylic plate is fixedly connected to the inner cavity of the installation hole. By setting the installation hole and the transparent acrylic plate, when the waste liquid is poured into the waste liquid bucket, the user can see the metal shavings and abrasive particles accumulated on the inclined surface of the filter bucket through the transparent acrylic plate.

[0015] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0016] This invention utilizes a combination of a rebound component, a column, a receiving tank, a positioning component, and a control component. The waste liquid discharge pipe is inserted into the opening at the top of the bucket lid. The waste liquid discharge filter can intercept metal shavings and abrasive particles in the waste liquid, solving the problem of the waste liquid bucket lacking a component for coarse treatment of the grinding fluid waste. This prevents the collection of solid impurities, metal shavings, and abrasive particles, which are valuable metals and would otherwise be wasted. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural schematic diagram provided in an embodiment of the present utility model;

[0018] Figure 2 This is a perspective sectional view provided in an embodiment of the present utility model;

[0019] Figure 3 This is a perspective sectional view of the bucket lid provided in this embodiment of the utility model;

[0020] Figure 4 This is a three-dimensional schematic diagram of the positioning component provided in an embodiment of the present utility model.

[0021] In the diagram: 1. Barrel body; 2. Barrel lid; 3. Filter barrel; 4. Rebound assembly; 5. Column; 6. Receiving groove; 7. Positioning assembly; 8. Control assembly; 9. Stroke groove; 10. Stroke block; 41. Rebound ring; 42. Fixing ring; 43. First spring; 71. Extrusion plate; 72. Control rod; 73. Protective shell; 74. Second spring; 11. Striking rod; 81. Connecting plate; 82. Extrusion groove; 83. Extrusion component; 84. Rotating rod; 12. Mounting hole; 13. Transparent acrylic sheet. Detailed Implementation

[0022] To further understand the invention content, features and effects of this utility model, the following embodiments are provided, and detailed descriptions are given in conjunction with the accompanying drawings.

[0023] The structure of this utility model will now be described in detail with reference to the accompanying drawings.

[0024] like Figures 1 to 4As shown in the figure, the waste liquid tank for preliminary treatment of waste liquid provided by this utility model includes a tank body 1, a tank cover 2 and a filter tank 3. The top of the tank body 1 is movably connected to the tank cover 2 by threads, and the filter tank 3 is movably connected to the inner cavity of the tank body 1. The surface of the filter tank 3 has multiple holes.

[0025] The inner cavity of the lid 2 is provided with a spring-loaded component 4, and the bottom of the inner cavity of the barrel body 1 is fixedly connected with a column 5. The inner cavity of the column 5 is provided with a receiving groove 6, and the inner cavity of the receiving groove 6 is provided with a positioning component 7.

[0026] Control component 8 is used to control positioning component 7, and control component 8 is located on the left side of column 5.

[0027] refer to Figure 2 The barrel body 1 and the barrel cover 2 are provided with four stroke grooves 9 on opposite sides. The inner cavity of the stroke groove 9 is slidably connected to the stroke block 10, and the side of the stroke block 10 near the filter barrel 3 is fixedly connected to the filter barrel 3.

[0028] Using the above scheme: by setting the travel groove 9 and the travel block 10, the filter bucket 3 is placed inside the bucket body 1. At this time, the travel block 10 will move into the travel groove 9. Then the travel block 10 and the travel groove 9 can position the filter bucket 3.

[0029] refer to Figure 3 The rebound assembly 4 includes a rebound ring 41, which is movably connected to the inner cavity of the bucket lid 2. A fixing ring 42 is fixedly connected to the inner cavity of the bucket lid 2. A first spring 43 is fixedly connected to the top of the rebound ring 41, and there are six first springs 43. The top of the first spring 43 is fixedly connected to the fixing ring 42.

[0030] Using the above solution: By setting the rebound component 4, when the filter barrel 3 rises, the rise of the filter barrel 3 will squeeze the rebound ring 41, the rebound ring 41 moves and squeezes the first spring 43, and then the first spring 43 will drive the rebound ring 41 and the filter barrel 3 back to their original position, thus continuously generating vibration up and down.

[0031] refer to Figure 4 The positioning component 7 includes a pressing plate 71, a control rod 72 is fixedly connected to the top of the pressing plate 71, the top of the control rod 72 passes through the receiving groove 6 and is fixedly connected to a protective shell 73, and a second spring 74 is sleeved on the surface of the control rod 72.

[0032] The above solution is adopted: by setting the positioning component 7, when the protective shell 73 moves up and down, it will drive the compression plate 71 to move through the control rod 72. The compression plate 71 will compress the spring, and the second spring 74 can position the protective shell 73.

[0033] refer to Figure 4A striking rod 11 is fixedly connected to the top of the protective shell 73, and the top of the striking rod 11 contacts the filter barrel 3.

[0034] The above solution is adopted: by setting the striking rod 11, when the protective shell 73 moves up and down, it can drive the striking rod 11 to continuously strike the filter barrel 3, and the striking rod 11 can drive the filter barrel 3 to move up and down, thereby moving metal shavings and abrasive particles.

[0035] refer to Figure 2 and Figure 4 The control component 8 includes a connecting plate 81. The right side of the connecting plate 81 is fixedly connected to the protective shell 73. The left side of the connecting plate 81 is provided with an extrusion groove 82. An extrusion member 83 is movably connected to the inner cavity of the extrusion groove 82. A rotating rod 84 is fixedly connected to the left side of the extrusion member 83. The left side of the rotating rod 84 passes through the barrel 1 and extends to the outside of the barrel 1.

[0036] Using the above scheme: By setting the control component 8, when it is necessary to control the up and down movement of the protective shell 73, the rotating rod 84 will drive the extruder 83 to extrude the inner wall in the extrusion groove 82. The extrusion force generated at this time will drive the protective shell 73 to rise. The rise of the protective shell 73 will drive the control rod 72 to move. The movement of the control rod 72 will drive the extrusion plate 71 to extrude the second spring 74. Subsequently, the protective shell 73 will drive the striking rod 11 to strike the filter barrel 3.

[0037] refer to Figure 1 The filter barrel 3 has a mounting hole 12 on the front side, and a transparent acrylic plate 13 is fixedly connected to the inner cavity of the mounting hole 12.

[0038] Using the above solution: By setting the mounting hole 12 and the transparent acrylic plate 13, when the waste liquid is poured into the waste liquid bucket, the user can see the metal shavings and abrasive particles accumulated on the inclined surface of the filter bucket 3 through the transparent acrylic plate 13.

[0039] The working principle of this utility model:

[0040] When in use, place the filter bucket 3 inside the bucket body 1. At this time, the stroke block 10 will move into the stroke groove 9. Then, rotate the bucket cover 2 to connect with the filter bucket 3. When it is necessary to store waste liquid in the filter bucket 3, insert the waste liquid discharge pipe into the opening at the top of the bucket cover 2. The waste liquid can be discharged from the filter bucket 3, which can intercept metal shavings and abrasive particles in the waste liquid.

[0041] When the user notices excessive metal shavings and abrasive particles accumulating on the inclined surface of the filter barrel 3 through the transparent acrylic plate 13, rotating the lever 84 will cause the extruder 83 to press against the inner wall of the extrusion groove 82. The resulting extrusion force will cause the protective shell 73 to rise. The rise of the protective shell 73 will cause the control lever 72 to move. The movement of the control lever 72 will cause the extrusion plate 71 to press against the second spring 74. Subsequently, the protective shell 73 will cause the striking rod 11 to strike the filter barrel 3, and will also cause the filter barrel 3 to rise slightly. The rise of the filter barrel 3 will press against the spring ring 41. The movement of the spring ring 41 will press against the first spring 43. Subsequently, the first spring 43 will cause the spring ring 41 and the filter barrel 3 to return to their original positions. This continuous up-and-down vibration will cause the metal shavings and abrasive particles to fall from the inclined surface of the filter barrel 3 to the bottom.

[0042] In summary, this waste liquid coarse treatment tank, through the coordinated use of the rebound component 4, column 5, receiving tank 6, positioning component 7, and control component 8, allows the waste liquid discharge pipe to be inserted into the opening at the top of the tank cover 2. The waste liquid discharge filter tank 3 can intercept metal shavings and abrasive particles in the waste liquid, solving the problem that the waste liquid tank lacks a component for coarse treatment of grinding fluid waste, which would otherwise prevent the collection of solid impurities, metal shavings, and abrasive particles, as these are valuable metals and would result in waste.

[0043] 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.

[0044] 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 waste liquid rough treatment waste liquid barrel comprising a barrel body (1), a barrel cover (2) and a filter barrel (3), characterized in that: The top of the barrel (1) is movably connected to the barrel cover (2) by threads, and the filter barrel (3) is movably connected to the inner cavity of the barrel (1), and the surface of the filter barrel (3) has multiple holes. The inner cavity of the bucket lid (2) is provided with a spring-loaded component (4), and the bottom of the inner cavity of the bucket body (1) is fixedly connected with a column (5). The inner cavity of the column (5) is provided with a receiving groove (6), and the inner cavity of the receiving groove (6) is provided with a positioning component (7). A control component (8) for controlling the positioning component (7) is located on the left side of the column (5).

2. A waste liquid tank for rough treatment of waste liquid as claimed in claim 1, wherein: The barrel body (1) and the barrel cover (2) are provided with stroke grooves (9) on opposite sides, and there are four stroke grooves (9). The inner cavity of the stroke groove (9) is slidably connected to a stroke block (10). The side of the stroke block (10) near the filter barrel (3) is fixedly connected to the filter barrel (3).

3. A waste liquid tank for rough treatment of waste liquid as claimed in claim 1, wherein: The rebound assembly (4) includes a rebound ring (41), which is movably connected to the inner cavity of the bucket lid (2). A fixing ring (42) is fixedly connected to the inner cavity of the bucket lid (2). A first spring (43) is fixedly connected to the top of the rebound ring (41), and there are six first springs (43). The top of the first springs (43) is fixedly connected to the fixing ring (42).

4. A waste liquid tank for rough treatment of waste liquid as claimed in claim 1, wherein: The positioning component (7) includes a pressing plate (71), a control rod (72) is fixedly connected to the top of the pressing plate (71), the top of the control rod (72) passes through the receiving groove (6) and is fixedly connected to a protective shell (73), and a second spring (74) is sleeved on the surface of the control rod (72).

5. A waste liquid tank for rough treatment of waste liquid as claimed in claim 4, wherein: A striking rod (11) is fixedly connected to the top of the protective shell (73), and the top of the striking rod (11) contacts the filter barrel (3).

6. A waste liquid tank for rough treatment of waste liquid as claimed in claim 4, wherein: The control component (8) includes a connecting plate (81), the right side of which is fixedly connected to the protective shell (73), and the left side of which is provided with an extrusion groove (82). An extrusion member (83) is movably connected to the inner cavity of the extrusion groove (82). A rotating rod (84) is fixedly connected to the left side of the extrusion member (83). The left side of the rotating rod (84) passes through the barrel (1) and extends to the outside of the barrel (1).

7. A waste liquid tank for rough treatment of waste liquid as claimed in claim 1, wherein: The filter barrel (3) has an installation hole (12) on its front side, and a transparent acrylic plate (13) is fixedly connected to the inner cavity of the installation hole (12).