Centrifugal fluid cleaning machine

Abstract

The utility model relates to glass cleaning machine technical field, especially centrifugal fluid cleaning machine, the utility model discloses a box, spray pipe, and the box has the cleaning cavity in, and the tool clamp is installed in the cleaning cavity, and the outside of box is provided with the storage box, and the inside of box is provided with the side opening, and the side opening is communicated with the storage box, and the spray pipe is installed horizontally, and the spray pipe rotates in the upper portion of tool clamp and in the storage box, and the upper end of side opening is installed with the drainage strip, the utility model discloses a storage box is arranged on the outside of box, and the spray pipe is installed in the storage box, so that the spray pipe does not occupy the inside space of box, is more favorable to the installation and dismounting of tool clamp, and after the spray cleaning, the spray pipe is stored in the storage box and rotates, does not influence the processing of glass.

Description

Technical Field

[0001] This utility model relates to the technical field of glass cleaning machines, and specifically to a centrifugal fluid cleaning machine. Background Technology

[0002] Existing glass centrifugal cleaning machines consist of a chamber containing a spray system and a tool holder for holding the glass to be cleaned. The spray system is directly mounted on the inner wall of the chamber, cleaning the glass through spraying. This installation structure of the spray system occupies internal space within the chamber, making the installation of the tool holder very inconvenient. Furthermore, a nozzle is also installed below the tool holder. To enhance the cleaning effect, a baffle is installed inside the chamber; however, some liquid may remain on the baffle, potentially containing cleaning impurities. During subsequent processing, water droplets from the spray nozzles may be drawn onto the glass in the tool holder. Although invisible to the naked eye, this can create a hazy appearance on the glass surface during coating processes, leading to product quality issues.

[0003] Therefore, based on the aforementioned shortcomings of existing glass washing machines, improvements are needed. Utility Model Content

[0004] The purpose of this utility model is to provide a centrifugal fluid cleaning machine that addresses the shortcomings of existing technologies, such as inconvenient tool clamp installation.

[0005] To achieve the above objectives, this utility model is implemented through the following technical solution.

[0006] Centrifugal fluid cleaner includes a housing and a spray pipe. The housing has a cleaning chamber with a tool holder installed inside. A storage box is provided on the outer side of the housing, and a side opening is provided on the inner side of the housing, which communicates with the storage box. The spray pipe is installed horizontally and rotates to be located above the tool holder and inside the storage box. A drain strip is installed at the upper end of the side opening.

[0007] Furthermore, a motor is installed on the storage box, and the rotating shaft of the motor passes through the storage box and drives the spray pipe to rotate.

[0008] Furthermore, a baffle is installed at the bottom of the cleaning chamber, and a tool clamp is installed inside the baffle to make the cleaning position more concentrated and facilitate the discharge of cleaning fluid.

[0009] Furthermore, a lower spray pipe is installed at the lower rear end of the housing. The lower spray pipe passes through the enclosure and is located below the tool clamp. The lower spray pipe sprays cleaning fluid upward from below the tool clamp.

[0010] Furthermore, the rear inner wall of the housing is hinged with an upper baffle, which is located above the tool holder. The upper baffle rotates to be above the lower spray pipe, and the cleaning fluid sprayed upward by the lower spray pipe is blocked by the upper baffle and falls downward into the upper surface of the glass.

[0011] Furthermore, a cylinder is installed at the rear of the housing, which drives a connecting rod. A pull rod is pivotally connected to the front end of the connecting rod, and the pull rod is pivotally connected to the upper baffle. By driving the connecting rod and the pull rod with the cylinder, the rotation control of the upper baffle is achieved, so that the liquid remaining on the upper baffle can flow away quickly without affecting the glass processing and ensuring that no hazy effect is formed during glass coating.

[0012] Furthermore, the rear inner wall of the housing is provided with a through hole for the pull rod to pass through, ensuring the cylinder controls the upper baffle.

[0013] Furthermore, the drainage strip has a rear fixing piece and a front baffle piece, with a drainage groove formed between the rear fixing piece and the front baffle piece. The front end of the front baffle piece protrudes from the rear fixing piece to form an extension, and the drainage groove protrudes from the rear fixing piece. The front end of the drainage groove extends downward to form an inclined guide portion. The inclined guide portion draws the liquid out of the drainage groove, preventing the liquid from being carried onto the glass and ensuring the production quality of the glass.

[0014] Furthermore, a fixing plate is provided in the middle of the enclosure, and multiple tool clamps are provided. Each tool clamp has multiple material seats. A latch is fixed on the fixing plate, and the latch has a positioning hole. The tool clamp is equipped with a quick-release buckle, and the quick-release buckle has a fixing post. A positioning pin protrudes radially from the outer edge of the fixing post. The fixing post is inserted into the positioning hole of the latch and is positioned in motion with the latch by rotating through the positioning pin. The cooperation between the quick-release buckle and the latch allows the tool clamp to be quickly assembled. At the same time, the use of multiple tool clamps increases the convenience of assembly.

[0015] Furthermore, the fixing plate has multiple positioning blocks, with undercuts formed on the inner side of the positioning blocks. An assembly hole is provided on the bottom plate of the tool holder, with one end of the assembly hole protruding inward to form an inner protrusion. The positioning blocks are located within the assembly hole, and the inner protrusion engages with the undercuts for positioning. The tool holder can be quickly assembled by the positioning blocks being quickly engaged into the assembly hole.

[0016] The beneficial effects of this utility model are as follows: by setting a storage box on the outer side of the box and installing the spray pipe inside the storage box, the spray pipe does not occupy the internal space of the box, which is more conducive to the installation and disassembly of the tool clamp. Moreover, after spray cleaning, the spray pipe can be rotated and stored in the storage box without affecting the glass processing. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0018] Figure 2 This is a front view schematic diagram of the present invention.

[0019] Figure 3 This is a left-side view of the present invention.

[0020] Figure 4 This is a partial structural diagram of the present invention. Figure 1 .

[0021] Figure 5 This is a partial structural diagram of the present invention. Figure 2 .

[0022] Figure 6 for Figure 5 A side view diagram.

[0023] Figure 7 This is a three-dimensional structural diagram of the drainage strip of this utility model.

[0024] Figure 8 This is a side view of the drainage strip of this utility model.

[0025] Figure 9 This is a three-dimensional structural diagram of the quick-release tool clip of this utility model.

[0026] Figure 10 This is a partial schematic diagram of the quick-release tool clip of this utility model.

[0027] Figure 11 This is a schematic diagram of the tool clip structure of this utility model.

[0028] Figure 12 This is a schematic diagram of the structure of the latch of this utility model.

[0029] Figure 13 This is a partial structural diagram of the quick-release buckle of this utility model.

[0030] Labels and explanations:

[0031] Box body 100, fixing plate 1, tool clamp 2, positioning block 3, inverted buckle 4, locking hole 5, locking buckle 6, positioning hole 7, bottom plate 8, handle 9, material seat 10, limiting groove 11, weight reduction hole 12, assembly hole 13, inner protrusion 14, quick release buckle 15, fixing column 16, positioning pin 17, cleaning chamber 18, enclosure 19, air duct 20, storage box 21, motor 22, spray pipe 23, lower spray pipe 24, cylinder 25, connecting rod 26, connecting rod 27, upper baffle 28, drainage strip 29, rear fixing plate 30, front baffle 31, drainage groove 32, fixing hole 33, inclined guide part 34, extension part 35. Detailed Implementation

[0032] The present invention will be further described below with reference to the accompanying drawings.

[0033] See Figure 1 —— Figure 13 This utility model centrifugal fluid cleaning machine includes: a housing 100, a cleaning chamber 18 inside the housing 100, a baffle 19 installed at the bottom of the cleaning chamber 18, a tool clamp installed inside the baffle 19, and an air duct 20 connected to the rear end of the housing 100. A storage box 21 is provided on the side of the housing 100, and a side opening is provided on the inner side of the housing 100, communicating with the storage box 21. A motor 22 is installed on the storage box 21, and the rotating shaft of the motor 22 passes through the storage box 21 and drives a spray pipe 23. The spray pipe 23 is horizontally installed and located inside the storage box 21. Driven by the motor 22, the spray pipe 23 rotates to a position above the baffle 19 and the tool clamp for spraying operations. After the spraying operation of the spray pipe 23 is completed, the motor 22 drives the spray pipe 23 to rotate and retract into the storage box 21. With this design, the spray pipe 23 does not occupy the internal space of the housing 100, making it easier to disassemble and install the tool clamp.

[0034] The lower rear end of the housing 100 of this invention is equipped with a lower spray pipe 24, which passes through the enclosure 19 and is located below the tool holder. An upper baffle 28 is hinged to the inner rear wall of the housing 100, located above the tool holder, and works in conjunction with the lower spray pipe 24. A cylinder 25 is installed at the rear of the housing 100, driving a push plate. The push plate is connected to a connecting rod 26, and a connecting rod 27 is pivotally connected to the front end of the connecting rod 26. The connecting rod 27 is pivotally connected to the upper baffle 28. A through hole is provided on the inner rear wall of the housing 100 for the connecting rod 27 to pass through, ensuring the cylinder 25 controls the upper baffle 28.

[0035] When cylinder 25 pulls the push plate to reset, connecting rod 26 drives connecting rod 27 to rotate the upper baffle 28 downward, so that it can cooperate with the lower spray pipe 24 to clean the glass.

[0036] When cylinder 25 drives the push plate to move back and forth, it drives connecting rod 26 to move back and forth, thereby pulling the upper baffle 28 through connecting rod 27 to rotate and rise upward, so that the liquid remaining on the upper baffle 28 can flow downward more quickly, thus ensuring the processing quality of the glass.

[0037] like Figure 1 As shown, a drainage strip 29 is installed at the upper end of the side opening of the box 100 of this utility model. Figure 7 , Figure 8The drainage strip 29 has a rear fixing piece 30 and a front baffle 31, forming a U-shaped drainage groove 32 between the rear fixing piece 30 and the front baffle 31. The rear fixing piece 30 has a fixing hole 33, which fixes the rear fixing piece 30 to the outside of the box 100. The front baffle 31 is located on the inside of the box 100. Liquid flowing down the inner wall of the box 100 above the side opening collects in the drainage groove 32 of the drainage box 29. The front end of the front baffle 31 protrudes from the rear fixing piece 30 to form an extension 35. The drainage groove 32 protrudes from the rear fixing piece 30 corresponding to the extension 35. The front end of the drainage groove 32 extends downward to form an inclined guide portion 34, allowing the liquid in the drainage groove 32 to flow out under the guidance of the inclined guide portion 34.

[0038] Experiments have shown that without the inclined guide section 34, the liquid in the drainage tank 32 will overflow and be carried onto the glass by the airflow inside the housing 100. Although this is not visible to the naked eye, it will form a hazy appearance on the glass surface during the glass coating process, causing product quality problems. With the inclined guide section 34, the liquid in the drainage tank 32 can flow downwards along the inclined guide section 34, thus preventing the aforementioned quality problems and ensuring that the product quality meets the requirements.

[0039] like Figure 5 As shown, the motor 22 of this utility model is located on the center line of the enclosure, which can rotate the spray pipe 23 to the center line of the enclosure, thereby spraying the glass over a larger area.

[0040] See Figures 9-13 This utility model employs a quick-release tool clamp, comprising: a fixing plate 1 and tool clamps 2. The fixing plate 1 is located in the middle of the enclosure 19. There are multiple tool clamps 2, each tool clamp 2 having multiple material seats 10. The figure shows four tool clamps 2, with the innermost and outermost sides of each tool clamp 2 being arc-shaped. The fixing plate 1 has a locking hole 5, and a locking buckle 6 is fixed to the top of the locking hole 5. The locking buckle 6 has a positioning hole 7. The tool clamp 2 is equipped with a quick-release buckle 15, which has a fixing post 16. A positioning pin 17 protrudes radially from the outer edge of the fixing post 16. The fixing post 16 is inserted into the positioning hole 7 of the locking buckle 6 and is rotated and positioned with the locking buckle 6 by the positioning pin 17.

[0041] The quick-release buckle 15 of this utility model is a commercially available part. It is installed on the tool holder 2. When the quick-release buckle 15 is pressed down, the spring inside it is compressed. At the same time, the fixing post 16 and the positioning pin 17 pass through the positioning hole 7 of the lock 6. At this time, the quick-release buckle 15 is rotated and the force is released. Under the reset action of the spring, the positioning pin 17 can be locked in the positioning hole 7, so that the tool holder 2 and the fixing plate 1 are stably assembled together. The installation is very convenient and quick.

[0042] The tool holder 2 of this utility model includes a base plate 8 with a handle 9 for easy handling and assembly by the operator. Multiple material seats 10 are formed on the base plate 8, and limiting grooves 11 are provided on the sides of the material seats 10 for placing glass to be cleaned. Multiple weight-reducing holes 12 are provided on the base plate 8 to reduce weight and also to facilitate the rapid flow of cleaning liquid downwards.

[0043] The fixing plate 1 of this utility model has multiple positioning blocks 3, and the inner side of the positioning block 3 is formed with a buckle 4. The base plate 8 of the tool clamp 2 is provided with an assembly hole 13, and one end of the assembly hole 13 protrudes inward to form an inner protrusion 14. The positioning block 3 is located in the assembly hole 13, and the inner protrusion 14 is engaged and positioned with the buckle 4.

[0044] The quick-release buckle 15 of the tool clip 2 of this utility model is installed next to the assembly hole 13. After the positioning block 3 is quickly fixed in the assembly hole 13, the quick-release buckle 15 can be pressed down and rotated to realize the quick assembly of the tool clip 2 and the fixing plate 1.

[0045] Of course, the above-described embodiments are merely preferred examples of this utility model and are not intended to limit the scope of implementation of this utility model. Therefore, all equivalent changes or modifications made to the structure, features and principles described in the claims of this utility model should be included within the scope of the claims of this utility model.

Claims

1. A centrifugal fluid cleaning machine, characterized in that: It includes a housing and a spray pipe. The housing has a cleaning chamber, in which a tool clamp is installed. A storage box is provided on the outer side of the housing, and a side opening is provided on the inner side of the housing, which communicates with the storage box. The spray pipe is installed horizontally and rotates to be located above the tool clamp and inside the storage box. A drain strip is installed at the upper end of the side opening.

2. The centrifugal fluid cleaning machine according to claim 1, characterized in that: The storage box is equipped with a motor, and the motor's rotating shaft passes through the storage box and drives the spray pipe.

3. The centrifugal fluid cleaning machine according to claim 2, characterized in that: The bottom of the cleaning chamber is equipped with a baffle, and a tool clamp is installed inside the baffle.

4. The centrifugal fluid cleaning machine according to claim 3, characterized in that: A lower spray pipe is installed at the lower rear end of the box body. The lower spray pipe passes through the enclosure and is located below the tool clamp.

5. The centrifugal fluid cleaning machine according to claim 4, characterized in that: The rear inner wall of the box is hinged with an upper baffle, which is located above the tool clamp and rotates to be located above the lower spray pipe.

6. The centrifugal fluid cleaning machine according to claim 5, characterized in that: A cylinder is installed at the rear of the housing, and the cylinder drives a connecting rod. A pull rod is pivotally connected to the front end of the connecting rod, and the pull rod is pivotally connected to the upper baffle.

7. The centrifugal fluid cleaning machine according to claim 6, characterized in that: The rear inner wall of the box has a through hole for the pull rod to pass through.

8. The centrifugal fluid cleaning machine according to claim 1, characterized in that: The drainage strip has a rear fixing piece and a front baffle piece, and a drainage groove is formed between the rear fixing piece and the front baffle piece. The front end of the front baffle piece protrudes from the rear fixing piece to form an extension, and the drainage groove protrudes from the rear fixing piece. The front end of the drainage groove extends downward to form an inclined guide portion.

9. The centrifugal fluid cleaning machine according to claim 3, characterized in that: The enclosure has a fixed plate in the middle, multiple tool clamps, each tool clamp has multiple material seats, a lock is fixed on the fixed plate, the lock has a positioning hole, the tool clamp is equipped with a quick release buckle, the quick release buckle has a fixed post, the fixed post has a positioning pin protruding radially from its outer edge, the fixed post is inserted into the positioning hole of the lock and is positioned by rotating with the lock through the positioning pin.

10. The centrifugal fluid cleaning machine according to claim 9, characterized in that: The fixing plate has multiple positioning blocks, and the inner side of the positioning blocks is formed with a buckle. The bottom plate of the tool clamp has an assembly hole, and one end of the assembly hole protrudes inward to form an inner protrusion. The positioning block is located in the assembly hole, and the inner protrusion is engaged with the buckle for positioning.

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