Dust removal and polishing apparatus
By integrating a conveying component, processing box, grinding component, dust collection component, and recycling box into the grinding device, the problems of dust pollution and low production efficiency of traditional grinding devices are solved, and a highly efficient and clean grinding process is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FOXCONN PRECISION ELECTRONICS TAIYUAN CO LTD
- Filing Date
- 2025-05-22
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional polishing equipment generates serious pollution from fine particles or dust when polishing 3C products, which affects the health of operators. In addition, the outer shell cannot be continuously conveyed during the polishing process, which increases production time.
Design a dust removal and polishing device, comprising a conveying component, a processing box, a polishing component, a dust collection component, and a recycling box. By setting a polishing head and a dust collection head inside the processing box, dust is restricted from entering the external environment, and the dust is collected through the recycling box, thus reducing pollution.
It effectively reduces dust emissions during the polishing process, minimizes the health impact on operators, improves production efficiency, and ensures the cleanliness of 3C product surfaces.
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Figure CN224334119U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of 3C product manufacturing equipment technology, and more specifically, to dust removal and polishing equipment. Background Technology
[0002] 3C products refer to a general term for computer, communication, and consumer electronics products. When using traditional polishing equipment to polish 3C products, the outer casing needs to remain in place for a long time during the polishing process. The outer casing cannot be continuously transported during this polishing step, which increases the production time.
[0003] To address this, a grinding device is provided in the related art. This grinding device conveys a target part via a conveyor belt and has a grinding head positioned above the conveyor belt to grind the target part during the conveying process.
[0004] However, the grinding devices in related technologies generate fine particles or dust during grinding, which can affect the health of operators. Utility Model Content
[0005] This application provides dust removal and polishing equipment to address the problem of reducing particle and dust pollution caused by polishing.
[0006] This application provides a dust removal and polishing device, including a conveying assembly, a processing box, a polishing assembly, a dust collection assembly, and a recycling box. The conveying assembly includes a base and two conveyor belts, which are arranged side-by-side and spaced apart in a horizontal direction within the base, and are used to jointly convey a target part. The processing box is located above the conveyor belts and defines a first cavity, with a first opening on the side of the first cavity facing the conveying assembly. The polishing assembly includes a polishing head located within the first cavity. The dust collection assembly includes a suction head located within the first cavity. The recycling box is at least partially located within the base and defines a recycling cavity, with a second opening on the side of the recycling cavity near the processing box, the second opening being vertically opposite to the first opening.
[0007] The aforementioned dust-removing grinding equipment, by placing the grinding head within the first cavity of the processing chamber, restricts the entry of fine particles or dust generated during grinding into the external environment. A suction head within the first cavity removes the particles or dust, and a recycling bin between the two conveyor belts collects and recycles the particles or dust. Therefore, when the target part is conveyed to the first open position by the conveying assembly, the suction assembly and recycling bin reduce the amount of particles or dust entering the external environment, thereby reducing pollution generated during grinding and minimizing the impact on the health of operators.
[0008] In one embodiment, the vacuuming assembly further includes a vacuum fan, a delivery pipe, and a collection box. The vacuum fan includes a housing and a fan body. The housing is located in the processing box and has an air duct. The two ends of the air duct are respectively connected to a vacuum head and a delivery pipe. The fan body is located within the air duct. The collection box defines a second cavity, which is connected to the end of the delivery pipe away from the air duct.
[0009] In one embodiment, the second cavity includes a first channel and a second channel. The first channel is connected to a delivery pipe, one end of the second channel is connected to the first channel, and the other end of the second channel has an air outlet. The dust collection assembly also includes a filter assembly, at least partially located within the second channel, and the outer periphery of the portion of the filter assembly located within the second channel is adapted to the second channel.
[0010] In one embodiment, the filtering assembly includes a hollow frame and two filters. At least a portion of the frame extends through a second channel, and the outer periphery of the portion of the frame located within the second channel is adapted to the second channel. One filter is sealed at the end of the frame away from the first channel, and the other filter is sealed at the other end of the frame.
[0011] In one embodiment, the grinding assembly further includes a control box, a robotic arm, and a first motor. The control box is located in the processing box. The robotic arm is located in the first cavity, with one end of the robotic arm connected to the control box. The first motor is connected to the end of the robotic arm away from the control box, and the robotic arm is drive-connected to the grinding head.
[0012] In one embodiment, the processing box has square holes on both sides along the conveyor belt's conveying direction, with the square holes vertically penetrating the side of the processing box closest to the conveyor belt. The dust removal and grinding equipment also includes two cleaning brushes, each disposed in one of the two square holes and extending vertically towards the side closest to the conveyor belt.
[0013] In one embodiment, the processing box includes a fixed base and two sliding plates; the fixed base is connected to the base body; the two sliding plates are respectively located on the sides of the two conveyor belts that are far apart from each other, and the sliding plates are slidably disposed on the fixed base in a vertical direction; a dustproof ventilation mesh frame is provided on the sliding plate, and a glass plate is embedded in the dustproof ventilation mesh frame; and / or, the dust removal and grinding equipment also includes two guide inclined plates, the two guide inclined plates are disposed in the first cavity and are respectively vertically opposite to the two conveyor belts, and the side of the two guide inclined plates away from the processing box extends inclined towards the direction close to the conveyor belt.
[0014] In one embodiment, the dust removal and grinding equipment further includes two base plates, a placement frame, and two insert blocks. The two base plates are respectively connected to the base body. The placement frame is movably inserted through the two base plates along the direction from one conveyor belt to the other, and the placement frame is used to support the recycling bin. The two insert blocks are located on opposite sides of the recycling bin along the conveyor belt's conveying direction, and each insert block is inserted into the placement frame and the recycling bin along the conveyor belt's conveying direction.
[0015] In one embodiment, the dust removal and polishing equipment further includes a placement mechanism comprising a carrier and two clamping assemblies, which are respectively disposed on opposite sides of the carrier. The carrier is used to place the target part on a conveyor belt. Each clamping assembly includes a slide bar, a clamping block, and a resilient reset member; the slide bar is movably inserted through the carrier in a direction from one clamping assembly to the other. The clamping block is connected to one end of the slide bar near the other slide bar and is capable of abutting against the target part. The resilient reset member elastically abuts between the carrier and the clamping block, providing an elastic force to press the clamping block against the target part.
[0016] In one embodiment, the carrier includes a partition, an outer frame, and a pusher. The outer frame surrounds the periphery of the partition and is used for placement on a conveyor belt; a clamping assembly is disposed on the outer frame. The pusher is vertically movably inserted through the partition, with the side of the pusher away from the conveyor belt used to carry the target item. Attached Figure Description
[0017] To more clearly illustrate the technical solutions of the embodiments of this application, the accompanying drawings in the embodiments will be briefly described below. It should be understood that the following drawings only show some embodiments of this application and should not be regarded as a limitation of the scope. For those skilled in the art, other related drawings can be obtained based on these drawings without creative effort.
[0018] Figure 1 This is a perspective view of a dust removal and polishing device according to an embodiment of this application.
[0019] Figure 2 for Figure 1 A cross-sectional view of the dust removal and polishing equipment in the illustrated embodiment.
[0020] Figure 3 for Figure 1 A partial structural cross-sectional view of the dust removal and grinding equipment in the illustrated embodiment.
[0021] Figure 4 for Figure 1 Side view of the dust removal and polishing equipment in the illustrated embodiment.
[0022] Figure 5 for Figure 1A cross-sectional view of the placement mechanism in the illustrated embodiment (the target component is also shown in the figure).
[0023] Explanation of key component symbols:
[0024] Dust removal and grinding equipment 100
[0025] Transmission Component 10
[0026] Base 11
[0027] Support column 111
[0028] Side panel 112
[0029] Conveyor Belt 12
[0030] First drive roller 13
[0031] Second drive roller 14
[0032] Second motor 15
[0033] Shaft 16
[0034] Processing box 20
[0035] First cavity 20a
[0036] First opening 20b
[0037] Square hole 20c
[0038] Top Wall 21
[0039] Side wall 22
[0040] Fixed base 23
[0041] Slide rail 231
[0042] Sliding plate 24
[0043] Dustproof and ventilation mesh frame 25
[0044] Glass plate 26
[0045] Grinding component 30
[0046] Grinding head 31
[0047] Control box 32
[0048] robotic arm 33
[0049] First motor 34
[0050] Turntable 35
[0051] First threaded rod 36
[0052] First nut 37
[0053] Vacuum cleaning component 40
[0054] Vacuum head 41
[0055] 42 vacuum cleaner fan
[0056] Casing 421
[0057] Air duct 421a
[0058] Fan body 422
[0059] delivery pipe 43
[0060] Recycling box 44
[0061] Second cavity 44a
[0062] First Channel 44a1
[0063] Second Channel 44a2
[0064] Air outlet 44b
[0065] Connection frame 45
[0066] Filter component 46
[0067] Frame 461
[0068] Filter 462
[0069] Recycling bin 50
[0070] Recovery chamber 50a
[0071] Second opening 50b
[0072] Cleaning brush 61
[0073] 62 load-bearing plate
[0074] Top block 63
[0075] Second threaded rod 64
[0076] Second nut 65
[0077] Guide ramp 70
[0078] Base plate 80
[0079] Placement box 90
[0080] Insert 110
[0081] Placement mechanism 120
[0082] Vehicle 121
[0083] Partition 1211
[0084] Outer frame 1212
[0085] Push component 1213
[0086] Pad 1214
[0087] Clamping assembly 122
[0088] Slide bar 1221
[0089] Clamping block 1222
[0090] Elastic reset component 1223
[0091] Limit plate 130
[0092] Target part 200
[0093] The following detailed description, in conjunction with the accompanying drawings, will further illustrate this application. Detailed Implementation
[0094] The technical solutions in the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments.
[0095] It should be noted that when a component is said to be "fixed to" another component, it can be directly on the other component or there may be an intervening component. When a component is said to be "connected to" another component, it can be directly connected to the other component or there may be an intervening component. When a component is said to be "set on" another component, it can be directly set on the other component or there may be an intervening component. The terms "vertical," "horizontal," "left," "right," and similar expressions used in this document are for illustrative purposes only.
[0096] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used herein in the specification of this application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "or / and" as used herein includes any and all combinations of one or more of the associated listed items.
[0097] Some embodiments of this application are described in detail. Unless otherwise specified, the following embodiments and features can be combined with each other.
[0098] Example
[0099] 3C products refer to a general term for computer, communication and consumer electronics products. These products are usually highly technological and innovative, including but not limited to personal computers, smartphones, tablets, smartwatches, smart speakers, digital cameras, and televisions. With the rapid development of technology, the types and functions of 3C products are constantly expanding and being updated.
[0100] 3C products such as laptop panels and mobile phone cases have thinner shells and smaller side areas. They are usually composed of two shells or one side of the shell needs to be fitted with a screen. This means that such 3C product shells usually only need to be polished on one side and the corners. However, using traditional polishing equipment, the shell needs to stay in place for a long time during polishing. The shell cannot be continuously transported during the polishing process, which will greatly increase the production time.
[0101] Based on this, a polishing device is provided in the related technology, which conveys the casing via a conveyor belt and polishes the casing during the conveying process. The casing is in a conveying state during polishing, which reduces the time spent on polishing the casing and thus improves production efficiency. However, the polishing device in the related technology generates fine particles or dust during the polishing process, which float in the air and affect the health of the workers.
[0102] This embodiment provides a dust removal and grinding device that can solve the above problems and reduce particle and dust pollution caused by grinding. It will be described in detail below with reference to the accompanying drawings.
[0103] Figure 1 This is a perspective view of the dust removal and polishing equipment 100 in one embodiment of this application; Figure 2 for Figure 1 A cross-sectional view of the dust removal and polishing equipment 100 in the illustrated embodiment; Figure 3 for Figure 1 A partial structural cross-sectional view of the dust removal and polishing equipment 100 in the illustrated embodiment.
[0104] See Figures 1 to 3 This embodiment provides a dust removal and polishing device 100, including a conveying component 10, a processing box 20, a polishing component 30, a dust collection component 40, and a recycling box 50.
[0105] The conveying assembly 10 includes a base 11 and two conveyor belts 12, which are arranged side-by-side and spaced apart in a horizontal direction on the base 11. The two conveyor belts 12 are used to jointly convey the target part 200. A processing box 20 is located above the conveyor belts 12 and defines a first cavity 20a. The first cavity 20a has a first opening 20b on the side facing the conveying assembly 10. A grinding assembly 30 includes a grinding head 31 (e.g., a grinding disc), which is located within the first cavity 20a. A dust extraction assembly 40 includes a dust extraction head 41, which is located within the first cavity 20a. A recycling box 50 is at least partially located within the base 11 and defines a recycling cavity 50a. The recycling cavity 50a has a second opening 50b on the side near the processing box 20, and the second opening 50b is vertically opposite to the first opening 20b.
[0106] The aforementioned dust removal and polishing equipment 100, by using a conveyor belt 12 to transport the target part 200 during the polishing process, reduces the time spent on the target part 200 during polishing, thereby improving production efficiency. A polishing head 31 is used to polish the target part 200. By placing the polishing head 31 within the first cavity 20a of the processing box 20, the entry of fine particles or dust generated during polishing into the external environment is limited. A dust suction head 41 is installed within the first cavity 20a to remove particles or dust, and a recovery box 50 is installed between the two conveyor belts 12 to recover the particles or dust. Therefore, when the target part 200 is conveyed by the conveying assembly 10 to the first opening 20b, the dust suction assembly 40 and the recovery box 44 respectively reduce the particles or dust entering the external environment, thereby reducing pollution generated during polishing, reducing the impact on the health of operators, and also reducing the particles or dust adhering to the surface of the target part 200, improving processing quality.
[0107] In this embodiment, the target component 200 can be the outer shell of a 3C device, such as a laptop panel or a mobile phone case.
[0108] In some embodiments, such as Figure 3 As shown, the vacuuming assembly 40 also includes a vacuuming fan 42, a delivery pipe 43, and a collection box 44. The vacuuming fan 42 includes a housing 421 and a fan body 422. The housing 421 is located in the processing box 20 and has an air duct 421a. The two ends of the air duct 421a are respectively connected to the vacuuming head 41 (see...). Figure 2 The blower body 422 is located within the air duct 421a and one end of the conveying pipe 43. The collection box 44 defines a second cavity 44a, which is connected to the end of the conveying pipe 43 away from the air duct 421a. In this way, the dust or particles generated during grinding are absorbed by the dust-collecting blower 42, and the absorbed particles or dust are collected into the collection box 44 through the conveying pipe 43 for easy recycling.
[0109] In some embodiments, such as Figure 2 As shown, the processing box 20 includes a top wall 21 and side walls 22. The top wall 21 is vertically positioned opposite the conveyor belt 12, and the side walls 22 surround the outer periphery of the top wall 21. Figure 3 As shown, the housing 421 passes through the top wall 21, the delivery pipe 43 is located on the outside of the top wall 21, and the recycling box 44 is located on the outside of the top wall 21. This facilitates the connection of the housing 421 to the vacuum head 41 and the delivery pipe 43, respectively. Optionally, both ends of the delivery pipe 43 are inserted into the housing 421 and the recycling box 44, respectively.
[0110] In some embodiments, such as Figure 3 As shown, the vacuuming assembly 40 also includes a connecting frame 45, which is fixed to the outside of the top wall 21, and the recycling box 44 is installed inside the connecting frame 45.
[0111] In some embodiments, such as Figure 3 As shown, the second cavity 44a includes a first channel 44a1 and a second channel 44a2. The first channel 44a1 is connected to the conveying pipe 43, one end of the second channel 44a2 is connected to the first channel 44a1, and the other end of the second channel 44a2 is provided with an air outlet 44b. The dust collection assembly 40 also includes a filter assembly 46, which is at least partially located within the second channel 44a2, and the outer periphery of the portion of the filter assembly 46 located within the second channel 44a2 is adapted to the second channel 44a2. Thus, the gas conveyed by the dust collection assembly 40 enters the first channel 44a1 through the conveying pipe 43, and then passes through the second channel 44a2 before being discharged to the external environment through the air outlet 44b. Because the filter assembly 46 is provided within the second channel 44a2, particles or dust can be separated, allowing the gas conveyed to the collection box 44 to be filtered before being discharged. Optionally, the collection box 44 is fitted onto the outside of the frame 461.
[0112] In some embodiments, such as Figure 3 As shown, the filter assembly 46 includes a hollow frame 461 and two filter screens 462. At least a portion of the frame 461 passes through the second channel 44a2, and the outer periphery of the portion of the frame 461 located within the second channel 44a2 is adapted to the second channel 44a2. One filter screen 462 is sealed at one end of the frame 461 away from the first channel 44a1, and the other filter screen 462 is sealed at the other end of the frame 461. In this way, particles or dust are separated by the two layers of filter screens 462, making the gas discharged from the outlet into the recovery box 44 cleaner.
[0113] In some embodiments, such as Figure 3As shown, the grinding assembly 30 also includes a control box 32, a robotic arm 33, and a first motor 34. The control box 32 is located in the processing box 20. The robotic arm 33 is located in the first cavity 20a, and one end of the robotic arm 33 is connected to the control box 32. The first motor 34 is connected to the end of the robotic arm 33 away from the control box 32, and the robotic arm 33 is driven by the grinding head 31. Thus, by setting the control box 32, the robotic arm 33 is controlled, and by setting the first motor 34, the grinding head 31 is driven to rotate to grind the target part 200 (see...). Figure 2 The surface of the control box 32 is polished. Optionally, the control box 32 is installed through the top wall 21 to facilitate connection of the robotic arm 33.
[0114] In some embodiments, such as Figure 3 As shown, the grinding assembly 30 also includes a turntable 35, a first threaded rod 36, and a first nut 37. The turntable 35 is rotatably connected to the output shaft of the first motor 34. One end of the first threaded rod 36 is fixedly connected to the grinding head 31, and the first threaded rod 36 passes through the turntable 35. The first nut 37 is sleeved on the end of the first threaded rod 36 away from the turntable 35, so that the turntable 35 and the grinding head 31 form a tight connection, thereby making it convenient and quick to assemble and disassemble the grinding head 31.
[0115] In some embodiments, such as Figure 3 As shown, the processing box 20 has square holes 20c on both sides along the conveying direction of the conveyor belt 12. The square holes 20c penetrate vertically through the processing box 20 near the conveyor belt 12 (see...). Figure 2 The dust removal and polishing equipment 100 also includes two cleaning brushes 61, which are respectively disposed in two square holes 20c and extend vertically towards the side near the conveyor belt 12. In this way, by setting the cleaning brushes 61, when the target part 200 passes under the cleaning brushes 61 under the conveyor belt 12, the cleaning brushes 61 can directly remove particles and dust attached to the surface of the target part 200.
[0116] In some embodiments, such as Figure 3 As shown, the dust removal and grinding equipment 100 also includes two load-bearing plates 62, two top blocks 63, at least two second threaded rods 64, and at least two second nuts 65. The two load-bearing plates 62 are respectively connected to two square holes 20c vertically away from the conveyor belt 12 (see...). Figure 2On one side of the hole wall, one end of each of the two second threaded rods 64 is connected to the side of each of the two load-bearing plates 62 that is away from each other, and each rod passes through one of the two top blocks 63. Two second nuts 65 are respectively fitted onto the ends of the two second threaded rods 64 that are away from the load-bearing plates 62, thus forming a tight connection between the load-bearing plates 62 and the adjacent top blocks 63. The end of the cleaning brush 61 that is away from the conveyor belt 12 is connected to the top block 63. In this way, the end of the cleaning brush 61 that is away from the conveyor belt 12 is fixed to the load-bearing plate 62 by the top block 63, and the second threaded rods 64 and the second nuts 65 make it easy and quick to assemble and disassemble the cleaning brush 61.
[0117] Figure 4 for Figure 1 Side view of the dust removal and polishing equipment 100 in the illustrated embodiment.
[0118] In some embodiments, such as Figure 1 and Figure 4 As shown, the processing box 20 includes a fixed base 23 and two sliding plates 24. The fixed base 23 is connected to the base body 11. The two sliding plates 24 are respectively located on the sides of the two conveyor belts 12 that are far apart from each other, and the sliding plates 24 are slidably mounted vertically on the fixed base 23. Each sliding plate 24 is provided with a dustproof ventilation mesh frame 25, and a glass plate 26 is embedded in the dustproof ventilation mesh frame 25. In this way, by setting the dustproof ventilation mesh frame 25, the air circulation inside and outside the processing box 20 is made smoother, which is conducive to improving the working efficiency of the dust collection component 40. The glass plate 26 is provided to facilitate the observation of the situation inside the processing box 20. Optionally, the fixed base 23 is provided with a vertically extending slide rail 231, and the sliding plates 24 are slidably connected to the slide rail 231.
[0119] In some embodiments, such as Figure 3 As shown, the dust removal and grinding equipment 100 also includes two guide inclined plates 70, which are disposed within the first cavity 20a and respectively connected to two conveyor belts 12 (see...). Figure 2 Vertically opposite to each other, the two guide ramps 70 extend at an angle towards the conveyor belt 12, with the side furthest from the processing box 20 facing towards it. In this way, the guide ramps 70 guide the particles or dust generated during grinding, allowing them to slide along the guide ramps 70 into the collection box 50 below (see...). Figure 2 )middle.
[0120] In some embodiments, combined with Figure 1 and Figure 2As shown, the dust removal and grinding equipment 100 also includes two base plates 80, a placement frame 90, and two insert blocks 110. The two base plates 80 are respectively connected to the base body 11. The placement frame 90 is movably inserted through the two base plates 80 along the direction from one conveyor belt 12 to the other, and is used to support the recycling bin 50. The two insert blocks 110 are located on opposite sides of the recycling bin 50 along the conveying direction of the conveyor belt 12. Each insert block 110 is inserted into the placement frame 90 and the recycling bin 50 along the conveying direction of the conveyor belt 12. In this way, the two base plates 80 are fixed relative to the base body 11, and the placement frame 90 is movably inserted through the two base plates 80, allowing the placement frame 90 to be inserted into the two base plates 80 to provide support for the recycling bin 50, and also allowing the placement frame 90 to be pulled out from the two base plates 80. By inserting the plug 110 into the recycling bin 50 and the placement frame 90 respectively, the recycling bin 50 is fixed relative to the placement frame 90. When the recycling bin 50 needs to be disassembled, first pull out the plug 110, and then pull the placement frame 90 out of the base plate 80, so that the recycling bin 50 can be disassembled.
[0121] Figure 5 for Figure 1 A cross-sectional view of the placement mechanism 120 in the illustrated embodiment (the target component 200 is also shown in the figure).
[0122] In some embodiments, such as Figure 5 As shown, the dust removal and grinding equipment 100 also includes a placement mechanism 120, which includes a carrier 121 and two clamping assemblies 122, respectively disposed on opposite sides of the carrier 121. The carrier 121 is used to place the equipment on the conveyor belt 12 (see...). Figure 2 The clamping assembly 122 includes a slide bar 1221, a clamping block 1222, and an elastic reset member 1223. The slide bar 1221 is movably inserted through the carrier 121 in a direction from one clamping assembly 122 to the other. The clamping block 1222 is connected to one end of the slide bar 1221 near the other slide bar 1221 and can abut against the target part 200. The elastic reset member 1223 elastically abuts between the carrier 121 and the clamping block 1222, providing an elastic force to press the clamping block 1222 against the target part 200. Thus, by providing the placement mechanism 120 to carry the target part 200, it is convenient to be transported by the conveyor belt 12. By setting the clamping assembly 122, the elastic reset member 1223 pushes the clamping block 1222 closer to the other clamping block 1222, thereby clamping the target part 200 between the two clamping blocks 1222 and preventing the target part 200 from falling out of the carrier 121.
[0123] In some embodiments, such as Figure 5As shown, the carrier 121 includes a partition 1211, an outer frame 1212, and a pusher 1213. The outer frame 1212 surrounds the outer periphery of the partition 1211 and is used to place it on the conveyor belt 12. A clamping assembly 122 is disposed on the outer frame 1212. The pusher 1213 is vertically movably inserted through the partition 1211, and the side of the pusher 1213 away from the conveyor belt 12 is used to carry the target part 200. Thus, by providing the pusher 1213 to slide up and down relative to the partition 1211, when it is necessary to remove the target part 200 from the carrier 121, by pushing the pusher 1213 upward, the pusher 1213 can push the target part 200 out of the outer frame 1212, thereby facilitating the removal of the target part 200 from the carrier 121.
[0124] In some embodiments, such as Figure 5 As shown, the carrier 121 also includes a pad 1214 (such as a sponge pad), which is located on the side of the pusher 1213 that is vertically away from the conveyor belt 12 and is used to contact the target 200.
[0125] In some embodiments, such as Figure 2 As shown, the conveyor belt 12 is provided with multiple limiting plates 130, which are spaced apart from each other along the conveying direction of the conveyor belt 12. The placement mechanism 120 is positioned between two adjacent limiting plates 130 along the conveying direction of the conveyor belt 12. In this way, by setting the limiting plates 130, the position of the placement mechanism 120 on the conveyor belt 12 is limited.
[0126] In some embodiments, such as Figure 2 As shown, the seat 11 includes a support column 111 and two side plates 112. The two side plates 112 are spaced apart along the direction from one conveyor belt 12 to the other conveyor belt 12. The support column 111 is connected between the two side plates 112 to fix the two side plates 112 relative to each other. Optionally, there are at least two support columns 111, and the at least two support columns 111 are spaced apart from each other along the conveying direction of the conveyor belt 12.
[0127] In some embodiments, such as Figure 2 As shown, the conveying assembly 10 also includes a first drive roller 13, a second drive roller 14, and a second motor 15 (see...). Figure 1 The first drive roller 13 and the second drive roller 14 are spaced apart along the conveying direction of the conveyor belt 12 and located between two side plates 112. The first drive roller 13 is drively connected to the output shaft of the first motor 34, and the second drive roller 14 is rotatably supported on the shaft 16. The conveyor belt 12 is connected to the outer walls of the first drive roller 13 and the second drive roller 14 respectively. In this way, the second motor 15 drives the conveyor belt 12 to transport the target part 200.
[0128] The above embodiments are only used to illustrate the technical solutions of this application and are not intended to limit it. Although this application has been described in detail with reference to the above preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions to the technical solutions of this application should not depart from the spirit and scope of the technical solutions of this application.
Claims
1. A dust removal and grinding device, characterized in that, include: A conveying assembly includes a base and two conveyor belts, the two conveyor belts being arranged side by side and spaced apart in a horizontal direction on the base, the two conveyor belts being used to convey a target part together; A processing box is located above the conveyor belt, the processing box defining a first cavity, the first cavity having a first opening on the side facing the conveyor assembly; A polishing assembly includes a polishing head located within the first cavity; A vacuuming assembly includes a vacuum head located within the first cavity; as well as, A recycling bin, at least partially located within the base, defines a recycling chamber. The recycling chamber has a second opening on the side near the processing box, and the second opening is vertically opposite to the first opening.
2. The dust removal and grinding equipment according to claim 1, characterized in that: The dust collection assembly also includes a dust collection fan, a delivery pipe, and a recycling box; The vacuum cleaner includes a housing and a blower body. The housing is located in the processing box and has an air duct. The two ends of the air duct are respectively connected to the vacuum head and the conveying pipe. The blower body is located inside the air duct. The recycling box defines a second cavity, which is connected to the end of the delivery pipe away from the air duct.
3. The dust removal and grinding equipment according to claim 2, characterized in that: The second cavity includes a first channel and a second channel. The first channel is connected to the delivery pipe, one end of the second channel is connected to the first channel, and the other end of the second channel is provided with an air outlet. The dust collection assembly further includes a filter assembly, which is at least partially located within the second channel, and the outer periphery of the portion of the filter assembly located within the second channel is adapted to the second channel.
4. The dust removal and grinding equipment according to claim 3, characterized in that: The filter assembly includes a hollow frame and two filter screens; At least a portion of the frame extends through the second channel, and the outer periphery of the portion of the frame located within the second channel is adapted to the second channel; One of the filters is sealed at one end of the frame away from the first channel, and the other filter is sealed at the other end of the frame.
5. The dust removal and grinding equipment according to claim 1, characterized in that: The grinding assembly also includes a control box, a robotic arm, and a first motor; The control box is located in the processing box; The robotic arm is located in the first cavity, and one end of the robotic arm is connected to the control box; The first motor is connected to the end of the robotic arm away from the control box, and the robotic arm is driven to the grinding head.
6. The dust removal and grinding equipment according to claim 1, characterized in that: The processing box is provided with square holes on both sides along the conveying direction of the conveyor belt, and the square holes penetrate vertically through the side of the processing box closest to the conveyor belt. The dust removal and polishing equipment also includes two cleaning brushes, which are respectively located in the two square holes and extend vertically towards the side close to the conveyor belt.
7. The dust removal and grinding equipment according to claim 1, characterized in that: The processing box includes a fixed base and two sliding plates; the fixed base is connected to the base body; the two sliding plates are respectively located on the sides of the two conveyor belts that are far apart from each other, and the sliding plates are slidably disposed on the fixed base in a vertical direction; the sliding plates are provided with dustproof and ventilation mesh frames, and glass plates are embedded in the dustproof and ventilation mesh frames; And / or, The dust removal and grinding equipment also includes two guide inclined plates, which are disposed in the first cavity and are vertically opposite to the two conveyor belts respectively. The side of the two guide inclined plates away from the processing box extends inclined towards the conveyor belt.
8. The dust removal and grinding equipment according to claim 1, characterized in that: The dust removal and grinding equipment also includes two base plates, a placement frame, and two insert blocks; The two base plates are respectively connected to the base body; The placement frame is movably inserted through the two base plates along the direction from one of the conveyor belts to the other conveyor belt, and the placement frame is used to support the recycling bin; The two inserts are located on opposite sides of the recycling bin along the conveyor belt, and each insert is inserted into the placement frame and the recycling bin along the conveyor belt.
9. The dust removal and grinding equipment according to claim 1, characterized in that: The dust removal and grinding equipment also includes a placement mechanism, which includes a carrier and two clamping components, with the two clamping components respectively located on opposite sides of the carrier; The carrier is used to be placed on the conveyor belt and to carry the target component; The clamping assembly includes a slide bar, a clamping block, and a resilient reset member; the slide bar is movably inserted through the carrier in a direction from one of the clamping assemblies to the other clamping assembly; The clamping block is connected to one end of the slide bar near the other slide bar and can abut against the target component; The elastic reset member elastically abuts between the carrier and the clamping block to provide an elastic force that causes the clamping block to press against the target.
10. The dust removal and grinding equipment according to claim 9, characterized in that: The vehicle includes a partition, an outer frame, and a pushing component; The outer frame surrounds the outer periphery of the partition and is used to place it on the conveyor belt; the clamping assembly is disposed on the outer frame; The pusher is vertically and movably inserted through the partition, and the side of the pusher away from the conveyor belt is used to carry the target piece.