CN209853026U - Induction type leakage-proof charging bin - Google Patents
Induction type leakage-proof charging bin Download PDFInfo
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- CN209853026U CN209853026U CN201920572224.8U CN201920572224U CN209853026U CN 209853026 U CN209853026 U CN 209853026U CN 201920572224 U CN201920572224 U CN 201920572224U CN 209853026 U CN209853026 U CN 209853026U
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- opening support
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Abstract
An induction type leakage-proof loading bin comprises a bottom plate, a first bin, a second bin, a third bin, a first bin door assembly, a second bin door assembly, a third bin door assembly and a controller; the first storage bin door assembly comprises a first cylinder, a first baffle and a first sensing unit; the second storage bin door assembly comprises a second cylinder, a second baffle and a second sensing unit; the third storage bin door assembly comprises a third cylinder, a third baffle and a third induction unit; the controller is connected with the first cylinder, the second cylinder and the third cylinder. So can open the feed bin lid in proper order, avoid neglected loading material.
Description
Technical Field
The utility model relates to an electronic product assembly technical field, especially an induction type leak protection loading bin.
Background
Electronic product because the part is small and the kind is many, takes place easily when the assembly neglected loading one or more parts, causes the defective products.
SUMMERY OF THE UTILITY MODEL
In view of this, the utility model provides an induction type leak protection silo that can open the silo lid in proper order, avoid neglected loading to solve above-mentioned problem.
An induction type leakage-proof charging bin comprises a bottom plate, a first bin, a second bin and a third bin which are arranged on the bottom plate at intervals, a first bin door assembly arranged at an opening of the first bin, a second bin door assembly arranged at an opening of the second bin, a third bin door assembly arranged at an opening of the third bin, and a controller; a first opening support is arranged at an opening of the first bin, the first bin door assembly comprises a first cylinder arranged outside the first opening support, a first blocking piece connected with the output end of the first cylinder, a first sensing unit arranged on the first side of the first opening support and a first sensing block arranged on the second side of the first opening support and opposite to the first sensing unit, and the first blocking piece can movably seal the opening of the first bin; a second opening support is arranged at an opening of the second bin, the second bin door assembly comprises a second cylinder arranged at the outer side of the second opening support, a second blocking piece connected with the output end of the second cylinder, a second induction unit arranged at the first side of the second opening support and a second induction block arranged at the second side of the second opening support and opposite to the second induction unit, and the second blocking piece can movably seal the opening of the second bin; a third opening support is arranged at an opening of the third bin, a third bin door assembly comprises a third air cylinder arranged outside the third opening support, a third baffle plate connected with the output end of the third air cylinder, a third induction unit arranged on the first side of the third opening support and a third induction block arranged on the second side of the third opening support and opposite to the third induction unit, and the third baffle plate can movably seal the opening of the third bin; the controller is connected with the first cylinder, the second cylinder and the third cylinder.
Furthermore, the output ends of the first cylinder, the second cylinder and the third cylinder are connected with a fixing block, at least two threaded holes are formed in one side of the fixing block, and a screw penetrates through the first separation blade, the second separation blade or the third separation blade and is in threaded connection with the threaded holes of the fixing block.
Furthermore, first split support, second split support and third split support all include two first stands that set up on the bottom plate relatively, and connect the terminal crossbeam of two first stands keep away from the bottom plate.
Further, be provided with the control box on the crossbeam of first open pore support, the controller is located the control box, and first cylinder is fixed in on the control box and is located the top of the crossbeam of first open pore support, and the output of first cylinder is towards the opening of first feed bin.
Further, the middle part of the crossbeam of the second open support is fixedly connected with a first mounting plate, the second cylinder is fixed on the first mounting plate, and the output end of the second cylinder faces the opening of the second storage bin.
Furthermore, the middle part of the cross beam of the third opening support is fixedly connected with a second mounting plate, the third cylinder is fixed on the second mounting plate, and the output end of the third cylinder faces the opening of the third storage bin.
Further, the first sensing unit, the second sensing unit and the third sensing unit are all photoelectric sensors.
Compared with the prior art, the induction type leakage-proof loading bin comprises a bottom plate, a first bin, a second bin and a third bin which are arranged on the bottom plate at intervals, a first bin door assembly arranged at the opening of the first bin, a second bin door assembly arranged at the opening of the second bin, a third bin door assembly arranged at the opening of the third bin, and a controller; a first opening support is arranged at an opening of the first bin, the first bin door assembly comprises a first cylinder arranged outside the first opening support, a first blocking piece connected with the output end of the first cylinder, a first sensing unit arranged on the first side of the first opening support and a first sensing block arranged on the second side of the first opening support and opposite to the first sensing unit, and the first blocking piece can movably seal the opening of the first bin; a second opening support is arranged at an opening of the second bin, the second bin door assembly comprises a second cylinder arranged at the outer side of the second opening support, a second blocking piece connected with the output end of the second cylinder, a second induction unit arranged at the first side of the second opening support and a second induction block arranged at the second side of the second opening support and opposite to the second induction unit, and the second blocking piece can movably seal the opening of the second bin; a third opening support is arranged at an opening of the third bin, a third bin door assembly comprises a third air cylinder arranged outside the third opening support, a third baffle plate connected with the output end of the third air cylinder, a third induction unit arranged on the first side of the third opening support and a third induction block arranged on the second side of the third opening support and opposite to the third induction unit, and the third baffle plate can movably seal the opening of the third bin; the controller is connected with the first cylinder, the second cylinder and the third cylinder. So can open the feed bin lid in proper order, avoid neglected loading material.
Drawings
Embodiments of the present invention are described below with reference to the accompanying drawings, in which:
fig. 1 is a schematic perspective view of a first state of the induction type leakage-proof loading bin provided by the present invention.
Fig. 2 is an enlarged schematic view of a portion a in fig. 1.
Fig. 3 is a schematic perspective view of a second state of the induction type leakage-proof loading bin provided by the present invention.
Fig. 4 is a schematic perspective view of a third state of the induction type leakage-proof loading bin provided by the present invention.
Detailed Description
The following describes in further detail specific embodiments of the present invention based on the drawings. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.
Referring to fig. 1 and 2, the present invention provides an induction type leakage-proof silo, which comprises a bottom plate 10, a first silo (not shown), a second silo (not shown) and a third silo (not shown) disposed on the bottom plate 10 at intervals, a first silo door assembly 20 disposed at an opening of the first silo, a second silo door assembly 30 disposed at an opening of the second silo, and a third silo door assembly 40 disposed at an opening of the third silo.
The opening of first feed bin is provided with first open support 21, and first feed bin door subassembly 20 is including setting up first cylinder 22 in the first open support 21 outside, the first separation blade 23 of being connected with the output of first cylinder 22, setting up in the first induction unit 24 of the first side of first open support 21 and setting up the second side of first open support 21 and the first response piece 25 relative with first induction unit 24. The first flap 23 movably closes the opening of the first magazine.
A second open support 31 is arranged at an opening of the second bunker, and the second bunker door assembly 30 includes a second cylinder 33 arranged at the outer side of the second open support 31, a second baffle 34 connected with an output end of the second cylinder 33, a second sensing unit 35 arranged at a first side of the second open support 31, and a second sensing block 36 arranged at a second side of the second open support 31 and opposite to the second sensing unit 35. The second flap 34 is movable to close the opening of the second bin.
The opening of the third silo is provided with a third opening support 41, and the third silo door assembly 40 includes a third cylinder 43 disposed outside the third opening support 41, a third blocking piece 44 connected to an output end of the third cylinder 43, a third sensing unit 45 disposed on a first side of the third opening support 41, and a third sensing block 46 disposed on a second side of the third opening support 41 and opposite to the third sensing unit 45. A third flap 44 movably closes the opening of the third cartridge.
The first opening bracket 21, the second opening bracket 31 and the third opening bracket 41 each include two first vertical posts 211 oppositely disposed on the bottom plate 10, and a cross beam 212 connecting the ends of the two first vertical posts 211 far away from the bottom plate 10.
The output ends of the first cylinder 22, the second cylinder 33 and the third cylinder 43 are all connected with a fixing block 221, one side of the fixing block 221 is provided with at least two threaded holes, and a screw 222 penetrates through the first blocking piece 23, the second blocking piece 34 or the third blocking piece 44 and is in threaded connection with the threaded hole of the fixing block 221.
In the present embodiment, the control box 26 is provided on the cross beam 212 of the first split bracket 21, and the controller is provided in the control box 26 and connected to the first cylinder 22, the second cylinder 33, and the third cylinder 43.
The first cylinder 22 is fixed on the control box 26 and located above the cross beam 212 of the first open bracket 21, and the output end of the first cylinder 22 faces the opening of the first silo.
The middle part of the cross beam 212 of the second open bracket 31 is fixedly connected with a first mounting plate 32, the second cylinder 33 is fixed on the first mounting plate 32, and the output end of the second cylinder 33 faces the opening of the second silo.
The middle part of the cross beam 212 of the third opening bracket 41 is fixedly connected with a second mounting plate 42, the third cylinder 43 is fixed on the second mounting plate 42, and the output end of the third cylinder 33 faces the opening of the third bunker.
The first sensing unit 24, the second sensing unit 35, or the third sensing unit 45 is configured to send a sensing signal, and the sensing signal is reflected by the first sensing unit 24, the second sensing unit 35, or the third sensing unit 45 after passing through the first sensing block 25, the second sensing block 36, or the third sensing block 46, and then is received by the corresponding first sensing unit 24, the second sensing unit 35, or the third sensing unit 45, so as to sense whether a material taking device or a human arm exists at the opening of the first bin, the opening of the second bin, or the opening of the third bin, and when the material taking device or the human arm exists, the controller controls the output end of the corresponding first cylinder 22, the corresponding second cylinder 33, or the corresponding third cylinder 43 to be stationary, and prohibits the output end of the corresponding first cylinder 22, the corresponding second cylinder 33, or the corresponding third cylinder 43 from moving toward the bottom plate 10, thereby preventing damage to.
In the present embodiment, the first sensing unit 24, the second sensing unit 35, and the third sensing unit 45 are all photoelectric sensors.
The first bin, the second bin and the third bin are respectively filled with different materials, such as electronic components.
Referring to fig. 1, in an initial state, the output end of the first cylinder 22 is located far away from the bottom plate 10, and the first blocking piece 23 is located above the opening of the first bin, so that the opening of the first bin is open.
After material taking equipment or a human arm takes materials from the first bin, the controller controls the output end of the first air cylinder 22 to move towards the bottom plate 10, and the first blocking piece 23 is located at the opening of the first bin, so that the opening of the first bin is closed; while the controller controls the output end of the second cylinder 33 to move in a direction away from the bottom plate 10, the second shutter 34 is positioned above the opening of the second bin such that the opening of the second bin is opened, as shown in fig. 3. At this moment, the material taking equipment or the arm of a person can only stretch into the second storage bin to take materials.
When material taking equipment or a human arm takes materials from the second bin, the controller controls the output end of the second air cylinder 33 to move towards the bottom plate 10, and the second blocking piece 34 is positioned at the opening of the second bin, so that the opening of the second bin is closed; while the controller controls the output end of the third cylinder 43 to move in a direction away from the bottom plate 10, the third barrier 44 is positioned above the opening of the third bin such that the opening of the third bin is opened, as shown in fig. 4. At this moment, the material taking equipment or the arm of a person can only stretch into the third bin to take materials.
After the material taking equipment or the arm of a person takes the material from the third bin, the controller controls the output end of the third cylinder 43 to move towards the bottom plate 10, and the third blocking piece 44 is positioned at the opening of the third bin, so that the opening of the third bin is closed; and at the same time, the controller controls the output end of the first cylinder 22 to move towards the direction away from the bottom plate 10, and the first blocking piece 23 is positioned above the opening of the first bin, so that the opening of the first bin is opened. At the moment, the material taking equipment or the arm of a person can only stretch into the first bin to take materials. The above steps are repeated to avoid neglected loading.
Compared with the prior art, the induction type leakage-proof loading bin comprises a bottom plate 10, a first bin, a second bin and a third bin which are arranged on the bottom plate 10 at intervals, a first bin door assembly 20 arranged at the opening of the first bin, a second bin door assembly 30 arranged at the opening of the second bin, a third bin door assembly 40 arranged at the opening of the third bin, and a controller; a first opening support 21 is arranged at an opening of the first bin, the first bin door assembly 20 comprises a first cylinder 22 arranged outside the first opening support 21, a first blocking piece 23 connected with an output end of the first cylinder 22, a first sensing unit 24 arranged on a first side of the first opening support 21, and a first sensing block 25 arranged on a second side of the first opening support 21 and opposite to the first sensing unit 24, and the first blocking piece 23 can movably close the opening of the first bin; a second opening support 31 is arranged at an opening of the second bin, the second bin door assembly 30 comprises a second cylinder 33 arranged at the outer side of the second opening support 31, a second baffle 34 connected with the output end of the second cylinder 33, a second induction unit 35 arranged at the first side of the second opening support 31, and a second induction block 36 arranged at the second side of the second opening support 31 and opposite to the second induction unit 35, and the second baffle 34 can movably seal the opening of the second bin; a third opening support 41 is arranged at an opening of the third bin, the third bin door assembly 40 comprises a third cylinder 43 arranged outside the third opening support 41, a third baffle 44 connected with an output end of the third cylinder 43, a third induction unit 45 arranged on a first side of the third opening support 41, and a third induction block 46 arranged on a second side of the third opening support 41 and opposite to the third induction unit 45, and the third baffle 44 can movably close the opening of the third bin; the controller is connected to the first cylinder 22, the second cylinder 33, and the third cylinder 43. So can open the feed bin lid in proper order, avoid neglected loading material.
The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.
Claims (7)
1. The utility model provides an induction type leak protection silo which characterized in that: the device comprises a bottom plate, a first bin, a second bin and a third bin which are arranged on the bottom plate at intervals, a first bin door assembly arranged at an opening of the first bin, a second bin door assembly arranged at an opening of the second bin, a third bin door assembly arranged at an opening of the third bin, and a controller; a first opening support is arranged at an opening of the first bin, the first bin door assembly comprises a first cylinder arranged outside the first opening support, a first blocking piece connected with the output end of the first cylinder, a first sensing unit arranged on the first side of the first opening support and a first sensing block arranged on the second side of the first opening support and opposite to the first sensing unit, and the first blocking piece can movably seal the opening of the first bin; a second opening support is arranged at an opening of the second bin, the second bin door assembly comprises a second cylinder arranged at the outer side of the second opening support, a second blocking piece connected with the output end of the second cylinder, a second induction unit arranged at the first side of the second opening support and a second induction block arranged at the second side of the second opening support and opposite to the second induction unit, and the second blocking piece can movably seal the opening of the second bin; a third opening support is arranged at an opening of the third bin, a third bin door assembly comprises a third air cylinder arranged outside the third opening support, a third baffle plate connected with the output end of the third air cylinder, a third induction unit arranged on the first side of the third opening support and a third induction block arranged on the second side of the third opening support and opposite to the third induction unit, and the third baffle plate can movably seal the opening of the third bin; the controller is connected with the first cylinder, the second cylinder and the third cylinder.
2. The induction type leak-proof hopper as recited in claim 1 wherein: the output ends of the first cylinder, the second cylinder and the third cylinder are all connected with a fixing block, at least two threaded holes are formed in one side of the fixing block, and a screw penetrates through the first separation blade, the second separation blade or the third separation blade and is in threaded connection with the threaded holes of the fixing block.
3. The induction type leak-proof hopper as recited in claim 1 wherein: the first opening support, the second opening support and the third opening support respectively comprise two first stand columns which are oppositely arranged on the bottom plate and a cross beam which is connected with the tail ends of the two first stand columns far away from the bottom plate.
4. The induction type leak-proof hopper as recited in claim 3 wherein: the cross beam of the first opening support is provided with a control box, the controller is located in the control box, the first air cylinder is fixed on the control box and located above the cross beam of the first opening support, and the output end of the first air cylinder faces the opening of the first storage bin.
5. The induction type leak-proof hopper as recited in claim 3 wherein: the middle part fixedly connected with of the crossbeam of second opening support has a first mounting panel, and the second cylinder is fixed in on the first mounting panel and the output of second cylinder towards the opening of second feed bin.
6. The induction type leak-proof hopper as recited in claim 3 wherein: the middle part of the crossbeam of the third opening support is fixedly connected with a second mounting plate, the third cylinder is fixed on the second mounting plate, and the output end of the third cylinder faces the opening of the third storage bin.
7. The induction type leak-proof hopper as recited in claim 1 wherein: the first sensing unit, the second sensing unit and the third sensing unit are all photoelectric sensors.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920572224.8U CN209853026U (en) | 2019-04-24 | 2019-04-24 | Induction type leakage-proof charging bin |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920572224.8U CN209853026U (en) | 2019-04-24 | 2019-04-24 | Induction type leakage-proof charging bin |
Publications (1)
Publication Number | Publication Date |
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CN209853026U true CN209853026U (en) | 2019-12-27 |
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Application Number | Title | Priority Date | Filing Date |
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CN201920572224.8U Active CN209853026U (en) | 2019-04-24 | 2019-04-24 | Induction type leakage-proof charging bin |
Country Status (1)
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CN (1) | CN209853026U (en) |
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2019
- 2019-04-24 CN CN201920572224.8U patent/CN209853026U/en active Active
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