CN215088788U - Alloy particle screening device - Google Patents
Alloy particle screening device Download PDFInfo
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- CN215088788U CN215088788U CN202121552393.9U CN202121552393U CN215088788U CN 215088788 U CN215088788 U CN 215088788U CN 202121552393 U CN202121552393 U CN 202121552393U CN 215088788 U CN215088788 U CN 215088788U
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- screening box
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Abstract
An alloy particle screening device is used for solving the technical problem that the existing screening device in the background art is not convenient for production personnel to take out alloy particles with different particle sizes from the screening device respectively. The method comprises the following steps: the vibrating machine is fixed on the bottom plate, a connecting piece is arranged on one side of the bottom plate, and the bottom plate can obliquely swing up and down around the connecting piece; the screening box is fixedly connected with the vibrating machine, the top of the screening box is provided with an opening, and a plurality of layers of filtering plates with sequentially reduced filtering hole diameters are arranged in the screening box from top to bottom; the shrouding subassembly, this shrouding subassembly are located on the screening case, and the screening case is close to on the lateral wall of connecting piece one side from last to opening down have a plurality ofly and the discharge gate of multilayer filter one-to-one, and this shrouding subassembly is used for opening and close a plurality of these discharge gates simultaneously, the utility model discloses simple structure, mainly used screening alloy granule.
Description
Technical Field
The utility model relates to a material processing technology field, concretely relates to alloy particle screening device.
Background
Alloy particles are one raw material for producing alloy plates, a manufacturer generally uses a ball mill to process alloy powder into the alloy particles, the alloy particles processed by the ball mill have uneven particle sizes, namely alloy particles with different particle sizes are mixed, and the alloy particles with even and consistent particle sizes are required to be used in the manufacturing process of the alloy plates.
Therefore the producer need filter the alloy particle of different particle sizes, and the sieve separator need be used in prior art screening operation, and current sieve separator generally includes bobbing machine, screening case and locates the multilayer filter of screening incasement, and the vibration through the bobbing machine can pass through the filter with the alloy particle of different particle sizes, and later the alloy particle of different particle sizes is kept somewhere respectively on the filter of difference.
However, the existing screening mode still has an objective defect, production personnel are inconvenient to take the alloy particles on different filter plates out of the screening box, the delay time in the material taking process is long, and the screening efficiency is restricted.
SUMMERY OF THE UTILITY MODEL
The utility model discloses the purpose is not enough to prior art, provides an alloy granule sieving mechanism for solve the current sieving mechanism who mentions in the background art and be not convenient for the producer with the alloy granule of different particle diameters take out the technical problem respectively from the sieving mechanism.
An alloy particle screening apparatus comprising:
the vibrating machine is fixed on the bottom plate, a connecting piece is arranged on one side of the bottom plate, and the bottom plate can obliquely swing up and down around the connecting piece;
the screening box is fixedly connected with the vibrating machine, the top of the screening box is provided with an opening, and a plurality of layers of filtering plates with sequentially reduced filtering hole diameters are arranged in the screening box from top to bottom;
the shrouding subassembly, this shrouding subassembly are located on the screening case, and the screening case is close to the lateral wall on one side of the connecting piece and is gone up from last to opening down have a plurality ofly and the discharge gate of multilayer filter one-to-one, and this shrouding subassembly is used for opening and close a plurality of these discharge gates simultaneously.
The working principle is as follows:
the operation personnel send mixed alloy particles into the screening box from the opening at the top of the screening box, then the operation personnel start the vibrating machine, the vibrating machine vibrates to drive the screening box and the multi-layer filter plates to vibrate, the mixed alloy particles are sequentially screened by the vibrating machine from top to bottom in the vibrating process to fall to the filter plates at the lowest layer, and at the moment, the alloy particles with different particle sizes are kept on the filter plates with corresponding filter hole apertures.
Later the operation personnel will be a plurality of simultaneously through the shrouding subassembly the discharge gate is opened, later operation personnel lifting bottom plate to make the bottom plate drive the screening case and take place to rotate around the connecting piece, the slope takes place for the screening case this moment, and every layer of alloy granule will be along the filter landing under the action of gravity on this layer this moment, and the in-process of landing, under the vibration effect of bobbing machine, the alloy granule will fall with higher speed, and this moment the operation personnel need with the help of the utensil will receive respectively from the alloy granule of different discharge gate landing can.
Then the operating personnel along opposite direction gyration bottom plate to make the screening case position return to just, then the rethread closing plate subassembly is with a plurality of discharge gates shutoff simultaneously can, from this screening operation completion.
The utility model has the advantages that:
the utility model discloses in, the operation personnel are through promoting the bottom plate, thereby make the bottom plate drive the screening case and take place the slope, the alloy granule on every layer will be along the filter on this layer from the discharge gate landing under the action of gravity this moment, the in-process of landing, under the vibration of bobbing machine, the alloy granule will fall with higher speed, then the operation personnel adopt the container again respectively to the alloy granule of every layer landing collect can, this kind of mode can be fast to the alloy granule of different particle diameters on each layer filter collect respectively, thereby can improve screening efficiency by a wide margin.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present invention.
Description of reference numerals: bottom plate 1, bobbing machine 2, connecting piece 3, screening case 4, filter 5, discharge gate 6, first flexible driving piece 7, shutoff board 8, connecting rod 9, second flexible driving piece 10, bracing piece 11, guide bar 12, haulage rope 13, mounting panel 14, installation piece 15, connecting block 16, bolt 17, pivot 18, base 19.
Detailed Description
The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.
As shown in fig. 1, an alloy particle screening apparatus includes:
the bottom plate 1 is fixed with the bobbing machine 2 on this bottom plate 1, and this bottom plate 1 one side is equipped with connecting piece 3, and this bottom plate 1 can be around this connecting piece 3 tilt swing from top to bottom, connecting piece 3 is shaft-like structure, and this connecting piece 3 wears to establish on a mounting panel 14, and this connecting piece 3 relative mounting panel 14 rotation, bottom plate 1 and connecting piece 3 fixed connection.
The shrouding subassembly, this shrouding subassembly are located on screening case 4, and screening case 4 is close to the lateral wall on one side of connecting piece 3 and is gone up from last to opening down have a plurality ofly and 5 one-to-one discharge gates 6 of multilayer filter, and this shrouding subassembly is used for opening and close a plurality of these discharge gates 6 simultaneously.
As shown in fig. 1, the shrouding subassembly is including fixing the first flexible driving piece 7 at screening case 4 top and locating the shutoff board 8 that the polylith quantity and the 6 quantity of a plurality of discharge gates of the flexible end of first flexible driving piece 7 correspond, first flexible driving piece 7 is through installation piece 15 and screening case 4 fixed connection, through connecting rod 9 fixed connection between the adjacent shutoff board 8, polylith shutoff board 8 is used for a plurality of discharge gates 6 that the shutoff corresponds along with the extension of the flexible end of first flexible driving piece 7 to be used for along with the flexible end of first flexible driving piece 7 return and open a plurality of discharge gates 6 that correspond, this kind of mode simple structure, use cost is low, and the practicality is strong. Connecting rod 9 all is located one side of discharge gate 6, locates one side of discharge gate 6 with connecting rod 9 to when empting the alloy granule, prevent that connecting rod 9 from blockking the alloy granule landing, thereby improve the efficiency of taking out the alloy granule.
As shown in figure 1, every filter 5 all with screening case 4 inner wall detachably fixed connection, all be fixed with connecting block 16 on the filter 5, threaded connection has bolt 17 on the connecting block 16, bolt 17 and screening case 4 inner wall threaded connection, this kind of mode of setting, the operation personnel can take off polylith filter 5 respectively, and in the in-service use, the filtration pore on the filter 5 probably takes place to block up, and the operation personnel can lift filter 5 off this moment, later clear up the filtration to guarantee the normal clear and go on of screening operation.
As shown in fig. 1, it further comprises a driving assembly connected to the screen box 4 for driving the screen box 4 to swing up and down obliquely around the connecting member 3. The drive assembly includes the flexible driving piece of second 10, bracing piece 11, locates guide bar 12 and haulage rope 13 on the bracing piece 11, and the flexible end of the flexible driving piece of second 10 is up, and haulage rope 13 walks around guide bar 12 from the guide bar 12 top, and this haulage rope 13 one end is connected with the flexible end of the flexible driving piece of second 10, and its other end and the sub-unit connection of screening case 4. Drive haulage rope 13 through the flexible driving piece of second 10 and remove, and then haulage rope 13 drives screening case 4 and bottom plate 1 promotion rotation, and manual operation can be replaced to this kind of mode to use manpower sparingly, improve the operating efficiency. Guide bar 12 is the live-rollers structure, and this guide bar 12 rotates with bracing piece 11 to be connected, but wear to establish a pivot 18 of rotation on the bracing piece 11, the fixed cover of guide bar 12 is established in pivot 18, and this kind of mode can reduce the friction between haulage rope 13 and the guide bar 12 effectively to improve the availability factor of the flexible driving piece of second 10, reduce use cost, first flexible driving piece 7 and the flexible driving piece 10 of second are the cylinder structure, the flexible driving piece of second 10 and bracing piece 11 are all fixed on base 19.
The working principle is as follows:
the operation personnel send mixed alloy particles into the screening box 4 from the opening at the top of the screening box 4, then the operation personnel start the vibrating machine 2, the vibrating machine 2 vibrates to drive the screening box 4 and the multilayer filter plates 5 to vibrate, the mixed alloy particles are sequentially screened by vibration from top to bottom in the vibrating process to fall to the filter plates 5 at the lowest layer, and the alloy particles with different particle sizes are kept on the filter plates 5 with corresponding filter hole apertures.
Later the operation personnel will be a plurality of simultaneously through the shrouding subassembly discharge gate 6 is opened, specifically, first flexible driving piece 7 drives polylith shutoff board 8 and removes and then opens each discharge gate 6, later the operation personnel is through the cooperation lifting bottom plate 1 of the flexible driving piece 10 of second and haulage rope 13, thereby make bottom plate 1 drive screening case 4 rotate around connecting piece 3, screening case 4 takes place the slope this moment, every layer of alloy granule will be along this layer of filter 5 landing under the action of gravity this moment, the in-process of landing, under the vibration of bobbing machine 2, the alloy granule will fall with higher speed, this moment the operation personnel need with the help of the utensil will follow the alloy granule of different discharge gate 6 landing and receive respectively can.
Then, the operator rotates the screening box 4 and the bottom plate 1 in the opposite direction again through the matching of the second telescopic driving piece 10 and the traction rope 13, so that the position of the screening box 4 is adjusted, and then the plurality of discharge holes 6 are plugged simultaneously through the sealing plate assembly, so that the screening operation is completed.
Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.
Claims (7)
1. An alloy particle screening apparatus, comprising:
the vibration machine comprises a bottom plate (1), wherein a vibration machine (2) is fixed on the bottom plate (1), a connecting piece (3) is arranged on one side of the bottom plate (1), and the bottom plate (1) can obliquely swing up and down around the connecting piece (3);
the screening box (4), the screening box (4) is fixedly connected with the vibrating machine (2), the top of the screening box (4) is open, and a plurality of layers of filtering plates (5) with sequentially reduced filtering hole diameters are arranged in the screening box (4) from top to bottom;
the shrouding subassembly, this shrouding subassembly is located on screening case (4), and screening case (4) are close to on the lateral wall of connecting piece (3) one side from last to opening discharge gate (6) that have a plurality of and multilayer filter (5) one-to-one down, and this shrouding subassembly is used for opening and close a plurality of these discharge gates (6) simultaneously.
2. An alloy particle screening apparatus according to claim 1, wherein: the shrouding subassembly is including fixing in the first flexible driving piece (7) at screening case (4) top and locating shutoff board (8) that polylith quantity and a plurality of discharge gate (6) quantity of the flexible end of first flexible driving piece (7) correspond, through connecting rod (9) fixed connection between adjacent shutoff board (8), polylith shutoff board (8) are used for along with the extension of the flexible end of first flexible driving piece (7) and a plurality of discharge gate (6) that the shutoff corresponds to for along with the flexible end of first flexible driving piece (7) return and open a plurality of discharge gate (6) that correspond.
3. An alloy particle screening apparatus according to claim 2, wherein: the connecting rods (9) are located on one side of the discharge hole (6).
4. An alloy particle screening apparatus according to claim 1, wherein: every filter (5) all with screening case (4) inner wall detachably fixed connection.
5. An alloy particle screening apparatus according to claim 1, wherein: the screening box is characterized by further comprising a driving assembly connected with the screening box (4), and the driving assembly is used for driving the screening box (4) to obliquely swing up and down around the connecting piece (3).
6. An alloy particle screening apparatus according to claim 5, wherein: the drive assembly comprises a second telescopic driving piece (10), a support rod (11), a guide rod (12) and a traction rope (13), the guide rod (12) and the traction rope (13) are arranged on the support rod (11), the telescopic end of the second telescopic driving piece (10) faces upwards, the traction rope (13) bypasses the guide rod (12) from the top of the guide rod (12), one end of the traction rope (13) is connected with the telescopic end of the second telescopic driving piece (10), and the other end of the traction rope is connected with the lower portion of the screening box (4).
7. An alloy particle screening apparatus according to claim 6, wherein: the guide rod (12) is of a rotating roller structure, and the guide rod (12) is rotatably connected with the support rod (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121552393.9U CN215088788U (en) | 2021-07-08 | 2021-07-08 | Alloy particle screening device |
Applications Claiming Priority (1)
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CN202121552393.9U CN215088788U (en) | 2021-07-08 | 2021-07-08 | Alloy particle screening device |
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CN215088788U true CN215088788U (en) | 2021-12-10 |
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CN202121552393.9U Active CN215088788U (en) | 2021-07-08 | 2021-07-08 | Alloy particle screening device |
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2021
- 2021-07-08 CN CN202121552393.9U patent/CN215088788U/en active Active
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