CN212524529U - Cullet edulcoration device of high-efficient separation non ferrous metal - Google Patents
Cullet edulcoration device of high-efficient separation non ferrous metal Download PDFInfo
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- CN212524529U CN212524529U CN202020599321.9U CN202020599321U CN212524529U CN 212524529 U CN212524529 U CN 212524529U CN 202020599321 U CN202020599321 U CN 202020599321U CN 212524529 U CN212524529 U CN 212524529U
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- cullet
- impurity removing
- ferrous metal
- edulcoration
- edulcoration device
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Abstract
The utility model discloses a cullet edulcoration device of high-efficient separation non ferrous metal, the reciprocating impact tunnel drilling machine comprises a machine body, fuselage below four corners is fixed with the support column respectively, the bottom welding clamping plate of support column, set up the edulcoration chamber in the fuselage, the feed inlet is seted up to edulcoration chamber upper end, the side of feed inlet sets up shelters from the lid in the fuselage top, the bearing platform is seted up to the side in edulcoration chamber, sets up the feeding subassembly on the bearing platform. The utility model relates to a cullet edulcoration device of high-efficient separation non ferrous metal guarantees that the material slowly expects in proper order, avoids the material to pile up, unable discernment when detecting, improves defeated material efficiency, through the influence to the bracing piece when setting up supporting spring reduction vibration on the bracing piece, relative stability when guaranteeing the vibration, the cullet layer is thin, even, be favorable to copper, non ferrous metal impurity such as aluminium under the strong reaction of eddy current magnetism, with the separation of cullet piece, it reaches more than 96% to select separately the effect, the reinforcing separation effect, the improvement cullet quality.
Description
Technical Field
The utility model relates to a cullet edulcoration technical field of non ferrous metal specifically is a cullet edulcoration device of high-efficient separation non ferrous metal.
Background
Non-ferrous metal impurities such as aluminum, copper covers and the like in the cullet can not be sucked out through the strong magnet, the impurities are frequently missed to be detected through manual picking, and the impurities are introduced into the melted glass batch to greatly influence the quality of the glass bottle. Particularly, after the glass bottle is lightened, higher requirements are put on the processing quality of the cullet.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a cullet edulcoration device of high-efficient separation non ferrous metal guarantees that the material slowly expects in proper order, avoids the material to pile up, and unable discernment improves defeated material efficiency when detecting, through the influence to the bracing piece when setting up supporting spring reduction vibration on the bracing piece, relative stability when guaranteeing the vibration, the cullet layer is thin, even. The separation of non-ferrous metal impurities such as copper, aluminum and the like from the cullet under the reaction of eddy current magnetic strength is facilitated, the separation effect reaches over 96 percent, the separation effect is improved, the collection is convenient, and the problems in the prior art are solved.
In order to achieve the above object, the utility model provides a following technical scheme: a cullet impurity removing device for efficiently separating nonferrous metals comprises a machine body, wherein support columns are respectively fixed at four corners below the machine body, a pressure stabilizing plate is welded at the bottom ends of the support columns, an impurity removing cavity is arranged in the machine body, a feed inlet is formed in the upper end of the impurity removing cavity, a shielding cover is arranged at the side end of the feed inlet above the machine body, a bearing table is formed at the side end of the impurity removing cavity, a feeding assembly is arranged on the bearing table,
the feeding assembly comprises a supporting rod, a vibrator, a connecting rod, a screening disc and a material conveying disc, the vibrator is fixed above the supporting rod, the upper part of the vibrator is connected with the screening disc through the connecting rod, the front end of the screening disc is connected with the material conveying disc in a seamless mode, the lower end of the material conveying disc is arranged above the feeding hole, and an impurity removing device is arranged in an impurity removing cavity below the feeding hole;
the impurity removing device comprises a magnetic roller, a sorting roller, a motor, an output belt, a flow distribution plate and a support plate, wherein one end of the magnetic roller is connected with an output shaft of the motor, the motor is fixed at the side end of the support plate, the output belt is sleeved on the magnetic roller, the other end of the output belt is sleeved on the sorting roller, and the flow distribution plate is fixed on an impurity removing cavity at the side end of the magnetic roller.
Preferably, the impurity removing cavity is provided with an auxiliary discharge port at a position below the impurity removing device, and the auxiliary discharge port is a cullet blanking port.
Preferably, an inclined guide chute is formed in the side end of the impurity removing cavity, a flow distribution plate is fixed on one side of the upper end of the inclined guide chute, and an outlet below the inclined guide chute is connected with a non-ferrous metal impurity outlet.
Preferably, four groups of support rods are arranged, and support springs are sleeved on the outer sides of the four groups of support rods.
Preferably, the material conveying disc is in an inclined shape, the upper end of the material conveying disc is connected with the material screening disc in a seamless mode, the lower end of the material conveying disc is arranged above the feeding hole, and the width of the material conveying disc is smaller than that of the feeding hole.
Compared with the prior art, the beneficial effects of the utility model are as follows:
1. the utility model relates to a cullet edulcoration device of high-efficient separation non ferrous metal, place the material of the edulcoration of wanting in the sieve charging tray, when putting into the material, the vibrator starts to drive the sieve charging tray and vibrates, make the material slide to the defeated charging tray in the sieve charging tray, in slowly carrying the feed inlet through the vibration, carry on the edulcoration device through the stock guide of feed inlet below, carry out defeated material through the mode of vibration, guarantee that the material slowly expects in proper order, avoid the material to pile up, unable discernment when detecting, improve defeated material efficiency, through set up the influence to the bracing piece when supporting spring reduces the vibration on the bracing piece, relative stability when guaranteeing the vibration.
2. The utility model relates to a cullet edulcoration device of high-efficient separation non ferrous metal, when the magnetic roll side motor spindle circular telegram was rotated at a high speed, select separately the strong magnetic field that the roller surface produced the high frequency alternation, when having electrically conductive aluminium, copper, zinc etc. when passing through magnetic field, can induce out eddy current in non ferrous metal, this eddy current itself can produce the magnetic field opposite with former magnetic field direction, non ferrous metal such as copper, aluminium can fly forward along its output direction because of the repulsion force effect of magnetic field, from the flow distribution plate landing after being blockked by fuselage shell, separate out from the non ferrous metal impurity export through the guide of oblique baffle box, in the output belt transportation, cullet directly drops at the output belt port, influenced by gravity, directly fall into the vice discharge gate between flow distribution plate and the magnetic roll, thereby realize copper, non ferrous metal impurity such as aluminium separates with the glass piece, it reaches more than 96% to select separately the effect, improve the separation effect and is convenient to collect.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic structural view of the feeding assembly of the present invention;
FIG. 3 is a sectional view of the overall structure of the present invention;
fig. 4 is a top view of the overall structure of the present invention;
fig. 5 is a side sectional view of the structure of the impurity removing device of the present invention.
In the figure: 1. a body; 11. a support pillar; 111. a pressure stabilizing plate; 12. an impurity removal cavity; 121. an auxiliary discharge port; 122. An inclined guide chute; 123. a non-ferrous metal impurity outlet; 13. a feed inlet; 14. a shielding cover; 15. a bearing table; 2. a feed assembly; 21. a support bar; 211. a support spring; 22. a vibrator; 23. a connecting rod; 24. screening the material plate; 25. a material conveying disc; 3. an impurity removal device; 31. a magnetic roller; 32. a sorting roller; 33. a motor; 34. outputting the tape; 35. a flow distribution plate; 36. and a support plate.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-2, a cullet impurity removing device for efficiently separating nonferrous metals comprises a machine body 1, wherein support columns 11 are respectively fixed at four corners below the machine body 1, a pressure stabilizing plate 111 is welded at the bottom ends of the support columns 11, an impurity removing cavity 12 is arranged in the machine body 1, a feed inlet 13 is arranged at the upper end of the impurity removing cavity 12, a shielding cover 14 is arranged above the machine body 1 at the side end of the feed inlet 13, a bearing table 15 is arranged at the side end of the impurity removing cavity 12, a feeding assembly 2 is arranged on the bearing table 15, the feeding assembly 2 comprises a support rod 21, a vibrator 22, a connecting rod 23, a sieve tray 24 and a material conveying tray 25, the vibrator 22 is fixed above the support rod 21, the upper portion of the vibrator 22 is connected with the sieve tray 24 through the connecting rod 23, the material conveying tray 25 is connected at the front end of the sieve tray 24 in a seamless manner, the lower end of the material conveying tray, defeated charging tray 25 is the type form to one side, upper end and sieve charging tray 24 seamless connection, the lower extreme sets up in feed inlet 13 top, and the width of defeated charging tray 25 is less than feed inlet 13, place the material of the edulcoration of wanting in the sieve charging tray 24, when putting into the material, vibrator 22 starts to drive sieve charging tray 24 and vibrates, make the material slide to defeated charging tray 25 in sieve charging tray 24, slowly carry in feed inlet 13 through the vibration, carry on edulcoration device 3 through the stock guide of feed inlet 13 below, carry out the defeated material through the mode of vibration, guarantee that the material slowly delivers the material in proper order, avoid the material to pile up, unable discernment when examining, improve defeated material efficiency, through set up the influence to bracing piece 21 when supporting spring 211 reduces the vibration on bracing piece 21, relative stability when guaranteeing the vibration.
Referring to fig. 3-5, an impurity removing device 3 is disposed in an impurity removing chamber 12 below a feeding port 13, the impurity removing device 3 includes a magnetic roller 31, a sorting roller 32, a motor 33, an output belt 34, a splitter plate 35 and a supporting plate 36, one end of the magnetic roller 31 is connected with an output shaft of the motor 33, the motor 33 is fixed at a side end of the supporting plate 36, the magnetic roller 31 is sleeved with the output belt 34, the other end of the output belt 34 is sleeved on the sorting roller 32, the splitter plate 35 is fixed on the impurity removing chamber 12 at a side end of the magnetic roller 31, an auxiliary discharging port 121 is disposed at a position below the impurity removing device 3 in the impurity removing chamber 12, the auxiliary discharging port 121 is a cullet discharging port, an inclined guide chute 122 is disposed at a side end of the impurity removing chamber 12, the splitter plate 35 is fixed at one side of an upper end of the inclined guide chute 122, an outlet below the inclined guide chute 122 is connected with a nonferrous, when materials are conveyed, the motor 33 is started, after the iron is adsorbed by the output belt 34, when the main shaft of the motor 33 at the side end of the magnetic roller 31 is electrified and rotates at a high speed, the surface of the sorting roller 32 generates a high-frequency alternating strong magnetic field, when aluminum and copper with conductivity pass through the magnetic field, eddy current is induced in nonferrous metals, the eddy current can generate a magnetic field with the direction opposite to the original magnetic field, the nonferrous metals such as copper and aluminum can fly forwards along the output direction due to the repulsive force of the magnetic field, slide down from the flow distribution plate 35 after being blocked by the shell of the machine body 1, are separated from the nonferrous metal impurity outlet 123 through the material guide of the inclined material guide groove 122, and during the transportation of the output belt 34, the nonmetallic materials directly fall at the port of the output belt 34 and are influenced by gravity and directly fall into the auxiliary discharge port 121 between the flow distribution plate 35 and the magnetic roller 31, so that the separation of the, the separation effect reaches more than 96 percent, the separation effect is improved, and the collection is convenient.
In summary, the following steps: the utility model discloses cullet edulcoration device of high-efficient separation non ferrous metal, place the material of the edulcoration of wanting in the sieve charging tray 24, when putting into the material, vibrator 22 starts to drive sieve charging tray 24 and vibrates, make the material slide from sieve charging tray 24 to the defeated charging tray 25, in slowly carrying the feed inlet 13 through the vibration, carry on edulcoration device 3 through the stock guide below feed inlet 13, carry on the defeated material through the mode of vibration, guarantee the material slowly defeated material in proper order, avoid the material to pile up, unable discernment when examining, improve defeated material efficiency, reduce the influence to bracing piece 21 when vibrating through set up supporting spring 211 on bracing piece 21, relative stability when guaranteeing to vibrate, when magnetic roller 31 side motor 33 main shaft circular telegram high-speed rotates, sorting roller 32 surface produces the strong magnetic field of high frequency alternation, when having electrically conductive aluminium, copper metal when passing through the magnetic field, eddy current can be induced in non-ferrous metal, the eddy current can generate a magnetic field opposite to the original magnetic field, non-ferrous metal such as copper and aluminum can fly forward along the output direction due to the repulsive force of the magnetic field, and slide down from the splitter plate 35 after being blocked by the shell of the machine body 1, and are separated from the non-ferrous metal impurity outlet 123 through the guide of the inclined guide chute 122, non-metallic materials directly drop at the port of the output belt 34 in the transportation of the output belt 34 and are influenced by gravity, and directly fall into the auxiliary discharge port 121 between the splitter plate 35 and the magnetic roller 31, so that the separation of non-ferrous metal impurities such as copper and aluminum from glass blocks is realized, the separation effect reaches more than 96%, the separation effect is enhanced, and the quality of broken glass is improved.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (5)
1. The utility model provides a cullet edulcoration device of high-efficient separation non ferrous metal, includes fuselage (1), its characterized in that: the machine body is characterized in that supporting columns (11) are respectively fixed at four corners below the machine body (1), a pressure stabilizing plate (111) is welded at the bottom ends of the supporting columns (11), an impurity removing cavity (12) is arranged in the machine body (1), a feeding hole (13) is formed in the upper end of the impurity removing cavity (12), a shielding cover (14) is arranged at the side end of the feeding hole (13) above the machine body (1), a bearing table (15) is formed at the side end of the impurity removing cavity (12), a feeding assembly (2) is arranged on the bearing table (15),
the feeding assembly (2) comprises a supporting rod (21), a vibrator (22), a connecting rod (23), a screening tray (24) and a conveying tray (25), the vibrator (22) is fixed above the supporting rod (21), the upper part of the vibrator (22) is connected with the screening tray (24) through the connecting rod (23), the front end of the screening tray (24) is connected with the conveying tray (25) in a seamless mode, the lower end of the conveying tray (25) is arranged above the feeding hole (13), and an impurity removing device (3) is arranged in an impurity removing cavity (12) below the feeding hole (13);
impurity removal device (3) are including magnetism roller (31), select separately roller (32), motor (33), output belt (34), flow distribution plate (35) and backup pad (36), the one end and motor (33) output shaft of magnetism roller (31), motor (33) are fixed in backup pad (36) side, cover on magnetism roller (31) attaches output belt (34), output belt (34) other end cover attaches on selecting separately roller (32), fixed flow distribution plate (35) on impurity removal chamber (12) of the side of magnetism roller (31).
2. The cullet edulcoration device for efficiently separating nonferrous metals according to claim 1, wherein: the impurity removing cavity (12) is provided with an auxiliary discharge hole (121) at the position below the impurity removing device (3), and the auxiliary discharge hole (121) is a cullet blanking hole.
3. The cullet edulcoration device for efficiently separating nonferrous metals according to claim 1, wherein: an inclined guide chute (122) is formed in the side end of the impurity removing cavity (12), a flow distribution plate (35) is fixed to one side of the upper end of the inclined guide chute (122), and an outlet below the inclined guide chute (122) is connected with a non-ferrous metal impurity outlet (123).
4. The cullet edulcoration device for efficiently separating nonferrous metals according to claim 1, wherein: the support rods (21) are provided with four groups, and the outer sides of the four groups of support rods (21) are sleeved with support springs (211).
5. The cullet edulcoration device for efficiently separating nonferrous metals according to claim 1, wherein: the material conveying disc (25) is in an inclined shape, the upper end of the material conveying disc is connected with the sieve material disc (24) in a seamless mode, the lower end of the material conveying disc is arranged above the feeding hole (13), and the width of the material conveying disc (25) is smaller than that of the feeding hole (13).
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CN202020599321.9U CN212524529U (en) | 2020-04-20 | 2020-04-20 | Cullet edulcoration device of high-efficient separation non ferrous metal |
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CN202020599321.9U CN212524529U (en) | 2020-04-20 | 2020-04-20 | Cullet edulcoration device of high-efficient separation non ferrous metal |
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CN212524529U true CN212524529U (en) | 2021-02-12 |
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