CN214416683U - Automatic deironing device of conveyer belt - Google Patents

Abstract

The utility model relates to an automatic deironing device of conveyer belt, it includes transport mechanism, magnet mechanism and deironing mechanism, magnet mechanism is connected with transport mechanism and is arranged in adsorbing the iron fillings in the raw materials, deironing mechanism is connected with transport mechanism, magnet mechanism includes magnetic component and two support frames, the support frame is connected with transport mechanism, magnetic component is including rotating magnet and two dwangs, the coaxial both ends at rotating magnet of dwang level are fixed, the one end that rotating magnet was kept away from to two dwangs passes the support frame and rotates with the support frame to be connected, deironing mechanism includes the connecting rod, connecting rod fixed connection is on the support frame, the connecting rod is fixed with the scraper blade along length direction level. When the raw materials move to under the rotation magnet along transport mechanism, rotate the iron fillings in the magnet to the raw materials and adsorb, when iron fillings reached certain thickness, iron removal mechanism scraped the iron fillings on the magnet mechanism. This application can in time get rid of the iron fillings on the magnet, improves the work efficiency of magnet.

Description

Automatic deironing device of conveyer belt

Technical Field

The application relates to a scrap iron separation field especially relates to an automatic deironing device of conveyer belt.

Background

Tiles have made the main material of building construction before reinforced concrete is widely used. Now, the tile is by fields such as wide application in ancient building, park and gardens, and the tile is generally fired by the clay and is formed, and specific production and processing process is including getting material, breakage, stirring, extrusion, tailor shaping and firing, because there is certain quality's ferric oxide in the clay, and colour and hardness can change after the shaping is fired to the tile, consequently need separate the ferric oxide in the clay.

At present, the Chinese patent application with the publication number of CN107755089A discloses a conveyor belt powder scrap iron removing device, which is arranged on a conveyor belt and comprises an outer cover with an opening at the bottom, wherein openings are arranged at two ends of the outer cover along the conveying direction of the conveyor belt; two scraping plates extending from two ends of the top of the outer cover to the middle of the bottom of the outer cover are obliquely arranged in the outer cover, a gap exists between the bottom ends of the two scraping plates, and a gap exists between the bottom ends of the scraping plates and the bottom of the outer cover; a stirring device is arranged between the bottom ends of the two scraping plates, and a magnetic plate is arranged above the stirring device. The powder gets into the dustcoat through the opening in, is strickleed off under first scraper blade, is strickleed off by the second scraper blade again when going out, is seamless between powder and the scraper blade bottom for the space between two scraper blades is sealed relatively in the dustcoat, can not cause the dust to scatter. Between two scrapers, the powder is rolled up under agitating unit's effect, and iron fillings therein are adsorbed by the magnetic sheet. The device can be placed on a conveyor belt, and can prevent dust from flying while achieving a good scrap iron removing effect. The invention has good scrap iron removing effect, can avoid dust flying and has certain practicability.

To the correlation technique among the above-mentioned, the inventor thinks that a large amount of iron fillings of gathering on the magnet, along with the thickness of iron fillings constantly increases, leads to the suction of magnet to iron fillings to weaken, and work efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to in time get rid of the iron fillings on the magnet, improve the work efficiency of magnet, this application provides an automatic deironing device of conveyer belt.

The application provides a pair of automatic deironing device of conveyer belt adopts following technical scheme:

the utility model provides an automatic deironing device of conveyer belt, includes transport mechanism, magnet mechanism and deironing mechanism, magnet mechanism is connected with transport mechanism and is arranged in adsorbing the iron fillings in the raw materials, deironing mechanism is connected with transport mechanism for strike off the iron fillings of deposit on will magnet the mechanism.

Through adopting above-mentioned technical scheme, transport mechanism conveys the raw materials that are used for making the tile, because inhale iron mechanism and transport mechanism and be connected, when the raw materials removed under inhaling iron mechanism, inhale iron mechanism and adsorb the iron fillings in the raw materials to the completion is to the separation of raw materials and iron fillings. When magnet in the magnet mechanism reaches certain thickness, iron removing mechanism strikes off the iron fillings in the magnet mechanism, conveniently separates the continuation of iron fillings, has improved the separation efficiency to iron fillings.

Optionally, it includes magnetic component, linkage subassembly and two support frames to inhale iron mechanism, the support frame is connected, two with transport mechanism the support frame is located the both sides of raw materials, magnetic component is including rotating magnet and two dwangs, the coaxial both ends of fixing at rotation magnet of dwang level, two the one end that rotates magnet is kept away from to the dwang passes the support frame and rotates with the support frame to be connected, the one end of linkage subassembly is connected with transport mechanism, transport mechanism's one end is kept away from to the linkage subassembly is connected with the dwang.

Through adopting above-mentioned technical scheme, the support frame supports rotating magnet, and rotating magnet adsorbs the iron fillings in to the raw materials, accomplishes the separation to raw materials and iron fillings, and transport mechanism drives rotating magnet through the linkage subassembly and rotates, and rotating magnet pivoted in-process iron fillings distribute on rotating magnet's surface uniformly, also make things convenient for striking off of mechanism iron fillings on rotating magnet simultaneously.

Optionally, the two rotating magnets are cylindrical, and the length direction of the rotating magnets is perpendicular to the moving direction of the raw materials.

Through adopting above-mentioned technical scheme, rotating magnet is cylindrical, conveniently strikes off the iron fillings on rotating magnet at rotating magnet pivoted in-process and fully strikes off to the mechanism.

Optionally, deironing mechanism includes the connecting rod, connecting rod fixed connection is on the support frame, the connecting rod is located one side that rotation magnet is close to raw materials source direction, the connecting rod is on a parallel with rotation magnet, the connecting rod is fixed with the scraper blade along length direction horizontal, one side that the connecting rod was kept away from to the scraper blade is close to in rotation magnet.

Through adopting above-mentioned technical scheme, the linkage subassembly drives and rotates magnet rotation, rotates the rotatory in-process scraper blade of magnet and scrapes the iron fillings of removing on the rotation magnet.

Optionally, the connecting rod is vertically downwards fixed with a first collecting plate along length direction, a collecting bottom plate is horizontally fixed on a side wall of the first collecting plate far away from the connecting rod, a second collecting plate is vertically upwards fixed on a side wall of the collecting bottom plate far away from the first collecting plate, baffles are fixed at two ends of the collecting bottom plate, and the baffles are fixedly connected with the first collecting plate and the second collecting plate.

Through adopting above-mentioned technical scheme, the iron fillings that the scraper blade hung down fall into on collecting the bottom plate to prevent that iron fillings from falling onto the raw materials.

Optionally, a plurality of diagonal rods are fixed on the connecting rod, the diagonal rods are arranged in a downward inclination manner towards a direction away from the rotating magnet, and a turning plate is fixed at one end of each diagonal rod away from the connecting rod.

Through adopting above-mentioned technical scheme, turn over the board and renovate the raw materials, conveniently rotate the absorption of magnet to iron fillings in the raw materials.

Optionally, transport mechanism includes two transverse bars, a conveyer belt and a drive motor, two transverse bar is parallel to each other, the support frame is fixed on two transverse bars, the equal vertical bracing piece that is fixed with downwards in both ends of transverse bar, two rotate between the transverse bar and be connected with a plurality of driving rollers, one transverse bar is passed to driving roller one end, the conveyer belt cover is established on the driving roller, drive motor passes through the belt and drives the driving roller rotation.

Through adopting above-mentioned technical scheme, drive motor passes through the belt drive driving roller and rotates, and driving roller pivoted in-process drives the conveyer belt and rotates to make the conveyer belt convey the raw materials.

Optionally, a dust cover is fixed on the two transverse rods, and the rotating rod penetrates through the dust cover.

Through adopting above-mentioned technical scheme, the dust cover prevents that the dust that the raw materials produced from spreading polluted environment in the air.

Optionally, a switch door is arranged on the side wall of the dust cover, and the switch door is located at a position close to the baffle.

Through adopting above-mentioned technical scheme, open the switch door and can collect the iron fillings on collecting the bottom plate.

Optionally, one the driving roller passes the one end coaxial fixation of transverse bar and has first gear, one the dwang is kept away from the one end coaxial fixation of rotation magnet and is had the second gear, first gear is connected through the chain with the second gear.

Through adopting above-mentioned technical scheme, the driving roller passes through first gear drive chain and removes, and the chain passes through the rotation magnet rotation of second gear drive, rotates the convenient scraper blade of magnet pivoted in-process and strikes off the iron fillings on rotating magnet.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the device, the scraping plate, the collecting bottom plate, the rotating magnet, the transmission motor, the transmission roller and the conveying belt are arranged, the transmission motor drives the transmission roller to rotate through the belt, the transmission roller drives the conveying belt to move, the rotating magnet adsorbs scrap iron in the raw materials in the rotating process when the raw materials on the conveying belt move to the position below the rotating magnet, the scraping plate scrapes the scrap iron on the rotating magnet in the rotating process of the rotating magnet, and the scrap iron falls onto the collection, so that the collection of the scrap iron is facilitated, and the separation efficiency of the scrap iron is improved;

2. the device of this application turns over the board through having set up, thereby turns over the board and renovate the raw materials and conveniently carry out abundant absorption to the iron fillings in the raw materials.

Drawings

Fig. 1 is a schematic structural diagram of an automatic iron removal device for a transmission belt according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an iron attracting mechanism in an automatic iron removing device of a conveyor belt according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of an iron removing mechanism in an automatic iron removing device of a conveyor belt according to an embodiment of the present application.

Description of reference numerals: 1. a transport mechanism; 11. a transverse bar; 12. a support bar; 13. a driving roller; 14. a conveyor belt; 15. a drive motor; 16. a dust cover; 17. opening and closing the door; 18. a handle; 2. an iron attracting mechanism; 21. a magnetic component; 211. rotating the magnet; 212. rotating the rod; 22. a linkage assembly; 221. a first gear; 222. a second gear; 223. a chain; 23. a support frame; 231. a vertical support bar; 232. a transverse support bar; 3. a deironing mechanism; 31. a connecting rod; 32. a squeegee; 33. a first collection plate; 34. a collection base plate; 35. a second collection plate; 36. a baffle plate; 37. a diagonal bar; 38. and (4) turning over the plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses automatic deironing device of conveyer belt. Referring to fig. 1 and 2, the automatic iron removing apparatus of the conveyor belt includes a conveying mechanism 1, an iron attracting mechanism 2, and an iron removing mechanism 3. The iron absorbing mechanism 2 is connected to the conveying mechanism 1, and the iron removing mechanism 3 is connected with the iron absorbing mechanism 2. Conveying mechanism 1 conveys the raw materials of preparation tile, and when the raw materials removed under magnet mechanism 2, magnet mechanism 2 adsorbed the iron fillings in the raw materials to the completion is to the separation of raw materials and iron fillings. When iron fillings on the iron absorbing mechanism 2 reached certain thickness, iron fillings on the iron absorbing mechanism 2 were struck off to deironing mechanism 3, and the convenience has improved the separation efficiency to iron fillings to the continuation separation of iron fillings and raw materials.

Referring to fig. 1, the transfer mechanism 1 includes two transverse rods 11 and a drive motor 15. Two transverse bar 11 are parallel to each other, and the equal vertical welding downwards in both ends of transverse bar 11 has bracing piece 12, is connected with a plurality of driving rollers 13 through the bearing rotation between two transverse bar 11, and the cover is equipped with conveyer belt 14 on the driving roller 13. One end of the driving roller 13 penetrates through the transverse rod 11, the driving motor 15 is fixed on the ground through a bolt, and the driving roller 13 is driven to rotate by the driving motor 15 through a belt. The driving roller 13 rotates to drive the conveyor belt 14 to rotate, so that the conveyor belt 14 conveys the raw materials. A dust cover 16 is fixed on the transverse rod 11 so as to prevent dust generated by raw materials from being transmitted to the air to pollute the environment.

Referring to fig. 2, the magnet mechanism 2 includes a magnet assembly 21, a linkage assembly 22, and two support brackets 23. The support frames 23 are connected with the transverse rod 11, the two support frames 23 are positioned on two sides of the raw materials, the magnetic component 21 is connected with the two support frames 23, one end of the linkage component 22 is connected with the magnetic component 21, and the other end of the linkage component 22 is connected with a driving roller 13.

Referring to fig. 2, the supporting frame 23 includes two vertical supporting rods 231 and a horizontal supporting rod 232, the two vertical supporting rods 231 are vertically welded on a horizontal rod 11, and the horizontal supporting rod 232 is horizontally welded on an end of the two vertical supporting rods 231 far away from the horizontal rod 11. The magnetic assembly 21 includes a rotating magnet 211 and two rotating rods 212, the rotating rods 212 are horizontally and coaxially welded at two ends of the rotating magnet 211, and one ends of the two rotating rods 212, which are far away from the rotating magnet 211, are rotatably connected with the transverse supporting rod 232 through a bearing and penetrate through the transverse supporting rod 232. The linkage assembly 22 includes a first gear 221 and a second gear 222, and the first gear 221 is coaxially fixed on the driving roller 13. The second gear 222 is coaxially fixed to the rotating rod 212, and the first gear 221 and the second gear 222 are connected by a chain 223. The rotary magnet 211 is cylindrical, and the length direction of the rotary magnet 211 is perpendicular to the moving direction of the raw material. The driving roller 13 drives the chain 223 to move through the first gear 221, the chain 223 drives the rotating magnet 211 to rotate through the second gear 222, and scrap iron on the rotating magnet 211 is scraped by the iron removing mechanism 3 conveniently in the rotating process of the rotating magnet 211.

Referring to fig. 2 and 3, the iron removing mechanism 3 includes a connecting rod 31, two ends of the connecting rod 31 are welded on two transverse supporting rods 232, and the connecting rod 31 is perpendicular to the transverse supporting rods 232. A scraper 32 is horizontally fixed to the connecting rod 31 along the length direction, and one side of the scraper 32 far from the connecting rod 31 is close to the rotating magnet 211. The scraper 32 scrapes off the iron pieces on the rotary magnet 211 while the rotary magnet 211 rotates.

Referring to fig. 3, a first collecting plate 33 is welded to the connecting rod 31 vertically downward along the length direction, a collecting bottom plate 34 is welded to a side wall of the first collecting plate 33 away from the connecting rod 31 horizontally, and a second collecting plate 35 is welded to a side wall of the collecting bottom plate 34 away from the first collecting plate 33 vertically upward. Baffle plates 36 are welded to both ends of the collecting bottom plate 34, and the baffle plates 36 are welded to the first collecting plate 33 and the second collecting plate 35. Scrap iron hanging from the scraper 32 falls onto the collection floor 34, thereby preventing scrap iron from falling onto the stock.

Referring to fig. 3, a plurality of inclined rods 37 are welded to the connecting rod 31, the inclined rods 37 are arranged to be inclined downwards in a direction away from the rotating magnet 211, and a flap 38 is welded to one end of each inclined rod 37 away from the connecting rod 31. The turning plate 38 renovates the raw materials, and the magnet 211 is convenient to rotate to adsorb iron filings in the raw materials.

Referring to fig. 1 and 3, the side wall of the dust cover 16 is provided with an opening and closing door 17, the opening and closing door 17 is located at a position close to the baffle 36, and a handle 18 is welded on the opening and closing door 17. The scrap iron on the collecting bottom plate 34 can be collected by opening the opening and closing door 17 through the handle 18.

The implementation principle of the automatic deironing device of this application embodiment is: the driving motor 15 drives the driving roller 13 to rotate through the belt, and the driving roller 13 drives the conveying belt 14 to move, so that the raw materials on the conveying belt 14 are conveyed. When the raw material on the conveyor belt 14 moves to the lower part of the rotating magnet 211, the rotating magnet 211 adsorbs iron filings in the raw material in the rotating process, the rotating magnet 211 scrapes the iron filings on the rotating magnet 211 by the scraper 32 in the rotating process, the iron filings fall on the collecting bottom plate 34, and the switch door 17 is opened by the handle 18 to collect the iron filings on the collecting bottom plate 34.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an automatic deironing device of conveyer belt which characterized in that: including transport mechanism (1), magnet mechanism (2) and deironing mechanism (3), magnet mechanism (2) are connected with transport mechanism (1) and are arranged in adsorbing the iron fillings in the raw materials, deironing mechanism (3) are connected with transport mechanism (1) for scrape off the iron fillings that deposit on magnet mechanism (2).

2. The automatic iron removal device of a conveyor belt according to claim 1, characterized in that: inhale indisputable mechanism (2) and include magnetic component (21), linkage subassembly (22) and two support frame (23), support frame (23) are connected, two with transport mechanism (1) support frame (23) are located the both sides of raw materials, magnetic component (21) are including rotating magnet (211) and two dwang (212), the coaxial both ends of rotating magnet (211), two of dwang (212) level are fixed the one end of keeping away from rotating magnet (211) is passed support frame (23) and is rotated with support frame (23) and be connected, the one end of linkage subassembly (22) is connected with transport mechanism (1), the one end that transport mechanism (1) was kept away from in linkage subassembly (22) is connected with dwang (212).

3. The automatic iron removal device of a conveyor belt according to claim 2, characterized in that: the two rotating magnets (211) are cylindrical, and the length direction of the rotating magnets (211) is perpendicular to the moving direction of the raw materials.

4. The automatic iron removal device of a conveyor belt according to claim 3, characterized in that: deironing mechanism (3) are including connecting rod (31), connecting rod (31) fixed connection is on support frame (23), connecting rod (31) are located one side that rotation magnet (211) are close to raw materials source direction, connecting rod (31) are on a parallel with rotation magnet (211), connecting rod (31) are fixed with scraper blade (32) along length direction horizontal fixation, one side that connecting rod (31) were kept away from in scraper blade (32) is close to rotation magnet (211).

5. The automatic iron removal device of a conveyor belt according to claim 4, characterized in that: connecting rod (31) are fixed with first collecting plate (33) along the vertical downward of length direction, a lateral wall that connecting rod (31) were kept away from in first collecting plate (33) is improved level and is fixed with collection bottom plate (34), collect bottom plate (34) and keep away from on the lateral wall of first collecting plate (33) vertical upwards be fixed with second collecting plate (35), the both ends of collecting bottom plate (34) all are fixed with baffle (36), baffle (36) and first collecting plate (33) and second collecting plate (35) fixed connection.

6. The automatic iron removal device of a conveyor belt according to claim 5, characterized in that: a plurality of inclined rods (37) are fixed on the connecting rod (31), the inclined rods (37) are arranged in a downward inclined mode towards the direction far away from the rotating magnet (211), and a turning plate (38) is fixed at one end, far away from the connecting rod (31), of each inclined rod (37).

7. The automatic iron removal device of a conveyor belt according to claim 6, characterized in that: transport mechanism (1) includes two transverse bar (11), a conveyer belt (14) and a drive motor (15), two transverse bar (11) are parallel to each other, support frame (23) are fixed on two transverse bar (11), the equal vertical bracing piece (12) that is fixed downwards in both ends of transverse bar (11), two rotate between transverse bar (11) and be connected with a plurality of driving rollers (13), transverse bar (11) is passed to driving roller (13) one end, conveyer belt (14) cover is established on driving roller (13), drive motor (15) drive driving roller (13) through the belt and rotate.

8. The automatic iron removal device of a conveyor belt according to claim 7, characterized in that: and dust covers (16) are fixed on the two transverse rods (11), and the rotating rod (212) penetrates through the dust covers (16).

9. The automatic iron removal device of a conveyor belt according to claim 8, characterized in that: the side wall of the dust cover (16) is provided with a switch door (17), and the switch door (17) is located at a position close to the baffle (36).

10. The automatic iron removal device of a conveyor belt according to claim 9, characterized in that: one the driving roller (13) penetrates through one end of the transverse rod (11) and is coaxially fixed with a first gear (221), one end, far away from the rotating magnet (211), of the rotating rod (212) is coaxially fixed with a second gear (222), and the first gear (221) is connected with the second gear (222) through a chain (223).

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