CN222857498U - Nodular cast iron section bar processing is with dust collecting equipment that polishes - Google Patents

Abstract

The utility model discloses a grinding and dust removal device for processing ductile iron profiles, comprising a base, an adjusting component is arranged on the base, the ductile iron profile is arranged in the adjusting component, a processing component is arranged on one side of the adjusting component, a dust removal component is arranged on the processing component, the dust removal component is in contact with the ductile iron profile, and part of the dust removal component is arranged at one end of the base. By arranging the processing component, the inside and the outside of the ductile iron profile can be grinded simultaneously, so that the grinding processing effect and efficiency of the ductile iron profile can be guaranteed, and at the same time, by cooperating with the adjusting component, the ductile iron profile can be grinded at multiple angles during the processing, so that the grinding effect can be further guaranteed, and by arranging the dust removal component, the effect of dust removal while grinding can be achieved during the grinding process, so as to avoid flying of metal debris caused by grinding and causing harm to the staff.

Description

Nodular cast iron section bar processing is with dust collecting equipment that polishes

Technical Field

The utility model relates to the technical field of ductile cast iron profile machining, in particular to polishing and dedusting equipment for ductile cast iron profile machining.

Background

The cast iron pipe of the polishing and dedusting equipment for processing the nodular cast iron section is a tubular cast iron section in the cast iron section of the polishing and dedusting equipment for processing the nodular cast iron section, when the cast iron section is polished and processed, the cast iron section is polished and dedusted with the polishing and dedusting equipment, and the inner surface is polished by inserting a rotating grinding rod into the cast iron pipe, and the polishing and dedusting equipment for processing the nodular cast iron section can not simultaneously polish and dedust the polished nodular cast iron section in the use process, so that the polishing and dedusting efficiency is lower, namely, the polishing and dedusting efficiency is mainly divided into the polishing and the internal surface of the nodular cast iron section.

For the problems in the related art, no effective solution has been proposed at present.

Disclosure of utility model

Aiming at the problems in the related art, the utility model provides polishing and dedusting equipment for processing ductile cast iron sections, which aims to overcome the technical problems in the prior art.

For this purpose, the utility model adopts the following specific technical scheme:

The utility model provides a nodular cast iron section bar processing is with dust collecting equipment that polishes, includes the base, is provided with adjusting part on the base, is provided with nodular cast iron section bar in the adjusting part, and one side of adjusting part is provided with processing subassembly, is provided with dust collecting component on the processing subassembly, and dust collecting component contacts with nodular cast iron section bar, and dust collecting component's part sets up the one end at the base.

Further, for better carries out the multi-angle to nodular cast iron section bar and adjusts, adjusting part includes first motor, and first motor passes through the bolt mounting in one side of base, and the output shaft of first motor is provided with first dwang through the shaft coupling, and fixed being provided with on the first dwang places the seat, and the both sides of placing the seat are provided with the second motor through the support frame.

Further, the output shaft of second motor is provided with first adjusting gear, and the meshing is connected with second adjusting gear on the first adjusting gear, is provided with the second dwang on the second adjusting gear, and the one end of second dwang runs through the seat of placing, is provided with a plurality of transport leading wheels on the second dwang, has seted up the standing groove on the seat of placing, and carries the leading wheel setting in the standing groove, and carries the leading wheel and contact with nodular cast iron section bar.

Further, for better assurance is polished simultaneously to a plurality of positions of nodular cast iron section bar, and processing subassembly includes a plurality of electric putter, and electric putter sets up in the one side of placing the seat, and electric putter's removal end is provided with down the briquetting, and the briquetting sets up to hollow structure down, is provided with a plurality of adjusting spring and telescopic link on the briquetting down, and adjusting spring is provided with the polishing piece with the one end of telescopic link.

Further, processing subassembly still includes a plurality of fixing bases, and the fixing base symmetry sets up on the base, is provided with the third motor through the mounting bracket on the fixing base, and the output shaft on the third motor is provided with threaded rod and guide bar through the shaft coupling, is connected with on threaded rod and the guide bar and removes the seat, removes and is provided with the fourth motor on the seat.

Further, the output shaft of the fourth motor is provided with a third adjusting gear, a plurality of adjusting racks are connected to the third adjusting gear in a meshed mode, a polishing roller is arranged on the adjusting racks, and the polishing roller is of a hollow structure.

Further, in order to better assurance dust removal effect, the dust removal subassembly includes the delivery pump, and the delivery pump sets up on the base, and the delivery pump is that the input is connected with the conveyer pipe, and the one end of conveyer pipe is connected with first shunt tubes, and the one end and the briquetting of first shunt tubes are connected down, and first shunt tubes are linked together with the briquetting is inside down, has seted up a plurality of input holes on the briquetting down.

Further, the conveying pipe is connected with a second shunt pipe, the second shunt pipe is connected to the polishing roller, the second shunt pipe is communicated with the inside of the polishing roller, the polishing roller is connected with a plurality of collecting covers, the conveying pipe is connected with a filter box, the filter box is connected with an output pipe, and the output end of the conveying pump is connected with an output pipe.

The utility model has the beneficial effects that the inside and the outside of the nodular cast iron section can be polished simultaneously by arranging the processing assembly, so that the polishing processing effect and efficiency of the nodular cast iron section can be ensured, and meanwhile, the nodular cast iron section can be polished at a plurality of angles in the processing process by being mutually matched with the adjusting assembly, so that the polishing effect can be further ensured, and the polishing and dedusting effects can be carried out simultaneously in the polishing process by arranging the dedusting assembly, so that the flying of polished metal scraps is avoided, and the injury to workers is caused.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a polishing and dedusting device for processing ductile iron sections according to an embodiment of the present utility model;

Fig. 2 is a schematic structural diagram II of a polishing and dedusting device for processing ductile iron sections according to an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of an adjusting assembly of a polishing and dedusting device for processing ductile iron sections according to an embodiment of the present utility model;

fig. 4 is a schematic diagram II of a polishing and dedusting equipment adjusting assembly for processing ductile iron sections according to an embodiment of the present utility model;

fig. 5 is a schematic diagram of a processing assembly of a polishing and dedusting device for processing ductile iron sections according to an embodiment of the present utility model;

fig. 6 is a schematic diagram II of a polishing and dedusting device processing assembly for processing ductile iron sections according to an embodiment of the present utility model;

Fig. 7 is a schematic structural diagram of a dust removing assembly of a polishing and dedusting device for processing ductile iron sections according to an embodiment of the present utility model.

In the figure:

1. The device comprises a base, a 2, an adjusting assembly, 201, a first motor, 202, a first rotating rod, 203, a placing seat, 204, a second motor, 205, a first adjusting gear, 206, a second adjusting gear, 207, a second rotating rod, 208, a conveying guide wheel, 3, a nodular cast iron section bar, 4, a processing assembly, 401, an electric push rod, 402, a pressing block, 403, an adjusting spring, 404, a telescopic rod, 405, a polishing block, 406, a fixing seat, 407, a third motor, 408, a threaded rod, 409, a guide rod, 410, a moving seat, 411, a fourth motor, 412, a third adjusting gear, 413, an adjusting rack, 414, a polishing roller, 5, a dust removing assembly, 501, a conveying pump, 502, a conveying pipe, 503, a first shunt pipe, 504, an input hole, 505, a second shunt pipe, 506, a collecting cover, 507, a filter box, 6, a placing groove, 7 and an output pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

According to the embodiment of the utility model, polishing and dedusting equipment for processing ductile cast iron sections is provided.

Embodiment one;

As shown in fig. 1 to 7, according to an embodiment of the present utility model, a polishing and dedusting device for processing a spheroidal graphite cast iron section bar includes a base 1, an adjusting component 2 is disposed on the base 1, for performing multi-angle adjustment on the spheroidal graphite cast iron section bar 3, the spheroidal graphite cast iron section bar 3 is disposed in the adjusting component 2, a processing component 4 is disposed on one side of the adjusting component 2, for polishing the spheroidal graphite cast iron section bar 3, a dedusting component 5 is disposed on the processing component 4, for dedusting polished metal scraps, the dedusting component 5 is in contact with the spheroidal graphite cast iron section bar 3, and a part of the dedusting component 5 is disposed at one end of the base 1;

The processing assembly 4 comprises two electric push rods 401, the electric push rods 401 are arranged on one side of the placing seat 203, a lower pressing block 402 is arranged at the moving end of each electric push rod 401, the lower pressing block 402 is of a hollow structure, a plurality of adjusting springs 403 and telescopic rods 404 are arranged on the lower pressing block 402, and polishing blocks 405 are arranged at one ends of the adjusting springs 403 and the telescopic rods 404;

The processing subassembly 4 still includes a plurality of fixing bases 406, the fixing bases 406 symmetry sets up on base 1, be provided with third motor 407 through the mounting bracket on the fixing bases 406, output shaft on the third motor 407 is provided with threaded rod 408 and guide bar 409 through the shaft coupling, be connected with on threaded rod 408 and the guide bar 409 and remove seat 410, be provided with fourth motor 411 on removing seat 410, the output shaft of fourth motor 411 is provided with third adjusting gear 412, the meshing is connected with a plurality of adjusting rack 413 on the third adjusting gear 412, and adjusting rack 413 connects on removing seat 410, be provided with grinding roller 414 on the adjusting rack 413, grinding roller 414 sets up to hollow structure.

In practical application, when the nodular cast iron section 3 needs to be polished, the nodular cast iron section 3 is placed in the placing seat 203, then the electric push rod 401 is started through the external controller, then the moving end of the electric push rod 401 drives the lower pressing block 402 to move from top to bottom, so that the nodular cast iron section 3 is limited, the adjusting spring 403, the telescopic rod 404 and the polishing block 405 are mutually matched to ensure the polishing effect during limiting, then the third motor 407 is started through the external controller, then the output shaft of the third motor 407 drives the threaded rod 408 to rotate, then the moving seat 410 moves on the threaded rod 408 and the guide rod 409, so that the polishing roller 414 on the moving seat 410 is driven to enter the nodular cast iron section 3, then the fourth motor 411 is started through the external controller, then the fourth motor 411 drives the third adjusting gear 412 to rotate, then the third adjusting gear 412 is mutually meshed with the two adjusting racks to drive the polishing roller 414 to move, so that the inner diameter of the nodular cast iron section 3 can be limited, and the inside and outside of the nodular cast iron section 3 can be polished simultaneously through the mutual matching with the adjusting component 2, so that the processing efficiency of the nodular cast iron section 3 can be ensured.

Embodiment two;

As shown in fig. 1 to 7, according to an embodiment of the present utility model, an adjusting assembly 2 includes a first motor 201, the first motor 201 is mounted on one side of a base 1 through a bolt, an output shaft of the first motor 201 is provided with a first rotating rod 202 through a coupling, a placing seat 203 is fixedly provided on the first rotating rod 202, two sides of the placing seat 203 are provided with a second motor 204 through a supporting frame, an output shaft of the second motor 204 is provided with a first adjusting gear 205, a second adjusting gear 206 is engaged and connected on the first adjusting gear 205, a second rotating rod 207 is provided on the second adjusting gear 206, one end of the second rotating rod 207 penetrates through the placing seat 203, a plurality of conveying guide wheels 208 are provided on the second rotating rod 207, a placing groove 6 is provided on the placing seat 203, the conveying guide wheels 208 are provided in the placing groove 6, and the conveying guide wheels 208 are in contact with the spheroidal graphite cast iron section 3.

In practical application, when the polished nodular cast iron section 3 is required to be output, the first motor 201 is started through the external controller, and then the output shaft of the first motor 201 drives the first rotating rod 202 to rotate ninety degrees to enable the placing seat 203 to incline, so that the nodular cast iron section 3 in the placing seat 203 can be taken out;

When polishing and dedusting treatment is required to be carried out on a plurality of positions of the spheroidal graphite cast iron section bar 3, the second motor 204 is started through an external controller, then the output shaft of the second motor 204 drives the first adjusting gear 205 to rotate, then the first adjusting gear 205 and the second adjusting gear 206 are meshed with each other to drive the second rotating rod 207 to rotate, then the conveying guide wheel 208 on the second rotating rod 207 is rotated, and multi-range polishing and dedusting are carried out on the restrained spheroidal graphite cast iron section bar 3.

Embodiment three;

As shown in fig. 1-7, according to the polishing and dedusting device for processing spheroidal graphite cast iron section bar in the embodiment of the utility model, the dedusting assembly 5 comprises a conveying pump 501, the conveying pump 501 is arranged on the base 1, an input end of the conveying pump 501 is connected with a conveying pipe 502, one end of the conveying pipe 502 is connected with a first shunt pipe 503, one end of the first shunt pipe 503 is connected with a lower pressing block 402, the first shunt pipe 503 is communicated with the interior of the lower pressing block 402, a plurality of input holes 504 are formed in the lower pressing block 402, a second shunt pipe 505 is connected on the conveying pipe 502, the second shunt pipe 505 is connected on a polishing roller 414, the second shunt pipe 505 is communicated with the interior of the polishing roller 414, a plurality of collecting covers 506 are connected on the polishing roller 414, a filter box 507 is connected on the conveying pipe 502, and an output end of the conveying pump 501 is connected with an output pipe 7.

In practical application, when flying objects are generated in the polishing treatment process of the nodular cast iron section 3, the external controller enables the conveying pump 501 to be started, then the conveying pump 501 generates suction force, then metal scraps generated by polishing are collected through the input holes 504 and the collecting cover 506 and then enter the first shunt pipe 503 and the second shunt pipe 505, and then the collected metal scraps are filtered through the mutual matching of the conveying pipe 502 and the filter box 507, so that the nodular cast iron section 3 can be subjected to collecting and dust removing treatment at a plurality of polishing positions.

In order to facilitate understanding of the above technical solutions of the present utility model, the following describes in detail the working principle or operation manner of the present utility model in the actual process.

In summary, by means of the above technical scheme of the present utility model, when the spheroidal graphite cast iron section 3 needs to be polished, the spheroidal graphite cast iron section 3 is placed in the placing seat 203, then the electric push rod 401 is started by the external controller, then the moving end of the electric push rod 401 drives the lower pressing block 402 to move from top to bottom, so as to limit the spheroidal graphite cast iron section 3, during limiting, the adjusting spring 403, the telescopic rod 404 and the polishing block 405 are mutually matched to ensure the polishing effect, then the external controller starts the third motor 407, then the output shaft of the third motor 407 drives the threaded rod 408 to rotate, then the moving seat 410 moves on the threaded rod 408 and the guide rod 409, so as to drive the polishing roller 414 on the moving seat 410 to enter the spheroidal graphite cast iron section 3, then the external controller starts the fourth motor 411, then the fourth motor 411 drives the third adjusting gear 412 to rotate, and then the third adjusting gear 412 is meshed with the two adjusting racks 413 to drive the polishing roller 414 to move, so as to limit the inner diameter of the spheroidal graphite cast iron section 3, and then the spheroidal graphite cast iron section 3 can be polished simultaneously by being mutually matched with the adjusting component 2, so as to ensure the polishing efficiency of the spheroidal graphite cast iron section 3;

When the polished nodular cast iron section bar 3 is required to be output, the first motor 201 is started through the external controller, and then the output shaft of the first motor 201 drives the first rotating rod 202 to rotate ninety degrees to enable the placing seat 203 to incline, so that the nodular cast iron section bar 3 in the placing seat 203 can be taken out;

When polishing and dedusting treatment is required to be carried out on a plurality of positions of the spheroidal graphite cast iron section bar 3, the second motor 204 is started through an external controller, then the output shaft of the second motor 204 drives the first adjusting gear 205 to rotate, then the first adjusting gear 205 and the second adjusting gear 206 are meshed with each other to drive the second rotating rod 207 to rotate, and then the conveying guide wheel 208 on the second rotating rod 207 is rotated to carry out multi-range polishing and dedusting on the restrained spheroidal graphite cast iron section bar 3;

When flying objects are generated in the polishing process of the nodular cast iron section 3, the external controller enables the conveying pump 501 to be started, then the conveying pump 501 generates suction force, then metal scraps generated by polishing are collected through the input holes 504 and the collecting cover 506 and then enter the first shunt pipe 503 and the second shunt pipe 505, and then the collected metal scraps are filtered through the mutual matching of the conveying pipe 502 and the filter box 507, so that the dust collection and removal process can be carried out on a plurality of polishing positions of the nodular cast iron section 3.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. A grinding and dust removal device for processing ductile iron profiles, characterized in that it comprises a base (1), an adjusting component (2) is arranged on the base (1), a ductile iron profile (3) is arranged in the adjusting component (2), a processing component (4) is arranged on one side of the adjusting component (2), a dust removal component (5) is arranged on the processing component (4), the dust removal component is in contact with the ductile iron profile (3), and part of the dust removal component (5) is arranged at one end of the base (1). 2. A grinding and dust removal equipment for ductile iron profile processing according to claim 1, characterized in that the adjustment component (2) includes a first motor (201), the first motor (201) is installed on one side of the base (1) by bolts, the output shaft of the first motor (201) is provided with a first rotating rod (202) through a coupling, a placement seat (203) is fixedly provided on the first rotating rod (202), and second motors (204) are provided on both sides of the placement seat (203) through support frames. 3. A grinding and dust removal equipment for processing ductile iron profiles according to claim 2, characterized in that the output shaft of the second motor (204) is provided with a first adjusting gear (205), the first adjusting gear (205) is meshedly connected with a second adjusting gear (206), the second adjusting gear (206) is provided with a second rotating rod (207), one end of the second rotating rod (207) passes through the placement seat (203), and the second rotating rod (207) is provided with a plurality of conveying guide wheels (208), the placement seat (203) is provided with a placement groove (6), and the conveying guide wheel (208) is arranged in the placement groove (6), and the conveying guide wheel (208) is in contact with the ductile iron profile (3). 4. A grinding and dust removal equipment for ductile iron profile processing according to claim 3, characterized in that the processing component (4) includes a plurality of electric push rods (401), the electric push rods (401) are arranged on one side of the placement seat (203), and the moving end of the electric push rod (401) is provided with a lower pressure block (402), and the lower pressure block (402) is arranged as a hollow structure, and a plurality of adjusting springs (403) and telescopic rods (404) are arranged on the lower pressure block (402), and a grinding block (405) is arranged at one end of the adjusting spring (403) and the telescopic rod (404). 5. A grinding and dust removal equipment for ductile iron profile processing according to claim 4, characterized in that the processing component (4) also includes a plurality of fixed seats (406), the fixed seats (406) are symmetrically arranged on the base (1), a third motor (407) is arranged on the fixed seat (406) through a mounting frame, the output shaft on the third motor (407) is provided with a threaded rod (408) and a guide rod (409) through a coupling, the threaded rod (408) and the guide rod (409) are connected to a movable seat (410), and a fourth motor (411) is arranged on the movable seat (410). 6. A grinding and dust removal equipment for ductile iron profile processing according to claim 5, characterized in that the output shaft of the fourth motor (411) is provided with a third adjusting gear (412), a plurality of adjusting racks (413) are meshed and connected to the third adjusting gear (412), a grinding roller (414) is provided on the adjusting rack (413), and the grinding roller (414) is configured as a hollow structure. 7. A grinding and dust removal equipment for ductile iron profile processing according to claim 6, characterized in that the dust removal component (5) includes a delivery pump (501), the delivery pump (501) is arranged on the base (1), the input end of the delivery pump (501) is connected to a delivery pipe (502), one end of the delivery pipe (502) is connected to a first diversion pipe (503), one end of the first diversion pipe (503) is connected to the lower pressure block (402), and the first diversion pipe (503) is connected to the inside of the lower pressure block (402), and a plurality of input holes (504) are provided on the lower pressure block (402). 8. A grinding and dust removal equipment for ductile iron profile processing according to claim 7, characterized in that a second shunt pipe (505) is connected to the conveying pipe (502), the second shunt pipe (505) is connected to the grinding roller (414), and the second shunt pipe (505) is connected to the inside of the grinding roller (414), a plurality of collecting hoods (506) are connected to the grinding roller (414), a filter box (507) is connected to the conveying pipe (502), and the output end of the filter box (507) and the conveying pump (501) is connected to an output pipe (7).