CN108437173B - Processing device for large-scale ceramic polygonal through hole regular packing - Google Patents

Abstract

the invention discloses a processing device for large ceramic polygonal through hole regular packing, which is characterized in that: including a fixed platform, vertical rotation is provided with the chuck on the fixed platform, the cartridge has the shaping cover on the chuck, be provided with a carousel on the lower extreme of chuck, the outer fringe equipartition of carousel has a plurality of commentaries on classics teeth, it is provided with the driving-disc to locate at the carousel below the fixed platform, be provided with one in the outer fringe of driving-disc and stir the post, the motion board has been arranged to fixed platform's top, be formed with multilateral star type track on the motion board, be provided with the actuating lever on the inside wall of motion board, it is provided with a pendulum rod subassembly to rotate on the outer end of actuating lever, the one end of pendulum rod subassembly is formed with spacing portion, the other end of pendulum rod subassembly is provided with a telescoping. The invention provides a processing device for a large-scale ceramic polygonal through hole regular packing, which improves the processing efficiency of the ceramic polygonal through hole regular packing through hole.

Description

Processing device for large-scale ceramic polygonal through hole regular packing

Technical Field

The invention relates to the field of chemical fillers, in particular to a processing device for large ceramic polygonal through hole regular fillers.

Background

The light porcelain filler is a novel efficient filler developed on the basis of original wood lattice fillers, random fillers and foam light porcelain fillers. The defects that the wood lattice filler is easy to corrode, the random packing is troublesome to install, the foam light filler (prepared by sintering quartz sand and other raw materials at low temperature) has high water absorption rate, and the weight is too high and the compressive strength is poor after water absorption are overcome. The product is used as filling material in the prior industries of gas, chemical engineering, chemical fertilizer and the like, such as naphthalene washing, ammonia washing, benzene washing, desulfurization, decarburization, hot water running and tower and direct cooling tower.

The ceramic washing link is a full light ceramic material which is massive, porous, large in specific surface area, light in specific gravity and regularly arranged in the tower. The upper layer and the lower layer in the installation tower are separated by self supporting legs, so that the air flow is uniformly distributed, the defects caused by random packing are overcome, the resistance is greatly reduced, and a certain liquid film is always kept on the surface of the packing in the mass transfer process to form good gas-liquid contact and the like. The all-ceramic combined filler is prepared by taking siliceous clay and combustible substances as main raw materials and performing various procedures of static treatment, and has the following advantages: acid resistance, alkali resistance, organic solvent resistance, high temperature resistance, good thermal stability, high compressive strength and bending resistance, regular arrangement, small operation resistance, low cost and convenient installation. This makes ceramic scrubbing links widely used in producer gas scrubbing towers; benzene washing, naphthalene washing and ammonia washing tower for coking gas; chemical fertilizerA hot water saturation tower, a decarburization tower and a desulfurization tower; CO in lime furnace₂The cleaning tower, oil refining and chemical engineering and ceramic washing link are especially suitable for extraction and fractionation process.

The conventional ceramic polygonal-shaped through hole structured packing comprises a packing body, wherein the packing body comprises a center ring and a plurality of groups of side rings, each group of side rings are arranged in the circumferential direction of the center ring in a relative mode, each side ring is connected with the outer wall of the center ring, and through holes penetrating through the center ring are formed in the same group of side rings. The production method of the regular packing of the ceramic polygonal through hole is characterized in that pug and water are mixed according to a certain proportion, a mould with a specific shape is installed on a ceramic extruder, the packing body is extruded and formed by the ceramic extruder, then the packing body is placed in a pore-forming mould manually, a through hole is formed in the through hole of the regular packing of the ceramic polygonal through hole on the pore-forming mould, a worker utilizes a steel wire to penetrate through the through hole on the pore-forming mould to realize the processing and forming of the through hole on the regular packing of the ceramic polygonal through hole, the through hole on the regular packing of the ceramic polygonal through hole cannot be directly extruded and formed by the ceramic extruder, the processing and forming process of the through hole is complicated, and the problem of low processing and forming efficiency of the regular packing of the ceramic polygonal through hole is solved.

Therefore, the chinese patent with the prior publication number CN 107030538A discloses a ceramic ferrule processing device and a ceramic ferrule production apparatus, which includes: the motor comprises an output shaft, and a mounting section is arranged at the free end of the output shaft; the mounting section is provided with a first positioning plate and a fastening piece; the cutter is disc-shaped and is used for grinding the excircle of the ceramic ferrule; the cutter is arranged on the mounting section of the output shaft; one end face of the cutter is matched with the first positioning plate, and the other end face of the cutter is connected with the fastener.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a processing device for large ceramic polygonal through hole regular packing, aiming at the current situation of the prior art, which can form large-size through holes on large all-ceramic, realize semi-automatic process for processing the ceramic polygonal through hole regular packing through holes and improve the processing efficiency of the ceramic polygonal through hole regular packing through holes.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a processingequipment of regular packing of polygonal flower shape through-hole of large-scale pottery which characterized in that: comprises a fixed platform, a chuck is vertically and rotationally arranged on the fixed platform, a central jack is arranged on the upper end surface of the chuck, a forming sleeve is inserted in the central jack, a penetrating hole matched with the outer wall of the regular packing of the ceramic polygonal through hole is vertically arranged on the forming sleeve, an inserting hole is arranged on the outer wall of the forming sleeve and is positioned at the corresponding position of the regular packing of the ceramic polygonal through hole, the lower end of the chuck penetrates through the fixed platform, a rotary disc is arranged on the lower end of the chuck, a plurality of rotary teeth are uniformly distributed on the outer edge of the rotary disc, a driving motor is arranged below the fixed platform and is positioned at the position of the rotary disc, a driving disc is arranged on an output shaft of the driving motor, a toggle column is arranged on the outer edge of the driving disc, regular motion plates and baffle plates are respectively and vertically arranged at the two sides of the regular packing of the ceramic polygonal through hole above, the utility model provides a polygonal star type track is formed with on the motion board with regular packing relative inside wall in ceramic multilateral flower-shaped through-hole, be provided with the actuating lever that one end links to each other with the rotation motor output shaft on the inside wall of motion board, it is provided with a pendulum rod subassembly to rotate on the outer end of actuating lever, the pendulum rod subassembly sets up the spliced pole in the actuating lever outer end including rotating, the one end of spliced pole is connected with first pendulum rod, the other end of spliced pole is connected with the second pendulum rod, the outer end of first pendulum rod is formed with a spacing portion of spacing in polygonal star type track, the outer end of second pendulum rod transversely is provided with a telescoping cylinder, the output of telescoping cylinder is provided with a transverse arrangement's processing pole, be formed with the recess with processing.

Preferably, the cross section of the outer wall of the ceramic polygonal through hole structured packing is circular or polygonal rhombus.

Preferably, the through holes on the ceramic polygonal-flower-shaped through hole structured packing are in a quadrilateral flower shape or a pentagonal flower shape, and correspondingly, the polygonal star-shaped track is a quadrilateral star-shaped track or a pentagonal star-shaped track.

Preferably, the cross-sectional shape of the outer wall of the processing rod is triangular.

In addition, be provided with the ball on the outer wall of chuck, be formed with the annular groove that is used for the ball to sit on the inner wall of fixed platform's central round hole, be provided with a terminal surface bearing between the lower terminal surface of chuck and the fixed platform.

In addition, the outer end of the processing rod is provided with a ball in a rolling mode.

Compared with the prior art, the invention has the advantages that: extruding a filler body without a through hole by an extruder, transporting the filler body to a fixed platform, positioning a worker at the fixed platform, taking a forming sleeve from a chuck by the worker, inserting the filler body without hole forming processing into the forming sleeve, inserting the whole forming sleeve into the chuck again, driving a driving disc to slowly rotate at a constant speed by a driving motor, stirring a rotating tooth on the rotating disc by a stirring rod on the driving disc when the driving disc rotates for one circle, so that the rotating disc intermittently rotates, realizing intermittent rotation of the forming sleeve under the action of the driving motor, enabling an inserting hole on the forming sleeve to be opposite to a processing rod after each rotation of the forming sleeve, simultaneously driving a driving rod to uniformly rotate along the side surface of a moving plate by the rotating motor, and moving a limiting part of a first swinging rod on a swinging rod component along a multi-sided star-shaped track on the moving plate during the rotation of the driving rod, because the first swing rod and the second swing rod are connected on the connecting column together, the first swing rod on the swing rod component drives the processing rod on the second swing rod to move, the processing rod forms a movement track of a polygonal shape, thus, when the forming sleeve stops before the processing rod, the telescopic cylinder acts, the outer end of the processing rod passes through the edge of the inserting hole on the forming sleeve, the outer end of the processing rod is limited in the groove on the baffle, the rotating motor rotates for a circle, the outer edge of the processing rod moves for a circle along the inner edge of the inserting hole on the forming sleeve, the through hole forming processing of the filler body in the forming sleeve is realized, then, the telescopic cylinder resets, the processing rod passes through the forming sleeve and enters the next through hole for forming, after all through holes on the filler body are formed, the forming sleeve is taken down from the chuck, the filler body in the forming sleeve is taken out, a new filler body is put in again, and the pore forming processing of, and finally, the filler body which is subjected to hole forming processing is sent into a baking box to be baked, and finally the processing and manufacturing of the regular ceramic polygonal through hole packing are finished.

Drawings

FIG. 1 is a schematic structural diagram of a device for processing a ceramic polygonal through hole structured packing through hole in an embodiment of the invention;

FIG. 2 is a schematic view of the fixed platform of FIG. 1 in a bottom view;

FIG. 3 is a schematic view of the structure of the drive lever, swing link assembly and tooling lever on the motion plate of FIG. 1;

FIG. 4 is a schematic structural diagram of the structured packing with polygonal ceramic through holes formed in the embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

as shown in fig. 1 to 4, the processing apparatus for large ceramic polygonal through-hole structured packing in this embodiment includes a fixed platform 2, a chuck 21, a forming sleeve 3, a driving motor, a turntable 22, a driving disc 23, a rotating motor 4, a moving plate 5, a baffle 6, a driving rod 7, a swing link assembly 8, and a processing rod 91. The cross section of the outer wall of the ceramic polygonal flower-shaped through hole structured packing 1 can be circular or polygonal rhombus, the ceramic polygonal flower-shaped through hole structured packing 1 comprises a packing body, the packing body comprises a central ring 11 and a plurality of groups of side rings 12, each group of side rings 12 are oppositely arranged in the circumferential direction of the central ring 11, each side ring 12 is connected with the outer wall of the central ring 11, and through holes 13 penetrating through the central ring 11 are formed in the same group of side rings 12.

wherein, the fixed platform 2 is a flat cylindrical structure, a chuck 21 is vertically and rotatably arranged on the fixed platform 2, a central jack is arranged on the upper end surface of the chuck 21, a forming sleeve 3 is inserted in the central jack, a penetrating hole 31 matched with the outer wall of the regular packing 1 with the ceramic polygonal through hole is vertically arranged on the forming sleeve 3, a inserting hole 32 is arranged on the outer wall of the forming sleeve 3 and corresponding to the through hole 13 of the regular packing 1 with the ceramic polygonal through hole, the lower end of the chuck 21 penetrates through the fixed platform 2, a rotary table 22 is arranged on the lower end of the chuck 21, a plurality of rotary teeth 221 are uniformly distributed on the outer edge of the rotary table 22, a driving motor is arranged below the fixed platform 2 and at the position of the rotary table, a driving disc 23 is arranged on the output shaft of the driving motor, a toggle column 231 is arranged on the outer edge of the driving disc 23, a moving plate 5 and a baffle 6 are respectively and vertically arranged above the fixed platform 2 and at the two sides, a rotating motor 4 is arranged on the outer side of the moving plate 5, a multi-edge star-shaped track 51 is formed on the inner side wall of the moving plate 5 opposite to the regular packing 1 with the ceramic multi-edge flower-shaped through hole, a driving rod 7 with one end connected with the output shaft of the rotating motor 4 is arranged on the inner side wall of the moving plate 5, a swing rod assembly 8 is rotatably arranged on the outer end of the driving rod 7, the swing rod assembly 8 comprises a connecting post 81 rotatably arranged on the outer end of the driving rod 7, one end of the connecting post 81 is connected with a first swing rod 82, the other end of the connecting post 81 is connected with a second swing rod 83, a limiting part limited in the multi-edge star-shaped track 51 is formed on the outer end of the first swing rod 82, a telescopic cylinder 9 is transversely arranged on the outer end of the second swing rod 83, a transversely arranged processing rod 91 is arranged at the output end of, the cutting forming effect of the processing rod on the through hole 13 on the filler body is improved, a groove matched with the motion track of the outer end of the processing rod 91 is formed in the baffle 6, a ball is arranged at the outer end of the processing rod 91 in a rolling mode, the ball at the outer end of the processing rod 91 is limited in the groove in the baffle 6 in the motion process of the processing rod 91, the motion stability of the processing rod 91 is improved, and meanwhile, the ball can effectively prevent the end of the processing rod 91 from being abraded in the motion process.

The through holes 13 in the ceramic polygonal-flower-shaped through-hole structured packing 1 are in a quadrangular flower shape or a pentagonal flower shape, and correspondingly, the polygonal star-shaped track 51 is a quadrangular star-shaped track or a pentagonal star-shaped track, and a quadrangular star-shaped track is shown in fig. 3.

In addition, the outer wall of the chuck 21 is provided with balls, the inner wall of the central circular hole of the fixed platform 2 is provided with an annular groove for seating the balls, a end surface bearing is arranged between the lower end surface of the chuck 21 and the fixed platform 2, meanwhile, two sides of the chuck 21 on the fixed platform 2 are provided with a clamping mechanism, the clamping mechanism comprises a group of clamping jaws for clamping the outer wall of the chuck 21 and a driving cylinder for driving the clamping jaws to move relatively, by arranging the clamping mechanism, when the chuck 21 stops rotating each time, the filler body in the forming sleeve 3 needs to be processed, the driving cylinder acts, a group of clamping jaws which are oppositely arranged in a hole forming manner are used for clamping the chuck 21 to prevent the chuck 21 from rotating in the process, when the processing rod 91 completes the forming of the through hole 13 on the filler body, the driving cylinder resets, the clamping jaws loosen the chuck 21, so that the chuck 21 can continuously rotate by an angle with the forming sleeve, and entering the next forming processing of the filler body through hole 13.

The extruder extrudes a filler body without a through hole, the filler body is transported to the fixed platform 2, a worker is positioned at the fixed platform 2, the worker takes off the forming sleeve 3 from the chuck, the filler body without hole forming processing is inserted into the forming sleeve 3, then the whole forming sleeve 3 is inserted into the chuck 21 again, the driving motor drives the driving disc 23 to slowly rotate at a uniform speed, a poking rod 231 on the driving disc 23 pokes one rotating tooth 221 on the rotating disc 22 when the driving disc 23 rotates for one circle, so that the rotating disc 22 rotates intermittently, the intermittent rotation of the forming sleeve 3 is realized under the action of the driving motor, after each rotation of the forming sleeve 3, an insertion hole 32 on the forming sleeve 3 is opposite to a processing rod 91, meanwhile, the rotating motor 4 drives the driving rod 7 to uniformly rotate along the side surface of the moving plate 5, and during the rotation of the driving rod 7, a limiting part of a first swinging rod 82 on the swinging rod assembly 8 moves along a multi-edge star-shaped track 51 on the moving plate 5, because the first swing rod 82 and the second swing rod 83 are connected to the connecting column 81 together, the first swing rod 82 on the swing rod assembly 8 drives the processing rod 91 on the second swing rod 83 to move, the processing rod 91 forms a polygonal movement track, thus, when the forming sleeve 3 stops before the processing rod, the telescopic cylinder 9 acts, the outer end of the processing rod 91 passes through the edge of the insertion hole 32 on the forming sleeve 3, the outer end of the processing rod 91 is limited in the groove on the baffle 6, the rotating motor 4 rotates for a circle, the outer edge of the processing rod 91 moves for a circle along the inner edge of the insertion hole 32 on the forming sleeve 3, the forming processing of the through hole 13 of the filler body in the forming sleeve 3 is realized, then, the telescopic cylinder 9 resets, the processing rod 91 passes through the forming sleeve 3 and enters the next through hole for forming, after all the through holes on the filler body are formed, the forming sleeve 3 is taken off from the chuck 21, and the filler body in the forming sleeve 3, the novel packing body is put into the baking oven again, the pore-forming processing of the next ceramic polygonal through hole regular packing 1 is carried out, then the packing body after the pore-forming processing is sent into the baking oven to be baked, and the processing and manufacturing of the ceramic polygonal through hole regular packing 1 are finally finished, the workers only need to be responsible for putting the packing body without the pore-forming processing into the forming sleeve 3, meanwhile, the through hole 13 on the packing body is cut and formed by the processing rod 91, the processing rod 91 forms a polygonal motion track, the size of the motion track can be relatively larger, the processing rod 91 can form the shape of the through hole 13 with larger size, the processed packing body is taken out from the forming sleeve 3, the whole packing body after the through hole processing is sent into the baking oven again to be baked, and the semi-automation process of the ceramic polygonal through hole regular packing 1 is realized, the processing efficiency of the through holes 13 of the regular packing 1 with the ceramic polygonal through holes and the forming efficiency of the regular packing 1 with the ceramic polygonal through holes are improved.

Claims (6)

1. The utility model provides a processingequipment of regular packing of polygonal flower shape through-hole of large-scale pottery which characterized in that: comprises a fixed platform (2), a chuck (21) is vertically and rotatably arranged on the fixed platform (2), a central jack is arranged on the upper end surface of the chuck (21), a forming sleeve (3) is inserted in the central jack, a penetrating hole (31) matched with the outer wall of the ceramic polygonal through hole regular packing (1) is vertically arranged on the forming sleeve (3), an inserting hole (32) is arranged on the outer wall of the forming sleeve (3) and is positioned at the corresponding position of the through hole (13) of the ceramic polygonal through hole regular packing (1), the lower end of the chuck (21) penetrates through the fixed platform (2), a turntable (22) is arranged on the lower end of the chuck (21), a plurality of rotating teeth (221) are uniformly distributed on the outer edge of the turntable (22), a driving motor is arranged at the position below the fixed platform (2), a driving disk (23) is arranged on the output shaft of the driving motor, and a toggle column (231) is arranged on the outer edge of the driving disk (23), a moving plate (5) and a baffle (6) are respectively and oppositely arranged above the fixed platform (2) and at two sides of the regular packing (1) with the polygonal ceramic flower-shaped through hole, a rotating motor (4) is arranged at the outer side of the moving plate (5), a polygonal star-shaped track (51) is formed on the inner side wall of the moving plate (5) opposite to the regular packing (1) with the polygonal ceramic flower-shaped through hole, a driving rod (7) with one end connected with an output shaft of the rotating motor (4) is arranged on the inner side wall of the moving plate (5), a swing rod component (8) is rotatably arranged at the outer end of the driving rod (7), the swing rod component (8) comprises a connecting column (81) rotatably arranged at the outer end of the driving rod (7), one end of the connecting column (81) is connected with a first swing rod (82), the other end of the connecting column (81) is connected with a second swing rod (83), a limiting part which is limited in the polygonal star-shaped track (, the outer end of the second swing rod (83) is transversely provided with a telescopic cylinder (9), the output end of the telescopic cylinder (9) is provided with a transversely arranged processing rod (91), and a groove matched with the motion trail of the outer end of the processing rod (91) is formed in the baffle (6).

2. The processing device of the large ceramic polygonal-shaped through hole structured packing of claim 1, wherein: the ball bearing is characterized in that balls are arranged on the outer wall of the chuck (21), an annular groove used for seating the balls is formed in the inner wall of a central circular hole of the fixed platform (2), and a end face bearing is arranged between the lower end face of the chuck (21) and the fixed platform (2).

3. The processing device of the large ceramic polygonal-shaped through hole structured packing of claim 1, wherein: the cross section of the outer wall of the ceramic polygonal through hole regular packing (1) is circular or polygonal rhombus.

4. The processing device of the large-scale ceramic polygonal through hole structured packing of claim 3, wherein: the through holes (13) on the ceramic polygonal-flower-shaped through hole structured packing (1) are in a quadrilateral flower shape or a pentagonal flower shape, and correspondingly, the polygonal star-shaped track (51) is a quadrilateral star-shaped track or a pentagonal star-shaped track.

5. The processing device of the large-scale ceramic polygonal through hole structured packing of claim 4, wherein: the cross section of the outer wall of the processing rod (91) is triangular.

6. The processing device of the large-scale ceramic polygonal through hole structured packing of claim 4, wherein: the outer end of the processing rod (91) is provided with a ball in a rolling manner.