CN220696664U - Honeycomb-shaped organic sulfur hydrolysis catalyst forming device for blast furnace gas - Google Patents

Abstract

The utility model relates to the technical field of organic sulfur hydrolysis catalyst processing, in particular to a honeycomb-shaped forming device of an organic sulfur hydrolysis catalyst for blast furnace gas. The utility model provides a honeycomb-shaped organic sulfur hydrolysis catalyst molding device for blast furnace gas, which can cut a catalyst by using only one power source, thereby simplifying operation and saving cost. The honeycomb-shaped forming device for the organic sulfur hydrolysis catalyst for the blast furnace gas comprises a base, a speed reducing motor, a heating seat and the like, wherein the speed reducing motor is connected to the upper side of the left part of the base, and the heating seat is connected to the upper side of the middle part of the base. According to the utility model, the sliding groove frame is driven to move by the pneumatic push rod, and under the guiding action of the guiding chute, the sliding groove frame moves to enable the lifting frame to drive the cutting rope to move obliquely, so that the effect of cutting the catalyst by using only one power source can be achieved, and the operation is simplified and the cost is saved.

Description

Honeycomb-shaped organic sulfur hydrolysis catalyst forming device for blast furnace gas

Technical Field

The utility model relates to the technical field of organic sulfur hydrolysis catalyst processing, in particular to a honeycomb-shaped forming device of an organic sulfur hydrolysis catalyst for blast furnace gas.

Background

The organic sulfur hydrolysis catalyst is a chemical product for hydrolyzing organic sulfur, in chemical raw material gas (such as shift gas, synthesis gas, water gas and liquefied gas) prepared from oil, coal and coke, COS is a main organic sulfur component, and is usually used for removing sulfide, when the organic sulfur compound is hydrolyzed under the action of the catalyst, the reaction usually occurs on the surface of the catalyst, and the surface area of the catalyst can be remarkably increased by extruding the catalyst into a honeycomb or other porous structure, so that the organic sulfur compound can be more fully contacted with the catalyst.

After the catalyst is extruded and molded, the catalyst needs to be cut, and the catalyst needs to be conveyed in the processing process, so that the moving catalyst needs to be cut obliquely, the section can be kept flat, however, the conventional device generally needs two power sources to respectively control the cutting equipment to move transversely and longitudinally, and the cost is high.

Accordingly, in view of the above problems, there has been developed a honeycomb-shaped organosulfur hydrolysis catalyst molding apparatus for blast furnace gas capable of cutting a catalyst using only one power source, thereby simplifying the operation and saving the cost.

Disclosure of Invention

In order to overcome the defect that the conventional device generally needs two power sources to control the cutting equipment to move transversely and longitudinally, so that the cost is high, the utility model provides the honeycomb-shaped organic sulfur hydrolysis catalyst forming device for the blast furnace gas, which can cut the catalyst by using only one power source, thereby simplifying the operation and saving the cost.

The technical scheme of the utility model is as follows: the utility model provides a cellular blast furnace gas is with organic sulfur hydrolysis catalyst forming device, the on-line screen storage device comprises a base, gear motor, the heating seat, the hybrid chamber, forming die, helical blade, feeding assembly, feeding roller and cutting mechanism, the base left part upside is connected with gear motor, base middle part upside is connected with the heating seat, be connected with the hybrid chamber on the heating seat, the hybrid chamber right side is connected with forming die, the inside rotation of hybrid chamber is connected with helical blade, helical blade and gear motor output shaft, the base right-hand feeding assembly that is provided with, feeding assembly upper left part rotation is connected with a plurality of feeding rollers, carry the raw materials to hybrid intracavity portion, gear motor output shaft rotates and drives helical blade and rotate, make inside raw materials intensive mixing even under the effect of heating seat and helical blade, the raw materials after the mixture is extruded through forming die, rethread feeding roller and feeding assembly carry, be equipped with the cutting mechanism that is used for cutting to the catalyst after the shaping on the feeding assembly.

Further, a feed inlet is formed in the upper side of the left part of the mixing cavity.

Further, the feeding assembly comprises a supporting frame, a driving motor, a belt pulley and a conveying belt, the supporting frame is arranged on the right of the base, the belt pulley is rotationally connected to the middle part and the right part of the supporting frame, the conveying belt is wound between the belt pulleys, the driving motor is connected to the front side of the right part of the supporting frame, and an output shaft of the driving motor is connected with the belt pulley on the right part.

Further, cutting mechanism is including mount pad, pneumatic push rod, the carriage, the crane, reset spring and cutting rope, symmetrical connection has the mount pad around the upper left portion of support frame, the non-adjacent one side in mount pad lower part all is connected with pneumatic push rod, all be connected with the carriage on pneumatic push rod's the flexible end, all be connected with the crane on the carriage, be connected with reset spring between the carriage all and the adjacent carriage, the crane all is connected with adjacent mount pad slidingtype, be connected with cutting rope between the crane lower part, pneumatic push rod's flexible end drives the carriage and moves right, the carriage removes and makes the crane carry out slant removal right below, reset spring atress compression, the carriage removes and drives cutting rope and move right below and cut the catalyst.

Further, the catalyst forming device also comprises an auxiliary conveying mechanism, the auxiliary conveying mechanism comprises a servo motor and a bevel gear, the servo motor is connected to the front side of the left part of the support frame, the bevel gear is connected between the feeding roller and the output shaft of the servo motor, the output shaft of the servo motor rotates to drive the feeding roller to rotate through the bevel gear, and the feeding roller rotates to drive the formed catalyst to move rightwards.

Further, the installation seats are provided with guide chute.

The beneficial effects of the utility model are as follows: 1. according to the utility model, the sliding groove frame is driven to move by the pneumatic push rod, and under the guiding action of the guiding chute, the sliding groove frame moves to enable the lifting frame to drive the cutting rope to move obliquely, so that the effect of cutting the catalyst by using only one power source can be achieved, and the operation is simplified and the cost is saved.

2. According to the utility model, the feeding roller is driven to rotate by the rotation of the output shaft of the servo motor, and the formed catalyst is driven to move rightwards by the rotation of the feeding roller, so that the effect of being convenient for conveying the catalyst can be achieved.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a perspective view of the present utility model.

Fig. 3 is a first schematic view of the cutting mechanism of the present utility model.

Fig. 4 is a schematic plan view of a cutting mechanism according to the present utility model.

Fig. 5 is a second schematic view of the cutting mechanism of the present utility model.

Fig. 6 is a schematic perspective view of the auxiliary conveying mechanism of the present utility model.

Part names and serial numbers in the figure: 1_base, 2_gear motor, 3_heating seat, 4_mixing chamber, 5_forming die, 6_helical blade, 7_feeding assembly, 8_feeding roller, 9_cutting mechanism, 91_mounting seat, 92_pneumatic push rod, 93_sliding groove frame, 94_lifting frame, 95_return spring, 96_cutting rope, 10_auxiliary conveying mechanism, 101_servo motor, 102_bevel gear.

Detailed Description

The following describes in detail the preferred embodiments of the present utility model with reference to the accompanying drawings.

The utility model provides a cellular organic sulfur hydrolysis catalyst forming device for blast furnace gas, as shown in fig. 1 and 2, including base 1, gear motor 2, heating seat 3, mixing chamber 4, forming die 5, helical blade 6, feeding subassembly 7, feed roll 8 and cutting mechanism 9, base 1 left part upside is connected with gear motor 2, base 1 middle part upside is connected with heating seat 3, be connected with mixing chamber 4 on the heating seat 3, it has the feed inlet to open to mix chamber 4 left part upside, mixing chamber 4 right side is connected with forming die 5, mixing chamber 4 inside rotation is connected with helical blade 6, helical blade 6 and gear motor 2 output shaft, base 1 right-hand feeding subassembly 7 that is provided with, feeding subassembly 7 is including the support frame, driving motor, belt pulley and conveyer, base 1 right-hand is provided with the support frame, support frame middle part and right part are all rotated and are connected with the belt pulley, wind conveyer between the belt pulley, the support frame right part front side is connected with driving motor output shaft and right belt pulley connection, the driving motor output shaft rotates and carries out rotation through the belt pulley, conveyer belt pulley rotates and carries out rotation to carry out feeding subassembly 7, five feeding subassemblies are connected with feeding subassembly 7 on the upper portion is equipped with feeding subassembly 7.

As shown in fig. 1, fig. 3, fig. 4 and fig. 5, the cutting mechanism 9 comprises a mounting seat 91, a pneumatic push rod 92, a sliding groove frame 93, a lifting frame 94, a return spring 95 and a cutting rope 96, wherein the front and rear sides of the left upper part of the support frame are symmetrically connected with the mounting seat 91, the non-adjacent sides of the lower part of the mounting seat 91 are respectively connected with the pneumatic push rod 92, the sliding groove frames 93 are respectively connected with the telescopic ends of the pneumatic push rods 92, the sliding groove frames 93 are respectively connected with the lifting frame 94 in a sliding manner, the return spring 95 is respectively connected between the lifting frame 94 and the adjacent sliding groove frames 93, the lifting frame 94 is respectively connected with the adjacent mounting seat 91 in a sliding manner, the mounting seat 91 is respectively provided with a guide chute which is convenient for guiding the lifting frame 94, and the cutting rope 96 is connected between the lower parts of the lifting frame 94.

When the utility model is used, firstly, the utility model is arranged in an operation area, then raw materials are poured into a feed inlet, a speed reducing motor 2 is started, an output shaft of the speed reducing motor 2 rotates to drive a spiral blade 6 to rotate, internal raw materials are fully and uniformly mixed under the action of a heating seat 3 and the spiral blade 6, the mixed raw materials are extruded through a forming die 5, a formed catalyst is driven to move rightwards by a feed roller 8, then a driving motor is started, the output shaft of the driving motor rotates to drive a conveying belt to rotate by a belt pulley, the conveying belt rotates to convey the catalyst, when the formed catalyst is required to be cut, a pneumatic push rod 92 can be started, a telescopic end of the pneumatic push rod 92 drives a sliding groove frame 93 to move rightwards, under the guiding action of a guiding chute, the sliding groove frame 93 moves to enable the lifting frame 94 to move rightwards, a reset spring 95 is stressed to compress, the lifting frame 94 moves to drive a cutting rope 96 to move rightwards to cut the catalyst, the telescopic end of the pneumatic push rod 92 moves leftwards to reset, and a reset spring 95 rebounds to drive the lifting frame 94 to move the reset the lifting frame 94, and the pneumatic push rod 92 moves to reset the catalyst to cut and finish the cutting of the servo motor 101.

As shown in fig. 1 and 6, the automatic feeding device further comprises an auxiliary conveying mechanism 10, the auxiliary conveying mechanism 10 comprises a servo motor 101 and a bevel gear 102, the servo motor 101 is connected to the front side of the left part of the support frame, and the bevel gear 102 is connected between the feeding roller 8 and the output shaft of the servo motor 101.

The auxiliary conveying mechanism 10 can be convenient for conveying the catalyst, after the catalyst is extruded and molded, the servo motor 101 can be started, the output shaft of the servo motor 101 rotates to drive the feed roller 8 to rotate through the bevel gear 102, and the feed roller 8 rotates to drive the molded catalyst to move rightwards, so that the catalyst is convenient for conveying the catalyst, and after the conveying is finished, the servo motor 101 is closed.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (6)

1. A honeycomb-shaped organic sulfur hydrolysis catalyst forming device for blast furnace gas is characterized in that: including base (1), gear motor (2), heating seat (3), mixing chamber (4), forming die (5), helical blade (6), feeding subassembly (7), feeding roller (8) and cutting mechanism (9), base (1) left portion upside is connected with gear motor (2), base (1) middle part upside is connected with heating seat (3), be connected with mixing chamber (4) on heating seat (3), mixing chamber (4) right side is connected with forming die (5), mixing chamber (4) inside rotation is connected with helical blade (6), helical blade (6) and gear motor (2) output shaft, base (1) right-hand feeding subassembly (7) that is provided with, feeding subassembly (7) upper left portion rotation is connected with a plurality of feeding rollers (8), carry the raw materials to mixing chamber (4) inside, gear motor (2) output shaft rotation drives helical blade (6) and rotates, make inside raw materials fully mix evenly under the effect of heating seat (3) and helical blade (6), the raw materials after mixing is extruded through forming die (5), carry out with feeding subassembly (7) through feeding roller (8), the feeding assembly (7) is provided with a cutting mechanism (9) for cutting the molded catalyst.

2. A honeycomb-shaped organosulfur hydrolysis catalyst molding apparatus for blast furnace gas according to claim 1, characterized in that: the upper side of the left part of the mixing cavity (4) is provided with a feed inlet.

3. A honeycomb-shaped organosulfur hydrolysis catalyst molding apparatus for blast furnace gas according to claim 1, characterized in that: the feeding assembly (7) comprises a supporting frame, a driving motor, a belt pulley and a conveying belt, wherein the supporting frame is arranged on the right of the base (1), the middle part and the right part of the supporting frame are both rotationally connected with the belt pulley, the conveying belt is wound between the belt pulleys, the driving motor is connected to the front side of the right part of the supporting frame, and an output shaft of the driving motor is connected with the belt pulley on the right part.

4. A honeycomb-shaped organosulfur hydrolysis catalyst molding apparatus for blast furnace gas according to claim 1, characterized in that: cutting mechanism (9) including mount pad (91), pneumatic push rod (92), slide groove frame (93), crane (94), reset spring (95) and cutting rope (96), symmetrical connection has mount pad (91) around support frame upper left portion, mount pad (91) lower part non-adjacent one side all is connected with pneumatic push rod (92), all be connected with slide groove frame (93) on the flexible end of pneumatic push rod (92), all be connected with crane (94) on slide groove frame (93), be connected with reset spring (95) between crane (94) all and adjacent slide groove frame (93), be connected with cutting rope (96) between crane (94) lower part, the flexible end of pneumatic push rod (92) drives slide groove frame (93) and moves right, slide groove frame (93) move and make crane (94) slant removal below, reset spring (95) atress compression, crane (94) move and drive cutting rope (96) and move right below and cut catalyst.

5. A honeycomb-shaped organosulfur hydrolysis catalyst molding apparatus for blast furnace gas according to claim 2, characterized in that: the automatic feeding device is characterized by further comprising an auxiliary conveying mechanism (10), wherein the auxiliary conveying mechanism (10) comprises a servo motor (101) and a bevel gear (102), the servo motor (101) is connected to the front side of the left part of the support frame, the bevel gear (102) is connected between the feeding roller (8) and the output shaft of the servo motor (101), the feeding roller (8) is driven to rotate by the rotation of the output shaft of the servo motor (101) through the bevel gear (102), and the feeding roller (8) is driven to move rightward by the rotation of the formed catalyst.

6. A honeycomb briquette blast furnace gas organic sulfur hydrolysis catalyst forming apparatus according to claim 4, wherein: the mounting seats (91) are provided with guiding chute.