CN216376120U - Manganese ball conveying system - Google Patents

Abstract

The utility model discloses a manganese ball conveying system, wherein; feeding band conveyer is installed to the last end of shale shaker mechanism, the guipure conveyer is installed to the lower end, install feed back band conveyer below the middle part, sieve groove side fixed mounting has a plurality of vibrating spring clamp plates, install vibrating spring below the vibrating spring clamp plate, install the vibration spring seat below the vibrating spring, the hopper is collected to the inferior-quality of vibrating spring seat fixed connection, the inferior-quality is collected and is fought and install on support A, install the bearing through the bearing frame below the sieve groove, insert the eccentric wheel in the bearing, eccentric wheel fixed connection eccentric wheel axle, eccentric wheel axle connection motor A, motor A fixed mounting is on support A. The conveying belt of the utility model has no blockage, the manganese balls are uniformly distributed, the quality of manganese ball products is improved, the separation of certified products and defective products and the recycling and reprocessing of defective products are realized, the labor intensity of workers is reduced, the dust raising of metal dust in the conveying process is reduced, and the dust pollution is controlled.

Description

Manganese ball conveying system

Technical Field

The utility model relates to the technical field of metal manganese smelting, in particular to a manganese ball conveying system.

Background

Manganese balls are electrolytic manganese metal deep processing products, the specific process is to grind electrolytic manganese metal into powder, partial adhesive and auxiliary materials are added, after uniform mixing, compression molding is carried out, manganese metal ball products are obtained, the products are limited by a mold, the products entering the mold can not be completely manganese balls, partial crushed aggregates are mixed in the manganese metal balls, the partial crushed aggregates return to a front section after being screened by a roller, qualified products are conveyed to an oven to be baked, partial crushed aggregates are generated in the conveying process, the crushed aggregates easily enter the inside of a mesh belt conveying device after entering the oven, and cause a conveyor belt to be blocked.

Disclosure of Invention

The utility model aims to overcome the defects and provide a manganese ball conveying system which can not cause a conveyor belt blocking machine, solves the problem of uneven distribution of manganese balls in the conveyor belt blocking machine by screening and adjusting the distribution of prefabricated manganese ball products, improves the quality of the manganese ball products, realizes the separation of certified products and defective products and the recycling and reprocessing of defective products, greatly reduces the labor intensity of workers, the later drying energy consumption and the workload of a mesh belt conveyor, and simultaneously reduces the dust flying of metal dust in the conveying process and controls the dust pollution.

The purpose of the utility model and the main technical problem of solving the utility model are realized by adopting the following technical scheme:

the utility model relates to a manganese ball conveying system, which is characterized in that; the feeding belt conveyor is installed at the upper end of the vibrating screen mechanism, the mesh belt conveyor is installed at the lower end of the vibrating screen mechanism, the feed-back belt conveyor is installed below the middle of the vibrating screen mechanism, the vibrating screen mechanism is composed of a screen groove, vibrating spring pressing plates, vibrating springs, a vibrating spring seat, a support A, a motor A, a defective product collecting hopper, an eccentric wheel shaft, a bearing and an eccentric wheel, a plurality of vibrating spring pressing plates are fixedly installed on the side face of the screen groove, vibrating springs are installed below the vibrating spring pressing plates, the vibrating spring seat is installed below the vibrating springs, the vibrating spring seat is fixedly connected with the defective product collecting hopper, the defective product collecting hopper is installed on the support A, the bearing is installed below the screen groove through a bearing seat, the eccentric wheel is inserted into the bearing, the eccentric wheel is fixedly connected with the eccentric wheel shaft, the eccentric wheel shaft is connected with the motor A, and the motor A is fixedly installed on the support A.

The mesh belt conveyor is by the guipure, support B, the sprocket shaft, the chain, the speed reducer, the axis of rotation, motor B, the bearing frame, the connecting rod, the sprocket is constituteed, the sprocket shaft is installed respectively through the bearing at support B both ends, fixed mounting has the sprocket on the sprocket shaft, it has the chain to surround on the sprocket, two chains insert the connection through a plurality of connecting rods, solid fixed ring is around having the guipure above a plurality of connecting rods, install the bearing frame on the sprocket shaft, the speed reducer is connected to sprocket shaft one end, the axis of rotation is connected to the speed reducer, rotation axis connection motor B, motor B installs on support B.

The sieve groove is installed in an inclined mode, and a plurality of sieve holes are formed in the bottom of the sieve groove.

The mesh belt is an elastic mesh.

The mesh belt connecting rod is connected by inserting two chains at equal intervals.

Compared with the prior art, the utility model has obvious beneficial effects; the technical scheme shows that: the feeding belt conveyor is installed at the upper end of the vibrating screen mechanism, the mesh belt conveyor is installed at the lower end of the vibrating screen mechanism, the feed back belt conveyor is installed below the middle of the vibrating screen mechanism, a plurality of vibrating spring pressing plates are fixedly installed on the side face of a screen groove, a vibrating spring is installed below the vibrating spring pressing plates, a vibrating spring seat is installed below the vibrating spring, a vibrating spring seat is fixedly connected with a defective product collecting hopper, the defective product collecting hopper is installed on a support A, a bearing is installed below the screen groove through a bearing seat, an eccentric wheel is inserted into the bearing, the eccentric wheel is fixedly connected with an eccentric wheel shaft, the eccentric wheel shaft is connected with a motor A, and the motor A is fixedly installed on the support A. Manganese ball products enter a screen groove from a feeding belt conveyor, a motor A drives an eccentric wheel shaft, the eccentric wheel shaft drives two eccentric wheels to rotate in two bearings respectively, the screen groove vibrates on a vibration spring seat, crushed materials fall into a defective product collecting hopper from the screen groove and fall onto a return belt conveyor after passing through the defective product collecting hopper, the crushed materials return to a front section for use through the return belt conveyor, the qualified manganese ball products roll down on a mesh belt along the screen groove to enable the mesh belt to be recessed at equal intervals, the motor B drives a chain wheel shaft to rotate, the chain wheel shaft drives a chain wheel to rotate, the chain wheel drives a plurality of connecting rods to rotate, the plurality of connecting rods drive the mesh belt to rotate, the qualified manganese ball products which are arranged at equal intervals in the recessed mesh belt are conveyed to enter drying, the problem that the manganese ball products are blocked and unevenly distributed by the conveying belt is solved, meanwhile, the quality of manganese ball products is improved, the separation of certified products and defective products and the recovery and reprocessing of defective products are realized, the labor intensity of workers, the later drying energy consumption and the workload of a mesh belt conveyor are greatly reduced, the flying dust of metal dust in the conveying process is reduced, and the dust pollution is controlled.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the vibrating screen mechanism of the present invention;

FIG. 3 is a schematic view of the construction of a screen slot of the present invention;

FIG. 4 is a bottom view of the screen slots of the present invention;

FIG. 5 is a schematic structural diagram of a motor A, an eccentric wheel shaft, a bearing and an eccentric wheel of the utility model;

FIG. 6 is a schematic view showing the structure of a defective product collecting hopper according to the present invention;

fig. 7 is a schematic structural view of the mesh belt conveyor of the utility model;

FIG. 8 is an enlarged view of FIG. 7;

fig. 9 is a left side view of the mesh belt conveyor of the present invention;

fig. 10 is a top view of the mesh belt conveyor of the present invention;

FIG. 11 is a schematic view of the structure of the belt, sprocket shaft, chain, link and sprocket of the present invention;

FIG. 12 is a schematic view of the sprocket shaft, chain, connecting rod, sprocket configuration of the present invention.

In the drawings, reference numerals

1. Vibrating screen mechanism, 2, mesh belt conveyor, 3, feed back belt conveyor, 4, feeding belt conveyor, 101, screen groove, 102, vibrating spring pressing plate, 103, vibrating spring, 104, vibrating spring seat, 105, support A, 106, motor A, 107, defective product collecting hopper, 108, eccentric wheel shaft, 109, bearing, 110, eccentric wheel, 201, mesh belt, 202, support B, 203, chain wheel shaft, 204, chain, 205, speed reducer, 206, rotating shaft, 207, motor B, 208, bearing seat, 209, connecting rod, 210 and chain wheel.

Detailed Description

The details of the embodiments, structures, features and functions according to the present invention are described in the following detailed description and the preferred embodiments.

The utility model relates to a manganese ball conveying system, which is characterized in that; the upper end of the vibrating screen mechanism 1 is provided with a feeding belt conveyor 4, the lower end is provided with a mesh belt conveyor 2, the lower part of the middle part is provided with a feed-back belt conveyor 3, the vibrating screen mechanism 1 consists of a screen groove 101, a vibrating spring pressing plate 102, a vibrating spring 103, a vibrating spring seat 104 and a bracket A105, the screen groove cleaning machine comprises a motor A106, a defective product collecting hopper 107, an eccentric wheel shaft 108, a bearing 109 and an eccentric wheel 110, wherein a plurality of vibration spring pressing plates 102 are fixedly installed on the side surface of a screen groove 101, vibration springs 103 are installed below the vibration spring pressing plates 102, vibration spring seats 104 are installed below the vibration springs 103, the vibration spring seats 104 are fixedly connected with the defective product collecting hopper 107, the defective product collecting hopper 107 is installed on a support A105, the bearing 109 is installed below the screen groove 101 through a bearing seat, the eccentric wheel 110 is inserted into the bearing 109, the eccentric wheel 110 is fixedly connected with the eccentric wheel shaft 108, the eccentric wheel shaft 108 is connected with the motor A106, and the motor A106 is fixedly installed on the support A105.

The mesh belt conveyor 2 is composed of a mesh belt 201, a support B202, a sprocket shaft 203, chains 204, a speed reducer 205, a rotating shaft 206, a motor B207, bearing seats 208, connecting rods 209 and sprockets 210, the sprocket shaft 203 is respectively installed at two ends of the support B202 through bearings, the sprockets 210 are fixedly installed on the sprocket shaft 203, the chains 204 are wound on the sprockets 210, the two chains 204 are inserted and connected through a plurality of connecting rods 209, the mesh belt 201 is fixedly wound on the upper surfaces of the connecting rods 209, the bearing seats 208 are installed on the sprocket shaft 203, one end of the sprocket shaft 203 is connected with the speed reducer 205, the speed reducer 205 is connected with the rotating shaft 206, the rotating shaft 206 is connected with the motor B207, and the motor B207 is installed on the support B202.

The sieve groove 101 is installed in an inclined mode, and a plurality of sieve holes are formed in the bottom of the sieve groove 101.

The mesh belt 201 is an elastic mesh.

The mesh belt link 209 is connected by inserting two chains 204 at equal intervals.

When the vibrating screen is used, the vibrating screen mechanism 1, the mesh belt conveyor 2, the feed back belt conveyor 3 and the feed belt conveyor 4 are respectively started, manganese ball products enter the screen groove 101 from the feed belt conveyor, the motor A106 drives the eccentric wheel shaft 108, the eccentric wheel shaft 108 drives the two eccentric wheels 110 to respectively rotate in the two bearings 109, the screen groove 101 vibrates on the vibrating spring seat 104, crushed materials fall into the defective product collecting hopper 107 from the screen groove 101, pass through the defective product collecting hopper 107 and fall onto the feed back belt conveyor 3, the crushed materials are returned to the front section for use by the feed back belt conveyor 3, the qualified manganese ball products roll down on the mesh belt 201 along the screen groove 101 to enable the mesh belt 201 to be concave down to form equidistant arrangement, the motor B207 drives the chain wheel shaft 203 to rotate, the chain wheel shaft 203 drives the chain wheel 210 to rotate, the chain 204 drives the plurality of connecting rods 209 to rotate, the plurality of connecting rods 209 drive the mesh belt 201 to rotate, conveying qualified manganese ball products which are equidistantly arranged in the concave of the mesh belt 201 into a dryer for drying.

Claims (5)

1. A manganese ball delivery system, characterized by; the feeding belt conveyor (4) is installed at the upper end of the vibrating screen mechanism (1), the mesh belt conveyor (2) is installed at the lower end, the feed-back belt conveyor (3) is installed below the middle of the vibrating screen mechanism, the vibrating screen mechanism (1) is composed of a screen groove (101), vibrating spring pressing plates (102), vibrating springs (103), vibrating spring seats (104), a support A (105), a motor A (106), an inferior product collecting hopper (107), an eccentric wheel shaft (108), bearings (109) and an eccentric wheel (110), a plurality of vibrating spring pressing plates (102) are fixedly installed on the side face of the screen groove (101), vibrating springs (103) are installed below the vibrating spring pressing plates (102), the vibrating spring seats (104) are installed below the vibrating springs (103), the vibrating spring seats (104) are fixedly connected with the inferior product collecting hopper (107), the inferior product collecting hopper (107) is installed on the support A (105), the bearings (109) are installed below the screen groove (101) through bearing seats, an eccentric wheel (110) is inserted into the bearing (109), the eccentric wheel (110) is fixedly connected with an eccentric wheel shaft (108), the eccentric wheel shaft (108) is connected with a motor A (106), and the motor A (106) is fixedly arranged on the bracket A (105).

2. The manganese ball delivery system of claim 1, wherein; the mesh belt conveyor (2) consists of a mesh belt (201), a bracket B (202), a chain wheel shaft (203), a chain (204), a speed reducer (205), a rotating shaft (206), a motor B (207), a bearing seat (208), a connecting rod (209) and a chain wheel (210), sprocket shaft (203) is installed respectively through the bearing at support B (202) both ends, fixed mounting has sprocket (210) on sprocket shaft (203), it has chain (204) to encircle on sprocket (210), two chain (204) are connected through a plurality of connecting rod (209) insert, fixed ring is around having guipure (201) above a plurality of connecting rod (209), install bearing frame (208) on sprocket shaft (203), speed reducer (205) is connected to sprocket shaft (203) one end, axis of rotation (206) is connected in speed reducer (205), motor B (207) is connected in axis of rotation (206), install on support B (202) motor B (207).

3. The manganese ball delivery system of claim 1, wherein; the screen groove (101) is obliquely arranged, and a plurality of screen holes are formed in the bottom of the screen groove (101).

4. The manganese ball delivery system of claim 2, wherein; the mesh belt (201) is an elastic mesh.

5. The manganese ball delivery system of claim 2, wherein; the mesh belt connecting rod (209) is connected by inserting two chains (204) at equal intervals.

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