CN207872666U - Intelligent and high-efficiency steel scrap dedusting pilot test system - Google Patents

Abstract

The utility model discloses intelligent and high-efficiency steel scrap dedusting pilot test systems, including drying box and feed hopper, the feeding funnel bottom part is installed with feeding storehouse, it is fixedly connected with the first support leg below the feeding storehouse, it is fixedly connected with Cleaning pipes on the right side of the feeding storehouse, it is intermediate above the Cleaning pipes right end to be installed with cleannes analyzer, the Cleaning pipes bottom inner surface transmission is equipped with the first transmission shaft, it is sequentially connected with second driving shaft above the drying box bottom inner surface, it is fixedly connected with the second support leg below the drying box, discharge port is offered among the drying box right side, it is fixedly connected with feeding groove on the right side of the discharge port, splicing trolley is installed on the right side of the drying box, it is fixedly connected with universal wheel below the splicing trolley.The utility model is simple in structure, convenient and practical, is tested to steel scrap dust removing effects by intelligence system, and provide prioritization scheme.

Description

Intelligent and high-efficiency steel scrap dedusting pilot test system

Technical field

The utility model is related to steel scrap dedusting pilot test system technical fields, specially intelligent and high-efficiency steel scrap dedusting pilot scale system System.

Background technology

Pilot scale is exactly the experiment before product is put into serial production, and is the product small-scale experiment antenatal in large scale quantities.Pilot scale It substantially can volume production after success.Whether product manager identifies project can do, and laboratory test, which belongs to research and development department, to be completed, " lab scale " and " pilot scale " system ownership pilot scale department completes, and Liang Ge departments have respective technique and quality personnel to participate in, and are related to steel scrap The aspect of dedusting pilot test system is even more important.And existing steel scrap dedusting pilot test system generally existing, it is inconvenient to use, it cannot be right Steel scrap dust removing effects are tested, and provide prioritization scheme.

Utility model content

The purpose of this utility model is to provide intelligent and high-efficiency steel scrap dedusting pilot test systems, to solve in above-mentioned background technology The problem of proposition.

To achieve the above object, the utility model provides the following technical solutions：Intelligent and high-efficiency steel scrap dedusting pilot test system, packet Drying box and feed hopper are included, the feeding funnel bottom part is installed with feeding storehouse, first is fixedly connected with below the feeding storehouse Support leg, the feeding storehouse right side are fixedly connected with Cleaning pipes, and the Cleaning pipes right end top is intermediate to be installed with clearly Cleanliness analyzer, the Cleaning pipes bottom inner surface transmission are equipped with the first transmission shaft, are driven above first transmission shaft It is connected with the first material-conveying belt, the Cleaning pipes inside upper surface is installed with cleaning sprayer, drying box inside following table It is sequentially connected with second driving shaft above face, the second material-conveying belt, the drying box are sequentially connected with above the second driving shaft Bottom inner surface offers drying wind turbine mouth, and total score parser is installed with above drying box inner right side face, described dry Dry case front is intermediate to offer observation window, is installed with by keyboard on the right side of the observation, is fixedly mounted above the drying box There is moisture detector, is fixedly connected with the second support leg below the drying box, is offered out among the drying box right side Material mouth, the discharge port right side are fixedly connected with feeding groove, splicing trolley, the splicing trolley are equipped on the right side of the drying box Lower section is fixedly connected with universal wheel.

Preferably, the Cleaning pipes are fixedly connected with drying box by bolt group.

Preferably, the Cleaning pipes bottom offers mudhole, and mudhole is connected to filtering ponds by pipeline.

Preferably, the moisture detector, cleannes analyzer and total score parser are anti-by signal projector and cleannes Module, humidity feedback module and general feedback module is presented to be electrically connected.

Preferably, the cleannes feedback module, humidity feedback module and general feedback module and data collection center electricity Property connection, the data received are issued data processing module by the data collection center, and the data processing module will receive To data analyzed and handled, then send the data to feedback adjustment center, the feedback adjustment center is to feedback coefficient According to being adjusted and optimizing, prioritization scheme is being sent to server terminal.

Compared with prior art, the utility model has the beneficial effects that：The utility model is simple in structure, convenient and practical, leads to It crosses intelligence system to test to steel scrap dust removing effects, and provides prioritization scheme, by the way that moisture detector is arranged, cleannes are analyzed Device and total score parser can timely feedback each process of steel scrap dedusting device, by feedback adjustment center to feedback Data are adjusted and optimize, and offer mudhole by Cleaning pipes bottom, and mudhole is connected to filtering ponds by pipeline, It may be implemented to recycle water resource, economize on resources, offer observation window by the way that drying box front is intermediate, steel scrap can be dried Process is regulated and controled, and suitable dry wind-force is arranged, to achieve the purpose that save electric power energy.

Description of the drawings

Fig. 1 is the utility model agent structure schematic diagram；

Fig. 2 is the utility model Cleaning pipes internal structure schematic diagram；

Fig. 3 is the utility model drying box internal structure schematic diagram；

Fig. 4 is Tthe utility model system work flow diagram.

In figure：1 feeding storehouse, 2 first support legs, 3 second support legs, 4 observation windows, 5 press keyboard, 6 discharge ports, 7 universal wheels, 8 splicing trolleys, 9 feeding grooves, 10 moisture detectors, 11 drying boxes, 12 cleannes analyzers, 13 Cleaning pipes, 14 feed hoppers, 15 First material-conveying belt, 16 cleaning sprayers, 17 first transmission shafts, 18 second material-conveying belts, 19 second driving shafts, 20 drying wind turbine mouths, 21 Total score parser, 22 cleannes feedback modules, 23 humidity feedback modules, 24 general feedback modules, 25 data collection centers, 26 data Processing module, 27 feedback adjustment centers, 28 server terminals.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the instructions such as term "vertical", "upper", "lower", "horizontal" Orientation or positional relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model and simplification Description, does not indicate or imply the indicated device or element must have a particular orientation, with specific azimuth configuration and behaviour Make, therefore should not be understood as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Set ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, Or it is integrally connected；It can be mechanical connection, can also be electrical connection；It can be directly connected, intermediary can also be passed through It is indirectly connected, can be the connection inside two elements.It for the ordinary skill in the art, can be according to specific feelings Condition understands the concrete meaning of above-mentioned term in the present invention.

- 4 are please referred to Fig.1, the utility model provides a kind of technical solution：Intelligent and high-efficiency steel scrap dedusting pilot test system, including Drying box 11 and feed hopper 14,14 bottom of the feed hopper are installed with feeding storehouse 1, and 1 lower section of the feeding storehouse is fixedly connected There are the first support leg 2,1 right side of the feeding storehouse to be fixedly connected with Cleaning pipes 13, the Cleaning pipes 13 are logical with drying box 11 It crosses bolt group to be fixedly connected, easy to disassemble and maintenance, 13 bottom of the Cleaning pipes offers mudhole, and mudhole passes through Pipeline is connected to filtering ponds, for realizing water resource is recycled, economizes on resources, intermediate solid above 13 right end of the Cleaning pipes Dingan County is equipped with cleannes analyzer 12, and the transmission of 13 bottom inner surface of the Cleaning pipes is equipped with the first transmission shaft 17, and described the One transmission shaft, 17 top is sequentially connected with the first material-conveying belt 15, and 13 inside upper surface of the Cleaning pipes is installed with cleaning spray First 16,11 bottom inner surface of drying box top is sequentially connected with second driving shaft 19, and 19 top of the second driving shaft passes Dynamic to be connected with the second material-conveying belt 18, for conveying steel scrap to be dried, 11 bottom inner surface of the drying box offers drying wind Machine mouth 20 is installed with total score parser 21, institute for drying the moisture on steel scrap above 11 inner right side face of the drying box It states and offers observation window 4 among 11 front of drying box, 4 right side of the observation window is installed with by keyboard 5, the drying box 11 Top is installed with moisture detector 10, and the moisture detector 10, cleannes analyzer 12 and total score parser 21 pass through letter Number transmitter is electrically connected with cleannes feedback module 22, humidity feedback module 23 and general feedback module 24, can be by device The feedback data of each process of steel scrap dedusting is sent in time, 11 lower section of the drying box is fixedly connected with the second support Leg 3 offers discharge port 6 among 11 right side of the drying box, and 6 right side of the discharge port is fixedly connected with feeding groove 9, described 11 right side of drying box is equipped with splicing trolley 8, and 8 lower section of the splicing trolley is fixedly connected with universal wheel 7, the cleannes feedback Module 22, humidity feedback module 23 and general feedback module 24 are electrically connected with data collection center 25, in the data collection The data received are issued data processing module 26 by the heart 25, and the data processing module 26 analyzes the data received And processing, feedback adjustment center 27 is then sent the data to, the feedback adjustment center 27 is adjusted simultaneously feedback data Optimization, is being sent to server terminal 28 by prioritization scheme, is being tested to steel scrap dust removing effects by intelligence system, and provide Prioritization scheme.

Operation principle：In use, steel scrap is poured by feed hopper 14, then steel scrap is transported to the first conveying by feeding storehouse 1 It on band 15, is driven and is entered in Cleaning pipes 13 by the first material-conveying belt 15, then start cleaning sprayer 16 to steel scrap by pressing keyboard 5 It is cleaned, after the completion of wash phase, steel scrap is transported on the second material-conveying belt 18, is driven by the second material-conveying belt 18 and is entered drying box 11, start drying wind turbine by pressing keyboard 5, the drying wind turbine mouth 20 opened up by 11 bottom inner surface of drying box is dried on steel scrap Moisture, finally entered in splicing trolley 8 by feeding groove 9, then transported by worker, moisture detector 10, cleaning in whole process Analyzer 12 and total score parser 21 are spent, device timely feedbacks each process of steel scrap dedusting, transfers data to data receipts The data received are issued data processing module 26 by collection center 25, data collection center 25, and the data processing module 26 will The data received are analyzed and are handled, and feedback adjustment center 27, the feedback adjustment center 27 are then sent the data to Feedback data is adjusted and is optimized, prioritization scheme is being sent to server terminal 28, steel scrap is removed by intelligence system Dirt effect is tested, and provides prioritization scheme.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is appreciated that can these embodiments be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (5)

1. intelligent and high-efficiency steel scrap dedusting pilot test system, including drying box (11) and feed hopper (14), it is characterised in that：The charging Bucket (14) bottom is installed with feeding storehouse (1), and the first support leg (2) is fixedly connected with below the feeding storehouse (1), described to send Cleaning pipes (13) are fixedly connected on the right side of feed bin (1), Cleaning pipes (13) the right end top is intermediate to be installed with cleaning Analyzer (12) is spent, Cleaning pipes (13) the bottom inner surface transmission is equipped with the first transmission shaft (17), first transmission The first material-conveying belt (15) is sequentially connected with above axis (17), Cleaning pipes (13) inside upper surface is installed with cleaning spray Head (16), drying box (11) the bottom inner surface top are sequentially connected with second driving shaft (19), the second driving shaft (19) top is sequentially connected with the second material-conveying belt (18), and drying box (11) bottom inner surface offers drying wind turbine mouth (20), total score parser (21) is installed with above drying box (11) the inner right side face, during the drying box (11) is positive Between offer observation window (4), be installed on the right side of the observation window (4) by keyboard (5), it is fixed above the drying box (11) Moisture detector (10) is installed, the second support leg (3), the drying box (11) are fixedly connected with below the drying box (11) Discharge port (6) is offered among right side, and feeding groove (9), the drying box (11) are fixedly connected on the right side of the discharge port (6) Right side is equipped with splicing trolley (8), and universal wheel (7) is fixedly connected with below the splicing trolley (8).

2. intelligent and high-efficiency steel scrap dedusting pilot test system according to claim 1, it is characterised in that：The Cleaning pipes (13) It is fixedly connected by bolt group with drying box (11).

3. intelligent and high-efficiency steel scrap dedusting pilot test system according to claim 1, it is characterised in that：The Cleaning pipes (13) Bottom offers mudhole, and mudhole is connected to filtering ponds by pipeline.

4. intelligent and high-efficiency steel scrap dedusting pilot test system according to claim 1, it is characterised in that：The moisture detector (10), cleannes analyzer (12) and total score parser (21) are anti-by signal projector and cleannes feedback module (22), humidity It presents module (23) and general feedback module (24) is electrically connected.

5. intelligent and high-efficiency steel scrap dedusting pilot test system according to claim 4, it is characterised in that：The cleannes feed back mould Block (22), humidity feedback module (23) and general feedback module (24) are electrically connected with data collection center (25), the data The data received are issued data processing module (26) by collection center (25), and the data processing module (26) is by what is received Data are analyzed and are handled, and then send the data to feedback adjustment center (27), the feedback adjustment center (27) is to anti- Feedback data are adjusted and optimize, and prioritization scheme is being sent to server terminal (28).