CN219965527U - Screening machine capable of screening incinerator slag in grading mode - Google Patents

Abstract

The utility model discloses a screening machine capable of screening incinerator slag in a grading manner, which comprises a screening structure used for screening the incinerator slag in a grading manner, wherein the screening structure is provided with a dust falling structure for collecting the incinerator slag dust, the screening structure comprises a driving assembly which is arranged in an adjusting manner and comprises a mounting plate with a connecting hole, the mounting plate is internally provided with a connecting bearing which is arranged in the connecting hole, the connecting bearing is movably arranged with a mounting block which is also arranged in the connecting hole through the connecting plate, the mounting block is arranged through a bottom plate, the driving assembly comprises a connecting plate, the connecting plate is movably arranged with a wire block through a connecting pin and a double-hole connecting plate, and the wire block is arranged through a reciprocating motor and a screw rod.

Description

Screening machine capable of screening incinerator slag in grading mode

Technical Field

The utility model relates to the technical field of incinerator slag, in particular to a screening machine capable of screening the incinerator slag in a grading manner.

Background

Through the research and development to incineration slag treatment facility, compatibility scheme, realize cement kiln and cooperatively handle benefit promotion and cost reduction, solve the pretreatment benefit that appears in the handling process and hang down and grog quality problem to promote handling efficiency, and mix in the slag and have stone and impurity more, and ordinary sieve separator produces a large amount of dust easily to the slag hierarchical screening in-process, not only influence the condition of artifical normal unloading on like this and still lead to the manual work to absorb a large amount of dust and cause the condition of respiratory tract infection.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a screening machine capable of screening incineration slag in a grading manner, so that the problem that a large amount of dust is easily generated in the slag screening process by a common screening machine in the prior art, and the condition of artificial normal feeding and discharging is affected, and the problem of respiratory tract infection caused by artificial absorption of a large amount of dust is solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the screening machine capable of screening the incinerator slag in a grading manner comprises a screening structure for screening the incinerator slag in a grading manner, wherein a dust falling structure for collecting the incinerator slag dust is arranged on the screening structure;

the screening structure comprises a driving assembly which is arranged in an adjusting manner on the screening assembly, the driving assembly comprises a mounting plate with a connecting hole, a connecting bearing which is arranged in the mounting plate through the connecting hole is arranged in the connecting plate, the connecting bearing is movably arranged with a mounting block which is also arranged in the connecting hole through the connecting plate, and the mounting block is arranged through a bottom plate;

the driving assembly comprises a connecting plate, the connecting plate is movably arranged with the wire block through a connecting pin and a double-hole connecting plate, and the wire block is arranged through a reciprocating motor and a screw rod.

Through adopting above-mentioned technical scheme, thereby play two-way installation setting and atress activity regulation effect through the connecting plate that sets up.

Preferably, the screening structure includes hierarchical screening subassembly, and hierarchical screening subassembly is including the screening case that has the hopper down, and screening case one side link up and has offered a plurality of logical grooves that make things convenient for the installation of material ladder to set up, and logical groove is equipped with a plurality of screening nets to the slag classification screening through screening incasement portion, and the screening net passes through screening case installation setting on the mounting panel.

Through adopting above-mentioned technical scheme, thereby play installation setting and branch material screening ejection of compact effect through the material ladder that sets up.

Preferably, the dust fall structure comprises a connecting frame with a hollow structure, connecting grooves convenient for the installation and setting of the sliding rod are symmetrically formed in the connecting frame, and the connecting grooves penetrate through the sliding rod and are provided with connecting springs arranged at the bottom of the sliding block.

Through adopting above-mentioned technical scheme, thereby through the slide bar that sets up play run through setting and slide spacing effect.

Preferably, the dust falling structure comprises sliding blocks, a stress plate for pressing the connecting springs is arranged between the sliding blocks, and the stress plate is connected with the conveying pipe through a dust falling barrel.

Through adopting above-mentioned technical scheme, thereby through the dust fall bucket that sets up, play the dust and collect the effect.

Preferably, the dust fall structure comprises a conveying pipe, one end of the conveying pipe is arranged with the fan, and the fan is communicated with the screening box through a suction pipe.

Through adopting above-mentioned technical scheme, thereby through the fan that sets up play two-way setting and extraction conveying effect.

Preferably, the connection shapes of the double-hole connecting plate, the wire block and the connecting plate are arranged in a triangular structure.

Through adopting above-mentioned technical scheme, thereby through the diplopore connecting plate that sets up, play the atress and drive the regulation effect.

Compared with the prior art, the utility model has the beneficial effects that: the screening machine capable of screening the incinerator slag in a grading way,

(1) The dust falling structure is arranged, so that a large amount of dust is easily generated in the slag classifying and screening process of a common screening machine, the problem that a large amount of dust is manually absorbed to cause respiratory tract infection is solved, when the classifying and screening device works, the fans synchronously work, the generated dust is conveyed into the dust falling barrel through the suction pipes in the working process of the fans, the dust conveyed into the dust falling barrel is in mixed contact with dust falling liquid in the dust falling barrel, the generated dust is subjected to dust falling effect, when the dust falling barrel is used for a long time, an operator manually drives the stress plate to carry out stress motion, and the stress plate is subjected to stress extrusion on the connecting spring in the stress motion process, so that the dust falling barrel is subjected to stress separation from the conveying pipe, and the dust falling barrel is conveniently and rapidly detached from the dust falling barrel and the dust falling liquid in the dust falling barrel are replaced conveniently and rapidly after the stress separation of the dust falling barrel and the conveying pipe are subjected to the effect, and the dust falling structure is utilized, so that the situation is avoided;

(2) Through the drive assembly who sets up in the screening structure to solve the screening machine and stably carry unloading screening effect, when the slag needs hierarchical screening, control reciprocating motor work this moment, when reciprocating motor course of working drives silk piece atress motion through the lead screw, silk piece atress motion in-process drives connecting plate atress motion through the diplopore connecting plate, and connecting plate atress motion in-process drives mounting panel and bottom plate atress reciprocating motion, carries out stable hierarchical screening to the slag of carrying in the inside of screening machine through mounting panel atress reciprocating motion in-process, thereby avoids foretell circumstances.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic diagram of a screening structure according to the present utility model;

FIG. 3 is a schematic diagram of a driving assembly according to the present utility model;

FIG. 4 is a schematic view of the structure of the mounting plate, the connecting plate, the mounting block, the bottom plate, the double-hole connecting plate and the wire block;

FIG. 5 is a schematic diagram of a hierarchical screening assembly of the present utility model;

FIG. 6 is a schematic view of the dust settling structure of the present utility model.

In the figure: 1. screening structure, 101, driving component, 1011, mounting plate, 1012, connecting plate, 1013, mounting block, 1014, bottom plate, 1015, double-hole connecting plate, 1016, wire block, 1017, screw rod, 1018, reciprocating motor, 102, hierarchical screening component, 1021, screening box, 1022, material ladder, 1023, screening net, 2, dust falling structure, 201, connecting frame, 202, slide bar, 203, connecting spring, 204, slide block, 205, force bearing plate, 206, dust falling barrel, 207, conveying pipe, 208, fan, 209, and suction 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.

Referring to fig. 1-6, the present utility model provides a technical solution: the utility model provides a screening machine that can screen burn slag in grades, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, including as the screening structure 1 to the slag screening in grades, screening structure 1 includes the drive assembly 101 that sets up to hierarchical screening assembly 102 regulation, drive assembly 101 is including the mounting panel 1011 that has the connecting hole, the mounting panel 1011 is equipped with the connecting bearing that the installation set up through the connecting hole inside, the connecting bearing passes through connecting plate 1012 and the installation piece 1013 activity setting of connecting hole equally, and installation piece 1013 passes through bottom plate 1014 installation setting.

Preferably, the mounting blocks 1013, the connecting bearings and the connecting plates 1012 are all provided with 4, and the number matching installability effect of the parts is reflected when the parts are all provided with 4, the force synchronous adjustment effect and the force driving adjustment effect of the parts on the mounting plate 1011 are also reflected, and the force supporting effect of the parts on the mounting plate 1011 is also reflected when the parts are all provided with 4.

The above scheme is further that the driving assembly 101 includes the connecting plate 1012, the connecting plate 1012 is movably arranged with the wire block 1016 through the connecting pin and the double-hole connecting plate 1015, the connecting shape of the double-hole connecting plate 1015, the wire block 1016 and the connecting plate 1012 is in a triangle structure, when the connecting shape of the double-hole connecting plate 1015 and the wire block 1016 is in a triangle structure, the stress portability of the connecting plate 1012 is reflected, the stress synchronous regulation effect of other connecting plates 1012 is reflected, and when the connecting shape of the double-hole connecting plate 1015 and the wire block 1016 is in a triangle structure, the triangle structure is a structure with stronger stability in all structures, so that the stability after the connection of the three structures is improved, the synchronous stress portability and the synchronous stress regulation effect of the three structures are reflected, and the wire block 1016 is installed and arranged through the reciprocating motor 1018 and the screw 1017.

Above-mentioned scheme is further in proper order, screening structure 1 includes hierarchical screening subassembly 102, hierarchical screening subassembly 102 is including the screening case 1021 that has the hopper down, the logical groove of a plurality of convenience material ladders 1022 installation settings has been seted up in lining up to screening case 1021 one side, it is equipped with a plurality of screening nets 1023 to the slag classification screening through screening case 1021 inside to lead to the groove, and screening nets 1023 install through screening case 1021 and set up on the mounting panel 1011, wherein, material ladles 1022 and screening nets 1023 take the logarithm setting, and above-mentioned two all are provided with 4, screening nets 1023 all take the mesh to install the setting in proper order by big to little mode simultaneously, so effectually play hierarchical screening effect to the slag.

In the above scheme, an operator controls the reciprocating motor 1018 to work, the screw rod 1017 drives the screw block 1016 and the double-hole connecting plate 1015 to reciprocate in the working process of the reciprocating motor 1018, the connecting plate 1012 drives the mounting plate 1011 to move relatively to the mounting block 1013 and the bottom plate 1014 in a stress reciprocating process of the double-hole connecting plate 1015, and the mounting plate 1011 drives the screening box 1021 to synchronously move in a stress process, when the screening box 1021 moves in a stress process, slag entering the screening box 1021 at the moment performs graded screening and discharging effects through the material ladder 1022 and the screening net 1023.

As shown in fig. 6, be equipped with on the screening structure 1 to the dust fall structure 2 that slag dust was collected, dust fall structure 2 is including inside being hollow structure's linking frame 201, the linking groove that makes things convenient for slide bar 202 installation to set up is offered to linking frame 201 inside symmetry, the linking groove runs through slide bar 202 be equipped with slider 204 bottom installation setting's coupling spring 203, wherein, slide bar 202, slider 204, coupling spring 203 and linking groove all are provided with two, utilize above-mentioned spare part to take equally to set up the effectual installation setting effect that plays steadily stable to atress board 205 when setting up to utilize above-mentioned spare part to constitute corresponding compression structure, effectually install the dismantlement effect fast to dust fall bucket 206.

The scheme is further that the dust falling structure 2 comprises the sliding blocks 204, the stress plates 205 for carrying out stress extrusion on the connecting springs 203 are arranged between the sliding blocks 204, the stress plates 205 are connected with the conveying pipes 207 through the dust falling barrels 206, wherein the whole shape of the dust falling barrels 206 is in a water barrel structure, and when the water barrel structure is integrally adopted by the parts, the dust falling structure not only effectively wraps one end of the conveying pipes 207, but also effectively loads and topples dust falling liquid.

The scheme is further in proper order, and dust fall structure 2 includes conveyer pipe 207, and conveyer pipe 207 one end and fan 208 installation set up, and fan 208 passes through straw 209 and screening case 1021 intercommunication setting, and wherein, conveyer pipe 207, fan 208 and straw 209 all take prior art structure setting, and effectual dust fall effect is carried in the extraction to the dust when utilizing prior art structure setting.

In the above scheme, when the slag is classified and screened, at this moment, the operator controls the fan 208 to work, and the fan 208 is during operation to carry dust in the dust fall bucket 206 through straw 209 and conveyer pipe 207 and carry out dust fall processing, get into the dust and dust fall liquid atress contact in the dust fall bucket 206 inside, when the inside dust fall liquid live time of dust fall bucket 206 is longer, the operator manually presses the atress board 205 motion, the atress board 205 atress in-process of moving is through slider 204 to the extrusion of connecting spring 203 atress, thereby separate dust fall bucket 206 and atress board 205 atress when dust fall bucket 206 and conveyer pipe 207 atress separation are thus toppling over the dust fall liquid of dust fall bucket 206 inside.

The terms "center," "longitudinal," "transverse," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used for descriptive simplicity and convenience only and not as an indication or implying that the apparatus or element being referred to must have a particular orientation, be constructed and operated for a particular orientation, based on the orientation or positional relationship illustrated in the drawings, and thus should not be construed as limiting the scope of the present utility model.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides a screening machine that can screen in grades to incineration slag, is including screening structure (1) as the screening of classifying slag, its characterized in that: a dust falling structure (2) for collecting slag dust is arranged on the screening structure (1);

the screening structure (1) comprises a driving assembly (101) for adjusting and setting the hierarchical screening assembly (102), the driving assembly (101) comprises a mounting plate (1011) with a connecting hole, a connecting bearing for mounting is arranged inside the mounting plate (1011) through the connecting hole, the connecting bearing is movably arranged with a mounting block (1013) which is also connected with the connecting hole through a connecting plate (1012), and the mounting block (1013) is mounted and arranged through a bottom plate (1014);

the driving assembly (101) comprises a connecting plate (1012), the connecting plate (1012) and a wire block (1016) are movably arranged through a connecting pin and a double-hole connecting plate (1015), and the wire block (1016) is arranged through a reciprocating motor (1018) and a screw rod (1017).

2. The screening machine capable of screening incinerator slag in a grading manner according to claim 1, wherein: screening structure (1) is including hierarchical screening subassembly (102), and hierarchical screening subassembly (102) are including screening case (1021) that has the hopper down, and a plurality of logical grooves that make things convenient for installation setting of material ladder (1022) have been seted up in lining up to screening case (1021) one side, and logical groove is equipped with a plurality of screening nets (1023) to the hierarchical screening of slag through screening case (1021) inside, and screening net (1023) are installed through screening case (1021) and are set up on mounting panel (1011).

3. The screening machine capable of screening incinerator slag in a grading manner according to claim 1, wherein: the dust falling structure (2) comprises a connecting frame (201) with a hollow structure, connecting grooves convenient for the installation and setting of sliding rods (202) are symmetrically formed in the connecting frame (201), and connecting springs (203) arranged at the bottoms of sliding blocks (204) are arranged in the connecting grooves in a penetrating mode through the sliding rods (202).

4. A screening machine for the classified screening of incinerator slag according to claim 3, wherein: the dust falling structure (2) comprises sliding blocks (204), stress plates (205) for pressing the connecting springs (203) are arranged between the sliding blocks (204), and the stress plates (205) are connected with the conveying pipe (207) through dust falling barrels (206).

5. The screening machine for classifying and screening incinerator slag according to claim 4, wherein: the dust falling structure (2) comprises a conveying pipe (207), one end of the conveying pipe (207) is arranged with a fan (208), and the fan (208) is communicated with a screening box (1021) through a suction pipe (209).

6. The screening machine capable of screening incinerator slag in a grading manner according to claim 1, wherein: the connection shape of the double-hole connection plate (1015), the wire block (1016) and the connection plate (1012) is in a triangular structure.