阅读说明：本技术 一种锌粉生产过程中的废料回收装置 (Waste recovery device in zinc powder production process ) 是由 李珊珊 于 2020-07-10 设计创作，主要内容包括：本发明公开了一种锌粉生产过程中的废料回收装置,涉及锌粉生产废料回收领域,包括处理箱体,所述处理箱体的底面均匀焊接有支撑底块,所述支撑底块的底面固定粘接有胶垫块,所述处理箱体的一侧边均匀开设有收纳槽,所述收纳槽的内侧边插接有粗料抽屉,所述粗料抽屉的侧边水平开设有拉槽,所述收纳槽的内侧边插接有中料抽屉,所述收纳槽的内侧边插接有细料抽屉,所述处理箱体的一侧边镶嵌有控制面板,所述处理箱体的一侧边螺栓连接有风体箱。本发明装置设计一体化结构简单操作方便,在采用了多重的隔绝和筛选的结构使得废料可以进行分类收集便于后期的进行处理,且在密封的结构下使得环境更加的干净卫生智能化控制设置使得简单易上手。(The invention discloses a waste recovery device in a zinc powder production process, which relates to the field of zinc powder production waste recovery and comprises a treatment box body, wherein a supporting bottom block is uniformly welded on the bottom surface of the treatment box body, a rubber cushion block is fixedly bonded on the bottom surface of the supporting bottom block, an accommodating groove is uniformly formed in one side edge of the treatment box body, a coarse material drawer is inserted into the inner side edge of the accommodating groove, a pull groove is horizontally formed in the side edge of the coarse material drawer, a middle material drawer is inserted into the inner side edge of the accommodating groove, a fine material drawer is inserted into the inner side edge of the accommodating groove, a control panel is embedded into one side edge of the treatment box body, and a wind box is connected to one side edge of the treatment box body through bolts. The device is integrated, simple in structure and convenient to operate, waste materials can be classified and collected by adopting a multiple isolation and screening structure, the waste materials are convenient to process at a later stage, and the environment is cleaner, more sanitary and intelligent under a sealed structure, so that the device is simple and easy to operate.)

1. The waste recovery device in the production process of zinc powder comprises a processing box body (1) and is characterized in that a supporting bottom block (2) is uniformly welded on the bottom surface of the processing box body (1), a rubber cushion block (3) is fixedly bonded on the bottom surface of the supporting bottom block (2), a containing groove (4) is uniformly formed in one side edge of the processing box body (1), a coarse material drawer (5) is inserted into the inner side edge of the containing groove (4), a pull groove (6) is horizontally formed in the side edge of the coarse material drawer (5), a middle material drawer (7) is inserted into the inner side edge of the containing groove (4), a fine material drawer (8) is inserted into the inner side edge of the containing groove (4), a control panel (9) is embedded into one side edge of the processing box body (1), a wind box (10) is connected to one side edge of the processing box body (1), a blanking funnel (11) is welded at the top end of the processing box body (1), the processing box body (1) is horizontally welded with a conical pipe (12) at one side far away from the air body box (10), one end of the conical pipe (12) far away from the processing box body (1) is welded with an L-shaped pipeline (13), one side of the processing box body (1) far away from the air body box (10) is horizontally welded with a powder box body (14), one side of the powder box body (14) is provided with a clamping groove (15), the inner side of the clamping groove (15) is spliced with a powder drawer (16), the powder box body (14) is uniformly provided with an air outlet grid (17) at one side far away from the processing box body (1), the inner side of the processing box body (1) is obliquely welded with a top inclined plate (18), the inner side of the processing box body (1) is obliquely welded with a blanking inclined plate (19), the inner side of the processing box body (1) is obliquely welded with a screening plate (20), and the side of the processing box body (1) is vertically, an air outlet (22) is vertically arranged on one side edge of the processing box body (1) far away from an air body hole (21), an isolation screen plate (23) is vertically clamped on the inner side edge of the air outlet control (22), a supporting plate (24) is horizontally clamped on the inner side edge of the processing box body (1), a blanking funnel (25) is vertically and uniformly bolted on the inner side edge of the supporting plate (24) downwards, an isolation vertical plate (26) is vertically welded on the inner side bottom surface of the processing box body (1), an air suction grille (27) is uniformly arranged on the side edge far away from an opening end of the air body box (10), a fixed vertical plate (28) is vertically welded on the inner side edge of the air body box (10), a motor (29) is horizontally bolted on the inner side edge of the fixed vertical plate (28), fan blades (30) are fixedly connected on the output end of the motor (29), and a connecting frame (31) is welded on the outer side edge, an isolation rubber ring (32) is fixedly adhered to one side edge of the connecting frame (31) close to the processing box body (1), a closed plate (33) is fixedly clamped at the opening end position of the inner side edge of the wind box (10), an inclined falling plate (34) is obliquely clamped at the inner side of the powder box body (14), a triangular bottom block (35) is connected with the bottom surface of the inner side of the powder box body (14) through bolts, the interior of a side clamping groove of the screening plate (20) is fixedly clamped with a rubber block body (36), the inner side of the screening plate (20) is horizontally provided with a screening screen plate (37), the inner side of the rubber block body (36) is horizontally clamped with a clamping strip (38), the inner side of the rubber block body (36) is vertically clamped with a top connecting spring (39), the inboard edge of joint strip (38) is inlayed and is had electromagnetic shaker (40), the inboard edge horizontal fixation joint of down-tilting plate (34) has powder baffle (41).

2. The waste recovery device in the zinc powder production process of claim 1, wherein the number of the supporting bottom blocks (2) is several, the supporting bottom blocks (2) are respectively and fixedly arranged at the positions, close to corners, of the bottom surface of the processing box body (1), the number of the rubber cushion blocks (3) is consistent with the number of the supporting bottom blocks (2), the rubber cushion blocks (3) are made of hard rubber materials, the accommodating grooves (4) are horizontally arranged in a straight shape and are arranged at the position, close to the bottom surface, of one side edge of the processing box body (1), the accommodating grooves (4) extend to the inside through the outer side edge of the processing box body (1), and the positions, extending to the isolating vertical plates (26), of the accommodating grooves are communicated with the inside of the processing box body (1).

3. The waste recovery device in the zinc powder production process of claim 1, wherein the coarse material drawer (5), the medium material drawer (7) and the fine material drawer (8) are respectively inserted into the inner side of the corresponding accommodating groove (4), the coarse material drawer (5), the medium material drawer (7) and the fine material drawer (8) extend to the inner side opening end of the processing box body (1) and are arranged upwards, the wind body box (10) is buckled and arranged at the adjacent side position of the accommodating groove (4) of the processing box body (1), and the opening end of the wind body box (10) is butted at the side position of the wind body hole (21).

4. The waste recycling device in the zinc powder production process of claim 1, wherein the opening of the blanking funnel (11) is upward, the inner side of the blanking funnel (11) is connected to the inside of the processing box (1), the tapered tube (12) is fixed at the side position of the air outlet (22), the inside of the tapered tube (12) is connected to the inside of the air outlet (22), one end of the L-shaped pipeline (13) is horizontally welded at one end of the tapered tube (12), the other end of the L-shaped pipeline (13) is vertically welded at the top position of the powder box (14), and the inside of the L-shaped pipeline (13) is connected to the tapered tube (12) and the inside of the powder box (14).

5. The waste recycling device in the zinc powder production process of claim 1, wherein the powder box body (14) is horizontally and fixedly arranged at the position close to the bottom of the side of the processing box body (1), the bottom of the powder box body (14) is fixedly provided with a supporting bottom block (2) and a rubber cushion block (3) close to the corner, a clamping groove (15) penetrates through the outer side edge of the powder box body (14) and is communicated with the inside, and the opening end of the powder drawer (16) and the inclined lower end of the inclined falling plate (34) are kept at the same horizontal plane position.

6. The waste recycling device in the zinc powder production process as defined in claim 1, wherein the top sloping plate (18) and the blanking sloping plate (19) are both obliquely and fixedly arranged at the inner side of the processing box body (1) close to the top position, and the top sloping plate (18) and the blanking sloping plate (19) are arranged in the opposite direction, the top sloping plate (18) and the blanking sloping plate (19) are arranged in a stacked manner at the inner side of the processing box body (1) close to the bottom position of the blanking funnel (11), the screening plate (20) is obliquely and downwardly and fixedly arranged at the bottom position of the blanking sloping plate (19), and the periphery of the screening plate (20) is fixedly arranged at the inner side position of the processing box body (1).

7. The waste recovery device in the zinc powder production process of claim 1, wherein the air holes (21) and the air outlets (22) are arranged at the positions of the side edge of the processing box body (1) close to the bottom surface of the screening plate (20), the supporting plate (24) is horizontally and fixedly arranged at the position of the inner side edge of the processing box body (1) close to the opening end of the coarse material drawer (5), the supporting plate (24) is arranged in a shape like a Chinese character kou, the number of the blanking funnels (25) is consistent with that of the drawers, the inner part of the blanking funnels (25) is communicated with the inner part of the processing box body (1), the bottom ends of the blanking funnels (25) are all in butt joint with the open end positions of the top ends of the coarse material drawer (5), the middle material drawer (7) and the fine material drawer (8), and the isolation vertical plates (26) are arranged in parallel and vertical directions among a plurality of drawers.

8. The waste recovery device in the zinc powder production process of claim 1, wherein the side of the fixed vertical plate (28) is uniformly provided with through holes, the number of the motors (29) is several, the motors (29) are respectively and transversely and fixedly arranged at the inner side positions of the through holes, the connecting frame (31) is fixedly arranged at the position of the outer side of the air body box (10) close to the side edge of the opening end, one side edge of the connecting frame (31) and the side edge of the air body box (10) are kept at the same horizontal plane, the isolating rubber ring (32) is made of soft rubber materials and is arranged between the connecting frame (31) and the processing box body (1), the inclined falling plate (34) is obliquely arranged at the position of the inner side edge of the powder box body (14) close to the bottom end of the L-shaped pipeline (13), and one side edge is butted at the position of the side edge of the drawer powder (16) close to the top surface.

9. The waste recycling device in the zinc powder production process of claim 1, wherein the top end of the triangular bottom block (35) is butted at the bottom position of the inclined falling plate (34), both ends of the triangular bottom block are horizontally welded at the inner side of the powder box body (14), the rubber block body (36) is made of soft rubber materials, the screening mesh plate (37) is woven by steel wires to form mesh structures with different specifications and sizes, the inner side edge of the clamping strip (38) is horizontally welded at the peripheral side position of the screening mesh plate (37), one end of the butting spring (39) is butted at the side position of the clamping strip (38) far away from the screening mesh plate (37), and the diameter of the through hole of the powder partition plate (41) is smaller than that of the powder.

Technical Field

The invention relates to the technical field of zinc powder production waste recovery, in particular to a waste recovery device in a zinc powder production process.

Background

The dark gray powdered metallic zinc molding can be used as a pigment and provides a very strong masking force. Has good antirust and atmospheric corrosion resistant functions. It is commonly used for manufacturing antirust paint, strong reducing agent, etc. The zinc powder produced by chemical industry is used in the production of sodium hydrosulfite, lithopone, sodium formaldehyde sulfoxylate, dye intermediate and the like, is used as a reducing agent, has larger dosage and slightly coarser granularity than coating zinc powder, and the average particle size of the zinc powder produced by some foreign enterprise for general chemical industry is 6-9 mu m. The corrosion prevention of steel members produced by using the zinc anticorrosive paint is the most main application of metal zinc, and the coating modes comprise hot dipping, electroplating, hot spraying, zinc-rich paint, powder plating and the like, wherein the hot dipping is the most main method. The zinc-rich coating is mainly used for coating large steel members which are not suitable for hot dipping and electroplating, such as large outdoor steel structures (ocean engineering, bridges, pipelines and the like), ships, containers and the like. The preparation is used for preparing toothpaste, zinc paste, adhesive plaster, etc., and is named as clove oil zinc oxide solid powder.

To having other solid impurity waste materials to discharge when producing zinc powder now along with, traditional is just the collection of integration then centralized processing when handling these solid waste materials, can cause the not comprehensive environmental pollution condition that brings of processing in later stage like this, adopt the collection of separation to handle and be that simple carry out the large granule and the powder is distinguished, still can not reach the effect of refining and distinguishing and then handling, make the treatment effeciency in later stage greatly reduced, still need artifical the participation when present throwing the material simultaneously, it is not sanitary enough to have led to the staff to put on one's body in the environment that pollutes, traditional processing step is more so that the operation is complicated very easily makes the staff get on the hand as soon as possible operate, let the efficiency of handling further reduce.

Disclosure of Invention

The invention aims to provide a waste recovery device in the zinc powder production process, which solves the problems that the traditional method provided by the background technology is to integrally collect and then intensively treat solid wastes, so that the later treatment is not comprehensive and the environment pollution is caused, the separated collection treatment is adopted, namely, large particles and powder are simply distinguished, or the effect of finely distinguishing and then treating cannot be achieved, so that the later treatment efficiency is greatly reduced, meanwhile, the existing feeding needs manual work, so that workers are not hygienically placed in the polluted environment, the traditional treatment steps are more, the operation is complicated, the workers are not easy to operate as soon as possible, and the treatment efficiency is further reduced.

In order to achieve the purpose, the invention provides the following technical scheme:

a waste recovery device in the production process of zinc powder comprises a processing box body, wherein a supporting bottom block is uniformly welded on the bottom surface of the processing box body, a rubber cushion block is fixedly bonded on the bottom surface of the supporting bottom block, an accommodating groove is uniformly formed in one side edge of the processing box body, a coarse material drawer is inserted into the inner side edge of the accommodating groove, a pull groove is horizontally formed in the side edge of the coarse material drawer, a middle material drawer is inserted into the inner side edge of the accommodating groove, a fine material drawer is inserted into the inner side edge of the accommodating groove, a control panel is embedded in one side edge of the processing box body, a wind box is connected to one side edge of the processing box body through a bolt, a blanking funnel is welded at the top end of the processing box body, a tapered pipe is horizontally welded at one side edge far away from the wind box body, an L-shaped pipeline is welded at one end far away from the processing box body, and a powder is horizontally welded at one side edge, the powder processing device is characterized in that a clamping groove is formed in one side edge of a powder box body, a powder drawer is inserted into the inner side edge of the clamping groove, an air outlet grid is uniformly formed in one side edge of the powder box body far away from a processing box body, a top inclined plate is welded to the inner side edge of the processing box body in an inclined mode, a screening plate is welded to the inner side edge of the processing box body in an inclined mode, an air hole is vertically formed in the side edge of the processing box body far away from the air hole, an air outlet hole is vertically formed in one side edge of the processing box body far away from the air hole, an isolation screen plate is vertically clamped to the inner side edge of an air outlet controller in an inclined mode, a supporting plate is horizontally clamped to the inner side edge of the processing box body, a blanking funnel is vertically and uniformly bolted to the inner side edge of the supporting plate downwards, an isolation vertical plate is vertically welded to, a fixed vertical plate is vertically welded at the inner side edge of the wind body box, a motor is horizontally bolted at the inner side edge of the fixed vertical plate, the output end of the motor is fixedly sleeved with fan blades, the outer side edge of the wind box is welded with a connecting frame, an isolation rubber ring is fixedly bonded on one side edge of the connecting frame close to the processing box body, a closing plate is fixedly clamped at the opening end position of the inner side edge of the wind body box, the inner side of the powder box body is obliquely clamped with an inclined falling plate, the bottom surface of the inner side of the powder box body is connected with a triangular bottom block by a bolt, the inside of the side clamping groove of the screening plate is fixedly clamped with a rubber block body, the inner side of the screening plate is horizontally provided with a screening screen plate, the inner side edge of the rubber block body is horizontally clamped with a clamping strip, the inner side edge of the rubber block body is vertically clamped with a top connecting spring, the internal side of joint strip is inlayed and is had the electromagnetic shaker, the inboard side level fixed joint of oblique falling plate has the powder baffle.

As a preferred embodiment of the present invention: the number of the supporting bottom blocks is a plurality of, and a plurality of supporting bottom blocks are respectively fixedly arranged at the bottom surface of the processing box body and close to the corner position, the number of the rubber cushion blocks is consistent with the number of the supporting bottom blocks, the rubber cushion blocks are made of hard rubber materials, the accommodating groove is in a linear shape and is horizontally arranged at one side of the processing box body and close to the bottom position, the accommodating groove penetrates through the outer side edge of the processing box body and extends to the inside, and the accommodating groove extends to the position between the isolating vertical plates and keeps in communication with the inside of the processing box body.

As a preferred embodiment of the present invention: coarse fodder drawer, well material drawer and fine material drawer peg graft respectively and accomodate the inboard side in groove that corresponds, and coarse fodder drawer, well material drawer and fine material drawer extend to the inboard side open end of handling the box and upwards set up, and wind body case lock joint sets up the adjacent side position in groove of accomodating of handling the box, and the open end butt joint of wind body case is in the side position in wind body hole.

As a preferred embodiment of the present invention: the opening of blanking funnel upwards sets up, and the inboard limit of blanking funnel keeps leading to with the inside of handling the box and connects the setting, and the fixed setting of toper pipe is in the side position of exhaust vent, and the inside of toper pipe keeps leading to with the inside of exhaust vent and connects the setting, and the one end level welding of L shape pipeline connects the one end position at the toper pipe, and the other end vertical welding of L shape pipeline connects the top surface position at the powder box, and the inside of L shape pipeline all keeps leading to with the inside of toper pipe, powder box and connects the setting.

As a preferred embodiment of the present invention: the powder box is horizontally and fixedly arranged at the position, close to the bottom, of the side edge of the processing box, the position, close to the corner, of the bottom of the powder box is fixedly provided with a supporting bottom block and a rubber cushion block, the clamping groove penetrates through the outer side edge of the powder box and is communicated with the interior of the powder box, and the opening end of the powder drawer and the inclined lower end of the inclined falling plate are kept at the same horizontal plane position.

As a preferred embodiment of the present invention: the top swash plate and the equal oblique fixed setting of blanking swash plate are close to the top surface position at the inboard side of handling the box, and top swash plate and blanking swash plate incline opposite direction setting each other, and top swash plate and blanking swash plate are the stack formula and arrange the bottom position that is close to the blanking funnel at the inboard side of handling the box, and the screening plate slant is fixed the setting in the bottom surface position of blanking swash plate down, and all fixed settings are in the inboard side position of handling the box all around of screening plate.

As a preferred embodiment of the present invention: the bottom surface position that the side of handling the box is close to the screening board is all seted up at tuber hole and exhaust vent, the fixed open end position that sets up at the inboard edge of handling the box near the coarse fodder drawer of backup pad level, and the backup pad is the setting of mouth word form, the number of blanking funnel keeps unanimous with the number of drawer, and the inside of blanking funnel keeps leading to with the inside of handling the box and connects the setting, the bottom of blanking funnel all docks at the coarse fodder drawer, the open end position in the top of well material drawer and fine material drawer, keep apart the riser and set up the position between a plurality of drawers to the vertical direction that is parallel each other.

As a preferred embodiment of the present invention: the through-hole has evenly been seted up to the side of fixed riser, the number of motor is a plurality of, and a plurality of motors transversely fix the setting respectively in the inboard side position of through-hole, the fixed outside limit that sets up at wind body case of connection frame is close to open end side position, and a side of connection frame keeps at same horizontal plane with the side of wind body case, it adopts soft rubber materials preparation to keep apart the rubber ring, and set up the position between connection frame and processing box, the oblique bottom position that is close to L shape pipeline at the inboard side of powder box is set up to one side, and a side butt joint is close to the top surface position at powder drawer side.

As a preferred embodiment of the present invention: the top butt joint of triangle bottom block is in the bottom surface position of the board that falls to one side, and the equal level welding in both ends is at the inboard side of powder box, and the rubber block body adopts soft rubber materials preparation, and the screening otter board is woven by the steel wire and is the network structure of different specification and dimension, and the inboard side level welding of joint strip is in the side position all around of screening otter board, and the one end butt joint of top joint spring is in the side position that the screening otter board was kept away from to the joint strip, and the through-hole diameter of powder baffle is less than the.

Compared with the prior art, the invention has the beneficial effects that:

1. the feeding is more rapid and efficient by designing the funnel, the feeding is more starved and sanitary without manual operation, the waste material slides to the top surface of the blanking inclined plate along the inclination when falling to the top inclined plate, the double-layer isolation is adopted to enable the material to be better dispersed, meanwhile, the reverse flow action of the air below the air body to the waste material can be isolated, the clamping strips are driven to vibrate at the inner side of the rubber block body under the vibration of the vibrator, the frequency of vibration of the clamping strips and the position of the screening net plate between the screening plates is increased under the support of the abutting springs, the waste material is screened when rolling from the upper end to the lower end under the vibration of the screening net plate, the air sucked by the air suction grille is accelerated to enter the inner side of the processing box body, the falling waste material is winnowing effect, the particles with larger diameter fall into the inner part of the coarse material drawer, the inside of well material drawer is fallen to well material granule to well size of a small particle, and the inside of falling to the thin material drawer of diameter is collected, thereby makes the powder in the waste material blow to the inside of exhaust vent and enter into the inboard side of conical duct under the effect of selection by winnowing, makes the granule of minor diameter can not bring together into the inside of conical duct under the isolation of isolation otter board.

2. The powder enters into the inside that the inside of L-shaped pipeline finally entered into the powder box under the drive of the wind body, make the wind body discharge from the through-hole and finally discharge from the grid of giving vent to anger under the isolated of the inboard powder baffle of inclined falling plate, and the powder gets into the inboard side that slides in the powder drawer along the inclination of inclined falling plate and collects the processing, the cushion plays isolated vibrations noise reduction's effect, device design integration simple structure convenient operation, the structure of having adopted multiple isolated and screening makes the waste material can carry out the categorised collection and be convenient for the later stage handle, and make the clean health intelligent control setting of environment more make simple easy to get to the hand under sealed structure.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of a scrap recycling apparatus for zinc powder production;

FIG. 2 is a schematic structural view showing the connection details of the front section of a processing box body of a waste recovery device in the production process of zinc powder;

FIG. 3 is a schematic structural view of a wind box section connection detail of a waste recovery device in a zinc powder production process;

FIG. 4 is a schematic structural view showing the connection details of the section of a powder box of a waste recovery device in the production process of zinc powder;

FIG. 5 is a schematic view showing the construction of the cross-sectional connection details of a screening plate of a scrap recycling apparatus in a zinc powder production process;

FIG. 6 is a schematic view showing the construction of a cross-sectional connection detail of a falling plate of a scrap collecting apparatus in a zinc powder production process.

In the figure: 1-treating the box body; 2-supporting the bottom block; 3-glue cushion blocks; 4-a storage groove; 5-coarse material drawer; 6-groove drawing; 7-a middle material drawer; 8-fine material drawer; 9-a control panel; 10-a wind box; 11-a blanking funnel; 12-a tapered tube; 13-L-shaped tubing; 14-powder box body; 15-clamping groove; 16-powder drawer; 17-an air outlet grid; 18-top sloping plate; 19-a blanking sloping plate; 20-screening plate; 21-air hole; 22-air outlet holes; 23-isolating the screen plate; 24-a support plate; 25-a blanking funnel; 26-isolating vertical plates; 27-a suction grille; 28-fixing the vertical plate; 29-a motor; 30-a fan blade; 31-a connecting frame; 32-isolation rubber ring; 33-a closing plate; 34-a down-dip plate; 35-triangular bottom block; 36-a gum block body; 37-screening the screen plate; 38-clamping strip; 39-butting spring; 40-a vibrator; 41-powder partition.

Detailed Description

Referring to fig. 1-2, in the embodiment of the invention, a waste recycling device in a zinc powder production process comprises a processing box body 1, wherein supporting bottom blocks 2 are uniformly welded on the bottom surface of the processing box body 1, rubber cushion blocks 3 are fixedly adhered to the bottom surface of the supporting bottom blocks 2, accommodating grooves 4 are uniformly formed in one side edge of the processing box body 1, the number of the supporting bottom blocks 2 is several, the supporting bottom blocks 2 are respectively and fixedly arranged at positions, close to corners, of the bottom surface of the processing box body 1, the number of the rubber cushion blocks 3 is consistent with that of the supporting bottom blocks 2, the rubber cushion blocks 3 are made of hard rubber materials, the accommodating grooves 4 are horizontally arranged at positions, close to the bottom surface, of one side edge of the processing box body 1 in a straight line shape, the accommodating grooves 4 penetrate through the outer side edge of the processing box body 1 and extend into the inside, and the positions extending to an isolation vertical plate 26 are communicated with the inside of, a coarse material drawer 5 is inserted into the inner side of the accommodating groove 4, a pull groove 6 is horizontally arranged on the side edge of the coarse material drawer 5, a medium material drawer 7 is inserted into the inner side of the accommodating groove 4, a fine material drawer 8 is inserted into the inner side of the accommodating groove 4, the coarse material drawer 5, the medium material drawer 7 and the fine material drawer 8 are respectively inserted into the inner side of the corresponding accommodating groove 4, the coarse material drawer 5, the medium material drawer 7 and the fine material drawer 8 extend to the inner side opening end of the processing box body 1 and are upwards arranged, a control panel 9 is embedded on one side edge of the processing box body 1, a wind box 10 is connected to one side edge of the processing box body 1 through bolts, the wind box 10 is buckled and arranged at the position of the adjacent side edge of the accommodating groove 4 of the processing box body 1, the opening end of the wind box 10 is butted at the position of the side edge of the wind hole 21, a funnel 11 is welded on the top end of the processing box body 1, a horizontal tapered tube 12 welded on one side, the one end welding of toper pipe 12 keeping away from processing box 1 has L-shaped pipeline 13, processing box 1 has powder box 14 at the side horizontal welding that keeps away from bellows case 10, the opening of blanking funnel 11 upwards sets up, and the inboard side of blanking funnel 11 keeps the logical setting with the inside of processing box 1, toper pipe 12 is fixed to be set up in the side position of exhaust vent 22, and the inside of toper pipe 12 keeps the logical setting with the inside of exhaust vent 22, the one end horizontal welding of L-shaped pipeline 13 is in the one end position of toper pipe 12, and the other end vertical welding of L-shaped pipeline 13 is in the top surface position of powder box 14, the inside and toper pipe 12 of L-shaped pipeline 13, the inside of powder box 14 all keeps the logical setting, a joint groove 15 has been seted up to one side of powder box 14, the inboard side grafting of joint groove 15 has powder drawer 16, powder box 14 horizontal fixed setting is close to the bottom surface position at the side of processing box 1, the bottom surface of the powder box body 14 is fixedly provided with a supporting bottom block 2 and a rubber cushion block 3 near the corner position, a clamping groove 15 penetrates through the outer side edge of the powder box body 14 and is communicated with the inside of the powder box body, the opening end of a powder drawer 16 and the inclined lower end of an inclined falling plate 34 are kept at the same horizontal plane position, an air outlet grid 17 is uniformly arranged on one side edge far away from the processing box body 1, an inclined top plate 18 is obliquely welded on the inner side edge of the processing box body 1, an inclined falling plate 19 is obliquely welded on the inner side edge of the processing box body 1, a screening plate 20 is obliquely welded on the inner side edge of the processing box body 1, the inclined top plate 18 and the inclined falling plate 19 are obliquely and fixedly arranged at the position close to the top surface at the inner side edge of the processing box body 1, the inclined top plate 18 and the inclined falling plate 19 are arranged in opposite directions, the inclined top plate 18 and the inclined falling, the screening plate 20 is fixedly arranged at the bottom position of the blanking inclined plate 19 in a downward inclined manner, the periphery of the screening plate 20 is fixedly arranged at the inner side edge position of the processing box body 1, the side edge of the processing box body 1 is vertically provided with a wind body hole 21, the processing box body 1 is vertically provided with a wind outlet hole 22 at the side edge far away from the wind body hole 21, the inner side edge of the wind outlet control 22 is vertically and vertically clamped with an isolation screen plate 23, the inner side edge of the processing box body 1 is horizontally and vertically clamped with a support plate 24, the inner side edge of the support plate 24 is vertically and uniformly bolted with a blanking funnel 25, the inner side bottom surface of the processing box body 1 is vertically welded with an isolation vertical plate 26, the wind body hole 21 and the wind outlet hole 22 are both arranged at the bottom position close to the screening plate 20 at the side edge of the processing box body 1, the support plate 24 is horizontally and fixedly arranged at the position close to the, the number of the blanking funnels 25 is consistent with that of the drawers, the interiors of the blanking funnels 25 and the interiors of the processing box bodies 1 are communicated, the bottom ends of the blanking funnels 25 are all butted at the top opening ends of the coarse material drawer 5, the middle material drawer 7 and the fine material drawer 8, and the isolation vertical plates 26 are arranged among the drawers in parallel and in the vertical direction;

referring to fig. 3-4, in the embodiment of the present invention, a waste recycling device in a zinc powder production process, wherein a suction grille 27 is uniformly disposed on a side of a wind box 10 away from an open end, a fixed vertical plate 28 is vertically welded on an inner side of the wind box 10, a motor 29 is horizontally bolted on the inner side of the fixed vertical plate 28, a fan blade 30 is fixedly sleeved on an output end of the motor 29, a connection frame 31 is welded on an outer side of the wind box 10, through holes are uniformly disposed on a side of the fixed vertical plate 28, a plurality of motors 29 are provided, the plurality of motors 29 are respectively and horizontally and fixedly disposed on inner sides of the through holes, the connection frame 31 is fixedly disposed on an outer side of the wind box 10 close to the open end, a side of the connection frame 31 and a side of the wind box 10 are maintained on a same horizontal plane, an isolation rubber ring 32 is fixedly bonded on a side of the connection frame 31 close to, the inner side opening end position of the air box 10 is fixedly clamped with a sealing plate 33, the inner side of the powder box 14 is obliquely clamped with a slant falling plate 34, an isolation rubber ring 32 is made of soft rubber materials and is arranged between the connecting frame 31 and the processing box 1, the slant falling plate 34 is obliquely arranged at the bottom end position of the inner side of the powder box 14 close to the L-shaped pipeline 13, one side edge is butted at the position of the side edge of the powder drawer 16 close to the top surface, the inner side bottom surface of the powder box 14 is in bolted connection with a triangular bottom block 35, the top end of the triangular bottom block 35 is butted at the bottom position of the slant falling plate 34, and both ends are horizontally welded at the inner side edge of the powder box 14;

referring to fig. 5-6, in the embodiment of the invention, a waste recycling device in the zinc powder production process, wherein the inside fixed joint of side draw-in groove of screening plate 20 has the colloidal block body 36, the inboard side level of screening plate 20 is provided with screening otter board 37, the inboard side horizontal joint of the colloidal block body 36 has joint strip 38, the inboard side vertical to the joint of the colloidal block body 36 has top connection spring 39, the inboard side of joint strip 38 is inlayed and is had electromagnetic shaker 40, the inboard side horizontal fixed joint of the oblique falling board 34 has powder baffle 41, the colloidal block body 36 adopts soft rubber materials preparation, screening otter board 37 is woven by the steel wire and is the network structure of different specification and size, the inboard side horizontal welding of joint strip 38 is in the side position all around of screening otter board 37, the one end butt joint of top connection spring 39 is in the side position that screening otter board 37 is kept away from at joint strip 38, the through-hole diameter of powder baffle 41 is less than.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The working principle of the invention is as follows:

waste materials in the production process of zinc powder are put into the blanking funnel 11 at the top end of the processing box body 1, the control panel 9 is set to control operation, the waste materials slide down to the top surface of the blanking inclined plate 19 along the inclination when falling to the top inclined plate 18, double-layer isolation is adopted to enable the materials to be better dispersed, meanwhile, the waste materials can be blown by air below the air body under isolation to have reverse flow effect, when the waste materials fall into the top surface position of the top surface screening net plate 37 of the screening plate 20, the clamping strip 38 is driven to have vibration effect on the inner side edge of the rubber block body 36 under the vibration of the vibrator 40, the frequency of vibration of the positions of the clamping strip 38 and the screening net plate 37 between the screening plates 20 is increased under the support of the abutting spring 39, the waste materials are screened when rolling from the upper end to the lower end under the vibration of the screening net plate 37, the screened waste materials are divided into regions and fall into the central position of the processing box body, the motor 29 at the inner side of the fixed vertical plate 28 rotates to drive the fan blades 30 to rotate and blow, so that air sucked from the air suction grid 2 is accelerated to enter the inner side of the processing box 1, falling waste materials are subjected to winnowing, particles with large diameters fall into the coarse material drawer 5, medium waste material particles fall into the medium material drawer 7, particles with small diameters fall into the fine material drawer 8 to be collected, powder in the waste materials is blown to the inside of the air outlet 22 under the effect of winnowing to enter the inner side of the conical pipe 12, particles with small diameters cannot be brought into the conical pipe 12 under the isolation of the isolation screen 23, the powder enters the inside of the L-shaped channel 13 under the drive of the air pipe and finally enters the powder box 14, and the air is discharged from the through hole and finally enters the air outlet grid 17 under the isolation of the powder partition plate 41 on the inner side of the inclined falling plate 34 The powder is discharged, and the powder enters along the inclination of the inclined falling plate 34 and slides into the inner side edge of the powder drawer 16 for collection treatment, and the rubber cushion block 3 has the effects of isolating vibration and reducing noise. Device design integration simple structure convenient operation has made the waste material to carry out the processing of the later stage of being convenient for of classified collection in the structure that has adopted multiple isolated and screening, and makes the environment cleaner health intelligent control setting make simply easily go to the hand under sealed structure.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.