CN109097582A - A kind of mechanical engineering powdery castoff processing system - Google Patents

Abstract

The invention discloses a kind of mechanical engineering powdery castoff processing systems in powdery Waste Disposal Technology field, including device housing and liquid tank, installation stirring motor is bolted at the top of described device shell, this kind of mechanical engineering powdery castoff processing system, design is reasonable, it is practical, it can be to the dust suction generated in mechanical processing process, prevent dust from drifting in processing workshop, reduce the concentration of the metallic dust in processing workshop, avoid metallic dust explosion harm caused by worker and machine, using helium preparing machine and helium delivery pipe, convey metallic dust and helium mix, guarantee safety during metallic dust is in extraction, prevent metallic dust from exploding during extraction, using spraying mechanism and agitating device and heating load carrier etc., it can make mechanical dust recycling polymerization, The raw material for being processed into metal works carry out secondary use.

Description

A kind of mechanical engineering powdery castoff processing system

Technical field

The present invention relates to powdery offal treatments to set technical field, specially a kind of mechanical engineering powdery offal treatment system System.

Background technique

Dust is machined mainly based on the dust of the processing technologys such as the polishing of metal parts and vehicle, milling, brill generation, In also include being more toxic the dust of material, the harm of dust is inversely proportional with its partial size, the smaller dust harzard degree of partial size It is bigger, however the dust of smaller partial size is not visible, will not usually attract people's attention, the aerial machining of exposure Dust is not only done harm to huamn body, such as skin scratches, and is drawn into lung, causes the diseases such as respiratory tract infection and lung perforation, And when the mechanical dust concentration for being exposed to air is excessive, it is easy to explode, cause bigger danger to the person and machinery Evil, and a part of the dust being machined as metal, containing very big utility value, but current mechanical dust is not It can be utilized well, cause the machining wasting of resources big, for this purpose, we have proposed a kind of mechanical engineering powdery wastes Processing system.

Summary of the invention

The purpose of the present invention is to provide a kind of mechanical engineering powdery castoff processing systems, to solve above-mentioned background technique The mechanical dust for being exposed to air of middle proposition is easy to explode, and causes damages to worker and machinery, and current machine Tool dust cannot be utilized well, the problem for causing the machining wasting of resources big.

To achieve the above object, the invention provides the following technical scheme: a kind of mechanical engineering powdery castoff processing system, Including device housing and liquid tank, installation stirring motor, the stirring motor are bolted at the top of described device shell Output end be connected with shaft, through the inner cavity top of device housing, the outer circumferential walls of the shaft are welded with the shaft Stirring rod, the intracavity bottom left and right sides of described device shell, which is bolted, is equipped with vibrator, two vibrations It is connected with heating load carrier at the top of device, the surrounding outer wall of the heating load carrier is socketed with sealing ring, and sealing ring Outer wall and the intracavity sidewall of device housing are in close contact, and the right side wall top of described device shell is connected with row by Drainage pipe Liquid electromagnetic valve, the inner cavity right side wall of described device shell are bolted the filter screen for being equipped with and matching with Drainage pipe, The right side wall lower part of described device shell is connected with blow-off valve, grafting at the top of the right side wall of described device shell by drainage line There is a spraying mechanism, and the left end of spraying mechanism is plugged in the groove that the inner cavity left side wall of device housing opens up, the liquid tank Intracavity bottom be bolted infusion pump be installed, there is liquid-transport pipe-line at the top of the infusion pump by flanged joint, institute Liquid-transport pipe-line is stated through the left side wall of liquid tank, and the left end of liquid-transport pipe-line and the right end of spraying mechanism are connected through a screw thread, There is helium gas back pipeline at the top of described device shell by flanged joint, and the left end of described device shell is connected with by pipeline Suction ventilator, the bottom of the suction ventilator, which is bolted, is equipped with support plate, and the right side wall of support plate and device housing welds It connects, the left side wall of the suction ventilator has dust sucting pipeline by flanged joint, and there is connection at the top of the dust sucting pipeline by screw thread Pipe, and the bottom end of communicating pipe is through the inner cavity top of dust sucting pipeline, and the through-Penetration portion of communicating pipe is bending to the right, the communicating pipe Top be connected by flange with the left end of helium gas back pipeline, the right end of the communicating pipe has helium defeated by flanged joint Pipe is sent, there is helium preparing machine in the bottom of the helium delivery pipe by flanged joint, and the left end of the dust sucting pipeline is connected with powder Dirt suction hood.

Preferably, the heating load carrier includes bottom plate, and thermal insulation board, the thermal insulation board are welded at the top of the bottom plate Top be bolted electric heating tube be installed, be bolted at the top of the electric heating tube and heat-conducting plate be installed.

Preferably, the spraying mechanism includes spray tube, the bottom of the spray tube uniformly through being threaded with spray head, The outer wall right end integrated molding of the spray tube is connected with installation lasso.

Preferably, the shape of the liquid-transport pipe-line is L shape.

Preferably, the inner cavity top angulation of the through-Penetration portion of the communicating pipe and dust sucting pipeline is 45 degree.

Preferably, the top and bottom of the dust suction hood are welded with mounting blocks.

Compared with prior art, the beneficial effects of the present invention are: this kind of mechanical engineering powdery castoff processing system, design Rationally, practical, it can prevent dust from drifting in processing workshop the dust suction generated in mechanical processing process, drop The concentration of metallic dust in low processing workshop avoids metallic dust explosion harm caused by worker and machine, using helium Gas preparing machine and helium delivery pipe convey metallic dust and helium mix, guarantee to pacify during metallic dust is in extraction Quan Xing prevents metallic dust from exploding during extraction, using spraying mechanism and agitating device and heating load carrier Deng the recycling polymerization of mechanical dust can be made, and the raw material for being processed into metal works carry out secondary use.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is apparatus of the present invention enclosure interior structural scheme of mechanism；

Fig. 3 be dust sucting pipeline of the present invention be connected to pipe connecting structure cross-sectional view；

Fig. 4 is present invention heating load carrier structural schematic diagram；

Fig. 5 is spraying mechanism structural schematic diagram of the present invention.

In figure: 1 device housing, 2 liquid tanks, 3 stirring motors, 4 shafts, 5 stirring rods, 6 vibrators, 7 heating load carriers, 71 bottom plates, 72 thermal insulation boards, 73 electric heating tubes, 74 heat-conducting plates, 8 draining solenoid valves, 9 blow-off valves, 10 spraying mechanisms, 101 spray tubes, 102 spray heads, 103 installation lassos, 11 infusion pumps, 12 liquid-transport pipe-lines, 13 helium gas back pipelines, 14 suction ventilators, 15 dust sucting pipelines, 16 Communicating pipe, 17 helium delivery pipes, 18 helium preparing machines, 19 dust suction hoods, 20, filter screen.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1-5 is please referred to, the present invention provides a kind of technical solution: a kind of mechanical engineering powdery castoff processing system, packet Device housing 1 and liquid tank 2 are included, the top of described device shell 1 is bolted installation stirring motor 3, the stirring electricity The output end of machine 3 is connected with shaft 4, inner cavity top of the shaft 4 through device housing 1, the outer circumferential walls of the shaft 4 It is welded with stirring rod 5, is bolted at left and right sides of the intracavity bottom of described device shell 1 and vibrator 6 is installed, two The top of the vibrator 6 is connected with heating load carrier 7, and the surrounding outer wall of the heating load carrier 7 is socketed with sealing ring, And the outer wall of sealing ring and the intracavity sidewall of device housing 1 are in close contact, the right side wall top of described device shell 1 passes through drain Pipeline is connected with draining solenoid valve 8, and the inner cavity right side wall of described device shell 1, which is bolted, to be equipped with and Drainage pipe phase The right side wall lower part of the filter screen 20 of cooperation, described device shell 1 is connected with blow-off valve 9, described device shell by drainage line It is plugged with spraying mechanism 10 at the top of the right side wall of body 1, and the left end of spraying mechanism 10 is plugged in the inner cavity left side wall of device housing 1 In the groove opened up, the intracavity bottom of the liquid tank 2, which is bolted, is equipped with infusion pump 11, the top of the infusion pump 11 There is a liquid-transport pipe-line 12 in portion by flanged joint, left side wall of the liquid-transport pipe-line 12 through liquid tank 2, and liquid-transport pipe-line 12 Left end and the right end of spraying mechanism 10 are connected through a screw thread, and there is helium gas back at the top of described device shell 1 by flanged joint The left end of pipeline 13, described device shell 1 is connected with suction ventilator 14 by pipeline, and the bottom of the suction ventilator 14 is solid by bolt Dingan County is equipped with support plate, and the right side wall of support plate and device housing 1 welds, and the left side wall of the suction ventilator 14 is connected by flange Be connected to dust sucting pipeline 15, there is a communicating pipe 16 at the top of the dust sucting pipeline 15 by screw thread, and the bottom end of communicating pipe 16 through The inner cavity top of dust sucting pipeline 15, and the through-Penetration portion of communicating pipe 16 is bending to the right, the top of the communicating pipe 16 by flange with The left end of helium gas back pipeline 13 is connected, and the right end of the communicating pipe 16 has helium delivery pipe 17 by flanged joint, described There is helium preparing machine 18 in the bottom of helium delivery pipe 17 by flanged joint, and the left end of the dust sucting pipeline 15 is connected with dust suction Cover 19.

Wherein, the heating load carrier 7 includes bottom plate 71, and the top of the bottom plate 71 is welded with thermal insulation board 72, described The top of thermal insulation board 72, which is bolted, is equipped with electric heating tube 73, and the top of the electric heating tube 73 is bolted peace Equipped with heat-conducting plate 74, the spraying mechanism 10 includes spray tube 101, and the bottom of the spray tube 101 is uniformly through threaded connection There is spray head 102, the outer wall right end integrated molding of the spray tube 101 is connected with installation lasso 103, the shape of the liquid-transport pipe-line 12 Shape is L shape, and the through-Penetration portion of the communicating pipe 16 and the inner cavity top angulation of dust sucting pipeline 15 are 45 degree, the powder The top and bottom of dirt suction hood 19 are welded with mounting blocks.

Specifically, dust suction hood 19 is mounted at the machining dust outlet on workshop by staff, when workshop work When making personnel and processing to machine components, staff presses stirring motor 3, infusion pump 11, suction ventilator 14 and helium simultaneously The switch button of preparing machine 18, stirring motor 3, infusion pump 11, suction ventilator 14 and helium preparing machine 18 are started to work at this time, air draught Machine 14 extracts the air in dust sucting pipeline 15, and helium preparing machine 18 produces helium, and is transported to helium conveyance conduit 17 Interior, helium preparing machine 18 works ten minutes later, and staff closes helium preparing machine 18, since suction ventilator 14 is to dust sucting pipeline It extracts air in 15, the dust suction hood 19 being connected at this time with dust sucting pipeline 15 and negative pressure will be formed in communicating pipe 16, and then make Helium in the metallic dust and helium conveyance conduit 17 of machining generation is drawn into dust sucting pipeline by dust suction hood 19 together In 15, helium conveys together with metallic dust, and density is excessive during preventing metallic dust from conveying, and explodes, Zhi Houjin Belong to dust to be transported to together with helium in device housing 1, while infusion pump 11 will be added with the liquid of iron powder forming agent in liquid tank 2 Material is transported in the spray tube 101 on spraying mechanism 10 by liquid-transport pipe-line 12, and the spray head 102 being connected with spray tube 101 is right The mixture of the dust and helium that enter in device housing 1 is sprayed, and the metallic dust in mixture is sprayed due to liquid material Sedimentation downwards, and since the density of helium is much smaller than the density of air, helium will be flowed back by helium gas back pipeline 13 at this time In communicating pipe 16, secondary use is carried out, metallic dust is deposited to heating load carrier 7 with the liquid material added with iron powder forming agent Upper position, while stirring motor 3 drives shaft 4 to rotate, shaft 4 drives stirring rod 5 to rotate, and stirring rod 5 is to iron powder and iron powder Forming agent and water are mixed, and iron powder is made to agglomerate to form iron block, and after the completion of machining, staff is by infusion pump 11 and inhales Blower 14 is closed, and when machining completes two ten minutes later, staff closes stirring motor 3, and staff presses row later The switch button of liquid electromagnetic valve 8, the liquid in device housing 1 is discharged to outside at this time, while filter screen 20 will be agglomerated by iron powder Iron block afterwards filters in device housing 1, and after moisture filters out, staff closes draining solenoid valve 8, and staff presses later The switch button of dynamic vibrator 6 and the electric heating tube 73 on heating load carrier 7, electric heating tube 73 pass through the biography of heat-conducting plate 74 It leads, to the iron block heating, drying of the cohesion on heating load carrier 7,6 vertical tremor of vibrator drives about 7 load carrier of heating Vibration, makes iron block pitch, the moisture on iron block is sufficiently evaporated, after the completion of the moisture evaporation on iron block, staff Vibrator 6 and electric heating tube 73 are closed, staff presses the switch button of blow-off valve 9 later, and blow-off valve 9 is opened at this time, iron Block is discharged out of drainage conduit, recycles to iron block.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (6)

1. a kind of mechanical engineering powdery castoff processing system, including device housing (1) and liquid tank (2), it is characterised in that: institute It states and is bolted installation stirring motor (3) at the top of device housing (1), the output end of the stirring motor (3) is connected with Shaft (4), through the inner cavity top of device housing (1), the outer circumferential walls of the shaft (4) are welded with to be stirred the shaft (4) It mixes bar (5), is bolted and is equipped with vibrator (6) at left and right sides of the intracavity bottom of described device shell (1), two institutes It states and is connected with heating load carrier (7) at the top of vibrator (6), the surrounding outer wall of heating load carrier (7) is socketed with close Seal, and the outer wall of sealing ring and the intracavity sidewall of device housing (1) are in close contact, on the right side wall of described device shell (1) Portion is connected with draining solenoid valve (8) by Drainage pipe, and the inner cavity right side wall of described device shell (1) is bolted installation There is the filter screen (20) matched with Drainage pipe, the right side wall lower part of described device shell (1) is connected with by drainage line The right side wall top of blow-off valve (9), described device shell (1) is plugged with spraying mechanism (10), and the left end of spraying mechanism (10) It is plugged in the groove that the inner cavity left side wall of device housing (1) opens up, the intracavity bottom of the liquid tank (2) is bolted It is equipped with infusion pump (11), there are liquid-transport pipe-line (12), the liquid-transport pipe-line in the top of the infusion pump (11) by flanged joint (12) through the left side wall of liquid tank (2), and the right end of the left end of liquid-transport pipe-line (12) and spraying mechanism (10) passes through screw thread Connection, the top of described device shell (1) have helium gas back pipeline (13) by flanged joint, a left side for described device shell (1) End is connected with suction ventilator (14) by pipeline, and the bottom of the suction ventilator (14), which is bolted, is equipped with support plate, and is propped up Fagging and the right side wall of device housing (1) weld, and the left side wall of the suction ventilator (14) has dust sucting pipeline by flanged joint (15), the top of the dust sucting pipeline (15) has communicating pipe (16) by screw thread, and the bottom end of communicating pipe (16) is through dust suction The inner cavity top of pipeline (15), and the through-Penetration portion of communicating pipe (16) is bending to the right, passes through flange at the top of the communicating pipe (16) It is connected with the left end of helium gas back pipeline (13), the right end of the communicating pipe (16) has helium delivery pipe by flanged joint (17), the bottom of the helium delivery pipe (17) has helium preparing machine (18) by flanged joint, the dust sucting pipeline (15) Left end is connected with dust suction hood (19).

2. a kind of mechanical engineering powdery castoff processing system according to claim 1, it is characterised in that: the heating is held Mounted mechanism (7) includes bottom plate (71), is welded with thermal insulation board (72) at the top of the bottom plate (71), the top of the thermal insulation board (72) It is bolted and is equipped with electric heating tube (73), be bolted at the top of the electric heating tube (73) and heat-conducting plate is installed (74)。

3. a kind of mechanical engineering powdery castoff processing system according to claim 1, it is characterised in that: the spray thrower Structure (10) includes spray tube (101), and the bottom of the spray tube (101) is uniformly through being threaded with spray head (102), the spray The outer wall right end integrated molding of shower pipe (101) is connected with installation lasso (103).

4. a kind of mechanical engineering powdery castoff processing system according to claim 1, it is characterised in that: the perfusion tube The shape in road (12) is L shape.

5. a kind of mechanical engineering powdery castoff processing system according to claim 1, it is characterised in that: the communicating pipe (16) the inner cavity top angulation of through-Penetration portion and dust sucting pipeline (15) is 45 degree.

6. a kind of mechanical engineering powdery castoff processing system according to claim 1, it is characterised in that: the dust is inhaled The top and bottom of cover (19) are welded with mounting blocks.