CN108212425A - A kind of coal residue processing unit - Google Patents

Abstract

The invention discloses a kind of coal residue processing unit, this body sidewall of drive shaft bearing rotary connecting device, driving shaft both sides are respectively fixedly connected with two eccentric wheels, eccentric wheel upper end abuts sieve plate, sieve plate is slidably connected sliding slot, sliding slot fixed connection apparatus ontology, and floor lever of sieve tray is uniformly arranged multiple sieve pores；Driving shaft right end is fixedly connected with belt wheel, and belt wheel rolls connection transmission belt lower end, sleeve lower end socket Step Shaft, and Step Shaft lower end is fixedly connected with pressing plate, Step Shaft outer surface setting raised line, sleeve lining setting strip groove.The device drives eccentric wheel rotation sieve plate to be driven back and forth to be moved up and down along sliding slot by driving shaft, sieve plate drives the residue on sieve plate constantly to be squeezed with the press plate rotary of rotation and crushes, crushing effect more preferably, and can be realized by regulating wheel and adjust the height of Step Shaft and pressing plate to control powder particle diameter size.The apparatus structure reasonable design is applicable in, and substantially increases the crush efficiency of coal residue, and high degree of automation saves labour.

Description

A kind of coal residue processing unit

Technical field

The present invention relates to a kind of mineral processing plant, specifically a kind of coal residue processing unit.

Background technology

Solid waste residue can be discharged during driving, exploitation and coal washing.Residual waste is carbonaceous, shale and chiltern page The mixture of rock has low heating value.Coal residue is thrown aside, occupy tract, and in residue sulfide effusion or Leaching can pollute air, farmland and water body, at the same can also spontaneous combustion fire occurs or in rainy season avalanche, silt river up and cause disaster. Coal residue can replace clay as brick-making raw material after crushed, can digging good farmland less, when baking bricks, utilize residue flammable in itself Object can save coal.

The problem of existing coal residue is often low there are the degree of automation in crushing process, and crushing effect is bad, powder The excessive quality for directly affecting construction material of spoil particle after broken, is unfavorable for building safety.

Invention content

The purpose of the present invention is to provide a kind of coal residue processing unit, to solve mentioned above in the background art ask Topic.

To achieve the above object, the present invention provides following technical solution：

A kind of coal residue processing unit, including device body, eccentric wheel, driven shaft, sleeve, Step Shaft, screw and scale plate, Described device ontology left end is fixedly connected with driving motor, and driving shaft is rotatablely connected on the right side of driving motor, and drive shaft bearing rotation connects This body sidewall of connection device, driving shaft both sides are respectively fixedly connected with two eccentric wheels, and eccentric wheel upper end abuts sieve plate, sieve plate both ends Be slidably connected sliding slot, this body sidewall of sliding slot fixed connection apparatus, floor lever of sieve tray is uniformly arranged multiple sieve pores；The driving shaft right end Belt wheel is fixedly connected with, belt wheel rolls connection transmission belt lower end, and transmission belt upper end, which rolls, connects another belt wheel, and upper end belt wheel, which is fixed, to be connected Driven shaft is connect, driven shaft right-hand axis holds rotary connecting device ontology, and downrod lower end is socketed on the left of driven shaft, and sunpender upper end, which is fixed, to be connected Connection device ontology, driven shaft left end are fixedly connected with first bevel gear, first bevel gear engagement second bevel gear, and second bevel gear Sleeve is fixedly connected with, sleeve upper shaft holds rotary connecting device ontology；The sleeve lower end is socketed Step Shaft, and Step Shaft lower end is consolidated Surely pressing plate, Step Shaft outer surface setting raised line are connected, sleeve lining sets strip groove, and Step Shaft upper shaft forwards dynamic connecting filament Bar lower end, screw underclearance socket sleeve, and wire rod thread attachment device ontology upper end, screw upper end is fixedly connected with adjusting Wheel.

As further embodiment of the present invention：Setting scale plate, scale plate fixed connection apparatus ontology on the right side of the screw.

As further scheme of the invention：The driving motor is electrically connected power supply and switch.

As further scheme of the invention：Described device ontology lower end both sides are fixedly connected with slope guide plate.

As further scheme of the invention：Setting feed inlet on the left of described device ontology upper end.

As further scheme of the invention：Described device ontology lower end both sides are respectively fixedly connected with supporting leg.

As further scheme of the invention：Setting discharge nozzle among described device body bottom portion.

Compared with prior art, the beneficial effects of the invention are as follows：The device by driving shaft drive eccentric wheel rotation and then Sieve plate is driven back and forth to be moved up and down along sliding slot, sieve plate drives the residue on sieve plate constantly to be squeezed with the press plate rotary of rotation and crushes, Crushing effect more preferably, and can be realized by regulating wheel and adjust the height of Step Shaft and pressing plate to control powder particle diameter size.It should Apparatus structure reasonable design is applicable in, and substantially increases the crush efficiency of coal residue, and high degree of automation saves labour.

Description of the drawings

Fig. 1 is the structure diagram of coal residue processing unit.

Fig. 2 is the internal structure schematic diagram of screw and sleeve in coal residue processing unit.

Fig. 3 is the sectional view of coal residue processing unit middle sleeve and Step Shaft.

In figure：1- device bodies；2- feed inlets；3- driving motors；4- driving shafts；5- eccentric wheels；6- sieve plates；7- is driven Band；8- driven shafts；9- first bevel gears；10- second bevel gears；11- sleeves；12- sunpenders；13- Step Shafts；14- pressing plates；15- Screw；16- regulating wheels；17- scale plates；18- slope guide plates；19- supporting legs；20- discharge nozzles；21- sliding slots.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment shall fall within the protection scope of the present invention.

Please refer to Fig.1~3, in the embodiment of the present invention, a kind of coal residue processing unit, including device body 1, eccentric wheel 5th, driven shaft 8, sleeve 11, Step Shaft 13, screw 15 and scale plate 17；Setting feed inlet 2 on the left of 1 upper end of described device ontology, 1 left end of device body is fixedly connected with driving motor 3, and driving motor 3 is electrically connected power supply and switch, and 3 right side of driving motor rotates Driving shaft 4 is connected, 4 bearing rotary connecting device ontology of driving shaft, 1 side wall, 4 both sides of driving shaft are respectively fixedly connected with two bias Wheel 5, and 5 upper end of eccentric wheel abuts sieve plate 6,6 both ends of sieve plate are slidably connected sliding slot 21,21 fixed connection apparatus ontology of sliding slot, 1 side Wall, 6 surface of sieve plate are uniformly arranged multiple sieve pores, turn on the switch so that 3 energization work of driving motor drive driving shaft 4 rotate and then Driving eccentric wheel 5 follows rotation, and the eccentric wheel 5 of rotation drives sieve plate 6 back and forth to be moved up and down along sliding slot 21；The driving shaft 4 is right End is fixedly connected with belt wheel, and belt wheel rolls 7 lower end of connection transmission belt, and 7 upper end of transmission belt, which rolls, connects another belt wheel, and upper end belt wheel is consolidated Surely driven shaft 8 is connected, 8 right-hand axis of driven shaft holds rotary connecting device ontology 1,8 left side 12 lower end of socket sunpender of driven shaft, sunpender 12 upper end fixed connection apparatus ontologies 1,8 left end of driven shaft are fixedly connected with first bevel gear 9, second cone of the engagement of first bevel gear 9 Gear 10, and second bevel gear 10 is fixedly connected with sleeve 11,11 upper shaft of sleeve holds rotary connecting device ontology 1, the master of rotation Moving axis 4 rolls that driven shaft 8 is driven to rotate by band wheel drive transmission belt 7, driven shaft 8 drive first bevel gear 9 rotate into And second bevel gear 10 is driven to be rotated with moving sleeve 11.

11 lower end of sleeve is socketed Step Shaft 13, and 13 lower end of Step Shaft is fixedly connected with pressing plate 14,13 outer surface of Step Shaft Raised line, 11 inner wall of sleeve setting strip groove, so that Step Shaft 13 can be along sleeve 11 under raised line and strip groove effect are set It slides up and down and cannot relatively rotate, 13 upper shaft of Step Shaft forwards dynamic 15 lower end of connection wire rod, 15 underclearance of screw Sleeve 11, and 15 screw connection ontology of screw, 1 upper end are socketed, 15 upper end of screw is fixedly connected with regulating wheel 16, and screw 15 is right Side sets scale plate 17,17 fixed connection apparatus ontology 1 of scale plate, and the sleeve 11 of rotation drives Step Shaft 13 to rotate and then drive Pressing plate 14 rotates, and the sieve plate 6 back and forth moved up and down drives the residue on sieve plate 6 constantly to be rotated with the pressing plate of rotation 14 and squeezes powder Broken, crushing effect more preferably, by rotating the height of the adjusting Step Shaft 13 of regulating wheel 16 and pressing plate 14 controls powder particle diameter big It is small, by observing regulating wheel 16 with the graticule of scale plate 17 convenient for control；1 lower end both sides of described device ontology, which are fixedly connected, tiltedly leads Plate 18,1 bottom of device body centre setting discharge nozzle 20,1 lower end both sides of device body are respectively fixedly connected with supporting leg 19, after crushing Residue discharged by slope guide plate from discharge nozzle 20.

The present invention operation principle be：It turns on the switch so that 3 energization work of driving motor drives driving shaft 4 to rotate and then drive Movable eccentric wheel 5 follows rotation, and the eccentric wheel 5 of rotation drives sieve plate 6 back and forth to be moved up and down along sliding slot 21, and the driving shaft 4 of rotation is logical It crosses band wheel drive transmission belt 7 to roll and then driven shaft 8 drive to rotate, the drive of driven shaft 8 first bevel gear 9 rotates and then drives the Two bevel gears 10 rotate with moving sleeve 11, and the sleeve 11 of rotation drives Step Shaft 13 to rotate and then pressing plate 14 is driven to rotate, back and forth The sieve plate 6 that moves up and down drives the residue on sieve plate 6 constantly to rotate to squeeze with the pressing plate of rotation 14 and crush, crushing effect more preferably, The height of Step Shaft 13 and pressing plate 14 is adjusted to control powder particle diameter size, by observing regulating wheel by rotating regulating wheel 16 16 with the graticule of scale plate 17 convenient for control, the residue after crushing is discharged by slope guide plate from discharge nozzle 20.

It is obvious to a person skilled in the art that the present invention is not limited to the details of above-mentioned exemplary embodiment, Er Qie In the case of without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Profit requirement rather than above description limit, it is intended that all by what is fallen within the meaning and scope of the equivalent requirements of the claims Variation is included within the present invention.Any reference numeral in claim should not be considered as to the involved claim of limitation.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in each embodiment can also be properly combined, forms those skilled in the art The other embodiment being appreciated that.

Claims (7)

1. a kind of coal residue processing unit, including device body（1）, eccentric wheel（5）, driven shaft（8）, sleeve（11）, step Axis（13）, screw（15）And scale plate（17）, which is characterized in that described device ontology（1）Left end is fixedly connected with driving motor （3）, driving motor（3）Right side is rotatablely connected driving shaft（4）, driving shaft（4）Bearing rotary connecting device ontology（1）Side wall, it is main Moving axis（4）Both sides are respectively fixedly connected with two eccentric wheels（5）, and eccentric wheel（5）Upper end abuts sieve plate（6）, sieve plate（6）It slides at both ends Dynamic connection sliding slot（21）, sliding slot（21）Fixed connection apparatus ontology（1）Side wall, sieve plate（6）Surface is uniformly arranged multiple sieve pores；Institute State driving shaft（4）Right end is fixedly connected with belt wheel, and belt wheel rolls connection transmission belt（7）Lower end, transmission belt（7）It is another that upper end rolls connection One belt wheel, upper end belt wheel are fixedly connected with driven shaft（8）, driven shaft（8）Right-hand axis holds rotary connecting device ontology（1）, driven shaft （8）Left side is socketed sunpender（12）Lower end, sunpender（12）Upper end fixed connection apparatus ontology（1）, driven shaft（8）Left end is fixedly connected First bevel gear（9）, first bevel gear（9）Engage second bevel gear（10）, and second bevel gear（10）It is fixedly connected with sleeve （11）, sleeve（11）Upper shaft holds rotary connecting device ontology（1）；The sleeve（11）Lower end is socketed Step Shaft（13）, step Axis（13）Lower end is fixedly connected with pressing plate（14）, Step Shaft（13）Outer surface sets raised line, sleeve（11）Inner wall sets strip groove, Step Shaft（13）Upper shaft forwards dynamic connection wire rod（15）Lower end, screw（15）Underclearance is socketed sleeve（11）, and screw （15）Screw connection ontology（1）Upper end, screw（15）Upper end is fixedly connected with regulating wheel（16）.

A kind of 2. coal residue processing unit according to claim 1, which is characterized in that the screw（15）Right side is set Scale plate（17）, scale plate（17）Fixed connection apparatus ontology（1）.

A kind of 3. coal residue processing unit according to claim 1, which is characterized in that the driving motor（3）Electrically Connect power supply and switch.

A kind of 4. coal residue processing unit according to claim 1, which is characterized in that described device ontology（1）Lower end Both sides are fixedly connected with slope guide plate（18）.

A kind of 5. coal residue processing unit according to claim 1, which is characterized in that described device ontology（1）Upper end Left side sets feed inlet（2）.

A kind of 6. coal residue processing unit according to claim 1, which is characterized in that described device ontology（1）Lower end Both sides are respectively fixedly connected with supporting leg（19）.

A kind of 7. coal residue processing unit according to claim 1, which is characterized in that described device ontology（1）Bottom Centre setting discharge nozzle（20）.