A kind of waste recovery device by water-cooling and using method thereof
Technical field
The present invention relates to waste recovery field, be specially a kind of waste recovery device by water-cooling and using method thereof.
Background technology
In waste recovery field, usually need to pulverize to make plastic powders to waste or used plastics, the plastics that column criterionization of going forward side by side encapsulation is supplied to needs with transport utilize place.
In order to ensure the work efficiency of plastic powders, size reduction machinery needs running continuously and exports plastic powders continuously.The encapsulation carrying ladle of markization then needs remove after filling and be held in place by new carrying ladle.Convergence process in the middle of this easily causes the unrestrained of plastic powders.And the placement of the carrying ladle of same position often causes time delay and collision to occur.
Summary of the invention
The object of the present invention is to provide a kind of waste recovery device by water-cooling and using method thereof, it can overcome above-mentioned defect.
According to an aspect of the present invention, a kind of waste recovery device by water-cooling, for waste or used plastics is pulverized and to pulverize after plastic powders automatic barrelling, described device comprises: plastic disintegrator, plastic powders catching device and transportation package bucket, described transportation package bucket is for being placed on the both sides of described plastic powders catching device to hold described plastic powders thus to carry out encapsulating described plastic powders and transporting, described plastic disintegrator comprises powder outlet duct, described plastic powders catching device comprises: the first bearing plate, second bearing plate and bearing plate actuating device, wherein, described bearing plate actuating device comprises: shell, the upper surface of described shell is provided with jointed shaft pillar stiffener, described first bearing plate and the second bearing plate utilize the jointed shaft that is arranged on described jointed shaft pillar stiffener upper end and hinged pivotly each other, described bearing plate actuating device also comprises the first drive spindle and the second drive spindle to drive described first bearing plate and the second bearing plate relative to described jointed shaft pillar stiffener pivotable respectively.
Wherein, adapter plate is in the housing provided with rotary drive motor, the outside face of described rotary drive motor is provided with cooling water pipe, the heat that described rotary drive motor produces can be taken away and distribute by the cold water flowed in described cooling water pipe, play the effect protecting described rotary drive motor, prevent overheated and burn, the output shaft of described rotary drive motor is connected with transmission gear, described rotary drive motor is connected with the first gear and the second gear transmission that are positioned at transmission gear both sides place respectively by transmission gear, described first gear and the second gear are separately fixed on the first adapter shaft and the second adapter shaft, first adapter shaft and the second adapter shaft respectively with the first screw thread bush be rotatably mounted in described shell and the second screw thread bush coaxial, described bearing plate actuating device also comprises the shaft coupling assembly that can operatively be shifted up and down, described shaft coupling assembly comprise respectively with described first adapter shaft and coaxial the first shaft coupling sleeve of the second adapter shaft and the second shaft coupling sleeve, described first shaft coupling sleeve and the second shaft coupling sleeve to be installed on each via bearing on same level connecting rod thus to be connected with each other, when described shaft coupling assembly is positioned at primary importance, power connects by the first shaft coupling sleeve for first adapter shaft and the first screw thread bush, second adapter shaft and the second screw thread bush power are thrown off, when described shaft coupling assembly is positioned at the second place, the first adapter shaft and the first screw thread bush power are thrown off, and power connects by the second shaft coupling sleeve for the second adapter shaft and the second screw thread bush, the outside face of described first drive spindle and the second drive spindle is provided with screw thread, described first screw thread bush and the second screw thread bush engage rounded portions and the second bearing plate respectively and engage rounded portions with described first drive spindle and the second drive spindle screw thread fit and be connected respectively with the first bearing plate, described first bearing plate engages rounded portions and the second bearing plate joint rounded portions is respectively used to engage described first bearing plate and the second bearing plate, thus described first bearing plate and the second bearing plate can be driven respectively relative to described jointed shaft pillar stiffener pivotable, described first bearing plate and the second bearing plate can be pivoted into the different inclined ramp in direction, thus as required the plastic powders exported from described powder outlet duct are directed to respectively the transportation package bucket being arranged in described plastic powders catching device both sides not homonymy.
According to a further aspect in the invention, the using method of the described waste recovery device by water-cooling, wherein, when needing the right transportation package bucket conveying plastic powders to the right side being placed on described plastic powders catching device, described bearing plate actuating device drives described first bearing plate and the second bearing plate pivotable, to make the upper surface of described first bearing plate and the second bearing plate form the inclined-plane had a down dip to the right, plastic powders to be directed to described right transportation package bucket; Afterwards, when needing the left transportation package bucket conveying plastic powders to the left side being placed on described plastic powders catching device, described bearing plate actuating device drives and first makes described second bearing plate upwards pivotable, thus form V-structure temporarily to store described plastic powders with described first bearing plate, afterwards, the downward pivotable of described first bearing plate, to make the upper surface of described first bearing plate and the second bearing plate form the inclined-plane tilted to left down, plastic powders to be directed to described left transportation package bucket.
By such scheme, place different encapsulation carrying ladle owing to have employed in both sides, thus when a bucket is not yet filled, another bucket can be held in place, thus avoid wait or the delay of standing time and collide generation.And by carrying out hinged by bearing plate in different directions, group different angle of inclination, place can be connect flexibly, thus the powder that can meet different directions and diverse location guides undertaking, thus meet the needs of both sides conveying powder.And when not yet settling in place due to encapsulation carrying ladle due to a variety of causes, it temporarily can store plastic powders, thus makes catching device be used as a kind of shock absorber simultaneously.Bearing plate actuating device, then by the motion of hitch bar, just can drive the different angles pivotable of two bearing plates by only driving power device simultaneously, save equipment cost.
Accompanying drawing explanation
Fig. 1 is the integral structure schematic diagram of the waste recovery device by water-cooling of the present invention, and wherein, bearing plate has a down dip to the right to encapsulate carrying ladle conveying powder to the right.
Fig. 2 be in Fig. 1 by the waste recovery device of water-cooling to diagram during buffer status in the switching process to left side encapsulation carrying ladle conveying powder, wherein, two bearing plates composition V-types.
Fig. 3 be in Fig. 2 by the waste recovery device of water-cooling in the diagram completing conversion encapsulation carrying ladle conveying plastic powders to the left; And
Fig. 4 is the schematic diagram of the flexible-belt position between two bearing plates.
Detailed description of the invention
Below in conjunction with Fig. 1-4, the present invention is described in detail.
According to embodiment, a kind of waste recovery device by water-cooling, for waste or used plastics is pulverized and to pulverize after plastic powders automatic barrelling, described device comprises: plastic disintegrator 2, plastic powders catching device 300 and transportation package bucket 41, 42, described transportation package bucket 41, 42 for being placed on the both sides of described plastic powders catching device 300 to hold described plastic powders thus to carry out encapsulating described plastic powders and transporting, described plastic disintegrator 2 comprises powder outlet duct 21, described plastic powders catching device 300 comprises: the first bearing plate 32, second bearing plate 33 and bearing plate actuating device, wherein, described bearing plate actuating device comprises: shell 810, the upper surface of described shell 810 is provided with jointed shaft pillar stiffener 35, described first bearing plate 32 and the second bearing plate 33 utilize the jointed shaft 34 that is arranged on described jointed shaft pillar stiffener 35 upper end and hinged pivotly each other, described bearing plate actuating device also comprises the first drive spindle 892 and the second drive spindle 893 to drive described first bearing plate 32 and the second bearing plate 33 relative to described jointed shaft pillar stiffener 35 pivotable respectively.
Exemplarily, wherein, adapter plate 811 in described shell 810 is provided with rotary drive motor 82, the outside face of described rotary drive motor 82 is provided with cooling water pipe 3, in described cooling water pipe 3, the heat that described rotary drive motor 82 produces can be taken away and distribute by the cold water of flowing, play the effect protecting described rotary drive motor 82, prevent overheated and burn, the output shaft of described rotary drive motor 82 is connected with transmission gear 83, described rotary drive motor 82 is connected with the first gear 84 and the second gear 85 power that are positioned at transmission gear both sides place respectively by transmission gear 83, described first gear 84 and the second gear 85 are separately fixed on the first adapter shaft 86 and the second adapter shaft 87, first adapter shaft 86 and the second adapter shaft 87 respectively with the first screw thread bush 890 be rotatably mounted in described shell 81 and the second screw thread bush 891 coaxial, described bearing plate actuating device also comprises the shaft coupling assembly that can operatively be shifted up and down, described shaft coupling assembly comprise respectively with described first adapter shaft 86 and coaxial the first shaft coupling sleeve 882 and the second shaft coupling sleeve 883 of the second adapter shaft 87, described first shaft coupling sleeve 882 and the second shaft coupling sleeve 883 to be installed on each via bearing on same level connecting rod 88 thus to be connected with each other, when described shaft coupling assembly is positioned at primary importance, power connects by the first shaft coupling sleeve 882 for first adapter shaft 86 and the first screw thread bush 890, second adapter shaft 87 and the second screw thread bush 891 power are thrown off, when described shaft coupling assembly is positioned at the second place, the first adapter shaft 86 and the first screw thread bush 890 power are thrown off, and power connects by the second shaft coupling sleeve 883 for the second adapter shaft 87 and the second screw thread bush 891, the outside face of described first drive spindle 892 and the second drive spindle 893 is provided with screw thread, described first screw thread bush 890 and the second screw thread bush 891 engage rounded portions 8920 and the second bearing plate respectively and engage rounded portions 8930 with described first drive spindle 892 and the second drive spindle 893 screw thread fit and be connected respectively with the first bearing plate, described first bearing plate engages rounded portions 8920 and the second bearing plate joint rounded portions 8930 is respectively used to engage described first bearing plate 32 and the second bearing plate 33, thus described first bearing plate 32 and the second bearing plate 33 can be driven respectively relative to described jointed shaft pillar stiffener 35 pivotable, described first bearing plate 32 can be pivoted into the different inclined ramp in direction with the second bearing plate 33, thus as required the plastic powders exported from described powder outlet duct 21 is directed to respectively the transportation package bucket 41,42 being arranged in described plastic powders catching device 300 both sides not homonymy.
Alternatively, as shown in Figure 4, wherein, between described first bearing plate 32 and the second bearing plate 33 junction upper surface on be provided with flexible engagement band 340, described flexible engagement band is elastomeric material, for being connected smoothly by the upper surface of the upper surface of described first bearing plate 32 with described second bearing plate 33.
According to another embodiment, the using method of the described waste recovery device by water-cooling, wherein, when needing to carry plastic powders to the right transportation package bucket 41 on the right side being placed on described plastic powders catching device 300, described bearing plate actuating device drives described first bearing plate 32 and the second bearing plate 33 pivotable, the inclined-plane had a down dip is formed to the right, plastic powders to be directed to described right transportation package bucket 41 to make the upper surface of described first bearing plate 32 and the second bearing plate 33; Afterwards, when needing to carry plastic powders to the left transportation package bucket 42 in the left side being placed on described plastic powders catching device 300, described bearing plate actuating device drives and first makes described second bearing plate 33 upwards pivotable, thus form V-structure temporarily to store described plastic powders with described first bearing plate 32, afterwards, described first bearing plate 32 is pivotable downwards, the inclined-plane tilted to left down is formed, plastic powders to be directed to described left transportation package bucket 42 to make the upper surface of described first bearing plate 32 and the second bearing plate 33.
Wherein, the displacement of described waling stripe 88 is realized by displacement driver train 80; Displacement driver train 80 is electromagnetic actuator device.