CN105818296A - Efficient plastic extruding and water removing device - Google Patents

Abstract

The invention discloses an efficient plastic extruding and water removing device. The efficient plastic extruding and water removing device comprises an extruding and water removing part, a feeding hopper, a supporting frame, a box, a conveying device, a first rotating shaft, a first motor, a rotary disc and a protruding column. Cavities are formed in the first rotating shaft. The extruding and water removing part comprises a second rotating shaft capable of being rotationally arranged in the box and first rotating pieces fixedly arranged on the second rotating shaft. The second rotating shaft is arranged below the first rotating shaft. Each first rotating piece comprises a triggering piece and a pushing piece. Guiding barrels are fixedly arranged in the box. Extrusion pieces are inserted in the guiding barrels and abut against the pushing pieces. The triggering pieces abut against the protruding column. A support is arranged on the inner wall of the right side of the box. A first elastic piece is connected between the support and one triggering piece. A connecting plate is installed between the inner wall of the left side of the box and the guiding barrels and provided with a plurality of first through holes. According to the efficient plastic extruding and water removing device, the plastic water removing effect can be greatly improved, and the operation difficulty of the water removing device is effectively lowered.

Description

A kind of high efficiency plastics squeezing dehydration device

Technical field

The invention belongs to dehydration equipment field, be specifically related to a kind of high efficiency plastics squeezing dehydration device.

Background technology

For actually reaching the policy of environmental conservation and waste reduction, the garbage reclamation recycling of plastic material is important efforts at environmental protection.Waste or used plastics after collection, needs to be carried out it, then carries out processed, carries out next step PROCESS FOR TREATMENT the most again.

At present, general employing dehydration device carries out processed to plastics, but, existing dehydration device typically directly carries out processed to substantial amounts of plastics simultaneously, and the effect so making dehydration is poor, and the operation of existing dehydration device is extremely complex.

Summary of the invention

For the deficiencies in the prior art, the object of the invention is intended to provide a kind of high efficiency plastics squeezing dehydration device, can increase substantially the dehydrating effect of plastics, effectively reduces the operation easier of dehydration device.

For achieving the above object, the present invention adopts the following technical scheme that

nullA kind of high efficiency plastics squeezing dehydration device，Including extrusion dehydration parts、Feed hopper、Bracing frame、The casing being arranged on bracing frame、For by the conveyer device in plastic conveying and plastic to feed hopper、It is installed in rotation on the first rotary shaft at the feed opening of feed hopper、For driving the first motor of the first rotary shaft rotary work、It is arranged in the first rotary shaft and can be with the rotation dish of the first rotary shaft synchronous rotary、It is eccentrically mounted at the projection on rotation dish，The cavity for accommodating plastics it is provided with in described first rotary shaft，Described extrusion dehydration parts include the second rotary shaft being installed in rotation in casing、The first tumbler being fixedly mounted in the second rotary shaft，Described second rotary shaft is arranged on the lower section of the first rotary shaft，Described first tumbler includes trigger member、The impeller being connected with trigger member，It is installed with guide cylinder in described casing，Described guide cylinder is positioned at the lower right of the second rotary shaft，It is fitted with in described guide cylinder and can be oppositely oriented the extrusion that cylinder moves left and right，Described extrusion leans with impeller，Described trigger member leans with projection，On inwall, bearing is installed on the right side of described casing，Connect between described bearing and trigger member and have the first elastic component，Between described casing inner left wall and guide cylinder, connecting plate is installed，Described connecting plate is positioned at the underface of the feed opening of feed hopper，Multiple first through hole it is provided with on described connecting plate.

Second elastic component that passes on left of described connecting plate is connected on the inwall of casing, the right side of described connecting plate is hinged on guide cylinder, connect in described second rotary shaft and have rod member, one end of described rod member is connected with the second rotary shaft, the other end of described rod member is provided with slide block, and the side of described connecting plate offers the chute slided for slide block.

Described conveyer device includes installing rack, be arranged on installing rack batch turning frame, be installed in rotation on batch turning frame drive frame, the hopper being fixedly mounted on batch turning frame, for driving the transmission component driving frame to slide up and down, the both sides of described batch turning frame are rotatably mounted with the first movable pulley by the first pivot, the both sides of described driving frame are rotatably mounted with the second movable pulley by the second pivot, the track that the both sides of described installing rack are formed for the first movable pulley and the second movable pulley moves.

Described transmission component includes being installed in rotation on the driving shaft on installing rack top, being installed in rotation on the driven shaft of installing rack bottom, for driving the second motor of driving shaft rotary work, first drive is installed on described driving shaft, second drive is installed on described driven shaft, on described first drive and the second drive, set is wound with carrier chain, and described driving frame is fixing with carrier chain to be connected.

The bottom of described casing connects has discharge nozzle, described discharge nozzle to include the horizontal pipeline section that vertical pipeline section is connected with bending tube section with the bending tube section that vertically pipeline section is connected, and described bending tube section is provided with multiple second through hole.

The quantity of described cavity is multiple, and each described cavity is on same straight line.

Being also equipped with multiple second tumbler in described second rotary shaft, the axial direction along the second rotary shaft is equidistantly arranged, and each second tumbler is provided with impeller.

Described guide cylinder is also equipped with limiting plate in the upper right side of connecting plate.

Being set with the 3rd elastic component on described extrusion, one end of described 3rd elastic component is connected to the right hand top of extrusion, and the other end of described 3rd elastic component is connected on guide cylinder.

The present invention has the beneficial effects that:

nullThe present invention setting by said structure，The waste or used plastics of dehydration to be extruded is delivered in feed hopper by conveyer device，Then fall in the cavity of the first rotary shaft，Then the first motor is started，Drive the rotation of the first rotary shaft，Waste or used plastics in cavity can be overturn by the first rotary shaft rotated，Then fall in connecting plate，First rotary shaft also will drive rotation dish and the rotation of projection while rotating，Under the rotation of projection，The rotation of trigger member will be driven，Trigger member is after rotating to an angle，Projection will separate with trigger member，Under the reset response of the first elastic component，Trigger member and impeller will reversely rotate，Impeller is made to clash into rapidly extrusion，Then extrusion is driven to hit the plastics on connecting plate rapidly，Under the mating reaction of the inner left wall of casing，Waste or used plastics obtains extrusion dehydration and processes，Water liquid after dehydration can flow out from the first through hole，The dehydrating effect of plastics can be increased substantially，The present invention only need to start the first motor，Effectively reduce the operation easier of dehydration device.

Accompanying drawing explanation

Fig. 1 is the plastics extrusion dehydration principle schematic of the present invention；

Fig. 2 is extrusion dehydration parts and the perspective view of the second tumbler of the present invention；

Fig. 3 is the enlarged drawing in Fig. 1 at A；

Fig. 4 is first rotary shaft of the present invention, rotation dish, cavity and the perspective view of projection；

Fig. 5 is the feed hopper of the present invention, rotation dish and the perspective view of projection；

Fig. 6 is original state and the structural representation of feed state of the conveyer device of the present invention；

Fig. 7 is the schematic side view of Fig. 6；

Fig. 8 is the enlarged diagram in Fig. 6 at I.

Wherein, 1, bracing frame；2, feed hopper；3, casing；4, the first rotary shaft；5, rotation dish；6, projection；7, cavity；8, the second rotary shaft；9, the first tumbler；91, trigger member；92, impeller；10, the second tumbler；11, guide cylinder；12, extrusion；13, bearing；14, the first elastic component；15, connecting plate；16, the first through hole；17, the second elastic component；18, rod member；19, slide block；20, chute；21, vertical pipeline section；22, bending tube section；23, horizontal pipeline section；24, the second through hole；25, hopper；26, the second motor；27, installing rack；28, the first drive；29, driving shaft；30, carrier chain；31, driven shaft；32, the second drive；33, batch turning frame；34, frame is driven；35, track；36, the second pivot；37, the second movable pulley；38, the first movable pulley；39, the first pivot；40, limiting plate；41, the 3rd elastic component.

Detailed description of the invention

Below, in conjunction with accompanying drawing and detailed description of the invention, the present invention is described further:

nullAs shown in figures 1-8，One high efficiency plastics squeezing dehydration device for the present invention，Including extrusion dehydration parts、Feed hopper 2、Bracing frame 1、The casing 3 being arranged on bracing frame 1、For by the conveyer device in plastic conveying and plastic to feed hopper 2、It is installed in rotation on the first rotary shaft 4 at the feed opening of feed hopper 2、For driving the first motor (not shown) of the first rotary shaft 4 rotary work、It is arranged in the first rotary shaft 4 and can be with the rotation dish 5 of the first rotary shaft 4 synchronous rotary、The projection 6 being eccentrically mounted on rotation dish 5，The cavity 7 for accommodating plastics it is provided with in described first rotary shaft 4，Described extrusion dehydration parts include the second rotary shaft 8 being installed in rotation in casing 3、The first tumbler 9 being fixedly mounted in the second rotary shaft 8，Described second rotary shaft 8 is arranged on the lower section of the first rotary shaft 4，Described first tumbler 9 includes trigger member 91、The impeller 92 being connected with trigger member 91，It is installed with guide cylinder 11 in described casing 3，Described guide cylinder 11 is positioned at the lower right of the second rotary shaft 8，It is fitted with in described guide cylinder 11 and can be oppositely oriented the extrusion 12 that cylinder 11 moves left and right，Described extrusion 12 leans with impeller 92，Described trigger member 91 leans with projection 6，On inwall, bearing 13 is installed on the right side of described casing 3，Connect between described bearing 13 and trigger member 91 and have the first elastic component 14，Between described casing 3 inner left wall and guide cylinder 11, connecting plate 15 is installed，Described connecting plate 15 is positioned at the underface of the feed opening of feed hopper 2，Multiple first through hole 16 it is provided with on described connecting plate 15.

nullThe waste or used plastics of dehydration to be extruded is delivered in feed hopper 2 by conveyer device，Then fall in the cavity 7 of the first rotary shaft 4，Then the first motor is started，Drive the rotation of the first rotary shaft 4，Waste or used plastics in cavity 7 can be overturn by the first rotary shaft 4 rotated，Then fall in connecting plate 15，First rotary shaft 4 also will drive rotation dish 5 and the rotation of projection 6 while rotating，Under the rotation of projection 6，The rotation of trigger member 91 will be driven，Trigger member 91 is after rotating to an angle，Projection 6 will separate with trigger member 91，Under the reset response of the first elastic component 14，Trigger member 91 and impeller 92 will reversely rotate，Impeller 92 is made to clash into rapidly extrusion 12，Then extrusion 12 is driven to hit the plastics on connecting plate 15 rapidly，Under the mating reaction of the inner left wall of casing 3，Waste or used plastics obtains extrusion dehydration and processes，Water liquid after dehydration can flow out at the first through hole 16.

When mounted, feed hopper 2 and the first rotary shaft 4 can be installed by fixed mount (not shown).

When the cavity 7 in the first rotary shaft 4 is in position straight up, the waste or used plastics in feed hopper 2 can fall in cavity 7, and when cavity 7 rotates to position straight down, the waste or used plastics in cavity 7 then falls on connecting plate 15.

Second elastic component 17 that passes on left of described connecting plate 15 is connected on the inwall of casing 3, the right side of described connecting plate 15 is hinged on guide cylinder 11, connect in described second rotary shaft 8 and have rod member 18, one end of described rod member 18 is connected with the second rotary shaft 8, the other end of described rod member 18 is provided with slide block 19, and the side of described connecting plate 15 offers the chute 20 slided for slide block 19.

Connecting plate 15, when initial, is horizontal positioned, when trigger member 91 counterclockwise rotates, drives the counter clockwise direction of the second rotary shaft 8 to rotate, and the most also drives the motion of rod member 18, and then drives connecting plate 15 to be rotated down；When trigger member 91 is rotated clockwise, drive being rotated clockwise of the second rotary shaft 8, the most also drive the motion of rod member 18, and then drive connecting plate 15 to rotate up, under the effect of the second elastic component 17, can upwards reset by more convenient drive connecting plate 15.When connecting plate 15 is rotated down, can tilt pour out by waste or used plastics complete for the most extrusion dehydration.When connecting plate 15 is rotated upwardly to horizontal level, cavity 7 rotates to position straight down, and waste or used plastics falls on the connecting plate 15 of level, and extrusion 12 just starts waste or used plastics is carried out extrusion dehydration.

The diameter of rotation dish 5, the relative dimensions of the first tumbler 9, the length of rod member 18, the rotating speed of the first motor can be configured according to actual parameter, can guarantee that and realize above-mentioned functions.

Described conveyer device includes installing rack 27, be arranged on installing rack 27 batch turning frame 33, be installed in rotation on batch turning frame 33 drive frame 34, the hopper 25 being fixedly mounted on batch turning frame 33, for driving the transmission component driving frame 34 to slide up and down, the both sides of described batch turning frame 33 are rotatably mounted with the first movable pulley 38 by the first pivot 39, the both sides of described driving frame 34 are rotatably mounted with the second movable pulley 37 by the second pivot 36, the track 35 that the both sides of described installing rack 27 are formed for the first movable pulley 38 and the second movable pulley 37 moves.

Specifically, the bottom of Fig. 6 and Fig. 7 is the original state of conveyer device, and the top of Fig. 6 and Fig. 7 is the feed state of conveyer device.When initial, the first movable pulley 38 is in the top of the second movable pulley 37, and transmission component is when starting to drive driving frame 34, owing to the first movable pulley 38 is the most restricted so that batch turning frame 33 and driving frame 34 synchronize to move upward；When the first movable pulley 38 moves to the end of track 35, first movable pulley 38 can not move further along, and now transmission component continues to drive moving upward of driving frame 34, it is to be connected with batch turning frame 33 rotationally owing to driving the upper end of frame 34, frame 34 is driven to start to rotate around the second pivot 36, and then drive batch turning frame 33 to rotate around the first pivot 39, thus drive the synchronous rotary of hopper 25 so that the plastics in hopper 25 enter in feed hopper 2.

Described transmission component includes being installed in rotation on the driving shaft 29 on installing rack 27 top, being installed in rotation on the driven shaft 31 of installing rack 27 bottom, for driving the second motor 26 of driving shaft 29 rotary work, first drive 28 is installed on described driving shaft 29, second drive 32 is installed on described driven shaft 31, on described first drive 28 and the second drive 32, set is wound with carrier chain 30, and described driving frame 34 is fixing with carrier chain 30 to be connected.

The rotation of driving shaft 29, and then the rotation of drive the first drive 28, and then the up and down motion of drive carrier chain 30 can be driven by the second motor 26, and then drive sliding up and down of driving frame 34, operate the easiest.When actual fabrication, the quantity of the first drive 28 and the second drive 32 can be two.

The bottom of described casing 3 connects has discharge nozzle, described discharge nozzle to include the horizontal pipeline section 23 that vertical pipeline section 21 is connected with bending tube section 22 with the bending tube section 22 that vertically pipeline section 21 is connected, and described bending tube section 22 is provided with multiple second through hole 24.

Water liquid can flow to vertical pipeline section 21 at the first through hole 16, then flows into bending tube section 22, then flows out at the second through hole 24；The dehydrating plastics dropped at connecting plate 15 can first fall to vertical pipeline section 21, then falls to bending tube section 22, finally discharges at horizontal pipeline section 23.

The quantity of described cavity 7 is multiple, and each described cavity 7 is on same straight line, and multiple waste or used plastics can be facilitated to feed simultaneously.

Being also equipped with multiple second tumbler 10 in described second rotary shaft 8, the axial direction along the second rotary shaft 8 is equidistantly arranged, and each second tumbler 10 is provided with impeller 92, is also provided with guide cylinder 11 and the extrusion 12 of one_to_one corresponding quantity simultaneously.When multiple waste or used plastics feed simultaneously, need to be clashed into by multiple impellers 92 extrusion 12 of its correspondence, and then multiple waste or used plastics are carried out extrusion dehydration simultaneously.

Described guide cylinder 11 is also equipped with limiting plate 40 in the upper right side of connecting plate 15, connecting plate 15 can be made when rotating to horizontal level, it is impossible to continue up rotation.

Being set with the 3rd elastic component 41 on described extrusion 12, one end of described 3rd elastic component 41 is connected to the right hand top of extrusion 12, and the other end of described 3rd elastic component 41 is connected on guide cylinder 11.The setting of the 3rd elastic component 41, can facilitate the Rapid reset of extrusion 12.

For a person skilled in the art, can technical scheme as described above and design, make other various corresponding changes and deformation, and within all these changes and deformation all should belong to the protection domain of the claims in the present invention.

Claims (6)

1. null1. a high efficiency plastics squeezing dehydration device，It is characterized in that: include extrusion dehydration parts、Feed hopper、Bracing frame、The casing being arranged on bracing frame、For by the conveyer device in plastic conveying and plastic to feed hopper、It is installed in rotation on the first rotary shaft at the feed opening of feed hopper、For driving the first motor of the first rotary shaft rotary work、It is arranged in the first rotary shaft and can be with the rotation dish of the first rotary shaft synchronous rotary、It is eccentrically mounted at the projection on rotation dish，The cavity for accommodating plastics it is provided with in described first rotary shaft，Described extrusion dehydration parts include the second rotary shaft being installed in rotation in casing、The first tumbler being fixedly mounted in the second rotary shaft，Described second rotary shaft is arranged on the lower section of the first rotary shaft，Described first tumbler includes trigger member、The impeller being connected with trigger member，It is installed with guide cylinder in described casing，Described guide cylinder is positioned at the lower right of the second rotary shaft，It is fitted with in described guide cylinder and can be oppositely oriented the extrusion that cylinder moves left and right，Described extrusion leans with impeller，Described trigger member leans with projection，On inwall, bearing is installed on the right side of described casing，Connect between described bearing and trigger member and have the first elastic component，Between described casing inner left wall and guide cylinder, connecting plate is installed，Described connecting plate is positioned at the underface of the feed opening of feed hopper，Multiple first through hole it is provided with on described connecting plate；

   Second elastic component that passes on left of described connecting plate is connected on the inwall of casing, the right side of described connecting plate is hinged on guide cylinder, connect in described second rotary shaft and have rod member, one end of described rod member is connected with the second rotary shaft, the other end of described rod member is provided with slide block, and the side of described connecting plate offers the chute slided for slide block；

   Described conveyer device includes installing rack, be arranged on installing rack batch turning frame, be installed in rotation on batch turning frame drive frame, the hopper being fixedly mounted on batch turning frame, for driving the transmission component driving frame to slide up and down, the both sides of described batch turning frame are rotatably mounted with the first movable pulley by the first pivot, the both sides of described driving frame are rotatably mounted with the second movable pulley by the second pivot, the track that the both sides of described installing rack are formed for the first movable pulley and the second movable pulley moves.
2. High efficiency plastics squeezing dehydration device the most as claimed in claim 1, it is characterized in that: the bottom of described casing connects discharge nozzle, described discharge nozzle includes the horizontal pipeline section that vertical pipeline section is connected with bending tube section with the bending tube section that vertically pipeline section is connected, and described bending tube section is provided with multiple second through hole.
3. High efficiency plastics squeezing dehydration device the most as claimed in claim 1, it is characterised in that: the quantity of described cavity is multiple, and each described cavity is on same straight line.
4. High efficiency plastics squeezing dehydration device the most as claimed in claim 3, it is characterised in that: being also equipped with multiple second tumbler in described second rotary shaft, the axial direction along the second rotary shaft is equidistantly arranged, and each second tumbler is provided with impeller.
5. High efficiency plastics squeezing dehydration device the most as claimed in claim 1, it is characterised in that: described guide cylinder is also equipped with limiting plate in the upper right side of connecting plate.
6. High efficiency plastics squeezing dehydration device the most as claimed in claim 1, it is characterized in that: on described extrusion, be set with the 3rd elastic component, one end of described 3rd elastic component is connected to the right hand top of extrusion, and the other end of described 3rd elastic component is connected on guide cylinder.