CN205438944U - Construction improvement's metal powder injection moulding edge -trim reclamation machine - Google Patents

Abstract

The utility model discloses a construction improvement's metal powder injection moulding edge -trim reclamation machine, its frame upper end installs the heating feed cylinder, cut soil fraction spare, lie in the pan feeding subassembly of heating tip top behind the feed cylinder, and the tip is installed and is extruded the aircraft nose before the heating feed cylinder, the pan feeding subassembly includes metal pan feeding casing, casing supporting seat, the inside shaping feeding cavity room of metal pan feeding casing, and install into the hopper metal pan feeding casing upper end, shaping feed cylinder locating hole between the tip under casing supporting seat upper end and the metal pan feeding casing, cavity and feeding cavity room are extruded to the feed cylinder feed port intercommunication melten gel of heating feed cylinder, feeding cavity is indoor inlay adorn two by pan feeding driving motor driven pan feeding drive pivot, card pan feeding claw is overlapped respectively to each pan feeding drive pivot periphery, the melten gel is extruded the embedded dress of cavity and is extruded the screw rod by screw rod drive assembly driven. Through the structure design, the utility model has the advantages of novel in design, degree of automation is high, work efficiency is high, and can effectively improve the dust pollution among the operational environment.

Description

A kind of structure improved metal dust injection mo(u)lding edge recycling machine

Technical field

This utility model relates to plastic cement leftover material recycling device technical field, particularly relates to a kind of structure improved metal dust injection mo(u)lding edge recycling machine.

Background technology

In the plastic cement course of processing, substantial amounts of plastic cement rim charge can be produced, and this part rim charge can repeat recycling.

In the prior art, the common practices of edge recycling is: carrying out collected rim charge concentrating and pulverize, and can produce substantial amounts of dust pollution in crushing process, the healthy of field personnel can be worked the mischief by this.

It addition, the mode of prior art commonly used multiple computer desk multiple operation realizes edge recycling, automaticity is high, organic efficiency is low and cost of labor is high.

Utility model content

The purpose of this utility model is to provide a kind of structure improved metal dust injection mo(u)lding edge recycling machine for the deficiencies in the prior art, this structure improved metal dust injection mo(u)lding edge recycling machine is novel in design, automaticity is high, work efficiency is high and can effectively improve the dust pollution in working environment, and can be effectively improved rim charge recycling rate.

For reaching above-mentioned purpose, this utility model is achieved through the following technical solutions.

A kind of structure improved metal dust injection mo(u)lding edge recycling machine, include frame, the upper end of frame is equiped with the heating cylinder arranged in horizontal cross, the outer surface of heating cylinder is sheathed with electric heater, the inside molding of heating cylinder is along the melten gel extrusion chamber of the axis direction extension of heating cylinder, the leading section of heating cylinder is equiped with extruder head, and the upper end of frame is equiped with pan feeding assembly in the upper end side of heating cylinder rearward end；

Pan feeding assembly includes metal pan feeding housing and is installed in the housing support seat of metal pan feeding housing lower end side, housing supports the bottom of seat and is spirally connected with frame, the inside of metal pan feeding housing form up and down completely through pan feeding chamber, housing supports the upper end of seat and is screwed at the lower ending opening of pan feeding chamber, the upper end of metal pan feeding housing is equiped with in funnelform material bin at the upper end open of pan feeding chamber, the hole, barrel location with pan feeding chamber is formed between upper end and the bottom of metal pan feeding housing of housing support seat, the rearward end of heating cylinder is intercalated in hole, barrel location, the outer surface of heating cylinder offers the hopper hole of connection melten gel extrusion chamber and pan feeding chamber；

The pan feeding drive shaft that two parallel interval are arranged and synchronous backward rotates it is embedded with rotatably in the pan feeding chamber of metal pan feeding housing, the periphery of each pan feeding drive shaft overlaps card respectively the pan feeding pawl arranged along axis direction uniform intervals, the pan feeding pawl of two pan feeding drive shafts is staggeredly arranged along the axis direction of pan feeding drive shaft, the upper end of frame is provided with pan feeding in the peripheral equipment of metal pan feeding housing and drives motor, pan feeding drive the power output shaft of motor respectively with two pan feeding drive shaft drive connections；

The melten gel extruding cavity indoor of heating cylinder are embedded with the extrusion screw rod of the axis direction extension along heating cylinder rotatably, the upper end of frame is equiped with screw drive assembly in the rear end side of pan feeding assembly, screw drive assembly and extrusion screw rod drive connection, the upper end of frame is equiped with pelletizing assembly in the front of heating cylinder.

Wherein, wherein pan feeding drive shaft described in has driven sprocket in the peripheral set card of described metal pan feeding housing, described pan feeding drives the power output shaft of motor to be equiped with drive sprocket, around equipped with driving chain between drive sprocket and driven sprocket, two pan feeding drive shafts overlap card respectively in the periphery of metal pan feeding housing pitch wheel.

Wherein, the inside intercalation of described metal pan feeding housing has heat-generating pipe.

Wherein, described screw drive assembly includes screw drive motor, decelerator, and the power output shaft of screw drive motor is connected with the power input shaft of decelerator by shaft coupling, and the power output shaft of decelerator is connected with the rearward end of described extrusion screw rod.

Wherein, described pelletizing assembly includes and is installed in described frame upper end and is positioned at the pelletizing cover body of described heating cylinder front; the inside of pelletizing cover body forms pelletizing chamber; the leading section of described extruder head stretches in the pelletizing chamber of pelletizing cover body; the upper end of frame is equiped with pelletizing driving motor in the side of pelletizing cover body, and pelletizing drives the power output shaft of motor to be provided with the pelletizing head being flush-mounted in pelletizing chamber.

The beneficial effects of the utility model are: one described in the utility model structure improved metal dust injection mo(u)lding edge recycling machine, its frame upper end installing heating cylinder, it is positioned at the pelletizing assembly of heating cylinder front, is positioned at the pan feeding assembly above heating cylinder rearward end, heating cylinder outer surface jacket electric heater, the internal molding of heating cylinder extrudes chamber, heating cylinder leading section installing extruder head along melten gel；Pan feeding assembly includes that metal pan feeding housing, housing support seat, metal pan feeding enclosure interior molding pan feeding chamber, metal pan feeding housing upper end installing material bin, housing supports hole, molding barrel location between seat upper end and metal pan feeding housing bottom, heating cylinder rearward end is intercalated in hole, barrel location, and heating cylinder outer surface offers the hopper hole of connection melten gel extrusion chamber and pan feeding chamber；In pan feeding chamber, setting-in two is driven motor-driven pan feeding drive shaft, each pan feeding drive shaft periphery to overlap card pan feeding pawl respectively by pan feeding；Melten gel extruding cavity indoor setting-in extrusion screw rod, extrusion screw rod is driven by screw drive assembly.Designed by said structure, the advantage that this utility model has modern design, automaticity is high, work efficiency is high, and can effectively improve the dust pollution in working environment, and rim charge recycling rate can be effectively improved.

Accompanying drawing explanation

Below with accompanying drawing, this utility model is further detailed, but the embodiment in accompanying drawing is not constituted any restriction of the present utility model.

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation at another visual angle of this utility model.

Fig. 3 is the structural representation at the another visual angle of this utility model.

Fig. 4 is the structural representation of pan feeding assembly of the present utility model.

Fig. 5 is the structural representation at another visual angle of pan feeding assembly of the present utility model.

Fig. 1 to Fig. 5 includes:

1 frame 2 heating cylinder

21 melten gel extrusion chamber 3 extruder heads

4 pan feeding assembly 41 metal pan feeding housings

411 pan feeding chamber 42 housings support seat

43 hole 44, barrel location material bins

45 pan feeding drive shaft 46 pan feeding pawls

47 pan feedings drive the driven chain of motor 481

482 gear 49 heat-generating pipes

5 extrusion screw rod 6 screw drive assemblies

61 screw drive motor 62 decelerators

63 shaft coupling 7 pelletizing assemblies

71 pelletizing cover body 72 pelletizings drive motor.

Detailed description of the invention

Below in conjunction with specific embodiment, this utility model is illustrated.

As shown in Figures 1 to 5, a kind of structure improved metal dust injection mo(u)lding edge recycling machine, include frame 1, the upper end of frame 1 is equiped with the heating cylinder 2 arranged in horizontal cross, the outer surface of heating cylinder 2 is sheathed with electric heater, the inside molding of heating cylinder 2 is along the melten gel extrusion chamber 21 of the axis direction extension of heating cylinder 2, and the leading section of heating cylinder 2 is equiped with extruder head 3, and the upper end of frame 1 is equiped with pan feeding assembly 4 in the upper end side of heating cylinder 2 rearward end.

nullFurther，Pan feeding assembly 4 includes metal pan feeding housing 41 and is installed in the housing support seat 42 of metal pan feeding housing 41 lower end side，Housing supports the bottom of seat 42 and is spirally connected with frame 1，The inside of metal pan feeding housing 41 form up and down completely through pan feeding chamber 411，Housing supports the upper end of seat 42 and is screwed at the lower ending opening of pan feeding chamber 411，The upper end of metal pan feeding housing 41 is equiped with in funnelform material bin 44 at the upper end open of pan feeding chamber 411，The hole 43, barrel location connected with pan feeding chamber 411 is formed between upper end and the bottom of metal pan feeding housing 41 of housing support seat 42，The rearward end of heating cylinder 2 is intercalated in hole 43, barrel location，The outer surface of heating cylinder 2 offers the hopper hole of connection melten gel extrusion chamber 21 and pan feeding chamber 411.

Further, the pan feeding drive shaft 45 that two parallel interval are arranged and synchronous backward rotates it is embedded with rotatably in the pan feeding chamber 411 of metal pan feeding housing 41, the periphery of each pan feeding drive shaft 45 overlaps card respectively the pan feeding pawl 46 arranged along axis direction uniform intervals, the pan feeding pawl 46 of two pan feeding drive shafts 45 is staggeredly arranged along the axis direction of pan feeding drive shaft 45, the upper end of frame 1 is provided with pan feeding driving motor 47 in the peripheral equipment of metal pan feeding housing 41, pan feeding drive motor 47 power output shaft respectively with two pan feeding drive shaft 45 drive connections.

Additionally, the extrusion screw rod 5 of the axis direction extension along heating cylinder 2 it is embedded with rotatably in the melten gel extrusion chamber 21 of heating cylinder 2, the upper end of frame 1 is equiped with screw drive assembly 6 in the rear end side of pan feeding assembly 4, screw drive assembly 6 and extrusion screw rod 5 drive connection, the upper end of frame 1 is equiped with pelletizing assembly 7 in the front of heating cylinder 2.

Below in conjunction with concrete work process, this utility model is described in detail, particularly as follows: rim charge to be recycled is positioned in material bin 44, rim charge in material bin 44 falls into the pan feeding chamber 411 of metal pan feeding housing 41, two pan feeding drive shaft 45 reverse sync under pan feeding drives the driving effect of motor 47 rotate, each pan feeding drive shaft 45 drives corresponding pan feeding pawl 46 to rotate respectively, the pan feeding pawl 46 of two pan feeding drive shafts 45 matches to merge to cut off the rim charge entered in pan feeding chamber 411 and pulverizes, in the process, dust will not be produced, and then be conducive to improving the working environment of staff；Enter in melten gel extrusion chamber 21 via the hopper hole of heating cylinder 2 through cutting off the rim charge pulverized, the electric heater of heating cylinder 2 outer surface heating cylinder 2 is heated and make melten gel extrusion chamber 21 in rim charge fusing be in a liquid state, extrusion screw rod 5 extrudes liquid sizing material under the driving effect of screw drive assembly 6 and makes liquid sizing material towards extruder head 3 side shifting, under the squeezing action of extrusion screw rod 5, the sizing material that liquid sizing material is extruded via extruder head 3 and extruded carries out pelletizing processing by pelletizing assembly 7.

Summary situation understands, designed by said structure, the advantage that this utility model has modern design, automaticity is high, work efficiency is high, and can effectively improve the dust pollution in working environment, and rim charge recycling rate can be effectively improved.

As preferred embodiment, as shown in Figure 4 and Figure 5, wherein a pan feeding drive shaft 45 has driven sprocket in the peripheral set card of metal pan feeding housing 41, pan feeding drives the power output shaft of motor 47 to be equiped with drive sprocket, around equipped with driving chain between drive sprocket and driven sprocket, two pan feeding drive shafts 45 overlap card respectively in the periphery of metal pan feeding housing 41 pitch wheel 482.

During pan feeding drives motor 47 to drive two pan feeding drive shaft 45 synchronous backwards to rotate, pan feeding drives motor 47 to first pass through the chain drive driving wherein pan feeding drive shaft 45 being made up of drive sprocket, driven sprocket and driving chain and rotates, owing to being attached by the gear pair being made up of two gears 482 between two pan feeding drive shafts 45, when a pan feeding drive shaft 45 rotates wherein, another pan feeding drive shaft 45 synchronous backward rotates.

As preferred embodiment, as shown in Figure 4, the inside intercalation of metal pan feeding housing 41 has heat-generating pipe 49.During utility model works, the heat-generating pipe 49 within metal pan feeding housing 41 can carry out heat treated to metal pan feeding housing 41, and then reaches to carry out the rim charge entered in pan feeding chamber 411 purpose of the pre-heat treatment.

As preferred embodiment, as shown in Figures 2 and 3, screw drive assembly 6 includes screw drive motor 61, decelerator 62, the power output shaft of screw drive motor 61 is connected with the power input shaft of decelerator 62 by shaft coupling 63, and the power output shaft of decelerator 62 is connected with the rearward end of extrusion screw rod 5.

As preferred embodiment; as shown in Figure 1 to Figure 3; pelletizing assembly 7 includes and is installed in frame 1 upper end and is positioned at the pelletizing cover body 71 of heating cylinder 2 front; the inside of pelletizing cover body 71 forms pelletizing chamber; the leading section of extruder head 3 stretches in the pelletizing chamber of pelletizing cover body 71; the upper end of frame 1 is equiped with pelletizing driving motor 72 in the side of pelletizing cover body 71, and pelletizing drives the power output shaft of motor 72 to be provided with the pelletizing head being flush-mounted in pelletizing chamber.During pelletizing assembly 7 completes sizing material pelletizing operation, pelletizing drives motor 72 to drive pelletizing head action, and the continuous sizing material that extruded head 3 is extruded is carried out pelletizing by pelletizing head.

Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, the most all will change, this specification content should not be construed as restriction of the present utility model.

Claims (5)

1. a structure improved metal dust injection mo(u)lding edge recycling machine, it is characterized in that: include frame (1), the upper end of frame (1) is equiped with the heating cylinder (2) arranged in horizontal cross, the outer surface of heating cylinder (2) is sheathed with electric heater, the inside molding of heating cylinder (2) is along melten gel extrusion chamber (21) of the axis direction extension of heating cylinder (2), the leading section of heating cylinder (2) is equiped with extruder head (3), and the upper end of frame (1) is equiped with pan feeding assembly (4) in the upper end side of heating cylinder (2) rearward end；

nullPan feeding assembly (4) includes metal pan feeding housing (41) and is installed in housing support seat (42) of metal pan feeding housing (41) lower end side，Housing supports the bottom of seat (42) and is spirally connected with frame (1)，The inside of metal pan feeding housing (41) form up and down completely through pan feeding chamber (411)，Housing supports the upper end of seat (42) and is screwed at the lower ending opening of pan feeding chamber (411)，The upper end of metal pan feeding housing (41) is equiped with in funnelform material bin (44) at the upper end open of pan feeding chamber (411)，Barrel hole, location (43) connected with pan feeding chamber (411) is formed between upper end and the bottom of metal pan feeding housing (41) of housing support seat (42)，The rearward end of heating cylinder (2) is intercalated in barrel hole, location (43)，The outer surface of heating cylinder (2) offers the hopper hole of connection melten gel extrusion chamber (21) and pan feeding chamber (411)；

The pan feeding drive shaft (45) that two parallel interval are arranged and synchronous backward rotates it is embedded with rotatably in the pan feeding chamber (411) of metal pan feeding housing (41), the periphery of each pan feeding drive shaft (45) overlaps card respectively the pan feeding pawl (46) arranged along axis direction uniform intervals, the pan feeding pawl (46) of two pan feeding drive shafts (45) is staggeredly arranged along the axis direction of pan feeding drive shaft (45), the upper end of frame (1) is provided with pan feeding driving motor (47) in the peripheral equipment of metal pan feeding housing (41), pan feeding drive motor (47) power output shaft respectively with two pan feeding drive shaft (45) drive connections；

The extrusion screw rod (5) of the axis direction extension along heating cylinder (2) it is embedded with rotatably in melten gel extrusion chamber (21) of heating cylinder (2), the upper end of frame (1) is equiped with screw drive assembly (6) in the rear end side of pan feeding assembly (4), screw drive assembly (6) and extrusion screw rod (5) drive connection, the upper end of frame (1) is equiped with pelletizing assembly (7) in the front of heating cylinder (2).

One the most according to claim 1 structure improved metal dust injection mo(u)lding edge recycling machine, it is characterized in that: wherein pan feeding drive shaft (45) described in has driven sprocket in the peripheral set card of described metal pan feeding housing (41), described pan feeding drives the power output shaft of motor (47) to be equiped with drive sprocket, around equipped with driving chain between drive sprocket and driven sprocket, two pan feeding drive shafts (45) overlap card respectively in the periphery of metal pan feeding housing (41) pitch wheel (482).

One the most according to claim 2 structure improved metal dust injection mo(u)lding edge recycling machine, it is characterised in that: the inside intercalation of described metal pan feeding housing (41) has heat-generating pipe (49).

One the most according to claim 3 structure improved metal dust injection mo(u)lding edge recycling machine, it is characterized in that: described screw drive assembly (6) includes screw drive motor (61), decelerator (62), the power output shaft of screw drive motor (61) is connected with the power input shaft of decelerator (62) by shaft coupling (63), and the power output shaft of decelerator (62) is connected with the rearward end of described extrusion screw rod (5).

One the most according to claim 4 structure improved metal dust injection mo(u)lding edge recycling machine, it is characterized in that: described pelletizing assembly (7) includes and is installed in described frame (1) upper end and is positioned at the pelletizing cover body (71) of described heating cylinder (2) front, the inside of pelletizing cover body (71) forms pelletizing chamber, the leading section of described extruder head (3) stretches in the pelletizing chamber of pelletizing cover body (71), the upper end of frame (1) is equiped with pelletizing driving motor (72) in the side of pelletizing cover body (71), pelletizing drives the power output shaft of motor (72) to be provided with the pelletizing head being flush-mounted in pelletizing chamber.