CN116330528B - Plastic particle mixing hot melting injection molding device - Google Patents

Abstract

The invention discloses a plastic particle mixed hot melt injection molding device in the technical field of injection molding, which comprises a machine case, wherein a belt conveying device is rotationally connected inside the machine case, a motor for driving the belt conveying device to rotate is arranged on the machine case, ventilation meshes are formed on the belt conveying device, a mesh plate is fixedly connected inside the machine case, a plurality of air cavities are formed inside the mesh plate and the machine case, an air pipe I positioned in the middle of the belt conveying device is fixedly connected inside the machine case, the air pipe I is used for extracting air inside the machine case, a heating cylinder is fixedly connected on the air pipe I, the heating cylinder is tightly attached to the outer wall of the belt conveying device and is in sliding connection with the belt conveying device, an air pipe II for blowing air into each air cavity is arranged at the lower end of the machine case, a feed port is communicated on the machine case, and a discharge port for discharging plastic is formed below one side of the machine case, which is far away from the feed port.

Description

Plastic particle mixing hot melting injection molding device

Technical Field

The invention relates to the technical field of injection molding, in particular to a plastic particle mixing hot melting injection molding device.

Background

And injection molding, namely, heating and melting plastic particles, injecting the melted plastic particles into a mold, and cooling and shaping the melted plastic after molding the plastic particles through the mold, thereby obtaining a plastic product. However, when the plastic is added into the injection molding device, the prior art is generally direct and is not filtered, so that impurities in the plastic can be adhered to and formed on the product during injection molding, thereby affecting the appearance of the product, especially a transparent plastic product, and simultaneously enabling the product of the container type to be easily leaked at the adhesion position of the impurities.

Disclosure of Invention

The technical problem of the invention is to provide a plastic particle mixing hot melt injection molding device which can filter plastics and rapidly separate impurities.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a plastic granules mixes hot melt injection molding device, includes the quick-witted case, the inside rotation of machine case is connected with belt conveyer, be provided with on the machine case and be used for driving belt conveyer pivoted motor, the last ventilative mesh of having seted up of belt conveyer, quick-witted incasement fixedly connected with mesh board, mesh board and machine incasement portion are formed with a plurality of wind chambeies, quick-witted incasement portion fixedly connected with is located belt conveyer intermediate position's tuber pipe one, tuber pipe one is used for taking out the inside air of machine case, fixedly connected with cover that induced drafts on the tuber pipe one, the cover that induced drafts hugs closely on belt conveyer outer wall and belt conveyer sliding connection, the lower extreme of machine case is provided with and is used for to every wind intracavity air pipe two that blows, the intercommunication has the feed inlet on the machine case, one side below that the feed inlet was kept away from to the machine case has been seted up and has been used for with plastics exhaust discharge gate.

As a further scheme of the invention, one end of the second air pipe far away from the case is communicated with a centrifugal fan for supplying air, and the centrifugal fan is communicated with the filter box.

As a further scheme of the invention, a filter box is communicated between the first air pipe and the centrifugal fan, and a filter screen box is further arranged in the filter box.

As a further scheme of the invention, a sliding rod II is fixedly connected to the filter box, a wedge block is connected to the sliding rod II in a sliding manner, the wedge block penetrates through and stretches into the filter box, one end of the wedge block positioned in the filter box is of an inclined section, a spring capable of resetting the wedge block towards the inside of the filter box is arranged on the sliding rod II, a sliding rod I is connected to the outer wall of the filter box in a sliding manner, a filter screen box is arranged on the sliding rod I, a spring capable of enabling the filter screen box on the sliding rod I to move towards the direction of the filter box is arranged on the sliding rod I, and a flip cover is arranged on the filter box.

As a further scheme of the invention, a group of flow restraining devices for intermittently reducing the air quantity are arranged in each air cavity on the case, the flow restraining devices consist of two groups of symmetrical wind shielding components, the wind shielding components comprise rotating shafts which are rotationally connected to the case, one ends of the rotating shafts, which are positioned in the air cavities, are fixedly connected with wind shields, and the wind shielding device further comprises a driving mechanism which can enable the two groups of wind shielding components to rotate.

As a further scheme of the invention, the driving mechanism comprises a gear fixedly connected to the rotating shaft, a rack is slidably connected to the case, the rack is positioned between the gears of the two groups of wind shielding assemblies and meshed with the gears, a driving rod is fixedly connected to the rack, the driving rod is slidably connected to the case, a rocker is hinged to the upper end of the driving rod, and the rocker is fixedly connected with a rotating roller of the belt conveying device.

As a further scheme of the invention, the mesh plate is obliquely arranged towards the driving rod, the case is provided with an opening, the opening is arranged on the upper surface of the case, which is positioned below one inclined side of the mesh plate, the position, which is positioned on the opening, of the case is provided with a collecting net cover which is used for covering the position of the opening, the collecting net cover is connected with a wind shielding block which is used for blocking the opening in a sliding manner, and the wind shielding block is fixedly connected with the driving rod.

As a further scheme of the invention, a heating cylinder is fixedly connected to the inside of the case at the position of the discharge hole, a packing auger is rotationally connected to the heating cylinder, a drainage seat is fixedly connected to the upper end of the heating cylinder, a trapezoid groove is formed in the drainage seat, and a wind stopping block is fixedly connected to the middle position of the belt conveying device above the heating cylinder.

Compared with the prior art, the invention has the beneficial effects that:

1. the technology can separate plastics, dust and other impurities in a wind cavity blowing mode, and the separated process impurities and plastic particles are directly separated, so that secondary pollution is avoided, conveying towards a discharge port can be realized, conveying towards the discharge port can be controlled by controlling the conveying amount of the feed port and the rotating speed of the belt conveying device, conveying towards the discharge port can be stopped, and even if the operation is stopped, continuous operation can be directly carried out for filtering separation.

2. With the movement of the two wind shields, the air quantity can be reduced and then increased, so that the floating height of part of plastic particles is reduced briefly and then is quickly attached to the belt conveying device, and the plastic particles can be impacted with the surface of the belt conveying device continuously, so that dust and other impurities are promoted to be separated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic view of a gear portion of the present invention;

FIG. 5 is a schematic view of the structure of a filter cartridge portion of the present invention;

FIG. 6 is a schematic view of the mechanism inside the filter cartridge of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

01. a chassis; 02. an air pipe I; 03. a driving rod; 04. a rocker; 05. a filter box; 06. a centrifugal fan; 07. an air pipe II; 08. a feed inlet; 09. collecting a net cover; 10. a flip cover; 11. a filter screen box; 12. wedge blocks; 13. a gear; 14. a rack; 15. a motor; 16. a belt conveyor; 17. a mesh plate; 18. a drainage seat; 19. a heating cylinder; 20. a wind deflector; 21. a wind chamber; 22. an auger; 23. a wind stopping block; 24. a trapezoid groove; 25. a wind shielding block; 26. an opening; 27. a first sliding rod; 28. a second slide rod; 29. a discharge port; 30. a rotating shaft; 31. an air suction cover.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: the utility model provides a plastics granule mixes hot melt injection molding device, including machine case 01, machine case 01's inside rotates and is connected with belt conveyer 16, be provided with on the machine case 01 and be used for driving belt conveyer 16 pivoted motor 15, the ventilative mesh has been seted up on the belt conveyer 16, machine case 01 internal fixation has mesh board 17, mesh board 17 and machine case 01 inside are formed with a plurality of wind chambeies 21, machine case 01 inside fixedly connected with is located belt conveyer 16 intermediate position's tuber pipe one 02, tuber pipe one 02 is used for taking out the inside air of machine case 01, fixedly connected with cover 31 induced drafts on tuber pipe one 02, cover 31 induced drafts hugs closely on belt conveyer 16 outer wall and belt conveyer 16 sliding connection, machine case 01's lower extreme is provided with and is used for to every wind pipe two 07 that blow in the wind chambeies 21, the intercommunication has feed inlet 08 on the machine case 01, machine case 01 is kept away from one side below of feed inlet 08 and is seted up and is used for discharging plastics.

When the air duct II 07 blows air, so that air flow blows into the air inlet cavity 21, the air flow passes through the air cavity 21 and then is blown out through the mesh plate 17, the air cavity 21 is rectangular, the mesh plate 17 has a certain thickness, and therefore the air holes on the air cavity are longer, the air blown out through the air duct II 07 can be enabled to linearly upwards reach the belt conveying device 16, in addition, plastic particles are conveyed into the machine case 01 through the feeding hole 08, at the moment, under the action of the air force, the plastic particles can be abutted against the belt conveying device 16 due to lighter plastic, meanwhile, the suction effect of the air duct I02 is further increased, so that a large amount of plastic particles are attached to the belt conveying device 16, ventilation meshes on the belt conveying device 16 cannot enable the plastic particles to pass through, meanwhile, the motor 15 can drive the belt conveying device 16 to rotate, and the plastic particles attached to the belt conveying device 16 can move towards the discharging hole 29 side when the belt conveying device 16 rotates, so that excessive plastic particles can not be accumulated on the side close to the feeding hole 08 after flowing in from the feeding hole 08, and can not float up the plastic particles, and dust can be directly sucked by the mesh plate 02 after passing through the small conveying device 16;

the technology can separate plastics, dust and other impurities by means of blowing wind force through the wind cavity 21, and the separated process impurities and plastic particles are directly separated, so that secondary pollution is avoided, conveying towards the direction of the discharge hole 29 can be realized, and the conveying quantity towards the discharge hole 29 can be controlled by controlling the conveying quantity of the feed hole 08 and the rotating speed of the belt conveying device 16, and meanwhile, the conveying can be stopped, and even if the operation is stopped, the continuous operation can be directly carried out for filtering and separating.

As a further scheme of the invention, one end of the second air pipe 07 far away from the case 01 is communicated with a centrifugal fan 06 for supplying air, and the centrifugal fan 06 is communicated with a filter box 05.

Forced air supply can be realized through the centrifugal fan 06, so that wind force is ensured, meanwhile, the centrifugal fan 06 can supply air through the air pipe II 07 and the air pipe I02 performs a suction effect, thereby ensuring suction force to plastics, reducing the use cost, and simultaneously enabling air flow blown out by the air cavity 21 to have a drainage function, so that the air flow is ensured to be blown upwards in a straight line.

As a further scheme of the invention, a filter box 05 is communicated between the first air pipe 02 and the centrifugal fan 06, and a filter screen box 11 is also arranged in the filter box 05.

As a further scheme of the invention, a second slide rod 28 is fixedly connected to the filter box 05, a wedge block 12 is slidably connected to the second slide rod 28, the wedge block 12 penetrates into the filter box 05, one end of the wedge block 12 positioned in the filter box 05 is of an inclined section, a spring capable of resetting the wedge block 12 towards the inside of the filter box 05 is arranged on the second slide rod 28, a first slide rod 27 is slidably connected to the outer wall of the filter box 05, a filter screen box 11 is arranged on the first slide rod 27, a spring capable of enabling the filter screen box 11 on the first slide rod 27 to move towards the filter box 05 is arranged on the first slide rod 27, and a flip cover 10 is arranged on the filter box 05.

Dust is accumulated on the filter screen box 11 along with the filter screen box 11, so that the ventilation performance of the filter screen box 11 is reduced, but the centrifugal fan 06 is forced to ventilate, so that the filter screen box 11 slides downwards along with the reduction of the ventilation performance of the filter screen box 11, but the suction force of air flow is still present, when the filter screen box 11 in the filter box 05 reaches a critical point, the filter screen box 11 in the filter box 05 pushes the wedge block 12 to move towards the outer side of the filter box 05, the filter screen box 11 in the filter box 05 moves to the lowest position of the wedge block 12 under the action of the suction force, and at the moment, the filter screen box 11 moves towards the filter box 05 under the action of the spring on the slide rod 27, so that the filter screen box 11 on the slide rod 27 is pushed to move towards the filter box 05, and the filter screen box 11 in the filter box 05 is replaced;

the dust sucked by the air pipe 02 can be filtered through the filter screen box 11, so that the dust is prevented from secondarily entering the chassis 01, and meanwhile, when the filtering effect is reduced, the filter screen box 11 can be automatically replaced.

As a further scheme of the invention, a group of flow restraining devices for intermittently reducing the air quantity are arranged in each air cavity 21 on the case 01, each flow restraining device consists of two groups of symmetrical wind shielding components, each wind shielding component comprises a rotating shaft 30 rotatably connected to the case 01, one end of each rotating shaft 30, which is positioned in each air cavity 21, is fixedly connected with a wind shielding plate 20, and the wind shielding device further comprises a driving mechanism capable of enabling the two groups of wind shielding components to rotate.

As a further scheme of the invention, the driving mechanism comprises a gear 13 fixedly connected to a rotating shaft 30, a rack 14 is slidingly connected to the case 01, the rack 14 is positioned between the gears 13 of the two groups of wind shielding assemblies and meshed with the gear 13, a driving rod 03 is fixedly connected to the rack 14, the driving rod 03 is slidingly connected to the case 01, a rocker 04 is hinged to the upper end of the driving rod 03, and the rocker 04 is fixedly connected with a rotating roller of the belt conveying device 16.

When the motor 15 drives the belt conveying device 16 to move, the roller of the belt conveying device 16 drives the driving rod 03 to move up and down through the rocker 04, the rack 14 is driven to move simultaneously when the driving rod 03 moves up and down, so that the two gears 13 are driven to rotate simultaneously, the wind shield 20 is driven to rotate through the rotating shaft 30 by the gears 13, because the two gears 13 are symmetrically arranged on two sides of the rack 14, the two gears 13 rotate in opposite directions, when the driving rod 03 moves up, the rack 14 is driven to move up, the two gears 13 drive the rotating shaft 30 to rotate the wind shields 20, the upper ends of the two wind shields 20 move towards directions close to each other, and finally, the wind shield 20 is splayed, at the moment, because wind of the wind cavity 21 is vertically upwards, the area of the air pipe II 07 blowing upwards through the air cavity 21 can be reduced, but ventilation can be realized between the splayed two wind shields 20, so that the wind force at the two sides of the upper end of the splayed can be reduced, the wind speed in the middle of the splayed can be increased, the air flow of the air pipe I02 is ensured, the suction force is ensured, then the driving rod 03 moves downwards, the rack 14 resets the rear gear 13, the two wind shields 20 reset vertically, ventilation is not influenced, the air quantity can be reduced along with the movement of the two wind shields 20, the air quantity can be increased again, the floating height of part of plastic particles is reduced briefly and then is quickly stuck on the belt conveyor 16, and the plastic particles can be continuously impacted with the surface of the belt conveyor 16, so that dust and other impurities are promoted to be separated.

As a further scheme of the invention, the mesh plate 17 is obliquely arranged towards the driving rod 03, the case 01 is provided with an opening 26, the opening 26 is arranged on the upper surface of the case 01, which is positioned below the inclined side of the mesh plate 17, the position of the opening 26 on the case 01 is provided with a collecting net cover 09 used for covering the position of the opening 26, the collecting net cover 09 is connected with a wind shielding block 25 used for blocking the opening 26 in a sliding way, and the wind shielding block 25 is fixedly connected with the driving rod 03.

Because of the inclined arrangement of the mesh plate 17, when heavy impurities fall on the mesh plate 17, the wind cavity 21 continuously blows, so that the impurities cannot stay on the mesh plate 17 and roll towards one side of the opening 26, and when the driving rod 03 moves, the opening 26 is driven to move, so that the wind shielding block 25 is misplaced with the collecting mesh cover 09, the opening 26 is communicated with the collecting mesh cover 09, air flow in the case 01 can be blown out through the opening 26, and then passes through the collecting mesh cover 09, so that the impurities accumulated near the opening 26 are blown into the collecting mesh cover 09, and are collected by the collecting mesh cover 09.

As a further scheme of the invention, a heating cylinder 19 is fixedly connected to the inside of the case 01 at the position of a discharge hole 29, a packing auger 22 is rotationally connected to the heating cylinder 19, a drainage seat 18 is fixedly connected to the upper end of the heating cylinder 19, a trapezoid groove 24 is formed in the drainage seat 18, and an air stopping block 23 is fixedly connected to the middle position of the belt conveying device 16 above the heating cylinder 19.

The filtered plastic can gradually move towards the position of the drainage seat 18 until moving to the position right above the heating cylinder 19, at the moment, the shielding belt conveying device 16 of the air stopping block 23 is positioned right above the heating cylinder 19, so that when the plastic particles move to the position right above the heating cylinder 19, the plastic particles can directly fall into the heating cylinder 19, can be heated by the heating cylinder 19, and can be connected and conveyed through the discharge hole 29 and the die after being heated and melted, the auger 22 can realize conveying of the plastic and the melted plastic, and meanwhile, the effect of blocking air flow can be achieved, the air flow can be ensured to be only through the air pipe one 02, and the air pressure in the case 01 is ensured.

Claims (3)

1. The utility model provides a plastic granules mixes hot melt injection molding device, includes quick-witted case (01), its characterized in that: the inside of the case (01) is rotationally connected with a belt conveying device (16), a motor (15) for driving the belt conveying device (16) to operate is arranged on the case (01), ventilation meshes are formed in a conveying belt of the belt conveying device (16), a mesh plate (17) is fixedly connected in the case (01), a plurality of air cavities (21) are formed in the mesh plate (17) and the case (01), an air pipe I (02) positioned in the middle of the belt conveying device (16) is fixedly connected in the case (01), the air pipe I (02) is used for extracting air in the case (01), an air suction cover (31) is fixedly connected onto the air pipe I (02), the air suction cover (31) is tightly attached to the outer wall of the belt conveying device (16) and is in sliding connection with the belt conveying device (16), an air pipe II (07) for blowing air into each air cavity (21) is arranged at the lower end of the case (01), a feed inlet (08) is communicated with the case (01), and one side of the case (01) far away from the feed inlet (08) is provided with a discharge outlet (29) for discharging plastic;

one end of the second air pipe (07) far away from the chassis (01) is communicated with a centrifugal fan (06) for supplying air, and the centrifugal fan (06) is communicated with a filter box (05);

a filter box (05) is communicated between the first air pipe (02) and the centrifugal fan (06), and a filter screen box (11) is further arranged in the filter box (05);

the filter box (05) is fixedly connected with a second slide rod (28), the second slide rod (28) is connected with a wedge block (12) in a sliding manner, the wedge block (12) penetrates through and stretches into the filter box (05), one end of the wedge block (12) positioned in the filter box (05) is of an inclined section, and a spring capable of enabling the wedge block (12) to return towards the inside of the filter box (05) is arranged on the second slide rod (28);

the filter comprises a filter box (05), and is characterized in that the outer wall of the filter box (05) is connected with a first slide rod (27) in a sliding manner, a filter screen box (11) is placed on the first slide rod (27), a spring capable of enabling the filter screen box (11) on the first slide rod (27) to move towards the filter box (05) is arranged on the first slide rod (27), and a flip cover (10) is arranged on the filter box (05);

a group of flow restraining devices for intermittently reducing the air quantity are arranged in each air cavity (21) on the case (01), each flow restraining device consists of two groups of symmetrical wind shielding components, each wind shielding component comprises a rotating shaft (30) which is rotationally connected to the case (01), one end of each rotating shaft (30) which is positioned in each air cavity (21) is fixedly connected with a wind shielding plate (20), and the wind shielding device further comprises a driving mechanism which can enable the two groups of wind shielding components to rotate;

the driving mechanism comprises a gear (13) fixedly connected to a rotating shaft (30), a rack (14) is slidably connected to the case (01), the rack (14) is positioned between the gears (13) of the two groups of wind shielding components and meshed with the gears (13), a driving rod (03) is fixedly connected to the rack (14), the driving rod (03) is slidably connected to the case (01), a rocker (04) is hinged to the upper end of the driving rod (03), and the rocker (04) is fixedly connected with a rotating roller of the belt conveying device (16);

the inside of machine case (01) is located position fixedly connected with heating cylinder (19) of discharge gate (29), the internal rotation of heating cylinder (19) is connected with auger (22), the upper end fixedly connected with drainage seat (18) of heating cylinder (19), trapezoidal slot (24) have been seted up on drainage seat (18), the intermediate position of belt conveyer (16) is located upper position fixedly connected with stop block (23) of heating cylinder (19).

2. A plastic pellet hybrid hot melt injection molding apparatus as claimed in claim 1, wherein: the mesh plate (17) is obliquely arranged towards the driving rod (03), an opening (26) is formed in the case (01), and the opening (26) is formed in the upper surface of the case (01) and located below the oblique side of the mesh plate (17).

3. A plastic pellet hybrid hot melt injection molding apparatus as claimed in claim 2, wherein: the novel wind shielding device is characterized in that a collecting net cover (09) used for covering the position of the opening (26) is arranged at the position of the opening (26) on the case (01), a wind shielding block (25) used for blocking the opening (26) is connected to the collecting net cover (09) in a sliding mode, and the wind shielding block (25) is fixedly connected with the driving rod (03).