CN115570692A - Raw material particle mixer before extrusion molding of wire harness insulating layer - Google Patents

Abstract

The invention provides a raw material particle mixer before extrusion molding of a wire harness insulating layer, which belongs to the technical field of raw material particle mixing and comprises a feeding part and a stirring part, wherein the feeding part comprises a plurality of feeding units, each feeding unit comprises a funnel-shaped feeding cavity, material gathering ports are arranged at the top and the bottom of each feeding cavity, an umbrella-shaped dispersing material guide disc I is arranged below each material gathering port at the top, and an auxiliary stirring part is arranged in each feeding unit. The raw material particle mixing machine before extrusion molding of the wire harness insulation layer carries out feeding in a flowing feeding mode of firstly gathering, redispersing and then gathering, the state of the raw materials in the feeding process is continuously changed, meanwhile, the flowing raw materials are stirred and mixed by using the auxiliary stirring piece, the state of high gathering of the raw materials with the same particle size in the mixing process is broken, the raw materials with different particle sizes can be rapidly and fully mixed uniformly, and the mixing efficiency and effect are effectively improved.

Description

Raw material particle mixer before extrusion molding of wire harness insulating layer

Technical Field

The invention relates to the technical field of raw material particle mixing, in particular to a raw material particle mixer before extrusion molding of a wire harness insulating layer.

Background

The insulating layer for a wire harness is generally made of plastic particles through extrusion processing, and since the raw material for making the insulating layer usually contains a plurality of plastic particles, the raw material particles are mixed before the extrusion processing.

The in-process that current mixing apparatus carries out mixing process to the raw materials, all directly send into the blending tank with the raw materials granule in stir and mix, because the particle size of different raw materials also can be different, the shortcoming that this hybrid exists is that the raw materials of particle size difference is in the state of high gathering when directly pouring into the blending tank in, and the action of gravity that receives because of the raw materials granule size difference is also different, the in-process that mixes at the stirring is difficult to quick and abundant with the raw materials misce bene, the efficiency of mixing is lower, the effect is relatively poor.

Disclosure of Invention

In order to solve the technical problems, the invention provides a raw material particle mixer before extrusion molding of a wire harness insulation layer, which is achieved by the following specific technical means: including material loading portion and stirring portion, the material loading portion is located the top of stirring portion, material loading portion includes a plurality of material loading units, the material loading unit distributes from top to bottom, and the material loading unit includes the material loading chamber that leaks hopper-shaped, and the top and the bottom in material loading chamber all are provided with and gather the material mouth, and the below that the material mouth was gathered at the top is provided with umbelliform dispersion guide dish one, is provided with supplementary stirring spare in the material loading unit, and supplementary stirring spare is located the below of dispersion guide dish one, and in the material loading unit bottom gather the material mouth and extend to the material gathering mouth at top in the next material loading unit, the material loading in-process, material loading unit with gather earlier, redisperse, then the mobile material loading mode of gathering again feeds raw materials granule downwards, utilize supplementary stirring spare to stir the raw materials granule that flows simultaneously and handle, the top of material loading portion is provided with the feeding spare, and the raw materials granule of different sizes is delivered to the material loading unit in step.

The first preferred technical scheme is as follows: stirring portion is provided with umbelliform dispersion guide plate two including leaking hopper-shaped churn in, and dispersion guide plate two is located the feed unit that the churn top is adjacent under the material gathering mouth of bottom, and the below of dispersion guide plate two is provided with the mixed stirring spare, is provided with central drive post in the churn, and the upper end of central drive post upwards extends and passes all material loading chambeies in proper order, and the mixed stirring spare is all connected on central drive post with supplementary stirring spare.

The preferred technical scheme is as follows: the feeding part comprises a feeding hopper, a conical table and a plurality of partition plates are arranged in the feeding hopper, an annular feeding hole with an inverted trapezoidal section is formed between the conical table and the feeding hopper in a coincident mode, and the partition plates are evenly distributed in the annular feeding hole and divide the annular feeding hole into a plurality of independent feeding holes.

The preferred technical scheme is three: the partition plates are fixedly connected with the feed hopper and are in sliding connection with the conical table, a screw adjusting piece is arranged on any one partition plate, and the screw adjusting piece is rotatably connected with the partition plates and is in threaded connection with the conical table.

The preferable technical scheme is four: mix stirring spare and supplementary stirring spare and all include pinion rack form stirring structure, and pinion rack form stirring structure in the two all along the circumference evenly distributed of central drive post, and comb dentiform stirring structure wholly is right trapezoid shape.

The preferred technical scheme is five: the pinion rack form stirring structure in the mixing stirring piece is connected with the central drive column through the connecting piece and has an interval with between the central drive column, and the mixing stirring piece still includes heliciform stirring structure, and heliciform stirring structure encircles and connects on the central drive column.

The preferred technical scheme is six: the stirring cylinder bottom outlet is provided with a sealing plate with a discharging groove, the discharging groove is formed along the circumferential direction of the sealing plate, a plugging piece is inserted in the discharging groove, and a horizontal plane is formed by the upper surface of the plugging piece and the upper surface of the sealing plate in a plugging state.

The preferred technical scheme is seven: the lower part of toper platform is provided with preliminary stirring spare, and preliminary stirring spare downwardly extending is rather than in the material gathering mouth at the interior top of adjacent material loading unit.

The invention has the following beneficial effects: 1. the raw material particle mixer before extrusion molding of the wire harness insulation layer carries out feeding in a flowing feeding mode of firstly gathering, redispersing and then gathering, the state of raw materials in the feeding process is continuously changed, meanwhile, the flowing raw materials are stirred and mixed by using the auxiliary stirring piece, so that the raw materials with different particle sizes are effectively mixed in real time in the feeding process, the highly gathered state of the raw materials with the same particle size in the mixing process is broken, the influence of uneven gravity on the stirring and mixing of the raw materials is further reduced, the raw materials with different particle sizes can be quickly and fully mixed uniformly, the mixing efficiency and effect are effectively improved, and secondly, the mixer is simple in structure, the blockage situation is difficult to occur in the feeding process, and the feeding stability is effectively improved.

2. This raw materials granule mixes machine before insulating layer extrusion molding of pencil has further simplified overall structure through the central drive post that sets up the feeder hopper, material loading chamber and churn.

3. This raw materials granule mixes machine before insulating layer of pencil extrusion molding is through the combined action of feeding piece and screw rod regulating part, can control the material loading volume in the unit interval according to the needs of the condition of actual material loading, and overall structure is simple and be convenient for adjust.

4. This raw materials granule mixes machine before insulating layer of pencil extrusion molding is through the combined action of pinion rack form stirring, spiral stirring structure, blown down tank, closing plate and shutoff piece, upwards turns over the raw materials from the bottom when the stirring mixes and send, increases the kinetic energy of raw materials for the speed of mixing improves the effect of mixing, and the setting of bottom closing plate and shutoff piece, the stirring of the raw materials of not only being convenient for with turn over and send, and the ejection of compact of being convenient for.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a first cross-sectional structural diagram of the present invention.

FIG. 3 is a second cross-sectional structural diagram of the present invention.

Fig. 4 is a partial cross-sectional structural schematic diagram of the present invention.

FIG. 5 is a schematic view of the sealing plate structure of the present invention.

In the figure: a. a feeding part; b. a stirring section; c. a feeding unit; 1. a feeding cavity; 2. a material gathering port; 3. a first dispersing material guide disc; 4. an auxiliary stirring member; 5. a feeding member; 51. a feed hopper; 52. a conical table; 53. a partition plate; 54. an annular feed inlet; 6. a mixing drum; 7. a second dispersing material guide disc; 8. mixing and stirring the components; 9. a central drive column; 10. a screw adjustment member; 11. a connecting member; 12. a helical stirring structure; 13. a discharge chute; 14. a sealing plate; 15. a blocking piece; 16. and (5) a preliminary stirring piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, 2 and 3, a raw material particle mixer before extrusion molding of a wire harness insulation layer comprises a feeding part a and a stirring part b, wherein the feeding part a is located above the stirring part b, the feeding part a comprises a plurality of feeding units c, the number of the feeding units c is two, the feeding units c are distributed from top to bottom, each feeding unit c comprises a funnel-shaped feeding cavity 1, the top and the bottom of the feeding cavity 1 are respectively provided with a material gathering port 2, an umbrella-shaped dispersing guide plate one 3 is arranged below the top material gathering port 2, an auxiliary stirring member 4 is rotatably arranged below the dispersing guide plate one 3, the auxiliary stirring member 4 passes through the material gathering port 2 at the bottom in the feeding unit c and extends into the material gathering port 2 at the top in the next feeding unit c, as shown in fig. 2, during the mixing process, raw materials with different particle sizes synchronously enter the feeding cavity 1 from the material gathering port 2 at the top in the feeding unit c, the raw materials are in an aggregation state when passing through the top material gathering port 2, fall on the first dispersion material guiding disc 3 after entering the material feeding cavity 1, and fall in the material feeding cavity 1 along the first dispersion material guiding disc 3 in a dispersion mode, then aggregate along the inner side surface of the material feeding cavity 1 facing the material gathering port 2 at the bottom and enter the material feeding unit c below the material gathering port 2 to repeat the motion, and then enter the stirring part b to be stirred and mixed, wherein in the process that the raw materials aggregate along the inner side surface of the material feeding cavity 1 facing the material gathering port 2 at the bottom, the auxiliary stirring piece 4 in the material feeding cavity 1 can stir the flowing raw materials, and in conclusion, the invention carries out material feeding in a flowing material feeding mode of firstly aggregating, redispersing and then aggregating, continuously changes the state of the raw materials in the material feeding process, and simultaneously utilizes the auxiliary stirring piece 4 to stir and mix the flowing raw materials, the mixing device has the advantages that raw materials with different particle sizes are effectively mixed in real time in the feeding process, the highly aggregated state of the same raw material in the mixing process is broken through, the influence of uneven gravity on raw material stirring and mixing is further reduced, the raw materials with different particle sizes can be quickly and fully mixed uniformly, the mixing efficiency and effect are effectively improved, and the mixing device is simple in structure, difficult to block in the feeding process, and effectively improves the feeding stability.

Referring to fig. 1, 2, 3 and 4, a feeding member 5 is disposed above the feeding portion a, the feeding member 5 includes a feeding hopper 51, a conical table 52 and a plurality of partition plates 53 are disposed in the feeding hopper 51, the conical table 52 coincides with the axis of the feeding hopper 51, and an annular feeding port 54 with an inverted trapezoid cross section is formed between the conical table 52 and the feeding hopper 51, the partition plates 53 are uniformly distributed in the annular feeding port 54, and divide the annular feeding port 54 into a plurality of independent feeding ports, and different raw materials enter the feeding hopper 51 through different feeding ports, as shown in fig. 4, the feeding direction of the feeding ports is vertical downward, the raw materials directly fall on the inner wall of the feeding hopper 51 and are gathered along the downward outlet of the inner wall, so that different raw materials are automatically mixed at one time in the feeding process, and the mixing efficiency and effect are further improved, wherein a primary stirring member 16 is disposed below the conical table 52, and the primary stirring member 16 extends downward into a gathering port 2 at the top of the feeding unit c adjacent to prevent the raw materials from being blocked, as shown in fig. 3.

Referring to fig. 1, 2, 3 and 4, the partition plates 53 are fixedly connected with the feed hopper 51 and slidably connected with the conical table 52, a screw adjusting member 10 is arranged on any one of the partition plates 53, the screw adjusting member 10 is rotatably connected with the partition plate 53 and is in threaded connection with the conical table 52, the conical table 52 is controlled to move up and down through the screw adjusting member 10, and then the size of the feeding port is controlled, so that the feeding amount in unit time can be controlled according to the requirement of the actual feeding condition, and the feeding device is simple in overall structure and convenient to adjust.

Referring to fig. 1, 2 and 3, the stirring part b includes a funnel-shaped stirring cylinder 6, an umbrella-shaped dispersion guide plate two 7 is disposed in the stirring cylinder 6, the dispersion guide plate two 7 is disposed right below the bottom material gathering port 2 in the feeding unit c adjacent to the upper side of the stirring cylinder 6, a mixing stirring element 8 is disposed below the dispersion guide plate two 7, a central driving column 9 is disposed in the stirring cylinder 6, the upper end of the central driving column 9 extends upward and sequentially passes through all the feeding chambers 1, the primary stirring element 16, the mixing stirring element 8 and the auxiliary stirring element 4 are all connected to the central driving column 9, as shown in fig. 3, when a raw material enters the stirring cylinder 6 through the feeding unit c, the raw material falls on the dispersion guide plate two 7 first, the dispersion guide plate two 7 performs dispersion treatment on the raw material again, and then falls on the stirring cylinder 6 for final mixing, the efficiency and effect of mixing are further improved, and the mixing stirring element 8, the auxiliary stirring element 4 and the primary stirring element 16 are synchronously driven by the central driving column 9, the dispersion guide plate two 7 and the dispersion guide plate 3 are connected to the dispersion guide plate 6, and the dispersion guide plate 7 are fixedly connected to the dispersion guide plate 3, and the dispersion guide plate 6, and the dispersion plate 3, and the dispersion guide plate 7 are fixedly connected to the dispersion chamber 1, and the dispersion chamber 1.

Referring to fig. 2 and 3, preliminary stirring piece 16, mix stirring piece 8 and supplementary stirring piece 4 and all include pinion rack form stirring structure, pinion rack form stirring structure in the three all along the circumference evenly distributed of central drive post 9, and the whole right trapezoid that is of comb tooth form stirring structure, as shown in fig. 4, preliminary stirring piece 16 is at the in-process of stirring, the inside wall that the pinion rack form stirring structure on it is all pasting feeder hopper 51 moves all the time, mix on horizontal in order to scrape the area raw materials, the course of operation that mixes stirring piece 8 and supplementary stirring piece 4 internal tooth form stirring structure is the same with the aforesaid.

Referring to fig. 2 and 3, the pinion rack form stirring structure in the mixing stirring piece 8 is connected with the center drive post 9 through the connecting piece 11 and has an interval with between the center drive post 9, and the mixing stirring piece 8 still includes the heliciform stirring structure 12, the heliciform stirring structure 12 encircles and is connected on the center drive post 9, the interval between pinion rack form stirring structure and the center drive post 9 supplies the installation of heliciform stirring structure 12, as shown in fig. 3, in the in-process of mixing stirring, heliciform stirring structure 12 and pinion rack form stirring structure synchronous operation, upwards turn over the raw materials of 6 bottoms of churn when stirring, increase the kinetic energy of raw materials, accelerate the speed of mixing, improve the effect of mixing.

Referring to fig. 2, fig. 3 and fig. 5, a sealing plate 14 with a discharging groove 13 is arranged at the bottom outlet of the mixing drum 6, the sealing plate 14 is in sealing connection with the bottom outlet of the mixing drum 6, the central driving column 9 is in rotational connection with the sealing plate 14, the lower ends of the toothed plate-shaped stirring structure and the spiral stirring structure 12 of the mixing stirring part 8 are both attached to the upper surface of the sealing plate 14 to move, the discharging groove 13 is formed along the circumferential direction of the sealing plate 14 and is combined with the inner wall of the bottom outlet of the mixing drum 6 to form a discharging hole, a plugging part 15 is slidably inserted into the discharging groove 13, as shown in fig. 2, in a plugging state, the upper surface of the plugging part 15 and the upper surface of the sealing plate 14 form a horizontal plane, so that the mixing stirring part 8 can sufficiently stir raw materials, in a discharging process, the plugging part 15 is removed, discharging can be performed, and in a discharging process, the mixing stirring part 8 is rotated, the speed of discharging can be effectively increased, wherein the plugging part 15 comprises a plugging part and a sealing block corresponding to the discharging groove 13, and a fixing part, the fixing part is fixedly connected with the fixing part 14, and can be a buckle, and can be a sealing plate.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a raw materials granule mixes machine before pencil insulating layer extrusion molding which characterized in that: comprises a feeding part (a) and a stirring part (b), wherein the feeding part (a) is positioned above the stirring part (b);

the feeding part (a) comprises a plurality of feeding units (c), the feeding units (c) are distributed from top to bottom, each feeding unit (c) comprises a funnel-shaped feeding cavity (1), the top and the bottom of each feeding cavity (1) are provided with material collecting ports (2), an umbrella-shaped dispersing material guide plate I (3) is arranged below each top material collecting port (2), an auxiliary stirring part (4) is arranged in each feeding unit (c), each auxiliary stirring part (4) is positioned below each dispersing material guide plate I (3), and each auxiliary stirring part (4) passes through the material collecting port (2) at the bottom in each feeding unit (c) and extends into the material collecting port (2) at the top in the next feeding unit (c);

in the feeding process, the feeding unit (c) feeds the raw material particles downwards in a flowing feeding mode of firstly aggregating, redispersing and then aggregating, and simultaneously utilizes the auxiliary stirring piece (4) to stir the flowing raw material particles, a feeding piece (5) is arranged above the feeding part (a), and the feeding piece (5) synchronously feeds the raw material particles with different sizes to the feeding unit (c);

the stirring part (b) comprises a funnel-shaped stirring cylinder (6), an umbrella-shaped dispersion guide disc II (7) is arranged in the stirring cylinder (6), the dispersion guide disc II (7) is positioned right below the bottom material gathering port (2) in the adjacent feeding unit (c) above the stirring cylinder (6), a mixing stirring piece (8) is arranged below the dispersion guide disc II (7), a central driving column (9) is arranged in the stirring cylinder (6), the upper end of the central driving column (9) extends upwards to sequentially penetrate through all the feeding cavities (1), and the mixing stirring piece (8) and the auxiliary stirring piece (4) are both connected to the central driving column (9);

the feeding part (5) comprises a feeding hopper (51), a conical table (52) and a plurality of partition plates (53) are arranged in the feeding hopper (51), the axes of the conical table (52) and the feeding hopper (51) are overlapped, an annular feeding hole (54) with an inverted trapezoidal section is formed between the conical table and the feeding hopper, and the partition plates (53) are uniformly distributed in the annular feeding hole (54) and divide the annular feeding hole (54) into a plurality of independent feeding holes;

mix stirring spare (8) and supplementary stirring spare (4) and all include pinion rack form stirring structure, pinion rack form stirring structure in the two all along the circumference evenly distributed of central drive post (9), and comb dentiform stirring structure wholly is right trapezoid shape.

2. The mixing machine of raw material pellets for wire harness insulation layer extrusion molding according to claim 1, wherein: the partition plates (53) are fixedly connected with the feed hopper (51) and are in sliding connection with the conical table (52), a screw adjusting piece (10) is arranged on any one partition plate (53), and the screw adjusting piece (10) is rotationally connected with the partition plates (53) and is in threaded connection with the conical table (52).

3. The machine for mixing raw material particles before extrusion molding of a wire harness insulation layer as claimed in claim 1, wherein: mixing the pinion rack form stirring structure in stirring piece (8) and being connected through connecting piece (11) and central drive post (9) and with central drive post (9) between have the interval, and mixing stirring piece (8) still includes heliciform stirring structure (12), heliciform stirring structure (12) encircle to be connected on central drive post (9).

4. The mixing machine of raw material pellets for wire harness insulation layer extrusion molding according to claim 1, wherein: a sealing plate (14) with a material outlet groove (13) is arranged at an outlet at the bottom of the mixing drum (6), the material outlet groove (13) is formed along the circumferential direction of the sealing plate (14), a plugging piece (15) is inserted into the material outlet groove (13), and a horizontal plane is formed by the upper surface of the plugging piece (15) and the upper surface of the sealing plate (14) in a plugging state.

5. The mixing machine of raw material pellets for wire harness insulation layer extrusion molding according to claim 1, wherein: and a primary stirring piece (16) is arranged below the conical table (52), and the primary stirring piece (16) extends downwards to the inside of the material gathering port (2) at the top of the feeding unit (c) adjacent to the primary stirring piece.

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