CN216152916U - Injection molding machine feed mechanism for heat preservation nail - Google Patents

Abstract

The utility model relates to the technical field of injection molding equipment, and provides a feeding mechanism of an injection molding machine for heat-preservation nails, which comprises a first cylinder body and a second cylinder body, wherein the first cylinder body is arranged in the first cylinder body, the first cylinder body is provided with a screening space, a blanking space is formed between the first cylinder body and the second cylinder body, the blanking space is provided with an outlet, the outlet is communicated with the blanking space, the screening space is provided with a feed inlet and a discharge outlet, the feed inlet is communicated with an external space and the screening space, the discharge outlet is communicated with the screening space and the blanking space, and a plurality of screen plates are arranged on the second cylinder body and positioned in the screening space. Through above-mentioned technical scheme, can have great material and iron fillings among the plastic granules among the prior art, the plastic granules of this kind of mixture gets into injection molding machine thermoforming, not only causes the damage to the injection molding machine, and iron fillings lead to producing the problem of inferior product owing to can not mix with plastics moreover.

Description

Injection molding machine feed mechanism for heat preservation nail

Technical Field

The utility model relates to the technical field of injection molding equipment, in particular to a feeding mechanism of an injection molding machine for a heat-preservation nail.

Background

An injection molding machine, also known as a molding machine, is a main molding apparatus for molding thermoplastic or thermosetting plastic into plastic products of various shapes using a plastic molding die. The injection molding raw materials of the injection molding machine are plastic particles, large materials and scrap iron can be generated in the plastic particles, the mixed plastic particles enter the injection molding machine for heating and forming, the injection molding machine is damaged, and the scrap iron can not be mixed with plastic to generate inferior products.

SUMMERY OF THE UTILITY MODEL

The utility model provides a feeding mechanism of an injection molding machine for heat-preservation nails, which solves the problems that in the prior art, plastic particles contain larger materials and scrap iron, the mixed plastic particles enter the injection molding machine for heating and forming, the injection molding machine is damaged, and poor products are generated due to the fact that the scrap iron cannot be mixed with plastics.

The technical scheme of the utility model is as follows:

an injection molding machine feeding mechanism for a heat-preservation nail comprises

A first cylinder body, a second cylinder body and a third cylinder body,

a second cylinder body arranged in the first cylinder body, wherein the first cylinder body is provided with a screening space, a blanking space is formed between the first cylinder body and the second cylinder body, the blanking space is provided with an outlet, the outlet is communicated with the blanking space, the screening space is provided with a feed inlet and a discharge outlet, the feed inlet is communicated with an external space and the screening space, and the discharge outlet is communicated with the screening space and the blanking space,

a plurality of sieve plates arranged on the second cylinder and positioned in the sieve material space,

the magnet is rotationally arranged on the first cylinder, is positioned in the blanking space and is positioned below the discharge port,

the vibration motor is arranged on the first cylinder and drives the second cylinder to vibrate,

and the rotation driving device is arranged on the first cylinder and drives the magnet to rotate.

As a further technical scheme, the axial of first barrel is along vertical, first barrel with the second barrel is the cylindricality, and the axial of the two is parallel, still includes

The elastic pieces are a plurality of and located in the blanking space, one end of each elastic piece is connected with the inner wall of the first barrel, the other end of each elastic piece is connected with the outer wall of the second barrel, and the axial direction of each elastic piece is perpendicular to the axial direction of the first barrel.

As a further technical scheme, the number of the magnets is a plurality, and the magnet assembly also comprises

The rotary rod rotates and sets up on the first barrel, be located in the blanking space, and be located the below of bin outlet, the axial of rotary rod with the axial direction parallel of first barrel, a plurality of magnet sets up along the direction of feed in proper order on the rotary rod, the rotation driving device drive the rotary rod rotates.

As a further technical proposal, the method also comprises

The uniform material plates are arranged on the first barrel body, one uniform material plate is positioned between two adjacent magnets, the cross section of each uniform material plate is circular and provided with a plurality of through holes, and the axial direction of each uniform material plate is parallel to the axial direction of the first barrel body.

As a further technical proposal, the method also comprises

Connect the material section, set up at second barrel top is located in the blanking space, be provided with and connect the material mouth, connect the material mouth intercommunication exterior space with sieve material space, the longitudinal section that connects the material section is trapezoidal, the cross section that connects the material section is from being close to keeping away from the second barrel grow gradually, connect the axial of material section with the axial direction parallel of first barrel.

As a further technical proposal, the method also comprises

The blanking section is arranged at the bottom of the second barrel and located in the blanking space and located between the second barrel and the rotary rods, a blanking port is arranged, the blanking port is communicated with the screening space and the blanking space, the longitudinal section of the blanking section is trapezoidal, the cross section of the blanking section is close to and away from the gradual increasing of the second barrel, and the axial direction of the blanking section is parallel to the axial direction of the first barrel.

As a further technical proposal, the method also comprises

The discharging section is arranged on the first barrel, is positioned below the rotary rod and is provided with a material gathering part and a discharging part, the discharging part is provided with a discharging port, the discharging port is communicated with the blanking space, the material gathering part and the discharging part are sequentially arranged along the feeding direction, the longitudinal section of the material gathering part is trapezoidal, and the cross section of the material gathering part gradually decreases from the approach to the distance from the first barrel,

the spiral guide plate is arranged on the discharging part and extends into the blanking space, and the axial direction of the discharging section and the spiral guide plate is parallel to the axial direction of the first cylinder.

As a further technical scheme, the diameter of the homogenizing plate is equal to that of the first cylinder, and the diameter of the first cylinder is larger than that of the second cylinder.

The working principle and the beneficial effects of the utility model are as follows:

in the utility model, a first cylinder is used, a second cylinder is added in the first cylinder, the first cylinder is provided with a screening space, a blanking space is formed between the first cylinder and the second cylinder, so that materials added into the injection molding machine can firstly pass through the screening space to screen materials with larger volume and stay on a sieve plate to prevent the materials with larger volume from entering the injection molding machine and being incompletely melted to generate inferior products, then scrap iron stored in the materials is processed through the blanking space, the problems that the mixed plastic particles have larger materials and scrap iron and are heated and formed in the injection molding machine, the injection molding machine is damaged, the scrap iron cannot be mixed with the plastic to generate inferior products are solved, the blanking space is provided with an outlet which is communicated with the space, and the materials which are screened and processed can be added into the injection molding machine from the outlet, the screening space is provided with a feeding hole and a discharging hole, the feeding hole is communicated with the external space and the screening space, the discharging hole is communicated with the screening space and the blanking space, the feeding hole is arranged to screen materials to be processed through the feeding hole in the screening space, and then the materials to be processed are fed into the blanking space through the discharging hole to be processed with scrap iron and blanked, so that the whole process of the materials to be processed is completed; the sieve plates are arranged on the second cylinder and positioned in the sieve material space, so that materials to be treated entering the sieve material space are sieved, and the materials with larger volume are screened out through sieve holes of the sieve plates, so that the materials are prevented from entering an injection molding machine and poor-quality products are produced; the magnet is rotationally arranged on the first cylinder, is positioned in the blanking space and is positioned below the discharge port, so that small-volume materials processed by screening can adsorb scrap iron in the small-volume materials through the rotating magnet, and the small-volume materials are prevented from entering the injection molding machine along with the materials, so that the injection molding machine is prevented from being damaged and poor-quality products are prevented; the vibration motor is arranged on the first cylinder and is used for providing power required by vibration of the second cylinder, and the rotary driving device is arranged on the first cylinder and is used for providing power required by rotation of the magnet.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a cross-sectional view of the present invention;

FIG. 2 is a schematic structural view of a second cylinder, a receiving section and a discharging section in the utility model;

FIG. 3 is a schematic view of the structure of the rotary rod and the magnet according to the present invention;

in the figure: 1. the device comprises a first barrel, a second barrel, a screening space, a blanking space, a feeding hole, a discharging hole, a 7 outer space, a 8 screening plate, a 9 magnet, a 10 vibrating motor, a 11 rotating driving device, a 12 elastic piece, a 13 rotating rod, a 14 homogenizing plate, a 15 receiving section, a 16 receiving port, a 17 discharging section, a 18 discharging port, a 19 discharging section, a 20 collecting part, a 21 discharging part, a 22 discharging port, a 23 discharging port, a spiral guide plate, a 24 through hole and a feeding hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 3, the present embodiment provides a feeding mechanism of an injection molding machine for heat preservation nails, comprising

The first cylinder body 1 is provided with a first cylinder body,

a second cylinder body 2 arranged in the first cylinder body 1, wherein the first cylinder body 1 is provided with a screening space 3, a blanking space 4 is formed between the first cylinder body 1 and the second cylinder body 2, the blanking space 4 is provided with an outlet, the outlet is communicated with the blanking space 4, the screening space 3 is provided with a feed inlet 5 and a discharge outlet 6, the feed inlet 5 is communicated with an external space 7 and the screening space 3, the discharge outlet 6 is communicated with the screening space 3 and the blanking space 4,

a plurality of sieve plates 8 are arranged on the second cylinder 2 and positioned in the sieve material space 3,

a magnet 9 which is rotatably arranged on the first cylinder 1, is positioned in the blanking space 4 and is positioned below the discharge opening 6,

the vibration motor 10 is arranged on the first cylinder 1 and drives the second cylinder 2 to vibrate,

and the rotation driving device 11 is arranged on the first cylinder 1 and drives the magnet 9 to rotate.

In this example, a first cylinder 1 is used, a second cylinder 2 is added into the first cylinder 1, the first cylinder 1 has a material sieving space 3, a material dropping space 4 is formed between the first cylinder 1 and the second cylinder 2, so that the material added into the injection molding machine can firstly pass through the material sieving space 3 to sieve the material with larger volume, so that the material is retained on a sieve plate 8, the material with larger volume is prevented from entering the injection molding machine, the material is not melted completely and generates poor-quality products, then the scrap iron stored in the material is treated through the material dropping space 4, thereby solving the problem that the plastic particles have larger material and scrap iron, the mixed plastic particles enter the injection molding machine for heating and forming, the injection molding machine is damaged, the scrap iron cannot be mixed with the plastic and generate poor-quality products, the material dropping space 4 has an outlet, the outlet is communicated with the material dropping space 4, in order to enable materials which are subjected to screening and blanking processing to be added into an injection molding machine from an outlet, a screening space 3 is provided with a feeding hole 5 and a discharging hole 6, the feeding hole 5 is communicated with an external space 7 and the screening space 3, the discharging hole 6 is communicated with the screening space 3 and a blanking space 4, the feeding hole 5 is arranged in order that the materials to be processed enter the screening space 3 through the feeding hole 5 to be screened, then enter the blanking space 4 through the discharging hole 6 to be subjected to scrap iron processing and blanking, and therefore the whole process of the materials to be processed is completed; the sieve plates 8 are arranged on the second cylinder 2 and positioned in the sieve material space 3, so that materials to be treated entering the sieve material space 3 are sieved, and the materials with larger volume are screened out through sieve holes of the sieve plates 8 to be prevented from entering an injection molding machine to produce inferior products; the magnet 9 is rotatably arranged on the first cylinder 1, is positioned in the blanking space 4 and is positioned below the discharge port 6, so that small-volume materials processed by screening can be adsorbed by iron filings existing in the small-volume materials through the rotating magnet 9, and the small-volume materials are prevented from entering the injection molding machine along with the materials, so that the injection molding machine is prevented from being damaged and poor-quality products are prevented; the vibration motor 10 is provided on the first cylinder 1 to provide power required for vibration of the second cylinder 2, and the rotation driving device 11 is provided on the first cylinder 1 to provide power required for rotation of the magnet 9.

Further, the axial of first barrel 1 is vertical, first barrel 1 with second barrel 2 is the cylindricality, and the axial of the two is parallel, still includes

Elastic component 12, be a plurality of, be located in blanking space 4, one end is connected first barrel 1 inner wall, and the other end is connected 2 outer walls of second barrel, the axial of elastic component 12 with the axial vertical of first barrel 1.

In this example, the axial direction of the first cylinder 1 is vertical, so that the materials to be processed are directly moved into each space for processing under the action of the weight of the materials, and a conveying device in the way is saved; the first cylinder body 1 and the second cylinder body 2 are both cylindrical, and the axial directions of the first cylinder body and the second cylinder body are parallel, so that materials to be treated can move smoothly in the process of treatment, and excessive impact on the inner walls of the first cylinder body 1 and the second cylinder body 2 can not be caused; still added a plurality of elastic component 12, and be located blanking space 4, 1 inner wall of first barrel is connected to its one end, 2 outer walls of second barrel are connected to the other end, be when shaking motor 10 vibrations to second barrel 2 in order to prevent, second barrel 2 causes the vibrations to damage first barrel 1, the axial of elastic component 12 and the axial of first barrel 1 are perpendicular, be in order to make the effect that elastic component 12 can furthest exert the buffering, prevent that second barrel 2 from producing too big vibrations because of shaking motor 10, thereby cause the vibrations to damage first barrel 1.

Further, the magnets 9 are several and also comprise

Rotary rod 13 rotates and sets up on the first barrel 1, be located in blanking space 4, and be located the below of bin outlet 6, rotary rod 13 the axial with the axial direction parallel of first barrel 1, a plurality of magnet 9 sets up along the direction of feed in proper order on rotary rod 13, the drive of rotary drive device 11 rotary rod 13 rotates.

In this example, rotary rod 13 has been used, it rotates and sets up on first barrel 1, and be located blanking space 4, a plurality of magnet 9 sets up on rotary rod 13 along direction of feed in proper order, be so that magnet 9 can be in blanking space 4, the material of accomplishing to the sieve material carries out the processing of adsorbing iron fillings, prevent to have iron fillings in the material, when the material adds to the injection molding machine, the year material heats the melting, iron fillings can't fuse with plastics, lead to producing inferior product, 11 drive rotary rod 13 of rotary drive device rotate, it drives the rotatory required power of iron fillings processing that adsorbs that carries out of magnet 9 to provide rotary rod 13.

Further, also comprises

The uniform material plates 14 are arranged on the first cylinder 1, one uniform material plate 14 is positioned between two adjacent magnets 9, the cross section of each uniform material plate 14 is circular and is provided with a through hole 24, the through holes 24 are a plurality of through holes, and the axial direction of each uniform material plate 14 is parallel to the axial direction of the first cylinder 1.

In this embodiment, a plurality of refining plates 14 are disposed on the first cylinder 1, and a refining plate 14 is disposed between two adjacent magnets 9, so as to prevent the falling speed of the material in the blanking space 4 from being too fast due to its own gravity, and the rotating magnets 9 cannot sufficiently adsorb iron filings to the material, the cross section of the refining plate 14 is circular, and has a plurality of through holes 24, and the axial direction of the refining plate 14 is parallel to the axial direction of the first cylinder 1, so that the refining plate 14 can perfectly adhere to the inner wall of the first cylinder 1 in the blanking space 4, when the material falls, the material can only fall through the plurality of through holes 24, and thus the material can be adsorbed by the rotating magnets 9, and the iron filings in the material can be better treated, and the problem of iron filings in plastic particles can be better solved, and the mixed plastic particles enter an injection molding machine for heating and molding, the scrap iron cannot be mixed with the plastic, so that the problem of poor quality products is caused.

Further, also comprises

Connect material section 15, the setting is in 2 tops of second barrel are located in blanking space 4 is provided with and connects material mouth 16, connect material mouth 16 intercommunication exterior space 7 with sieve material space 3, the longitudinal section that connects material section 15 is trapezoidal, the cross section that connects material section 15 is from being close to keeping away from second barrel 2 grow gradually, connect the axial of material section 15 with the axial direction parallel of first barrel 1.

In this example, connect material section 15 to set up at second barrel 2 top, it is located blanking space 4, and be provided with and connect material mouth 16, connect material mouth 16 intercommunication exterior space 7 and sieve material space 3, it can get into sieve material space 3 through connecting material mouth 16 and carry out the sieve material processing for the material of treating conveniently, the longitudinal section that connects material section 15 is trapezoidal, and connect the cross section of material section 15 from being close to keeping away from second barrel 2 grow gradually, can reach and add to the volume that connects the material of treating of material section 15 and can increase, thereby it handles it incessantly better, and connect the axial of material section 15 and the axial direction parallel of first barrel 1, it sieves material space 3 through connecting material mouth 16 for the more smooth and easy of material, the efficiency of pan feeding is improved.

Further, also comprises

The blanking section 17 is arranged at the bottom of the second cylinder body 2 and located in the blanking space 4 and located between the second cylinder body 2 and the rotary rod 13, a blanking port 18 is arranged, the blanking port 18 is communicated with the screening space 3 and the blanking space 4, the longitudinal section of the blanking section 17 is trapezoidal, the cross section of the blanking section 17 is close to and far away from the second cylinder body 2 to become larger gradually, and the axial direction of the blanking section 17 is parallel to the axial direction of the first cylinder body 1.

In this example, the discharging section 17 is disposed at the bottom of the second cylinder 2, and is located in the discharging space 4, and is located between the second cylinder 2 and the rotating rod 13, and a discharging port 18 is further disposed, the discharging port 18 communicates the sieving space 3 and the discharging space 4, so that the material passing through the sieving space 3 can be more conveniently discharged into the discharging space 4 through the discharging port 18, and the iron filings are adsorbed by the rotating magnet 9, thereby better solving the problem that the mixed plastic particles enter the injection molding machine for heating and forming, which not only damages the injection molding machine, but also the problem of poor quality products caused by the iron filings being unable to be mixed with the plastic, and the longitudinal section of the discharging section 17 is trapezoidal, the cross section of the discharging section 17 gradually increases from the position close to the second cylinder 2, so as to prevent the material just discharged from the discharging port 18, when the discharging space 4 is processed, because the processing process slows down, the material is pushed and accumulated in the blanking space 4, the trapezoidal design can increase the flowing space of the material, thereby solving the problems, the axial direction of the discharging section 17 is parallel to the axial direction of the first cylinder 1, and the purpose that the material just discharged from the discharging port 18 can conveniently fall into the blanking space 4 can be realized.

Further, also comprises

The discharging section 19 is arranged on the first barrel 1, is positioned below the rotating rod 13, has a material gathering part 20 and a discharging part 21, the discharging part 21 is provided with a discharging port 22, the discharging port 22 is communicated with the blanking space 4, the material gathering part 20 and the discharging part 21 are sequentially arranged along the feeding direction, the longitudinal section of the material gathering part 20 is trapezoidal, the cross section of the material gathering part 20 gradually decreases from being close to the first barrel 1 to being far away from the first barrel 1,

and the spiral guide plate 23 is arranged on the discharging part 21 and extends into the blanking space 4, and the axial directions of the discharging section 19 and the spiral guide plate 23 are parallel to the axial direction of the first cylinder 1.

In this example, the discharging section 19 is disposed on the first cylinder 1, is located below the rotating rod 13, and has a material gathering portion 20 and a discharging portion 21, the material gathering portion 20 is for gathering materials that have been processed, the discharging portion 21 is for discharging the materials, the discharging portion 21 is provided with a discharging port 22, the discharging port 22 is communicated with the blanking space 4, and the material gathering portion 20 and the discharging portion 21 are sequentially arranged along the feeding direction, so that the materials that have been processed are gathered through the material gathering portion 20 first, and enter the injection molding machine through the discharging port 22 of the discharging portion 21 to be subjected to thermoforming, the longitudinal section of the material gathering portion 20 is trapezoidal, the cross section of the material gathering portion 20 is gradually reduced from the position close to the first cylinder 1, so that the materials passing through the material gathering portion 20 can be obtained, and the material gathering effect can be achieved; spiral deflector 23 sets up in blowing portion, it stretches into in the blanking space 4, is in order to pass through ejection of compact portion 21 exhaust material, through spiral deflector 23's direction, control its speed of discharging this mechanism, prevent its piling up to getting into the channel that causes of injection molding machine, and ejection of compact section 19 and spiral deflector 23's axial and first barrel 1's axial parallel, made things convenient for the material to receive self gravity through ejection of compact section 19 and the smooth and easy discharge of spiral deflector 23.

Further, the diameter of the homogenizing plate 14 is equal to that of the first cylinder 1, and the diameter of the first cylinder 1 is larger than that of the second cylinder 2.

In this example, the diameter of the material homogenizing plate 14 is equal to the diameter of the first cylinder 1, so as to achieve the purpose that the material homogenizing plate 14 is more perfectly attached to the inner wall of the first cylinder 1, prevent falling materials from passing through a gap formed by the edge of the material homogenizing plate 14 and the inner wall of the first cylinder 1, prevent the rotating magnet 9 from adsorbing scrap iron, and cause mixed materials to enter an injection molding machine for heating and forming, and the problem that the scrap iron cannot be mixed with plastics to cause poor-quality products is solved, the diameter of the first cylinder 1 is larger than that of the second cylinder 2, so that the first cylinder 1 can be positioned in the second cylinder 2, the materials are firstly subjected to material screening treatment by the first cylinder 1 and then subjected to iron adsorption treatment by the second cylinder 2, thereby solving the problem that the mixed plastic particles enter the injection molding machine for heating and forming, not only the injection molding machine is damaged, but also the scrap iron cannot be mixed with plastics, resulting in the problem of poor quality products.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An injection molding machine feeding mechanism for heat-preservation nails is characterized by comprising

A first cylinder (1) which is provided with a plurality of grooves,

a second cylinder (2) arranged in the first cylinder (1), wherein the first cylinder (1) is provided with a screening space (3), a blanking space (4) is formed between the first cylinder (1) and the second cylinder (2), the blanking space (4) is provided with an outlet, the outlet is communicated with the blanking space (4), the screening space (3) is provided with a feed inlet (5) and a discharge outlet (6), the feed inlet (5) is communicated with an outer space (7) and the screening space (3), the discharge outlet (6) is communicated with the screening space (3) and the blanking space (4),

a plurality of sieve plates (8) are arranged on the second cylinder (2) and positioned in the sieve material space (3),

a magnet (9) which is rotatably arranged on the first cylinder (1), is positioned in the blanking space (4) and is positioned below the discharge opening (6),

the vibration motor (10) is arranged on the first cylinder (1) and drives the second cylinder (2) to vibrate,

and the rotary driving device (11) is arranged on the first cylinder (1) and drives the magnet (9) to rotate.

2. The feeding mechanism of the injection molding machine for the heat-preservation nails as claimed in claim 1, wherein the first cylinder (1) is vertical in axial direction, the first cylinder (1) and the second cylinder (2) are both cylindrical and parallel in axial direction, and further comprising

Elastic component (12), be a plurality of, be located in blanking space (4), one end is connected first barrel (1) inner wall, and the other end is connected second barrel (2) outer wall, the axial of elastic component (12) with the axial vertical of first barrel (1).

3. The feeding mechanism of an injection molding machine for heat-preservation nails as claimed in claim 2, wherein the number of the magnets (9) is several, and the feeding mechanism further comprises

Rotary rod (13), rotate to set up on first barrel (1), be located in blanking space (4), and be located the below of bin outlet (6), the axial of rotary rod (13) with the axial direction parallel of first barrel (1), a plurality of magnet (9) are in along the direction of feed setting in proper order on rotary rod (13), rotary drive device (11) drive rotary rod (13) rotate.

4. The feeding mechanism of an injection molding machine for thermal insulation nails of claim 3, further comprising

The uniform material plates (14) are arranged on the first cylinder (1) and located between two adjacent magnets (9), the cross sections of the uniform material plates (14) are circular and provided with through holes (24), the through holes (24) are a plurality of, and the axial directions of the uniform material plates (14) are parallel to the axial direction of the first cylinder (1).

5. The feeding mechanism of an injection molding machine for thermal insulation nails of claim 4, further comprising

Connect material section (15), set up and be in second barrel (2) top is located in blanking space (4), be provided with and connect material mouth (16), connect material mouth (16) intercommunication exterior space (7) with sieve material space (3), the longitudinal section that connects material section (15) is trapezoidal, the cross section that connects material section (15) is from being close to keeping away from second barrel (2) grow gradually, connect the axial of material section (15) with the axial direction parallel of first barrel (1).

6. The feeding mechanism of an injection molding machine for thermal insulation nails of claim 5, further comprising

The blanking section (17) is arranged at the bottom of the second barrel body (2) and is positioned in the blanking space (4) and is positioned between the second barrel body (2) and the rotary rod (13), a blanking port (18) is arranged, the blanking port (18) is communicated with the screening space (3) and the blanking space (4), the longitudinal section of the blanking section (17) is trapezoidal, the cross section of the blanking section (17) is close to and far away from the second barrel body (2) to become larger gradually, and the axial direction of the blanking section (17) is parallel to the axial direction of the first barrel body (1).

7. The feeding mechanism of an injection molding machine for thermal insulation nails of claim 6, further comprising

The discharging section (19) is arranged on the first barrel (1), is positioned below the rotating rod (13), has a material gathering part (20) and a discharging part (21), the discharging part (21) is provided with a discharging port (22), the discharging port (22) is communicated with the blanking space (4), the material gathering part (20) and the discharging part (21) are sequentially arranged along the feeding direction, the longitudinal section of the material gathering part (20) is trapezoidal, and the cross section of the material gathering part (20) is gradually reduced from being close to being far away from the first barrel (1),

the spiral guide plate (23) is arranged on the discharging part (21) and extends into the blanking space (4), and the axial direction of the discharging section (19) and the spiral guide plate (23) is parallel to the axial direction of the first cylinder (1).

8. The feeding mechanism of an injection molding machine for heat preservation nails as claimed in claim 7, wherein the diameter of the material homogenizing plate (14) is equal to the diameter of the first cylinder (1), and the diameter of the first cylinder (1) is larger than the diameter of the second cylinder (2).

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