CN215320230U - Multi-station rotating disc type feeding mechanism of injection molding device - Google Patents

Abstract

The utility model discloses a feeding mechanism of a multi-station turntable type injection molding device, which comprises a turntable base, a driving mechanism and an injection molding machine body, the injection molding machine comprises more than three injection molding machine bodies, a plurality of fixed feeders and a centralized feeding box, wherein the injection molding machine bodies are regularly arranged along the outer side of the upper surface of the turntable base in a circle, the number of the fixed feeders and the centralized feeding box is more than one, the fixed feeders are positioned above the centralized feeding box and are fixedly arranged, the fixed feeder comprises a storage tank and a material pumping machine, the material pumping machine pumps the raw materials in the charging basket into the storage tank, the material storage tank is provided with a blanking pipe, the raw materials in the material storage tank fall into the centralized feeding box through the blanking pipe, the centralized feeding box and the turntable base rotate together at the same speed and in the same direction, and a feeding pipeline is arranged between the centralized feeding box and the injection molding machine body.

Description

Multi-station rotating disc type feeding mechanism of injection molding device

Technical Field

The utility model relates to the technical field of feeding mechanisms, in particular to a feeding mechanism of a multi-station rotating disc type injection molding device.

Background

An injection molding machine, also known as an injection molding machine or an injection molding machine, is a main molding apparatus for molding plastic into plastic products of various shapes by using a mold. The injection molding machine can heat the plastic, apply high pressure to the molten plastic, and inject it to fill the mold cavity. The utility model discloses a utility model with publication number CN111660490A discloses a carousel formula power cord plug device of moulding plastics, this carousel formula power cord plug device of moulding plastics can make many injection molding machines share same feed mechanism and discharge mechanism, under the condition that does not influence the production efficiency of injection molding machine, not only makes arranging of injection molding machine more reasonable, reduces the potential safety hazard in the production of moulding plastics, reduces the possibility of occurence of failure. Meanwhile, production workers can manage the injection molding machines at the same time, and labor cost is reduced.

But the feeding mode of the rotating disc type power line plug injection molding device in the production process is not very convenient. The feeder hopper top that needs every vertical injection molding machine on carousel base usually sets up the feeder sleeve, and the feeder sleeve carries out the ejection of compact when carousel base stall and makes the raw materials fall into the feeder hopper, and the carousel base can not make the feeder sleeve ejection of compact at rotatory in-process, otherwise the raw materials just can drop to the ground. The feeding mode needs to strictly control the feeding time, so that on one hand, the situation that the feeding is not in time is easily caused; on the other hand, when the equipment has a short fault, the situation of disordered feeding is easy to occur, and most raw materials are scattered on the ground to cause pollution and waste.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a feeding mechanism of a multi-station turntable type injection molding device, which can rotate along with a turntable base and injection molding machines in part of the structure, so that each injection molding machine can be fed continuously at any time, and raw materials cannot be scattered on the ground.

The technical purpose of the utility model is realized by the following technical scheme: a feeding mechanism of a multi-station turntable type injection molding device comprises a turntable base; the driving mechanism is used for driving the turntable base to rotate; the injection molding machine comprises injection molding machine bodies, wherein the number of the injection molding machine bodies is more than three, and a plurality of injection molding machine bodies are arranged along the outer side of the upper surface of the turntable base in a circle; still include fixed feeder and concentrated feed case, the quantity of fixed feeder and concentrated feed case is more than one, fixed feeder is located the top and the fixed setting of concentrated feed case, fixed feeder includes storage tank and material extractor, material extractor is with the raw materials suction storage tank in the storage bucket, be equipped with the unloading pipe on the storage tank, raw materials in the storage tank directly fall into through the unloading pipe concentrate the feed case, concentrate the feed case with the carousel base rotates with the syntropy together fast, just concentrate the feed case and rotate the in-process the unloading pipe remains throughout to be located and concentrates the position directly over the feed case, concentrate the feed case with be equipped with the feeder duct between the injection molding machine body.

Through above-mentioned technical scheme, fixed feeder is accomplished the indirect feeding to the injection molding machine body through concentrating the feed tank, because concentrate feed tank and injection molding machine body and carry out the equidirectional and speed rotation together to drive the feed pipeline and rotate, the one end that the feed pipeline is close to the injection molding machine body is located the feeder hopper of injection molding machine body all the time, concentrate the raw materials of feed tank in can continuously add the feeder hopper through the feed pipeline, can not lead to the raw materials to spill on the ground because injection molding machine body rotates. In addition, concentrate the feed tank and rotate the in-process, the unloading pipe remains to be located and concentrates the feed tank position directly over all the time to concentrate the rotation of feed tank and do not influence fixed feeder yet and add the raw materials to concentrating the feed tank, thereby can realize concentrating the feed tank in raw materials keep sufficient state.

The utility model is further configured to: a supporting frame is arranged between the centralized feeding box and the turntable base, the lower end of the supporting frame is fixed at the central position of the upper end of the turntable base, the upper end of the supporting frame is higher than the feeding hopper of the injection molding machine body, and the centralized feeding box is arranged at the upper end of the supporting frame.

Through above-mentioned technical scheme, the carousel base is when rotatory, and the stand can rotate together with concentrated feed tank to because the stand with concentrate the feed tank fixed locate the carousel base on, so the three can realize synchronous revolution, make connect in concentrate the feed pipeline between feed tank and the injection molding machine body can continuously carry out the feed. In addition, because the support frame and the centralized feeding box are both positioned at the central position of the turntable base, the position of the centralized feeding box cannot be changed when the centralized feeding box rotates, and the fixed feeder can be ensured to continuously feed the centralized feeding box.

The utility model is further configured to: the quantity of concentrated feed case is more than two, the upper end of stand is located along the direction of height range to concentrated feed case, the center pin of concentrated feed case with the center pin of carousel base is located same vertical line, the upper end of concentrated feed case all is equipped with the feedstock channel who upwards extends to the stand top, is located the below feed channel on the concentrated feed case is located the central point of concentrated feed case and puts, and the feedstock channel cross-sectional shape on the concentrated feed case that is located its top is the annular, and the annular feedstock channel who is located the concentrated feed case of the top is the biggest to reduce in proper order downwards, every the top of concentrated feed case corresponds a fixed feeder, and the unloading pipe of fixed feeder is located its upper end opening part that corresponds the feedstock channel of concentrated feed case.

Through above-mentioned technical scheme, the carousel base is when rotatory, and the stand can rotate together with a plurality of concentrated feed tank to the messenger connects the feed pipeline between concentrated feed tank and the injection molding machine body and can continuously carry out the feed. Because the center shaft of concentrating the feed case and the center shaft of carousel base are located same vertical line, so concentrate the feed case when rotatory, its position can not change. Whether the cross-section is circular shape feedstock channel or the cross-section is annular feedstock channel of circle, because its position can not change, and only when singly rotating with its central axis, feedstock channel's upper end opening shape can not change, it is circular or ring shape and position also unchangeable to keep throughout, thereby make fixed feeder can continuously feed in the concentrated feed tank that corresponds, guarantee that the reinforced in-process can not appear because the raw materials does not aim at feedstock channel and the subaerial condition drops.

The utility model is further configured to: the support frame comprises a plurality of vertically arranged support stand columns which are encircled into a circular shape, annular fixing rings are arranged on the support stand columns along the height direction of the support stand columns, the support stand columns penetrate through and are fixed on the annular fixing rings, and the lower ends of the concentrated feeding boxes are fixed at the upper ends of the annular fixing rings.

Through the technical scheme, the annular fixing rings play a role in connecting and fixing the plurality of supporting stand columns, so that the supporting stand columns form a whole. The lower end of the centralized feeding box is fixed at the upper end of the annular fixing ring, and the annular fixing ring plays a certain supporting role in the centralized feeding box.

The utility model is further configured to: the utility model discloses a structure of a ceiling suspended ceiling, including carousel base, fixed feeder, cavity rotary platform one, drive mechanism, and hollow rotary platform two, the top of carousel base is equipped with the furred ceiling support, fixed feeder is located furred ceiling support upper end, the lower extreme of furred ceiling support is equipped with cavity rotary platform one, well accuse rotary platform's center pin with the center pin of carousel base is located same vertical line, concentrate the feed tank and locate the lower extreme of cavity rotary platform one, the unloading pipe is located the cavity position at cavity rotary platform one center, drive mechanism is cavity rotary platform two, cavity rotary platform one and cavity rotary platform two carry out the syntropy rotation with the same speed.

Through above-mentioned technical scheme, because cavity rotary platform one and cavity rotary platform two carry out with the speed syntropy and rotate to concentrate feed tank and carousel base to rotate with the speed syntropy together, drive the feed pipeline and also follow both and rotate. And the center pin of well accuse rotary platform one and the center pin of carousel base are located same vertical line to the feed pipeline is keeping relative stillness following the both ends of concentrating feed tank and feed pipeline when the injection molding machine body rotates, guarantees that the feed pipeline can carry out steady rotation. In addition, fixed feeder is located concentrated feed tank directly over all the time, guarantees that fixed feeder can continuously feed it.

The utility model is further configured to: the feeding pipeline comprises a metal feeding pipe and a flexible connecting pipe, the metal feeding pipe is arranged obliquely downwards, the upper end of the metal feeding pipe penetrates through and is fixed on the side wall of the concentrated feeding box, the upper end of the flexible connecting pipe is connected to one end, far away from the concentrated feeding box, of the metal feeding pipe, and the lower end of the flexible connecting pipe is connected to a feeding hopper of the injection molding machine body.

Through above-mentioned technical scheme, the slope of metal passage sets up downwards and enables to concentrate during the raw materials in the feed box enters into the metal passage by self action of gravity better, and the hose connection pipe has better flexibility, conveniently installs and dismantles.

The utility model is further configured to: the included angle between the metal material guide pipe and the outer side wall of the centralized feeding box is 15-45 degrees.

Through the technical scheme, the port of the metal guide pipe and the side wall of the centralized feeding box have larger overlapping area in the angle range, so that raw materials can enter the metal guide pipe more easily.

The utility model is further configured to: and a stirring mechanism is arranged in the centralized feeding box.

Through above-mentioned technical scheme, rabbling mechanism can stir the raw materials of concentrating in the feed tank, prevents the raw materials caking, makes the raw materials enter into the feed pipeline better and goes.

The utility model is further configured to: and a material level detection device is arranged in the centralized feeding box.

Through above-mentioned technical scheme, material level detection device can detect the raw materials volume in concentrating the feed tank, when the raw materials in concentrating the feed tank is full soon, enables the unloading pipe and stops to concentrate the feed tank in reinforced.

The utility model is further configured to: the lower end of the centralized feeding box is provided with a residual material discharge pipe, and a discharge valve is arranged on the expected discharge pipe.

Through above-mentioned technical scheme, when the injection molding machine need be reloaded, the unnecessary raw materials that have not been used up in the concentrated feed box can be collected through the clout discharge pipe discharge, and the discharge valve is in closed condition under the normal operating condition, prevents that the raw materials in the concentrated feed box from spilling from the clout discharge pipe.

Drawings

FIG. 1 is a schematic structural view of example 1 of the present invention;

FIG. 2 is a schematic structural diagram of example 2 of the present invention;

FIG. 3 is a schematic structural diagram according to embodiment 3 of the present invention;

fig. 4 is a sectional view of embodiment 3 of the present invention.

The reference numbers in the figures mean: 1. a turntable base; 2. a drive mechanism; 3. an injection molding machine body; 4. fixing the feeder; 5. a centralized feeding box; 6. a discharging pipe; 7. a feed conduit; 8. a holder; 9. a feed channel; 10. a support column; 11. an annular securing ring; 12. a ceiling mount; 13. a first hollow rotating platform; 14. a metal material guide pipe; 15. a flexible connection pipe; 16. a stirring mechanism; 17. and a residual material discharge pipe.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

The present invention is explained below with reference to fig. 1 to 4.

As shown in fig. 1, a feeding mechanism of a multi-station turntable type injection molding device comprises a turntable base 1, wherein the turntable base 1 is circular. The lower extreme of carousel base 1 is equipped with actuating mechanism 2, and actuating mechanism 2 is used for driving carousel base 1 to rotate, and actuating mechanism 2 can be the rotary platform of worm gear transmission type or the rotary platform of gear drive type. The upper end of the turntable base 1 is provided with an injection molding machine body 3, and the number of the injection molding machine bodies 3 is more than three. In this embodiment, the number of the injection molding machine bodies 3 is twelve, the twelve injection molding machine bodies 3 are regularly arranged along the outer side of the upper surface of the turntable base 1, and the intervals between the adjacent injection molding machine bodies 3 are the same. The quantity of injection molding machine body 3 is adjusted according to carousel base size and production demand, and the interval between the adjacent injection molding machine body 3 also does not restrict, can not equidistance setting.

As shown in fig. 1 and 4, the feeding mechanism further includes a fixed feeder 4 and a centralized feeding box 5, the number of the fixed feeder 4 and the centralized feeding box 5 is more than one, one fixed feeder 4 corresponds to one centralized feeding box 5, and a single centralized feeding box 5 can feed a plurality of injection molding machines. The fixed feeder 4 is located above the centralized feeding box 5 and is fixedly arranged, in this embodiment, a mounting bracket is fixedly arranged on the ceiling, and the fixed feeder 4 is arranged on the mounting bracket. The fixed feeder 4 comprises a storage tank and a material pumping machine, and the material pumping machine can pump the raw materials in the material barrel into the storage tank. Be equipped with unloading pipe 6 on the storage tank, unloading pipe 6 sets up in the lower extreme of storage tank, and is located the top of concentrating feed tank 5, and the raw materials in the storage tank can directly fall into and concentrate feed tank 5 through unloading pipe 6. Be equipped with solenoid valve on unloading pipe 6, be equipped with material level detection device in concentrating feed tank 5, material level detection device can detect the raw material volume in concentrating feed tank 5, and when the raw materials in concentrating feed tank 5 was full soon, solenoid valve started to close unloading pipe 6, made unloading pipe 6 stop reinforced in concentrating feed tank 5. Concentrate feed tank 5 can rotate with carousel base 1 together with fast syntropy, and concentrate feed tank 5 and rotate in-process unloading pipe 6 and remain to be located and concentrate feed tank 5 directly over the position throughout. Concentrate and be equipped with feed pipeline 7 between feed tank 5 and the injection molding machine body 3, under normal operating condition, feed pipeline 7 follows and concentrates feed tank 5 and injection molding machine to rotate together. Concentrate feed tank 5's inside is equipped with rabbling mechanism 16, and rabbling mechanism 16 can stir the raw materials in concentrating feed tank 5, prevents the raw materials caking, makes the raw materials enter into feed pipeline 7 better and goes. The lower end of the centralized feeding box 5 is provided with a residual material discharge pipe 17, and a discharge valve is arranged on the expected discharge pipe. When injection molding machine body 3 need carry out the reloading, concentrate unnecessary raw materials that have not run out in feed box 5 and can pass through clout discharge pipe 17 discharge collection, the discharge valve is in closed condition under the normal operating condition, prevents that the raw materials in the feed box 5 of concentrating from spilling from clout discharge pipe 17.

The principle of the scheme is as follows: fixed feeder 4 accomplishes the indirect reinforced of injection molding machine body 3 through concentrating feed tank 5, because concentrate feed tank 5 and injection molding machine body 3 and carry out the equidirectional and speed rotatory, and drive feed pipeline 7 and rotate together, feed pipeline 7 is close to the one end of injection molding machine body 3 and is located injection molding machine body 3's feeder hopper all the time, concentrate the raw materials in feed tank 5 can be added the feeder hopper through feed pipeline 7 continuously, can not lead to the raw materials to spill to the ground because injection molding machine body 3 is rotatory. In addition, concentrate feed tank 5 is rotating the in-process, and unloading pipe 6 remains to be located and concentrates feed tank 5 position directly over all the time to concentrate feed tank 5's rotation does not influence fixed feeder 4 yet and adds the raw materials to concentrate feed tank 5, thereby can realize concentrating feed tank 5 raw materials and keep sufficient state.

As shown in fig. 1 and 4, the feeding duct 7 includes a metal material guiding pipe 14 and a flexible connecting pipe 15, the metal material guiding pipe 14 is disposed obliquely downward, and the upper end of the metal material guiding pipe 14 is fixed to the side wall of the centralized feeding box 5. The upper end of the flexible connecting pipe 15 is connected to one end of the metal material guide pipe 14 far away from the centralized feeding box 5, and the lower end of the flexible connecting pipe 15 is connected to the feeding hopper of the injection molding machine body 3. When the feeding hopper is not arranged on the injection molding machine body 3, the end part of the flexible connecting pipe 15 can be directly and fixedly connected with the material channel on the injection molding machine body 3. The metal guide pipe 14 is obliquely and downwards arranged, so that raw materials in the centralized feeding box 5 can better enter the metal guide pipe 14 under the action of self gravity, the flexible connecting pipe 15 has better flexibility, the feeding pipeline is connected at the position of the injection molding machine body 3 during working up and down or can move back and forth, and one end of the flexible connecting pipe 15 connected with the injection molding machine body 3 can move together along with the flexible connecting pipe without being influenced. In addition, the flexible connecting pipe is convenient to mount and dismount. The included angle between the metal material guide pipe 14 and the outer side wall of the centralized feeding box 5 is 15-45 degrees, and a larger overlapping area is formed between the end opening of the metal material guide pipe 14 and the side wall of the centralized feeding box 5 in the angle range, so that raw materials can enter the metal material guide pipe 14 more easily.

Example 1

As shown in fig. 1, the number of the fixed feeders 4 and the centralized supply tank 5 is one. A supporting frame 8 is arranged between the centralized feeding box 5 and the turntable base 1, and the lower end of the supporting frame 8 is fixed at the central position of the upper end of the turntable base 1 through a bolt. The upper end height of stand 8 is higher than the feeder hopper height of injection molding machine body 3, concentrates feeder box 5 to fix the upper end of locating stand 8. Carousel base 1 is when rotatory, and stand 8 and concentrated feed tank 5 can rotate together to because stand 8 and concentrated feed tank 5 are fixed to be located carousel base 1, so the three can realize synchronous rotation, make connect the feed pipeline 7 between concentrated feed tank 5 and injection molding machine body 3 can continuously supply. In addition, since the holder 8 and the concentrated feed tank 5 are both located at the center of the turntable base 1, the position of the concentrated feed tank 5 does not change when it rotates, thereby ensuring that the stationary feeder 4 can continuously feed the same. The support frame 8 comprises a plurality of vertically arranged support columns 10 which are enclosed into a round shape, and annular fixing rings 11 are arranged on the support columns 10 along the height direction of the support columns. The supporting upright columns 10 are fixed on the annular fixing ring 11 in a penetrating way, and the annular fixing ring 11 plays a role in connecting and fixing the plurality of supporting upright columns 10 to form a whole. The lower end of the centralized feeding box 5 is fixed at the upper end of the annular fixing ring 11, and the annular fixing ring 11 plays a certain supporting role for the centralized feeding box 5.

Example 2

As shown in fig. 2, the number of the fixed feeders 4 and the centralized supply tank 5 is one. A ceiling support 12 is arranged above the turntable base 1, the ceiling support 12 is fixed to a ceiling through bolts, and the fixed feeder 4 is arranged at the upper end of the ceiling support 12. The lower extreme of furred ceiling support 12 is equipped with cavity rotary platform 13, and the center pin of well accuse rotary platform one and the center pin of carousel base 1 are located same vertical line, concentrates feed tank 5 to pass through the lower extreme of bolt fastening in cavity rotary platform 13. The blanking pipe 6 is located in a hollow position in the center of the first hollow rotary platform 13, the driving mechanism 2 is a second hollow rotary platform in the embodiment, and the first hollow rotary platform 13 and the second hollow rotary platform rotate in the same speed and the same direction. Because cavity rotary platform 13 and cavity rotary platform two carry out with fast syntropy and rotate to concentrate feed tank 5 and carousel base 1 to rotate with fast syntropy together, drive feed pipeline 7 and also follow both and rotate. And the center pin of well accuse rotary platform one and the center pin of carousel base 1 are located same vertical line to feed pipeline 7 keeps relative static following the both ends of concentrating feed tank 5 and injection molding machine body 3 when rotating feed pipeline 7, guarantees that feed pipeline 7 can carry out steady rotation. In addition, fixed feeder 4 is located concentrated feed tank 5 directly over all the time, guarantees that fixed feeder 4 can continuously feed it.

Example 3

As shown in fig. 3 and 4, the number of the fixed feeders 4 and the centralized supply tank 5 is two or more. In embodiment 1, a plurality of collective feed tanks 5 are arranged in the height direction at the upper end of the support frame 8. The central axis of the concentrated feeding tank 5 and the central axis of the turntable base 1 are located on the same vertical line, and when the turntable base 1 rotates, the holder 8 and the plurality of concentrated feeding tanks 5 rotate together, so that the feeding pipe 7 connected between the concentrated feeding tank 5 and the injection molding machine body 3 can continuously feed. The upper ends of the centralized feeding boxes 5 are provided with feeding channels 9 which extend upwards to be close to the fixed feeder. In this embodiment, the cross-sectional shape of the feeding channel 9 on the lowermost centralized feeding box 5 is circular and is located at the central axis of the centralized feeding box 5, and the cross-sectional shapes of the feeding channels 9 on the centralized feeding boxes 5 above the circular cross-sectional shape are all circular rings. The specific shape of the feed channel is not limited and may be suitably varied. The circular ring-shaped feed channel 9 on the uppermost concentrated feed tank 5 is largest and decreases in turn downwards. The upper part of each centralized feeding box 5 corresponds to one fixed feeder 4, and the blanking pipe 6 of the fixed feeder 4 is positioned at the opening of the upper end of the feeding channel 9 of the corresponding centralized feeding box 5. Since the central axis of the collective feeding tank 5 and the central axis of the turntable base 1 are located on the same vertical line, the position of the collective feeding tank 5 does not change when it rotates. Whether the cross-section is circular shape feedstock channel 9 or the cross-section is ring shape feedstock channel 9, because its position can not change, and when only singly rotating with its central axis, feedstock channel 9's upper end opening shape can not change, keep circular or ring shape and position also unchangeable throughout, thereby make fixed feeder 4 can continuously feed in to corresponding concentrated feed box 5, guarantee can not appear reinforced in-process because the raw materials does not aim at feedstock channel 9 and drop to subaerial condition.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and those modifications and variations assumed in the above are also considered to be within the protective scope of the present invention.

Claims (10)

1. A feeding mechanism of a multi-station rotating disc type injection molding device comprises

A turntable base (1);

the driving mechanism (2) is used for driving the turntable base (1) to rotate;

the injection molding machine comprises injection molding machine bodies (3), the number of the injection molding machine bodies (3) is more than three, and a plurality of the injection molding machine bodies (3) are arranged along the outer side of the upper surface of the turntable base (1) in a circle;

it is characterized by also comprising a fixed feeder (4) and a centralized feeding box (5), the number of the fixed feeders (4) and the centralized feeding boxes (5) is more than one, the fixed feeder (4) is positioned above the centralized feeding box (5) and is fixedly arranged, the fixed feeder (4) comprises a storage tank and a material pumping machine, the material pumping machine pumps the raw materials in the charging basket into the storage tank, the material storage tank is provided with a discharging pipe (6), the raw materials in the material storage tank directly fall into the centralized feeding box (5) through the discharging pipe (6), the centralized feeding box (5) and the turntable base (1) rotate together at the same speed and in the same direction, and the blanking pipe (6) is always positioned right above the centralized feeding box (5) in the rotating process of the centralized feeding box (5), a feeding pipeline (7) is arranged between the centralized feeding box (5) and the injection molding machine body (3).

2. The feeding mechanism of the multi-station turntable type injection molding device according to claim 1, wherein: a supporting frame (8) is arranged between the centralized feeding box (5) and the turntable base (1), the lower end of the supporting frame (8) is fixed at the central position of the upper end of the turntable base (1), the upper end of the supporting frame (8) is higher than the feeding hopper of the injection molding machine body (3), and the centralized feeding box (5) is arranged at the upper end of the supporting frame (8).

3. The feeding mechanism of the multi-station turntable type injection molding device according to claim 2, wherein: concentrate feed tank (5) quantity be more than two, concentrate feed tank (5) are arranged along the direction of height and are located the upper end of stand (8), the center pin of concentrating feed tank (5) with the center pin of carousel base (1) is located same vertical line, the upper end of concentrating feed tank (5) all is equipped with feed channel (9) that upwards extends to the stand top, is located the below feed channel (9) on concentrating feed tank (5) are located the central point of concentrating feed tank and put, and feed channel (9) cross-sectional shape on the concentrated feed tank (5) that are located its top is the ring, and annular feed channel (9) on the concentrated feed tank (5) that are located the top are the biggest to reduce in proper order downwards, every the top of concentrating feed tank (5) corresponds a fixed feeder (4), and the unloading pipe (6) of fixed feeder (4) are located its feed channel that corresponds concentrated feed tank (5) (9) At the upper end opening of the cylinder.

4. The feeding mechanism of the multi-station turntable type injection molding device according to claim 3, wherein: the support frame (8) comprises a plurality of vertically arranged support columns (10) which are enclosed into a circular shape, annular fixing rings (11) are arranged on the support columns (10) along the height direction of the support columns, the support columns (10) are fixed on the annular fixing rings (11) in a penetrating mode, and the lower ends of the concentrated feeding boxes (5) are fixed at the upper ends of the annular fixing rings (11).

5. The feeding mechanism of the multi-station turntable type injection molding device according to claim 1, wherein: the utility model discloses a rotary table, including carousel base (1), fixed feeder (4), suspended ceiling support (12), the lower extreme of suspended ceiling support (12) is equipped with cavity rotary platform (13), the center pin of cavity rotary platform (13) with the center pin of carousel base (1) is located same vertical line, concentrate feed tank (5) and locate the lower extreme of cavity rotary platform (13), unloading pipe (6) are located the cavity position at cavity rotary platform (13) center, actuating mechanism (2) are cavity rotary platform two, cavity rotary platform (13) and cavity rotary platform two carry out the syntropy with the speed and rotate.

6. The feeding mechanism of the multi-station turntable type injection molding device according to claim 1, wherein: the feeding pipeline (7) comprises a metal feeding pipe (14) and a flexible connecting pipe (15), the metal feeding pipe (14) is arranged obliquely downwards, the upper end of the metal feeding pipe (14) penetrates through and is fixed on the side wall of the concentrated feeding box (5), the upper end of the flexible connecting pipe (15) is connected to one end, away from the concentrated feeding box (5), of the metal feeding pipe (14), and the lower end of the flexible connecting pipe (15) is connected to a feeding hopper of the injection molding machine body (3).

7. The feeding mechanism of the multi-station turntable type injection molding device according to claim 6, wherein: the included angle between the metal material guide pipe (14) and the outer side wall of the centralized feeding box (5) is 15-45 degrees.

8. The feeding mechanism of the multi-station turntable type injection molding device according to claim 1, wherein: and a stirring mechanism (16) is arranged in the centralized feeding box (5).

9. The feeding mechanism of the multi-station rotating disc type injection molding device according to any one of claims 1 to 8, which is characterized in that: a material level detection device is arranged in the centralized feeding box (5).

10. The feeding mechanism of the multi-station rotating disc type injection molding device according to any one of claims 1 to 8, which is characterized in that: the lower end of the centralized feeding box (5) is provided with a residual material discharge pipe (17), and the residual material discharge pipe (17) is provided with a discharge valve.

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