CN211542296U - Automatic feeding system - Google Patents

Abstract

The utility model relates to an automatic feeding system, it includes a toughening agent prestack storehouse, four PE aggregate prestack storehouses, a weighing type blendor, an auxiliary agent aggregate feed bin, a toughening agent aggregate feed bin, a mixed aggregate feed bin, a glass fiber feed bin, four weightless formula measurement feeding machines and a side direction feeding machine, toughening agent prestack storehouse through toughening agent aggregate feed bin loading attachment with toughening agent aggregate feed bin links to each other, four PE aggregate prestack storehouses respectively through blendor loading attachment with weighing type blendor links to each other, weighing type blendor through mixed aggregate feed bin loading attachment with mixed aggregate feed bin links to each other, auxiliary agent aggregate feed bin and glass fiber feed bin directly throw the material through the manual work; the additive aggregate supplement bin, the toughening agent aggregate supplement bin, the mixed aggregate supplement bin and the glass fiber supplement bin are respectively connected with the double-screw extruder through the weight-loss metering feeder.

Description

Automatic feeding system

Technical Field

The utility model relates to a granulation production facility of nylon product especially relates to an automatic feed system.

Background

In recent years, in a high-speed railway rapid development and high-speed rail fastener system in China, various nylon products such as an insulating track gauge block, an embedded sleeve, a track gauge baffle and the like are all made of glass fiber reinforced nylon 66, and according to different product color requirements, manufactured grains of natural color glass fiber reinforced nylon 66 are mixed into black master batch according to a certain proportion (1%) and then are subjected to injection molding to form a required product. The patent number is CN201420605082.8, the utility model discloses that the patent name is a one-stop granulation compounding production system provides an automatic system that produces glass fiber reinforcement nylon 66, it carries out true qualities glass fiber reinforcement nylon 66's production through twin-screw extruder, among the prior art, each raw materials that it contains throw the material and weigh through the manual work, work efficiency is low, the material mixing effect is poor, each component content accuracy of miscomponent is poor, lead to the product quality of extruding poor. To the problem, the utility model provides an automatic feed system that degree of automation is high, the feed degree of accuracy is high, material misce bene, work efficiency is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an automatic feed system that degree of automation is high, the feed degree of accuracy is high, material misce bene, work efficiency is high is provided.

In order to solve the above problems, the utility model adopts the following technical proposal:

an automatic feeding system comprises a toughening agent pre-storage bin, four PE aggregate pre-storage bins, a weighing mixer, an auxiliary agent aggregate supplement bin, a toughening agent aggregate supplement bin, a mixed aggregate supplement bin, a glass fiber supplement bin, four weight-loss metering feeders and a lateral feeder, wherein the toughening agent pre-storage bin is connected with the toughening agent aggregate supplement bin through a toughening agent aggregate supplement bin feeding device;

the auxiliary agent aggregate supplementing bin, the toughening agent aggregate supplementing bin and the mixed aggregate supplementing bin are respectively connected with a feeding hopper of the double-screw extruder through the weight-loss metering feeding machine, and the glass fiber supplementing bin is connected with a lateral feeding machine arranged on the side face of the double-screw extruder through the weight-loss metering feeding machine.

As a further improvement, the auxiliary agent aggregate supplement bin, the toughening agent aggregate supplement bin, the mixed aggregate supplement bin and the glass fiber supplement bin are respectively connected with the feeding port of the weightless metering feeder through the transmission charging bucket.

As a further improvement, the toughening agent prestores the storehouse and throws the material station with the toughening agent aggregate through toughening agent prestore storehouse loading attachment and link to each other, toughening agent prestores storehouse loading attachment including locating the toughening agent prestores the husky ke long one of storehouse top and with the fan that husky ke long one links to each other, husky ke long pan feeding mouth with the toughening agent aggregate is thrown the material station discharge gate and is linked to each other, husky ke long discharge gate with the toughening agent prestores the storehouse pan feeding mouth and links to each other.

As a further improvement of the present invention, the PE pellet pre-storage bin includes two first PE pellet pre-storage bins and two second PE pellet pre-storage bins, the first PE pellet pre-storage bin is connected to the first PE pellet feeding station through the first PE pellet pre-storage bin feeding device, the first PE pellet pre-storage bin feeding device includes a second shakelong located above the first PE pellet pre-storage bin and a second fan connected to the second shakelong, the two first PE pellet pre-storage bin feeding devices share the second fan, the second shakelong feeding port is connected to the first PE pellet feeding station discharging port, and the second shakelong discharging port is connected to the first PE pellet pre-storage bin feeding port;

the second PE aggregate pre-storage bin is connected with the second PE aggregate feeding station through a second PE aggregate pre-storage bin feeding device, the second PE aggregate pre-storage bin feeding device comprises a third sand-gravel device arranged above the second PE aggregate pre-storage bin and a third fan connected with the third sand-gravel device, the two second PE aggregate pre-storage bin feeding devices share the third fan, a third sand-gravel feeding port is connected with a second PE aggregate feeding station discharging port, and a third sand-gravel discharging port is connected with a second PE aggregate pre-storage bin feeding port.

As a further improvement of the utility model, blendor loading attachment includes that four are located the husky ke long four and one of weighing blendor top are simultaneously with four the fan that husky ke long four link to each other is four, four husky ke long four pan feeding mouths respectively with four the PE aggregate prestore storehouse discharge gate links to each other, four husky ke long four discharge gates with weighing blendor pan feeding mouth links to each other.

As a further improvement of the utility model, the feeding device of the toughening agent granule replenishing bin comprises a fifth shakelong arranged above the toughening agent granule replenishing bin and a fifth fan connected with the fifth shakelong, wherein a fifth shakelong feeding port is connected with a discharging port of the toughening agent prestoring bin, and a discharging port of the fifth shakelong is connected with a feeding port of the toughening agent granule replenishing bin;

the feeding device of the mixed granule material supplementing bin comprises a sixth sand-dragon arranged above the mixed granule material supplementing bin and a fifth fan connected with the sixth sand-dragon, wherein a feeding port of the sixth sand-dragon is connected with a discharging port of the weighing mixer, and a discharging port of the sixth sand-dragon is connected with a feeding port of the mixed granule material supplementing bin.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in:

the utility model provides an automatic feeding system carries out automatic feeding through loading attachment, through the accurate even raw materials of weighing type blendor the mixture of weighing, store auxiliary agent aggregate, toughening agent aggregate, mix aggregate and glass fibre respectively in corresponding benefit feed bin, in rethread transmission storage bucket filled the material from going into the hopper to the twin-screw extruder after weightless formula measurement feeding machine measures, degree of automation is high, work efficiency is high, each component content accuracy of material is high and mix thoroughly. Two fan two of two sharings of husky dragon, two fan three of three sharings of husky dragon, four fan four of four sharings of husky dragon, fan five of six sharings of husky dragon and husky dragon reduces the quantity of fan and not only makes equipment structure simpler, has still saved the electric energy, has reduced manufacturing cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partially enlarged schematic view at a in fig. 1.

Fig. 3 is a partially enlarged schematic view at B in fig. 1.

Wherein: 1 a toughening agent aggregate feeding station, 2 a first sand-gram-dragon, 3 a first fan, 4 a toughening agent pre-storage bin, 5 a PE aggregate feeding station, 6 a second sand-gram-dragon, 7 a second fan, 8 a first PE aggregate pre-storage bin, 9 a second PE aggregate feeding station, 10 a third sand-gram-dragon, 11 a third fan, 12 a second PE aggregate pre-storage bin, 13 a fourth sand-gram-dragon, 14 a fourth fan, 15 a weighing mixer, 16 an auxiliary agent aggregate replenishing bin, 17 a toughening agent aggregate replenishing bin, 18 a fifth sand-gram-dragon, 19 a mixed aggregate replenishing bin, 20 a sixth sand-gram-dragon, 21 a fifth fan, 22 a glass fiber replenishing bin, 23 a transmission barrel, 24 weight-loss type metering feeders, 25 extruders, 26 feeding bins and 27 lateral feeders.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following description of the present invention with reference to the accompanying drawings and specific embodiments is provided for clarity and completeness.

An automatic feeding system as shown in fig. 1-3, which comprises a toughening agent pre-storage bin 4, four PE aggregate pre-storage bins, a weighing mixer 15, an auxiliary agent aggregate supplement bin 16, a toughening agent aggregate supplement bin 17, a mixed aggregate supplement bin 19, a glass fiber supplement bin 22, four weight-loss metering feeders 24 and a lateral feeder 27, wherein the toughening agent pre-storage bin 4 is connected with the toughening agent aggregate supplement bin 17 through a toughening agent aggregate supplement bin feeding device, the four PE aggregate pre-storage bins are respectively connected with the weighing mixer 15 through mixer feeding devices, the weighing mixer 15 is connected with the mixed aggregate supplement bin 19 through a mixed aggregate supplement bin feeding device, and the auxiliary agent aggregate supplement bin 16 and the glass fiber supplement bin 22 are directly fed manually;

the auxiliary agent aggregate supplement bin 16, the toughening agent aggregate supplement bin 17 and the mixed aggregate supplement bin 19 are respectively connected with an inlet hopper 26 of a double-screw extruder 25 through the weight-loss metering feeder 24, the three inlet ports of the weight-loss metering feeder 24 are respectively connected with the outlet ports of the auxiliary agent aggregate supplement bin 16, the toughening agent aggregate supplement bin 17 and the mixed aggregate supplement bin 19, and the three outlet ports of the weight-loss metering feeder 24 are respectively connected with the inlet hopper 26 of the double-screw extruder 25. The glass fiber supplement bin 22 is connected with a lateral feeding machine 27 arranged on the side surface of the double-screw extruder 25 through the weight-loss metering feeding machine 24, a feeding port of the weight-loss metering feeding machine 24 is connected with a discharging port of the glass fiber supplement bin 22, and a discharging port of the weight-loss metering feeding machine 24 is connected with a feeding port of the lateral feeding machine 27. In this embodiment, the additive aggregate supplement bin 16, the toughening agent aggregate supplement bin 17, the mixed aggregate supplement bin 19 and the glass fiber supplement bin 22 are respectively connected with a feeding port of the weight-loss metering feeder 24 through a conveying barrel 23. Carry out automatic feeding through loading attachment, through the accurate even raw materials that weigh of weighing type blendor 15 mix, store auxiliary agent aggregate, toughening agent aggregate, mixed aggregate and glass fibre respectively in corresponding benefit feed bin, in rethread transmission storage bucket 23 adds the material to twin-screw extruder 25 from going into the hopper after weightless formula measurement feeder 24 measures, degree of automation is high, and work efficiency is high, and each ingredient content accuracy of material is high and mix thoroughly.

In this embodiment, the toughening agent pre-storage bin 4 is connected with the toughening agent aggregate feeding station 1 through a toughening agent pre-storage bin feeding device, the toughening agent pre-storage bin feeding device comprises a first sand-lime 2 arranged above the toughening agent pre-storage bin 4 and a first fan 3 connected with the first sand-lime 2, a first 2-feeding port of the sand-lime is connected with a 1-discharging port of the toughening agent aggregate feeding station, and a first 2-discharging port of the sand-lime is connected with a 4-feeding port of the toughening agent pre-storage bin.

The PE granule pre-storage bin comprises two PE granule pre-storage bins I8 and two PE granule pre-storage bins II 12, the PE granule pre-storage bins I8 are connected with a PE granule feeding station I5 through a PE granule pre-storage bin I feeding device, the PE granule pre-storage bin I feeding device comprises a second shakelong 6 arranged above the PE granule pre-storage bins I8 and a second fan 7 connected with the second shakelong 6, the two PE granule pre-storage bin I feeding devices share the second fan 7, a feeding port of the second shakelong 6 is connected with a discharging port of the first PE granule feeding station I5, and a discharging port of the second shakelong 6 is connected with a feeding port of the first PE granule pre-storage bin I8;

the second PE granule pre-storage bin 12 is connected with a second PE granule feeding station 9 through a second PE granule pre-storage bin feeding device, the second PE granule pre-storage bin feeding device comprises a third sand-dragon 10 arranged above the second PE granule pre-storage bin 12 and a third fan 11 connected with the third sand-dragon 10, the two second PE granule pre-storage bin feeding devices share the third fan 11, a feeding hole of the third sand-dragon 10 is connected with a discharging hole of the second PE granule feeding station 9, and a discharging hole of the third sand-dragon 10 is connected with a feeding hole of the second PE granule pre-storage bin 12. The two PE granule pre-storage bins I8 are used for pre-storing two low-density PE granules, the two PE granule pre-storage bins II 12 are used for pre-storing two high-density PE granules, suction force needed by feeding of the two low-density PE granules is not large in difference, suction force needed by feeding of the two high-density PE granules is not large in difference, therefore, the two PE granule pre-storage bins I8 share one fan II 7 for feeding, and the two PE granule pre-storage bins II 12 share one fan III 11 for feeding.

The feeding device of the mixer comprises four sand-dragon four 13 arranged above the weighing mixer 15 and four fans four 14 connected with the sand-dragon four 13, wherein four sand-dragon four 13 feeding ports are respectively connected with four PE aggregate pre-storage bin discharging ports, and four sand-dragon four 13 discharging ports are connected with the weighing mixer 15 feeding ports.

The feeding device of the toughening agent granule replenishing bin comprises a fifth shakelong 18 arranged above the toughening agent granule replenishing bin 17 and a fifth fan 21 connected with the fifth shakelong 18, wherein a feeding hole of the fifth shakelong 18 is connected with a discharging hole of the toughening agent prestoring bin 4, and a discharging hole of the fifth shakelong 18 is connected with a feeding hole of the toughening agent granule replenishing bin 17;

the feeding device of the mixed granule supplementing bin comprises six sand-dragon 20 arranged above the mixed granule supplementing bin 19 and five fan 21 connected with the six sand-dragon 20, wherein a feeding hole of the six sand-dragon 20 is connected with a discharging hole of the weighing mixer 15, and a discharging hole of the six sand-dragon 20 is connected with a feeding hole of the mixed granule supplementing bin 19.

Two fan two 7 of two 6 sharings of husky dragon, two fan three 11 of three 10 sharings of husky dragon, four fan four 14 of four 13 sharings of husky dragon, five 21 of fan of five 18 and six 20 sharings of husky dragon, the quantity that reduces the fan not only makes equipment structure simpler, has still saved the electric energy, has reduced manufacturing cost. All fans in the embodiment are exhaust fans, the power of the exhaust fans is adjustable, and all fans are uniformly adjusted and controlled through the controller.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (6)

1. An automatic feeding system is characterized by comprising a toughening agent pre-storage bin (4), four PE aggregate pre-storage bins, a weighing mixer (15), an auxiliary agent aggregate supplement bin (16), a toughening agent aggregate supplement bin (17), a mixed aggregate supplement bin (19), a glass fiber supplement bin (22), four weight-loss metering feeders (24) and a lateral feeder (27), the toughening agent pre-storage bin (4) is connected with the toughening agent aggregate supplement bin (17) through a toughening agent aggregate supplement bin feeding device, the four PE aggregate pre-storage bins are respectively connected with the weighing mixer (15) through a mixer feeding device, the weighing mixer (15) is connected with the mixed aggregate replenishing bin (19) through a mixed aggregate replenishing bin feeding device, the auxiliary agent aggregate replenishing bin (16) and the glass fiber replenishing bin (22) are directly fed manually;

the auxiliary agent aggregate supplementing bin (16), the toughening agent aggregate supplementing bin (17) and the mixed aggregate supplementing bin (19) are respectively connected with an inlet hopper (26) of the double-screw extruder (25) through the weight-loss metering feeding machine (24), and the glass fiber supplementing bin (22) is connected with a lateral feeding machine (27) arranged on the side surface of the double-screw extruder (25) through the weight-loss metering feeding machine (24).

2. The automatic feeding system of claim 1, wherein the additive aggregate supplement bin (16), the toughening agent aggregate supplement bin (17), the mixed aggregate supplement bin (19) and the glass fiber supplement bin (22) are respectively connected with a feeding port of the weight-loss metering feeder (24) through a conveying barrel (23).

3. The automatic feeding system of claim 1, wherein the toughening agent pre-storage bin (4) is connected with the toughening agent aggregate feeding station (1) through a toughening agent pre-storage bin feeding device, the toughening agent pre-storage bin feeding device comprises a first salon (2) arranged above the toughening agent pre-storage bin (4) and a first fan (3) connected with the first salon (2), a feeding port of the first salon (2) is connected with a discharging port of the toughening agent aggregate feeding station (1), and a discharging port of the first salon (2) is connected with a feeding port of the toughening agent pre-storage bin (4).

4. The automatic feeding system of claim 1, wherein the PE pellet pre-storage bin comprises two PE pellet pre-storage bins (8) and two PE pellet pre-storage bins (12), the PE pellet pre-storage bin (8) is connected with the PE pellet feeding station I (5) through a PE pellet pre-storage bin I feeding device, the PE pellet pre-storage bin I feeding device comprises a two-component sand-k-lon (6) arranged above the PE pellet pre-storage bin I (8) and a two-component fan (7) connected with the two-component sand-k-lon (6), the two-component PE pellet pre-storage bin I feeding device shares the two-component fan (7), a feeding port of the two-component sand-k-lon (6) is connected with a discharging port of the PE pellet feeding station I (5), and a discharging port of the two-component sand-k-ol (6) is connected with a feeding port of the PE pellet pre-storage bin I (8);

the PE granule pre-storage bin II (12) is connected with a PE granule feeding station II (9) through a PE granule pre-storage bin II feeding device, the PE granule pre-storage bin II feeding device comprises a third fan (10) arranged above the PE granule pre-storage bin II (12) and a third fan (11) connected with the third fan (10), the two PE granule pre-storage bin II feeding devices share the third fan (11), a feeding hole of the third fan (10) is connected with a discharging hole of the PE granule feeding station II (9), and the discharging hole of the third fan (10) is connected with the feeding hole of the PE granule pre-storage bin II (12).

5. The automatic feeding system of claim 1, wherein the mixer feeding device comprises four shakelong four (13) arranged above the weighing mixer (15) and a fan four (14) simultaneously connected with the four shakelong four (13), the four feeding ports of the shakelong four (13) are respectively connected with the four discharging ports of the PE granule pre-storage bin, and the four discharging ports of the shakelong four (13) are connected with the feeding ports of the weighing mixer (15).

6. The automatic feeding system of claim 1, wherein the feeding device of the toughening agent granule replenishing bin comprises a fifth shakelong (18) arranged above the toughening agent granule replenishing bin (17) and a fifth fan (21) connected with the fifth shakelong (18), a feeding port of the fifth shakelong (18) is connected with a discharging port of the toughening agent pre-storage bin (4), and a discharging port of the fifth shakelong (18) is connected with a feeding port of the toughening agent granule replenishing bin (17);

mixing aggregate mends feed arrangement includes one and locates husky dragon six (20) of mixing aggregate mends feed bin (19) top and with five (21) of fan that husky dragon six (20) link to each other, husky dragon six (20) pan feeding mouth with weighing type blendor (15) discharge gate links to each other, husky dragon six (20) discharge gate with mixing aggregate mends feed bin (19) pan feeding mouth and links to each other.

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