CN209971204U - High efficiency masterbatch anti-agglomeration cooling device - Google Patents

Abstract

The utility model relates to a master batch production technical field just discloses a cooling arrangement that agglomerates is prevented to high efficiency master batch, including cistern, cooler bin, hob, rotation motor, cooling body, connecting pipe, material pump, logical material pipe, storage mechanism and waterproof box, the cooler bin is located the inside of cistern, the both sides of cooler bin bottom are passed through the support and are connected with the both sides of cistern inner wall bottom respectively, the top on cooler bin right side and the one end intercommunication of inlet pipe, the left intermediate position of cooler bin inner wall is passed through the bearing and is connected with the left end rotation of hob. The utility model discloses a material pump's operation makes the master batch get into the storage case by leading to material pipe, and the master batch filters through the screen cloth this moment, and the master batch of screening completion falls into the bottom of storage case, and motor power begins to operate simultaneously, drives the stirring leaf and rotates at the uniform velocity to make the master batch be in motion state, avoided the master batch to appear the emergence of agglomeration phenomenon easily, and then guaranteed product quality.

Description

High efficiency masterbatch anti-agglomeration cooling device

Technical Field

The utility model relates to a master batch production technical field specifically is a cooling arrangement agglomerates is prevented to high efficiency master batch.

Background

The mother particles are full-name plastic mother particles, namely the mother particles are plastic processing aids developed and stood in the 80 th 20 th century and are composed of excessive chemical aids, carrier resins, dispersing agents and the like. The master batch is an aggregate obtained by uniformly supporting an excessive amount of pigment (dye) in a resin. The master batch is a granular material prepared by mixing and milling various required additives, fillers and a small amount of carrier resin in the plastic processing and forming process for convenience in operation, and performing the processing processes of metering, mixing, melting, extruding, granulating and the like by using equipment such as an extruder, and is called master batch. The master batch consists of carrier resin, various fillers and various auxiliaries. The limit of the auxiliary agent or the content of the filler in the master batch is several times to dozens of times higher than the required amount in the actual plastic product. In the forming process, the proportion of the master batch and the matrix resin is adjusted according to the content of relevant components in the master batch and the required addition amount in an actual product. The masterbatch can be generally classified into common filler masterbatch (abbreviated as filler masterbatch) and functional masterbatch, such as masterbatch and anti-fogging masterbatch.

The master batch is a granular solid with a particle size of 0.1-3 mm, the powder with a particle size of 0.1mm (100 μm) is a fine powder with a particle size of 1-10 μm, the ultrafine powder with a particle size of 0.1-1 μm, the particles with a particle size of more than 3mm are broken solid blocks, and the smaller the particle size is, the denser the obtained mixture is. However, the smaller the particle size of the same solid is, the more easily the particles adsorb each other and agglomerate, and the agglomerate is not easy to open when being mixed with another solid particle and is difficult to disperse in a plastic melt, thereby bringing great trouble to production and causing quality influence.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cooling arrangement that agglomerates is prevented to high efficiency master batch, reached and made the master batch prevent the purpose that the phenomenon of agglomerating from appearing when the cooling.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency agglomerate-proof cooling device for master batches comprises a reservoir, a cooling tank, an inlet pipe, a spiral rod, a rotating motor, a cooling mechanism, a connecting pipe, a material pump, a material passing pipe, a material storage mechanism and a waterproof tank, wherein the cooling tank is positioned inside the reservoir, two sides of the bottom of the cooling tank are respectively connected with two sides of the bottom of the inner wall of the reservoir through a support, the top of the right side of the cooling tank is communicated with one end of the inlet pipe, the left middle position of the inner wall of the cooling tank is rotatably connected with the left end of the spiral rod through a bearing, the right end of the spiral rod penetrates through the right side of the cooling tank through the bearing and extends to the outside of the cooling tank, one side of the rotating motor is connected with the right side of the cooling tank through a bolt, the output end of the rotating motor is connected with the right end of the spiral rod, and the other end of connecting pipe runs through the left side of cistern and is connected with the feed inlet of material pump through sealed piece, the discharge end of material pump and the one end intercommunication that leads to the material pipe, storage mechanism is located the left side of material pump, and leads to the top intercommunication on material pipe other end and storage mechanism right side.

Cooling body includes cooler, bleeder, cloth fan housing, divider screen, busbar and ventilation pipe, the cooler is located the right side of cistern, and is three cloth fan housing is located the top of cooler bin inner wall respectively, and the top of cloth fan housing is connected with the top of cooler bin inner wall, the divider screen is located the inside of cloth fan housing, and is three the top of cloth fan housing communicates with the one end of three bleeder respectively, and the top of three bleeder all runs through the top of cooler bin and communicates with the bottom of busbar, the right side of busbar communicates with the one end of ventilation pipe, and the other end of ventilation pipe communicates with the delivery outlet of cooler.

Storage mechanism includes storage case, motor power, baffle, discharging pipe, stirring leaf and screen cloth, motor power's bottom is located the intermediate position of storage incasement wall bottom, the both sides of baffle are connected with the intermediate position of storage incasement wall both sides bottom respectively, the left bottom of storage case and the one end intercommunication of discharging pipe, motor power's output runs through the top of baffle and is connected with the bottom of stirring leaf through the bearing, the both sides of screen cloth are connected with the both sides of storage incasement wall respectively, and the bottom of screen cloth is located the top of stirring leaf top, the top of screen cloth is located the below of logical material pipe bottom, the left side of storage case is provided with the opening, and the left side of opening is provided with closing device.

Preferably, the inside of the waterproof box is sleeved with the outer surface of the rotating motor, and the left side of the waterproof box is connected with the right side of the cooling box.

Preferably, the vertical cross-sectional shape of the cooling box is circular, and the inner side wall of the cooling box is in contact with the outer side of the screw rod.

Preferably, the bottom of the air distribution cover is an arc surface, and the bottom of the air distribution cover is provided with a plurality of air outlet holes.

Preferably, the baffle sets up for the tilt state, and the contained angle between the left bottom of baffle and the storage case inner wall left side is one hundred degrees.

Preferably, the screen cloth sets up for the tilt state, and the left bottom of screen cloth and the left contained angle of storage case inner wall are sixty degrees.

Preferably, the bottom of the power motor is connected with a base, and the bottom of the base is connected with a shock pad.

The utility model provides a cooling arrangement that agglomerates is prevented to high efficiency master batch. The method has the following beneficial effects:

(1) the utility model discloses because storage mechanism's setting, through the operation of material pump, make the master batch get into the storage case by leading to the material pipe, the master batch filters through the screen cloth this moment, and the master batch of screening completion falls into the bottom of storage case, and motor power begins to operate simultaneously, drives the stirring leaf and carries out at the uniform velocity rotation to make the master batch be in motion state, avoided the master batch to appear the emergence of agglomeration phenomenon easily, and then guaranteed product quality.

(2) The utility model discloses because cooling body's setting, when the master batch got into the cooler bin inside by the inlet pipe, the hob carries out the direction transport to the connecting pipe to the master batch when the operation through rotating the motor, because whole cooler bin is in the cistern, utilize water to cool down the processing to the inside master batch of whole cooler bin, the cooler operation this moment, produced air conditioning is transmitted to three cloth fan housing by the busbar to make air conditioning carry out cooling treatment to the inside master batch of cooler bin, and then improved the cooling efficiency of master batch.

Drawings

FIG. 1 is a schematic front view of the structure of the present invention;

FIG. 2 is a front sectional view of the cooling box of the present invention;

FIG. 3 is a front sectional view of the material storage box of the present invention;

fig. 4 is a bottom view of the cloth-covered hood of the present invention.

In the figure: 1 water storage tank, 2 cooling tanks, 3 supports, 4 feeding pipes, 5 screw rods, 6 rotating motors, 7 cooling mechanisms, 8 connecting pipes, 9 material pumps, 10 material passing pipes, 11 material storage mechanisms, 12 waterproof tanks, 13 bases, 71 cooling machines, 72 branch pipes, 73 air distribution covers, 74 separation nets, 75 bus bars, 76 ventilation pipes, 111 material storage tanks, 112 power motors, 113 partition plates, 114 material discharging pipes, 115 stirring blades, 116 screens and 117 through holes.

Detailed Description

As shown in fig. 1-4, the utility model provides a technical solution: a high-efficiency agglomerate-proof cooling device for master batches comprises a water storage tank 1, a cooling tank 2, a feeding pipe 4, a spiral rod 5, a rotating motor 6, a cooling mechanism 7, a connecting pipe 8, a material pump 9, a material passing pipe 10, a material storage mechanism 11 and a waterproof tank 12, wherein the cooling tank 2 is positioned inside the water storage tank 1, two sides of the bottom of the cooling tank 2 are respectively and fixedly connected with two sides of the bottom of the inner wall of the water storage tank 1 through a support 3, the top of the right side of the cooling tank 2 is communicated with one end of the feeding pipe 4, the middle position of the left side of the inner wall of the cooling tank 2 is rotatably connected with the left end of the spiral rod 5 through a bearing, the right end of the spiral rod 5 penetrates through the right side of the cooling tank 2 through the bearing and extends to the outside of the cooling tank, one side of the rotating motor 6 is fixedly connected with the right side of the cooling tank, one end of connecting pipe 8 and the left bottom intercommunication of cooler bin 2, and the other end of connecting pipe 8 runs through the left side of cistern 1 through sealed piece and is connected with the feed inlet of material pump 9, the discharge end of material pump 9 and the one end intercommunication of logical material pipe 10, storage mechanism 11 is located the left side of material pump 9, and lead to the top intercommunication on the material pipe 10 other end and the storage mechanism 11 right side, the inside of waterproof box 12 cup joints with the surface that rotates motor 6 mutually, and the left side of waterproof box 12 and the right side fixed connection of cooler bin 2, the vertical cross sectional shape of cooler bin 2 is circular, and the inside wall of cooler bin 2 contacts with the outside of hob 5.

The cooling mechanism 7 comprises a cooling machine 71, branch pipes 72, an air distribution cover 73, a separation net 74, a busbar 75 and a ventilation pipe 76, wherein the cooling machine 71 is located on the right side of the water storage tank 1, the three air distribution covers 73 are respectively located on the top of the inner wall of the cooling tank 2, the top of each air distribution cover 73 is fixedly connected with the top of the inner wall of the cooling tank 2, the separation net 74 is located inside each air distribution cover 73, the tops of the three air distribution covers 73 are respectively communicated with one end of each branch pipe 72, the tops of the three branch pipes 72 penetrate through the top of the cooling tank 2 and are communicated with the bottom of the busbar 75, the right side of the busbar 75 is communicated with one end of the ventilation pipe 76, the other end of the ventilation pipe 76 is communicated with an output port of the cooling machine 71, the bottom of each air distribution cover 73 is provided with an arc surface, and a plurality.

The storage mechanism 11 comprises a storage box 111, a power motor 112, a partition plate 113, a discharge pipe 114, stirring blades 115 and a screen mesh 116, wherein the bottom of the power motor 112 is positioned in the middle of the bottom of the inner wall of the storage box 111, two sides of the partition plate 113 are respectively fixedly connected with the middle of the bottoms of the two sides of the inner wall of the storage box 111, the bottom of the left side of the storage box 111 is communicated with one end of the discharge pipe 114, the output end of the power motor 112 penetrates through the top of the partition plate 113 through a bearing and is fixedly connected with the bottom of the stirring blades 115, two sides of the screen mesh 116 are respectively fixedly connected with the two sides of the inner wall of the storage box 111, the bottom of the screen mesh 116 is positioned above the top of the stirring blades 115, the top of the screen mesh 116 is positioned below the bottom of the through pipe 10, the left side of the storage box 111 is provided with a through hole 117, the, the baffle 113 is the slope state setting, and the contained angle between the left bottom of baffle 113 and the left side of storage case 111 inner wall is one hundred degrees, and the screen cloth 116 is the slope state setting, and the left bottom of screen cloth 116 and the left contained angle of storage case 111 inner wall are sixty degrees.

When the master batch cooling device is used, when master batches enter the cooling box 2 from the inlet pipe 4, the screw rod 5 conveys the master batches to the direction of the connecting pipe 8 during operation of the rotating motor 6, because the whole cooling box 2 is positioned in the water storage tank 1, the master batches inside the whole cooling box 2 are cooled by water, the cooling machine 71 runs at the moment, the generated cold air is transmitted to the three air distribution covers 73 through the busbar 75, the cold air cools the master batches inside the cooling box 2, the master batches enter the storage box 111 from the material passing pipe 10 through the operation of the material pump 9, the master batches are screened through the screen 116, the screened master batches fall into the bottom of the storage box 111, meanwhile, the power motor 112 starts to run, the stirring blades 115 are driven to rotate at a constant speed, and the master batches are in a motion state.

In summary, the following results can be obtained: the utility model discloses because the setting of storage mechanism, through the operation of material pump 9, make the master batch get into storage tank 111 from material pipe 10, the master batch at this moment screens through screen cloth 116, the master batch that the screening was accomplished falls into the bottom of storage tank 111, simultaneously motor 112 begins to operate, drives stirring leaf 115 and rotates at the uniform velocity, thereby makes the master batch be in motion state, has avoided the master batch to appear the emergence of agglomeration phenomenon easily, and then has guaranteed product quality, the utility model discloses because the setting of cooling mechanism 7, when the master batch gets into cooling tank 2 inside from inlet pipe 4, through rotating the time of motor 6 operation hob 5 to master batch carry out the direction transport to connecting pipe 8, because whole cooling tank 2 is in cistern 1, utilize water to cool down the master batch inside whole cooling tank 2, at this moment cooler 71 operates, the produced air conditioning is transported to three cloth fan housings 73 by air conditioning busbar 75, thereby make air conditioning carry out cooling treatment to the master batch of cooling tank 2 inside, and then improved the cooling efficiency of master batch.

Claims (7)

1. The utility model provides a cooling arrangement that agglomerates is prevented to high efficiency master batch, includes cistern (1), cooler bin (2), inlet pipe (4), hob (5), rotates motor (6), cooling body (7), connecting pipe (8), material pump (9), leads to material pipe (10), storage mechanism (11) and waterproof box (12), its characterized in that: cooler bin (2) are located the inside of cistern (1), the both sides of cooler bin (2) bottom are passed through support (3) and are connected with the both sides of cistern (1) inner wall bottom respectively, the top on cooler bin (2) right side and the one end intercommunication of inlet pipe (4), the left intermediate position of cooler bin (2) inner wall passes through the left end rotation of bearing and hob (5) and is connected, and the right-hand member of hob (5) runs through the right side of cooler bin (2) and extends to its outside through the bearing, bolted connection is passed through with the right side of cooler bin (2) to one side of rotating motor (6), and the output that rotates motor (6) is connected with the right-hand member of hob (5), cooling body (7) are located the right side of cistern (1), the one end and the left bottom intercommunication of connecting pipe (8), and the other end of connecting pipe (8) runs through the left side of cistern (1) through the seal block and with material pump (9) ) The material inlet of the material pump (9) is connected, the discharge end of the material pump (9) is communicated with one end of a material passing pipe (10), the material storage mechanism (11) is positioned on the left side of the material pump (9), and the other end of the material passing pipe (10) is communicated with the top of the right side of the material storage mechanism (11);

the cooling mechanism (7) comprises a cooler (71), branch pipes (72), an air distribution cover (73), a separation net (74), a bus bar (75) and a ventilation pipe (76), the cooler (71) is positioned at the right side of the water storage tank (1), the three air distribution covers (73) are respectively positioned at the top of the inner wall of the cooling tank (2), the top of the air distribution cover (73) is connected with the top of the inner wall of the cooling box (2), the separation net (74) is positioned inside the air distribution hood (73), the tops of the three air distribution hoods (73) are respectively communicated with one end of the three branch pipes (72), the tops of the three branch pipes (72) penetrate through the top of the cooling box (2) and are communicated with the bottom of the bus bar (75), the right side of the bus bar (75) is communicated with one end of a vent pipe (76), the other end of the ventilation pipe (76) is communicated with the output port of the cooler (71);

the storage mechanism (11) comprises a storage box (111), a power motor (112), a partition plate (113), a discharge pipe (114), stirring blades (115) and a screen (116), the bottom of the power motor (112) is located in the middle of the bottom of the inner wall of the storage box (111), two sides of the partition plate (113) are respectively connected with the middle of the bottoms of two sides of the inner wall of the storage box (111), the left bottom of the storage box (111) is communicated with one end of the discharge pipe (114), the output end of the power motor (112) penetrates through the top of the partition plate (113) through a bearing and is connected with the bottom of the stirring blades (115), two sides of the screen (116) are respectively connected with two sides of the inner wall of the storage box (111), the bottom of the screen (116) is located above the top of the stirring blades (115), the top of the screen (116) is located below the bottom of the material through pipe (10), and a through hole (117) is arranged on the left side of the, and a closing device is arranged at the left side of the through hole (117).

2. The high-efficiency anti-agglomeration master batch cooling device according to claim 1, wherein: the inside of the waterproof box (12) is sleeved with the outer surface of the rotating motor (6), and the left side of the waterproof box (12) is connected with the right side of the cooling box (2).

3. The high-efficiency anti-agglomeration master batch cooling device according to claim 1, wherein: the vertical cross-sectional shape of cooling box (2) is circular, and the inside wall of cooling box (2) contacts with the outside of hob (5).

4. The high-efficiency anti-agglomeration master batch cooling device according to claim 1, wherein: the bottom of the air distribution cover (73) is arranged in a cambered surface mode, and a plurality of air outlet holes are formed in the bottom of the air distribution cover (73).

5. The high-efficiency anti-agglomeration master batch cooling device according to claim 1, wherein: baffle (113) are the slope state setting, and the contained angle between the left bottom of baffle (113) and storage case (111) inner wall left side is one hundred degrees.

6. The high-efficiency anti-agglomeration master batch cooling device according to claim 1, wherein: the screen cloth (116) sets up for the tilt state, and the left bottom of screen cloth (116) and the left contained angle of storage case (111) inner wall are sixty degrees.

7. The high-efficiency anti-agglomeration master batch cooling device according to claim 1, wherein: the bottom of the power motor (112) is connected with a base (13), and the bottom of the base (13) is connected with a shock pad.

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