CN218057301U - Multistage cooling conveying system of plastics master batch - Google Patents

Abstract

The utility model discloses a multistage cooling conveying system of plastics master batch, including the delivery box, delivery box inner wall top is rotated through two first pivots and is connected with two first cylinders, be connected with first conveyer belt between two first cylinders, delivery box inner wall below is rotated through two second pivots and is connected with two second cylinders, be connected with the second conveyer belt between two second cylinders, the second conveyer belt is located first conveyer belt below setting, first conveyer belt and second conveyer belt are latticed, delivery box top fixedly connected with and first conveyer belt just right inlet pipe, the inlet pipe is used for the inflow to the plastics master batch, the first swash plate that the downward setting of delivery box inner wall fixedly connected with slope. The utility model discloses a set up first conveyer belt, second conveyer belt and jet-propelled pipe for the plastics master batch can carry out multistage transport cooling treatment, and still makes the delivery box volume reduce, makes its area reduce.

Description

Multistage cooling conveying system of plastics master batch

Technical Field

The utility model relates to a plastics master batch cooling transport technical field especially relates to a multistage cooling conveying system of plastics master batch.

Background

The plastic master batch is a concentrate prepared by carrying a plastic additive in an excessive amount in a resin, and is generally extruded and molded after being melted by an extruder, so that the plastic master batch still has certain heat after being extruded, while in the prior art, in order to enable the extruded and molded plastic master batch to be quickly used, cooling treatment needs to be carried out on the plastic master batch, and most of the plastic master batch is operated in a cooling conveying box.

The plastic master batch after extrusion moulding is tiled on a conveyor belt in the prior cooling operation, and then the plastic master batch can be cooled while moving in the conveyor belt along with the movement of the conveyor belt, but the plastic master batch is still in the moving process, so that the heat in the plastic master batch cannot be well dissipated, the conveying and cooling time of the plastic master batch is longer, the consumed time and the consumed energy are needed, and only one conveyor belt is arranged in the prior conveyor belt, so that the conveyor belt is longer when the plastic master batch needs to be conveyed and cooled for a longer time, and the occupied area of the conveyor belt is larger in the using process.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a multistage cooling and conveying system for plastic master batches.

In order to realize the purpose, the utility model adopts the following technical scheme:

the utility model provides a multistage cooling conveying system of plastics master batch, includes the transport case, transport incasement wall top is connected with two first cylinders, two through two first pivot rotations, be connected with first conveyer belt between the first cylinder, transport incasement wall below is rotated through two second pivots and is connected with two second cylinders, two be connected with the second conveyer belt between the second cylinder, the second conveyer belt is located the setting of first conveyer belt below, first conveyer belt and second conveyer belt are latticed, transport incasement top fixedly connected with and first conveyer belt just right inlet pipe, the inlet pipe is used for the inflow to the plastics master batch, the first swash plate that transport incasement wall fixedly connected with slope set up downwards, first swash plate lateral wall top and the laminating of first conveyer belt lateral wall, first swash plate lower extreme is located second conveyer belt top, the lateral wall that transport case kept away from first swash plate has seted up the discharge gate, the second swash plate that discharge gate inner wall fixedly connected with slope set up downwards, second swash plate lateral wall side and the laminating of second swash plate lateral wall, the lateral wall of transport case lateral wall is located the lateral wall of first conveyer belt and two fixedly connected with the air pump fixedly connected with respectively, the air pump top is equipped with the air pump and shake the air pump mechanism, the air pump is connected with the air injection transport case input end, the air pump is connected with the air pump mechanism.

Preferably, the shake mechanism is including rotating a plurality of first horizontal poles of connection at the delivery box inner wall, and is a plurality of first horizontal pole is located between first conveyer belt and a plurality of jet-propelled pipe, a plurality of first cams of first horizontal pole lateral wall fixedly connected with, the inner wall that the delivery box is located between second conveyer belt and a plurality of jet-propelled pipe rotates and is connected with a plurality of second horizontal poles, a plurality of second cams of second horizontal pole lateral wall fixedly connected with.

Preferably, the conveying box lateral wall passes through the first motor of support fixedly connected with, first motor expansion end and one of them first pivot one end fixed connection, the first gear wheel of first motor expansion shaft lateral wall fixedly connected with, it is a plurality of first horizontal pole one end runs through conveying box lateral wall respectively a plurality of first pinion of fixedly connected with jointly, the meshing is connected with the cingulum between first gear wheel and a plurality of first pinion.

Preferably, the conveying box lateral wall passes through support fixedly connected with second motor, second motor expansion end and one of them second pivot one end fixed connection, second motor expansion shaft lateral wall fixedly connected with second gear wheel, it is a plurality of second horizontal pole one end runs through conveying box lateral wall respectively a plurality of second pinion of fixedly connected with jointly, the meshing is connected with the cingulum between second gear wheel and a plurality of second pinion.

Preferably, two first guard plates of conveying incasement wall top fixedly connected with, two first guard plates are located first conveyer belt both sides, just laminating two first guard plates and first conveyer belt upper surface, two second guard plates of first swash plate lateral wall fixedly connected with, two the second guard plate is located second conveyer belt both sides, just laminating two second guard plates and second conveyer belt upper surface.

Preferably, the upper surfaces of the first inclined plate and the second inclined plate are fixedly connected with two third prevention guard plates.

The utility model discloses following beneficial effect has:

1. through setting up first conveyer belt, second conveyer belt and jet-propelled pipe for the plastics master batch can carry out multistage transport cooling treatment, and still make the delivery box bulk reduction, makes its area reduce.

2. Through setting up the shake mechanism for first conveyer belt and second conveyer belt can constantly shake, constantly shake to the plastics master batch that is located on first conveyer belt and the second conveyer belt, make the inside heat of plastics master batch also can flow out along with air conditioning, avoided among the prior art at the removal in-process of plastics master batch it be stationary, lead to the unable better giving off of its inside heat.

Drawings

Fig. 1 is a schematic structural diagram of a multistage cooling and conveying system for plastic master batches provided by the present invention;

FIG. 2 is a schematic front view of the structure of FIG. 1;

fig. 3 is a right-view structural diagram of fig. 1.

In the figure: 1. a delivery box; 2. a first rotating shaft; 3. a first drum; 4. a first conveyor belt; 5. a second rotating shaft; 6. a second drum; 7. a second conveyor belt; 8. a feeding pipe; 9. a first sloping plate; 10. a discharge port; 11. a second swash plate; 12. a third protection plate; 13. a first shield plate; 14. a second guard plate; 15. an air inlet pipe; 16. a gas ejector tube; 17. an air pump; 18. a first motor; 19. a second motor; 20. a first cross bar; 21. a first cam; 22. a second cross bar; 23. a second cam; 24. a first bull gear; 25. a first pinion gear; 26. a second bull gear; 27. a second pinion gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a multistage cooling conveying system of plastics master batch, including delivery box 1, 1 inner wall top of delivery box rotates through two first pivots 2 and is connected with two first cylinders 3, be connected with first conveyer belt 4 between two first cylinders 3, 1 inner wall below of delivery box rotates through two second pivots 5 and is connected with two second cylinders 6, be connected with second conveyer belt 7 between two second cylinders 6, second conveyer belt 7 is located the setting of first conveyer belt 4 below, 1 top fixedly connected with of delivery box and first conveyer belt 4 just right inlet pipe 8, inlet pipe 8 is used for the inflow to the plastics master batch.

Further, a first conveying belt 4 and a second conveying belt 7 which are distributed vertically are arranged, so that the plastic master batches can be subjected to multistage conveying and cooling treatment, the volume of the conveying box 1 is reduced, and the occupied area of the conveying box is reduced.

Conveying case 1 inner wall fixedly connected with slope first swash plate 9 that sets up downwards, the laminating of first swash plate 9 lateral wall top and 4 lateral walls of first conveyer belt, first swash plate 9 lower extreme is located 7 tops of second conveyer belt, and conveying case 1 keeps away from the lateral wall of first swash plate 9 and has seted up discharge gate 10, the second swash plate 11 that the slope of 10 inner wall fixedly connected with of discharge gate set up downwards, the laminating of 11 lateral walls sides of second swash plate and 7 lateral walls of second conveyer belt.

Two first guard plates 13 of fixedly connected with in 1 inner wall top of delivery box, two first guard plates 13 are located 4 both sides of first conveyer belt, and two first guard plates 13 and the laminating of 4 upper surfaces of first conveyer belt, two second guard plates 14 of first swash plate 9 lateral wall fixedly connected with, two second guard plates 14 are located 7 both sides of second conveyer belt, and the laminating of 7 upper surfaces of two second guard plates 14 and second conveyer belt, can avoid the plastics master batch on first conveyer belt 4 and the second conveyer belt 7 to drop.

Two third prevention backplate 12 of first swash plate 9 and 11 upper surface equal fixedly connected with of second swash plate can avoid dropping from first swash plate 9 and second swash plate 11 when the plastics master batch flows out.

The lateral wall that carries case 1 to be located between first conveyer belt 4 and the second conveyer belt 7 is two intake pipes 15 of fixedly connected with respectively, and a plurality of jet-propelled pipes 16 of intake pipe 15 top fixedly connected with carry case 1 lateral wall to install air pump 17, and air pump 17 output and two intake pipe 15 fixed connection, air pump 17 input and external cold air box intercommunication need to explain that air pump 17 input and external cold air box intercommunication are prior art, do not describe here any more.

The first conveying belt 4 and the second conveying belt 7 are in a grid shape, so that cold air can flow conveniently, and the grid size on the first conveying belt 4 and the second conveying belt 7 is far smaller than the size of the plastic master batches.

Be equipped with the shake mechanism that shakes the plastics master batch in the delivery box 1, shake mechanism is including rotating a plurality of first horizontal poles 20 of connecting at 1 inner wall of delivery box, a plurality of first horizontal poles 20 are located between first conveyer belt 4 and a plurality of jet-propelled pipe 16, a plurality of first cams 21 of 20 lateral walls fixedly connected with of first horizontal pole, the inner wall that delivery box 1 is located between second conveyer belt 7 and a plurality of jet-propelled pipe 16 rotates and is connected with a plurality of second horizontal poles 22, a plurality of second cams 23 of 22 lateral walls fixedly connected with of second horizontal pole.

Further, when first horizontal pole 20 and second horizontal pole 22 rotated, a plurality of first cams 21 and a plurality of second cam 23 can constantly rotate this moment for first conveyer belt 4 and second conveyer belt 7 can constantly shake, constantly shake to the plastics master batch that is located on first conveyer belt 4 and second conveyer belt 7, make the inside heat of plastics master batch also can flow out along with cold air, it is motionless at the removal in-process of plastics master batch among the prior art to have avoided, lead to the unable better inside heat of giving off.

It should be noted that an included angle between the first cams 21 on the two adjacent first cross bars 20 is 120 °, and an included angle between the second cams 23 on the two adjacent second cross bars 22 is 120 °, so that the first conveying belt 4 and the second conveying belt 7 can continuously shake, and the shaking effect of the plastic master batches is increased.

The lateral wall of conveying box 1 passes through first motor 18 of support fixedly connected with, and the loose end of first motor 18 and 2 one end fixed connection of one of them first pivot, the first gear wheel 24 of 18 loose axle lateral wall fixed connection of first motor, a plurality of first horizontal poles 20 one end run through conveying box 1 lateral wall jointly and respectively a plurality of first pinion 25 of fixedly connected with, and the meshing is connected with the cingulum between first gear wheel 24 and a plurality of first pinion 25.

Conveying box 1 lateral wall passes through support fixedly connected with second motor 19, and second motor 19 loose end and 5 one end fixed connection of one of them second pivot, and second motor 19 loose axle lateral wall fixedly connected with second gear wheel 26, a plurality of second horizontal poles 22 one end run through conveying box 1 lateral wall jointly and soldier respectively a plurality of second pinion 27 of fixedly connected with, and the meshing is connected with the cingulum between second gear wheel 26 and a plurality of second pinion 27.

The utility model discloses in, drive first motor 18 and the synchronous same-speed removal of second motor 19, and then can drive first conveyer belt 4 and the right removal of second conveyer belt 7, add the first conveyer belt 4 upper surface through inlet pipe 8 with the fashioned plastics master batch afterwards, then the plastics master batch can flow through first swash plate 9 and fall on second conveyer belt 7, then the plastics master batch is flowing through second swash plate 11, pump into air conditioning to two intake pipes 15 through air pump 17 this moment, air conditioning can flow through a plurality of jet pipes 16 afterwards, can carry out multistage cooling treatment to the plastics master batch that is located on first conveyer belt 4 and second conveyer belt 7, reduce the area of transport case 1 when increasing cooling effect;

the first motor 18 can drive the first cross rods 20 to rotate under the action of the first gearwheel 24, the toothed belt and the first pinions 25 in the rotating process, the second motor 19 can drive the second cross rods 22 to rotate under the action of the second gearwheel 24, the toothed belt and the second pinions 27 in the rotating process, and further drive the first cams 21 and the second cams 23 to rotate continuously, so that the first conveying belt 4 and the second conveying belt 7 can shake continuously, plastic master batches on the first conveying belt 4 and the second conveying belt 7 shake continuously, heat inside the plastic master batches can flow out along with cold air, and the problem that the plastic master batches are static in the moving process in the prior art and cannot be well dissipated due to the fact that the heat inside the plastic master batches cannot be well dissipated is avoided.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The multistage cooling and conveying system for the plastic master batches comprises a conveying box (1) and is characterized in that two first rollers (3) are rotatably connected above the inner wall of the conveying box (1) through two first rotating shafts (2), two first conveying belts (4) are connected between the first rollers (3), two second rollers (6) are rotatably connected below the inner wall of the conveying box (1) through two second rotating shafts (5), two second conveying belts (7) are connected between the second rollers (6), the second conveying belts (7) are arranged below the first conveying belts (4), the first conveying belts (4) and the second conveying belts (7) are in a grid shape, a conveying pipe (8) right opposite to the first conveying belts (4) is fixedly connected to the top of the conveying box (1), the conveying pipe (8) is used for flowing in the plastic master batches, a first inclined plate (9) is fixedly connected to the inner wall of the conveying box (1) and is obliquely arranged downwards, a side wall of the first inclined plate (9) is attached to the side wall of the first inclined plate (4), a lower end of the first conveying belt (9) is attached to the side wall of the second inclined plate (10), and a discharge port (10) is arranged above the side wall of the conveying box (9), second swash plate (11) lateral wall side and the laminating of second conveyer belt (7) lateral wall, lateral wall difference two intake pipes (15) that carry case (1) to be located between first conveyer belt (4) and second conveyer belt (7), a plurality of jet-propelled pipes (16) of intake pipe (15) top fixedly connected with, air pump (17) are installed to carry case (1) lateral wall, air pump (17) output and two intake pipe (15) fixed connection, air pump (17) input and external cold air box intercommunication, be equipped with the shake mechanism that shakes the plastics master batch in carrying case (1).

2. The multistage cooling conveying system of plastic master batch of claim 1, characterized in that, the shake mechanism includes a plurality of first horizontal poles (20) of rotation connection at conveying case (1) inner wall, and a plurality of first horizontal poles (20) are located between first conveyer belt (4) and a plurality of jet-propelled pipe (16), a plurality of first cams (21) of first horizontal pole (20) lateral wall fixedly connected with, the inner wall of conveying case (1) between second conveyer belt (7) and a plurality of jet-propelled pipe (16) rotates and is connected with a plurality of second horizontal poles (22), second horizontal pole (22) lateral wall fixedly connected with a plurality of second cams (23).

3. The multistage cooling conveying system of plastics master batch of claim 2, characterized in that, the first motor (18) of support fixedly connected with is passed through to transport case (1) lateral wall, first motor (18) loose end and one of them first pivot (2) one end fixed connection, first motor (18) loose end lateral wall fixedly connected with first gear wheel (24), it is a plurality of first horizontal pole (20) one end runs through transport case (1) lateral wall jointly and a plurality of first pinion of fixedly connected with (25) respectively, the meshing is connected with the cingulum between first gear wheel (24) and a plurality of first pinion (25).

4. The multistage cooling conveying system of plastics master batch of claim 2, characterized in that, the delivery box (1) lateral wall passes through support fixedly connected with second motor (19), second motor (19) loose end and one of them second pivot (5) one end fixed connection, second motor (19) loose axle lateral wall fixedly connected with second gear wheel (26), it is a plurality of second horizontal pole (22) one end runs through delivery box (1) lateral wall jointly and a plurality of second pinion (27) of fixedly connected with respectively, the meshing is connected with the cingulum between second gear wheel (26) and a plurality of second pinion (27).

5. The multistage cooling conveying system for plastic master batches according to claim 1, characterized in that two first protection plates (13) are fixedly connected above the inner wall of the conveying box (1), the two first protection plates (13) are located on two sides of the first conveying belt (4), the two first protection plates (13) are attached to the upper surface of the first conveying belt (4), two second protection plates (14) are fixedly connected to the side wall of the first inclined plate (9), the two second protection plates (14) are located on two sides of the second conveying belt (7), and the two second protection plates (14) are attached to the upper surface of the second conveying belt (7).

6. The multistage cooling and conveying system for plastic master batches according to claim 1, characterized in that two third protection plates (12) are fixedly connected to the upper surfaces of the first inclined plate (9) and the second inclined plate (11).

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