CN221066899U - Discharging device of high-performance resin for prism reflecting material - Google Patents

Abstract

The invention relates to a high-performance resin discharging device for a prism reflecting material, which is characterized in that a discharging pipe initially separates flowing water from resin, the resin stably falls onto a first conveying belt through a third baffle plate, the resin is uniformly spread out through a material homogenizing mechanism, the drying efficiency is improved, a hot air outlet is used for drying the resin, a gas outlet is used for discharging damp gas, so that the gas forms unidirectional flow, the dried resin falls down through the material converting opening, the resin material is completely fallen onto a second conveying belt through the blocking of the second baffle plate, an air outlet is used for cooling the resin, the resin is further air-dried, and finally the resin is discharged through the second discharging opening, so that the whole process is automatic and efficient.

Description

Discharging device of high-performance resin for prism reflecting material

Technical Field

The invention belongs to the technical field of resin production equipment, and particularly relates to a discharging device of high-performance resin for a prism reflecting material.

Background

After the production of the high-performance resin for the prism reflective material is finished, the prism reflective material needs to be cooled due to higher temperature, a cooling device generally adopts water cooling unavoidable moisture, and is not directly discharged for bagging storage, further drying is needed after discharging, residual temperature exists in drying, discharging and drying of traditional equipment are separately carried out, cooling is needed again after drying, the efficiency of a production line is reduced, and the income is influenced.

Disclosure of Invention

In order to solve the problems, the invention discloses a discharging and drying integrated device which is used for continuously discharging at a constant speed and does not need to cool a high-performance resin for a prism reflecting material again.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

The invention provides a discharging device of high-performance resin for prism reflecting materials, which comprises a discharging pipe connected with a cooling device and a discharging drying device connected with the discharging pipe, wherein the discharging pipe comprises a first feeding hole, a separation channel and a first discharging hole, the separation channel is arranged in a downward inclined manner, a plurality of draining holes are formed in the bottom of the separation channel, which is in material contact, a water accumulation cavity is formed below the draining holes, and a water outlet is formed in the water accumulation cavity; the discharging and drying device comprises a box body arranged on the supporting frame, a second feeding port arranged at the upper left side of the box body, and a second discharging port arranged at the lower left side of the box body; a drying cavity and a cooling cavity are arranged in the box body from top to bottom, a partition plate is arranged between the drying cavity and the cooling cavity, the right end of the partition plate is not connected with the box body, a material transferring opening is formed in the right end of the partition plate, first conveying rollers are arranged at the two ends of the drying cavity, a material homogenizing mechanism and a plurality of air outlets are arranged at the top of the drying cavity, a first conveying belt is arranged on the first conveying rollers, a plurality of hot air outlets are arranged between the first conveying belts, the hot air outlets are connected with a hot air blower, and the hot air outlets are upwards arranged; the cooling chamber both ends set up the second transmission roller, set up the second conveyer belt on the second transmission roller, be provided with a plurality of air outlets between the second conveyer belt, a plurality of air outlet connection fans are provided with the second baffle on the box of material transfer mouth right side, and the bottom of second baffle is arranged in the second conveyer belt top. The first conveying belt and the second conveying belt are respectively provided with a plurality of through holes, and the through holes are smaller than the particle size of the resin material.

Further, the support frame includes first backup pad, second backup pad, elevating system and universal wheel, and the top of second backup pad is arranged in to first backup pad, is provided with elevating system between first backup pad and the second backup pad, and second backup pad bottom is provided with the universal wheel, and the box is arranged in first backup pad top. Is convenient for move, is convenient for go up and down, and the practicality is good.

Further, a first baffle is arranged upwards at the right end of the baffle, a first transmission roller at the right end of the drying cavity is arranged above the first baffle, and the first transmission roller at the left end of the drying cavity is lower than the first transmission roller at the right end; the solid and the liquid are easier to separate.

Further, a second baffle plate inclining along the lower left is arranged on the box body at the right side of the material transferring opening; and transferring the resin material onto a second conveying belt to avoid sprinkling.

Further, a second discharge hole is arranged below the second conveying roller at the left end of the cooling cavity; the resin material is directly conveyed to the second discharging hole from the second conveying belt, and is uniformly discharged, so that the resin material is convenient to directly enter a bag or enter a box for packaging.

Further, the third baffle is obliquely arranged on the left side of the second feeding hole along the lower right side, so that resin materials can stably enter the first conveying belt, the upper wall of the box body on the right side of the second feeding hole is provided with a material homogenizing mechanism, and piled materials can be uniformly spread out, so that subsequent drying is facilitated.

Further, the refining mechanism comprises a positioning block arranged on the box body, a plurality of rows of limiting cavities are arranged in the positioning block along the front-back direction of the box body, each row of limiting cavities comprises a plurality of limiting cavities, one or a plurality of limiting rods are arranged at the top of each limiting cavity, a refining rod is sleeved outside each limiting rod, a positioning plate is arranged at the upper end of each refining rod, a reset spring is sleeved outside each limiting rod above each positioning plate, and two adjacent rows of refining rods are arranged at intervals. Better spread out the material, improve drying efficiency.

The beneficial effects of the invention are as follows:

The invention relates to a high-performance resin discharging device for a prism reflecting material, which is characterized in that a discharging pipe initially separates flowing water from resin, the resin stably falls onto a first conveying belt through a third baffle plate, the resin is uniformly spread out through a material homogenizing mechanism, the drying efficiency is improved, a hot air outlet is used for drying the resin, a gas outlet is used for discharging damp gas, so that the gas forms unidirectional flow, the dried resin falls down through the material converting opening, the resin material is completely fallen onto a second conveying belt through the blocking of the second baffle plate, an air outlet is used for cooling the resin, the resin is further air-dried, and finally the resin is discharged through the second discharging opening, so that the whole process is automatic and efficient.

Drawings

FIG. 1 is a schematic structural view of a discharge device of a high performance resin for a prism reflective material according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1 in accordance with the present invention;

List of drawing identifiers:

1. A first feed port; 2. a first discharge port; 3. a discharge pipe; 4. a second feed inlet; 5. a second discharge port; 6. a case; 7. a drying chamber; 8. a cooling chamber; 9. an exhaust port; 10. a first conveying roller; 11. a first conveyor belt; 12. a hot air outlet; 13. a partition plate; 14. a second baffle; 15. a second conveying roller; 16. a second conveyor belt; 17. an air outlet; 18. a first support plate; 19. a lifting mechanism; 20. a second support plate; 21. a universal wheel; 22. a positioning block; 23. a limit rod; 24. a material homogenizing rod; 25. a return spring; 26. and (5) positioning the plate.

Detailed Description

The present invention is further illustrated in the following drawings and detailed description, which are to be understood as being merely illustrative of the invention and not limiting the scope of the invention.

Example 1

The discharging device comprises a discharging pipe 3 connected with a cooling device and a discharging drying device connected with the discharging pipe 3, wherein the discharging pipe 3 comprises a first feeding hole 1, a separation channel and a first discharging hole 2, the separation channel is arranged in a downward inclined mode, a plurality of draining holes are formed in the bottom of the separation channel, which is in material contact, a water accumulation cavity is formed below the draining holes, and a water outlet is formed in the water accumulation cavity; the discharging and drying device comprises a box body 6 arranged on the supporting frame, a second feeding port 4 arranged at the upper left side of the box body 6, and a second discharging port 5 arranged at the lower left side of the box body 6; a drying cavity 7 and a cooling cavity 8 are arranged in the box body 6 from top to bottom, a partition plate 13 is arranged between the drying cavity 7 and the cooling cavity 8, the right end of the partition plate 13 is not connected with the box body 6, first conveying rollers 10 are arranged at the two ends of the drying cavity 7, a material homogenizing mechanism and a plurality of exhaust ports 9 are arranged at the top of the drying cavity, a first conveying belt 11 is arranged on the first conveying rollers 10, a plurality of hot air outlets 12 are arranged between the first conveying belts 11, the hot air outlets 12 are connected with a hot air blower, and the hot air outlets 12 are arranged upwards; the cooling chamber 8 both ends set up second conveying roller 15, set up second conveyer belt 16 on the second conveying roller 15, be provided with a plurality of air outlets 17 between second conveyer belt 16, a plurality of air outlets 17 connect the fan, is provided with the second baffle 14 along lower left slope on the box 6 of material transfer mouth right side, and second baffle 14's bottom is arranged in second conveyer belt 16 top. The first conveying belt 16 and the second conveying belt 16 are provided with a plurality of through holes, and the through holes are smaller than the particle size of the resin material.

The support frame includes first backup pad 18, second backup pad 20, elevating system 19 and universal wheel 21, and first backup pad 18 is arranged in the top of second backup pad 20, is provided with elevating system 19 between first backup pad 18 and the second backup pad 20, and second backup pad 20 bottom is provided with universal wheel 21, and box 6 is arranged in first backup pad 18 top.

The right end of the partition plate 13 is provided with a first baffle upwards, and a first conveying roller 10 at the right end of the drying cavity 7 is arranged above the first baffle, and the first conveying roller 10 at the left end of the drying cavity 7 is lower than the first conveying roller 10 at the right end. A second discharge port 5 is arranged below a second conveying roller 15 at the left end of the cooling cavity 8; the resin material is directly fed from the second conveyor belt 16 to the second discharge opening 5.

The left side of the second feed inlet 4 is obliquely provided with a third baffle along the lower right side, and the upper wall of the box body 6 on the right side of the second feed inlet 4 is provided with a material homogenizing mechanism.

The material homogenizing mechanism comprises a positioning block 22 arranged on the box body 6, a plurality of rows of limiting cavities are arranged in the positioning block 22 along the front-back direction of the box body 6, each row of limiting cavities comprises a plurality of limiting cavities, one or a plurality of limiting rods 23 are arranged at the top of each limiting cavity, a material homogenizing rod 24 is sleeved outside each limiting rod 23, a positioning plate 26 is arranged at the upper end of each material homogenizing rod 24, a reset spring 25 is sleeved outside each limiting rod 23 above the positioning plate 26, and the material homogenizing rods 24 of two adjacent rows are arranged at intervals. Better spread out the material, improve drying efficiency.

Working principle: resin particles after cooling the water cooling area enter a separation channel from a first feed inlet 1, flowing water and resin are initially separated, the resin stably falls onto a first conveying belt 11 from a second feed inlet 4 through a third baffle plate, the resin is uniformly spread out through a material homogenizing mechanism, hot air is discharged from a hot air outlet 12 to dry the resin, moist air is discharged from an air outlet 9, so that the air flows unidirectionally, the dried resin falls down through a material converting opening, the resin material is completely fallen onto a second conveying belt 16 through the blocking of a second baffle plate 14, air at 20-30 ℃ is discharged from an air outlet 17 to cool the resin, the resin is further air-dried, and finally the resin is discharged through a second discharge outlet 5.

It should be noted that the foregoing merely illustrates the technical idea of the present invention and is not intended to limit the scope of the present invention, and that a person skilled in the art may make several improvements and modifications without departing from the principles of the present invention, which fall within the scope of the claims of the present invention.

Claims (7)

1. The discharging device of the high-performance resin for the prism reflective material is characterized by comprising a discharging pipe connected with a cooling device and a discharging drying device connected with the discharging pipe, wherein the discharging pipe comprises a first feeding port, a separation channel and a first discharging port, the separation channel is arranged in a downward inclined manner, a plurality of draining holes are formed in the bottom of the separation channel, which is in material contact, a water accumulation cavity is formed below the draining holes, and a water outlet is formed in the water accumulation cavity; the discharging and drying device comprises a box body arranged on the supporting frame, a second feeding port arranged at the upper left side of the box body, and a second discharging port arranged at the lower left side of the box body; a drying cavity and a cooling cavity are arranged in the box body from top to bottom, a partition plate is arranged between the drying cavity and the cooling cavity, the right end of the partition plate is not connected with the box body, a material transferring opening is formed in the right end of the partition plate, first conveying rollers are arranged at the two ends of the drying cavity, a material homogenizing mechanism and a plurality of air outlets are formed in the top of the drying cavity, a first conveying belt is arranged on the first conveying rollers, a plurality of hot air outlets are formed between the first conveying belts, and the hot air outlets are upwards arranged; the cooling chamber both ends set up the second transmission roller, set up the second conveyer belt on the second transmission roller, be provided with a plurality of air outlets between the second conveyer belt, be provided with the second baffle on the box of material transfer port right side, the bottom of second baffle is arranged in the second conveyer belt top.

2. The discharge device of high-performance resin for prism reflecting materials according to claim 1, wherein the supporting frame comprises a first supporting plate, a second supporting plate, a lifting mechanism and universal wheels, the first supporting plate is arranged above the second supporting plate, the lifting mechanism is arranged between the first supporting plate and the second supporting plate, the universal wheels are arranged at the bottom of the second supporting plate, and the box body is arranged above the first supporting plate.

3. The discharge device of high-performance resin for prism reflecting materials according to claim 2, wherein a first baffle is arranged upwards at the right end of the baffle plate, a first conveying roller at the right end of the drying cavity is arranged above the first baffle plate, and the first conveying roller at the left end of the drying cavity is lower than the first conveying roller at the right end.

4. The discharge device of high-performance resin for prism reflecting materials according to claim 1, wherein a second baffle plate inclined along the lower left is arranged on the right box body of the material transferring opening.

5. The discharge device of high-performance resin for prism reflecting materials according to claim 1, wherein a second discharge port is arranged below the second transmission roller at the left end of the cooling cavity.

6. The discharge device of high-performance resin for prism reflecting materials according to claim 5, wherein a third baffle is obliquely arranged on the left side of the second feed inlet along the lower right side, and a material homogenizing mechanism is arranged on the upper wall of the right side box body of the second feed inlet.

7. The discharging device of high-performance resin for prism reflecting materials according to claim 6, wherein the material homogenizing mechanism comprises a positioning block arranged on the box body, a plurality of rows of limiting cavities are arranged in the positioning block along the front-back direction of the box body, each row of limiting cavities comprises a plurality of limiting cavities, one or a plurality of limiting rods are arranged at the top of each limiting cavity, a material homogenizing rod is sleeved outside each limiting rod, a positioning plate is arranged at the upper end of each material homogenizing rod, a reset spring is sleeved outside each limiting rod above each positioning plate, and two adjacent rows of material homogenizing rods are arranged at intervals.