CN218296437U - Cooling device for regenerated nylon particles - Google Patents

Abstract

The utility model discloses a cooling device of regeneration nylon particle relates to nylon particle preparation technical field, for solving current nylon particle and cooling its input aquatic when preparing the cooling, need store its stoving side after the cooling is accomplished, comparatively troublesome, the preparation time is longer, influences the problem of preparation efficiency. A cooling bin body is arranged in the middle of the nylon particle cooling machine; the first cooling fan is arranged above one side of the cooling bin body, a cooling mechanism is arranged in the first cooling fan, and the cooling mechanism is transversely arranged; the second cooling fan is arranged inside the lower portion of the cooling bin body, a cooling mechanism is arranged inside the second cooling fan, a cooling fan is arranged above the inside of the cooling mechanism, a flow guide angle is arranged below the cooling fan, a cooling air duct is arranged below the flow guide angle, a temperature guide piece is arranged below the cooling air duct, and a refrigerating piece is arranged below the temperature guide piece.

Description

Cooling device for regenerated nylon particles

Technical Field

The utility model relates to a nylon particle preparation technical field specifically is a cooling device of regeneration nylon particle.

Background

Nylon particles are plastic particles made of polyamide resins, and are used in electrical engineering, electronic products, household appliances and the like, and are formed by melting nylon particles by heating, cutting the melted nylon particles into particles, and cooling the particles to harden the nylon particles.

However, the existing nylon particles are put into water for cooling when being prepared and cooled, and the nylon particles need to be dried for storage after cooling, which is troublesome, long in preparation time and affects preparation efficiency; therefore, the existing requirements are not met, and a cooling device for regenerated nylon particles is provided for the cooling device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cooling device of regeneration nylon particle to solve the current nylon particle that provides in the above-mentioned background art and cool off its input aquatic when the preparation is cooled off, need store its stoving side after the cooling is accomplished, comparatively troublesome, the preparation time is longer, influences the problem of preparation efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: a cooling device for regenerated nylon particles comprises a nylon particle cooler, wherein a cooling bin body is arranged in the middle of the nylon particle cooler;

further comprising:

the first cooling fan is arranged above one side of the cooling bin body, a cooling mechanism is arranged in the first cooling fan, and the cooling mechanism is transversely arranged;

the second cooling fan sets up inside the below of the cooling storehouse body, and the inside of second cooling fan is provided with cooling body, and the vertical setting of cooling body, cooling body's inside top is provided with the thermantidote, the below of thermantidote is provided with the water conservancy diversion angle, and the water conservancy diversion angle passes through the bolt and is connected with the thermantidote, the below at water conservancy diversion angle is provided with the cold air duct, the below of cold air duct is provided with the temperature guide piece, the below of temperature guide piece is provided with the refrigeration piece, and the refrigeration piece is connected with the temperature guide piece bonding.

Preferably, be provided with around the heat conduction piece in the second cooling blower and advance cold wind extension way, and advance cold wind extension way and second cooling blower structure as an organic whole, the outside that advances cold wind extension way is provided with into cold wind filter screen, and advances cold wind filter screen and embedded being connected of second cooling blower.

Preferably, a cooling fan is arranged below the refrigerating sheet, a cold air outlet extending channel is arranged outside the cooling fan in the second cooling fan, the cold air outlet extending channel and the second cooling fan are of an integrated structure, a heat dissipation air outlet filter screen is arranged outside the cold air outlet extending channel, and the heat dissipation air outlet filter screen is connected with the second cooling fan in an embedded mode.

Preferably, the outside of first cooling blower is provided with into cold wind filter screen, and the last cold wind filter screen that advances of first cooling blower and the interior heat conduction piece intercommunication of first cooling blower, the one side of advancing the cold wind filter screen is provided with heat dissipation air-out filter screen, and the last heat dissipation air-out filter screen of first cooling blower and the radiator fan intercommunication in the first cooling blower, one side of radiator fan is provided with first heat dissipation air inlet filter screen, and first heat dissipation air inlet filter screen and the embedded connection of first cooling blower.

Preferably, the other side of the cooling bin body is provided with an air outlet, the air outlet is connected with the cooling bin body in a welded mode, the other side of the inside of the first cooling fan and the upper portion of the inside of the second cooling fan are respectively provided with a cold air outlet filter screen, and the cold air outlet filter screens are respectively connected with the first cooling fan and the second cooling fan in an embedded mode.

Preferably, a second heat dissipation air inlet filter screen is arranged below a heat dissipation fan in the second cooling fan, the second heat dissipation air inlet filter screen is connected with the second cooling fan in an embedded mode, a feeding opening is formed in the upper portion of the cooling bin body, the feeding opening is connected with the cooling bin body in a welded mode, a discharging opening is formed in the other side of the upper portion of the second cooling fan, and the discharging opening and the cooling bin body are of an integrated structure.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up first cooling blower in one side of the cooling storehouse body, the below of the cooling storehouse body sets up second cooling blower, and set up refrigeration piece and thermantidote in the cooling storehouse body with second cooling blower's inside, the refrigeration piece can refrigerate, make the air temperature reduce, the thermantidote can blow the cold air that reduces to the inside of the cooling storehouse body, when the nylon particle gets into the cooling storehouse internal portion from the pan feeding mouth, at first by the cold wind cooling that first cooling blower blew out, fall into the inside back in the cooling storehouse body, the cold wind cooling that is blown out by second cooling blower, make the temperature of nylon particle reduce sooner, it cools off to put it into the aquatic when preparing the cooling to avoid current nylon particle, need store its stoving side after the cooling is accomplished, it is comparatively troublesome, preparation time is longer, the problem that influences preparation efficiency takes place.

2. Through set up the heat conduction piece on the refrigeration piece, can exchange the low temperature that the refrigeration piece produced with the heating power of air, will lead the temperature reduction of the interior air of temperature conduction piece, and set up the cool air duct, the air can not be siphoned away by the thermantidote immediately after getting into the temperature conduction piece from advancing cold wind filter screen, but follow the heat conduction piece earlier and pass through, get into the cool air duct again, is siphoned away by the thermantidote at last and insufflates in the cooling chamber body, this process can make heat conduction piece and air temperature fully replace, make air temperature reduced, avoid the air to get into the temperature conduction piece after the problem that the unable exchange of heat of leading to siphoning away at once accomplishes takes place.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a partial enlarged view of the point A of the present invention;

FIG. 4 is a partial enlarged view of the position B of the present invention

In the figure: 1. a nylon particle cooler; 2. cooling the bin body; 3. a feeding port; 4. a first cooling fan; 5. a second cooling fan; 6. an air outlet; 7. a cold air outlet filter screen; 8. a cooling fan; 9. a diversion angle; 10. a cold air duct; 11. a heat conducting sheet; 12. a cold air inlet filter screen; 13. a refrigeration plate; 14. a heat radiation fan; 15. a first heat dissipation air intake filter screen; 16. a heat dissipation air outlet filter screen; 17. a cold air inlet extension channel; 18. a cold air outlet extension channel; 19. a second heat dissipation air intake filter screen; 20. and (4) a discharge port.

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. 1-4, the present invention provides an embodiment: a cooling device for regenerated nylon particles comprises a nylon particle cooler 1, wherein a cooling bin body 2 is arranged in the middle of the nylon particle cooler 1;

further comprising:

the first cooling fan 4 is arranged above one side of the cooling bin body 2, and a cooling mechanism is arranged in the first cooling fan 4 and is transversely arranged;

second cooling blower 5, it sets up inside the below of the cooling cabin body 2, and the inside of second cooling blower 5 is provided with cooling body, and the vertical setting of cooling body, cooling body's inside top is provided with thermantidote 8, the below of thermantidote 8 is provided with water conservancy diversion angle 9, and water conservancy diversion angle 9 passes through the bolt and is connected with thermantidote 8, the below of water conservancy diversion angle 9 is provided with cold air duct 10, the below of cold air duct 10 is provided with leads thermoscope 11, the below of thermoscope 11 is provided with refrigeration piece 13, and refrigeration piece 13 is connected with leading thermoscope 11 bonding, it can replace the low temperature that refrigeration piece 13 produced with the heating power of air to lead thermoscope 11, make the temperature of air reduce, the inside of the air input cooling cabin body 2 that rethread cooling fan 8 will reduce, so that the nylon particle is cooled down.

Referring to fig. 1 and 3-4, a cold air inlet extension duct 17 is disposed around the heat conducting sheet 11 in the second cooling fan 5, the cold air inlet extension duct 17 and the second cooling fan 5 are integrated, a cold air inlet filter screen 12 is disposed outside the cold air inlet extension duct 17, the cold air inlet filter screen 12 is connected to the second cooling fan 5 in an embedded manner, and the cold air inlet extension duct 17 can be used for the heat conducting sheet 11 to suck normal temperature air, so that the ventilation effect of the heat conducting sheet 11 is better, and the heat dissipation effect is better.

Referring to fig. 2-4, a cooling fan 14 is disposed below the cooling fins 13, a cold air outlet extension duct 18 is disposed outside the cooling fan 14 in the second cooling fan 5, the cold air outlet extension duct 18 and the second cooling fan 5 are integrated, a cooling air outlet filter screen 16 is disposed outside the cold air outlet extension duct 18, the cooling air outlet filter screen 16 is connected to the second cooling fan 5 in an embedded manner, and the cold air outlet extension duct 18 can guide out hot air generated by the cooling fan 14 for cooling the cooling fins 13, thereby avoiding a fault of over-high temperature of the equipment.

Referring to fig. 2-3, a cold air inlet filter screen 12 is disposed outside the first cooling fan 4, the cold air inlet filter screen 12 on the first cooling fan 4 is communicated with a heat guiding fin 11 in the first cooling fan 4, a heat dissipating air outlet filter screen 16 is disposed on one side of the cold air inlet filter screen 12, the heat dissipating air outlet filter screen 16 on the first cooling fan 4 is communicated with a heat dissipating fan 14 in the first cooling fan 4, a first heat dissipating air inlet filter screen 15 is disposed on one side of the heat dissipating fan 14, and the first heat dissipating air inlet filter screen 15 is connected with the first cooling fan 4 in an embedded manner, so that the filter screen can prevent foreign matters from entering the inside of the equipment to damage the equipment.

Referring to fig. 1-3, an air outlet 6 is disposed on the other side of the cooling bin 2, the air outlet 6 is welded to the cooling bin 2, a cold air outlet filter 7 is disposed on the other side of the inside of the first cooling fan 4 and above the inside of the second cooling fan 5, the cold air outlet filter 7 is connected to the first cooling fan 4 and the second cooling fan 5 in an embedded manner, and air for cooling nylon particles can be discharged from the air outlet 6, so that cold air can be continuously input into the cooling bin 2, and the problem that the cooling effect is reduced due to the fact that air cannot be discharged is avoided.

Referring to fig. 1-4, a second heat dissipation air intake filter screen 19 is disposed below the heat dissipation fan 14 in the second cooling fan 5, and the second heat dissipation air intake filter screen 19 is connected to the second cooling fan 5 in an embedded manner, a material inlet 3 is disposed above the cooling bin 2, and the material inlet 3 is welded to the cooling bin 2, a material outlet 20 is disposed on the other side above the second cooling fan 5, and the material outlet 20 and the cooling bin 2 are integrated, and a screw conveyor can be disposed in the material outlet 20 to convey the cooled nylon particles for use or storage.

The working principle is as follows: when the nylon particle cooling device is used, the refrigerating sheet 13 refrigerates, the low temperature generated by the refrigerating sheet 13 is transmitted to the self by the temperature guide sheet 11, and then the low temperature is exchanged with the heat in the air around the temperature guide sheet 11, so that the temperature of the air is reduced, the cooling fan 8 and the cooling fan 14 are started, the air reduced by the temperature guide sheet 11 can be pumped out by the cooling fan 8 and blown into the cooling bin body 2, the cooling fan 14 blows out the air to cool the refrigerating sheet 13, the nylon particles enter the cooling bin body 2 from the feeding port 3, are cooled by the cold air blown out by the first cooling fan 4 firstly, and are cooled by the cold air blown out by the second cooling fan 5 after falling, so that the temperature of the nylon particles is sufficiently reduced, the problem that the existing nylon particles are thrown into water to be cooled when being cooled, the nylon particles need to be dried after being cooled to be stored, which is troublesome, the preparation time is long, and the problem that the preparation efficiency is influenced is caused, a screw conveyor can be arranged in the discharge port 20, and the cooled nylon particles are conveyed away for use or storage.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A cooling device for regenerated nylon particles comprises a nylon particle cooler (1), wherein a cooling cabin body (2) is arranged in the middle of the nylon particle cooler (1);

the method is characterized in that: further comprising:

the first cooling fan (4) is arranged above one side of the cooling bin body (2), and a cooling mechanism is arranged inside the first cooling fan (4) and transversely arranged;

second cooling blower (5), it sets up inside the below of the cooling cabin body (2), and the inside of second cooling blower (5) is provided with cooling body, and the vertical setting of cooling body, cooling body's inside top is provided with thermantidote (8), the below of thermantidote (8) is provided with water conservancy diversion angle (9), and water conservancy diversion angle (9) are connected with thermantidote (8) through the bolt, the below of water conservancy diversion angle (9) is provided with cold air duct (10), the below of cold air duct (10) is provided with leads thermoscope (11), the below of leading thermoscope (11) is provided with refrigeration piece (13), and refrigeration piece (13) and thermoscope (11) bonding connection.

2. The apparatus for cooling regenerated nylon particles as set forth in claim 1, wherein: be provided with around leading temperature piece (11) in second cooling blower (5) and advance cold wind extension way (17), and advance cold wind extension way (17) and second cooling blower (5) structure as an organic whole, the outside that advances cold wind extension way (17) is provided with into cold wind filter screen (12), and advances cold wind filter screen (12) and second cooling blower (5) embedded connection.

3. The apparatus for cooling regenerated nylon particles according to claim 1, wherein: the below of refrigeration piece (13) is provided with radiator fan (14), and radiator fan (14) outside in second cooling blower (5) is provided with out cold wind extension way (18), and goes out cold wind extension way (18) and second cooling blower (5) structure as an organic whole, the outside that goes out cold wind extension way (18) is provided with heat dissipation air-out filter screen (16), and dispels the heat and go out air-out filter screen (16) and second cooling blower (5) embedded connection.

4. The apparatus for cooling regenerated nylon particles as set forth in claim 1, wherein: the outside of first cooling fan (4) is provided with into cold wind filter screen (12), and advances cold wind filter screen (12) on first cooling fan (4) and leads thermoscope (11) intercommunication in first cooling fan (4), the one side of advancing cold wind filter screen (12) is provided with heat dissipation air-out filter screen (16), and heat dissipation air-out filter screen (16) on first cooling fan (4) and radiator fan (14) intercommunication in first cooling fan (4), one side of radiator fan (14) is provided with first heat dissipation air inlet filter screen (15), and just first heat dissipation air inlet filter screen (15) and first cooling fan (4) embedded connection.

5. The apparatus for cooling regenerated nylon particles as set forth in claim 1, wherein: the opposite side of the cooling bin body (2) is provided with an air outlet (6), the air outlet (6) is in welded connection with the cooling bin body (2), the other side of the inside of the first cooling fan (4) and the upper side of the inside of the second cooling fan (5) are both provided with a cold air outlet filter screen (7), and the cold air outlet filter screen (7) is respectively in embedded connection with the first cooling fan (4) and the second cooling fan (5).

6. The apparatus for cooling regenerated nylon particles as set forth in claim 1, wherein: radiator fan (14) below in second cooling blower (5) is provided with second heat dissipation air inlet filter screen (19), and second heat dissipation air inlet filter screen (19) and second cooling blower (5) embedded connection, the top of the cooling storehouse body (2) is provided with pan feeding mouth (3), and pan feeding mouth (3) and the cooling storehouse body (2) welded connection, the top opposite side of second cooling blower (5) is provided with discharge gate (20), and discharge gate (20) and the cooling storehouse body (2) structure as an organic whole.

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