CN210701146U - Dust removal mechanism for elutriator slices - Google Patents

Abstract

The utility model discloses a dust removal mechanism for elutriator slicing, including dust removal pipe, ventilation pipe, first dust pipe and second dust pipe, the bottom of dust removal pipe one side is pegged graft and is had the second air intake, the one end that the first air intake was kept away from the dust removal pipe with ventilation pipe output end threaded connection, the one end that the second air intake was kept away from the dust removal pipe is installed with the guide duct through bolt fastening, the one end that the guide duct was kept away from the second air intake with one side threaded connection of ventilation pipe outer wall; the utility model discloses a dust in the graininess polyamide fibre is blown to first dust hopper and second dust hopper in by wind-force, then manages the dust discharge through first dust and second dust, and the graininess polyamide fibre after the dust removal passes through the discharge gate and enters into the elutriator device in to continue to process the polyamide fibre, need not filter out alone to graininess polyamide fibre like this, improved the machining efficiency of polyamide fibre.

Description

Dust removal mechanism for elutriator slices

Technical Field

The utility model relates to an elutriator dust removal technical field specifically is a be used for elutriator sliced dust removal mechanism.

Background

During nylon processing, a nylon raw material needs to be cut into particles, and after the nylon is cut into particles, a lot of dust is mixed in the particles, and in order to improve the quality of the particles, the dust in the particles needs to be taken out, so that a dust removal structure for an elutriator is needed.

However, the conventional dust removing structure has some disadvantages in the using process, such as:

because the dust and the granular chinlon are mixed together, the prior art filters the dust in the granular chinlon by using a filtering device independently, and then adds the filtered granular chinlon into an elutriator for processing, so that the processing procedures of the chinlon are increased, and the processing efficiency of the chinlon is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a be used for elutriator sliced dust removal mechanism to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a dust removal mechanism for elutriator slicing comprises a dust removal pipe, a vent pipe, a first dust pipe and a second dust pipe, wherein a receiving hopper is fixedly installed at the top of the dust removal pipe through a bolt, a discharge hole is fixedly installed at the bottom of the dust removal pipe through a bolt, a first air inlet is inserted into the top of one side of the dust removal pipe, a second air inlet is inserted into the bottom of one side of the dust removal pipe, one end, far away from the dust removal pipe, of the first air inlet is in threaded connection with the output end of the vent pipe, one end, far away from the dust removal pipe, of the second air inlet is fixedly installed with an air guide pipe through a bolt, one end, far away from the second air inlet, of the air guide pipe is in threaded connection with one side of the outer wall of the vent pipe, a first dust collection hopper is inserted into the top of the other side of the dust removal, and a second dust hopper is inserted at the bottom of the other side of the dust removal pipe, and one end of the second dust hopper, which is far away from the dust removal pipe, is in threaded connection with the second dust pipe.

The first dust collecting hopper and the second dust collecting hopper are fixedly provided with material separation nets through bolts, each material separation net comprises a mounting ring, steel wire ropes and dust through holes, the steel wire ropes are uniformly wound on the inner side of the mounting ring in a crossed mode, and the dust through holes are uniformly formed between the steel wire ropes.

The cross section of the dust through hole is of a square structure, and the length dimension of a diagonal line of the dust through hole is smaller than the diameter dimension of the granular material.

The inner diameter of the first air inlet is smaller than that of the first dust hopper, and the center line of the first air inlet and the center line of the first dust hopper are located on the same straight line.

The inner diameter of the second air inlet is smaller than that of the second dust hopper, and the center line of the second air inlet and the center line of the second dust hopper are located on the same straight line.

The center of the inner wall of the dust removal pipe is fixedly provided with a material distribution plate through a bolt, and the surface of the material distribution plate is uniformly provided with material through holes.

The material passing holes are used for separating granular materials, and the inner diameter size of the material passing holes is larger than the diameter size of the granular materials.

Wherein, the discharge hole is in a conical structure.

And a first automatic control valve is fixedly mounted on one side, close to the first air inlet, of the outer wall of the ventilation pipe through a bolt, and the first automatic control valve is used for controlling the opening and closing of the first air inlet.

And a second automatic control valve is fixedly mounted on one side, close to the second air inlet, of the outer wall of the air guide pipe through bolts and is used for controlling the opening and closing of the second air inlet.

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

the utility model discloses a connect the hopper to catch the graininess polyamide fibre after the cutting, then separate graininess polyamide fibre through dividing the flitch, then graininess polyamide fibre falls into in the dust removal pipe, blow the dust removal pipe with the wind-force in the vent pipe through first air intake and second air intake after, then blow the dust in the graininess polyamide fibre in first dust hopper and the second dust hopper through wind-force, then manage through first dust and second dust and discharge the dust, the graininess polyamide fibre after the dust removal enters into in the elutriator device through the discharge gate, thereby continue to process the polyamide fibre, need not filter out alone granular polyamide fibre like this, the machining efficiency of polyamide fibre has been improved.

Drawings

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

FIG. 2 is a schematic view of the overall front view cross-section structure of the present invention;

FIG. 3 is a schematic view of the structure of the material distributing plate of the present invention;

fig. 4 is the structure schematic diagram of the material isolation net in the main view.

In FIGS. 1-4: 10-a dust removal pipe; 11-a receiving hopper; 12-a material distributing plate; 13-a feed through hole; 14-a discharge hole; 20-a vent pipe; 21-a first air inlet; 22-a first self-controlled valve; 23-a wind guide pipe; 24-a second air inlet; 25-a second self-controlled valve; 30-a first dust duct; 31-a first dust hopper; 40-a second dust duct; 41-a second dust hopper; 50-material separation net; 51-a mounting ring; 52-a steel cord; 53-dust through hole.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a dust removal mechanism for an elutriator slice comprises a dust removal pipe 10, a ventilation pipe 20, a first dust pipe 30 and a second dust pipe 40, wherein a receiving hopper 11 is fixedly installed at the top of the dust removal pipe 10 through a bolt, a discharge hole 14 is fixedly installed at the bottom of the dust removal pipe 10 through a bolt, a first air inlet 21 is inserted into the top of one side of the dust removal pipe 10, a second air inlet 24 is inserted into the bottom of one side of the dust removal pipe 10, one end, far away from the dust removal pipe 10, of the first air inlet 21 is in threaded connection with the output end of the ventilation pipe 20, one end, far away from the dust removal pipe 10, of the second air inlet 24 is fixedly installed with an air guide pipe 23 through a bolt, one end, far away from the second air inlet 24, of the air guide pipe 23 is in threaded connection with one side of the outer wall of the ventilation pipe 20, a first dust collection hopper 31 is inserted into the top of the other side of the dust removal pipe 10, one, a second dust hopper 41 is inserted into the bottom of the other side of the dust removing pipe 10, and one end of the second dust hopper 41 far away from the dust removing pipe 10 is in threaded connection with the second dust pipe 40.

Wherein, will connect hopper 11 to aim at polyamide fibre cutting device's delivery outlet, the delivery outlet of elutriator processingequipment is aimed at to discharge gate 14, then catch the graininess polyamide fibre after the cutting through receiving hopper 11, then graininess polyamide fibre falls into in dust removal pipe 10, blow in dust removal pipe 10 through first air intake 21 and second air intake 24 wind-force in with ventilation pipe 20 after that, then blow the dust in the graininess polyamide fibre into first dust hopper 31 and second dust hopper 41 through wind-force, then discharge the dust through first dust pipe 30 and second dust pipe 40, the graininess polyamide fibre after the dust removal enters into elutriator processingequipment through discharge gate 14 in, thereby continue to process the polyamide fibre, do not need to filter out alone the graininess polyamide fibre like this, the machining efficiency of polyamide fibre has been improved.

A material isolation net 50 is fixedly installed inside the first dust hopper 31 and the second dust hopper 41 through bolts, the material isolation net 50 comprises an installation ring 51, steel wire ropes 52 and dust through holes 53, the steel wire ropes 52 are uniformly wound on the inner side of the installation ring 51 in a crossed manner, and the dust through holes 53 are uniformly formed between the steel wire ropes 52; after the first air inlet 21 and the second air inlet 24 blow wind power in the ventilation pipe 20 into the dust removal pipe 10, dust in the granular nylon is blown into the first dust collection hopper 31 and the second dust collection hopper 41 through the wind power, the granular nylon can be blown into the first dust collection hopper 31 and the second dust collection hopper 41 through the wind power because the wind power cannot be controlled, then the granular nylon is intercepted by the material isolation net 50, the dust in the granular nylon enters the first dust pipe 30 and the second dust pipe 40 through the dust through hole 53, and then the dust is discharged through the first dust pipe 30 and the second dust pipe 40, so that the purpose of separating the granular nylon from the dust is achieved.

The cross section of the dust through hole 53 is of a square structure, and the length dimension of the diagonal line of the dust through hole 53 is smaller than the diameter dimension of the granular material; because the length of the diagonal line of the dust through hole 53 is smaller than the diameter of the granular nylon, when the granular nylon and the dust are blown into the first dust collecting hopper 31 and the second dust collecting hopper 41 by wind power, the material isolation net 50 can intercept the granular nylon and prevent the granular nylon from entering the first dust pipe 30 and the second dust pipe 40, so that the aim of separating the granular nylon from the dust is fulfilled.

The inner diameter of the first air inlet 21 is smaller than that of the first dust hopper 31, and the center line of the first air inlet 21 and the center line of the first dust hopper 31 are located on the same straight line; when the first air outlet 21 blows air to the interior of the dust removing pipe 10, the first air outlet 21 blows air vertically to the first dust collecting hopper 31, and then airflow generated by wind power blows granular nylon and dust which are positioned between the first air outlet 21 and the first dust collecting hopper 31 in the interior of the dust removing pipe 10 to the first dust collecting hopper 31.

Wherein, the inner diameter of the second air inlet 24 is smaller than the inner diameter of the second dust hopper 41, and the center line of the second air inlet 24 and the center line of the second dust hopper 41 are located on the same straight line; when the second air outlet 24 blows air into the dust collecting pipe 10, the second air outlet 24 blows air into the second dust collecting hopper 41 vertically, and then the airflow generated by the wind blows the granular nylon and dust in the dust collecting pipe 10 between the second air outlet 24 and the second dust collecting hopper 41 into the second dust collecting hopper 41.

The center of the inner wall of the dust removal pipe 10 is fixedly provided with a material distribution plate 12 through a bolt, and the surface of the material distribution plate 12 is uniformly provided with material through holes 13; after the cut granular chinlon falls into the receiving hopper 11, the granular chinlon falls into the material distributing plate 12, and then is dispersed through the material through holes 13, so that the granular chinlon is prevented from being crowded together, and dust in the granular chinlon is blown by using air flow conveniently.

The material passing holes 13 are used for separating granular materials, and the inner diameter size of the material passing holes 13 is larger than the diameter size of the granular materials.

Wherein the discharge hole 14 is in a conical structure; the discharge port 14 is of an inverted conical structure, the granular nylon subjected to dust removal in the dust removal pipe 10 can be collected in a centralized manner through the discharge port 14, and then the granular nylon subjected to dust removal is discharged into the elutriator processing device through the discharge port 14, so that the nylon is further processed.

A first automatic control valve 22 is fixedly installed on one side, close to the first air inlet 21, of the outer wall of the ventilation pipe 20 through bolts, and the first automatic control valve 22 is used for controlling the opening and closing of the first air inlet 21; first automatic control valve 22 and external control switch electric connection, when needs blow to dust removal pipe 10 inside through first air outlet 21, open first automatic control valve 22 through external control switch, then can blow to dust removal pipe 10 through first air outlet 21 with the inside wind-force of ventilation pipe 20 in to be located the air current between first air outlet 21 and the first dust hopper 31 inside dust removal pipe 10.

A second self-control valve 25 is fixedly mounted on one side, close to the second air inlet 24, of the outer wall of the air guide pipe 23 through a bolt, and the second self-control valve 25 is used for controlling the opening and closing of the second air inlet 24; the second self-control valve 25 is electrically connected with the external control switch, when wind is blown into the dust removing pipe 10 through the second air outlet 24, the second self-control valve 25 is opened through the external control switch, and then the wind power inside the ventilation pipe 20 can be blown into the dust removing pipe 10 through the second air outlet 24, so that an air flow is formed between the second air outlet 24 and the second dust collecting hopper 41 inside the dust removing pipe 10.

The working principle is as follows: when the device is used, the receiving hopper 11 is aligned with the output port of the nylon cutting device, the discharge port 14 is aligned with the output port of the elutriator processing device, the input end of the ventilation pipe 20 is connected with the output end of the fan, the output ends of the first dust pipe 30 and the second dust pipe 40 are connected with the dust collection box, the cut granular nylon is received by the receiving hopper 11, then the granular nylon falls into the dust removal pipe 10, wind power in the ventilation pipe 20 is blown into the dust removal pipe 10 through the first air inlet 21 and the second air inlet 24, dust in the granular nylon is blown into the first dust hopper 31 and the second dust hopper 41 through the wind power, then the dust is discharged through the first dust pipe 30 and the second dust pipe 40, the granular nylon after dust removal enters the elutriator processing device through the discharge port 14, so that the nylon is continuously processed without being filtered out separately, the processing efficiency of the chinlon is improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A dust removal mechanism for elutriator slices, includes dust removal pipe (10), ventilation pipe (20), first dust pipe (30) and second dust pipe (40), its characterized in that: the dust removing device is characterized in that a material receiving hopper (11) is fixedly installed at the top of the dust removing pipe (10) through a bolt, a material outlet (14) is fixedly installed at the bottom of the dust removing pipe (10) through a bolt, a first air inlet (21) is inserted into the top of one side of the dust removing pipe (10), a second air inlet (24) is inserted into the bottom of one side of the dust removing pipe (10), one end, far away from the dust removing pipe (10), of the first air inlet (21) is in threaded connection with the output end of the ventilating pipe (20), one end, far away from the dust removing pipe (10), of the second air inlet (24) is fixedly installed with an air guide pipe (23) through a bolt, one end, far away from the second air inlet (24), of the air guide pipe (23) is in threaded connection with one side of the outer wall of the ventilating pipe (20), a first dust collecting hopper (31) is inserted into the top of the other side of the dust removing pipe (10), one end, far, a second dust hopper (41) is inserted at the bottom of the other side of the dust removal pipe (10), and one end, far away from the dust removal pipe (10), of the second dust hopper (41) is in threaded connection with the second dust pipe (40).

2. The dust removing mechanism for a elutriator slice according to claim 1, characterized in that: the first dust hopper (31) and the second dust hopper (41) are fixedly provided with a material separation net (50) through bolts, the material separation net (50) comprises a mounting ring (51), steel wire ropes (52) and dust through holes (53), the steel wire ropes (52) are uniformly wound on the inner side of the mounting ring (51) in a crossed manner, and the dust through holes (53) are uniformly formed between the steel wire ropes (52).

3. The dust removing mechanism for a elutriator slice according to claim 2, characterized in that: the cross section of the dust through hole (53) is of a square structure, and the length dimension of the diagonal line of the dust through hole (53) is smaller than the diameter dimension of the granular material.

4. The dust removing mechanism for a elutriator slice according to claim 1, characterized in that: the inner diameter of the first air inlet (21) is smaller than that of the first dust hopper (31), and the center line of the first air inlet (21) and the center line of the first dust hopper (31) are located on the same straight line.

5. The dust removing mechanism for a elutriator slice according to claim 1, characterized in that: the inner diameter of the second air inlet (24) is smaller than that of the second dust hopper (41), and the central line of the second air inlet (24) and the central line of the second dust hopper (41) are located on the same straight line.

6. The dust removing mechanism for a elutriator slice according to claim 1, characterized in that: the center of the inner wall of the dust removal pipe (10) is fixedly provided with a material distribution plate (12) through a bolt, and the surface of the material distribution plate (12) is uniformly provided with material through holes (13).

7. The dust removing mechanism for an elutriator slice according to claim 6, wherein: the material passing holes (13) are used for separating granular materials, and the inner diameter size of the material passing holes (13) is larger than the diameter size of the granular materials.

8. The dust removing mechanism for a elutriator slice according to claim 1, characterized in that: the discharge hole (14) is in a conical structure.

9. The dust removing mechanism for a elutriator slice according to claim 1, characterized in that: one side of the outer wall of the ventilation pipe (20) close to the first air inlet (21) is fixedly provided with a first automatic control valve (22) through a bolt, and the first automatic control valve (22) is used for controlling the opening and closing of the first air inlet (21).

10. The dust removing mechanism for a elutriator slice according to claim 1, characterized in that: and a second automatic control valve (25) is fixedly installed on one side, close to the second air inlet (24), of the outer wall of the air guide pipe (23) through bolts, and the second automatic control valve (25) is used for controlling the second air inlet (24) to open and close.

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