CN211897206U - Combined type removes micronic dust machine - Google Patents

Abstract

The utility model discloses a combined type removes micronic dust machine belongs to weaving dust removal mechanical equipment technical field. The utility model discloses a combined type removes micronic dust machine, including going into the cotton pipe, the cotton stream that contains tiny impurity such as micronic dust that is carried by the previous process gets into in the cotton pipe through going into cotton mouthful level, go into the cotton pipe end fixedly connected with S-shaped defeated straight cotton pipe, the resistance of cotton conveying pipeline can be increased to the S-shaped, and the cotton stream obtains better evenly distributed in the horizontal direction, makes tiny impurity such as micronic dust obtain abundant exposure on whole working breadth; the tail end of the S-shaped straight cotton conveying pipe is fixedly connected with a dust removal mechanism through the rectangular straight cotton conveying pipe, an arc mesh plate in the dust removal mechanism has a cotton flow impacting effect, the vertical cotton conveying channel has a cotton flow compressing effect, and the lower inclined plane of the cotton dripping channel has a sieving effect.

Description

Combined type removes micronic dust machine

Technical Field

The utility model relates to a weaving dust removal mechanical equipment technical field, the more specifically combined type removes micronic dust machine that says so.

Background

The dust remover is a high-end textile dust removing device used for removing fine dust and impurities in cotton or other fibers, and has the following principle: the cotton flow containing impurities such as micro-dust is sent into the inner cotton spraying pipe from the cotton inlet pipe by the cotton sending fan, the cotton flow is distributed on the working width under the swing action of the distributing valve at the outlet of the inner cotton spraying pipe, the contact position of the cotton flow and the arc-shaped mesh plate is continuously changed, fine impurities such as micro-dust can be removed through the mesh holes under the coordination of dust filtering negative pressure after the cotton flow impacts the arc-shaped mesh plate and is discharged into a dust discharging cavity, the cotton flow passes through the vertical mesh plate and flows through the cotton spraying mesh plate, and the fine impurities such as micro-dust are removed to a certain extent under the coordination of the dust filtering negative pressure in the process; the cotton flow falls into the fiber collecting port and is sucked by a cotton sucking fan, the cotton sucking fan is hermetically connected with the cotton outlet pipe, the cotton flow is sent to the next procedure through the cotton outlet pipe, and the cotton flow distribution valve is easy to wind cotton bundles when swinging. Because the cambered surface dust exhaust screen plate is provided with the air seepage holes in a full width, when the cotton flow impacts the cambered surface dust exhaust screen plate at a specific speed, the cotton flow cannot be effectively collided and thrown up under the action of negative pressure formed by the dust exhaust fan, most of the cotton flow is adsorbed on the cambered surface dust exhaust screen plate, the cotton flow is not fully thrown and loosened in the cotton dust separation cavity, the cotton and the micro dust are difficult to separate, and therefore the micro dust cannot be effectively removed.

Through search, the Chinese patent application numbers are: 2015108252240, application publication date is: 2016, 2, 24 days, discloses a directional cotton inlet and lateral micro-dust discharging structure of a micro-dust remover, wherein a cotton spraying port is arranged at the center of a cambered surface dust discharging screen plate in the horizontal direction, a non-porous smooth area is arranged at the position, which is opposite to the cotton spraying port, on the cambered surface dust discharging screen plate, other parts of the non-porous smooth area are micro-dust absorbing areas, and dust absorbing holes are uniformly arranged in the micro-dust absorbing areas; the cotton flow is directionally sprayed from the cotton spraying opening to impact the non-porous smooth area, can not be adsorbed by negative pressure generated by the dust exhaust fan, can be thrown and raised by impact reverse elasticity, and is further loosened. However, since the cotton flow is sprayed from the inner cotton spraying pipe, the cotton flow is too concentrated, and fine impurities such as dust particles cannot be fully exposed in the whole working width, the dust particle removal effect is not good.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

Spout cotton pipe spun cotton flow too concentrated to among the prior art, tiny impurity such as micronic dust is difficult for exposing the scheduling problem, the utility model discloses a combined type removes micronic dust machine is equipped with the defeated cotton straight tube of S-shaped after going into the cotton pipe, has the function that horizontal even cotton flowed, and cotton flows horizontal even back, and tiny impurity such as micronic dust can fully expose, and can remove micronic dust effectually at whole horizontal striking mesh board.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

a combined type dust particle remover comprises a cotton inlet pipe, wherein cotton flow containing fine impurities such as dust particles and the like conveyed by a previous process horizontally enters the cotton inlet pipe through a cotton inlet, the cotton inlet pipe is of a hollow tubular structure, and the cross section of the contact part of the cotton inlet pipe and the cotton inlet is circular; the cross section of one end, far away from a cotton inlet, of the cotton inlet pipe gradually tends to be square, an S-shaped straight cotton conveying pipe is fixedly connected with the square end of the cotton inlet pipe, the S-shaped straight cotton conveying pipe comprises an S-shaped straight cotton conveying pipe inlet, the S-shaped straight cotton conveying pipe inlet is of a square structure, the cotton inlet pipe can be adaptively communicated with the S-shaped straight cotton conveying pipe, the tight fit of the connection position of the cotton inlet pipe and the S-shaped straight cotton conveying pipe is guaranteed, and cotton flow can smoothly pass through the S-shaped straight cotton conveying pipe inlet; the S-shaped straight cotton conveying pipe also comprises an S-shaped straight cotton conveying pipe outlet, the S-shaped straight cotton conveying pipe outlet is also of a square structure and can be adaptively connected with a rectangular straight cotton conveying pipe connected with the rear part of the S-shaped straight cotton conveying pipe outlet, so that cotton flow can smoothly pass through the S-shaped straight cotton conveying pipe outlet; the longitudinal pressing surface of the S-shaped straight cotton conveying pipe is S-shaped, so that the resistance of the cotton conveying pipeline can be increased due to the S-shape, cotton flow can be better and uniformly distributed in the transverse direction, fine impurities such as dust particles and the like can be fully exposed on the whole working width, and a good foundation is laid for removing the dust particles; one end of the S-shaped straight cotton conveying pipe, which is far away from the cotton inlet pipe, is fixedly connected with a dust removal mechanism through a rectangular straight cotton conveying pipe, and the flow equalizing effect of the straight pipes can drive the flow equalization of cotton flow, so that an eddy current area is prevented from being formed, and tiny impurities such as tiny dust retained in the eddy current area are discharged.

According to a further technical scheme, the dust removal mechanism comprises a vertical cotton conveying channel, an arc-shaped mesh plate is arranged on one side of the vertical cotton conveying channel and comprises a bending section I and a vertical section I, mesh holes are formed in the bending section I and the vertical section I, fine impurities such as micro dust can fall into a main impurity discharge cavity on the outer side of the arc-shaped mesh plate through the mesh holes, and a lower suction pipe of a cotton flowing channel is arranged below the main impurity discharge cavity; an inner arc plate opposite to the arc-shaped mesh plate is arranged on the other side of the vertical cotton conveying channel, the inner arc plate comprises a bending section II and a vertical section II, mesh holes are formed in the vertical section II of the inner arc plate, fine impurities such as micro dust can fall into an impurity discharging cavity on the cotton dripping channel on the outer side of the inner arc plate through the mesh holes, an upper suction pipe of the cotton dripping channel is arranged below the impurity discharging cavity on the cotton dripping channel, cotton flow is conveyed downwards under the combined action of air flow conveying force and self gravity after entering the vertical cotton conveying channel, and the fine impurities such as the micro dust can fall into the upper suction pipe of the cotton dripping channel and the lower suction pipe of the cotton dripping channel through the mesh holes respectively.

According to a further technical scheme, the upper suction pipe of the cotton dripping channel and the lower suction pipe of the cotton dripping channel are combined into a total suction pipe for removing impurities in the left rack of the dust removing mechanism, and tiny impurities such as tiny dust and the like in the upper suction pipe of the cotton dripping channel and the lower suction pipe of the cotton dripping channel can be sucked away together.

According to the further technical scheme, a cotton dripping channel is arranged below the vertical cotton conveying channel, an inclined plane I is arranged on one side of the cotton dripping channel, mesh holes are formed in the inclined plane I, and fine impurities such as micro dust can fall into the main impurity discharging cavity through the mesh holes; the other side of the cotton dripping channel is provided with an inclined plane II opposite to the inclined plane I, the cross section area of a cotton flow conveyed into the cotton dripping channel by the vertical cotton conveying channel is gradually reduced from top to bottom, the cotton flow is compressed in the downward movement process, the air flow can be effectively discharged from mesh holes formed in the inclined plane I, tiny impurities such as tiny dust are driven to be discharged, and the effect of removing tiny dust is good.

According to the technical scheme, inner observation windows are arranged on the left inclined plane and the right inclined plane of the vertical cotton conveying channel respectively, the positions corresponding to the inner observation windows are arranged, and machine body observation windows are arranged on the left rack and the right rack of the dust removal mechanism respectively and are used for daily observation, cleaning and maintenance.

According to a further technical scheme, the cotton dripping channel observation window is arranged on the outer surface of the cotton dripping channel, which corresponds to the body of the dust removal mechanism, so that the effects of daily observation, cleaning and maintenance are achieved.

According to a further technical scheme, a fiber collecting port is arranged at an outlet below the cotton dripping channel, a cotton outlet is connected to an outlet at the lower part of the fiber collecting port, and the cotton outlet is externally connected with an air supplementing port, so that the cotton flow is prevented from being blocked at the fiber collecting port.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with prior art, have following beneficial effect:

(1) the S-shaped cotton conveying straight pipe arranged after the cotton pipe is arranged in the combined type dust particle removing machine has the function of transversely and uniformly distributing cotton flow, fine impurities such as dust particles and the like can be fully exposed after the cotton flow is transversely and uniformly distributed, the mesh plate can be impacted on the whole width, and the dust particle removing effect is good;

(2) the utility model discloses a combined type dust particle remover, the air current is controlled in this machine in the whole journey, there is no vortex region, the cotton flow is a rectangle cotton delivery straight pipe before striking the arc mesh board for the first time, can prevent to form the vortex region, and then prevent the discharge of tiny impurity such as tiny dust that the vortex region that forms is detained;

(3) in the combined type dust removing machine, the upper suction pipe of the cotton dripping channel and the lower suction pipe of the cotton dripping channel are combined into a impurity removing total suction pipe in the left frame of the dust removing mechanism, so that fine impurities such as dust can be sucked away together;

(4) the combined type dust particle remover of the utility model has the advantages that the sectional area of the vertical cotton conveying channel is gradually reduced from top to bottom, and the cotton flow is compressed in the downward movement process, so that the air flow can be effectively discharged, fine impurities such as dust particles are driven to be discharged, and the dust particle removing effect is good;

(5) the utility model discloses a combined type dust particle remover, the striking effect of the arc-shaped mesh plate, the compression effect of the vertical cotton conveying channel and the sieving effect of the lower inclined plane of the cotton dripping channel, three types of dust particle removing forms are combined together, and the dust particle removing effect is good;

(6) the composite type dust remover of the utility model has the advantages that the cotton outlet is externally connected with the air supply port, thereby preventing the cotton flow from being blocked at the fiber collecting port;

(7) the utility model discloses a combined type dust particle remover, wherein, two inclined planes of a vertical cotton conveying channel are provided with inner transparent observation windows, and the corresponding positions of a left frame and a right frame respectively correspond to the transparent observation windows of a machine body for daily observation, cleaning and maintenance;

(8) the utility model discloses a combined type removes micronic dust machine trickles cotton passageway transparent observation window and plays daily observation and clearance maintenance's effect.

Drawings

Fig. 1 is a schematic view of a working state structure of a combined type dust precipitator provided by the present invention;

FIG. 2 is a right side view of FIG. 1;

fig. 3 is the structural schematic diagram of the S-shaped cotton conveying straight pipe of the present invention.

In the figure: 1-cotton inlet; 2, entering a cotton pipe; 3-S-shaped straight cotton conveying pipes; 4-rectangular cotton conveying straight pipe; 5-arc mesh plate; 6-inner arc plate; 7-a main impurity discharging cavity; 8-vertical cotton conveying channel; 9-impurity discharging cavity on the cotton flowing channel; 10-a suction pipe on the cotton dripping channel; 11-a cotton flowing channel; 12-a fiber collection port; 13-a lower suction pipe of the cotton dripping channel; 14-a cotton outlet; 15-inner view window; 16-fuselage observation windows; 17-a cotton flowing channel observation window; 18-a right frame; 19-a left frame; 20-removing impurity and total suction pipe; 21-mesh holes; 31-an inlet of an S-shaped cotton conveying straight pipe; 32-S-shaped cotton conveying straight pipe outlet; 51-bending section I; 52-vertical section I; 61-bending section II; 62-vertical section II; 111-inclined plane i; 112-inclined plane ii.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings.

Example 1

The composite dust particle remover of the embodiment comprises a cotton inlet pipe 2, as shown in fig. 1, cotton flow containing fine impurities such as dust particles and the like, which is conveyed from a previous process, horizontally enters the cotton inlet pipe 2 through a cotton inlet 1, the cotton inlet pipe 2 is of a hollow tubular structure, and the cross section of the contact part of the cotton inlet pipe 2 and the cotton inlet 1 is circular; the cross section of one end of the cotton inlet pipe 2 far away from the cotton inlet 1 gradually tends to be square, and an S-shaped straight cotton conveying pipe 3 is fixedly connected with the square end of the cotton inlet pipe 2; as shown in fig. 3, the S-shaped straight cotton conveying pipe 3 comprises an S-shaped straight cotton conveying pipe inlet 31, and the S-shaped straight cotton conveying pipe inlet 31 is of a square structure, so that the cotton inlet pipe 2 can be adaptively communicated with the S-shaped straight cotton conveying pipe 3, the connection part of the cotton inlet pipe and the S-shaped straight cotton conveying pipe is ensured to be tightly matched, and the cotton flow can smoothly pass through the cotton inlet pipe and the S-shaped straight cotton conveying pipe; the S-shaped straight cotton conveying pipe 3 further comprises an S-shaped straight cotton conveying pipe outlet 32, the S-shaped straight cotton conveying pipe outlet 32 is also of a square structure and can be adaptively connected with the rectangular straight cotton conveying pipe 4 connected with the rear part of the S-shaped straight cotton conveying pipe outlet, so that cotton flow can smoothly pass through the S-shaped straight cotton conveying pipe outlet; the longitudinal urgent surface of the S-shaped straight cotton conveying pipe 3 is S-shaped, the S shape can increase the resistance of the cotton conveying pipeline, so that cotton flow can be better and uniformly distributed in the transverse direction, fine impurities such as dust particles and the like can be fully exposed on the whole working width, and a good foundation is laid for removing the dust particles; one end of the S-shaped straight cotton conveying pipe 3, which is far away from the cotton inlet pipe 2, is fixedly connected with a dust removal mechanism through a rectangular straight cotton conveying pipe 4, and the straight pipe has a flow equalizing effect and can drive the flow equalization of cotton, so that an eddy current region is prevented from being formed, and fine impurities such as micro-dust and the like retained in the eddy current region are discharged;

as shown in fig. 1, the dust removing mechanism comprises a vertical cotton conveying channel 8, an arc-shaped mesh plate 5 is arranged on one side of the vertical cotton conveying channel 8, the arc-shaped mesh plate 5 comprises a bending section i 51 and a vertical section i 52, mesh holes 21 are formed in the bending section i 51 and the vertical section i 52, fine impurities such as dust can fall into a main impurity discharging cavity 7 on the outer side of the arc-shaped mesh plate 5 through the mesh holes 21, a cotton dripping channel lower suction pipe 13 is arranged below the main impurity discharging cavity 7, cotton flow impacts the arc-shaped mesh plate 5 on the whole width after passing through a section of rectangular cotton conveying straight pipe 4, fine impurities such as dust can be removed through the mesh holes under the matching of dust filtration negative pressure, the fine impurities fall into the main impurity discharging cavity 7 and are sucked and removed by the cotton dripping channel lower suction pipe 13, and the impacted cotton flow can be thrown, scattered, lifted and fallen downwards by elasticity; an inner arc plate 6 opposite to the arc-shaped mesh plate 5 is arranged on the other side of the vertical cotton conveying channel 8, the inner arc plate 6 comprises a bending section II 61 and a vertical section II 62, mesh holes 21 are formed in the vertical section II 62 of the inner arc plate 6, fine impurities such as dust can fall into an upper impurity discharging cavity 9 of the cotton dripping channel on the outer side of the inner arc plate 6 through the mesh holes 21, an upper suction pipe 10 of the cotton dripping channel is arranged below the upper impurity discharging cavity 9 of the cotton dripping channel, cotton flow is conveyed downwards under the combined action of airflow conveying force and self gravity after entering the vertical cotton conveying channel 8, and the fine impurities such as dust can fall into the upper suction pipe 10 of the cotton dripping channel and a lower suction pipe 13 of the cotton dripping channel through the mesh holes 21;

as shown in fig. 2, the upper suction pipe 10 of the cotton dripping channel and the lower suction pipe 13 of the cotton dripping channel are combined into a total suction pipe 20 for removing impurities in the left frame 19 of the dust removing mechanism, and fine impurities such as dust in the upper suction pipe 10 of the cotton dripping channel and the lower suction pipe 13 of the cotton dripping channel can be sucked away together; a cotton flowing channel 11 is arranged below the vertical cotton conveying channel 8, an inclined plane I111 is arranged on one side of the cotton flowing channel 11, mesh holes 21 are formed in the inclined plane I111, fine impurities such as micro dust can fall into the main impurity discharging cavity 7 through the mesh holes 21, and as in the prior art, the inertia of cotton flowing over the mesh holes in the movement process of the vertical mesh plate 21 is very small, almost no effect of discharging the fine impurities exists, the inclined plane I111 is arranged to help discharging the fine impurities, so that the effect of removing the micro dust is good; an inclined surface II 112 opposite to the inclined surface I111 is arranged on the other side of the cotton dripping channel 11, the cross section area of cotton flow conveyed into the cotton dripping channel 11 by the vertical cotton conveying channel 8 is gradually reduced from top to bottom, the cotton flow is compressed in the downward movement process, airflow can be effectively discharged from mesh holes 21 formed in the inclined surface I111, tiny impurities such as tiny dust are driven to be discharged, and the effect of removing tiny dust is good; a fiber collecting port 12 is arranged at an outlet below the cotton dripping channel 11, a cotton outlet 14 is connected to an outlet at the lower part of the fiber collecting port 12, and the cotton outlet 14 is externally connected with an air supplementing port, so that the cotton flow is prevented from being blocked at the fiber collecting port 12.

In the embodiment, the arc-shaped mesh plate 21 has the effect of impacting cotton flow, the vertical cotton conveying channel 8 has the effect of compressing cotton flow, the inclined surface I111 of the cotton flowing channel 11 has the sieving effect, and the three types of micro-dust removing forms are combined together, so that the micro-dust removing effect is good;

further, inner observation windows 15 are respectively arranged on the left and right inclined planes of the vertical cotton conveying channel 8, and machine body observation windows 16 are respectively arranged on a left frame 19 and a right frame 18 of the dust removing mechanism at positions corresponding to the inner observation windows 15 for daily observation, cleaning and maintenance;

furthermore, the cotton dripping channel 11 is also provided with a cotton dripping channel observation window corresponding to the outer surface of the machine body of the dust removal mechanism, so that the effects of daily observation, cleaning and maintenance are achieved.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides a combined type removes micronic dust machine, is including going into cotton pipe (2), and the cotton flow that contains tiny impurity such as micronic dust that is carried by the preceding process is gone into cotton pipe (2) through going into cotton mouthful (1) level entering, it is hollow tubular structure, its characterized in that to go into cotton pipe (2): the cross section of the contact part of the cotton inlet pipe (2) and the cotton inlet (1) is circular, and the cross section of one end of the cotton inlet pipe (2) far away from the cotton inlet (1) gradually tends to be square; go into cotton pipe (2) and keep away from defeated straight cotton pipe (3) of one end fixedly connected with S shape of income cotton mouth (1), the vertical designable face shape of defeated straight cotton pipe (3) of S shape is the S-shaped, defeated cotton pipe (3) of keeping away from the one end of going into cotton pipe (2) of S shape is through defeated cotton straight tube (4) fixedly connected with dust removal mechanism of rectangle.

2. The composite dust collector as claimed in claim 1, wherein: the S-shaped straight cotton conveying pipe (3) comprises an S-shaped straight cotton conveying pipe inlet (31) and an S-shaped straight cotton conveying pipe outlet (32), wherein the S-shaped straight cotton conveying pipe inlet (31) is of a square structure and can be adaptively connected with the cotton inlet pipe (2) connected with the front part of the S-shaped straight cotton conveying pipe inlet; the outlet (32) of the S-shaped cotton conveying straight pipe is also of a square structure and can be connected with the rectangular cotton conveying straight pipe (4) connected with the rear part of the S-shaped cotton conveying straight pipe in an adaptive mode.

3. The composite dust collector as claimed in claim 1, wherein: dust removal mechanism includes vertical defeated cotton passageway (8), vertical defeated cotton passageway (8) one side is provided with arc mesh board (5), arc mesh board (5) are including curved section I (51) and vertical section I (52), mesh hole (21) have all been seted up on curved section I (51) and vertical section I (52), tiny impurity such as micronic dust can see through mesh hole (21) and fall into in the main miscellaneous chamber (7) of arranging in the arc mesh board (5) outside, main miscellaneous chamber (7) below of arranging is provided with and trickles straw (13) under the cotton passageway.

4. The composite dust collector as claimed in claim 3, wherein: the cotton dropping device is characterized in that an inner arc plate (6) opposite to the arc-shaped mesh plate (5) is arranged on the other side of the vertical cotton conveying channel (8), the inner arc plate (6) comprises a bending section II (61) and a vertical section II (62), mesh holes (21) are formed in the vertical section II (62) of the inner arc plate (6), fine impurities such as dust can fall into a cotton dropping channel upper impurity discharging cavity (9) in the outer side of the inner arc plate (6) through the mesh holes (21), and a cotton dropping channel upper suction pipe (10) is arranged below the cotton dropping channel upper impurity discharging cavity (9).

5. The composite dust collector as claimed in claim 4, wherein: the upper suction pipe (10) of the cotton dripping channel and the lower suction pipe (13) of the cotton dripping channel are combined into a trash removal total suction pipe (20) in a left frame (19) of the dust removal mechanism.

6. The composite dust collector as claimed in claim 4, wherein: a cotton dripping channel (11) is arranged below the vertical cotton conveying channel (8), an inclined plane I (111) is arranged on one side of the cotton dripping channel (11), mesh holes (21) are formed in the inclined plane I (111), and fine impurities such as micro dust can fall into the main impurity discharging cavity (7) through the mesh holes (21); and an inclined surface II (112) opposite to the inclined surface I (111) is arranged on the other side of the cotton flowing channel (11).

7. The composite dust collector as claimed in claim 6, wherein: an inner observation window (15) is respectively arranged on the left inclined surface and the right inclined surface of the vertical cotton conveying channel (8), and a machine body observation window (16) is respectively arranged on the left rack (19) and the right rack (18) of the dust removing mechanism at the position corresponding to the inner observation window (15).

8. The composite dust collector as claimed in claim 6, wherein: and a cotton dripping channel observation window is arranged on the outer surface of the cotton dripping channel (11) corresponding to the body of the dust removal mechanism.

9. The composite dust collector as claimed in claim 8, wherein: a fiber collecting port (12) is arranged at an outlet below the cotton dripping channel (11), and a cotton outlet (14) is connected at an outlet at the lower part of the fiber collecting port (12).

10. The composite dust collector as claimed in claim 9, wherein: the cotton outlet (14) is externally connected with an air supplement opening.

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