CN214115808U - Cotton machine coiler flows convenient to clearance - Google Patents

Abstract

The utility model discloses a flow cotton machine coiler convenient to clearance, which comprises a chassis, the upper portion of chassis is provided with arc-shaped fixed blocks by both sides, and the upper portion of chassis is provided with coiler shell in the middle, the inner side of coiler shell is provided with three groups of air nozzles by the rear end, and the inner side of coiler shell is provided with an air suction pipe by the front end, the inner portion of coiler shell is provided with a bottom frame in the middle, and the upper portion of bottom frame is provided with coiler inner shell, the inner portion of coiler inner shell is provided with a cotton inlet pipeline in the middle, and one side of cotton inlet pipeline is provided with a curve alloy pipe by the upper end, the inner portion of chassis is provided with a vibrating motor in the middle; a flow cotton machine coiler convenient to clearance, can effectively clear up the inside of coiler, reduce wool top, stifled strip scheduling problem, improve the quality of rolling up the strip, secondly can effectively fix the coiler, and the dismantlement and the installation of the coiler of being convenient for, the simple operation makes the process of maintenance and change simpler.

Description

Cotton machine coiler flows convenient to clearance

Technical Field

The utility model relates to a can coiler field, in particular to flow cotton machine can coiler convenient to clearance.

Background

The coiler is a device for stripping cotton rolls, removing impurities, pressing the cotton rolls into strips, and then coiling the strips into a cotton sliver can, and the coiler can be divided into two, three and multiple automatic can-changing coilers according to the number of the cotton slivers, and is widely applied to the weaving industry, so that the coiler of the cotton flowing machine has high practicability and brings great convenience to the weaving industry;

the existing coiler of the cotton flow machine has certain defects to be improved when in use, and firstly, the existing coiler of the cotton flow machine cannot effectively clean the inside of the coiler, so that the problems of wool tops, strip blockage and the like are easy to occur, and even the problems of inclined pipe deformation of the coiler, cracking of a welding opening and the like caused by the strip blockage occur; secondly, the can coiler of the existing cotton flowing machine cannot be effectively fixed, the can coiler is not convenient to disassemble and assemble, the operation is difficult, and the maintenance and replacement processes are complicated.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a flow cotton machine coiler convenient to clearance, can effectively solve but there is certain weak point to be improved when current flow cotton machine coiler uses, first of all, current flow cotton machine coiler can't effectively clear up the inside of coiler, easy emergence wool top, stifled strip scheduling problem, even take place to cause the coil pipe chute to warp because of stifled strip, weld the mouth problem such as ftracture; secondly, the can coiler of the existing cotton flowing machine cannot be effectively fixed, the can coiler is not convenient to disassemble and assemble, the operation is difficult, and the maintenance and replacement processes are complex.

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

a flow cotton machine coiler convenient to clean comprises a chassis, wherein arc-shaped fixed blocks are arranged on the upper portion of the chassis close to two sides, a coiler shell is arranged in the middle of the upper portion of the chassis, three groups of air nozzles are uniformly arranged on the inner side of the coiler shell close to the rear end, an air suction pipe is arranged on the inner side of the coiler shell close to the front end, a bottom frame is arranged in the middle of the coiler shell, a coiler inner shell is arranged on the upper portion of the bottom frame, a cotton inlet pipeline is arranged in the middle of the coiler inner shell, and a curve alloy pipe is arranged on one side of the cotton inlet pipeline close to the upper end;

the inside on chassis is provided with shock dynamo between two parties, and shock dynamo's top is provided with the connecting axle, and the top of connecting axle is provided with the reciprocating sieve, and the inside both sides on chassis lean on the upper end all to have seted up the spout, and the inside one end of spout is provided with compression spring, and compression spring's one end is provided with the slider, and one side of arc fixed block is provided with the fixture block between two parties.

As a further aspect of the utility model, the air nozzle is the setting of forty-five degree angle inclinations with the can coiler shell, and the front portion of air nozzle has evenly seted up five gas pockets, the air nozzle all run through the inside and outside of can coiler shell with the breathing pipe and with can coiler shell fixed connection.

As a further scheme of the utility model, the cavity that matches with the shock dynamo specification is seted up to the inside on chassis, and shock dynamo's bottom is provided with vibration rubber pad, and the both ends of connecting axle are respectively in reciprocating sieve and shock dynamo fixed connection.

As a further scheme of the utility model, the reciprocating sieve is the setting of circular tilt state, and the size of reciprocating sieve and the internal diameter phase-match of advancing cotton pipeline, and the last lower extreme that runs through the reciprocating sieve has evenly seted up a plurality of groups and has perforated, and the bottom of chassis is built on stilts state setting.

As a further aspect of the utility model, the height of reciprocating sieve is the same with the orificial height of curve alloy pipe, and the inside of curve alloy pipe is the heliciform setting, and the curve alloy pipe runs through the upper and lower part on chassis and is connected with the bottom slope on chassis.

As a further scheme of the utility model, the top fixed connection of arc fixed block and slider, slider and spout joint, the draw-in groove of matching with the fixture block size is offered by the bottom to the periphery of can coiler shell.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses a through setting up vibrating motor, the reciprocating sieve, curve alloy pipe cooperation air nozzle, breathing pipe and advance cotton pipeline, when cotton fiber gets into the cotton pipeline inside, vibrating motor drives the connecting axle vibrations under the effect of external electric connection and drives the reciprocating sieve and produce vibrations, the reciprocating sieve can vibrate cotton fiber in advancing cotton pipeline inside, the dust that cotton fiber carried can drop to the bottom of chassis from the perforation of reciprocating sieve through vibrations, the air nozzle is blown to the inside of coiler shell under the effect of being connected with external pneumatic equipment, utilize the angle of slope to blow dust, miscellaneous cotton etc. up, then the breathing pipe is discharged to the dust of raising, miscellaneous cotton etc. suction under the effect of being connected with external suction equipment, the cotton fiber after the sieve is in the process of vibrations even entering curve alloy intraductal in proper order, utilize the spiral curve setting of curve alloy pipe can make the pressure that silver and pipeline produced reduce as far as possible, the device can effectively clean the interior of the can coiler, can reduce the problems of wool tops, blockage and the like, improves the quality of the coiled strips, and reduces the probability of deformation of a coil inclined tube, cracking of a welding opening and the like caused by the blockage;

through setting up compression spring, the slider, spout and fixture block cooperation arc fixed block and can coiler shell, pulling arc fixed block makes the arc fixed block drive the slider along spout horizontal motion, make compression spring be compression state, drive fixture block horizontal motion simultaneously, make the fixture block break away from the draw-in groove of can coiler shell, then take out can with the can coiler, vice versa with the same principle, compression spring utilizes the resilience force that resets to promote the slider and drives arc fixed block motion messenger fixture block and draw-in groove joint clamp tightly, this setting can effectively be fixed the can coiler, and the dismantlement and the installation of the can coiler of being convenient for, and the simple operation, make the process of maintenance and change simpler.

Drawings

FIG. 1 is a schematic view of the whole structure of a coiler of a flow cotton machine convenient for cleaning;

FIG. 2 is a cross-sectional view of the whole structure of the coiler of the cotton flow machine convenient for cleaning of the utility model;

fig. 3 is an enlarged view of the area a of the coiler of the cotton flow machine convenient for cleaning.

In the figure: 1. a chassis; 2. an arc-shaped fixed block; 3. a can coiler housing; 4. an air nozzle; 5. a chassis; 6. a can coiler inner shell; 7. a cotton inlet pipeline; 8. a curved alloy tube; 9. an air intake duct; 10. a connecting shaft; 11. vibrating screen; 12. vibrating a motor; 13. a compression spring; 14. a slider; 15. a clamping block; 16. a chute.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-3, a flow cotton machine coiler convenient to clean comprises a chassis 1, wherein arc-shaped fixed blocks 2 are arranged on two sides of the upper portion of the chassis 1, a coiler shell 3 is arranged in the middle of the upper portion of the chassis 1, three groups of air nozzles 4 are uniformly arranged on the inner side of the coiler shell 3 close to the rear end, an air suction pipe 9 is arranged on the inner side of the coiler shell 3 close to the front end, a bottom frame 5 is arranged in the middle of the inner portion of the coiler shell 3, a coiler inner shell 6 is arranged on the upper portion of the bottom frame 5, a cotton inlet pipeline 7 is arranged in the middle of the inner portion of the coiler shell 6, and a curved alloy pipe 8 is arranged on one side of the cotton inlet pipeline 7 close to the upper end;

the inside of chassis 1 is provided with shock dynamo 12 between two parties, and the top of shock dynamo 12 is provided with connecting axle 10, and the top of connecting axle 10 is provided with reciprocating sieve 11, and the inside both sides of chassis 1 lean on the upper end all to have seted up spout 16, and the inside one end of spout 16 is provided with compression spring 13, and compression spring 13's one end is provided with slider 14, and one side of arc fixed block 2 is provided with fixture block 15 between two parties.

Air nozzle 4 is the inclined setting of forty-five degrees angle with can coiler shell 3, and five gas pockets have evenly been seted up to the front portion of air nozzle 4, and air nozzle 4 all runs through can coiler shell 3's the inside and outside and with can coiler shell 3 fixed connection with breathing pipe 9, is convenient for clear up the dust and the miscellaneous cotton of can coiler shell 3 inside.

The cavity that matches with shock dynamo 12 specification is seted up to the inside on chassis 1, and the bottom of shock dynamo 12 is provided with the shock-absorbing rubber pad, and the both ends of connecting axle 10 are respectively in reciprocating sieve 11 and shock dynamo 12 fixed connection, can play the guard action to shock dynamo 12.

Reciprocating sieve 11 is the setting of circular tilt state, and reciprocating sieve 11's size and the internal diameter phase-match of advancing cotton pipeline 7, and the upper and lower end that runs through reciprocating sieve 11 has evenly seted up a plurality of groups and has perforated, and the bottom of chassis 5 is built on stilts state setting, utilizes reciprocating sieve 11 can make dust, miscellaneous cotton etc. of cotton fibre the inside drop, and can prevent orificial jam.

The height of the vibrating screen 11 is equal to the height of the pipe orifice of the curved alloy pipe 8, the inner part of the curved alloy pipe 8 is spirally arranged, the curved alloy pipe 8 penetrates through the upper part and the lower part of the chassis 1 and is obliquely connected with the bottom of the chassis 1, pressure generated by a cotton sliver and the pipe wall can be reduced as far as possible, and therefore the problems of wool tops, strip blockage and the like are solved.

The arc-shaped fixing block 2 is fixedly connected with the top end of the sliding block 14, the sliding block 14 is connected with the sliding groove 16 in a clamping mode, a clamping groove matched with the clamping block 15 in size is formed in the periphery of the can coiler shell 3 close to the bottom, the can coiler can be conveniently and rapidly disassembled and assembled, and the maintenance and replacement process is simpler.

It should be noted that the utility model relates to a flow cotton machine coiler convenient to clearance, when using, at first, the cotton fiber layer that will send through the front process opens and combs and the edulcoration, make all cubic cotton circles that are curling become the single fiber form that basically straightens, when this cotton fiber entered into cotton pipeline 7 inside, vibrating motor 12 drove connecting axle 10 vibrations under the effect of external electric connection and thereby drive shale shaker 11 and produce vibrations, shale shaker 11 can vibrate the cotton fiber of entering cotton pipeline 7 inside, the dust that the cotton fiber carried can drop to the bottom of chassis 5 from the perforation of shale shaker 11 through vibrations, air nozzle 4 jets under the effect of being connected with external pneumatic equipment to the inside of coiler shell 3, utilize the angle of slope to blow up dust, miscellaneous cotton etc. then breathing pipe 9 is to the dust that rises under the effect of being connected with external air suction equipment, The cotton fibers after being screened sequentially and uniformly enter the curved alloy pipe 8 in the vibration process, the pressure generated by the cotton sliver and the pipeline can be reduced as much as possible by utilizing the spiral curve arrangement of the curved alloy pipe 8, so that the problems of wool tops, strip blockage and the like are reduced, the cotton sliver coiled by the internal cleaning work of the coiler is discharged from the bottom of the chassis 1 through the curved alloy pipe 8, when the coiler needs to be maintained or replaced, the arc-shaped fixed block 2 is pulled to enable the arc-shaped fixed block 2 to drive the sliding block 14 to horizontally move along the sliding groove 16, the compression spring 13 is in a compression state, the clamping block 15 is simultaneously driven to horizontally move, the clamping block 15 is separated from the clamping groove of the coiler shell 3, then the coiler can be taken out, and vice versa, the compression spring 13 pushes the sliding block 14 to drive the arc-shaped fixed block 2 to move to enable the clamping block 15 to be clamped and clamped, thereby completing the disassembly and assembly process of the can coiler.

The utility model discloses a through setting up shock dynamo 12, reciprocating sieve 11, curve alloy pipe 8 cooperation air nozzle 4, breathing pipe 9 and advance cotton pipeline 7, when cotton fiber gets into advance inside cotton pipeline 7, reciprocating dynamo 12 drives connecting axle 10 vibrations under the effect of external electric connection and drives reciprocating sieve 11 and produce vibrations, reciprocating sieve 11 can shake the cotton fiber of advancing inside cotton pipeline 7, the dust that cotton fiber carried can drop to the bottom of chassis 5 from reciprocating sieve 11's perforation through vibrations, air nozzle 4 jets the inside of coiler shell 3 under the effect of being connected with external pneumatic equipment, utilize the angle of slope to blow dust, miscellaneous cotton etc. up, then breathing pipe 9 is to the dust of raising, miscellaneous cotton etc. suction discharge under the effect of being connected with external suction equipment, the cotton fiber after the sieve is in the process of vibrations even entering curve alloy pipe 8 inside in proper order, the spiral curve arrangement of the curve alloy pipe 8 can reduce the pressure generated by the cotton sliver and the pipeline as much as possible, so that the problems of wool tops, strip blockage and the like are reduced, the arrangement can effectively clean the interior of the coiler, meanwhile, the problems of the wool tops, the strip blockage and the like can be reduced, the quality of the coiled strip is improved, and the probability of deformation of the inclined pipe of the coiler, cracking of a welding opening and the like caused by the strip blockage is reduced; through setting up compression spring 13, slider 14, spout 16 and fixture block 15 cooperation arc fixed block 2 and can coiler shell 3, pulling arc fixed block 2 makes arc fixed block 2 drive slider 14 along 16 horizontal motions of spout, make compression spring 13 be compression state, drive fixture block 15 horizontal motion simultaneously, make fixture block 15 break away from the draw-in groove of can coiler shell 3, then take out the can coiler, vice versa with the reason, compression spring 13 utilizes the resilience force that resets to promote slider 14 and drive the 2 motion of arc fixed block and make fixture block 15 press from both sides with the draw-in groove joint tight, this setting can effectively be fixed the can coiler, and be convenient for the dismantlement and the installation of can coiler, and the simple operation, make the process of maintenance and change simpler.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a flow cotton machine coiler convenient to clearance which characterized in that: the improved coiler mandrel comprises a base plate (1), arc-shaped fixed blocks (2) are arranged on the upper portion of the base plate (1) close to two sides, a coiler shell (3) is arranged in the middle of the upper portion of the base plate (1), three groups of air nozzles (4) are uniformly arranged on the inner side of the coiler shell (3) close to the rear end, an air suction pipe (9) is arranged on the inner side of the coiler shell (3) close to the front end, a bottom frame (5) is arranged in the middle of the inner portion of the coiler shell (3), a coiler inner shell (6) is arranged on the upper portion of the bottom frame (5), a cotton inlet pipeline (7) is arranged in the middle of the inner portion of the coiler inner shell (6), and a curve alloy pipe (8) is arranged on one side of the cotton inlet pipeline (7) close to the upper end;

the vibrating screen is characterized in that a vibrating motor (12) is arranged in the middle inside the chassis (1), a connecting shaft (10) is arranged at the top end of the vibrating motor (12), a vibrating screen (11) is arranged at the top end of the connecting shaft (10), sliding grooves (16) are formed in the two sides of the inside of the chassis (1) by means of the upper ends of the two sides of the inside of the chassis (1), a compression spring (13) is arranged at one end of the inside of each sliding groove (16), a sliding block (14) is arranged at one end of each compression spring (13), and a clamping block (15) is arranged in the middle on one side of each arc-shaped fixing block (2).

2. The opener coiler of claim 1, wherein said coiler is further characterized by: air nozzle (4) and can coiler shell (3) are the inclined setting of forty-five degrees angle, and the front portion of air nozzle (4) has evenly seted up five gas pockets, and air nozzle (4) and breathing pipe (9) all run through the inside and outside of can coiler shell (3) and with can coiler shell (3) fixed connection.

3. The opener coiler of claim 1, wherein said coiler is further characterized by: the vibration screen is characterized in that a cavity matched with the vibration motor (12) in specification is formed in the chassis (1), a shock absorption rubber pad is arranged at the bottom of the vibration motor (12), and two ends of the connecting shaft (10) are fixedly connected with the vibration screen (11) and the vibration motor (12) respectively.

4. The opener coiler of claim 1, wherein said coiler is further characterized by: reciprocating sieve (11) are the setting of circular tilt state, and the size of reciprocating sieve (11) and the internal diameter phase-match of advancing cotton pipeline (7), run through reciprocating sieve (11) the upper and lower end and evenly seted up a plurality of groups and perforate, and the bottom of chassis (5) is built on stilts state setting.

5. The opener coiler of claim 1, wherein said coiler is further characterized by: the height of the vibrating screen (11) is equal to that of the pipe orifice of the curve alloy pipe (8), the inside of the curve alloy pipe (8) is spirally arranged, and the curve alloy pipe (8) penetrates through the upper portion and the lower portion of the chassis (1) and is obliquely connected with the bottom of the chassis (1).

6. The opener coiler of claim 1, wherein said coiler is further characterized by: arc fixed block (2) and the top fixed connection of slider (14), slider (14) and spout (16) joint, the periphery of can coiler shell (3) leans on the bottom to offer the draw-in groove that matches with fixture block (15) size.

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