CN111252606B - Cloth conveying roller structure with heat dissipation and dust removal functions - Google Patents

Abstract

The invention provides a cloth conveying roller structure with a heat dissipation and dust removal function, which comprises a mounting plate, a mounting frame, two working units, two secondary dust removal units, two conveying units and a telescopic frame, wherein the mounting plate is arranged on the mounting frame; the invention can solve the problems that the following components are often existed in heat dissipation and dust removal: a. the natural cooling time is long, and the method is not suitable for flow line production; b. when putting the cotton flannel and removing dust at table surface, can only remove dust to the cotton flannel upper surface, inefficiency beats and causes the damage to the fine hair surface when being of a specified duration easily, may beat the fine hair flat simultaneously, has reduced the third dimension of cotton flannel, because probably there are some debris on the mesa, when removing dust with its turn-over, the one side of having handled probably receives the scheduling problem once more after contacting with the mesa.

Description

Cloth conveying roller structure with heat dissipation and dust removal functions

Technical Field

The invention relates to the technical field of cloth processing, in particular to a cloth conveying roller structure with a heat dissipation and dust removal function.

Background

The cloth is a general name of various fabrics, namely the cloth, wherein the flannelette belongs to one kind of cloth, the flannelette refers to a cotton fabric with a rich and smooth villous surface after napping, and a pinhole napping process is performed on the surface of the cloth to generate more villi, so that the cloth is strong in stereoscopic impression, high in glossiness and soft and thick to touch; after to cotton flannel machine-shaping, the cotton flannel residual heat after the processing does not move back, and because fine hair is more on the cotton flannel, can hide debris such as some dust, pompon, need dispel the heat to the cotton flannel and remove dust, is that the staff places the cotton flannel and carries out natural cooling on table surface usually to get rid of debris through patting, the mode of carding, however, this kind of mode often has following problem:

a. the natural cooling time is long, and the method is not suitable for flow line production; b. when the flannelette is placed on a working table for dedusting, only the upper surface of the flannelette can be dedusted, the efficiency is low, the surface of the flannelette is easily damaged after long-time beating, meanwhile, the flannelette can be flattened, the stereoscopic impression of the flannelette is reduced, and because sundries possibly exist on the table, when the flannelette is turned over for dedusting, the treated surface of the flannelette is possibly polluted again after being contacted with the table;

in order to improve the efficiency of heat dissipation and dust removal of flannelette, the invention provides a cloth conveying roller structure with the heat dissipation and dust removal functions.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme that the cloth conveying roller structure with the heat dissipation and dust removal functions comprises a mounting plate, a mounting frame, two working units, two secondary dust removal units, two conveying units and a telescopic frame; the mounting panel about both ends install two transport unit, the mid-mounting of mounting panel has the expansion bracket, two secondary dust removal units are installed at the upper and lower both ends of expansion bracket, the expansion bracket is equipped with the mounting bracket with being located between the transport unit that the mounting panel right-hand member set up, two work units are installed at the upper and lower both ends of mounting bracket, wherein:

the working unit comprises a working frame, an air delivery pump, an air cavity, a viscous frame and cleaning bristles, the working frame is arranged on the mounting frame, the air cavity is formed in the working frame, the air cavity and the air delivery pump are communicated, the air delivery pump is arranged on the outer wall of the working frame, the cleaning bristles are arranged on the inner end of the air cavity, and the viscous frame is embedded in the outer side of the working frame; the air pump blows out the cold air from the air cavity, so that dust on two sides of the lint in the conveying state is blown up, the dust is adhered to the viscous frame, and the cleaning bristles play a role in pre-scraping impurities such as lint balls and the like on the lint in the conveying state.

The secondary dust removal unit comprises a rotating shaft, a rotating roller, a driving mechanism, a cavity column, a connecting pipe, an air suction pump, a buckling plate and an impurity removal mechanism, wherein the rotating shaft is installed at the rear end of the rotating roller and is connected with a telescopic frame through a bearing; the two driving mechanisms drive the two rotating shafts to rotate in opposite directions (the rotating roller arranged at the upper end of the telescopic frame rotates anticlockwise), impurities such as dust and pompon on the lint are absorbed through the suction pump, and the absorbed impurities such as the dust and the pompon are intercepted and adhered by the impurity removing mechanism.

The impurity removing mechanism comprises a ventilation cylinder, a U-shaped frame, a connecting column, a multilayer absorption net, an installation block, an elastic telescopic rod and an impurity removing hook, the ventilation cylinder is connected with the circular groove in a threaded fit mode, the U-shaped frame is installed inside the buckling plate, the U-shaped frame is connected with the multilayer absorption net through the connecting column, the multilayer absorption net is located in the ventilation cylinder, the installation block is installed inside the ventilation cylinder, and the installation block is connected with the impurity removing hook through the elastic telescopic rod; the sucked impurities such as dust, pompon and the like enter the multi-layer type absorption net from the ventilation cylinder and are intercepted by the multi-layer type absorption net, and the impurities such as heavier pompompons and the like which are difficult to suck are stuck on the impurity removing hook for removal.

The multilayer absorption net comprises a working sponge a, a steel wire mesh layer b and a blocking sponge c, the working sponge a is adhered to the outer side of the steel wire mesh layer b, the blocking sponge c is arranged on the inner side of the steel wire mesh layer b, and an elastic telescopic rod is connected between the steel wire mesh layer b and the mounting block; the dust and the lint balls sucked into the sponge are mainly collected in the steel wire mesh layer b due to the fact that the gaps of the blocking sponge c are small, the dust and the lint balls sucked into the sponge are mostly collected in the steel wire mesh layer b, steel wires in the steel wire mesh layer b are interwoven, the dust and the lint balls sucked into the sponge are difficult to automatically drop, and the situation that the dust and the lint balls are intercepted and are prevented from dropping out again is guaranteed due to the arrangement of the multi-layer absorption net.

Preferably; the inner wall of the adhesive rack is adhered with a double-sided adhesive layer, the double-sided adhesive layer adheres to dust, pompon and other sundries, meanwhile, the double-sided adhesive layer can be replaced at any time, and the outside of the adhesive rack is locked on the working rack through bolts.

Preferably; the driving mechanism comprises a motor, a circular plate, a notched disc, a cylindrical pin and a grooved wheel, the motor is installed on the telescopic frame, the circular plate is installed on an output shaft of the motor, the notched disc is installed on the lower side of the front end of the circular plate, the cylindrical pin is installed on the upper side of the front end of the circular plate, the lower end of the notched disc is attached to the grooved wheel, and the grooved wheel is installed on the rotating shaft; drive the plectane through the motor and rotate, breach disc, cylindric lock and sheave cooperate and carry out the sheave and rotate to drive the live-rollers and carry out angular rotation such as intermittent type formula, the design of sheave motion has guaranteed that every group edulcoration mechanism can both stop a period at the cotton flannel surface and remove dust and go miscellaneous, can guarantee again that the volume of debris such as absorptive dust is equal relatively in every group edulcoration mechanism, changes when making things convenient for multiunit edulcoration mechanism.

Preferably; the front end of the cavity column is connected with the rear end of the connecting pipe in a rotation fit mode, the rotation fit connection ensures that the air suction pump does not rotate synchronously when the rotating roller rotates, the outer wall of the rear end of the connecting pipe is provided with a rubber sealing layer, the sealing performance is improved, and the outer wall of the connecting pipe is uniformly provided with a rotating handle along the circumferential direction of the outer wall of the connecting pipe.

Preferably; the rotating roller is internally provided with a cavity, embedded grooves are evenly formed in the rotating roller along the circumferential direction of the rotating roller, the buckling plate is buckled into the embedded grooves, the buckling plate and the rotating roller are connected through bolts, the buckling plate and the rotating roller are detachably connected, and circular grooves are evenly formed in the buckling plate.

Preferably; drilling holes are uniformly formed in the working sponge a.

Preferably; the edulcoration collude and to hook-like structure, conveniently collude heavier debris, and the flexure point outer wall that the edulcoration colluded pastes in viscidity double faced adhesive tape, glues the debris that collude, colludes when the debris of adhesion is more when the edulcoration, changes in unison viscidity double faced adhesive tape.

Preferably; the conveying unit comprises a conveying frame and two electric conveying rollers, the conveying frame is arranged on the mounting plate, and the two electric conveying rollers are arranged at the upper end and the lower end of the conveying frame; the flannelette is driven to be conveyed leftwards by the two electric conveying rollers.

Advantageous effects

The invention simultaneously cools and dissipates the heat of the two sides of the flannelette by blowing, removes and absorbs dust, lint balls and other sundries on the surface of the flannelette in an integrated mode of viscosity and air suction, does not need manual single-side beating and turning treatment, improves the stereoscopic impression of the flannelette and reduces the surface damage rate of the flannelette;

the flannelette cooling system carries out double-sided cold air cooling on flannelette through the working unit, does not need to be placed on a table top for natural cooling, and is suitable for flow line production;

thirdly, impurities such as dust, lint balls and the like are removed in a targeted mode through the secondary dust removal unit, the easily absorbed impurities are subjected to air suction treatment, the impurities at the deep layer of the fluff and the heavier impurities are removed in a mode of hooking and sticking the impurities by an impurity removal hook, and the dust removal efficiency is improved in a double-sided synchronous dust removal mode.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is an overall cross-sectional view of the present invention;

FIG. 2 is a schematic structural view of the mounting plate, the mounting frame and the secondary dust removal unit of the present invention;

FIG. 3 is a cross-sectional view of FIG. 2 of the present invention;

FIG. 4 is a schematic structural view of a connecting tube of the present invention;

FIG. 5 is a cross-sectional view of the rotating roller, the snap-in plate and the trash removal mechanism of the present invention;

FIG. 6 is an enlarged view of the invention in section X of FIG. 5;

fig. 7 is a schematic diagram of the operation of the invention for heat dissipation and dust removal of lint.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the operator or the convention. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 7, a cloth conveying roller structure with heat dissipation and dust removal functions comprises a mounting plate 1, a mounting frame 2, two working units 3, two secondary dust removal units 4, two conveying units 5 and a telescopic frame 6; mounting panel 1 about both ends install two conveying unit 5, the mid-mounting of mounting panel 1 has expansion bracket 6, two secondary dust removal unit 4 are installed at the upper and lower both ends of expansion bracket 6, be equipped with mounting bracket 2 between expansion bracket 6 and the conveying unit 5 that is located the setting of 1 right-hand member of mounting panel, two work units 3 are installed at the upper and lower both ends of mounting bracket 2, wherein:

the working unit 3 comprises a working frame 31, an air transmission pump 32, an air cavity 33, a viscous frame 34 and cleaning bristles 35, wherein the working frame 31 is arranged on the mounting frame 2, the air cavity 33 is formed in the working frame 31, the air cavity 33 is communicated with the air transmission pump 32, the air transmission pump 32 is arranged on the outer wall of the working frame 31, the cleaning bristles 35 are arranged at the inner end of the air cavity 33, and the viscous frame 34 is embedded in the outer side of the working frame 31; the air pump 32 blows out the cold air from the air chamber 33, so that the dust on the two sides of the lint in the conveying state is blown up, and is adhered to the viscous frame 34, and the cleaning bristles 35 play a role in pre-scraping impurities such as lint balls on the lint in the conveying state.

The secondary dust removal unit 4 comprises a rotating shaft 41, a rotating roller 42, a driving mechanism 43, a cavity column 44, a connecting pipe 45, an air suction pump 46, a buckling plate 47 and an impurity removal mechanism 48, wherein the rotating shaft 41 is installed at the rear end of the rotating roller 42, the rotating shaft 41 is connected with the telescopic frame 6 through a bearing, the driving mechanism 43 is installed on the rotating shaft 41, the cavity column 44 is installed at the front end of the rotating roller 42, the cavity column 44 is connected with the telescopic frame 6 through a bearing, the front end of the cavity column 44 is connected with the air suction pump 46 through the connecting pipe 45, the air suction pump 46 is installed on the outer wall of the telescopic frame 6, the buckling plate 47 is uniformly embedded in the rotating roller 42 along the circumferential direction of the rotating roller, and the impurity removal mechanism 48 is uniformly installed on; the two driving mechanisms 43 drive the two rotating shafts 41 to rotate in opposite directions (the rotating roller 42 arranged at the upper end of the telescopic frame 6 rotates anticlockwise), impurities such as dust and lint balls on the lint are absorbed by the suction pump 46, and the absorbed impurities such as dust and lint balls are intercepted and adhered by the impurity removing mechanism 48.

The trash removal mechanism 48 comprises a ventilation cylinder 481, a U-shaped frame 482, a connecting column 483, a multi-layer absorption net 484, a mounting block 485, an elastic telescopic rod 486 and a trash removal hook 487, the ventilation cylinder 481 is connected with a circular groove in a threaded fit mode, the U-shaped frame 482 is mounted inside the buckling plate 47, the U-shaped frame 482 is connected with the multi-layer absorption net 484 through the connecting column 483, the multi-layer absorption net 484 is located in the ventilation cylinder 481, the mounting block 485 is mounted inside the ventilation cylinder 481, and the mounting block 485 is connected with the trash removal hook 487 through the elastic telescopic rod 486; the sucked impurities such as dust, lint, etc. enter from the air tube 481 and are intercepted in a multi-layer manner by the multi-layer absorbing net 484, and the impurities such as heavy lint, etc. which are difficult to suck, are adhered to the impurity removing hooks 487 to be removed.

The multi-layer absorbing net 484 comprises a working sponge 484a, a steel wire mesh layer 484b and a blocking sponge 484c, the working sponge 484a is adhered to the outer side of the steel wire mesh layer 484b, the blocking sponge 484c is installed on the inner side of the steel wire mesh layer 484b, and an elastic telescopic rod 486 is connected between the steel wire mesh layer 484b and a mounting block 485; the sucked dust, lint balls and other sundries enter from the drilled holes in the working sponge 484a, most of the sucked dust, lint balls and other sundries are concentrated in the steel wire mesh layer 484b due to the small gap of the blocking sponge 484c, the sucked dust, lint balls and other sundries are difficult to automatically drop due to the fact that steel wires in the steel wire mesh layer 484b are interwoven, and the arrangement of the multi-layer absorbing net 484 ensures that the sundries are intercepted and meanwhile the sundries are prevented from dropping out again.

The inner wall of the adhesive frame 34 is adhered with a double-sided adhesive layer, the double-sided adhesive layer adheres to dust, pompon and other sundries, meanwhile, the double-sided adhesive layer can be replaced at any time, and the outer part of the adhesive frame 34 is locked on the working frame 31 through bolts.

The driving mechanism 43 comprises a motor 431, a circular plate 432, a notched disc 433, a cylindrical pin 434 and a grooved wheel 435, the motor 431 is installed on the telescopic frame 6, the circular plate 432 is installed on an output shaft of the motor 431, the notched disc 433 is installed on the lower side of the front end of the circular plate 432, the cylindrical pin 434 is installed on the upper side of the front end of the circular plate 432, the lower end of the notched disc 433 is attached to the grooved wheel 435, and the grooved wheel 435 is installed on the rotating shaft 41; drive the plectane 432 through motor 431 and rotate, breach disc 433, cylindric lock 434 and sheave 435 cooperate and carry out the sheave rotation to drive live-rollers 42 and carry out the angular rotation such as intermittent type formula, the design of sheave motion has guaranteed that every edulcoration mechanism 48 of group can both remain a period and remove dust and go miscellaneous on the cotton flannel surface, can guarantee again that the volume of debris such as absorptive dust is equal on every edulcoration mechanism 48 of group, makes things convenient for the change when multiunit edulcoration mechanism 48.

The front end of the cavity column 44 is connected with the rear end of the connecting pipe 45 in a rotating fit mode, the rotating fit connection ensures that the air suction pump 46 does not rotate synchronously when the rotating roller 42 rotates, a rubber sealing layer is arranged on the outer wall of the rear end of the connecting pipe 45, the sealing performance is improved, and a rotating handle is uniformly arranged on the outer wall of the connecting pipe 45 along the circumferential direction of the outer wall.

The inside cavity of having seted up of live-rollers 42, evenly seted up the embedded groove along its circumference on the live-rollers 42, detain in board 47 buckles the embedded groove, and pass through bolted connection between detaining board 47 and the live-rollers 42, detain for releasable connection between board 47 and the live-rollers 42, evenly seted up the circular slot on detaining the board 47.

The working sponge 484a is provided with drilled holes therein.

Edulcoration collude 487 for hook-like structure, conveniently collude heavier debris, and edulcoration collude 487's curved part outer wall and pastes in viscidity double faced adhesive tape, glue the debris that collude, when the debris of adhesion is more on edulcoration collude 487, change viscidity double faced adhesive tape in unison.

The conveying unit 5 comprises a conveying frame 51 and two electric conveying rollers 52, the conveying frame 51 is arranged on the mounting plate 1, and the two electric conveying rollers 52 are arranged at the upper end and the lower end of the conveying frame 51; the lint is transported to the left by two electric transport rollers 52.

When specifically dispelling the heat and removing dust to cloth:

firstly, the flannelette sequentially passes through a conveying unit 5 arranged on the right side of the mounting plate 1, between two working units 3, between two secondary dust removal units 4 and on the conveying unit 5 arranged on the left side of the mounting plate 1 from right to left, and is dragged and conveyed by the two conveying units 5;

when the lint in conveying passes between the two working units 3, cold air is blown out of the air cavity 33 through the air conveying pump 32, and dust on two sides of the lint is blown up while heat is dissipated, so that the lint is adhered to the sticky frame 34;

when the conveyed lint passes through the two secondary dust removal units 4, the two driving mechanisms 43 drive the two rotating shafts 41 to rotate in opposite directions, impurities such as dust and lint balls on the lint are absorbed by the air suction pump 46, the absorbed impurities such as the dust and the lint balls enter the air vent tube 481 and are intercepted in a multi-layer mode by the multi-layer absorption net 484, impurities such as heavy lint balls which are difficult to absorb can be stuck on the impurity removal hooks 487 to be removed, and therefore heat dissipation and dust removal are conducted on the lint.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A cloth conveying roller structure with a heat dissipation and dust removal function comprises a mounting plate (1), a mounting frame (2), two working units (3), two secondary dust removal units (4), two conveying units (5) and a telescopic frame (6); the method is characterized in that: mounting panel (1) about both ends install two conveying unit (5), the mid-mounting of mounting panel (1) has expansion bracket (6), two secondary dust removal unit (4) are installed at the upper and lower both ends of expansion bracket (6), be equipped with between expansion bracket (6) and conveying unit (5) that are located mounting panel (1) right-hand member setting mounting bracket (2), two work unit (3) are installed at the upper and lower both ends of mounting bracket (2), wherein:

the working unit (3) comprises a working frame (31), an air transmission pump (32), an air cavity (33), a viscous frame (34) and cleaning bristles (35), the working frame (31) is installed on the installation frame (2), the air cavity (33) is formed in the working frame (31), the air cavity (33) is communicated with the air transmission pump (32), the air transmission pump (32) is installed on the outer wall of the working frame (31), the cleaning bristles (35) are installed on the inner end of the air cavity (33), and the viscous frame (34) is embedded into the outer side of the working frame (31);

the secondary dust removal unit (4) comprises a rotating shaft (41), a rotating roller (42), a driving mechanism (43), a cavity column (44), a connecting pipe (45), an air suction pump (46), a buckling plate (47) and an impurity removal mechanism (48), a rotating shaft (41) is installed at the rear end of the rotating roller (42), the rotating shaft (41) is connected with the telescopic frame (6) through a bearing, a driving mechanism (43) is installed on the rotating shaft (41), a cavity column (44) is installed at the front end of the rotating roller (42), the cavity column (44) is connected with the telescopic frame (6) through a bearing, the front end of the cavity column (44) is connected with an air suction pump (46) through a connecting pipe (45), the air suction pump (46) is installed on the outer wall of the telescopic frame (6), a buckling plate (47) is uniformly embedded in the rotating roller (42) along the circumferential direction of the rotating roller, and an impurity removing mechanism (48) is uniformly installed on the buckling plate (47) from front to back;

the impurity removing mechanism (48) comprises a ventilation cylinder (481), a U-shaped frame (482), a connecting column (483), a multilayer absorption net (484), a mounting block (485), an elastic telescopic rod (486) and an impurity removing hook (487), the ventilation cylinder (481) is connected with a circular groove in a threaded fit mode, the U-shaped frame (482) is mounted inside a buckling plate (47), the U-shaped frame (482) is connected with the multilayer absorption net (484) through the connecting column (483), the multilayer absorption net (484) is located in the ventilation cylinder (481), the mounting block (485) is mounted inside the ventilation cylinder (481), and the mounting block (485) is connected with the impurity removing hook (487) through the elastic telescopic rod (486);

the multilayer absorption net (484) comprises a working sponge (484a), a steel wire mesh layer (484b) and a blocking sponge (484c), the working sponge (484a) is adhered to the outer side of the steel wire mesh layer (484b), the blocking sponge (484c) is installed on the inner side of the steel wire mesh layer (484b), and an elastic telescopic rod (486) is connected between the steel wire mesh layer (484b) and an installation block (485).

2. The cloth conveying roller structure with the heat dissipation and dust removal functions as claimed in claim 1, wherein: the inner wall of the adhesive rack (34) is adhered with a double-sided adhesive layer, and the outside of the adhesive rack (34) is locked on the working rack (31) through bolts.

3. The cloth conveying roller structure with the heat dissipation and dust removal functions as claimed in claim 1, wherein: the driving mechanism (43) comprises a motor (431), a circular plate (432), a notched circular plate (433), a cylindrical pin (434) and a grooved wheel (435), the motor (431) is installed on the telescopic frame (6), the circular plate (432) is installed on an output shaft of the motor (431), the notched circular plate (433) is installed on the lower side of the front end of the circular plate (432), the cylindrical pin (434) is installed on the upper side of the front end of the circular plate (432), the lower end of the notched circular plate (433) is attached to the grooved wheel (435), and the grooved wheel (435) is installed on the rotating shaft (41).

4. The cloth conveying roller structure with the heat dissipation and dust removal functions as claimed in claim 1, wherein: the front end of the cavity column (44) is connected with the rear end of the connecting pipe (45) in a rotating fit mode, a rubber sealing layer is arranged on the outer wall of the rear end of the connecting pipe (45), and rotating handles are uniformly arranged on the outer wall of the connecting pipe (45) along the circumferential direction of the outer wall.

5. The cloth conveying roller structure with the heat dissipation and dust removal functions as claimed in claim 1, wherein: the novel roller is characterized in that a cavity is formed in the rotating roller (42), embedded grooves are uniformly formed in the rotating roller (42) along the circumferential direction of the rotating roller, the buckling plate (47) is buckled into the embedded grooves, the buckling plate (47) is connected with the rotating roller (42) through bolts, and circular grooves are uniformly formed in the buckling plate (47).

6. The cloth conveying roller structure with the heat dissipation and dust removal functions as claimed in claim 1, wherein: drilling holes are uniformly formed in the working sponge (484 a).

7. The cloth conveying roller structure with the heat dissipation and dust removal functions as claimed in claim 1, wherein: the impurity removing hook (487) is of a hook-shaped structure, and the outer wall of the bent part of the impurity removing hook (487) is attached to the sticky double-sided adhesive tape.

8. The cloth conveying roller structure with the heat dissipation and dust removal functions as claimed in claim 1, wherein: the conveying unit (5) comprises a conveying frame (51) and two electric conveying rollers (52), the conveying frame (51) is installed on the installation plate (1), and the two electric conveying rollers (52) are installed at the upper end and the lower end of the conveying frame (51).

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