CN114934378B - High-efficient impurity removing device that detects is used in processing of fine work dress - Google Patents

Abstract

The invention relates to the technical field of garment processing, in particular to an efficient detection impurity removal device for processing fine clothes, which comprises a workbench serving as a carrier of the whole impurity removal device, wherein a conveying mechanism for intermittently conveying the clothes to be processed and paved on the workbench, an impurity removal mechanism for removing down feather on the surface of the clothes and residual down feather on the conveying mechanism, and an auxiliary assembly for removing floating dust on the surface of the clothes are arranged on the front side of the impurity removal mechanism; the impurity removing mechanism comprises a shell installed on the conveying mechanism. The invention achieves the purpose of comprehensively and rapidly cleaning and removing down feather on the surface of the down jacket and residual down feather, has the advantages of omnibearing impurity removal and high impurity removal efficiency compared with the currently adopted adsorption equipment, can intensively collect and treat the adsorbed down feather and the residual down feather, avoids the phenomenon of environmental pollution generated in a processing workshop, and thus improves the quality of clothes.

Description

High-efficient detection impurity removing device for processing fine clothes

Technical Field

The invention relates to the technical field of clothing processing, in particular to an efficient detection impurity removal device for processing fine clothing.

Background

In the process of clothing processing, particularly for fine clothing, the finished clothing needs to be packaged after surface treatment, the way of surface treatment is different according to different types of clothing, and a large amount of fluff such as cotton fabrics, thread ends and the like remains on the surface of part of clothing after the finishing, so that the fluff on the surface of the clothing needs to be removed by using a corresponding removing device.

Especially for the fine quality high-grade down coat, a large amount of down feather still remains on its surface, if do not in time handle on dress surface and the sewing up position remaining down feather, then can lead to the quality of dress to reduce, simultaneously to down coat in the fine hair and the down feather after the preparation is accomplished, simple dependence adsorption equipment is difficult to carry out comparatively comprehensive impurity removal to the clothing, and just it is not high to remove impurity efficiency, causes the circumstances of fine hair polluted air environment easily.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the high-efficiency detection impurity removal device for processing the fine clothes, which achieves the aim of comprehensively and quickly cleaning and removing down feather on the surface of the down jacket and residual down feather, has the advantages of omnibearing impurity removal and high impurity removal efficiency compared with the currently adopted adsorption equipment, can be used for intensively collecting and processing the adsorbed down feather and the residual down feather, avoids the environment pollution phenomenon generated in a processing workshop, and further improves the quality of the clothes.

In order to solve the technical problems, the invention provides the following technical scheme: an efficient detection impurity removal device for processing fine clothes comprises a workbench serving as a carrier of the whole impurity removal device, wherein a conveying mechanism for intermittently conveying clothes to be processed and flatly paved on the workbench is installed on the workbench, an impurity removal mechanism for removing down feather and residual down feather on the surface of the clothes on the conveying mechanism is installed on the workbench, and an auxiliary assembly for removing floating dust on the surface of the clothes is arranged on the front side of the impurity removal mechanism;

impurity removal mechanism is including installing the casing on conveying mechanism, there is the lower part edulcoration subassembly that is used for the edulcoration to dress lower surface in shells inner wall's both sides through the support mounting, is equipped with the upper portion edulcoration subassembly that is used for the edulcoration to dress surface in the top of lower part edulcoration subassembly, the edulcoration subassembly of upper portion passes through linear guide and installs on the casing, has the cylinder that is used for driving upper portion edulcoration subassembly to go up and down at the top fixed mounting of casing.

Further, upper portion edulcoration subassembly is including being located the casing and the lower part open-ended adsorbs the box, adsorb and install the interface channel who inserts outside dust collecting equipment through the pipeline on the box, adsorb and install on the box with dress surface contact and adsorb the adsorption component of fine hair and remaining eiderdown, be equipped with on the outward flange of adsorbing the bottom of the box and be used for with dress surface contact and play the seal assembly of sealed effect.

Furthermore, a guide plate for guiding the suction wind direction is fixed on the top wall of the adsorption box, a distribution plate matched with the guide plate for use is fixedly installed at the bottom of the guide plate, and the guide plate is in a curved plate-shaped structure;

the quantity of deflector is eight, and eight deflectors use linking channel to encircle the equidistance distribution as the centre of a circle, the end connection of deflector is on the inner wall that adsorbs the box, and eight deflectors are used for adsorbing the inside space division of box for eight different regions, the distribution plate can be dismantled and fix on the inner wall that adsorbs the box, a plurality of evenly distributed's drainage hole has been seted up to the distribution plate.

Further, the adsorption component comprises a side structure and a middle structure which are installed on the adsorption box, the two side structures are respectively located on two sides of the middle structure, the side structure and the middle structure are arranged in an integrated forming structure, and the side structure and the middle structure are both wavy curve structures.

Further, the side structure comprises a first negative pressure area and a first concave contact part, wherein the first negative pressure area is arched upwards on the side structure, and the first negative pressure area and the first contact part are both provided with first adsorption holes;

the middle structure comprises a second negative pressure area and a concave second contact part, wherein the second negative pressure area is arched upwards, and second adsorption holes are formed in the second negative pressure area and the second contact part.

Further, seal assembly is including fixing the sealing strip on adsorbing box bottom portion all around, the inside of sealing strip is equipped with the inner chamber.

Further, be equipped with integrated into one piece's buffering portion on the sealing strip, buffering portion is for setting up the cavity structure on the inner chamber diapire, is equipped with the deformation spring that a plurality of equidistance distribute in buffering portion, the top of deformation spring is fixed on the roof of inner chamber.

Furthermore, lower part edulcoration subassembly and upper portion edulcoration subassembly are the same structure and constitute, the opposite face of lower part edulcoration subassembly and upper portion edulcoration subassembly is located the upper and lower both sides of area impurity dress respectively.

Further, conveying mechanism is including installing the mounting bracket on the workstation, install four driving rollers that are the rectangle and distribute through the bearing on the mounting bracket, connect through the conveyer belt transmission between four driving rollers, set up the through-hole that a plurality of equidistance distribute on the conveyer belt, install the servo motor who is used for driving roller intermittent type nature rotation and uses on the mounting bracket.

Further, the auxiliary assembly comprises supporting rods arranged on two sides of the mounting frame, sliding grooves are formed in the supporting rods, sliding blocks are arranged in the sliding grooves in a sliding mode, pushing springs used for applying downward elastic acting force to the sliding blocks are arranged in the sliding grooves, and brush rollers used for brushing floating dust on the upper surface of clothes are arranged on the sliding blocks through bearings.

By means of the technical scheme, the invention provides an efficient detection impurity removal device for processing fine clothes, which at least has the following beneficial effects:

1. the invention achieves the purpose of comprehensively and rapidly cleaning and removing down feather on the surface of the down jacket and residual down feather, has the advantages of omnibearing impurity removal and high impurity removal efficiency compared with the currently adopted adsorption equipment, can intensively collect and treat the adsorbed down feather and the residual down feather, avoids the phenomenon of environmental pollution generated in a processing workshop, and thus improves the quality of clothes.

2. Due to the arrangement of the impurity removing mechanism, the down feather and the residual down feather on the surface of the clothes in the area are quickly adsorbed and removed by the clothes under the action of negative pressure, so that the aim of quickly removing impurities on the surface of the clothes is fulfilled, the impurity removing efficiency is high, no residue exists, and the treatment quality of the surface of the clothes is guaranteed.

3. According to the invention, due to the arrangement of the upper impurity removing component, under the introduction of an adsorption acting force, the adsorption wind direction of the adsorption component on the surface of the clothes enters eight irregular areas from the distribution plate, and the irregular shapes of the areas are combined to guide the paths of the suction wind direction, so that the flow velocity of the suction wind direction is improved under the paths, the adsorption force of the whole upper impurity removing component on the clothes can be improved, and the adsorption and removal effects of the upper impurity removing component on fluff and residual down on the surface of the clothes are improved.

4. According to the invention, due to the arrangement of the sealing assemblies, the upper impurity removing assembly and the lower impurity removing assembly are respectively provided with one sealing assembly, so that the upper impurity removing assembly and the lower impurity removing assembly are in a sealing state relative to a static conveying belt in a butt joint state, the sealing strip is attached to the surface of the conveying belt and is matched with an inner cavity of the conveying belt to deform under acting force, so that the sealing strip is tightly attached to the conveying belt, and the integral sealing effect is improved.

5. The auxiliary assembly is arranged, so that floating dust on the surface of the clothes can be brushed, meanwhile, the fluff and the residual down on the surface of the clothes can be pretreated under the action of the brush roller, the adsorption force of the fluff and the residual down relative to the surface of the clothes is reduced along with the rotation of the brush roller, and the fluff and the residual down can be simply removed, so that the impurity on the surface of the clothes can be adsorbed and cleaned by the impurity removing mechanism.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an impurity removing mechanism according to a first embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of a middle-upper impurity removing assembly according to an embodiment of the present disclosure;

FIG. 4 is a schematic view of the construction of the adsorption module of the present invention;

FIG. 5 is a cut-away schematic view of the structure of the seal assembly of the present invention;

FIG. 6 is a schematic structural view of the conveying mechanism of the present invention;

FIG. 7 is an exploded view of the auxiliary assembly of the present invention;

FIG. 8 is a schematic structural view of an upper trash component in the second embodiment of the present disclosure;

FIG. 9 is a schematic view of a guide plate in an adsorption cassette according to a second embodiment of the present invention;

fig. 10 is a schematic cut-away view of a seal assembly according to a third embodiment of the present invention.

In the figure: 1. a work table; 2. a conveying mechanism; 21. a mounting frame; 22. a driving roller; 23. a conveyor belt; 24. a through hole; 25. a servo motor; 3. an impurity removal mechanism; 31. a housing; 32. a lower trash removal assembly; 33. a linear guide rail; 34. an upper trash removal assembly; 341. an adsorption box; 342. a connecting channel; 343. a guide plate; 344. a distribution plate; 345. an adsorption component; 3451. a side structure; 34511. a first negative pressure region; 34512. a first contact portion; 34513. a first adsorption hole; 3452. a middle structure; 34521. a second contact portion; 34522. a second negative pressure region; 34523. a second adsorption hole; 346. a seal assembly; 3461. a sealing strip; 3462. an inner cavity; 3463. a buffer section; 3464. a deformation spring; 35. a cylinder; 4. an auxiliary component; 41. a support bar; 42. a chute; 43. a slider; 44. pushing the spring; 45. a brush roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Fig. 1-7 illustrate one embodiment of the present invention: the invention relates to an efficient detection impurity removing device for processing fine clothes, which comprises a workbench 1 serving as a whole impurity removing device carrier, wherein a conveying mechanism 2 for intermittently conveying clothes to be processed and flatly paved on the workbench 1 is installed on the workbench 1, an impurity removing mechanism 3 for removing down feather on the surface of the clothes on the conveying mechanism 2 and residual down feather is installed on the workbench 1, and an auxiliary component 4 for removing floating dust on the surface of the clothes is arranged on the front side of the impurity removing mechanism 3.

The impurity removing mechanism 3 comprises a shell 31 arranged on the conveying mechanism 2, lower impurity removing components 32 for removing impurities on the lower surface of the clothes are arranged on two sides of the inner wall of the shell 31 through supports, an upper impurity removing component 34 for removing impurities on the surface of the clothes is arranged above the lower impurity removing components 32, the upper impurity removing component 34 is arranged on the shell 31 through a linear guide rail 33, and a cylinder 35 for driving the upper impurity removing component 34 to ascend and descend is fixedly arranged at the top of the shell 31; the lower impurity removing component 32 and the upper impurity removing component 34 are of the same structure, and the opposite surfaces of the lower impurity removing component 32 and the upper impurity removing component 34 are respectively positioned at the upper side and the lower side of the impurity removing clothes;

the upper impurity removing component 34 comprises an adsorption box 341 which is positioned in the shell 31 and is provided with an opening at the lower part, a connecting channel 342 which is connected to external dust suction equipment through a pipeline is installed on the adsorption box 341, the adsorption box 341 is provided with an adsorption component 345 which is in contact with the surface of clothes and adsorbs fluff and residual down, a sealing component 346 which is in contact with the surface of the clothes and plays a role of sealing is arranged on the outer edge of the bottom of the adsorption box 341, when the clothes enter the shell 31, the clothes are positioned right above the lower impurity removing component 32, the lower impurity removing component 32 at the moment is in contact with the lower surface of the clothes through a through hole on the conveying belt 23, then the upper impurity removing component 34 is driven to descend through the operation of the air cylinder 35, so that the upper impurity removing component 34 and the lower impurity removing component 32 are in a false butt joint state, the bottom of the adsorption box 341 is attached to the upper surface of the conveying belt 23 through the sealing component 346 at the moment, the lower impurity removing component 32 presses through the action of the air cylinder 35, the lower impurity removing component can be attached between the lower surface of the conveying belt 23 and the lower impurity removing component 32 by utilizing the external deformable elastic performance, a sealing space is formed by the action of the adsorption component 345 and the adsorption component, and the adsorption component which is attached to form a negative pressure in the adsorption space.

The suction assembly 345 includes a side structure 3451 and a middle structure 3452 mounted on the suction box 341, the two side structures 3451 are respectively located at two sides of the middle structure 3452, the side structure 3451 and the middle structure 3452 are integrally formed, the side structure 3451 and the middle structure 3452 are both wave-shaped curved structures, the side structure 3451 includes a first negative pressure region 34511 and a concave first contact part 34512, the first negative pressure region 34511 and the first contact part 34512 are both provided with a first suction hole 34513, the middle structure 3452 includes a second negative pressure region 34522 and a concave second contact part 34521, the second negative pressure region 34522 and the second contact part 34521 are both provided with a second suction hole 34523. In the process, the clothes are in a micro-motion state in the areas of the first negative pressure area 34511 and the second negative pressure area 34522, the first contact part 34512 and the second contact part 34521 are matched to press the surface of the clothes, and the negative pressure state is enhanced at the positions of the side part structure 3451 and the middle part structure 3452, so that the clothes can quickly adsorb and remove down feather and residual down feather on the surface of the clothes in the area under the action of negative pressure, thereby achieving the purpose of quickly cleaning sundries on the surface of the clothes, having high impurity removal efficiency and no residue, and ensuring the treatment quality of the surface of the clothes.

The sealing assembly 346 comprises a sealing strip 3461 fixed on the periphery of the bottom of the adsorption box 341, an inner cavity 3462 is formed in the sealing strip 3461, and due to the arrangement of the sealing assembly 346, the upper impurity removing assembly and the lower impurity removing assembly are respectively provided with the sealing assembly 346, so that the upper impurity removing assembly and the lower impurity removing assembly are in a sealing state relative to the static conveying belt 23 in a butt joint state, the sealing strip 3461 is attached to the surface of the conveying belt 23 and is matched with the inner cavity 3462 in the upper impurity removing assembly to deform under the action of force, the sealing strip 3461 is tightly attached to the conveying belt 23, and the overall sealing effect is improved;

conveying mechanism 2 is including installing mounting bracket 21 on workstation 1, install four driving roller 22 that are the rectangle and distribute through the bearing on mounting bracket 21, connect through the transmission of conveyer belt 23 between four driving roller 22, the through-hole 24 that a plurality of equidistance distribute has been seted up on conveyer belt 23, install the servo motor 25 that is used for driving roller 22 intermittent type nature rotation to use on mounting bracket 21, operation drive driving roller 22 through servo motor 25 rotates, conveyer belt 23 is intermittent type nature motion under servo motor 25's transmission simultaneously, and through-hole 24 on the cooperation conveyer belt 23 makes the lower surface of dress can play a role with lower part edulcoration subassembly 32, make lower part edulcoration subassembly 32 can adsorb the fine hair on the dress lower surface and remain the fine hair and clear away.

The auxiliary assembly 4 comprises supporting rods 41 arranged on two sides of the mounting frame 21, sliding grooves 42 are formed in the supporting rods 41, sliding blocks 43 are arranged in the sliding grooves 42 in a sliding mode, pushing springs 44 used for applying downward elastic acting force to the sliding grooves 42 are arranged in the sliding grooves 42, brush rollers 45 used for brushing floating dust on the upper surface of clothes are arranged on the sliding blocks 43 through bearings, the sliding capacity of the sliding blocks 43 in the sliding grooves 42 is up and down, the elastic acting force applied to the sliding blocks 43 downwards by the pushing springs 44 is matched, bristles on the brush rollers 45 can be in contact with the upper surface of the clothes, under the action of the conveying mechanism 2, the floating dust on the surface of the clothes is brushed by the brush rollers 45 in a matched mode, meanwhile, pretreatment can be conducted on the down feather on the surface of the clothes and residual down feather, the adsorption force of the down feather and the residual down feather relative to the surface of the clothes is reduced along with the rotation of the brush rollers 45, and the down feather and residual feather can be simply removed, and accordingly the impurity removing mechanism 3 can adsorb and clean up sundries on the surface.

The specific implementation process of the implementation is as follows: the down feather and the residual down feather on the surface of the clothes are identified by matching with an industrial camera and an image identification system, whether the impurities exist on the surface of the clothes is detected, if the impurities do not exist on the surface of the clothes, the clothes are transferred to a packaging station, if the impurities remain on the surface of the clothes, the clothes to be processed are transferred to the device, the clothes to be processed are spread and paved on the conveying mechanism 2, the clothes are conveyed to the 3 stations of the impurity removal mechanism through intermittent operation of the conveying mechanism 2, before the clothes enter the 3 stations of the impurity removal mechanism, floating dust on the surface of the clothes is brushed and swept by matching with the auxiliary assembly 4, meanwhile, under the action of the brush roller 45, the down feather and the residual down feather on the surface of the clothes can be preprocessed, the adsorption force of the down feather and the residual down feather relative to the surface of the clothes is reduced along with the rotation of the brush roller 45, the down feather and the residual down feather can be simply removed, so that the impurities on the surface of the clothes can be adsorbed and cleaned by the impurity removal mechanism 3, the down feather and the residual down feather on the surface of the clothes can be absorbed and cleaned by matching with the conveying mechanism 2, the operation of the down feather conveying mechanism, the down feather device, the down feather can achieve the comprehensive and the comprehensive treatment of the comprehensive down feather processing and the comprehensive down feather processing of the integrated packaging station, thereby, and the comprehensive down feather processing efficiency of the integrated equipment for the integrated high down feather.

Example two

Fig. 8-9 illustrate an embodiment of the present invention: the upper impurity removing assembly 34 includes an adsorption box 341 located in the housing 31 and having an opening at a lower portion, a connection channel 342 connected to an external dust suction device through a pipe is installed on the adsorption box 341, an adsorption assembly 345 contacting with a clothing surface and adsorbing fluff and residual down is installed on the adsorption box 341, a sealing assembly 346 contacting with the clothing surface and playing a sealing role is installed on an outer edge of a bottom of the adsorption box 341, a guide plate 343 for guiding a suction wind direction is fixed on a top wall of the adsorption box 341, a distribution plate 344 used in cooperation with the guide plate 343 is fixedly installed at the bottom of the guide plate 343, the guide plate 343 is in a curved plate-like structure, the number of the guide plates 343 is eight, the eight guide plates 343 are equidistantly distributed around the connection channel 342, a tail end of the guide plate 343 is connected to an inner wall of the adsorption box 341, the eight guide plates 343 are used for dividing a space inside the adsorption box 341 into eight different areas, the distribution plate 344 is detachably fixed to the inner wall of the adsorption box 341, and the distribution plate 344 is provided with a plurality of uniformly distributed drainage holes.

As shown in fig. 9, the eight guide plates 343 divide the space inside the adsorption box 341 into eight irregular suction airflow guide areas, which are areas a, B, C, D, E, F, G, and H in sequence, thereby enhancing the fluidity of the adsorption airflow and improving the adsorption cleaning effect on the impurities on the surface of the clothing.

The present embodiment is another implementation manner proposed on the basis of the first embodiment, wherein the same or similar parts in the first embodiment are referred to each other, and the details of the same or similar parts are not described in detail in the present embodiment.

The specific implementation process of the implementation is as follows: eight curved guide plates 343 are additionally arranged in the adsorption box 341 for matching use, and under the matching of the distribution plate 344, the eight guide plates 343 are distributed around the connecting channel 342, the space inside the adsorption box 341 is divided into eight irregular areas under the action of the curved shapes, at the moment, under the introduction of adsorption acting force, the adsorption wind direction of the adsorption component 345 on the surface of the clothing enters the eight irregular areas from the distribution plate 344, and the flow rate of the suction wind direction is improved under the path by combining the irregular shapes of the areas to guide the path of the suction wind direction, so that the adsorption force of the whole upper impurity removal component 34 on the clothing can be improved, and the adsorption and removal effects of the upper impurity removal component 34 on fluff and residual down on the surface of the clothing are improved.

EXAMPLE III

FIG. 10 is an embodiment of the present invention: the sealing assembly 346 comprises a sealing strip 3461 fixed on the periphery of the bottom of the adsorption box 341, an inner cavity 3462 is arranged inside the sealing strip 3461, an integrally formed buffer part 3463 is arranged on the sealing strip 3461, the buffer part 3463 is a cavity structure arranged on the bottom wall of the inner cavity 3462, a plurality of deformation springs 3464 distributed at equal intervals are arranged on the buffer part 3463, and the top ends of the deformation springs 3464 are fixed on the top wall of the inner cavity 3462.

The present embodiment is another implementation proposed on the basis of the first embodiment, wherein the same or similar parts in the first embodiment are referred to each other, and the detailed description of the same or similar contents is not repeated in the present embodiment.

The specific implementation process of the implementation is as follows: by arranging the sealing assemblies 346 on the upper impurity removing assembly and the lower impurity removing assembly, the upper impurity removing assembly and the lower impurity removing assembly can be in a sealing state relative to the static conveying belt 23 in a butt joint state, the sealing strip 3461 is attached to the surface of the conveying belt 23 and is matched with the inner cavity 3462 of the conveying belt to deform under acting force, so that the sealing strip 3461 is tightly attached to the conveying belt 23, the whole sealing effect is improved, meanwhile, the buffer part 3463 with a cavity is arranged in the inner cavity 3462, the deformation capacity of the sealing strip 3461 can be improved, the sealing strip 3461 has secondary deformation capacity, a reverse acting force is provided by using the elastic force of rubber materials in the state, the sealing effect of the attaching part is improved, the sealing effect in the attaching state is further enhanced under the matching of the elastic acting force of the deformation spring 3464, meanwhile, the reverse acting force is provided for the sealing strip 3461 when the upper impurity removing assembly 34 rises upwards, the deformed sealing strip 3461 can be quickly recovered to the original shape, and the phenomenon that the sealing strip 61 cannot be recovered due to deformation is avoided.

In the using process of the invention, the down feather and the residual down feather on the surface of the clothes are identified by matching with an industrial camera and an image identification system, whether the sundries exist on the surface of the clothes is detected, if the sundries do not exist on the surface of the clothes, the clothes are transferred to a packaging station, if the sundries remain on the surface of the clothes, the clothes to be processed are spread and spread on a conveying mechanism 2, the clothes are conveyed to an impurity removing mechanism 3 station through the intermittent operation of the conveying mechanism 2, the floating dust on the surface of the clothes is brushed and swept by matching with an auxiliary assembly 4 before entering the impurity removing mechanism 3 station, meanwhile, the down feather and the residual down feather on the surface of the clothes can be pretreated under the action of a brush roller 45, the adsorption force of the down feather and the residual down feather relative to the surface of the clothes is reduced along with the rotation of the brush roller 45, and the down feather and the residual down feather can be simply removed, so that the impurity removing mechanism 3 can adsorb and clean the sundries on the surface of the clothes conveniently.

Impurity removal mechanism 3 adsorbs the clearance to the fine hair on the upper and lower and lateral part surface of dress and remain the eiderdown simultaneously, divide into three stages at this in-process, and the first stage is: the upper trash removal assembly 34 moves downwards to enable the clothes to be in a negative pressure space formed by the lower trash removal assembly 32, the clothes are in a micro-motion state in the areas of the first negative pressure area 34511 and the second negative pressure area 34522, the surfaces of the clothes are pressed by matching with the first contact part 34512 and the second contact part 34521, the negative pressure state is enhanced at the positions of the side structure 3451 and the middle structure 3452, and the down feather and the residual down feather on the surface of the clothes in the areas are rapidly adsorbed and removed by the clothes under the action of the negative pressure.

The second stage is: then the upper trash component 34 moves upward, the conveying mechanism 2 drives the overlook to move a distance towards the conveying direction, the distance is the relative distance between the first contact part 34512 and the first negative pressure area 34511, namely the first negative pressure area 34511 moves to the initial position of the first contact part 34512, so that the position of the first negative pressure area 34511 is changed, and the second negative pressure area 34522 is the same, so that the surface of the clothes is synchronously adsorbed and cleaned by regions, such as fluff and residual impurities as down and the like.

The third stage is: and repeating the second-stage action to ensure that the impurity removing mechanism 3 carries out all-dimensional impurity removal on the surface of the clothes.

And finally, after sundries on the clothes are removed, the sundries are conveyed to the tail end of the whole device by matching with the operation of the conveying mechanism 2 and are transferred to a packaging station by matching with a transfer device for packaging.

It should be noted that, in this document, 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 (8)

1. The utility model provides a dress processing is with detecting miscellaneous device, includes workstation (1) as whole miscellaneous device carrier of removing, its characterized in that: the working table (1) is provided with a conveying mechanism (2) for intermittently conveying clothes to be processed and flatly paved on the working table, the working table (1) is provided with an impurity removing mechanism (3) for removing down feather and residual down feather on the surface of the clothes on the conveying mechanism (2), and the front side of the impurity removing mechanism (3) is provided with an auxiliary assembly (4) for removing floating dust on the surface of the clothes;

the impurity removing mechanism (3) comprises a shell (31) installed on the conveying mechanism (2), lower impurity removing components (32) used for removing impurities on the lower surface of the clothes are installed on two sides of the inner wall of the shell (31) through supports, upper impurity removing components (34) used for removing impurities on the surface of the clothes are arranged above the lower impurity removing components (32), the upper impurity removing components (34) are installed on the shell (31) through linear guide rails (33), and an air cylinder (35) used for driving the upper impurity removing components (34) to ascend and descend is fixedly installed at the top of the shell (31);

the upper impurity removing assembly (34) comprises an adsorption box (341) which is positioned in the shell (31) and has an opening at the lower part, a connecting channel (342) which is connected to external dust suction equipment through a pipeline is installed on the adsorption box (341), an adsorption assembly (345) which is in contact with the surface of clothes and adsorbs down feather and residual down feather is installed on the adsorption box (341), and a sealing assembly (346) which is in contact with the surface of the clothes and has a sealing effect is arranged on the outer edge of the bottom of the adsorption box (341);

a guide plate (343) for guiding the suction wind direction is fixed on the top wall of the adsorption box (341), a distribution plate (344) matched with the guide plate (343) for use is fixedly installed at the bottom of the guide plate (343), and the guide plate (343) is of a curved plate-shaped structure;

the quantity of deflector (343) is eight, and eight deflector (343) use connecting channel (342) to encircle the equidistance distribution as the centre of a circle, the end connection of deflector (343) is on adsorbing the inner wall of box (341), and eight deflector (343) are used for adsorbing the inside space division of box (341) for eight different regions, distribution plate (344) can be dismantled and fixed on the inner wall of adsorbing box (341), a plurality of evenly distributed's drainage hole has been seted up to distribution plate (344).

2. The apparatus of claim 1, wherein: the adsorption component (345) comprises a side structure (3451) and a middle structure (3452) which are arranged on the adsorption box (341), the two side structures (3451) are respectively positioned at two sides of the middle structure (3452), the side structure (3451) and the middle structure (3452) are arranged in an integrated structure, and the side structure (3451) and the middle structure (3452) are both wave-shaped curve structures.

3. The apparatus of claim 2, wherein: the side structure (3451) comprises a first negative pressure area (34511) and a first concave contact part (34512), wherein the first negative pressure area (34511) is arched upwards, and the first contact part (34512) is provided with first adsorption holes (34513);

the middle structure (3452) comprises a second negative pressure area (34522) arched upwards and a second concave contact part (34521), and the second negative pressure area (34522) and the second contact part (34521) are both provided with second adsorption holes (34523).

4. The apparatus of claim 1, wherein: the sealing assembly (346) comprises a sealing strip (3461) fixed on the periphery of the bottom of the adsorption box (341), and an inner cavity (3462) is formed inside the sealing strip (3461).

5. The apparatus of claim 4, wherein: the sealing strip (3461) is provided with an integrally formed buffer part (3463), the buffer part (3463) is of a cavity structure arranged on the bottom wall of the inner cavity (3462), the buffer part (3463) is provided with a plurality of deformation springs (3464) distributed at equal intervals, and the top ends of the deformation springs (3464) are fixed on the top wall of the inner cavity (3462).

6. The apparatus of claim 1, wherein: the lower impurity removing component (32) and the upper impurity removing component (34) are of the same structure, and the opposite surfaces of the lower impurity removing component (32) and the upper impurity removing component (34) are respectively positioned at the upper side and the lower side of the impurity removing clothes.

7. The apparatus of claim 1, wherein: conveying mechanism (2) are including installing mounting bracket (21) on workstation (1), install four driving roller (22) that are the rectangle and distribute through the bearing on mounting bracket (21), connect through conveyer belt (23) transmission between four driving roller (22), set up through-hole (24) that a plurality of equidistance distribute on conveyer belt (23), install servo motor (25) that are used for driving roller (22) intermittent type nature rotation to use on mounting bracket (21).

8. The apparatus according to claim 1, wherein: auxiliary assembly (4) including installing bracing piece (41) of both sides on mounting bracket (21), spout (42) have been seted up on bracing piece (41), and slidable mounting has slider (43) in spout (42), installs in spout (42) to be used for exerting down elastic force's crowded spring (44) that pushes away to it, install brush roller (45) that are used for sweeping dress upper surface floating dust through the bearing on slider (43).

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