CN111850900A - Blended fabric drying equipment - Google Patents

Abstract

The invention discloses blended fabric drying equipment which comprises a drying box, a hot air blower arranged below the drying box and a drying device arranged in the drying box, wherein the hot air blower is arranged below the drying box; the drying device comprises a drying lifting plate, a plurality of drying openings formed in the drying lifting plate, a collecting device arranged on a drying guide rod, a plurality of rows of air outlet devices arranged on the drying lifting plate, first drying connecting rods arranged on the lower left side and the right side of the drying lifting plate, a second drying connecting rod arranged on the first drying connecting rod, a drying rotating shaft arranged on the second drying connecting rod and a drying motor arranged on the drying rotating shaft; according to the invention, the drying lifting plate moves up and down to drive the air outlet device, so that the fabric is blown up and down, the fabric drying progress is accelerated, the fabric quality is ensured, meanwhile, when the air blowing is carried out, the pressing device presses the fabric, the phenomenon that the fabric moves when the air blowing is carried out is prevented, and finally, the dried moisture is collected and discharged through the collecting frame in a unified manner.

Description

Blended fabric drying equipment

Technical Field

The invention belongs to the technical field of blended fabric processing, and particularly relates to a drying device for blended fabric.

Background

In the production and processing process of the blended fabric, a series of processing such as weaving, dyeing, drying, cleaning and the like are required. In drying, a dryer is generally used to dry the material, but a conventional dryer is generally: drying the cloth by adopting hot air fed from one side; heating is carried out inside the oven by adopting a heating element in the oven, and the cloth passes through the oven to realize drying. Under above-mentioned two kinds of stoving modes, the stoving effect is all relatively poor, and is lower to the cloth is thicker or the stronger surface fabric of water-absorbing capacity, is difficult to reach satisfied stoving effect, influences the quality of surface fabric.

Disclosure of Invention

The invention provides a drying device for blended fabric, aiming at overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a blended fabric drying device comprises a drying box, a hot air blower arranged below the drying box, a drying device arranged in the drying box, supporting legs arranged below the drying box and collecting grooves arranged on the front side and the rear side of the drying box; the drying device comprises a drying lifting plate, a plurality of drying openings formed in the drying lifting plate, a drying guide rod penetrating through the drying lifting plate, a collecting device arranged on the drying guide rod, a multi-row air outlet device arranged on the drying lifting plate, first drying connecting rods arranged on the lower left side and the right side of the drying lifting plate, second drying connecting rods arranged on the first drying connecting rods, a drying rotating shaft arranged on the second drying connecting rods, a drying motor arranged on the drying rotating shaft and a drying supporting seat arranged below the drying motor; the drying lifting plate moves up and down on the drying guide rod, and the first drying connecting rod is movably connected with the second drying connecting rod.

Starting a drying motor and an air heater, wherein the drying motor drives a drying conversion rotating shaft to rotate, the drying rotating shaft drives a second drying connecting rod to rotate, the second drying connecting rod drives a first drying connecting rod to move upwards, and the first drying connecting rod drives a drying lifting plate to move upwards; control through the stoving motor, make more stable more at the uniform velocity that whole course of work removed, the lifter plate of drying simultaneously is under the effect of stoving guide bar, make the lifter plate of drying carry out the removal that has the orbit, remove the in-process and strengthened stability, it reciprocates to carry out intermittent type nature's drive air-out device at the lifter plate of drying simultaneously, effectually prevented that hot-blast face fabric from blowing always, destroy the quality on surface fabric surface, the lifter plate of drying carries out intermittent type nature's drive air-out device and carries out intermittent type nature's air supply to the surface fabric, the quality of surface fabric is improved, make the stoving effect more simultaneously.

The air outlet device comprises an air outlet, a triangular support arranged on the inner wall of the air outlet, an air spraying piece arranged on the air outlet, a water retaining shell arranged outside the air spraying piece, a plurality of first air outlet springs arranged below the water retaining shell, an inner sleeve connected with the water retaining shell and the triangular support, an outer sleeve sleeved outside the inner sleeve and a second air outlet spring used for connecting the inner sleeve and the outer sleeve; the air injection piece is in a circular tube shape, a plurality of circular round holes are uniformly formed in the wall of the air injection piece, the inner sleeve can drive the water retaining shell to move up and down, and the outer sleeve is fixedly connected with the tripod.

When the drying lifting plate moves upwards, the water retaining shell is pushed upwards under the action of the pressure of hot airflow, the second air outlet spring is compressed, the outer sleeve moves upwards, the water retaining shell is pushed open, then the air injection piece starts to rotate to inject air, and air is exhausted from the fabric; make water retaining shell and inner skleeve pole stabilize on the lifter plate of drying through the setting of tripod, when jet-propelled piece rotated jet-propelled, the hot gas stream carries out 360 degrees steam of blowing to the surface fabric, the area that sweeps has been increased, the efficiency of drying has been improved, setting up through the water retaining shell can prevent that water stain from getting into in the jet-propelled piece, thereby gaseous pressure has been influenced, the effect of drying has further been improved, when not having under the effect of hot gas pressure, under the effect of first air-out spring, make the water retaining shell carry out quick reset, do not influence whole work flow, it is more smooth, the stoving effect is more.

The collecting device comprises a collecting frame, pressing devices arranged on the left side and the right side of the collecting frame, a plurality of collecting grooves formed in the collecting frame, drawing devices arranged in the collecting grooves, a plurality of rows of collecting air outlet holes formed in the collecting frame, a collecting fixing seat arranged on the collecting air outlet holes, a collecting flaring ring sleeved outside the collecting fixing seat, a collecting cavity formed in the collecting fixing seat, collecting pipelines arranged on the left side and the right side of the collecting cavity, a collecting piston arranged in the collecting cavity, a collecting rod arranged on the collecting piston and a collecting spring sleeved outside the collecting rod; the water blocking shell is contacted with the collecting rod, and the collecting piston moves up and down in the collecting cavity.

When the fabric is dried, moisture drops into the collecting frame, the water retaining shell moves upwards and is in contact with the collecting rod, the collecting rod moves upwards, the collecting rod drives the collecting piston to move upwards, the air pressure in the collecting cavity is increased, the air is sprayed out of the collecting pipeline, and the moisture on the two sides of the collecting frame is discharged towards the middle; when carrying out intermittent type nature upwards or move down through the manger plate shell, make and collect the pole and collect the piston and carry out intermittent type nature's motion, realize jet-propelled in the collection pipeline, can blow to the centre and gather together the moisture on both sides in the collection frame, reduce moisture and remain collection frame both sides, the moisture in the collection frame is too little simultaneously, the collection pipeline jets gas, can air-dry on the collection frame both sides, the relative aridity in the stoving case has been guaranteed, thereby make surface fabric stoving effect improve, the efficiency of the stoving of acceleration, economic benefits has been improved.

The pressing device comprises a driving roller, a pressing roller arranged on the driving roller, pressing grooves arranged on the front side and the rear side of the pressing roller, a pressing rotating shaft penetrating in the pressing roller, a pressing screw penetrating in the pressing rotating shaft, a pressing gear sleeved outside the pressing screw, a pressing rack arranged on one side of the pressing gear and a moving device arranged on one side of the pressing rack; the pressing rotating shaft moves up and down on the pressing screw rod, the pressing gear is meshed with the pressing rack, and the pressing rack moves back and forth in the pressing groove.

The pressing rack moves and is meshed with the pressing gear, the pressing rack drives the pressing gear to rotate, the pressing gear drives the pressing screw to rotate, and the pressing screw drives the pressing roller to move downwards to press the fabric; through pressing down the rack and pressing down the gear and meshing mutually, make the more stability of pressing down the screw rod rotational speed, the more stability of speed that the press roller removed, when jet-propelled piece rotates jet-propelled, at this moment the air current grow, press the roller and press the surface fabric, prevent that the surface fabric from taking place to remove the phenomenon of removal, reduce the surface fabric and take place the phenomenon of fold at the removal in-process, keep the synchronism with the press roller when jet-propelled piece, press during jet-propelled, the realization is pressed to the intermittent type nature of surface fabric, avoid pressing for a long time, produce the indentation to wet surface fabric, wet surface fabric produces the fold, the quality on surface of surface fabric has been influenced, thereby intermittent type nature is pressed down the surface fabric, make the more.

The moving device comprises a moving pipeline, a pushing groove arranged below the moving pipeline, a sliding block arranged in the pushing groove, a moving piston arranged in one end of the moving pipeline, a moving rod arranged on the moving piston, a moving spring sleeved outside the moving rod, a moving piston arranged in the other end of the moving pipeline, a moving rod arranged below the moving piston, a moving spring sleeved outside the moving rod, a moving convex disc arranged on the moving spring and an unlocking device arranged on the moving convex disc; the movable rod is fixedly connected with the pressing rack, the movable piston moves back and forth in the movable pipeline, and the movable piston moves up and down in the movable pipeline.

The movable convex disc moves upwards, the movable convex disc moves upwards to drive the movable rod to move upwards, the movable rod drives the movable piston to move upwards, air pressure in the movable pipeline is increased under the action of air pressure, the movable piston moves towards one side, the movable piston drives the movable rod to move towards one side, and the movable rod drives the pressing rack to move towards one side; drive movable piston and movable piston through atmospheric pressure and remove in the removal pipeline for movable piston equals with movable piston displacement, makes the distance that produces more accurate, improves surface material drying efficiency to some extent simultaneously.

The unlocking device comprises an unlocking groove, a plurality of unlocking springs arranged in the unlocking groove, an unlocking slide block arranged on the unlocking springs, an unlocking inclined plane arranged on the unlocking slide block and an unlocking port arranged on the unlocking slide block; the unlocking slide block moves back and forth in the unlocking groove, the lower end of the unlocking slide block is in contact with the drying lifting plate, the unlocking inclined plane is in contact with the drying opening, and the unlocking opening is in contact with the slide block.

When the drying lifting plate moves upwards, the drying lifting plate is in contact with the lower end face of the unlocking slide block so as to drive the unlocking slide block to move upwards, when the unlocking slide block moves upwards, the unlocking slide block is in contact with the slide block, the unlocking slide block moves into the unlocking groove, the unlocking spring is compressed, the unlocking slide block is not in contact with the drying lifting plate at the moment, the drying lifting plate continues to move upwards, the unlocking slide block immediately resets under the action of the unlocking spring, when the drying lifting plate moves downwards, the drying opening is in contact with the unlocking slide block, the unlocking slide block moves into the unlocking groove, the unlocking spring is compressed, and when the drying lifting plate continues to move downwards, the unlocking slide block immediately resets under the action of the unlocking spring; when continuing the rebound through preventing to dry the lifter plate, the unblock slider is inconsistent always with the lifter plate of drying, can't continue the rebound, and at this moment the unblock slider contacts with the slider when continuing the rebound for the unblock slider removes, makes the unblock slider not contact with the lifter plate of drying, has guaranteed the smoothness nature that work goes on, and the life of extension unblock slider has reached the stoving effect this moment more, does not influence the lifter plate of drying and removes the stoving.

The drawing device comprises a plurality of drawing pipelines arranged in the collecting groove, water leakage holes arranged on the drawing pipelines, drawing pistons arranged in the drawing pipelines, drawing rods arranged on the drawing pistons, drawing springs sleeved outside the drawing rods, drawing cavities arranged below the drawing springs and drawing devices arranged in the drawing cavities; the drawing piston moves back and forth in the drawing pipe.

When the drawing rod moves, the drawing piston is driven to move in the drawing pipeline, the drawing pipeline draws the water in the collecting groove, when the drawing piston moves to the moving degree, the water leakage hole is leaked, and at the moment, the water is leaked from the water leakage hole; through the removal of pull piston for the pull piston carries out timely extraction to the moisture of collecting in the recess, prevents that moisture from depositing and falls into the stoving incasement, reduces moisture and deposits and stay in the stoving incasement, provides dry environment for the stoving incasement, makes to the surface fabric stoving effect more.

The drawing device comprises a drawing movable rod, a drawing rack arranged at one end of the drawing movable rod, a drawing gear arranged on one side of the drawing rack, a drawing winding roller arranged on the drawing gear, a drawing winding rope arranged on the drawing winding roller, a water return tank arranged on the other side of the drawing rack and an inclined pipeline arranged on the water return tank; the pulling rack is meshed with the pulling gear, and the water leakage hole is communicated with the inclined pipeline.

When the drying lifting plate moves upwards, the drying lifting plate is contacted with one end of the drawing movable rod, one end of the drawing movable rod moves upwards, the other end of the drawing movable rod moves downwards, one end of the drawing movable rod moves downwards to drive the drawing rack to move downwards, the drawing rack is meshed with the drawing gear to drive the drawing gear to rotate relatively, the drawing gear rotates to drive the drawing winding roller to rotate, the drawing winding roller drives the drawing winding rope to wind, the drawing winding rope winds to drive the drawing rod to move, water in the water leakage hole flows out of the water return tank, flows out of the inclined pipeline and finally is collected in the collection groove; when upwards or moving downwards through the help of the stoving lifter plate, need not with the help of extra power source, more energy-concerving and environment-protective for the working process keeps the synchronism, and moisture flows from the slope pipeline, is unified to be retrieved by the collecting vat again, and more convenient and fast through the setting of slope pipeline, carries out decurrent drainage to the water of retrieving, makes rivers go out more smoothly, has guaranteed that the moisture of stoving incasement reduces, improves the efficiency of drying.

In conclusion, the invention has the following advantages: according to the invention, the drying lifting plate moves up and down to drive the air outlet device, so that the fabric is blown up and down, the fabric drying progress is accelerated, the fabric quality is ensured, meanwhile, when the air blowing is carried out, the pressing device presses the fabric, the phenomenon that the fabric moves when the air blowing is carried out is prevented, and finally, the dried moisture is collected and discharged through the collecting frame in a unified manner.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a cross-sectional perspective view taken along a-a in fig. 2.

Fig. 4 is an enlarged view of a structure shown in fig. 3.

Fig. 5 is an enlarged view of the structure at B in fig. 3.

Fig. 6 is a cross-sectional perspective view taken along B-B in fig. 2.

Fig. 7 is an enlarged view of the structure at C in fig. 6.

Fig. 8 is a front view of the present invention.

Fig. 9 is a cross-sectional perspective view taken along line C-C of fig. 8.

Fig. 10 is an enlarged view of the structure at D in fig. 9.

Fig. 11 is a cross-sectional perspective view taken along D-D in fig. 8.

Fig. 12 is an enlarged view of the structure at E in fig. 11.

Fig. 13 is a cross-sectional perspective view taken along E-E in fig. 8.

Fig. 14 is an enlarged view of the structure at F in fig. 13.

Fig. 15 is an enlarged view of the structure at G in fig. 14.

Fig. 16 is a cross-sectional perspective view taken along F-F in fig. 2.

Detailed Description

As shown in fig. 1-16, a drying device for blended fabrics comprises a drying box 1, a hot air blower 2, a drying device 3, support legs 4 and a collecting tank 5; the hot air blower 2 is arranged below the drying box 1 and is fixedly connected with the drying box; the drying device 3 is arranged in the drying box 1; the number of the supporting legs 4 is 4, and the supporting legs are uniformly distributed at intervals at the bottom of the drying box 1 and are fixedly connected; the number of the collecting grooves 5 is 2, and the collecting grooves are respectively arranged on the front side and the rear side of the drying box 1 and are fixedly connected.

As shown in fig. 2, 9 and 16, the drying device 3 includes a drying lifting plate 30, a drying opening 31, a drying guide rod 32, a collecting device 6, an air outlet device 7, a first drying connecting rod 33, a second drying connecting rod 34, a drying rotating shaft 35, a drying motor 36 and a drying support seat 37; the drying lifting plate 30 is arranged in the drying box 1 and moves up and down in the drying box 1; the number of the drying openings 31 is 4, and every two drying openings are respectively arranged on the front side and the rear side of the drying lifting plate 30; the drying guide rods 32 are 4 in number and are respectively arranged at the four corners in the drying lifting plate 30 in a penetrating manner; the collecting device 6 is arranged on the drying guide rod 32; the air outlet devices 7 are arranged on the drying lifting plate 30 in a plurality of rows at uniform intervals; the number of the first drying connecting rods 33 is 2, and the first drying connecting rods are respectively arranged at the left side and the right side of the lower part of the drying lifting plate 30 and are fixedly connected with the lower part of the drying lifting plate; one end of the second drying connecting rod 34 is arranged on the first drying connecting rod 33 and is connected with the first drying connecting rod through a hinge; the drying rotating shaft 35 is arranged at the other end of the second drying connecting rod 34 and is fixedly connected with the other end of the second drying connecting rod; the drying motor 36 is arranged at the rear part of the drying rotating shaft 35 and is fixedly connected; the drying support seat 37 is arranged at the lower part of the drying motor 36 and is fixedly connected with the lower part of the drying motor.

As shown in fig. 3 and 5, the air outlet device 7 includes an air outlet 70, a tripod 71, an air injection piece 72, a water blocking case 73, a first air outlet spring 74, an inner sleeve 75, an outer sleeve 76, and a second air outlet spring 77; the air outlet holes 70 are arranged in a plurality of rows at even intervals on the drying lifting plate 30; the tripod 71 is arranged on the inner wall of the air outlet 70 and fixedly connected with the inner wall of the air outlet, and the tripod 71 is made of aluminum; the air injection piece 72 is arranged on the air outlet 70, the air injection piece 72 is in a circular tube shape, and a circular round hole is formed in the tube wall; the water blocking shell 73 is arranged on the outer side of the air injection piece 72, the water blocking shell 73 completely covers the air injection piece 72, and the water blocking shell 73 is made of light plastic; the number of the first air outlet springs 74 is multiple, and the first air outlet springs are uniformly arranged at intervals and fixedly connected with the lower part of the water retaining shell 73 in the circumferential direction; the inner sleeve 75 is used for connecting the water blocking shell 73 and the tripod 71; the outer sleeve 76 is sleeved outside the inner sleeve 75; the two ends of the second outlet spring 77 are fixedly connected to the inner sleeve 75 and the outer sleeve 76, respectively.

As shown in fig. 3-4, the collecting device 6 includes a collecting frame 60, a pressing device 8, a collecting groove 62, a drawing device 900, a collecting air outlet 63, a collecting fixing seat 64, a collecting flared ring 65, a collecting chamber 66, a collecting pipe 67, a collecting piston 68, a collecting rod 69 and a collecting spring 690; the collecting frame 60 is arranged on the drying guide rod 32 and is fixedly connected with the drying box 1; the pressing devices 8 are 2 groups and are respectively arranged on the left side and the right side of the collecting frame 60; the collection grooves 62 are provided with a plurality number and are respectively arranged on the collection frame 60; the drawing device 90 is arranged in the collecting groove 62; the collecting air outlet holes 63 are arranged in a plurality of rows, the number of the collecting air outlet holes is equal to that of the air outlet holes 70, the collecting air outlet holes correspond to the air outlet holes one by one, and the collecting air outlet holes are respectively arranged on the collecting frame 60; the collecting fixed seat 64 is arranged on the collecting air outlet 63 and is fixedly connected with the collecting air outlet; the collecting flaring ring 65 is sleeved outside the collecting fixing seat 64 and fixedly connected with the collecting fixing seat; the collecting chamber 66 is arranged in the collecting fixing seat 64; the number of the collecting pipelines 67 is 2, and the collecting pipelines are respectively arranged at the left side and the right side in the collecting chamber 66; the collection piston 68 is disposed in the collection chamber 66 and moves up and down in the collection chamber 66; the collecting rod 69 is arranged on the collecting piston 68 and fixedly connected with the collecting piston, and the water retaining shell 73 is contacted with the collecting rod 69; the collecting spring 690 is sleeved outside the collecting rod 69, one end of the collecting spring is fixedly connected with the mobile phone stem 69, and the other end of the collecting spring is fixedly connected with the collecting chamber 66.

As shown in fig. 6-7 and 9-10, the pressing device 8 comprises a driving roller 80, a pressing roller 81, a pressing groove 85, a pressing rotating shaft 86, a pressing screw 87, a pressing gear 88, a pressing rack 89 and a moving device 9; the number of the driving rollers 80 is 2, the driving rollers are respectively arranged on the left side and the right side of the collecting frame 60 and embedded in the drying box 1 to rotate relatively; the pressing roller 81 is arranged at the upper part of the driving roller 80; the number of the pressing grooves 85 is 2, and the pressing grooves are respectively arranged on the front side and the rear side of the pressing roller 81; the pressing rotating shaft 86 penetrates through the pressing roller 81 and is embedded in the inner wall of the drying box 1 to rotate relatively, and threads are arranged inside the pressing rotating shaft 86; the pressing screw 87 penetrates through the pressing rotating shaft 86, the pressing rotating shaft 86 moves up and down on the pressing screw 87, and the internal thread of the pressing rotating shaft 86 is matched with the thread of the pressing screw 87; the pressing gear 88 is sleeved outside the pressing screw 87 and rotates relatively; the pressing rack 89 is arranged on one side of the pressing gear 88, and the pressing rack 89 moves back and forth in the pressing groove 85; the moving device 9 is provided on the pressing rack 89 side.

As shown in fig. 9-12, the moving device 9 includes a moving pipe 90, a pushing groove 91, a sliding block 92, a moving piston 93, a moving rod 94, a moving spring 95, a moving piston 96, a moving rod 97, a moving spring 98, a moving cam 99 and an unlocking device 10; the moving pipeline 90 is arranged on one side of the pressing rack 89; the pushing groove 91 is arranged below the moving pipeline 90; the sliding block 92 is arranged in the pushing groove 91 and fixedly connected with the pushing groove; the moving piston 93 is arranged in one end of the moving pipeline 90 and moves back and forth in the moving pipeline 90; one end of the moving rod 94 is arranged on the moving piston 93 and fixedly connected with the moving piston, and the other end of the moving rod penetrates out of the moving pipeline 90 and is fixedly connected with the pressing rack 89; the movable spring 95 is sleeved outside the movable rod 94, one end of the movable spring is fixedly connected with the movable rod 94, and the other end of the movable spring is fixedly connected with the movable pipeline 90; the movable piston 96 is arranged in the other end of the movable pipeline 90 and moves up and down in the movable pipeline 90; one end of the movable rod 97 is arranged below the movable piston 96 and fixedly connected, and the other end penetrates out of the other end of the movable pipeline 90; the movable spring 98 is sleeved outside the movable rod 97, and one end of the movable spring is fixedly connected with the other end of the movable pipeline 90; the movable convex disc 99 is arranged at the other end of the movable spring 98 and is fixedly connected with the movable rod 94; the unlocking device 10 is arranged on the movable convex disc 99.

As shown in fig. 10 and 12, the unlocking device 10 includes an unlocking groove 11, an unlocking spring 12, an unlocking slider 13, an unlocking inclined surface 131, and an unlocking port 14; the unlocking groove 11 is arranged on the movable convex disc 99; the number of the unlocking springs 12 is 2, and one end of each unlocking spring is respectively arranged in the unlocking groove 11 and fixedly connected with the front side and the rear side; the unlocking slide block 13 is arranged at the other end of the unlocking spring 12 and is fixedly connected, the lower end of the unlocking slide block 13 is contacted with the drying lifting plate 30, and the unlocking slide block 13 moves back and forth in the unlocking groove 11; the unlocking inclined plane 131 is arranged on the unlocking slide block 13 and fixedly connected with the unlocking slide block, and the locking inclined plane 131 is in contact with the drying opening 31; the unlocking port 14 is arranged on the unlocking slide block 13, and the unlocking port 14 is in contact with the slide block 92.

As shown in fig. 14-15, the drawing device 900 comprises a drawing pipe 901, a water leakage hole 902, a drawing piston 903, a drawing rod 904, a drawing spring 905, a drawing chamber 906 and a drawing device 40; the drawing pipeline 901 is arranged in the collecting groove 62; the number of the water leakage holes 902 is multiple, and the water leakage holes are uniformly arranged on the pull-out pipeline 901 at intervals; the drawing piston 903 is arranged in the drawing pipeline 901, and the drawing piston 903 moves back and forth in the drawing pipeline 901; one end of the drawing rod 904 is arranged on the drawing piston 903 and fixedly connected with the drawing piston, and the other end of the drawing rod 904 penetrates out of the drawing pipeline 901; the drawing spring 905 is sleeved outside the drawing rod 904, one end of the drawing spring is fixedly connected with the drawing rod 904, and the other end of the drawing spring is fixedly connected with the drawing pipeline 901 and is fixedly connected with the drawing rod 904; the pull chamber 906 is disposed below the pull spring 905; the pulling device 40 is disposed within the pulling chamber 906.

As shown in fig. 13 to 15, the drawing device 40 includes a drawing moving rod 41, a drawing rack 42, a drawing gear 43, a drawing winding roller 44, a drawing winding wire 45, a water returning tank 46, and an inclined duct 47; the drawing moving rod 41 is arranged in the drawing chamber 906, the middle part of the drawing moving rod 41 is movably connected with the drawing chamber 906, and one end of the drawing moving rod 41 generates inclined movement in the drawing chamber 906; the pulling rack 42 is arranged at one end of the pulling movable rod 41 and is fixedly connected with the pulling movable rod; the pulling gear 43 is arranged on one side of the pulling rack 42 and embedded in the pulling chamber 906 to rotate relatively; the pulling winding roller 44 is arranged on the pulling gear 43 and is fixedly connected with the pulling gear; one end of the pulling winding rope 45 is arranged on the pulling gear 43 and fixedly connected with the pulling gear, and the other end of the pulling winding rope is arranged on the pulling rod 904 and fixedly connected with the pulling gear; the water return tank 46 is arranged on the other side of the pulling rack 42 and is fixedly connected with the pulling chamber 906; one end of the inclined pipeline 47 is arranged at the lower part of the water return tank 46 and fixedly connected, and the other end penetrates out of the drying box 1 and is communicated with the collecting tank 5.

The specific working process is as follows: the drying motor 36 is started, the drying motor 36 drives the drying rotating shaft 35 to rotate, the drying rotating shaft 35 drives the second drying connecting rod 34 to rotate, the second drying connecting rod 34 drives the first drying connecting rod 33 to move upwards, the first drying connecting rod 33 drives the drying lifting plate 30 to move upwards, when the drying lifting plate 30 moves upwards, the drying lifting plate 30 is in contact with the lower end face of the unlocking slider 13 so as to drive the unlocking slider 13 to move upwards, the unlocking slider 13 drives the movable convex disc 99 to move upwards, the movable convex disc 99 moves upwards to drive the movable rod 97 to move upwards, the movable rod 97 drives the movable piston 96 to move upwards, at the moment, under the action of air pressure, the air pressure in the moving pipeline 90 is increased, so that the movable piston 93 moves towards one side, the movable piston 93 drives the movable rod 94 to move towards one side, the moving rod 94 drives the pressing rack 89 to move to one side, the pressing rack 89 moves, the pressing rack 89 is meshed with the pressing gear 88, the pressing rack 89 drives the pressing gear 88 to rotate, the pressing gear 88 drives the pressing screw 87 to rotate, the pressing screw 87 drives the pressing rotating shaft 86 to move downwards to press the fabric, when the drying lifting plate 30 continues to move upwards, under the action of hot airflow pressure, the water retaining shell 73 is pushed upwards, the second air outlet spring 77 is compressed, the outer sleeve 76 moves upwards, the water retaining shell 73 is pushed away and then the air jet piece 72 starts to rotate for air jet to discharge the fabric, when the unlocking slide block 13 moves upwards, the unlocking slide block 13 is contacted with the slide block 92, the unlocking slide block 13 moves towards the unlocking groove 11, the unlocking spring 12 is compressed, and at the moment, the unlocking slide block 13 is not contacted with the drying lifting plate 30, the drying lifting plate 30 continues to move upwards, and the unlocking slide block 13 is immediately reset under the action of the unlocking spring 12.

When the drying lifting plate 30 moves upwards, the drying lifting plate 30 is contacted with one end of a pulling moving rod 41, one end of the pulling moving rod 41 moves upwards, the other end moves downwards, the one end moving downwards drives a pulling rack 42 to move downwards, the pulling rack 42 is meshed with a pulling gear 43 to drive the pulling gear 43 to rotate relatively, the pulling gear 43 rotates to drive a pulling winding roller 44 to rotate, the pulling winding roller 44 drives a pulling winding wire 45 to wind, the pulling winding wire 45 winds to drive a pulling rod 904 to move, when the pulling rod 904 moves, the pulling piston 903 is driven to move in a pulling pipeline 901, the pulling pipeline 901 extracts moisture in the collecting groove 62, when the pulling piston 903 moves to the moving degree, the water leaks from the water leakage hole 902, at the moment, the water flows out of the water return tank and then flows out of the inclined pipeline 47, and finally collected in the collection tank 5.

When the surface fabric dries, moisture drops into the collection groove 62, when the water blocking shell 73 moves upwards, the water blocking shell collides with the collection rod 69, the collection rod 69 moves upwards, the collection rod 69 drives the collection piston 68 to move upwards, at this time, the air pressure in the collection cavity 66 is increased, air is sprayed out from the collection pipeline 67, the moisture on the two sides of the collection groove 62 is discharged towards the middle, when the drying lifting plate 30 moves downwards, the drying port 31 is contacted with the upper end face of the unlocking slide block 13, the unlocking slide block 13 moves towards the inside of the unlocking groove 11, the unlocking spring 12 is compressed, when the drying lifting plate 30 continues to move downwards, under the effect of the unlocking spring 12, the unlocking slide block 13 immediately resets, if needed, the process is repeated until the surface fabric drying position is reached.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A blended fabric drying device comprises a drying box (1), a hot air blower (2) arranged below the drying box (1), a drying device (3) arranged in the drying box (1), supporting legs (4) arranged below the drying box (1) and collecting tanks (5) arranged at the front side and the rear side of the drying box (1); the method is characterized in that: the drying device (3) comprises a drying lifting plate (30), a plurality of drying openings (31) formed in the drying lifting plate (30), drying guide rods (32) penetrating through the drying lifting plate (30), a collecting device (6) arranged on the drying guide rods (32), a plurality of rows of air outlet devices (7) arranged on the drying lifting plate (30), first drying connecting rods (33) arranged on the lower left side and the lower right side of the drying lifting plate (30), second drying connecting rods (34) arranged on the first drying connecting rods (33), a drying rotating shaft (35) arranged on the second drying connecting rods (34), a drying motor (36) arranged on the drying rotating shaft (35) and a drying supporting seat (37) arranged below the drying motor (36); the drying lifting plate (30) moves up and down on the drying guide rod (32), and the first drying connecting rod (33) is movably connected with the second drying connecting rod (34).

2. The blended fabric drying equipment according to claim 1, characterized in that: the air outlet device (7) comprises an air outlet hole (70), a tripod (71) arranged on the inner wall of the air outlet hole (70), an air spraying piece (72) arranged on the air outlet hole (70), a water retaining shell (73) arranged outside the air spraying piece (72), a plurality of first air outlet springs (74) arranged below the water retaining shell (73), an inner sleeve (75) connected with the water retaining shell (73) and the tripod (71), an outer sleeve (76) sleeved outside the inner sleeve (75) and a second air outlet spring (77) used for connecting the inner sleeve (75) and the outer sleeve (76); the air injection piece (72) is in a circular tube shape, a plurality of circular round holes are uniformly formed in the tube wall of the air injection piece (72), the inner sleeve (75) can drive the water retaining shell (73) to move up and down, and the outer sleeve (76) is fixedly connected with the tripod (71).

3. The blended fabric drying equipment according to claim 1, characterized in that: the collecting device (6) comprises a collecting frame (60), pressing devices (8) arranged on the left side and the right side of the collecting frame (60), a plurality of collecting grooves (62) formed in the collecting frame (60), a drawing device (900) arranged in the collecting grooves (62), a plurality of rows of collecting air outlet holes (63) formed in the collecting frame (60), a collecting fixed seat (64) arranged on the collecting air outlet holes (63), a collecting flaring ring (65) sleeved outside the collecting fixed seat (64), a collecting cavity (66) arranged in the collecting fixed seat (64), collecting pipelines (67) arranged on the left side and the right side of the collecting cavity (66), a collecting piston (68) arranged in the collecting cavity (66), a collecting rod (69) arranged on the collecting piston (68) and a collecting spring (690) sleeved outside the collecting rod (69); the water blocking shell (73) is contacted with the collecting rod (69), and the collecting piston (68) moves up and down in the collecting chamber (66).

4. The blended fabric drying equipment according to claim 3, characterized in that: the pressing device (8) comprises a driving roller (80), a pressing roller (81) arranged on the driving roller (80), pressing grooves (85) arranged on the front side and the rear side of the pressing roller (81), a pressing rotating shaft (86) penetrating through the pressing roller (81), a pressing screw rod (87) penetrating through the pressing rotating shaft (86), a pressing gear (88) sleeved outside the pressing screw rod (87), a pressing rack (89) arranged on one side of the pressing gear (88), and a moving device (9) arranged on one side of the pressing rack (89); the pressing rotating shaft (86) moves up and down on the pressing screw rod (87), the pressing teeth (88) are meshed with the pressing rack (89), and the pressing rack (89) moves back and forth in the pressing groove (85).

5. The blended fabric drying equipment according to claim 4, characterized in that: the moving device (9) comprises a moving pipeline (90), a pushing groove (91) arranged below the moving pipeline (90), a sliding block (92) arranged in the pushing groove (91), a moving piston (93) arranged in one end of the moving pipeline (90), a moving rod (94) arranged on the moving piston (93), a moving spring (95) sleeved outside the moving rod (94), a moving piston (96) arranged in the other end of the moving pipeline (90), a moving rod (97) arranged below the moving piston (96), a moving spring (98) sleeved outside the moving rod (97), a moving convex disc (99) arranged on the moving spring (98) and an unlocking device (10) arranged on the moving convex disc (99); the moving rod (94) is fixedly connected with the pressing rack (89), the moving piston (93) moves back and forth in the moving pipeline (90), and the moving piston (96) moves up and down in the moving pipeline (90).

6. The blended fabric drying equipment according to claim 5, characterized in that: the unlocking device (10) comprises an unlocking groove (11), a plurality of unlocking springs (12) arranged in the unlocking groove (11), an unlocking slide block (13) arranged on the unlocking springs (12), an unlocking inclined plane (131) arranged on the unlocking slide block (13) and an unlocking port (14) arranged on the unlocking slide block (13); the unlocking slide block (13) moves back and forth in the unlocking groove (11), the lower end of the unlocking slide block (13) is in contact with the drying lifting plate (30), the unlocking inclined surface (131) is in contact with the drying opening (31), and the unlocking opening (14) is in contact with the slide block (92).

7. The drying equipment for the blended fabric according to claim 3, characterized in that the drawing device (90) comprises a plurality of drawing pipes (901) arranged in the collecting groove (62), water leakage holes (902) arranged on the drawing pipes (901), drawing pistons (903) arranged in the drawing pipes (901), drawing rods (904) arranged on the drawing pistons (903), drawing springs (905) sleeved outside the drawing rods (904), a drawing chamber (906) arranged below the drawing springs (905) and a drawing device (40) arranged in the drawing chamber (906); the pull piston (903) moves back and forth in the pull pipe (901).

8. The blended fabric drying equipment according to claim 7, characterized in that: the drawing device (40) comprises a drawing moving rod (41), a drawing rack (42) arranged at one end of the drawing moving rod (41), a drawing gear (43) arranged at one side of the drawing rack (42), a drawing winding roller (44) arranged on the drawing gear (43), a drawing winding rope (45) arranged on the drawing winding roller (44), a water return tank (46) arranged at the other side of the drawing rack (42), and an inclined pipeline (47) arranged on the water return tank (46); the pulling rack (43) is meshed with the pulling gear (42), and the water outlet pipeline (48) is communicated with the inclined pipeline (47).

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