CN117760186A - Wide-angle cloth uniform type drying equipment and drying method - Google Patents

Abstract

The invention relates to the technical field of drying devices, in particular to wide-angle cloth uniform type drying equipment and a drying method. The utility model provides a wide-angle cloth even type drying equipment and stoving method, includes the stoving case, the stoving case is provided with fan and evenly distributed's air exit, the rigid coupling has evenly distributed's spline pole in the stoving case, spline pole sliding connection has the axially distributed's desicator, the stoving case rigid coupling has the supporting shoe, the supporting shoe rigid coupling has first electric putter, supporting shoe sliding connection have with the motor of the flexible end rigid coupling of first electric putter, the output shaft rigid coupling of motor has the drive wheel, be close to the second pivot rigid coupling of supporting shoe have with drive wheel complex runner. According to the invention, the motor is pushed to move by the first electric push rod, and the transmission ratio of the transmission wheel to the rotating wheel is adjusted, so that the moving speed of the wide-angle cloth in the device is adjusted, and the drying speed of the wide-angle cloth is further adjusted.

Description

Wide-angle cloth uniform type drying equipment and drying method

Technical Field

The invention relates to the technical field of drying devices, in particular to wide-angle cloth uniform type drying equipment and a drying method.

Background

The wide-angle cloth is a fabric material with wide-angle characteristics, has good ductility, is generally used for producing the raw materials of triangle belt, in the production preparation process of wide-angle cloth, needs very long time to dehydrate and dry after carrying out gum dipping treatment on wide-angle cloth, and the wide-angle cloth after dehydration can maintain stability and increase life better, so needs to carry out dehydration and drying treatment on wide-angle cloth, but in the drying treatment process, because the width and thickness of wide-angle cloth material are different, the required drying time of wide-angle cloth is different, and the required drying position of wide-angle cloth is also different, and when the wide-angle cloth with different thickness and different sizes is transmitted at constant speed in the existing equipment, the wide-angle cloth is not completely dried due to shorter drying time or is wasted due to long drying time, so that the drying efficiency of wide-angle cloth is low.

Disclosure of Invention

In order to solve the above-mentioned problems in the prior art, the present invention provides a wide-angle cloth uniform drying apparatus and a drying method.

The technical scheme is as follows: the utility model provides a wide-angle cloth even drying equipment, includes the stoving case, the both sides of stoving case are provided with feed inlet and discharge gate respectively, the stoving case is provided with fan and evenly distributed's air exit, be provided with symmetrical and evenly distributed's first slider in the stoving incasement, the stoving incasement rigid coupling has evenly distributed's spline pole, spline pole sliding connection has the desicator of axial distribution, symmetrical distribution rotate between the first slider and be connected with first pivot, stoving incasement rotation is connected with evenly distributed's second pivot, stoving case rigid coupling has the supporting shoe, the supporting shoe rigid coupling has first electric putter, supporting shoe sliding connection have with the motor of the flexible end rigid coupling of first electric putter, the output shaft rigid coupling of motor is close to the supporting shoe the second pivot rigid coupling have with drive wheel complex runner, the stoving case is provided with control panel, the fan the desicator first electric putter with the motor all is connected with the control panel electricity, the stoving case is provided with the adjacent wide-angle adjustment mechanism that is used for the second is used for not to complete stoving mechanism of complete stoving of wide-angle cloth between the stoving case.

Furthermore, it is particularly preferred that the drive wheel is arranged in the form of a circular truncated cone, and that the side wall of the drive wheel is parallel to the side wall of the rotor.

In addition, it is particularly preferred that the distance adjusting mechanism comprises a first fixed block, the first fixed block is fixedly connected to the drying box, the first fixed block is in sliding connection with a first sliding block which is symmetrically distributed, the first sliding blocks which are symmetrically distributed are respectively in sliding connection with adjacent spline rods, first sliding rods are fixedly connected to opposite sides of the first sliding blocks which are symmetrically distributed, round pipes are jointly and slidably connected between the first sliding rods which are symmetrically distributed, a second sliding rod is fixedly connected to the motor, a cylindrical block is fixedly connected to the drying box, the cylindrical block is in sliding connection with the second sliding rod, the cylindrical block is communicated with the round pipes through a guide pipe, a connecting piece is fixedly connected to the first sliding block, the second sliding blocks which are symmetrically distributed are respectively in sliding connection with the adjacent spline rods, and a first pressure spring is connected between the adjacent dryers on the same spline rod.

Furthermore, it is particularly preferred that the upper parts of the opposite sides of the symmetrically distributed first slide bar are each provided with a semi-cylindrical projection, the sum of the lengths of the symmetrically distributed semi-cylindrical projections being larger than the diameter of the conduit connecting between the circular tube and the cylindrical block.

In addition, it is particularly preferred that the secondary drying mechanism comprises a second fixing block, the second fixing block is fixedly connected in the drying box, a sensor which is axially distributed is fixedly connected in the second fixing block, a third fixing block is fixedly connected in the drying box, the third fixing block is rotationally connected with a rotating rod which is axially distributed, the rotating rods which are axially distributed are fixedly connected with a second electric push rod, the telescopic ends of the second electric push rod are fixedly connected with a dryer, the adjacent dryers are connected through pull ropes, and the sensor and the second electric push rod are electrically connected with the control panel.

In addition, particularly preferred is, still including set up in the mechanism of adjusting deviation of stoving case, the mechanism of adjusting deviation is used for adjusting the wide-angle cloth of skew, the mechanism of adjusting deviation is including third electric putter, third electric putter rigid coupling in the stoving case, the flexible end rigid coupling of third electric putter has the connecting block, stoving case ball has connect the third pivot, the third pivot rigid coupling has the telescopic link, the flexible end of telescopic link with the connecting block ball connects, the both ends of third pivot lateral wall all rigid coupling have the pressure piece of circumference distribution, third electric putter with the pressure piece all with control panel electricity is connected, the stoving case is provided with the adjustment mechanism who is used for adjusting the whole tension of wide-angle cloth.

Furthermore, it is particularly preferred that the distance between the two sets of circumferentially distributed pressure plates is greater than the width of the wide-angle cloth.

In addition, it is particularly preferred that the adjusting mechanism comprises a first cylindrical shell, the first cylindrical shell is fixedly connected with the drying box, a first cylindrical plug is slidably connected in the first cylindrical shell, a second cylindrical shell which is symmetrically distributed is fixedly connected with the drying box, the second cylindrical shells which are symmetrically distributed are slidably connected in the second cylindrical shells, the second cylindrical plugs which are symmetrically distributed are rotationally connected with the adjacent first rotating shafts, the second cylindrical shells which are symmetrically distributed are communicated with the first cylindrical shells through pipes and are fully filled with hydraulic oil, an electromagnetic valve is arranged in each pipe between the first cylindrical shell and the second cylindrical shell, the electromagnetic valve is electrically connected with the control panel, and the drying box is provided with a detecting mechanism for detecting the tension of wide-angle cloth.

In addition, it is particularly preferred that the detection mechanism comprises a second slider, the second slider is slidingly connected to the drying box, the second slider is rotationally connected with the adjacent first rotating shaft, symmetrically distributed elastic pieces are connected between the first slider and the drying box, which are symmetrically distributed on the first rotating shaft and rotationally connected with the second slider, symmetrically distributed racks are slidingly connected with the second slider, a third slider is fixedly connected with the first cylindrical plug, symmetrically distributed racks are slidingly connected with the third slider, a second pressure spring is connected between the third slider and the first cylindrical shell, a gear matched with the rack is fixedly connected with the rotating shaft close to the first cylindrical shell, the distance between the symmetrically distributed racks is larger than the outer diameter of the gear, and the drying box is slidingly connected with the first slider.

Further, particularly preferred is a wide-angle cloth drying method employed by the wide-angle cloth uniform drying apparatus, comprising the steps of:

s1: introducing wide-angle cloth into a drying box, winding the wide-angle cloth on a first rotating shaft and a second rotating shaft in the drying box, and opening a dryer through a control panel to perform infrared irradiation on the wide-angle cloth for drying;

s2: after the wide-angle cloth is subjected to drying treatment by a dryer, detecting the humidity of the wide-angle cloth by a sensor, and controlling the dryer to carry out secondary drying treatment on the wide-angle cloth at the un-dried position;

s3: extruding the pressure sheet when the wide-angle cloth deviates, starting a third electric push rod through a control panel to adjust the position of a third rotating shaft at the upper side, and correcting the deviation of the wide-angle cloth;

s4: the tension of the wide-angle cloth in front of the symmetrically distributed first rotating shafts is suitable by adjusting the position of the upper first rotating shaft, so that the wide-angle cloth is flatly wound on the first rotating shaft and the second rotating shaft;

s5: the tension change of the wide-angle cloth on the wind-up roll can drive the first rotating shaft at the lower side to deviate, the upper and lower positions of the first rotating shaft at the upper side are adjusted according to the deviation of the first rotating shaft at the lower side, so that the tension of the wide-angle cloth before the first rotating shaft which is symmetrically distributed is changed, and the whole tension of the wide-angle cloth in the drying box is adjusted.

The beneficial effects of the invention are as follows: according to the invention, the motor is pushed to move by the first electric push rod, and the transmission ratio of the transmission wheel to the rotating wheel is adjusted, so that the moving speed of the wide-angle cloth in the device is adjusted, and the drying speed of the wide-angle cloth is further adjusted;

according to the invention, the motor position is adjusted through the first electric push rod, so that the infrared irradiation range of the dryer is adjusted, and the device can synchronously adjust the drying range and the drying speed according to the width of the wide-angle cloth;

according to the invention, the humidity of the wide-angle cloth is detected by the sensor, so that one dryer is driven to move forwards, and adjacent dryers irradiate to the same place, and the effect of local secondary drying is realized;

according to the invention, the telescopic end of the third electric push rod pushes the connecting block to move, so that the tension on two sides of the wide-angle cloth is changed, and the wide-angle cloth is corrected when offset occurs in the rotation process.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

fig. 2 is a perspective structural sectional view of the drying box, the second rotating shaft and the motor according to the present invention;

FIG. 3 is a schematic perspective view of the motor, the rotating wheel and the first rotating shaft according to the present invention;

FIG. 4 is a schematic perspective view of the motor, control panel and second wheel of the present invention;

FIG. 5 is a schematic perspective view of a first fixed block, a first sliding block and a connecting member according to the present invention;

fig. 6 is a schematic perspective view showing a first compression spring, a second sliding block and a dryer according to the present invention;

FIG. 7 is a schematic perspective view of the control panel, second fixed block and sensor of the present invention;

fig. 8 is a schematic perspective view of a third shaft, a second shaft and a third electric putter according to the present invention;

fig. 9 is a schematic perspective view of a third electric putter, a drying box and a third shaft according to the present invention;

FIG. 10 is a perspective view in section of the second cylindrical housing, first cylindrical plug and first rotary shaft of the present invention;

FIG. 11 is a perspective view of a rack, pinion and third slider of the present invention;

fig. 12 is a schematic perspective view of the gear, rack and second slider of the present invention.

In the figure: 101. the drying box, 102, fan, 103, first slider, 104, spline rod, 105, dryer, 106, first rotation shaft, 107, second rotation shaft, 108, support block, 109, first electric push rod, 110, motor, 111, driving wheel, 112, rotating wheel, 113, control panel, 201, first fixed block, 202, first sliding block, 203, first slide bar, 204, round tube, 205, second slide bar, 206, cylindrical block, 207, connecting piece, 208, second sliding block, 209, first compression spring, 301, second fixed block, 302, sensor, 303, third fixed block, 304, rotation rod, 305, second electric push rod, 306, dryer, 401, third electric push rod, 402, connection block, 403, third rotation shaft, 404, telescopic rod, 405, pressure plate, 501, first cylindrical shell, 502, first cylindrical plug, 503, second cylindrical shell, 504, second cylindrical plug, 505, electromagnetic valve, 601, second slider, 602, elastic piece, 603, rack, 604, third compression spring, 605, and gear.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: 1-3, including stoving case 101, the left side of stoving case 101 is provided with the feed inlet, the right side of stoving case 101 is provided with the discharge gate, be used for to stoving incasement 101 conveying and transmission wide-angle cloth, the upside of stoving case 101 is provided with fan 102, both sides all are provided with evenly distributed's air exit around stoving case 101, be used for discharging the vapor that the stoving produced, accelerate the circulation of air in order to accelerate drying speed, be provided with four first sliders 103 of fore-and-aft symmetry and evenly distributed in the stoving case 101, the stoving incasement rigid coupling has eight spline poles 104 of evenly distributed, evenly distributed's eight spline poles 104 all sliding connection has five desicators 105 of axial distribution, rotationally be connected with first pivot 106 between two first sliders 103 of fore-and-aft symmetry distribution, the stoving case 101 internal rotation is connected with four second pivots 107 of evenly distributed, the front side rigid coupling of stoving case 101 has supporting shoe 108, the upside rigid coupling of supporting shoe 108 has first electric putter 108, first electric putter 109 is connected with the motor end of first electric putter 108, the motor end of fan motor 110 is used for controlling the wide-angle end of driving wheel 110 is the diameter of the drive wheel 111 of the wide-angle drive wheel 110 that is used for controlling the diameter of the drive wheel 111 of the wide-angle drive wheel 110, the transmission pulley 111 is fixed with the diameter of the drive wheel 111 of the transmission pulley 111 in the wide-angle drive wheel 110, the transmission device is arranged in parallel to the side wall of the drive end of the drive wheel 111, the drive pulley 111 is controlled by the diameter of the drive pulley 111, the drive end of the drive pulley 111 is connected with the drive of the drive pulley, the drive of the drive wheel 111, the drive of the drive wheel is provided drive, the drive of the drive, and the drive is, the dryer 105, the first electric push rod 109 and the motor 110 are all electrically connected with the control panel 113, so that staff can adjust the states of all elements in the device through the control panel 113, the drying box 101 is provided with a distance adjusting mechanism for adjusting the distance between adjacent dryers 105 before drying, and the drying box 101 is provided with a secondary drying mechanism for carrying out secondary drying on the wide-angle cloth which is not completely dried.

As shown in fig. 4-6, the distance adjusting mechanism comprises a first fixing block 201, the first fixing block 201 is fixedly connected in the drying box 101, the first fixing block 201 is in sliding connection with two first sliding blocks 202 which are symmetrically distributed, the two first sliding blocks 202 which are symmetrically distributed are respectively in sliding connection with adjacent spline rods 104, the first sliding rods 203 are fixedly connected on opposite sides of the first sliding blocks 202 which are symmetrically distributed, the relative positions of the two first sliding blocks 202 are used for adjusting, a circular tube 204 is jointly and slidably connected between the two first sliding blocks 203 which are symmetrically distributed, a second sliding rod 205 is fixedly connected to the motor 110, a cylindrical block 206 is fixedly connected on the front side of the drying box 101, the cylindrical block 206 is in sliding connection with the second sliding rod 205, the cylindrical block 206 is communicated with the circular tube 204 through a guide tube, the upper parts of the opposite sides of the first sliding blocks 203 which are symmetrically distributed are respectively provided with semi-cylindrical bumps, the sum of lengths of the symmetrically distributed bumps is larger than the diameter of the guide tube connected between the cylindrical blocks 206, when the two first sliding blocks 203 which are symmetrically distributed are used for adjusting relative positions of the two sliding blocks 202, the cylindrical blocks 206 are uniformly connected with the adjacent spline blocks 104, the second sliding blocks 208 which are connected with the adjacent sliding blocks 105 through the guide rods 105 in sliding connection, and the same sliding device 208 which are connected with the same.

When the wide-angle cloth is dried, a worker winds the wide-angle cloth on a first rotating shaft 106 and a second rotating shaft 107 which penetrate through a feed inlet on the left side of a drying box 101 and are wound in the drying box, then a motor 110 is started through a control panel 113, an output shaft of the motor 110 drives a driving wheel 111 to rotate, the driving wheel 111 drives a rotating wheel 112 to rotate, the rotating wheel 112 drives an adjacent second rotating shaft 107 to rotate, the second rotating shaft 107 rotates to drive the wide-angle cloth wound on the rotating wheel to rotate, then the worker starts a dryer 105 through the control panel 113, the dryers 105 on two sides respectively irradiate infrared light sources on two sides of the wide-angle cloth to heat and dry, the worker opens a fan 102 through the control panel 113 in the drying process, introduces external air into the drying box 101 through the fan 102, enables air containing moisture in the drying box 101 to be discharged through an air outlet on the fan, then the wide-angle cloth is moved out of the drying box 101 through a discharge outlet of the drying box, and then the worker stores and winds the dried wide-angle cloth, namely the wide-angle cloth is wound.

Before drying wide-angle cloth, when the width of wide-angle cloth that needs to be dried is narrower, the staff starts first electric putter 109 through control panel 113, and the flexible end of first electric putter 109 promotes motor 110 to the direction of keeping away from stoving case 101 and removes, and motor 110 drives the drive wheel 111 of its output shaft rigid coupling and outwards removes, and drive wheel 111 outwards removes the transmission ratio between increase and runner 112 to increase the rotational speed of runner 112, increase the speed that second pivot 107 drove the wide-angle cloth and remove, improve the drying efficiency to wide-angle cloth.

In the process of outward movement of the motor 110, the motor 110 drives the second slide bar 205 to move outward, the second slide bar 205 moves outward to form negative pressure in the cylindrical block 206, the negative pressure in the cylindrical block 206 pushes the two first slide bars 203 to move into the circular tube 204, the first slide bars 203 drive the adjacent first slide blocks 202 to move, the two first slide blocks 202 are close to each other, the first slide blocks 202 are close to each other and respectively press the adjacent drier 105 to move, the drier 105 moves and presses the adjacent first pressure springs 209, so that the drier 105 are close to each other in equal proportion, the infrared irradiation range of the drier 105 is adjusted, and the device can synchronously adjust the drying range and the drying speed according to the width of the wide-angle cloth by adjusting the position of the motor 110.

Example 2: on the basis of embodiment 1, as shown in fig. 7, the secondary drying mechanism comprises a second fixing block 301, the second fixing block 301 is fixedly connected to the right side inside the drying box 101, five sensors 302 which are axially distributed are fixedly connected to the left side of the second fixing block 301 and used for detecting the humidity of the sheet which is not dried by the dryer 105, a third fixing block 303 is fixedly connected to the drying box 101, the third fixing block 303 is positioned on the right side of the second fixing block 301, five rotating rods 304 which are axially distributed are rotationally connected to the upper side of the third fixing block 303, the upper ends of the rotating rods 304 which are axially distributed are fixedly connected with second electric push rods 305, the telescopic ends of the five second electric push rods 305 face the right side, dryers 306 are fixedly connected to the telescopic ends of the five second electric push rods 305 and used for carrying out secondary drying treatment on the sheet which is not dried by the dryer 105, the sensors 302 and the second electric push rods are electrically connected with a control panel 113 through pull ropes and used for driving the surrounding dryers 306 to adjust the direction to assist irradiation, and the sensors 302 and the second electric push rods are electrically connected with the control panel 113 and used for detecting the humidity of the sheet which is timely carrying out secondary drying treatment on the sheet.

In the process of drying the wide-angle cloth, the humidity of the wide-angle cloth after being dried by the dryer 105 is detected by the sensor 302, detected data is transmitted to the control panel 113 through a wire to be displayed, and when the humidity of the wide-angle cloth is detected to be higher, the control panel 113 starts the dryer 306 to dry the wide-angle cloth for the second time.

In the above-mentioned detection process, when detecting that wide-angle cloth humidity is very big, control panel 113 starts evenly distributed's second electric putter 305, and the flexible end of second electric putter 305 promotes adjacent dryer 306 to being close to wide-angle cloth direction, reduces the distance between dryer 306 and the wide-angle cloth, improves the infrared irradiation temperature of wide-angle cloth to improve drying efficiency.

In the above detection process, when the uneven humidity of the wide-angle cloth is detected, the second electric push rod 305 close to the position where the humidity of the wide-angle cloth is larger is started through the control panel 113, the telescopic end of the second electric push rod 305 pushes the adjacent dryer 306 to approach to the direction of the wide-angle cloth, and drives the adjacent dryer 306 to move through the pull rope, when the pull rope drives the adjacent dryer 306 to move to the direction of the wide-angle cloth, the dryer 306 drives the adjacent second electric push rod 305 to rotate to the direction where the humidity of the wide-angle cloth is larger, the second electric push rod 305 drives the adjacent rotating rod 304 to rotate, so that the dryer 306 close to the position where the wide-angle cloth is not dried moves forward, and meanwhile, the adjacent dryer 306 is driven to rotate to the position where the wide-angle cloth is not dried to irradiate, the effect of secondary drying on the position where the wide-angle cloth is not dried is achieved, and after the sensor 302 detects that the humidity is reduced and even, the control panel 113 controls the telescopic end of the second electric push rod 305 to retract.

Example 3: on the basis of embodiment 2, as shown in fig. 8 and 9, the utility model further comprises a deviation adjusting mechanism arranged on the drying box 101, the deviation adjusting mechanism is used for adjusting the deviated wide-angle cloth, the deviation adjusting mechanism comprises a third electric push rod 401, the third electric push rod 401 is fixedly connected to the upper part of the front wall of the drying box 101, the telescopic end of the third electric push rod 401 is downward and fixedly connected with a connecting block 402, the rear wall of the drying box 101 ball is connected with the rear end of a third rotating shaft 403, the front end of the third rotating shaft 403 is fixedly connected with a telescopic rod 404 for preventing the telescopic end of the third electric push rod 401 from being clamped when the third rotating shaft 403 rotates, the telescopic end of the telescopic rod 404 is in ball joint with the connecting block 402, the two ends of the side wall of the third rotating shaft 403 are fixedly connected with three pressure plates 405 distributed in the circumferential direction for detecting the deviation of the wide-angle cloth, the third electric push rod 401 and the pressure plates 405 are electrically connected with the control panel 113 for transmitting the deviation state of the cloth and adjusting in time, the distance between the two groups of the circumferentially distributed pressure plates 405 is larger than the width of the wide-angle cloth, and the drying box 101 is provided with an adjusting mechanism for adjusting the whole tension of the wide-angle cloth.

As shown in fig. 10, the adjusting mechanism includes a first cylindrical shell 501, the first cylindrical shell 501 is fixedly connected to the front side of the drying box 101, a first cylindrical plug 502 is slidably connected to the first cylindrical shell 501, the outer diameter of the first cylindrical plug 502 is equal to the inner diameter of the first cylindrical shell 501, two side walls of the drying box 101 are fixedly connected with second cylindrical shells 503, two symmetrically distributed second cylindrical shells 503 are slidably connected with second cylindrical plugs 504 for adjusting the height of the adjacent first rotating shaft 106, thereby adjusting the tension of the wide-angle cloth between the two first rotating shafts 106, further adjusting the tension of the wide-angle cloth, the symmetrically distributed second cylindrical plugs 504 are all rotatably connected with the adjacent first rotating shaft 106, the symmetrically distributed second cylindrical shells 503 are all communicated with the first cylindrical shell 501 through a conduit and are all full of hydraulic oil, an electromagnetic valve 505 is arranged in the conduit between the first cylindrical shell 501 and the second cylindrical shells 503 for locking the height of the second cylindrical shells 503 when the tension of the cloth is normal, thereby fixing the position of the upper first rotating shaft 106, the electromagnetic valve 505 is electrically connected with the control panel 113 for detecting the wide-angle cloth, and the wide-angle detection mechanism is arranged between the control panel 113 and the wide-angle cloth for detecting the drying box 101.

As shown in fig. 11 and 12, the detection mechanism includes a second slider 601, the second slider 601 is slidingly connected to the front side wall of the drying box 101, the second slider 601 is rotationally connected to the first rotating shaft 106 at the lower side, two elastic members 602 symmetrically distributed up and down are connected between the two first sliders 103 at the lower side and the drying box 101, for resetting the first rotating shaft 106 at the lower side, two racks 603 symmetrically distributed up and down are slidingly connected to the upper portion of the second slider 601, a third slider 604 is fixedly connected to the left end of the first cylindrical plug 502, right ends of the two symmetrically distributed racks 603 are both connected to the left side of the third slider 604, a second pressure spring 605 is connected between the right side of the third slider 604 and the left end of the first cylindrical shell 501, for resetting the third slider 604 and the two racks 603 after the device is stopped using, a gear 606 meshed with the racks 603 is fixedly connected to the front end of the first rotating shaft 106, for providing power to adjust the height of the first rotating shaft 106, the distance between the two symmetrically distributed racks 603 is greater than the outer diameter of the gear 606, and the two racks 603 are prevented from being in contact with the first rotating shaft 101, and the two racks are not symmetrically distributed, and the two racks are prevented from sliding and contacting each other.

In the process that the worker winds the wide-angle cloth on the first rotating shaft 106 and the second rotating shaft 107, the wide-angle cloth is synchronously wound on the third rotating shaft 403, and then the above process is repeated to dry the wide-angle cloth, but in the moving process of the wide-angle cloth, the front side and the rear side of the wide-angle cloth are different in tension possibly due to uneven cloth dip dyeing and the like, so that when the wide-angle cloth rotates on the third rotating shaft 403, the wide-angle cloth deflects to the side with smaller tension, and the wide-angle cloth deflects, thereby influencing the drying.

Therefore, when the front tension of the wide-angle cloth is smaller, the wide-angle cloth deflects towards the front side, the wide-angle cloth deflects to press the front pressure piece 405, and when the front pressure piece 405 is pressed, the control panel 113 starts the third electric push rod 401, the telescopic end of the third electric push rod 401 is retracted, the telescopic end of the third electric push rod 401 drives the connecting block 402 to move upwards, the connecting block 402 drives the telescopic rod 404 to move upwards, the telescopic end of the telescopic rod 404 stretches out when moving upwards, the telescopic rod 404 drives the front end of the third rotating shaft 403 to move upwards, and the front end of the third rotating shaft 403 moves upwards to contact and press the wide-angle cloth, so that the tension of the front side of the wide-angle cloth is increased, and the wide-angle cloth deflects towards the rear side to reset.

When the wide-angle cloth is offset to the rear side, the wide-angle cloth presses the pressure piece 405 at the rear side, when the pressure piece 405 at the rear side is pressed, the control panel 113 starts the third electric push rod 401, the telescopic end of the third electric push rod 401 stretches out, the telescopic end of the third electric push rod 401 drives the connecting block 402 to move downwards, the connecting block 402 drives the telescopic rod 404 to move downwards, the telescopic end of the telescopic rod 404 stretches out when moving downwards, the telescopic rod 404 drives the rear end of the third rotating shaft 403 to move downwards, the rear end of the third rotating shaft 403 moves downwards to release the pressing with the wide-angle cloth, the tension at the front side of the wide-angle cloth is reduced, and accordingly the wide-angle cloth is offset to reset to the front side.

After the wide-angle cloth is offset and reset, the pressure piece 405 is not extruded any more, the control panel 113 starts the third electric push rod 401 to reset the telescopic end of the third electric push rod 401, the telescopic end of the third electric push rod 401 drives the connecting block 402 to reset, the connecting block 402 drives the telescopic rod 404 and the telescopic end of the telescopic rod 404 to reset, the telescopic rod 404 resets and drives the third rotating shaft 403 to reset, the connecting block 402 is pushed to move through the telescopic end of the third electric push rod 401, the height of one side of the third rotating shaft 403 is adjusted, and the tension born by two sides of the wide-angle cloth is changed, so that the wide-angle cloth which is offset in the rotation process is corrected.

In the drying process of the wide-angle cloth, the extrusion force between the wide-angle cloth and the adjacent first rotating shaft 106 is changed due to the excessively high conveying speed or the viscosity between the glue solution of the wide-angle cloth and the first rotating shaft 106, so that the tension of the wide-angle cloth is larger or smaller, when the tension of the wide-angle cloth is larger, the first rotating shaft 106 at the lower side of the wide-angle cloth is extruded to move upwards, the first rotating shaft 106 moves upwards to drive the adjacent first sliding block 103 to move upwards, the first sliding block 103 moves upwards to compress the elastic piece 602 at the upper side of the first sliding block, and stretches the elastic member 602 at the lower side, the first rotating shaft 106 moves upwards to drive the second sliding block 601 to move upwards, the second sliding block 601 moves upwards to drive the two racks 603 to move upwards, until the racks 603 at the lower side move upwards to be meshed with the gear 606, the control panel 113 opens the electromagnetic valve 505, in the process, the wide-angle cloth drives the first rotating shaft 106 at the upper side to rotate, the first rotating shaft 106 drives the gear 606 to rotate, the gear 606 rotates to drive the lower side rack 603 to move leftwards, the rack 603 drives the third sliding block 604 to move leftwards, the third sliding block 604 drives the first cylindrical plug 502 to move leftwards and compress the second pressure spring 605, the first cylindrical plug 502 moves leftwards to squeeze hydraulic oil in the first cylindrical shell 501 into the second cylindrical shell 503 through adjacent pipes, the symmetrically distributed second cylindrical shells 503 are communicated, the hydraulic oil in the symmetrically distributed second cylindrical shells 503 presses the adjacent second plungers 504 downward respectively, the second plungers 504 symmetrically distributed drive the adjacent first shafts 106 to move downward, so that the height of the upper first shaft 106 is reduced, the extrusion force between the upper first shaft 106 and the wide-angle cloth is reduced, the tension of the wide-angle cloth between the two first shafts 106 is adjusted, and the tension of the wide-angle cloth in the drying box 101 is further reduced.

After the tension is reduced, the elastic piece 602 resets to drive the adjacent first sliding blocks 103 to move and reset, the first sliding blocks 103 downwards move to drive the adjacent first rotating shafts 106 to reset, the first rotating shafts 106 reset to drive the second sliding blocks 601 downwards move, the second sliding blocks 601 downwards move to drive the racks 603 downwards move, the racks 603 at the lower side downwards move out of engagement with the gears 606, the gears 606 do not drive the third sliding blocks 604 to move through the racks 603 any more, namely the first cylindrical plugs 502 do not move any more, at the moment, the electromagnetic valves 505 are closed, so that the positions of the symmetrically distributed second cylindrical plugs 504 are no longer changed, and the positions of the first rotating shafts 106 at the upper side are fixed after being changed.

In the tension change process, when the tension becomes small, the wide-angle cloth extrudes the pressure of the first rotating shaft 106 at the lower side to decrease, the first rotating shaft 106 is driven by gravity to move downwards, the first rotating shaft 106 moves downwards to drive the adjacent first sliding block 103 to move downwards, the first sliding block 103 moves downwards to compress the elastic piece 602 at the lower side and stretch the elastic piece 602 at the upper side, the first rotating shaft 106 moves downwards to drive the second sliding block 601 to move downwards, the second sliding block 601 moves downwards to drive the rack 603 to move downwards, the upper rack 603 moves downwards to be meshed with the gear 606, the wide-angle cloth drives the first rotating shaft 106 at the upper side to rotate in the process, the first rotating shaft 106 drives the gear 606 to rotate, the gear 606 rotates to drive the rack 603 at the upper side to move rightwards, the rack 603 at the upper side drives the third sliding block 604 to move rightwards, the third sliding block 604 drives the first cylindrical piston 502 to move rightwards and compress the second pressure spring 605, hydraulic oil in the two second cylindrical shells 503 is extracted into the first cylindrical shells through adjacent guide pipes to enable the two cylindrical shells to form negative pressure, the two cylindrical shells 503 respectively drive the two cylindrical shells to move upwards to the adjacent cylindrical shells to move upwards, the two cylindrical shells to move upwards together with the first rotating shafts 106, and the tension between the two cylindrical shells is increased, and the tension is increased.

After the drying is completed, the control panel 113 opens the electromagnetic valve 505, the second pressure spring 605 resets to push the third sliding block 604 to reset, the third sliding block 604 pushes the rack 603 to reset, the third sliding block 604 resets to drive the first cylindrical plug 502 to reset, the first cylindrical plug 502 resets to reset the hydraulic oil in the first cylindrical shell 501 and the second cylindrical shell 503, thereby resetting the two second cylindrical plugs 504, the second cylindrical plugs 504 drive the upper first rotating shaft 106 to reset, the lower first rotating shaft 106 receives extrusion force to detect the tension of the wide-angle cloth being dried, and then the position of the upper first rotating shaft 106 is adjusted to change the tension of the wide-angle cloth, so that the deformation in the drying process of the wide-angle cloth is prevented.

Example 4: on the basis of embodiment 3, a wide-angle cloth drying method used by a wide-angle cloth uniform drying apparatus includes the steps of:

s1: introducing wide-angle cloth into the drying box 101, winding the wide-angle cloth on a first rotating shaft 106 and a second rotating shaft 107 in the drying box 101, and opening the dryer 105 through the control panel 113 to perform infrared light irradiation on the wide-angle cloth for drying;

s2: after the wide-angle cloth is subjected to drying treatment by the dryer 105, the sensor 302 detects the humidity of the wide-angle cloth, and controls the dryer 306 to perform secondary drying treatment on the wide-angle cloth at the non-dried position;

s3: when the wide-angle cloth is deviated, the pressure sheet 405 is extruded, the third electric push rod 401 is started through the control panel 113 to adjust the position of the third rotating shaft 403 at the upper side, and the wide-angle cloth is corrected;

s4: the tension of the wide-angle cloth in front of the symmetrically distributed first rotating shafts 106 is suitable by adjusting the position of the upper first rotating shaft 106, so that the wide-angle cloth is flatly wound on the first rotating shaft 106 and the second rotating shaft 107;

s5: the tension change of the wide-angle cloth on the wind-up roll drives the first rotating shaft 106 at the lower side to deviate, the upper and lower positions of the first rotating shaft 106 at the upper side are adjusted according to the deviation of the first rotating shaft 106 at the lower side, so that the tension of the wide-angle cloth in front of the first rotating shaft 106 which is symmetrically distributed is changed, and the whole tension of the wide-angle cloth in the drying box 101 is adjusted.

It should be understood that this example is only illustrative of the invention and is not intended to limit the scope of the invention. Further, it is understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the present invention, and such equivalents are intended to fall within the scope of the claims appended hereto.

Claims (10)

1. The utility model provides a wide-angle cloth even type drying equipment, its characterized in that, including stoving case (101), the both sides of stoving case (101) are provided with feed inlet and discharge gate respectively, stoving case (101) are provided with fan (102) and evenly distributed's air exit, be provided with symmetrical and evenly distributed's first slider (103) in stoving case (101), the rigid coupling has evenly distributed's spline pole (104) in stoving case (101), spline pole (104) sliding connection has axially distributed's desicator (105), symmetrical distribution first slider (103) between rotate be connected with first pivot (106), stoving case (101) internal rotation is connected with evenly distributed's second pivot (107), stoving case (101) rigid coupling has supporting shoe (108), supporting shoe (108) rigid coupling has first electric putter (109), supporting shoe (108) sliding connection have with motor (110) of the flexible end rigid coupling of first electric putter (109), the rigid coupling of motor (110) has drive wheel (111), be close to supporting shoe (103) second pivot (103), drying case (101) rotation is connected with evenly distributed's second pivot (107), drying case (101) rotation is provided with control panel (112) The first electric push rod (109) and the motor (110) are electrically connected with the control panel (113), the drying box (101) is provided with a distance adjusting mechanism for adjusting the distance between adjacent dryers (105) before drying, and the drying box (101) is provided with a secondary drying mechanism for carrying out secondary drying on the wide-angle cloth which is not completely dried.

2. A wide-angle cloth uniform dryer according to claim 1, characterized in that said driving wheel (111) is arranged in a circular table shape, and the side wall of said driving wheel (111) is parallel to the side wall of said rotating wheel (112).

3. The wide-angle uniform cloth drying equipment according to claim 1, wherein the distance adjusting mechanism comprises a first fixing block (201), the first fixing block (201) is fixedly connected to the drying box (101), the first fixing block (201) is slidably connected with a first sliding block (202) which is symmetrically distributed, the first sliding blocks (202) which are symmetrically distributed are respectively and slidably connected with adjacent spline rods (104), first sliding rods (203) are fixedly connected to opposite sides of the first sliding blocks (202) which are symmetrically distributed, round pipes (204) are fixedly connected between the first sliding rods (203) which are symmetrically distributed in a sliding manner, a second sliding rod (205) is fixedly connected to the motor (110), a cylindrical block (206) is fixedly connected to the drying box (101), the cylindrical block (206) is slidably connected with the second sliding rod (205), the cylindrical block (206) is communicated with the round pipes (204) through a guide pipe, a connecting piece (207) is fixedly connected to opposite sides of the first sliding blocks (202), a connecting piece (207) is fixedly connected with the second sliding block (203), and a spline (104) which is symmetrically distributed between the second sliding block (208) and the adjacent spline rods (104) are fixedly connected to the same.

4. A wide-angle cloth uniform drying apparatus as set forth in claim 3, wherein the upper parts of the opposite sides of said first sliding bar (203) which are symmetrically distributed are provided with semi-cylindrical projections, and the sum of the lengths of the semi-cylindrical projections which are symmetrically distributed is larger than the diameter of the guide pipe connected between said circular tube (204) and said cylindrical block (206).

5. The wide-angle cloth uniform drying device according to claim 1, wherein the secondary drying mechanism comprises a second fixing block (301), the second fixing block (301) is fixedly connected in the drying box (101), a sensor (302) which is axially distributed is fixedly connected in the second fixing block (301), a third fixing block (303) is fixedly connected in the drying box (101), the third fixing block (303) is rotationally connected with a rotating rod (304) which is axially distributed, the rotating rods (304) which are axially distributed are fixedly connected with a second electric push rod (305), the telescopic ends of the second electric push rods (305) are fixedly connected with dryers (306), adjacent dryers (306) are connected through pull ropes, and the sensor (302) and the second electric push rods (305) are electrically connected with the control panel (113).

6. The wide-angle cloth uniform drying equipment according to claim 5, further comprising a deviation adjusting mechanism arranged on the drying box (101), wherein the deviation adjusting mechanism is used for adjusting deviation of wide-angle cloth, the deviation adjusting mechanism comprises a third electric push rod (401), the third electric push rod (401) is fixedly connected with the drying box (101), a connecting block (402) is fixedly connected with the telescopic end of the third electric push rod (401), a third rotating shaft (403) is connected with the drying box (101) in a ball mode, a telescopic rod (404) is fixedly connected with the third rotating shaft (403), the telescopic end of the telescopic rod (404) is connected with the connecting block (402) in a ball mode, pressure pieces (405) distributed in the circumferential direction are fixedly connected with two ends of the side wall of the third rotating shaft (403), the third electric push rod (401) and the pressure pieces (405) are electrically connected with the control panel (113), and the drying box (101) is provided with an adjusting mechanism for adjusting the whole tension of the wide-angle cloth.

7. A wide-angle cloth uniformity dryer apparatus according to claim 6, wherein the distance between two sets of circumferentially distributed pressure plates (405) is greater than the width of the wide-angle cloth.

8. The wide-angle cloth uniform drying apparatus according to claim 6, wherein said adjusting mechanism comprises a first cylindrical shell (501), said first cylindrical shell (501) is fixedly connected to said drying box (101), a first cylindrical plug (502) is slidably connected to said first cylindrical shell (501), said drying box (101) is fixedly connected to a second cylindrical shell (503) which is symmetrically distributed, a second cylindrical plug (504) is slidably connected to said second cylindrical shell (503) which is symmetrically distributed, said second cylindrical plug (504) which is symmetrically distributed is rotatably connected to said first rotary shaft (106) which is adjacent thereto, hydraulic oil is filled between said second cylindrical shell (503) and said first cylindrical shell (501) which are symmetrically distributed, a solenoid valve (505) is disposed in a conduit between said first cylindrical shell (501) and said second cylindrical shell (503), said solenoid valve (505) is electrically connected to said control panel (113), and said drying box (101) is provided with a detection mechanism for detecting cloth tension.

9. The wide-angle cloth uniform drying equipment according to claim 8, wherein the detection mechanism comprises a second slider (601), the second slider (601) is slidably connected to the drying box (101), the second slider (601) is rotatably connected to the adjacent first rotating shaft (106), symmetrically distributed elastic pieces (602) are respectively connected between the first slider (103) and the drying box (101) which are symmetrically distributed on the first rotating shaft (106) and rotatably connected to the second slider (601), symmetrically distributed racks (603) are slidably connected to the second slider (601), third sliders (604) are fixedly connected to the first cylindrical plugs (502), symmetrically distributed racks (603) are slidably connected to the third sliders (604), second compression springs (605) are connected between the third sliders (604) and the first cylindrical shells (501), symmetrically distributed racks (603) are fixedly connected between the rotating shafts (103) which are close to the first cylindrical shells (501), and the rack (603) which are matched with the first cylindrical shells (501) are symmetrically distributed, and the distance between the racks (603) is larger than the outer diameter of the drying box (101).

10. A wide-angle cloth drying method for a wide-angle cloth uniform drying apparatus according to claim 6, comprising the steps of:

s1: introducing wide-angle cloth into a drying box (101), winding the wide-angle cloth on a first rotating shaft (106) and a second rotating shaft (107) in the drying box (101), and opening a dryer (105) through a control panel (113) to perform infrared irradiation on the wide-angle cloth for drying;

s2: after the wide-angle cloth is subjected to drying treatment by a dryer (105), a sensor (302) detects the humidity of the wide-angle cloth, and controls a dryer (306) to carry out secondary drying treatment on the wide-angle cloth at the position where the wide-angle cloth is not dried;

s3: when the wide-angle cloth is deviated, the pressure sheet (405) is extruded, the third electric push rod (401) is started through the control panel (113) to adjust the position of the upper third rotating shaft (403), and the wide-angle cloth is corrected;

s4: the tension of the wide-angle cloth in front of the symmetrically distributed first rotating shafts (106) is suitable by adjusting the position of the upper first rotating shafts (106), so that the wide-angle cloth is flatly wound on the first rotating shafts (106) and the second rotating shafts (107);

s5: the tension change of the wide-angle cloth on the wind-up roll can drive the first rotating shaft (106) at the lower side to deviate, the upper and lower positions of the first rotating shaft (106) at the upper side are adjusted according to the deviation of the first rotating shaft (106) at the lower side, the tension of the wide-angle cloth before the first rotating shaft (106) which is symmetrically distributed is changed, and then the whole tension of the wide-angle cloth in the drying box (101) is adjusted.