CN118687355A - A drying device for textile processing - Google Patents

Abstract

The present invention belongs to the technical field of textile drying, and discloses a drying device for textile processing, including a processing box, and also including a cover plate, which is fixed to the top of the processing box by bolts; and a pressure relief valve, which is installed inside the cover plate. The present invention lays a carpet flat on the second mesh plate, so that the first mesh plate and the second mesh plate are combined to clamp the carpet between them, so that the carpet is fixed by a row of pins located between the first mesh plate and the second mesh plate, ensuring that the carpet is always in a flat state, and the hot air flow generated by the hot air blower enters the processing box through the shunt pipe, and the fixed shaft, the first mesh plate, the fixed shaft and the carpet rotate in the processing box with the fixed shaft as the central axis under the action of the air flow. During the rotation, the hot air flow generated by the hot air blower is used to dry the carpet, which can avoid wrinkles or uneven drying of the carpet during the drying process, and can ensure that the carpet is more uniform during the drying process.

Description

Drying equipment is used in fabrics processing

Technical Field

The invention belongs to the technical field of textile drying, and particularly relates to drying equipment for textile processing.

Background

The wall blanket is a carpet handicraft hung on a wall and a gallery column for decoration, and the raw materials and the weaving method are the same as those of the carpet, so that the wall blanket is used for decoration of the inner wall surface of a room; the existing tapestry is rich in variety and better in decoration effect, patterns or knots knitted by textile threads with various colors form an effect similar to a thread curtain, but most of current tapestry cleaning and drying processes by a washing machine and a dryer, and due to various types of the existing tapestry knots, the existing dryer drying can drive the tapestry to rotate, the effect of rubbing the tapestry can be caused in the process, the tapestry is caused to knot or deform, and further the subsequent decoration effect of the tapestry is affected, so that the drying equipment for textile processing is provided.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides drying equipment for textile processing, which solves the problems that the existing dryer can drive a tapestry to rotate, and the tapestry can be subjected to a jolt-rubbing effect in the process, so that the tapestry is knotted or deformed, and the subsequent decorative effect of the tapestry is affected.

In order to achieve the above purpose, the present invention provides the following technical solutions: a drying device for textile processing, which comprises a processing box and also comprises,

The cover plate is fixed on the top of the treatment box through bolts;

the pressure relief valve is arranged in the cover plate;

the drying component is fixedly arranged outside the treatment box and is communicated with the inside of the treatment box;

the recovery component is fixedly arranged outside the treatment box and far away from the drying component;

A fixing assembly assembled inside the treatment tank for supporting textiles;

The transmission components are arranged at two ends of the treatment box, are used for bearing the fixing components and are connected with the recovery components;

the drying assembly comprises a shunt tube communicated with the outside of the treatment box, and a hot air blower is fixedly arranged on the side part of the shunt tube;

The transmission assembly comprises connecting blocks which are connected to the two ends of the processing box in a sliding manner, and one end of each connecting block is semicircular;

The fixed subassembly is including lapping two fixed axle between the connecting block, logical groove has been seted up to the outside annular array of fixed axle, logical inslot block has first otter board and second otter board, the one end combination of first otter board and second otter board is cylindric and block in logical inslot, the other end of first otter board and second otter board articulates each other, the guide way has been seted up at the both ends of first otter board, and the one end of guide way is provided with the lug, and slidable mounting has the catch bar in the guide way, the recess with the lug adaptation has been seted up respectively to the bottom and the bottom of catch bar, two fixed mounting has the row needle between the catch bar, the length of row needle is greater than the thickness of first otter board and second otter board.

Preferably, the drying assembly further comprises a guide plate hinged to the inside of the shunt pipe, a connecting rod is connected between the two guide plates, and a driving device is installed at one end of each guide plate and used for controlling the air flow direction.

Preferably, the both ends of handling the case have seted up the spout, the connecting block slides in the spout, the top fixed mounting of connecting block has sealed closing plate to the spout, the connecting block with fixed mounting has the spring telescopic link between the handling the case.

Preferably, the recovery assembly comprises a collecting pipe communicated with the inside of the treatment box, one end of the collecting pipe is connected with a collecting box, a first guide rod is fixedly arranged at the bottom of the inside of the collecting box, fixing frames are respectively and fixedly arranged at two ends of the inside of the collecting box, fixing plates at two ends of the inside of the collecting box are hinged between the two connecting plates, a first silica gel pad is connected between the two connecting plates, the two fixing plates respectively slide on the first guide rod and a second guide rod, a spring is connected between the second silica gel pad and the fixing plates, air inlet pipes are connected at two sides of the collecting box, the other ends of the air inlet pipes are connected with air inlet positions of the hot air fans, and the second silica gel pad is consistent with the first silica gel pad in structure.

Preferably, the hot air flow of the treatment box enters the collecting box and is adsorbed to the doped moisture through the first silica gel pad and the second silica gel pad respectively, if the air pressure in the air flow large collecting box is increased, the middle part of the first silica gel pad is pushed and the connecting plate of the fixing plate is driven to rotate, a gap is formed between the rotation of the connecting plate and the inner wall of the collecting box, and the hot air flow enters the air inlet pipe and the treatment box through the gap.

Preferably, the bottom fixed mounting of gathering case has the drain tank, gathering incasement wall both sides respectively fixed mounting has the baffle, gathering incasement portion's both ends and be located the push plate between two first silica gel pads, the outside of push plate is connected with the rope, the other end of rope with the bottom of connecting block is connected, rectangular channel has been seted up respectively to the both ends of gathering case bottom, two the bottom of second silica gel pad is connected with the rectangular plate sealed to rectangular channel respectively, the lateral part of drain tank is connected with the drain pipe.

Preferably, the top of the pushing plate slides on the second guide rod, the bottom of the pushing plate slides on the first guide rod, and the middle of the pushing plate is consistent with the specification of the first silica gel pad.

Preferably, the baffle plate is in butt joint with the aggregation box through a connecting rod, the aggregation box is communicated with the air inlet pipe through the connecting rod, and the pushing plate is consistent with the specification of the first silica gel pad.

Preferably, a rectangular through groove is formed in one end of the rectangular plate, the rectangular groove at the bottom of the collecting box is plugged through the other end of the rectangular plate, the rectangular plate slides outwards to enable the rectangular through groove to coincide with the rectangular groove, and the collecting box is communicated with the drainage box.

Preferably, the connecting block moves up under the action of the spring telescopic rod, the pushing plate is pulled to slide to the outer end through the rope, so that the pushing plate is contacted with the first silica gel pad, the first silica gel pad is pushed to slide to the outer end of the fixing plate, the baffle plate is contacted with the first silica gel pad, the spring is compressed, and the first silica gel pad and the second silica gel pad are extruded through the pushing plate to be dehydrated.

Compared with the prior art, the invention has the following beneficial effects:

According to the invention, the wallboards are tiled on the second screen plate, so that the first screen plate and the second screen plate are combined to clamp the wallboards, then the cylinders at one ends of the first screen plate and the second screen plate are clamped in the through grooves outside the fixing shaft, the first screen plate and the second screen plate are further fixed through the through grooves, the row pins and the pushing rods are pushed, the row pins penetrate through the wallboards between the first screen plate and the second screen plate and the wallboards, the pushing rods and the row pins are fixed through the convex blocks in the guide grooves and are clamped in the grooves at the bottom of the pushing rods, the wallboards are fixed through the positions of the row pins between the first screen plate and the second screen plate, the wallboards are always in a flat state, the hot air flow generated by the hot air blower enters the treatment box through the split pipes, the fixing shaft, the first screen plate, the fixing shaft and the wallboards rotate in the treatment box by taking the fixing shaft as central shafts under the action of the air flow, the hot air flow generated by the hot air blower is used for drying the wallboards, the wallboards in the drying treatment of the wallboards, the wallboards can be avoided in the drying process, and meanwhile, the wallboards can be more uniformly dried in the drying process;

in the invention, in the process of drying the wallcarpet in the treatment box by hot air generated by the hot air blower, the hot air is doped with water vapor, and the hot air passes through the first silica gel pad and the second silica gel pad, so that the first silica gel pad and the second silica gel pad have good water absorption and drainage property, moisture in the air is absorbed, and after the moisture in the air is absorbed by the first silica gel pad and the second silica gel pad, the air penetrates through the first silica gel pad and the second silica gel pad and is injected into the treatment box by the hot air blower and the shunt tube through the air inlet pipe for continuous recycling, thereby avoiding waste caused by direct discharge of the hot air, further reducing the power of the hot air blower and improving the efficiency of drying the wallcarpet;

According to the invention, the fixing component and the wall blanket are taken out, the connecting block pulls the rope to move towards the outer end through the other end of the rope under the action of the spring telescopic rod, the rope is contacted with the first silica gel pad, meanwhile, the first silica gel pad is pushed to compress the spring to enable the first silica gel pad to be contacted with the second silica gel pad, the second silica gel pad is contacted with the baffle, the rectangular through groove at one end is coincided with the rectangular groove by pushing the rectangular plate in the moving process of the second silica gel pad, the collecting box is communicated with the drainage box, and the pushing plate continuously moves to squeeze the first silica gel pad and the second silica gel pad, so that moisture adsorbed by the first silica gel pad and the second silica gel pad is discharged, and the drying efficiency of the wall blanket is improved.

Drawings

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

FIG. 2 is a schematic view of the assembly of the fixing assembly and the processing box of the present invention;

FIG. 3 is a schematic side cut-away plan view of the present invention;

FIG. 4 is a schematic view of the external structure of the fixing assembly of the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4A according to the present invention;

FIG. 6 is a schematic view of a fixing assembly of the present invention in a cut-away configuration;

FIG. 7 is a schematic view of the recovery unit according to the present invention;

FIG. 8 is a schematic view of a recovery assembly of the present invention in a cut-away configuration;

FIG. 9 is a schematic top view of a recovery assembly of the present invention in a cut-away plan configuration;

FIG. 10 is a schematic view of the explosive structure of the recovery assembly of the present invention;

FIG. 11 is a schematic view of the mating structure of the fixture assembly and the processing chamber of the present invention;

fig. 12 is an enlarged schematic view of the structure of the present invention at B.

In the figure: 1. a treatment box; 2. a recovery assembly; 21. a collecting box; 211. a pushing plate; 212. a rope; 213. a baffle; 214. a rectangular plate; 215. a drain tank; 216. a drain pipe; 22. an air inlet pipe; 23. a first silicone pad; 24. a second silicone pad; 25. a first guide bar; 26. a collection pipe; 27. a fixing plate; 28. a fixing frame; 29. a second guide bar; 30. a spring; 3. a cover plate; 4. a pressure release valve; 5. a transmission assembly; 51. a connecting block; 52. a spring telescoping rod; 53. a sealing plate; 54. a chute; 6. a drying assembly; 61. an air heater; 62. a shunt; 63. a guide plate; 64. a connecting rod; 7. a fixing assembly; 71. a first screen; 72. arranging needles; 73. a second screen; 74. a fixed shaft; 75. pushing the rod.

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.

As shown in fig. 1 to 12, the present invention provides a drying apparatus for textile processing, comprising a treatment box 1, further comprising,

The cover plate 3 is fixed on the top of the treatment box 1 through bolts;

The pressure release valve 4 is arranged in the cover plate 3;

the drying assembly 6 is fixedly arranged outside the processing box 1 and is communicated with the inside of the processing box 1;

The recovery assembly 2 is fixedly arranged outside the treatment box 1 and far away from the drying assembly 6;

a fixing assembly 7, the fixing assembly 7 being assembled inside the treatment tank 1 for supporting the textile;

the transmission assemblies 5 are arranged at two ends of the treatment box 1, are used for receiving the fixing assemblies 7 and are connected with the recovery assembly 2;

the drying assembly 6 comprises a shunt tube 62 communicated with the outside of the treatment box 1, and an air heater 61 is fixedly arranged on the side part of the shunt tube 62;

the transmission assembly 5 comprises a connecting block 51 which is connected with the two ends of the processing box 1 in a sliding way, and one end of the connecting block 51 is semicircular;

The fixed assembly 7 comprises a fixed shaft 74 overlapped between the two connecting blocks 51, a through groove is formed in an annular array outside the fixed shaft 74, a first screen plate 71 and a second screen plate 73 are clamped in the through groove, one ends of the first screen plate 71 and the second screen plate 73 are combined to be cylindrical and clamped in the through groove, the other ends of the first screen plate 71 and the second screen plate 73 are hinged to each other, guide grooves are formed in two ends of the first screen plate 71, a protruding block is arranged at one end of each guide groove, push rods 75 are slidably mounted in the guide grooves respectively, grooves matched with the protruding block are formed in the bottoms and the bottoms of the push rods 75 respectively, pin bars 72 are fixedly mounted between the two push rods 75, and the length of each pin bar 72 is larger than the thickness of the first screen plate 71 and the second screen plate 73.

The fixing component 7 is taken out after the cover plate 3 is taken down, the first screen plate 71 and the second screen plate 73 are separated from the through groove, namely the hinge joint can be rotated, the first screen plate 71 and the second screen plate 73 are in an opening state, the wallboards are paved on the second screen plate 73, the first screen plate 71 and the second screen plate 73 are combined to clamp the wallboards, then the columns at one end of the first screen plate 71 and the second screen plate 73 are clamped in the through groove outside the fixed shaft 74, the first screen plate 71 and the second screen plate 73 are further fixed through the through groove, meanwhile, a proper number of the first screen plate 71 and the second screen plate 73 are added according to the quantity of the wallboards required to be dried, the wallboards are improved in drying efficiency, the pushing pins 72 and the pushing rods 75 penetrate through the wallboards between the first screen plate 71 and the second screen plate 73, the pushing rods 75 are clamped in the bottom grooves of the pushing rods 75 through the lugs in the guide grooves to fix the pushing rods 75 and the pushing pins 72, thereby fix through the position that row needle 72 is located between first otter board 71 and the second otter board 73, guarantee that the tapestry is in the horizontality all the time, through accomplish the tapestry fixed back, fixed axle 74 is placed in the inside of handling case 1 and both ends overlap joint respectively between two connecting blocks 51, apron 3 is fixed in the top start-up air heater 61 of handling case 1 and is produced the hot-blast air current and get into the inside of handling case 1 through shunt tubes 62, and fixed axle 74, first otter board 71, fixed axle 74 and tapestry use fixed axle 74 as the axis rotation in handling case 1 under the effect of air current, the hot air current that produces through air heater 61 in the rotation process carries out the stoving processing to the tapestry, can avoid the tapestry to appear the fold or appear the inhomogeneous phenomenon of stoving in the stoving in-process, can guarantee that the tapestry is more even in the stoving process simultaneously.

As shown in fig. 3, the drying assembly 6 further includes a guide plate 63 hinged inside the shunt tube 62, a connecting rod 64 is connected between the two guide plates 63, and a driving device is installed at one end of the guide plate 63 for controlling the direction of air flow.

Through placing the tapestry and the fixed subassembly 7 in the inside of handling the case 1, the air current that the air heater 61 produced blows into the processing case 1 through shunt tubes 62, simultaneously through deflector 63 to its air current control, make it rotate along handling case 1 inner wall, and blow first otter board 71, second otter board 73 and tapestry and use fixed axle 74 to rotate as the axis, the temperature through the air current carries out the drying treatment to the tapestry, after the stoving for a certain time, deflector 63 one end drive arrangement drives deflector 63 rotation, thereby change the direction that the air current got into handling case 1 through deflector 63 rotation, thereby blow fixed subassembly 7 and tapestry counter-rotating, thereby improve the efficiency that the tapestry was dried, make its positive and negative heat more even.

As shown in fig. 1, 11 and 12, slide grooves 54 are formed at both ends of the processing box 1, a connection block 51 slides in the slide grooves 54, a sealing plate 53 sealing the slide grooves 54 is fixedly mounted on the top of the connection block 51, and a spring expansion link 52 is fixedly mounted between the connection block 51 and the processing box 1.

Through taking out fixed subassembly 7 in the processing case 1, after taking out this moment connecting block 51 loses weight and pulls connecting block 51 to move up along spout 54 under the effect of spring telescopic link 52, be fixed in on the fixed subassembly 7 with the tapestry again, and because connecting block 51 is located the spout 54 upper end, thereby be convenient for overlap joint two both ends of fixed axle 74 between two connecting blocks 51, and then through the weight of fixed subassembly 7 self, push down connecting block 51 and slide down and make fixed subassembly 7 be located the inside of processing case 1, and connecting block 51 moves down in-process closing plate 53 moves down and seals spout 54, and tensile spring telescopic link 52, can be convenient for put the fixed subassembly 7 through drive assembly 5 and get.

As shown in fig. 7 to 10, the recovery assembly 2 comprises an aggregation pipe 26 communicated with the inside of the treatment tank 1, one end of the aggregation pipe 26 is connected with an aggregation tank 21, a first guide rod 25 is fixedly arranged at the bottom of the inside of the aggregation tank 21, fixing frames 28 are respectively and fixedly arranged at two ends of the inside of the aggregation tank 21, fixing plates 27 at two ends of the inside of the aggregation tank 21 are hinged between the two connecting plates, a first silica gel pad 23 is connected between the two connecting plates, the two fixing plates respectively slide on the first guide rod 25 and a second guide rod 29, a spring 30 is connected between the inside of the aggregation tank 21 and the fixing plates 27, two sides of the aggregation tank 21 are connected with an air inlet pipe 22, the other end of the air inlet pipe 22 is connected with an air inlet position of the hot air blower 61, and the second silica gel pad 24 is consistent with the first silica gel pad 23 in structure.

The hot air generated by the hot air blower 61 is injected into the processing box 1 to blow the fixing component 7 to rotate, enters the middle part of the collecting box 21 through the collecting pipe 26 and moves towards two ends respectively, and the hot air generated by the hot air blower 61 is doped with water vapor in the process of drying the wallboards in the processing box 1, and the hot air flows through the first silica gel pad 23 and the second silica gel pad 24, so that the hot air blower has good water absorption and drainage property, absorbs moisture in the air flow, and continuously circulates and uses the air after the moisture in the air passes through the first silica gel pad 23 and the second silica gel pad 24 and is injected into the processing box 1 through the hot air blower 61 and the shunt pipe 62 through the air inlet pipe 22, thereby avoiding waste caused by direct discharge of the hot air flow, further reducing the power of the hot air blower 61 and improving the efficiency of wall board drying;

The hot air flow of the treatment box 1 enters the collecting box 21 and is adsorbed to the doped moisture through the first silica gel pad 23 and the second silica gel pad 24 respectively, if the air pressure in the air flow large collecting box 21 is increased, the middle part of the first silica gel pad 23 is pushed and the connecting plate of the fixing plate 27 is driven to rotate, gaps are formed between the rotating connecting plate and the inner wall of the collecting box 21, and the hot air flow enters the air inlet pipe 22 and the treatment box 1 through the gaps, so that the phenomenon that the air cannot pass through due to the fact that the first silica gel pad 23 and the second silica gel pad 24 adsorb excessive moisture is avoided.

As shown in fig. 7-10, a drainage box 215 is fixedly installed at the bottom of the collecting box 21, baffles 213 are fixedly installed at two sides of the inner wall of the collecting box 21 respectively, pushing plates 211 are positioned at two ends of the inside of the collecting box 21 and between the two first silica gel pads 23, ropes 212 are connected to the outer sides of the pushing plates 211, the other ends of the ropes 212 are connected with the bottom of the connecting block 51, rectangular grooves are formed at two ends of the bottom of the collecting box 21 respectively, rectangular plates 214 sealed to the rectangular grooves are connected to the bottoms of the two second silica gel pads 24 respectively, and drainage pipes 216 are connected to the side parts of the drainage box 215;

The top of the pushing plate 211 slides on the second guide rod 29, the bottom of the pushing plate 211 slides on the first guide rod 25, and the middle of the pushing plate 211 is consistent with the specification of the first silica gel pad 23;

the baffle 213 is in butt joint with the collecting box 21 through a connecting rod, the collecting box 21 is communicated with the air inlet pipe 22 through the connecting rod, and the pushing plate 211 is consistent with the specification of the first silica gel pad 23;

A rectangular through groove is formed in one end of the rectangular plate 214, the rectangular groove at the bottom of the collecting box 21 is plugged through the other end of the rectangular plate 214, the rectangular plate 214 slides outwards to enable the rectangular through groove to coincide with the rectangular groove, and the collecting box 21 is communicated with the drainage box 215;

The connection block 51 moves up by the spring expansion link 52, pulls the push plate 211 to slide to the outer end by the rope 212 to make the push plate 211 contact with the first silica gel pad 23, pushes the first silica gel pad 23 to slide to the outer end of the fixing plate 27 to contact with the baffle 213 and compress the spring 30, and presses the first silica gel pad 23 and the second silica gel pad 24 by the push plate 211 to perform dehydration treatment.

The method comprises the steps that after the wallcarpet is dried through hot air flow in a treatment box 1, the wallcarpet enters a collecting box 21, the hot air flow penetrates through a first silica gel pad 23 and a second silica gel pad 24 to absorb moisture in the air flow, the filtered hot air flow flows back into the treatment box 1 through an air inlet pipe 22, after the wallcarpet is dried through the reciprocating mode, a fixing assembly 7 and the wallcarpet are taken out, a connecting block 51 pulls a rope 212 to move outwards through the other end of the rope 212 under the action of a spring telescopic rod 52, the rope 212 is contacted with the first silica gel pad 23, meanwhile, the first silica gel pad 23 is pushed to compress a spring 30 to enable the first silica gel pad 23 to be contacted with the second silica gel pad 24, the second silica gel pad 24 is contacted with a baffle 213, a rectangular through groove at one end is pushed to coincide with the rectangular groove in the moving process of the second silica gel pad 24, the collecting box 21 is communicated with a drainage box 215, the first silica gel pad 23 and the second silica gel pad 24 are extruded through continuous movement of a pushing plate 211, and the moisture absorbed by the first silica gel pad 23 and the second silica gel pad 24 is discharged through a drainage pipe 216;

When the wall blanket needs to be dried, the connecting block 51 moves downwards to lose tension on the rope 212, the first silica gel pad 23 and the second silica gel pad 24 reset under the action of the springs 30, so that the water in hot gas can be filtered, and the wall blanket drying effect is further improved.

The working principle and the using flow of the invention are as follows:

The fixing component 7 is taken out after the cover plate 3 is taken down, the first screen plate 71 and the second screen plate 73 are separated from the through groove, namely the hinge joint can be rotated, the first screen plate 71 and the second screen plate 73 are in an opening state, the wallboards are paved on the second screen plate 73, the first screen plate 71 and the second screen plate 73 are combined to clamp the wallboards, then the columns at one end of the first screen plate 71 and the second screen plate 73 are clamped in the through groove outside the fixed shaft 74, the first screen plate 71 and the second screen plate 73 are further fixed through the through groove, meanwhile, a proper number of the first screen plate 71 and the second screen plate 73 are added according to the quantity of the wallboards required to be dried, the wallboards are improved in drying efficiency, the pushing pins 72 and the pushing rods 75 penetrate through the wallboards between the first screen plate 71 and the second screen plate 73, the pushing rods 75 are clamped in the bottom grooves of the pushing rods 75 through the lugs in the guide grooves to fix the pushing rods 75 and the pushing pins 72, the arrangement needles 72 are positioned between the first screen 71 and the second screen 73 to ensure that the wallboards are always in a flat state, after the wallboards are fixed, the fixed shaft 74 is arranged in the treatment box 1, two ends of the fixed shaft are respectively lapped between the two connecting blocks 51, the cover plate 3 is fixed on the top of the treatment box 1 to start the hot air blower 61 to generate hot air flow which enters the treatment box 1 through the shunt pipes 62, the fixed shaft 74, the first screen 71, the fixed shaft 74 and the wallboards rotate in the treatment box 1 by taking the fixed shaft 74 as a central shaft under the action of the air flow, the wallboards are dried by hot air flow generated by the hot air blower 61 in the rotation process, the air flow generated by the hot air blower 61 is blown into the treatment box 1 through the shunt pipes 62, and meanwhile, the air flow of the hot air blower 61 is controlled by the guide plates 63 to rotate along the inner wall of the treatment box 1, the first screen plate 71, the second screen plate 73 and the tapestry are blown to rotate by taking the fixed shaft 74 as a central shaft, the tapestry is dried by the temperature of the air flow, after the tapestry is dried for a certain time, one end driving device of the guide plate 63 drives the guide plate 63 to rotate, so that the direction of the air flow entering the treatment box 1 is changed by the rotation of the guide plate 63, and the phenomenon that the tapestry is wrinkled or uneven in drying can be avoided in the drying process;

The hot air generated by the hot air blower 61 is injected into the processing box 1 to blow the fixing component 7 to rotate, enters the middle part of the collecting box 21 through the collecting pipe 26 and moves towards two ends respectively, and as the hot air flow generated by the hot air blower 61 is doped with water vapor in the process of drying the wallboards in the processing box 1, the hot air flow passes through the first silica gel pad 23 and the second silica gel pad 24, and after the water in the air is adsorbed by the first silica gel pad 23 and the second silica gel pad 24, the air penetrates through the first silica gel pad 23 and the second silica gel pad 24 and is injected into the processing box 1 through the air inlet pipe 22 through the hot air blower 61 and the shunt pipe 62 to be continuously recycled, waste caused by direct discharge of the hot air flow is avoided, and the power of the hot air blower 61 is further reduced;

After the drying treatment is finished by reciprocating the wallboards, the fixing assembly 7 and the wallboards are taken out, the connecting block 51 pulls the rope 212 to move towards the outer end through the other end of the rope 212 under the action of the spring telescopic rod 52, the rope 212 is contacted with the first silica gel pad 23, meanwhile, the first silica gel pad 23 is pushed to compress the spring 30 to enable the first silica gel pad 23 to be contacted with the second silica gel pad 24, the second silica gel pad 24 is contacted with the baffle 213, the rectangular plate 214 is pushed to enable the rectangular through groove at one end to coincide with the rectangular groove in the moving process of the second silica gel pad 24, the collecting tank 21 is communicated with the water draining box 215, and the pushing plate 211 continuously moves to squeeze the first silica gel pad 23 and the second silica gel pad 24, so that water absorbed by the first silica gel pad 23 and the second silica gel pad 24 is drained, and water absorbed by the first silica gel pad 23 enters the water draining box 215 and is drained through the water draining pipe 216.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A drying device for textile processing, comprising a processing box (1), characterized in that it also includes: A cover plate (3), wherein the cover plate (3) is fixed to the top of the processing box (1) by means of bolts; A pressure relief valve (4), the pressure relief valve (4) being installed inside the cover plate (3); A drying component (6), the drying component (6) being fixedly mounted on the outside of the processing box (1) and communicating with the inside of the processing box (1); A recovery component (2), the recovery component (2) being fixedly mounted outside the processing box (1) and away from the drying component (6); A fixing assembly (7), the fixing assembly (7) being mounted inside the treatment box (1) for supporting the textile; A transmission assembly (5), the transmission assembly (5) being arranged at both ends of the processing box (1) for receiving a fixing assembly (7) and being connected to the recovery assembly (2); The drying assembly (6) comprises a shunt pipe (62) connected to the outside of the processing box (1), and a hot air blower (61) is fixedly installed on the side of the shunt pipe (62); The transmission assembly (5) comprises a connection block (51) slidably connected to both ends of the processing box (1), and one end of the connection block (51) is in a semicircular arc shape; The fixing assembly (7) comprises a fixing shaft (74) overlapped between the two connecting blocks (51); a through groove is provided on the outer annular array of the fixing shaft (74); a first mesh plate (71) and a second mesh plate (73) are engaged in the through groove; one end of the first mesh plate (71) and the second mesh plate (73) are combined in a cylindrical shape and engaged in the through groove; the other ends of the first mesh plate (71) and the second mesh plate (73) are hinged to each other; guide grooves are provided at both ends of the first mesh plate (71); a protrusion is provided at one end of the guide groove; push rods (75) are slidably installed in the guide grooves; grooves matching the protrusions are provided at the bottom and the bottom of the push rod (75); a row of needles (72) is fixedly installed between the two push rods (75); the length of the row of needles (72) is greater than the thickness of the first mesh plate (71) and the second mesh plate (73). 2. The drying equipment for textile processing according to claim 1 is characterized in that: the drying component (6) also includes a guide plate (63) hinged to the inside of the diversion pipe (62), a connecting rod (64) is connected between the two guide plates (63), and a driving device is installed at one end of the guide plate (63) for controlling the direction of the airflow. 3. The drying equipment for textile processing according to claim 2 is characterized in that: slide grooves (54) are provided at both ends of the processing box (1), the connecting block (51) slides in the slide grooves (54), a sealing plate (53) for sealing the slide grooves (54) is fixedly installed on the top of the connecting block (51), and a spring telescopic rod (52) is fixedly installed between the connecting block (51) and the processing box (1). 4. The drying equipment for textile processing according to claim 3 is characterized in that: the recovery component (2) includes a gathering pipe (26) connected to the inside of the processing box (1), one end of the gathering pipe (26) is connected to the gathering box (21), a first guide rod (25) is fixedly installed at the bottom of the gathering box (21), and fixed frames (28) are respectively fixedly installed at both ends of the gathering box (21), and the fixing plates (27) at both ends of the gathering box (21) include two connecting plates and two fixing plates, and the fixing plate (27) is hinged between the two connecting plates. A first silicone pad (23) is connected between the two connecting plates, and the two fixed plates slide on the first guide rod (25) and the second guide rod (29) respectively. A second silicone pad (24) is arranged inside the gathering box (21) and away from the outside of the two first silicone pads (23). A spring (30) is connected between the second silicone pad (24) and the fixed plate (27). Inlet pipes (22) are connected to both sides of the gathering box (21), and the other end of the air intake pipe (22) is connected to the air inlet of the hot air blower (61). The second silicone pad (24) has the same structure as the first silicone pad (23). 5. The drying equipment for textile processing according to claim 4 is characterized in that: the hot air flow from the processing box (1) enters the gathering box (21) and passes through the first silica gel pad (23) and the second silica gel pad (24) respectively to absorb the moisture mixed therein. If the air flow is too large, the air pressure in the gathering box (21) increases, pushing the middle part of the first silica gel pad (23) and driving the connecting plate of the fixed plate (27) to rotate, and a gap is generated between the connecting plate and the inner wall of the gathering box (21), and the hot air flow will enter the air inlet pipe (22) and the processing box (1) through the gap. 6. The drying equipment for textile processing according to claim 4 is characterized in that: a drainage box (215) is fixedly installed at the bottom of the gathering box (21), baffles (213) are fixedly installed on both sides of the inner wall of the gathering box (21), and a pushing plate (211) is located at both ends of the inside of the gathering box (21) and between the two first silicone pads (23), and a rope (212) is connected to the outside of the pushing plate (211), and the other end of the rope (212) is connected to the bottom of the connecting block (51), rectangular grooves are respectively opened at both ends of the bottom of the gathering box (21), and the bottoms of the two second silicone pads (24) are respectively connected to rectangular plates (214) that seal the rectangular grooves, and a drainage pipe (216) is connected to the side of the drainage box (215). 7. The drying equipment for textile processing according to claim 6 is characterized in that the top of the push plate (211) slides on the second guide rod (29), the bottom of the push plate (211) slides on the first guide rod (25), and the middle part of the push plate (211) is consistent with the specifications of the first silicone pad (23). 8. The drying equipment for textile processing according to claim 7 is characterized in that: the baffle (213) and the gathering box (21) are connected via a connecting rod, the gathering box (21) is connected to the air inlet pipe (22) via the connecting rod, and the push plate (211) and the first silicone pad (23) have the same specifications. 9. The drying equipment for textile processing according to claim 7 is characterized in that: a rectangular through groove is opened at one end of the rectangular plate (214), and the rectangular groove at the bottom of the gathering box (21) is blocked by the other end of the rectangular plate (214), and the rectangular plate (214) slides toward the outer end to make the rectangular through groove overlap with the rectangular groove, and the gathering box (21) is connected with the drainage box (215). 10. The drying equipment for textile processing according to claim 7 is characterized in that: the connecting block (51) moves upward under the action of the spring telescopic rod (52), and the pushing plate (211) is pulled to slide outward by the rope (212) so that the pushing plate (211) contacts the first silicone pad (23), and pushes the first silicone pad (23) and the fixing plate (27) to slide outward to contact the baffle (213) and compress the spring (30), and squeezes the first silicone pad (23) and the second silicone pad (24) through the pushing plate (211) for dehydration.