CN116538785A - Anti-wrinkling textile drying equipment and method - Google Patents

Abstract

The invention relates to the technical field of textile drying equipment, in particular to crease-resistant textile drying equipment and a crease-resistant textile drying method. The invention provides a crease-resistant textile drying device and a crease-resistant textile drying method, which not only can dry textile materials to different degrees according to the thickness of the textile materials, but also can dry the textile materials more uniformly and fully, thereby preventing the occurrence of creases more effectively and ensuring better drying quality. A kind of anti-wrinkling textile drying equipment and method, including support column, bottom plate, heat insulation protective shell and heating pipe rack, etc.; a bottom plate is arranged between the tops of the four supporting columns, the heat insulation protective shell is arranged on the upper side face of the bottom plate, and the heating pipe is erected at the top of the bottom plate. The driving motor can drive the mesh belt to rotate and convey the textile fabric, the textile fabric moves and can push the light rough round roller to move upwards and drive the light rough round roller to rotate, and the light rough round roller rotates to smooth out the plane of the textile fabric, so that the subsequent textile fabric can be heated and dried conveniently.

Description

Anti-wrinkling textile drying equipment and method

Technical Field

The invention relates to the technical field of textile drying equipment, in particular to crease-resistant textile drying equipment and a crease-resistant textile drying method.

Background

Textiles, namely products which are processed by spinning, comprise fabrics such as woven fabrics, knitted fabrics and braided fabrics, china is the major country of textile production and export, and the China textile industry has obvious competitive advantage through years of development. In the production and processing process of the textile fabric, a plurality of processing steps are needed, including dyeing, sizing, cleaning, drying and the like, and the steps directly affect the aesthetic property of the textile fabric, so that the commodity value of the textile fabric is determined.

The textile fabric needs to be dried and wound after being rinsed, at present, most of common drying modes in the market are to directly put the rinsed and semi-dried textile fabric into a drying box for heating and drying, but the following defects exist:

1. the existing drying box is inconvenient to automatically adjust the drying degree according to the thickness of the textile fabric, and can cause excessive drying and shrinkage wrinkling of the thinner textile fabric or insufficient drying degree of the thicker textile fabric;

2. the phenomenon that the textile fabrics are folded or extruded together in the drying process in the drying box can cause that the textile fabrics are dried unevenly and sufficiently, and the textile fabrics can generate different degrees of wrinkling;

these defects will not result in good drying quality of the textile fabric, directly affect the quality of the textile fabric, and reduce the commodity value of the textile fabric.

Disclosure of Invention

In view of the above, the present invention provides a wrinkle-preventing textile drying apparatus and method, which not only can dry textile fabrics to different extents according to the thickness of the textile fabrics, but also can dry the textile fabrics more uniformly and sufficiently, thereby preventing wrinkles from occurring more effectively and improving drying quality.

The technical scheme is as follows: the utility model provides a weaving drying equipment and method of preventing fold, includes support column, bottom plate, thermal-insulated protective housing, heating pipe support, swing mechanism and cloth transport mechanism that opens and shuts, four fixedly connected with bottom plate between the support column top, thermal-insulated protective housing fixed connection is in the bottom plate upside, thermal-insulated protective housing is thermal-insulated heat preservation material, be equipped with two spacing groove blocks on the inner wall of thermal-insulated protective housing, heating pipe support fixed connection is at the bottom plate top, heating pipe support is located thermal-insulated protective housing, swing mechanism that opens and shuts is established on the bottom plate, cloth transport mechanism establishes on thermal-insulated protective housing.

As the improvement of above-mentioned scheme, swing open-close mechanism is including fluting support frame, rotating barrier, disc, little round bar, push away elongated rod, light-duty coarse round roller and chute guide bar, fluting support frame fixed connection is in the bottom plate upside, the last rotation type of fluting support frame is connected with a plurality of rotating barrier, every rotating barrier's both ends all fixedly connected with disc about, every the disc is kept away from one side of rotating barrier and is all fixedly connected with little round bar, sliding connection has two push-pull stock on the fluting support frame, two push-pull stock is the symmetry setting, every little round bar all is connected with push-pull stock slidingly, light-duty coarse round roller has been placed between two spacing groove pieces of thermal-insulated protective housing, the left and right sides of light-duty coarse round roller all is connected with the chute guide bar, two the guide bar is the symmetry setting, two chute is seted up respectively to the lower part of chute guide bar, two chute equal sliding connection of push-pull stock and guide bar.

As the improvement of above-mentioned scheme, cloth transport mechanism is including driving motor, belt drive pole one, belt drive pole two, long belt, guipure, flitch, fixed bolster and rotatory compression roller, driving motor fixed connection is kept away from on the inner wall of light-duty coarse round roller one side at the heat-proof protection shell, belt drive pole one fixed connection is on driving motor's output shaft, belt drive pole two swivelling joint is in the heat-proof protection shell outside, around there being two long belts between belt drive pole one and the belt drive pole two long belts all pass the heat-proof protection shell, two fixedly connected with guipure between the long belt, the guipure is soft high temperature resistant material, light-duty coarse round roller is located the guipure top, just light-duty coarse round roller contacts with the guipure, flitch fixed connection is kept away from on one side of belt drive pole two at the heat-proof protection shell, the flitch is the slope setting, fixedly connected with fixed bolster between chute guide pole upper portion, rotatory compression roller is placed in the fixed bolster lower part, rotatory and is located the guipure top, rotatory and contact with the guipure compression roller.

As the improvement of above-mentioned scheme, still including reciprocating mechanism, reciprocating mechanism establishes on thermal-insulated protective housing, reciprocating mechanism is including servo motor, inclined plane ring one, inclined plane ring two and direction round bar, servo motor fixed connection is on the one side inner wall that the driving motor was kept away from to thermal-insulated protective housing, fixedly connected with inclined plane ring one and inclined plane ring two on servo motor's the output shaft, the direction round bar swivelling joint is being close to servo motor's one end bottom at rotatory compression roller, the lower part of direction round bar is located between inclined plane ring one and the inclined plane ring two, just the direction round bar is with inclined plane ring one and the contact of inclined plane ring two respectively.

As the improvement of above-mentioned scheme, still including horizontal flattening mechanism, two all be equipped with horizontal flattening mechanism on the chute guide bar, horizontal flattening mechanism is including fixed stay pole, helical gear one, fluting runner, helical gear two and little runner, two chute guide bar upper portion all fixedly connected with fixed stay pole, the left and right sides of light-duty coarse round roller is all fixedly connected with helical gear one, two shape bracing piece is kept away from the one end of chute guide bar and is all rotated and be connected with fluting runner, two the one end of fluting runner is all fixedly connected with helical gear two, helical gear one and helical gear two mesh, two all rotate on the fluting runner and be connected with a plurality of little runner.

As an improvement of the scheme, the heat insulation protection shell further comprises an exhaust fan which is fixedly connected to the upper portion of the heat insulation protection shell.

As the improvement of above-mentioned scheme, still including fluting bracing piece and rotation clamp plate, fixedly connected with two fluting bracing pieces on the outer wall of one side that the protective housing of heat insulation is close to the flitch, two the fluting bracing piece is the symmetry setting, two rotation is connected with the rotation clamp plate between the fluting bracing piece.

The application method of the crease-resistant textile drying equipment comprises the following working steps:

step one: the method comprises the steps that a worker starts a heating pipe frame, a driving motor, a servo motor and an exhaust fan firstly, the driving motor drives a mesh belt to rotate, the mesh belt rotates and conveys textile fabrics, and the textile fabrics move to push a light rough round roller to move upwards and drive the light rough round roller to rotate;

step two: the light rough round roller rotates to smooth out the textile fabric, and meanwhile, the light rough round roller rotates to drive the two slotting rotating wheels to rotate so as to further spread the textile fabric, the textile fabric continuously moves to drive the rotary press roller to rotate, and the rotary press roller rotates to sufficiently smooth out and spread the textile fabric;

step three: the light rough round roller moves upwards to drive the pushing and stretching rod to move, so that the rotary baffle plate is driven to swing and open, the heating pipe rack heats the textile fabric, and the exhaust fan can exhaust water vapor in the heat insulation protective shell;

step four: and after the dried textile cloth slides along the blanking plate, and when the textile cloth is dried, a worker closes the heating pipe frame, the driving motor, the servo motor and the exhaust fan.

The invention has the following advantages:

1. the driving motor can drive the mesh belt to rotate so as to convey the textile fabric, the textile fabric can push the light rough round roller to move upwards and drive the light rough round roller to rotate, and the light rough round roller rotates to smooth the textile fabric, so that the subsequent textile fabric can be heated and dried conveniently; the light rough round roller moves upwards to drive the chute guide rod to move upwards, and then the rotary baffle plate is driven to swing and open, so that the heating pipe frame heats and dries textile fabrics, the distance of the light rough round roller moving upwards is different according to different thickness degrees of the textile fabrics, the swinging angles of the rotary baffle plates are different, the gaps between the rotary baffle plates are different, the heating pipe frame heats the textile fabrics with different thicknesses to different degrees, the phenomenon that the thinner textile fabrics generate wrinkles due to overheating deformation can be reduced, the thicker textile fabrics can be fully heated, the textile fabrics with different thicknesses can be heated and dried to different degrees according to the textile fabrics with different thicknesses, the textile fabrics with different thicknesses are fully heated, and wrinkles can be reduced.

2. The textile fabric moves and can drive the rotary press roller to rotate, the rotary press roller rotates and can further smooth out the plane of the textile fabric, the phenomenon that the textile fabric is folded or extruded together is reduced, the textile fabric can be placed on the mesh belt smoothly, the heating pipe frame can evenly dry the textile fabric, and further the phenomenon that the textile fabric is folded due to uneven heating in the drying process is effectively reduced.

3. The servo motor drives the inclined plane ring I and the inclined plane ring II to rotate, so that the guide round rod and the rotary press roller reciprocate left and right, the rotary press roller reciprocates left and right to spread out the textile fabric, and then the textile fabric is smoothed out rapidly and sufficiently, so that the textile fabric is transferred more smoothly, the textile fabric can be dried more uniformly and sufficiently, and the phenomenon that the textile fabric is wrinkled in the drying process is further reduced.

4. The light rough round roller rotates to drive the bevel gear to rotate, so that the two slotting rotating wheels are driven to rotate in opposite directions, the left side and the right side of the textile fabric are further pulled, meanwhile, the small rotating wheels can increase friction force of the slotting rotating wheels for pulling the textile fabric, the textile fabric is more rapidly unfolded, the textile fabric is prevented from being stacked and extruded, wrinkles are further prevented from being generated due to uneven heating of the textile fabric, the phenomenon that the wrinkles are generated in the heating process of the textile fabric is effectively prevented, and drying quality of the textile fabric is improved.

Drawings

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

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of a partially cut-away perspective structure of the cloth conveying mechanism of the present invention.

Fig. 4 is a schematic view of a first partially cut-away perspective of the swing opening and closing mechanism and the cloth conveying mechanism of the present invention.

Fig. 5 is an enlarged perspective view of fig. 4 a according to the present invention.

Fig. 6 is an enlarged perspective view of the structure of fig. 4B according to the present invention.

Fig. 7 is an enlarged perspective view of fig. 4C according to the present invention.

Fig. 8 is a schematic view of a partial perspective view of a lateral flattening mechanism of the present invention.

FIG. 9 is a schematic perspective view of a grooved pulley and a small pulley according to the present invention.

Fig. 10 is a schematic view of a first partial perspective structure of the swing opening and closing mechanism of the present invention.

Fig. 11 is an enlarged perspective view of D in fig. 10 according to the present invention.

Fig. 12 is a schematic view of a second partial perspective view of the swing opening and closing mechanism of the present invention.

Fig. 13 is a schematic view of a second partially cut-away perspective of the swing opening and closing mechanism and the cloth conveying mechanism of the present invention.

Fig. 14 is an enlarged perspective view of the E of fig. 13 according to the present invention.

Fig. 15 is a schematic of the workflow of the present invention.

Reference numerals in the figures: 101. the support column, 102, the bottom plate, 2, the heat insulation protective shell, 3, the heating pipe support, 41, the slotting support frame, 42, the rotary baffle, 43, the disc, 431, the small round bar, 44, the push-pull long bar, 45, the light rough round roller, 46, the chute guide bar, 51, the driving motor, 52, the first belt transmission bar, 53, the second belt transmission bar, 54, the long belt, 541, the net belt, 55, the blanking plate, 56, the fixed support plate, 57, the rotary press roller, 61, the servo motor, 62, the first inclined plane ring, 63, the second inclined plane ring, 64, the guide round bar, 71, the fixed support bar, 72, the first inclined gear, 73, the slotting rotating wheel, 74, the second inclined gear, 75, the small rotating wheel, 8, the exhaust fan, 91, the slotting support bar, 92 and the rotary press plate.

Detailed Description

Standard parts used in the invention can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the drawings, and the specific connection modes of the parts adopt conventional means such as mature bolts, rivets, welding, pasting and the like in the prior art, and the detailed description is omitted.

Example 1

1-15, including support column 101, bottom plate 102, heat insulation protection shell 2, heating pipe support 3, swing mechanism and cloth conveying mechanism that opens and shuts are connected with bottom plate 102 through the bolt between four support column 101 tops, heat insulation protection shell 2 passes through bolted connection and is in bottom plate 102 upside, heat insulation protection shell 2 is the heat insulation material, be equipped with two spacing groove blocks on heat insulation protection shell 2's the inner wall, heating pipe support 3 passes through bolted connection at bottom plate 102 top, heating pipe support 3 is located heat insulation protection shell 2, swing mechanism that opens and shuts is established on bottom plate 102, cloth conveying mechanism establishes on heat insulation protection shell 2.

The swing opening and closing mechanism comprises a slotted support frame 41, rotating baffle plates 42, discs 43, small round rods 431, push-pull long rods 44, light rough round rollers 45 and chute guide rods 46, wherein the slotted support frame 41 is connected to the upper side face of a bottom plate 102 through bolts, the rotating baffle plates 42 are connected with a plurality of rotating baffle plates 42 in a rotating mode, each rotating baffle plate 42 is horizontally arranged, discs 43 are fixedly connected to the left end and the right end of each rotating baffle plate 42, one side, far away from the rotating baffle plates 42, of each disc 43 is fixedly connected with the small round rods 431, two push-pull long rods 44 are connected to the slotted support frame 41 in a sliding mode, two push-pull long rods 44 are symmetrically arranged, each small round rod 431 is connected with the push-pull long rods 44 in a sliding mode, two rough round rollers 45 are arranged between two limit groove blocks of a heat insulation protective shell 2, the light rough round rollers 45 are horizontally arranged, two chute guide rods 46 are connected to the left side and right side of each light rough round roller 45 in a rotating mode, two chute guide rods 46 are symmetrically arranged, and two chute guide rods 46 are symmetrically arranged.

The cloth conveying mechanism comprises a driving motor 51, a first belt transmission rod 52, a second belt transmission rod 53, a long belt 54, a net belt 541, a blanking plate 55, a fixed supporting plate 56 and a rotary press roller 57, wherein the driving motor 51 is connected to the inner wall of the side, far away from the light rough round roller 45, of the heat insulation protection shell 2 through bolts, the first belt transmission rod 52 is fixedly connected to an output shaft of the driving motor 51, the first belt transmission rod 52 is horizontally arranged, the second belt transmission rod 53 is rotatably connected to the outer side of the heat insulation protection shell 2, the second belt transmission rod 53 is horizontally arranged, two long belts 54 are wound between the first belt transmission rod 52 and the second belt transmission rod 53, the two long belts 54 penetrate through the heat insulation protection shell 2, the two long belts 54 are fixedly connected with a mesh belt 541, the mesh belt 541 is made of soft high-temperature resistant materials, the mesh belt 541 is located above the heating pipe frame 3, the light rough round roller 45 is located above the mesh belt 541, the light rough round roller 45 is in contact with the mesh belt 541, the blanking plate 55 is connected to one side, far away from the second belt transmission rod 53, of the heat insulation protection shell 2 through bolts, the blanking plate 55 is obliquely arranged, the two fixed support plates 56 are connected between the upper parts of the chute guide rods 46 through bolts, the rotary press roller 57 is placed below the fixed support plates 56, the rotary press roller 57 is horizontally arranged, the rotary press roller 57 is located above the mesh belt 541, and the rotary press roller 57 is in contact with the mesh belt 541.

In actual operation, a worker starts the heating pipe frame 3 and the driving motor 51, then adjusts the heating pipe frame 3 to a specified temperature, then places one end of the textile fabric to be dried on the mesh belt 541, the output shaft of the driving motor 51 rotates to drive the first belt transmission rod 52 to rotate, the first belt transmission rod 52 rotates to drive the second belt transmission rod 53 to rotate through the two long belts 54, the two long belts 54 rotate to drive the mesh belt 541 to rotate, the mesh belt 541 rotates to transmit the textile fabric, the textile fabric is firstly contacted with the light rough round roller 45 in the moving process, and the textile fabric is continuously moved to push the light rough round roller 45 to move upwards and drive the light rough round roller 45 to rotate because the textile fabric has a certain thickness, the light rough round roller 45 rotates to smooth the textile fabric, the subsequent textile fabric is convenient to heat and dry, the light rough round rollers 45 move upwards to drive the two chute guide rods 46 to move upwards, the chute guide rods 46 move upwards to push the push-pull rods 44 to move along the chute, the push-pull long rods 44 move to drive the small round rods 431 to swing, the small round rods 431 swing to drive the discs 43 to rotate, the two discs 43 rotate to drive the rotary baffles 42 to swing, the rotary baffles 42 swing together to be not closed any more, the heating pipe rack 3 heats and dries textile fabrics, the heat insulation protective shell 2 keeps the temperature of the heating pipe rack 3, the temperature inside the heat insulation protective shell 2 is uniform, the distance of the upward movement of the light rough round rollers 45 is different according to the thickness degree of the textile fabrics, the swinging angles of the rotary baffles 42 are different, the opening gaps among the rotary baffles 42 are different, the heating pipe frame 3 is used for heating textile fabrics with different thicknesses to different degrees, so that the phenomenon that the thinner textile fabrics are wrinkled due to excessive heating deformation can be reduced, the thicker textile fabrics can be fully heated, further the textile fabrics with different thicknesses can be heated and dried to different degrees, the textile fabrics with different thicknesses are fully heated, the generation of the wrinkled can be reduced, the chute guide rod 46 moves upwards and drives the fixed support plate 56 and the rotary press roller 57 to move upwards together, the textile fabrics continuously move and contact with the rotary press roller 57 and drive the rotary press roller 57 to rotate, the rotary press roller 57 rotates to further smooth the textile fabrics, and the phenomenon that the textile fabrics are folded or extruded together is reduced, let the textile fabric can be put on the guipure 541 smoothly for heating pipe support 3 can evenly dry the textile fabric, and then effectively reduce the phenomenon emergence of textile fabric production fold because of being heated unevenly at the in-process of drying, textile fabric stoving's one end continues to move and can convey out thermal-insulated protective housing 2 along blanking plate 55, when the textile fabric stoving is accomplished, light-duty rough roller 45, chute guide bar 46, fixed bolster 56 and rotatory compression roller 57 can reset together under the effect of gravity, chute guide bar 46 resets down and can promote to push away the extension pole 44 and reset, push away the extension pole 44 and reset and can drive little round bar 431 reverse swing reset, little round bar 431 reverse swing can drive disc 43 reverse rotation, disc 43 reverse rotation can drive rotatory baffle 42 reverse swing reset.

Example 2

On the basis of embodiment 1, as shown in fig. 14, the device further comprises a reciprocating mechanism, the reciprocating mechanism is arranged on the heat insulation protection shell 2, the reciprocating mechanism comprises a servo motor 61, a first inclined plane ring 62, a second inclined plane ring 63 and a guide round rod 64, the servo motor 61 is connected to the inner wall of one side of the heat insulation protection shell 2 far away from the driving motor 51 through bolts, the first inclined plane ring 62 and the second inclined plane ring 63 are fixedly connected to an output shaft of the servo motor 61, the guide round rod 64 is rotatably connected to the bottom of one end of the rotary press roller 57, which is close to the servo motor 61, the guide round rod 64 is vertically arranged, the lower part of the guide round rod 64 is arranged between the first inclined plane ring 62 and the second inclined plane ring 63, and the guide round rod 64 is respectively contacted with the first inclined plane ring 62 and the second inclined plane ring 63.

Initially, a worker starts the servo motor 61, the output shaft of the servo motor 61 rotates to drive the first inclined plane ring 62 and the second inclined plane ring 63 to rotate together, the first inclined plane ring 62 and the second inclined plane ring 63 rotate to push the guide round rod 64 to reciprocate left and right, the guide round rod 64 reciprocates left and right to drive the rotary press roller 57 to reciprocate left and right, the rotary press roller 57 reciprocates left and right while rotating to spread out the textile fabric, and then the textile fabric is smoothed out rapidly and fully, so that the textile fabric is conveyed more flatly, the textile fabric can be dried more uniformly and fully, and the phenomenon that the textile fabric is wrinkled in the drying process is further reduced.

Example 3

On the basis of embodiment 2, as shown in fig. 7-14, the horizontal flattening mechanism is further included, two chute guide rods 46 are both provided with the horizontal flattening mechanism, the horizontal flattening mechanism includes a fixed support rod 71, a first bevel gear 72, a grooved rotating wheel 73, a second bevel gear 74 and a small rotating wheel 75, the upper portions of the two chute guide rods 46 are both connected with the fixed support rod 71 through bolts, the left side and the right side of the light rough round roller 45 are both connected with the first bevel gear 72 through the flat key, one ends of the two chute guide rods, far away from the chute guide rods 46, are both connected with the grooved rotating wheel 73 in a rotating manner, one ends of the two grooved rotating wheels 73 are both connected with the second bevel gear 74 through the flat key, the first bevel gear 72 is meshed with the second bevel gear 74, and the two grooved rotating wheels 73 are both connected with a plurality of small rotating wheels 75 in a rotating manner.

The light rough roller 45 moves upwards and drives the two bevel gears 72 to move upwards, the chute guide rod 46 moves upwards and drives the fixed support rod 71 to move upwards, the fixed support rod 71 moves upwards and drives the grooving rotating wheels 73, the bevel gears 74 and the small rotating wheels 75 to move upwards, the textile fabric moves and contacts the two grooving rotating wheels 73 and the small rotating wheels 75, the light rough roller 45 rotates and drives the bevel gears 72 to rotate, the bevel gears 72 rotate and drive the bevel gears 74 meshed with the bevel gears, the bevel gears 74 rotate and drive the grooving rotating wheels 73 to rotate, the two grooving rotating wheels 73 rotate in opposite directions and further pull the left side and the right side of the textile fabric, the small rotating wheels 75 are driven to rotate while the textile fabric moves, the friction force of the grooving rotating wheels 73 pulling the textile fabric is increased, the textile fabric is spread out more rapidly, the phenomenon that the textile fabric is stacked and extruded is avoided, the phenomenon that the textile fabric is folded in the heating process is prevented, and the drying quality of the textile fabric is improved; the light rough roller 45 is reset downwards to drive the first bevel gear 72 to be reset downwards, the chute guide rod 46 is reset downwards to drive the fixed support rod 71 to be reset downwards, and the fixed support rod 71 is reset downwards to drive the grooving rotating wheel 73, the second bevel gear 74 and the small rotating wheel 75 to be reset downwards together.

Example 4

On the basis of the embodiment 3, as shown in fig. 1, the heat insulation protection shell further comprises an exhaust fan 8, wherein the exhaust fan 8 is connected to the upper part of the heat insulation protection shell 2 through bolts.

Initially, the staff starts the exhaust fan 8, because the heating pipe support 3 can produce vapor to the in-process that dries textile material, exhaust fan 8 starts and can go out the vapor on upper portion in the thermal-insulated protective housing 2, reduces the moisture in the thermal-insulated protective housing 2, avoids the moisture too much in the thermal-insulated protective housing 2, wets textile material, influences textile material's drying efficiency.

Example 5

On the basis of embodiment 4, as shown in fig. 2, the heat insulation protection shell 2 further comprises a grooved support rod 91 and a rotary pressing plate 92, wherein two grooved support rods 91 are connected to the outer wall of one side of the heat insulation protection shell 2, which is close to the blanking plate 55, through bolts, the two grooved support rods 91 are symmetrically arranged, and the rotary pressing plate 92 is rotationally connected between the two grooved support rods 91.

When the dried textile fabric slides along the blanking plate 55, the rotary pressing plate 92 is pushed to swing, meanwhile, the rotary pressing plate 92 can block the textile fabric, so that the dried textile fabric has a certain cooling buffer time, and the phenomenon that the textile fabric is too fast contacted with the outside air after being dried and is too fast cooled to cause shrinkage of the textile fabric to generate wrinkles is avoided.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a prevent weaving drying equipment of fold, characterized by, including support column (101), bottom plate (102), heat-proof housing (2), heating pipe support (3), swing mechanism and cloth transport mechanism open and shut, four fixedly connected with bottom plate (102) between support column (101) top, heat-proof housing (2) fixed connection is in bottom plate (102) upside, heat-proof housing (2) are heat-proof insulation material, be equipped with two spacing groove blocks on the inner wall of heat-proof housing (2), heating pipe support (3) fixed connection is at bottom plate (102) top, heating pipe support (3) are located heat-proof housing (2), swing mechanism open and shut is established on bottom plate (102), cloth transport mechanism establishes on heat-proof housing (2).

2. The anti-wrinkling textile drying equipment according to claim 1, wherein the swinging opening and closing mechanism comprises a slotted support frame (41), rotating baffle plates (42), discs (43), small round rods (431), push-pull long rods (44), light rough round rollers (45) and chute guide rods (46), the slotted support frame (41) is fixedly connected to the upper side face of a bottom plate (102), a plurality of rotating baffle plates (42) are rotatably connected to the slotted support frame (41), discs (43) are fixedly connected to the left end and the right end of each rotating baffle plate (42), small round rods (431) are fixedly connected to one side, far away from the rotating baffle plates (42), of each disc (43), two push-pull long rods (44) are connected to the slotted support frame (41) in a sliding mode, each small round rod (431) is connected with the push-pull long rods (44) in a sliding mode, rough round rollers (45) are placed between two limit groove blocks of the thermal insulation protective shell (2), two rough round rollers (46) are symmetrically connected to the two chute guide rods (46) in a sliding mode, two chute guide rods (46) are symmetrically arranged on the two sides of the two chute guide rods (46), the push-pull long rod (44) is slidably connected with two inclined grooves of the inclined groove guide rod (46).

3. An anti-wrinkling textile drying apparatus according to claim 2, wherein the cloth conveying mechanism comprises a driving motor (51), a first belt transmission rod (52), a second belt transmission rod (53), a long belt (54), a net belt (541), a blanking plate (55), a fixed supporting plate (56) and a rotary press roller (57), wherein the driving motor (51) is fixedly connected to the inner wall of one side of the heat insulation protection shell (2) far away from the light rough round roller (45), the first belt transmission rod (52) is fixedly connected to the output shaft of the driving motor (51), the second belt transmission rod (53) is rotatably connected to the outer side of the heat insulation protection shell (2), two long belts (54) are wound between the first belt transmission rod (52) and the second belt transmission rod (53), the two long belts (54) penetrate through the heat insulation protection shell (2), the net belt (541) is fixedly connected between the two long belts (54), the net belt (541) is made of a high-temperature resistant material, the light rough round roller (45) is located above the net belt (541), the light rough round roller (45) is in contact with the lower belt (541), the lower belt (541) is arranged on one side of the heat insulation protection shell (55), a fixed supporting plate (56) is fixedly connected between the upper parts of the two chute guide rods (46), a rotary press roller (57) is arranged at the lower part of the fixed supporting plate (56), the rotary press roller (57) is positioned above the mesh belt (541), and the rotary press roller (57) is in contact with the mesh belt (541).

4. A wrinkle-preventing textile drying apparatus according to claim 3, further comprising a reciprocating mechanism provided on the heat insulation protective housing (2), the reciprocating mechanism comprising a servo motor (61), a first bevel ring (62), a second bevel ring (63) and a guide round bar (64), the servo motor (61) being fixedly connected to an inner wall of a side of the heat insulation protective housing (2) remote from the driving motor (51), the output shaft of the servo motor (61) being fixedly connected with the first bevel ring (62) and the second bevel ring (63), the guide round bar (64) being rotatably connected to a bottom of one end of the rotary press roller (57) close to the servo motor (61), the lower part of the guide round bar (64) being located between the first bevel ring (62) and the second bevel ring (63), and the guide round bar (64) being in contact with the first bevel ring (62) and the second bevel ring (63), respectively.

5. The wrinkle-preventing textile drying device according to claim 4, further comprising a transverse flattening mechanism, wherein two chute guide rods (46) are respectively provided with a transverse flattening mechanism, the transverse flattening mechanism comprises a fixed support rod (71), a first bevel gear (72), a grooved rotating wheel (73), a second bevel gear (74) and a small rotating wheel (75), the fixed support rods (71) are respectively fixedly connected to the upper parts of the two chute guide rods (46), the first bevel gear (72) is respectively fixedly connected to the left side and the right side of the light rough round roller (45), the grooved rotating wheels (73) are respectively rotatably connected to one ends of the two shape support rods, which are far away from the chute guide rods (46), the second bevel gear (74) is respectively fixedly connected to one ends of the two grooved rotating wheels (73), the first bevel gear (72) is meshed with the second bevel gear (74), and a plurality of small rotating wheels (75) are respectively rotatably connected to the two grooved rotating wheels (73).

6. The crease-resistant textile drying equipment according to claim 5, further comprising an exhaust fan (8), wherein the exhaust fan (8) is fixedly connected to the upper portion of the heat insulation protection shell (2).

7. The crease-resistant textile drying equipment according to claim 6, further comprising a grooved support rod (91) and a rotary pressing plate (92), wherein two grooved support rods (91) are fixedly connected to the outer wall of one side of the heat insulation protective shell (2) close to the blanking plate (55), the two grooved support rods (91) are symmetrically arranged, and the rotary pressing plate (92) is rotatably connected between the two grooved support rods (91).

8. Use of an anti-wrinkling textile drying apparatus as defined in any one of claims 1 to 7, comprising the following working steps:

step one: the worker starts the heating pipe rack (3), the driving motor (51), the servo motor (61) and the exhaust fan (8) firstly, the driving motor (51) can drive the mesh belt (541) to rotate, the mesh belt (541) can transmit textile materials, the textile materials can push the light rough round roller (45) to move upwards firstly when moving, and the light rough round roller (45) is driven to rotate;

step two: the rotation of the light rough round roller (45) can smooth out the textile fabric, meanwhile, the rotation of the light rough round roller (45) can drive the two slotting rotating wheels (73) to rotate, the textile fabric is further unfolded, the textile fabric continuously moves to drive the rotary press roller (57) to rotate, and the rotation of the rotary press roller (57) can fully smooth out and unfold the textile fabric;

step three: the light rough round roller (45) moves upwards to drive the pushing and pulling rod (44) to move, so as to drive the rotary baffle plate (42) to swing and open, the heating pipe frame (3) is used for heating textile fabrics, and the exhaust fan (8) is used for exhausting water vapor in the heat insulation protective shell (2);

step four: after the textile cloth is dried, the textile cloth can slide along the blanking plate (55), and after the textile cloth is dried, a worker closes the heating pipe frame (3), the driving motor (51), the servo motor (61) and the exhaust fan (8).