CN211498190U - Drying cloth softening machine - Google Patents

Abstract

The utility model belongs to the technical field of the technique of fabric drying equipment and specifically relates to a gentle cloth machine of stoving is related to. The utility model provides a soft cloth machine of stoving, includes the frame, be located the cylinder in the frame, drive the rotatory drying device of the rotatory stoving of cylinder and adjust cylinder inclination's angle adjusting device, the cylinder includes the barrel and is located the lift guide ring in the barrel outside, lifting unit is including installing two vertical regulation poles in the frame, drive two and adjust synchronous pivoted driving motor and cranes, the shaping has the external screw thread section on the regulation pole, the outside of crane be connected with external screw thread section screw-thread fit's sliding block, a plurality of lift leading wheels are installed to the frame internal rotation of crane, the outer lane surface shaping of lift leading wheel has the lift ring channel, lift guide ring card is gone into in the lift ring channel. The rotation deviation between two regulation poles is very little, and the error of marcing of two sliding blocks is also very little, the condition that the cylinder does not die unable regulation yet can not appear.

Description

Drying cloth softening machine

Technical Field

The utility model belongs to the technical field of the technique of fabric drying equipment and specifically relates to a gentle cloth machine of stoving is related to.

Background

In the textile industry, the fabric is dried and softened by a drying and softening machine after being shaped. The existing drying equipment is usually of a closed structure, and heavy wet cloth is manually placed in the drying equipment and then dried.

The prior utility model with the publication number of CN202730474U discloses an automatic continuous drying machine with a roller. Realized the continuous conveyor stoving of cloth in this scheme, when the cylinder rotated, dialled the cloth and being driving the lifting with the cloth, when the cloth moved to higher position, dialled the inclined plane of cloth bearing cloth and be in the state of downward sloping, when the cloth was greater than the frictional force between cloth and the inclined plane along the decurrent component of inclined plane, the cloth slided down along the inclined plane and dropped in the cylinder bottom surface. The cloth is dehydrated and softened in the process of continuously drying, throwing and smashing. The angle of the roller is adjusted through the roller angle adjusting system in the scheme. The lifting motor winds the lifting chain, so that the lifting motor can control the lifting chain to wind or unwind. When the lifting chain is wound or unwound, the lifting lever is driven to lift, so that the angle of the roller is adjusted.

The above prior art solutions have the following drawbacks: when the chain is rolled on the lifting motor, the rolling lengths of different chains are different when the output shaft of the lifting motor rotates for the same number of turns according to the position distance between two circles of chains when the chain is rolled and whether the chain is overlapped with the chain which is previously rolled. In order to stabilize the state when the angle of the drum is changed, the frame connected to the drum is restricted to be movable only in the vertical direction. Therefore, when the winding lengths of different chains are not the same, the rolling chain can be dead and the angle of the roller cannot be adjusted.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a gentle cloth machine of stoving to prior art exists, its advantage lies in can adjusting roller angle and can not do not die.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: the utility model provides a soft cloth machine of stoving, includes the frame, is located the cylinder in the frame, drives the rotatory drying device of the rotatory stoving of cylinder and the angle adjusting device of adjusting cylinder inclination, the cylinder includes the barrel and is located the lift guide ring in the barrel outside, lifting unit is including installing two vertical regulation poles in the frame, drive two and adjust synchronous pivoted driving motor and cranes, the shaping has the external screw thread section on the regulation pole, the outside of crane be connected with external screw thread section screw-thread fit's sliding block, a plurality of lift leading wheels are installed to the frame internal rotation of crane, the outer lane surface shaping of lift leading wheel has the lift ring channel, lift guide ring card is gone into in the lift ring channel.

Through adopting above-mentioned technical scheme, drive two through driving motor and adjust the synchronous rotations of pole, two are adjusted the pole and are rotated, adjust pole pivoted in-process, because the sliding block is connected unable random rotation with the crane, consequently are being driven and are going up and down. The crane goes up and down along with the sliding block, is driving the one end lift of cylinder, realizes cylinder inclination's regulation. Because the regulation pole is through same driving motor as the power supply come synchronous drive, consequently two rotation deviation of adjusting between the pole is very little, and the error of advancing of two sliding blocks is also very little, the unable condition of adjusting can not appear the cylinder and do not die.

The present invention may be further configured in a preferred embodiment as: the frame is fixed with the sliding seat, and the shaping has the sliding tray along vertical direction on the sliding seat, the sliding block is located the sliding tray and moves in vertical direction along the sliding tray, fixedly connected with bearing frame on the sliding block, the both sides of crane all are equipped with the rotation axis that passes the bearing frame.

Through adopting above-mentioned technical scheme, set up the sliding tray through on the sliding seat and come to make the sliding block only can follow vertical direction upward movement with the sliding block cooperation for the sliding block motion path is more stable.

The present invention may be further configured in a preferred embodiment as: the cylinder is still including the fixed guide ring that is located the barrel outside, and fixed subassembly includes the mount, and the position rotation that the downside is close to left and right sides both sides in the frame of mount installs two fixed leading wheels, the outside surface molding of fixed leading wheel has fixed ring channel, fixed leading ring card is gone into in the fixed ring channel, the width of fixed ring channel is greater than the thickness of fixed guide ring, the width of lift ring channel is greater than the thickness of lift guide ring.

By adopting the technical scheme, the method has the advantages that,

the present invention may be further configured in a preferred embodiment as: the utility model discloses a fixing device for inclined supporting seat, including fixing frame, inclined supporting seat, limit ring, fixed guide ring card, the frame of mount, the frame inboard downside of downside is close to the position on left and right sides all welds a slope supporting seat, all rotates on every inclined supporting seat and installs two slope leading wheels, the outer lane surface of slope leading wheel is close to the one end integrated into one piece of inclined supporting seat and has a spacing ring, and fixed guide ring card is between two slope leading wheels, and the outer lane surface and the spacing ring butt of fixed guide ring, minimum interval between two slope leading wheels on the.

Through adopting above-mentioned technical scheme, cooperate through the solid fixed ring groove that sets up fixed guide ring and fixed leading wheel for the low side of cylinder can cooperate axial positioning, circumferential direction rotation. The width through setting up fixed ring channel is greater than the thickness of fixed guide ring for when the angle of cylinder changes, fixed ring channel and fixed guide ring still can form the cooperation, and can not die.

The present invention may be further configured in a preferred embodiment as: the small diameter of the external thread section is larger than the diameter of the adjusting rod.

Through adopting above-mentioned technical scheme for when there is some dislocation in internal thread and external screw thread section complex position, the motion of sliding block can not influenced by other parts of adjusting the pole. Therefore, an excessively long external thread section is not required.

The present invention may be further configured in a preferred embodiment as: the cylinder still includes the cloth spare of dialling in the barrel, dial the cloth spare and include that many are long dials the piece, every long dial the piece and all include two long cloth boards of dialling be connected with the barrel, and two long cloth boards of dialling of the piece of same length are towards the direction slope that is close to each other at the barrel center, one side homogeneous body shaping that the barrel inner wall was kept away from to long cloth board has long oblique baffle, one side that long oblique baffle kept away from long cloth board is connected, long oblique baffle is along the long cloth board extending direction of dialling that is connected and is inclined towards the direction of another long oblique baffle.

Through adopting above-mentioned technical scheme, long piece self will have enough intensity to make the wet cloth of load can not deform in the time, under the unchangeable circumstances of the board thickness of long piece of dialling, need to dial the junction certain distance of cloth board and barrel inner wall with two and two long between the cloth board of dialling and be the contained angle and make two long between the cloth board of dialling play the effect of mutual reinforcement. The cloth can slide down only when the long poking piece is driven to a higher position along with the rotation of the roller, so that the included angle formed between the two long cloth poking plates cannot be too large. The long inclined guide plate is connected with a larger inclination in an inclined way towards the middle. Therefore, the cloth can reach the long inclined guide plate on the long cloth poking plate only through a short displacement stroke and then fall along the long inclined guide plate. The height from the bottom to the start of the downward slide is determined by the speed of rotation of the drum. Shortening the fall time of the cloth enables the cloth to fall in the direction of movement of the long pusher that is closer to the raised state. The cloth can rapidly enter the next lifting and dropping cycle, and the processing efficiency of the drying soft cloth machine on the cloth is improved.

The present invention may be further configured in a preferred embodiment as: the both ends of long piece are all connected with long end panel, and the circumference round of long end panel is with two long cloth boards, two long oblique baffle and the welding of barrel inner wall of dialling.

Through adopting above-mentioned technical scheme, connect long cloth board, long oblique baffle and barrel of dialling through two long end panels for the structure of long piece of dialling is strengthened, seals the both ends of long piece of dialling simultaneously, avoids the cloth to get into in the long piece of dialling.

The present invention may be further configured in a preferred embodiment as: dial cloth spare still include with long dial the short piece that quantity equals, long dial the piece and dial the piece looks interval setting with short, the length that the piece was dialled to the short length is less than the length of barrel, and the short interval of dialling piece and barrel both ends tip equals.

Through adopting above-mentioned technical scheme, set up short piece and long piece interval setting of dialling and make the cloth move when the tip surpasss the position of short piece of dialling, no longer by short piece lifting of dialling, drop, but along the direct whereabouts of barrel, break away from the barrel more fast.

The present invention may be further configured in a preferred embodiment as: the both ends of short stirring piece all are connected with short end panel, and the circumference round of short end panel is dialled cloth board, two short oblique baffle and the welding of barrel inner wall with two short, short end panel is perpendicular with the axis of barrel.

Through adopting above-mentioned technical scheme, set up short oblique baffle and play the same effect with long oblique baffle for the cloth is by high-frequency's lifting, drop.

The present invention may be further configured in a preferred embodiment as: the rotary drying device comprises a drying component positioned below the second upper roller, a rotary component driving the rollers to rotate and a conveying component conveying cloth to sequentially pass through the lower roller, the second upper roller and the first upper roller, wherein the drying component comprises a plurality of fans and heat collecting pipes positioned above the fans and communicated with steam; the lower conveying mechanism, the first upper conveying mechanism and the second upper conveying mechanism all comprise a conveying motor, a conveying roller and an inclined guide cylinder, wherein the conveying motor is positioned above the higher end of the roller on the rack, the conveying roller is driven by the conveying motor to rotate, the axis of the conveying roller is horizontal, and the inclined guide cylinder is positioned below the conveying roller.

Through adopting above-mentioned technical scheme, the stoving subassembly produces the high temperature air current and takes away the moisture of cloth through lower cylinder, first upper roller and second upper roller. The rotating component drives the roller to rotate, and the cloth is driven to lift by the cloth shifting piece in the rotating process. When the cloth moves to a higher position, the inclined plane of the cloth-pulling piece for supporting the cloth is in a downward inclined state, the downward component force of the cloth along the inclined plane is greater than the friction force between the cloth and the inclined plane, the cloth slides down along the inclined plane and falls on the bottom surface of the roller, and the cloth moves towards the lower end of the roller in the cyclic process of lifting and falling at each time. The conveying assembly conveys the cloth to be processed into the lower roller, conveys the cloth output by the lower roller into the second upper roller, and conveys the cloth output by the second upper roller into the first upper roller.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the adjusting rods are synchronously driven by taking the same driving motor as a power source, so that the rotation deviation between the two adjusting rods is very small, the advancing error of the two sliding blocks is very small, and the condition that the roller is not dead and cannot be adjusted can be avoided;

2. the cloth can quickly enter the next lifting and dropping cycle through the arrangement of the long inclined guide surface, and the treatment efficiency of the drying soft cloth machine on the cloth is improved.

Drawings

FIG. 1 is a schematic structural view of an embodiment;

FIG. 2 is a schematic structural view of the inside of the embodiment;

FIG. 3 is a schematic structural view of a drum in the embodiment;

FIG. 4 is an enlarged view at A in FIG. 3;

FIG. 5 is an enlarged view at B in FIG. 2;

FIG. 6 is a partial enlarged view of the embodiment;

FIG. 7 is an enlarged view at C in FIG. 6;

fig. 8 is a side view of the embodiment.

Reference numerals: 1. a frame; 2. rotating the drying device; 3. an angle adjusting device; 4. a first upper roller; 5. a second upper roller; 6. a lower roller; 7. a barrel; 8. a cloth poking piece; 9. fixing a guide ring; 10. a lifting guide ring; 11. a first vent hole; 12. a long poking piece; 13. short shifting pieces; 14. a long cloth spreading plate; 15. a long inclined guide plate; 16. a long end panel; 17. a short cloth-poking plate; 18. a short inclined guide plate; 19. a short end panel; 20. a second vent hole; 21. a fixing assembly; 22. a lifting assembly; 23. a fixed mount; 24. fixing a guide wheel; 25. fixing the annular groove; 26. inclining the supporting seat; 27. inclining the guide wheel; 28. a limiting ring; 29. a lifting frame; 30. adjusting a rod; 31. a drive motor; 32. a transmission assembly; 33. a dust cover; 34. a sliding seat; 35. a sliding groove; 36. a limiting rod; 37. a slider; 38. a bearing seat; 39. an external threaded section; 40. a rotating shaft; 41. a lifting guide wheel; 42. lifting the annular groove; 43. a drying assembly; 44. a rotating assembly; 45. a delivery assembly; 46. a fan; 47. a heat collecting pipe; 48. a filter screen; 49. an exhaust hole; 50. a rotating electric machine; 51. a belt; 52. a pulley ring; 53. a lower conveying mechanism; 54. a second upper conveying mechanism; 55. a first upper transport structure; 56. a conveying motor; 57. a conveying roller; 58. an inclined guide cylinder; 59. weighing the groove; 60. and (6) caching the slots.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, a drying cloth softener comprises a frame 1, a roller on the frame 1, a rotary drying device 2 driving the roller to rotate and dry, and an angle adjusting device 3 adjusting the inclination angle of the roller.

As shown in fig. 2 and 3, three rollers are mounted on the frame 1 along the length direction of the frame 1, wherein two rollers are located at the high position of the frame 1 and are named as a first upper roller 4 and a second upper roller 5, and the other roller is located below the first upper roller 4 and is named as a lower roller 6; each roller is arranged obliquely, the first upper roller 4 and the lower roller 6 are inclined in the same direction, and the second upper roller 5 and the first upper roller 4 are inclined in opposite directions. Each roller comprises a roller body 7, a cloth poking piece 8 positioned in the roller body 7, a fixed guide ring 9 positioned outside the roller body 7, a lifting guide ring 10 and a belt wheel ring 52. The barrel 7 is cylindrical, a plurality of first vent holes 11 are formed in the outer side face of the barrel 7, each first vent hole 11 is in a circular truncated cone shape, one end, facing the center of the barrel 7, of each first vent hole 11 is a small end of the first vent hole 11, and one end, facing away from the center of the barrel 7, of each first vent hole 11 is a large end of the first vent hole 11. The thickness of fixed guide ring 9 equals with the thickness of lift guide ring 10, and fixed guide ring 9, lift guide ring 10 and barrel 7 all set up coaxially. The fixed guide ring 9 is located at the lower end of the drum and the lifting guide ring 10 is located at the upper end of the drum.

As shown in fig. 3 and 4, the cloth-pulling members 8 are six in number and extend in a direction parallel to the axis of the cylinder 7, and the six cloth-pulling members 8 are all located in the cylinder 7 and are uniformly distributed along the circumferential direction of the inner surface of the cylinder 7. The cloth shifting piece 8 comprises three long shifting pieces 12 and three short shifting pieces 13, and the three long shifting pieces 12 and the three short shifting pieces 13 are arranged at intervals. The length of the long poking piece 12 is equal to that of the cylinder 7, each long poking piece 12 comprises two long cloth poking plates 14 welded with the inner wall of the cylinder 7, and the two long cloth poking plates 14 of the same long poking piece 12 incline towards the center of the cylinder 7 in the direction close to each other. One side of the long cloth shifting plate 14, which is far away from the inner wall of the cylinder 7, is integrally formed with a long inclined guide plate 15, and the two long inclined guide plates 15 of the same long cloth shifting piece 12 are connected on one side of the long cloth shifting plate 14, and the joint is inverted with a fillet. The long inclined guide plate 15 is inclined in the direction of extension of the associated long cloth-lifting plate 14 toward the other long inclined guide plate 15. Both ends of the long poking piece 12 are connected with long end panels 16, a circle of the long end panels 16 is welded with the two long cloth poking plates 14, the two long inclined guide plates 15 and the inner wall of the cylinder 7, and the long end panels 16 start to incline towards the direction away from the port of the adjacent cylinder 7 from the joint of the inner wall of the cylinder 7 to the center of the cylinder 7.

As shown in fig. 3 and 4, the length of the short poking piece 13 is smaller than that of the cylinder 7, and the distance between the two ends of the short poking piece 13 and the two ends of the cylinder 7 is equal. Each short poking piece 13 comprises two short cloth poking plates 17 welded with the inner wall of the cylinder 7, and the two short cloth poking plates 17 of the same short poking piece 13 incline towards the center of the cylinder 7 in the direction close to each other. One side that the inner wall of barrel 7 was kept away from to short cloth 17 is the integrated into one piece and is had short oblique baffle 18 for short, and two short oblique baffles 18 of same short piece 13 of dialling are being kept away from short one side of dialling cloth 17 and are being connected, and there is round chamfer in the junction shaping. The short inclined guide plate 18 is inclined in the direction of extension of the associated short cloth-shifting plate 17 toward the other short cloth-shifting plate 17. Both ends of the short poking piece 13 are connected with short end panels 19, the circumference of each short end panel 19 is welded with the two short poking cloth plates 17, the two short inclined guide plates 18 and the inner wall of the barrel 7, and the short end panels 19 are perpendicular to the axis of the barrel 7. A plurality of second vent holes 20 are formed in the surfaces of the long cloth shifting plate 14 and the short cloth shifting plate 17, the second vent holes 20 are in a circular truncated cone shape, and the large end of each second vent hole 20 is arranged on one side, facing the inside of the cylinder 7, of each second vent hole 20.

As shown in fig. 2 and 5, the angle adjusting means 3 includes a fixing assembly 21 at a lower end of the drum and a lifting assembly 22 (shown in fig. 6) at an upper end of the drum. The fixing component 21 comprises a square fixing frame 23, two fixing guide wheels 24 are rotatably mounted at positions, close to the left side and the right side, of the lower side in the frame of the fixing frame 23, the rotating center lines of the fixing guide wheels 24 are approximately parallel to the axis of the roller, and a fixing ring-shaped groove 25 with the width larger than the thickness of the fixing guide ring 9 is formed in the surface of the outer ring of each fixing guide wheel 24. The two fixed guide wheels 24 are respectively abutted against the lower sides of the fixed guide rings 9 close to the left side and the right side, and the fixed guide rings 9 are clamped in the fixed ring grooves 25 of the fixed guide wheels 24. The lower side all welds an inclined support seat 26 near the position on left and right sides in the frame of mount 23, all rotates on every inclined support seat 26 and installs two slope leading wheels 27. The rotation center lines of the inclined guide wheels 27 are perpendicular to the axis of the drum. An end of the outer ring surface of the tilt guide wheel 27 adjacent to the tilt support base 26 is integrally formed with a stopper ring 28. The fixed guide ring 9 is clamped between the two inclined guide wheels 27, the outer ring surface of the fixed guide ring 9 is abutted with the limiting ring 28, and the minimum distance between the two inclined guide wheels 27 on the same inclined support seat 26 is larger than the thickness of the fixed guide ring 9.

As shown in fig. 6 and 7, the lifting assembly 22 comprises a lifting frame 29 which is not fixedly connected with the machine frame 1. The frame 1 is provided with a driving motor 31 and two vertical adjusting rods 30, and the output end of the driving motor 31 is connected with the two adjusting rods 30 through a transmission assembly 32 and drives the two adjusting rods 30 to synchronously rotate. The upper ends of the two adjusting rods 30 are covered with dust covers 33. The frame 1 is fixedly connected with a sliding seat 34, a sliding groove 35 along the vertical direction is formed on the sliding seat 34, and a limiting rod 36 is welded at a position above the sliding groove 35 on the sliding seat 34. A sliding block 37 is connected in the sliding groove 35 in a sliding manner along the vertical direction, and a bearing seat 38 is fixedly connected on the sliding block 37 through a bolt. The adjusting rod 30 passes through the sliding block 37, an external thread section 39 with a small diameter larger than the diameter of the adjusting rod 30 is formed at the matching position of the adjusting rod 30 and the sliding block, and an internal thread matched with the internal thread is formed on the inner wall of the sliding block. The lifting frame 29 is formed with a rotating shaft 40 through the bearing block 38 on both sides, and the lifting frame 29 is connected with the sliding block 37 through the rotating shaft 40 and moves up and down synchronously. The lifting frame 29 is in a square frame shape, the positions close to the upper side and the lower side in the frame of the lifting frame 29 are rotatably provided with four lifting guide wheels 41 in total, and lifting annular grooves 42 with the width larger than the thickness of the lifting guide ring 10 are formed in the outer ring surfaces of the four lifting guide wheels 41. The four elevation guide wheels 41 are respectively abutted against the upper right side, lower right side, upper left side and lower left side of the elevation guide ring 10. The first upper roller 4 and the lower roller 6 are adjusted in angle by the same set of angle adjusting device 3, and the second upper roller 5 is adjusted in angle by another set of angle adjusting device 3.

As shown in fig. 7 and 8, the rotary drying device 2 includes a drying assembly 43 located below the second upper roller 5, a rotating assembly 44 driving the rollers to rotate, and a conveying assembly 45 conveying the cloth sequentially through the lower roller 6, the second upper roller 5, and the first upper roller 4. The drying assembly 43 comprises a plurality of fans 46, the air inlet of each fan 46 faces upwards, and the air outlet of each fan 46 faces towards the lower roller 6. A heat collecting pipe 47 with steam communicated inside is arranged above the fan 46, and a filter screen 48 is arranged at the position above the heating pipe on the frame 1. The outside of frame 1 is wrapped with the heated board and is reduced the dissipation of heat in frame 1. The dust in the air is filtered by the filter screen 48, and the air flow is heated by the heating pipe, drawn by the fan 46, and sent to the lower drum 6. The high temperature air flow reaches the position of the first upper roller 4 through the lower roller 6, and a plurality of exhaust holes 49 (shown in fig. 1) are arranged above the frame 1 and opposite to the position of the first upper roller 4 to exhaust partial air with high humidity. The remaining high temperature air flow continues to circulate through the second upper drum 5 to the position of the filter screen 48. The rotating assembly 44 comprises a rotating motor 50 fixed on the lifting frame 29, and an output shaft of the rotating motor 50 is matched with a belt wheel ring 52 on the roller through a belt 51 to drive the roller to rotate.

As shown in fig. 1 and 6, the conveying assembly 45 includes a lower conveying mechanism 53 for conveying the cloth into the lower roller 6, a second upper conveying mechanism 54 for conveying the cloth output from the lower roller 6 into the second upper roller 5, and a first upper conveying mechanism 55 for conveying the cloth output from the second upper roller 5 into the first upper roller 4. The lower transport mechanism 53 includes a transport motor 56 located above the upper end of the lower drum 6 on the frame 1, an axially horizontal transport roller 57 rotated by the transport motor 56, and an inclined guide tube 58 located below the transport roller 57. The first upper conveying mechanism and the second upper conveying mechanism 54 include the same structure as the lower conveying mechanism 53 except that the first upper conveying mechanism is located above the upper end of the first upper roller 4, and the second upper conveying mechanism 54 is located above the upper end of the second upper roller 5. A weighing groove 59 is arranged at the outlet position of the lower end of the lower roller 6, and the cloth conveyed out of the lower roller 6 enters the weighing groove 59. When the weight of the cloth in the weighing groove 59 is larger than the set upper limit value, the conveying motor 56 of the second upper conveying mechanism 54 accelerates to rotate, so that the cloth is prevented from being excessively accumulated on the ground; when the weight of the cloth in the weighing groove 59 is larger than the set lower limit value, the rotating speed of the conveying motor 56 of the second upper conveying mechanism 54 is reduced, and the cloth is prevented from being tightened and pulled to influence the quality of the cloth. A buffer storage groove 60 for buffering the cloth is arranged at the position below the lower end of the second lower roller 6 at the outer side of the rack 1.

The specific using process is as follows:

after the inclination angles of all the rollers are adjusted by the angle adjusting device 3, the conveying assembly 45, the rotating assembly 44 and the drying assembly 43 work. The drying assembly 43 generates high-temperature air flow to take away the moisture of the cloth through the lower roller 6, the first upper roller 4 and the second upper roller 5. The rotating component 44 drives the roller to rotate, and the cloth is lifted by the cloth poking piece 8 in the rotating process. When the cloth moves to a higher position, the inclined plane of the cloth-pushing piece 8 for supporting the cloth is in a downward inclined state, when the downward component force of the cloth along the inclined plane is greater than the friction force between the cloth and the inclined plane, the cloth slides down along the inclined plane and falls on the bottom surface of the roller, and the cloth moves towards the lower end of the roller in the cyclic process of lifting and falling at each time. The conveying assembly 45 conveys the cloth to be processed into the lower roller 6, conveys the cloth output by the lower roller 6 into the second upper roller 5, and conveys the cloth output by the second upper roller 5 into the first upper roller 4.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a gentle cloth machine of stoving, includes frame (1), is located the cylinder in frame (1), drives rotatory drying device (2) and the angle adjusting device (3) of adjusting the cylinder inclination of the rotatory stoving of cylinder, characterized by: the roller comprises a roller body (7) and a lifting guide ring (10) positioned on the outer side of the roller body (7), the angle adjusting device (3) comprises a fixed component (21) positioned at the lower end of the roller and a lifting component (22) positioned at the high end of the roller, the lifting component (22) comprises two vertical adjusting rods (30) arranged on the frame (1), a driving motor (31) driving the two adjusting rods (30) to synchronously rotate and a lifting frame (29), an external thread section (39) is formed on the adjusting rod (30), a sliding block (37) which is in threaded fit with the external thread section (39) is connected with the outer side of the lifting frame (29), a plurality of lifting guide wheels (41) are rotatably arranged in the frame of the lifting frame (29), the outer ring surface shaping of lift leading wheel (41) has lift ring channel (42), lift leading ring (10) block is gone up and down in ring channel (42).

2. The dry cloth rewinder as set forth in claim 1, wherein: be fixed with sliding seat (34) on frame (1), the shaping has sliding tray (35) along vertical direction on sliding seat (34), sliding block (37) are located sliding tray (35) and move in vertical direction along sliding tray (35), fixedly connected with bearing frame (38) on sliding block (37), the both sides of crane (29) all are equipped with rotation axis (40) that pass bearing frame (38).

3. The dry cloth rewinder as set forth in claim 2, wherein: the cylinder is still including fixed guide ring (9) that are located barrel (7) outside, and fixed subassembly (21) include mount (23), and the downside is close to the position rotation on left and right sides and installs two fixed leading wheels (24) in the frame of mount (23), the outside surface shaping of fixed leading wheel (24) has fixed ring channel (25), fixed guide ring (9) card is gone into in fixed ring channel (25), the width of fixed ring channel (25) is greater than the thickness of fixed guide ring (9), the width of lift ring channel (42) is greater than the thickness of lift guide ring (10).

4. The dry cloth rewinder as set forth in claim 3, wherein: the utility model discloses a slope supporting seat (26) is all welded to the position that the downside is close to left and right sides in the frame of mount (23), all rotates on every slope supporting seat (26) and installs two slope leading wheels (27), the outer lane surface of slope leading wheel (27) is close to the one end integrated into one piece spacing ring (28) of slope supporting seat (26), and fixed leading ring (9) card is between two slope leading wheels (27), and the outer lane surface and the spacing ring (28) butt of fixed leading ring (9), minimum interval between two slope leading wheels (27) on same slope supporting seat (26) is greater than the thickness of fixed leading ring (9).

5. The dry cloth rewinder as set forth in claim 4, wherein: the small diameter of the external thread section (39) is larger than the diameter of the adjusting rod (30).

6. The dry cloth rewinder as set forth in claim 1, wherein: the cylinder still includes group's cloth spare (8) in barrel (7), group cloth spare (8) including many long group spare (12), every long group spare (12) all include two long group's cloth board (14) be connected with barrel (7), and two long group's cloth board (14) of same long group spare (12) are toward barrel (7) center toward the direction slope that is close to each other, one side homogeneous body shaping that barrel (7) inner wall was kept away from in long group's cloth board (14) has long oblique baffle (15), one side that long group's cloth board (14) was kept away from in long oblique baffle (15) is connected, long oblique baffle (15) are along the long group cloth board (14) extending direction that is connected to the direction slope of another long oblique baffle (15).

7. The dry cloth rewinder as set forth in claim 6, wherein: the two ends of the long poking piece (12) are connected with long end panels (16), and a circle of the long end panels (16) is welded with the two long cloth poking plates (14), the two long inclined guide plates (15) and the inner wall of the cylinder body (7).

8. The dry cloth rewinder as set forth in claim 7, wherein: dial cloth spare (8) and still include short plectrum (13) that equals with long plectrum (12) quantity, long plectrum (12) and short plectrum (13) looks interval setting, the length that short plectrum (13) was less than the length of barrel (7), and short plectrum (13) and the interval of barrel (7) both ends tip equal.

9. The dry cloth rewinder as set forth in claim 8, wherein: the both ends of short stirring piece (13) all are connected with short end panel (19), and the circumference of short end panel (19) is round and two short cloth board (17), two short oblique baffle (18) and barrel (7) inner wall welding are dialled to the short, the axis of short end panel (19) and barrel (7) is perpendicular.

10. The dry cloth rewinder as set forth in claim 1, wherein: the rotary drying device (2) comprises a drying component (43) positioned below the second upper roller (5), a rotary component (44) driving the rollers to rotate and a conveying component (45) conveying cloth to sequentially pass through the lower roller (6), the second upper roller (5) and the first upper roller (4), the drying component (43) comprises a plurality of fans (46) and heat collecting pipes (47) positioned above the fans (46) and communicated with steam, the rotary component (44) comprises a rotary motor (50) fixed on the lifting frame (29) and a belt (51) driving the rollers to rotate, the conveying assembly (45) comprises a lower conveying mechanism (53) for conveying the cloth into the lower roller (6), a second upper conveying mechanism (54) for conveying the cloth output by the lower roller (6) into the second upper roller (5), and a first upper conveying structure (55) for conveying the cloth output by the second upper roller (5) into the first upper roller (4); the lower conveying mechanism (53), the first upper conveying mechanism and the second upper conveying mechanism (54) respectively comprise a conveying motor (56) which is arranged above the higher end of the roller on the frame (1), a conveying roller (57) which is driven by the conveying motor (56) to rotate and has a horizontal axis, and an inclined guide cylinder (58) which is arranged below the conveying roller (57).

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