CN109827389B - Wringing-squeezing type dewatering structure of fabric dewatering device - Google Patents

Wringing-squeezing type dewatering structure of fabric dewatering device Download PDF

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Publication number
CN109827389B
CN109827389B CN201910080401.5A CN201910080401A CN109827389B CN 109827389 B CN109827389 B CN 109827389B CN 201910080401 A CN201910080401 A CN 201910080401A CN 109827389 B CN109827389 B CN 109827389B
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China
Prior art keywords
fabric
dewatering
wringing
cylinder
rotating
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CN201910080401.5A
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CN109827389A (en
Inventor
邰卫国
周莉
徐健
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Jiangsu Huayi Garment Co ltd
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Jiangsu Huayi Garment Co ltd
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Abstract

The application discloses surface fabric dewatering device's wringing formula dewatering structure, including wringing formula dewatering component, wringing formula dewatering component is including the solid fixed cylinder and the rotary drum subassembly that set gradually, and the surface fabric can pass in solid fixed cylinder and the rotary drum subassembly, and the rotary drum subassembly is including a plurality of rotary drums that set gradually, and the direction of rotation of every rotary drum is unanimous, and the rotary drum can make the surface fabric be wrung to a direction, and the direction of rotation speed of rotary drum is grow gradually along the direction that the surface fabric gos forward. From this, can realize wringing the multistage of surface fabric, utilize the rotational speed difference of two adjacent rotatory barrels, produce speed difference, can wring the surface fabric between two adjacent rotatory barrels to form wringing the multistage of surface fabric, and the rotatory barrel that speed gradually becomes fast can improve the wringing degree to the surface fabric, makes wringing the effect better, can improve surface fabric dewatering effect.

Description

Wringing-squeezing type dewatering structure of fabric dewatering device
Technical Field
The invention relates to a scutcher, in particular to a twisting and extruding type dewatering structure of a fabric dewatering device.
Background
The existing dehydration device is of a wringing type and a squeezing type, the wringing type is that the whole body is wrung towards one direction, the fabric can move forwards while being wrung, the fabric is not fully wrung when being wrung, and the fabric is used and cannot achieve a good dehydration effect.
The extrusion type fabric can only extrude two side surfaces and can not well dehydrate the fabric.
After the cloth is dehydrated, the cloth is easily twisted into a rope-shaped object, when the next procedure processing is carried out, a untwisting and scutching procedure is needed to be carried out, the cloth is unfolded into flaky cloth, and the rope-shaped cloth is unfolded by adopting a scutcher mostly.
The patent of "an expander" for 201520082834.1 discloses including backing up the device of twisting with fingers, including intermediate lever and three exhibition cloth poles, exhibition cloth pole sets up along the intermediate lever circumference, and exhibition cloth pole both ends all are provided with the connecting piece, and exhibition cloth pole both ends are fixed on the connecting piece, be equipped with the ejection mechanism who is used for controlling exhibition cloth pole and intermediate lever distance in the connecting piece, ejection mechanism is three-jaw chuck, three-jaw chuck includes pinion, gear wheel and jack catch, pinion and gear wheel engagement, and the jack catch is connected in the gear wheel and is connected with gear wheel transmission, exhibition cloth pole both ends respectively with the jack catch fixed connection and the one-to-one of both sides. When the tension of the cloth spreading rod on the fabric needs to be changed, the distance between the cloth spreading rod and the middle rod only needs to be adjusted through the ejection mechanism, and the ejection mechanism is a three-jaw chuck. But it can only adjust along the radial direction of intermediate lever and move back the exhibition cloth pole of twisting device, and can't adjust along the axis direction, can't adapt to the surface fabric scutching work of multiple width size.
Disclosure of Invention
The object of the present invention is to provide a wringing dewatering structure for a fabric dewatering device that solves one or more of the above-mentioned problems of the prior art.
According to one aspect of the invention, a squeezing type dewatering structure of a fabric dewatering device is provided, which comprises a squeezing type dewatering assembly, wherein the squeezing type dewatering assembly comprises a fixed cylinder and a rotating cylinder assembly which are sequentially arranged, fabric can pass through the fixed cylinder and the rotating cylinder assembly, the rotating cylinder assembly comprises a plurality of rotating cylinders which are sequentially arranged, the rotating direction of each rotating cylinder is consistent, the rotating cylinders can enable the fabric to be squeezed in one direction, and the rotating speed of the rotating cylinders is gradually increased along the advancing direction of the fabric.
The wringing-squeezing type dewatering component can realize multistage wringing and squeezing of the fabric, the speed difference is generated by utilizing the different rotating speeds of the two adjacent rotating cylinders, the fabric can be wrung between the two adjacent rotating cylinders, so that multistage wringing and squeezing of the fabric is formed, the rotating cylinders with gradually-changed speeds can improve the wringing and squeezing degree of the fabric, the wringing and squeezing effect is better, and the fabric dewatering effect can be improved.
In some embodiments: all be provided with the bearing frame between the adjacent rotatory section of thick bamboo, the bearing frame sets up in first frame, and every rotatory section of thick bamboo all installs in the bearing frame through the bearing.
In some embodiments: the first driving device is capable of driving the rotary drum assembly to rotate.
In some embodiments: the first driving device comprises a first motor and a first transmission shaft which are arranged on the first rack, the first motor drives the first transmission shaft to rotate, the first transmission shaft is provided with driving gears which are in one-to-one correspondence with the rotary cylinders along the axis direction, and the diameter of the driving gear is gradually increased along the advancing direction of the fabric; the outer wall of each rotary cylinder is sleeved with a driven gear which is matched with the driving gear in a one-to-one correspondence mode, and the diameter of each driven gear is gradually reduced along the advancing direction of the fabric.
In some embodiments: in two adjacent rotary drums, the rotary drum at the front side has a rotation speed 20-50% faster than that at the rear side.
In some embodiments: a plurality of first water leakage holes are uniformly distributed on the surface of each rotary cylinder.
In some embodiments: the first motor and the first transmission shaft are in transmission through gears or belts.
In some embodiments: elastic bulges are distributed on the inner walls of the fixed cylinder and each rotary cylinder;
in some embodiments: the elastic bulge is made of rubber.
Drawings
FIG. 1 is a schematic structural view of a wringing-squeezing type dewatering structure of a fabric dewatering device applied to a dewatering structure in a dewatering scutching system;
FIG. 2 is a schematic structural view of a wringing dewatering structure of a fabric dewatering apparatus of the present invention;
FIG. 3 is a schematic structural view of a fixed cylinder of a wringing-squeezing type dewatering structure of a fabric dewatering device of the present invention;
FIG. 4 is a schematic view of the structure of the rotary drum of the wringing dewatering mechanism of the fabric dewatering apparatus of the present invention;
FIG. 5 is a schematic view of a squeezing dewatering assembly of a dewatering device for dewatering fabric according to the present invention;
FIG. 6 is a schematic view of the squeezing roll assembly of the dewatering device for dewatering and scutching system;
FIG. 7 is a schematic view of a wringing and squeezing type dewatering structure of a fabric dewatering device of the present invention applied to a fabric advancing assembly in a dewatering scutching system;
FIG. 8 is a schematic view of the structure of the scutching device of the present invention in which the wringing-squeezing type dewatering structure of the fabric dewatering device is applied to a dewatering scutching system;
FIG. 9 is a side view of a wringing dewatering structure of a fabric dewatering device of the present invention applied to an opening device in a dewatering opening system;
FIG. 10 is a schematic view of the wringing dewatering structure of a fabric dewatering device of the present invention applied to a spreader device in a dewatering scutching system;
fig. 11 is a schematic structural diagram of a untwisting device of a wringing-squeezing type dewatering structure of a fabric dewatering device applied to a dewatering scutching system.
Detailed Description
The present invention will be described in further detail with reference to the following description of the drawings.
As shown in fig. 1-11, a wringing type dewatering structure of a fabric dewatering device, which can be used in a dewatering scutching system, which can include a dewatering device and a scutching device 9 arranged in this order;
the dewatering device comprises a first frame, and a screw extrusion type dewatering component 7, a squeezing type dewatering component 8 and a fabric propelling component 602 which are sequentially arranged on the first frame;
the wringing type dewatering component 7 comprises a fixed cylinder 701 and a rotating cylinder component which are sequentially arranged, fabric can penetrate through the fixed cylinder 701 and the rotating cylinder component, namely the fixed cylinder 701 and the rotating cylinder component are of cylinder structures with openings at two ends, the fixed cylinder 701 can be fixedly arranged on a first rack through a support, the rotating cylinder component comprises a plurality of rotating cylinders 702 which are sequentially arranged, the rotating direction of each rotating cylinder 702 is consistent, the rotating cylinders 702 can enable the fabric to be wrung to one direction, and the rotating speed of the rotating cylinders 702 is gradually increased along the advancing direction of the fabric. From this, the rotational speed that utilizes two adjacent rotatory section of thick bamboos is different, produces speed difference, can wring the surface fabric between two adjacent rotatory section of thick bamboos to form wringing the multistage of surface fabric, and the rotatory section of thick bamboo that speed gradually becomes fast can improve the wringing degree to the surface fabric, makes wringing the effect better, can improve surface fabric dehydration effect.
The squeezing type dewatering component 8 comprises a cylinder body 801 and squeezing rings 802 sequentially arranged in the cylinder body 801 along the axial direction, the cylinder body 801 can be fixedly arranged on a first rack through a support, fabric can pass through the squeezing rings 802 and is squeezed, and the diameter of the squeezing rings 802 is gradually reduced along the advancing direction of the fabric. From this, through the extrusion ring that the diameter diminishes gradually, can extrude the surface fabric step by step, improve the extrusion effect, and then improve surface fabric dehydration effect.
The fabric propelling component 602 can drive the fabric to move forwards; the fabric pushing assembly 602 comprises two pushing rollers 603 arranged up and down and a second driving device 604 for driving the pushing rollers 603 to rotate, the fabric passes between the two pushing rollers 603, and the two pushing rollers 603 squeeze the fabric and push the fabric to move forwards. Two propulsion rollers 603 all install in first frame through the bearing, through gear drive between two propulsion rollers 603, specifically speaking, the tip of every propulsion roller 603 all is provided with a gear, and two gear intermeshing transmission can make two propulsion rollers 603 the rotation direction opposite, and then the drive surface fabric moves forward. The second driving device 604 is a second motor, and the second driving device 604 may drive one of the pushing rollers 603 to rotate through a gear or a belt.
Bearing blocks 703 are arranged between every two adjacent rotary cylinders 702, the bearing blocks 703 are fixedly arranged on the first frame, and each rotary cylinder 702 is arranged on the bearing block 703 through a bearing. A bearing seat is also arranged between the fixed cylinder 701 and the rotary cylinder 702, and the fixed cylinder 701 and the rotary cylinder 702 can be connected with the bearing seat through bearings, so that the fixed cylinder 701 and the rotary cylinder 702 are connected compactly. The fixed cylinder 701 can play a guiding role in the fabric enters the rotating cylinder 702, and the fabric located in the fixed cylinder 701 cannot be driven by the rotating cylinder 702 in front to be wrung, so that the wringing effect of the fabric between the fixed cylinder 701 and the rotating cylinder 702 is improved, and the dewatering effect of the fabric is improved.
The first driving device can drive the rotary drum assembly to rotate; the first driving device comprises a first motor 704 and a first transmission shaft 705 which are arranged on the first rack, the first motor 704 is fixedly arranged on the first rack, two ends of the first transmission shaft 705 can be arranged on the first rack through bearings and bearing seats, and the first transmission shaft 705 is parallel to the advancing direction of the fabric. The first motor 704 can drive the first transmission shaft 705 to rotate through a gear or a belt, the first transmission shaft 705 is in keyed connection with driving gears 706 which are in one-to-one correspondence with the rotary drum 702 along the axial direction, and the diameter of the driving gears 706 is gradually increased along the advancing direction of the fabric; the outer wall of each rotary drum 702 is fixedly sleeved with a driven gear 707 which is in one-to-one corresponding meshing fit with the driving gear 706, and the diameter of the driven gear 707 gradually decreases along the advancing direction of the fabric. This allows the rotation speed of the rotary drum 702 to be gradually increased in the direction in which the fabric advances.
Of the two adjacent rotary drums 702, the rotary drum 702 located at the front side has a rotation speed 20-50% faster than that of the rotary drum 702 located at the rear side, in this embodiment, 30% faster; wherein the front side is towards the advancing direction of the fabric.
A plurality of first water leakage holes are uniformly distributed on the surface of each rotary cylinder 702; thereby, the squeezed water flows away from the first water leakage hole.
Elastic protrusions 708 are fixedly distributed on the inner walls of the fixed cylinder 701 and each rotating cylinder 702; the elastic protrusion 708 is made of rubber.
The extrusion ring 802 comprises a plurality of extrusion roller assemblies 803 uniformly arranged in the cylinder 801 in the circumferential direction, each extrusion roller assembly 803 comprises an extrusion main rod body 804, each extrusion main rod body 804 is arranged on the inner wall of the cylinder 801 in the radial direction of the cylinder 801, and one end of each extrusion main rod body 804 is fixedly connected to the inner wall of the cylinder 801. The roll shafts 805 are symmetrically arranged on two sides of the extrusion main rod body 804, and the two roll shafts 805 are of an inverted V-shaped structure, so that the fabric can be better extruded, and the dewatering effect is improved. Every roller 805 all with extrude between the body of main rod 804 articulated, be equipped with spring 807 between every roller 805 and the extrusion body of main rod 804, spring 807 can play the cushioning effect, in addition, the surface fabric is twisted and is crowded together, and surface unevenness makes roller 805 undulate from top to bottom, can improve the extrusion effect to the surface fabric. Each roll shaft 805 is provided with a squeeze roll 806; the squeezing rollers 806 are connected with the roller shaft 805 through bearings, and the squeezing rollers 806 are rubber rollers.
Second water leakage holes are uniformly distributed on the surface of the cylinder body 801; thereby, the squeezed water can be discharged through the second water leakage hole.
In addition, the fabric collecting frame 605 is further included, the fabric collecting frame 605 may be fixedly installed on the first frame, the fabric collecting frame 605 is located on the discharging side of the fabric pushing assembly 602, that is, located between the squeezing dewatering assembly 8 and the clothes opening device, and can collect the dewatered fabric. The dewatered fabric enters the scutching device 9 for scutching.
The scutching device 9 comprises a second frame 1, and an unfolding device 2, a untwisting device 3 and a threaded rod 4 which are sequentially arranged on the second frame 1 from top to bottom; the untwisting device 3 can be adjusted in length in the axial direction of the untwisting device.
Wherein, the unfolding device 2 is an arc-shaped rod, and two ends of the arc-shaped rod are fixedly connected to the second frame 1. Therefore, the fabric can be subjected to preliminary unfolding work, so that the fabric can be subjected to better untwisting work in the untwisting device.
The number of the untwisting devices 3 is at least two, in this embodiment three, and the untwisting devices are arranged in a staggered manner in the vertical direction. This can improve the effect of the untwisting operation.
Wherein, untwisting device 3 includes mobile jib 31, third drive arrangement 32 and a plurality of pole 33 that untwists, mobile jib 31 is close to both ends punishment and keys connection pad 34 respectively, a plurality of pole 33 ring that untwist equipartitions around mobile jib 31, every pole 33 both ends that untwist all fixed connection in connection pad 34, third drive arrangement 32 drive mobile jib 31 rotates, mobile jib 31 both ends are installed in second frame 1 through mobile device 5 respectively, mobile device 5 can follow the length of mobile jib 31 axis direction regulation, every pole 33 that untwists can adjust the linear distance at both ends. From this, the length of mobile jib and the length that moves back the twist of a thread all can be adjusted, adjusts the whole length that moves back the twist of a thread device through mobile device for can adapt to the surface fabric scutching work of multiple width size.
The untwisting rod 33 comprises a plurality of first rod bodies 331 connected in sequence, and adjacent first rod bodies 331 can be hinged and connected through a hinge shaft. Therefore, the untwisting rod can adjust the linear distance between the two ends and adapt to the change of the overall length of the untwisting device.
Both ends of each first rod body 331 are provided with circular ring protrusions 332, and the circular ring protrusions 332 are integrally formed on the first rod body 331. Therefore, the fabric can be prevented from being damaged due to the fact that the hinged position between the first rod bodies directly contacts the fabric.
The main rod 31 includes a second rod 311 and a third rod 312, the second rod 311 and the third rod 312 are coaxially disposed, the second rod 311 is axially movably inserted into the third rod 312, specifically, one end of the third rod 312 is open and hollow, and one end of the second rod 311 is inserted into the hollow of the third rod 312 and can axially slide. Thereby, the overall length of the main rod can be adjusted.
The movable device 5 comprises a sliding rail 51, a sliding seat 52, a bearing seat 53, an adjusting screw 54 and a nut 55, the sliding rail 51 is fixedly installed on the second frame 1, the sliding seat 52 is arranged on the sliding rail 51 in a sliding mode, the bearing seat 53 is fixedly installed on the sliding seat 52, the end part of the main rod 31 is installed on the bearing seat 53 through a bearing, the adjusting screw 54 is movably arranged on the second frame 1 in a self-rotating mode through the bearing, the nut 55 is fixedly arranged on the sliding seat 52, and the nut 55 is in threaded fit with the adjusting screw 54. Thus, the relative distance between the two carriages 52 is adjusted by turning the adjusting screw 54, and the movable device is then able to adjust the length of the main lever and the untwisting lever.
The third driving device 32 is a third motor, the third driving device 32 is transmitted to the main rod 31 through a transmission member such as a gear or a belt, and the third driving device 32 is fixedly installed on one of the movable devices 5.
Therefore, the length of the untwisting device can be adjusted along the axial direction of the untwisting device, and the untwisting device can be suitable for fabric scutching work with various width sizes.
The above is only one embodiment of the present invention, and it should be noted that, for those skilled in the art, several similar modifications and improvements can be made without departing from the inventive concept of the present invention, and these should also be considered as within the protection scope of the present invention.

Claims (4)

1. The utility model provides a surface fabric dewatering device's wringing formula dehydration structure which characterized in that: the fabric squeezing device comprises a squeezing type dewatering component (7), wherein the squeezing type dewatering component (7) comprises a fixed cylinder (701) and a rotating cylinder component which are sequentially arranged, fabric can pass through the fixed cylinder (701) and the rotating cylinder component, the rotating cylinder component comprises a plurality of rotating cylinders (702) which are sequentially arranged, the rotating direction of each rotating cylinder (702) is consistent, the rotating cylinders (702) can enable the fabric to be squeezed towards one direction, and the rotating speed of the rotating cylinders (702) is gradually increased along the advancing direction of the fabric;
bearing blocks (703) are arranged between every two adjacent rotary cylinders (702), the bearing blocks (703) are arranged on the first rack, and each rotary cylinder (702) is arranged on the bearing block (703) through a bearing;
the first driving device can drive the rotary drum assembly to rotate;
the first driving device comprises a first motor (704) and a first transmission shaft (705) which are arranged on the first rack, the first motor (704) drives the first transmission shaft (705) to rotate, the first transmission shaft (705) is provided with driving gears (706) which are in one-to-one correspondence with the rotary drums (702) along the axial direction, and the diameters of the driving gears (706) are gradually increased along the advancing direction of the fabric; driven gears (707) which are correspondingly matched with the driving gears (706) one by one are sleeved on the outer wall of each rotary drum (702), and the diameters of the driven gears (707) are gradually reduced along the advancing direction of the fabric;
elastic protrusions (708) are distributed on the inner walls of the fixed cylinder (701) and each rotating cylinder (702);
the elastic bulge (708) is made of rubber.
2. The wringing dewatering structure of a fabric dewatering apparatus of claim 1, wherein: in two adjacent rotary drums (702), the rotary drum (702) positioned at the front side has a rotation speed 20-50% faster than that of the rotary drum (702) positioned at the rear side.
3. The wringing dewatering structure of a fabric dewatering apparatus of claim 1, wherein: a plurality of first water leakage holes are uniformly distributed on the surface of each rotary cylinder (702).
4. The wringing dewatering structure of a fabric dewatering apparatus of claim 1, wherein: the first motor (704) and the first transmission shaft (705) are in transmission through gears or belts.
CN201910080401.5A 2019-01-28 2019-01-28 Wringing-squeezing type dewatering structure of fabric dewatering device Active CN109827389B (en)

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CN109827389B true CN109827389B (en) 2021-02-19

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