CN115046381A - Dewatering and flattening device for textile processing - Google Patents

Abstract

The invention relates to the field of textile processing, in particular to a dewatering and flattening device for textile processing. The invention provides a dewatering and flattening device for textile processing, which can prevent textile from rolling up during pushing. The utility model provides a flat device of dehydration exhibition for textile processing usefulness, including the rack, support the shell, first drive assembly, second dehydration roller, second drive assembly and prevent rolling up mechanism etc. fixedly connected with supports the shell in the middle of the rack, supports the first drive assembly of shell lower part left side wall fixedly connected with, supports the shell in upper portion around the symmetry slidingtype be equipped with second dehydration roller, the gliding type is equipped with second drive assembly on the limiting plate, be equipped with on the support shell and prevent rolling up the mechanism that prevents that fabric from rolling up. When the dehydration, the second transmission assembly will make the anti-roll mechanism work, make reciprocating of clamp plate relapse, and then block the fabric, avoid the fabric to rotate along the second dewatering roller at dehydration and propelling movement in-process, so will play the purpose of anti-roll.

Description

Dewatering and flattening device for textile processing

Technical Field

The invention relates to the field of textile processing, in particular to a dewatering and flattening device for textile processing.

Background

The textile origin is a general name taken from spinning and weaving, but with the continuous development and perfection of a textile knowledge system and a discipline system, particularly after technologies such as non-woven textile materials and three-dimensional compound weaving are produced, the textile origin not only is traditional hand-made spinning and weaving, but also comprises a non-woven fabric technology and a modern three-dimensional weaving technology, wherein textile dewatering is an important step of textile processing, and further, other processing steps can be conveniently carried out on the textile by workers.

A dewatering equipment for fabric with publication number CN210394836U relates to fabric equipment field. This a dewatering equipment for fabric, comprising a base plate, damping device is all installed to the both sides of bottom plate bottom, be provided with telescopic link one between bottom plate and the damping device, telescopic link one's surface is provided with expanding spring one, the supporting leg is all installed to the both sides of damping device bottom, be provided with receipts water tank between the supporting leg, receipts material roller is installed to one side of supporting leg. This dewatering equipment can extrude the moisture on the fabric through the effect of last roller and lower cylinder, makes the fabric carry out the dehydration for the first time, can handle the air around the fabric through air heater and drying device's effect again, makes the secondary dehydration of fabric to can make the abundant quilt of moisture on the fabric get rid of, make the operation behind the fabric not influenced, be favorable to improving the production efficiency who makes the fabric. Although the above patent can carry out secondary dehydration and drying process to the fabric, this patent does not possess the anticurl function, when the fabric passes through the rotation extrusion of upper roller and lower roller, easily along with the rotation of upper roller is rolled up, influences the normal propelling movement of fabric.

Therefore, it is necessary to design a dewatering and flattening device for textile processing, which can prevent the textile from rolling up when being pushed.

Disclosure of Invention

In order to overcome the defect that the existing dewatering equipment is easy to roll up along an upper roller in the textile dewatering process, the invention has the technical problems that: provided is a dewatering and flattening device for textile processing, which can prevent a textile from rolling up when pushed.

The technical implementation scheme of the invention is as follows: a dewatering and flattening device for textile processing, which comprises a placing frame, a supporting shell, a dustproof shell, a first dewatering roller and a first transmission component, the drainage frame, the limiting plate, the second dehydration roller, second transmission assembly and mount, fixedly connected with supporting shell on the rack, equal fixedly connected with dirt-proof housing on the supporting shell both sides wall, the equal rotary type in inside both sides of supporting shell is equipped with the first dehydration roller that can carry out the extrusion dehydration to the fabric, the first transmission assembly of fixedly connected with on the supporting shell, the inside fixedly connected with drainage frame of supporting shell, first dehydration roller is located the drainage frame, supporting shell upper portion fixedly connected with limiting plate, the inside both sides slidingtype of supporting shell is equipped with the second dehydration roller, the gliding style is equipped with second transmission assembly on the limiting plate, equal rotary type ground is connected with the mount between two second dehydration roller both sides, still including preventing rolling up the mechanism, be equipped with the anti-rolling up mechanism that can prevent the fabric from rolling up on the supporting shell.

In a preferred embodiment of the present invention, the first transmission assembly includes a first motor, two first belt pulleys and a first transmission belt, the two first belt pulleys are respectively connected to the left sides of the two first dewatering rolls, the first transmission belt is sleeved on the two first belt pulleys, the first motor is installed on the lower left wall of the support housing, an output shaft of the first motor is connected to the rear first dewatering roll through a coupling, the second transmission assembly includes a second motor, a second belt pulley and a second transmission belt, the two second belt pulleys are respectively connected to the left sides of the two second dewatering rolls, the second transmission belt is sleeved on the two second belt pulleys, and the second motor is slidably disposed on the limiting plate.

In a preferred embodiment of the invention, the anti-rolling mechanism comprises limiting frames, a pressing plate, connecting seats, L-shaped connecting rods and connecting discs, wherein the two limiting frames are fixedly connected to the inner sides of the fixing frames, the pressing plate capable of preventing the textile from rolling up is arranged between the limiting frames in a sliding mode, the pressing plate is located between the two second dewatering rollers, the connecting seats are fixedly connected to the two sides of the pressing plate, the L-shaped connecting rods are fixedly connected to the connecting seats, the connecting discs are connected to the second belt pulleys and the second dewatering rollers, and the lower portions of the connecting discs are connected with the adjacent L-shaped connecting rods in a sliding mode.

In a preferred embodiment of the invention, the device further comprises a lifting mechanism, the lifting mechanism comprises a screw, a rotary table, a transmission plate, a dial, a rotating rod and a lifting knob, the screw is arranged on each of the two fixing frames in a threaded manner, the rotary table is fixedly connected to the tops of the screws, the transmission plate is rotatably arranged between the two rotary tables, the dial is fixedly connected to the top of the supporting shell, the rotating rod is rotatably arranged on the dial, the lifting knob is fixedly connected to the rotating rod, the lifting knob is positioned on the dial, and the rotating rod is rotatably connected with the transmission plate.

In a preferred embodiment of the present invention, the support shell further comprises a pulling mechanism, the pulling mechanism comprises a pull rod, a connecting frame, a ball and a threaded sleeve, the pull rod is slidably disposed on the support shell, the connecting frame is fixedly connected to the pull rod, the threaded sleeve is fixedly connected to the rotating rod, the connecting frame can slide along the threaded sleeve, the ball is fixedly connected to the inside of the connecting frame, and the ball can slide along a groove on the threaded sleeve.

In a preferred embodiment of the invention, the dewatering device further comprises a transmission mechanism, the transmission mechanism comprises a transmission roller, a transmission disc and a connecting plate, at least three transmission rollers capable of pushing textile fabrics are uniformly and rotatably arranged at the lower part in the supporting shell, the transmission disc is fixedly connected to the transmission roller and the first dewatering roller, and the connecting plate is rotatably arranged between the upper sides of the transmission discs.

In a preferred embodiment of the invention, the device further comprises a hair scraping mechanism, the hair scraping mechanism comprises a support frame, a limiting frame, a collecting frame, a scraping plate, a return spring, wedge blocks and wedge plates, the support frame is connected between the fixing frames, the support frame is positioned in the support shell, the limiting frame is fixedly connected to the support frame, the collecting frame is arranged in the limiting frame in a sliding mode, the scraping plate capable of removing hair bulbs is arranged in the limiting frame in the sliding mode, the scraping plate can move towards the rear side and can be contacted with a second dewatering roller at the front side, the two return springs are connected between the scraping plate and the limiting frame, the two wedge plates are fixedly connected to the upper portion of the scraping plate, the two wedge blocks are fixedly connected to the top of the pressing plate, and the wedge blocks are both contacted with the adjacent wedge plates.

In a preferred embodiment of the invention, the collection device further comprises a collection mechanism, the collection mechanism comprises a support plate, limit rails, liquid accumulation frames and a pull handle, the bottom of the placement frame is fixedly connected with the two limit rails for guiding, the two sides of the bottom of the placement frame are fixedly connected with the support plates, the support plates are positioned outside the limit rails, the liquid accumulation frames capable of collecting waste water are arranged between the limit rails in a sliding manner, the liquid accumulation frames are positioned at the bottom of the placement frame, the pull handle is fixedly connected onto the liquid accumulation frames, and the outer sides of the pull handle are coated with anti-slip glue.

Compared with the prior art, the invention has the following advantages: 1. during dehydration, the second transmission component enables the anti-rolling mechanism to work, so that the pressing plate repeatedly moves up and down, textile fabrics are blocked, the textile fabrics are prevented from rotating along the second dehydration roller in the dehydration and pushing processes, and the anti-rolling purpose is achieved;

2. the second dewatering roller can be driven to move upwards or downwards to adjust the height through the forward rotation or reverse rotation lifting knob, so that textile fabrics with different thicknesses can be dewatered, and the practicability is improved;

3. under the action of the pulling mechanism, whether the height of the second dewatering roll needs to be adjusted or not is determined according to the space between the pull rod and the textile fabric, so that the use is more convenient;

4. when the textile fabric is dehydrated, the driving roller rotates along the first dehydrating roller to push the textile fabric, manual pushing is not needed, and automatic pushing is achieved;

5. during dehydration, the pressing plate is matched with the hair scraping mechanism, so that the scraping plate can repeatedly move back and forth, the surface of the second dehydration roller at the front side is scraped and cleaned, and hair balls are prevented from being remained and adhered to other textiles;

6. the hydrops frame can be collected the water that produces in the dehydration work, avoids these water direct rows subaerial.

Drawings

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

Fig. 2 is a first partial cross-sectional view of the present invention.

Fig. 3 is a second partial cross-sectional view of the present invention.

Fig. 4 is a third partial cross-sectional view of the present invention.

Fig. 5 is a partial perspective view of the present invention.

Fig. 6 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 7 is a schematic perspective view of a part of the lifting mechanism of the present invention.

Fig. 8 is a schematic perspective view of the anti-rolling mechanism of the present invention.

Fig. 9 is a schematic perspective view of a part of the anti-rolling mechanism of the present invention.

Fig. 10 is a first perspective view of the pulling mechanism of the present invention.

Fig. 11 is a schematic perspective view of a second pulling mechanism according to the present invention.

Fig. 12 is a partial cross-sectional view of the pulling mechanism of the present invention.

Fig. 13 is a schematic perspective view of a first transmission mechanism of the present invention.

Fig. 14 is a schematic perspective view of a second transmission mechanism of the present invention.

Fig. 15 is a schematic perspective view of a first shaving mechanism of the present invention.

Fig. 16 is a schematic perspective view of a second shaving mechanism of the present invention.

Fig. 17 is a schematic perspective view of a part of the shaving mechanism of the present invention.

Fig. 18 is a perspective view of the collecting mechanism of the present invention.

Wherein the figures include the following reference numerals: 1. a placing frame, 2, a supporting shell, 3, a dustproof shell, 4, a first dewatering roll, 5, a first transmission component, 6, a drainage frame, 7, a limiting plate, 8, a second dewatering roll, 9, a second transmission component, 90, a fixing frame, 10, a lifting mechanism, 100, a screw rod, 101, a rotary table, 102, a transmission plate, 103, a dial gauge, 104, a rotary rod, 105, a lifting knob, 11, an anti-rolling mechanism, 110, a limiting frame, 111, a pressing plate, 112, a connecting seat, 113, an L-shaped connecting rod, 114, a connecting disc, 12, a pulling mechanism, 120, a pull rod, 121, a connecting frame, 122, a ball, 123, a threaded sleeve, 13, a transmission mechanism, 130, a transmission roll, 131, a transmission disc, 132, a connecting plate, 14, a hair scraping mechanism, 140, a supporting frame, 141, a limiting frame, 142, a collecting frame, 143, a scraping plate, 144, a reset spring, 145, a wedge block, 146, a wedge plate, 15 and a collecting mechanism, 150. supporting plate, 151, spacing rail, 152, hydrops frame, 153, pull handle.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.

Example 1

A dehydration flattening device for textile processing is disclosed, as shown in figures 1-5, comprising a placing frame 1, a supporting shell 2, a dustproof shell 3, a first dehydration roller 4, a first transmission component 5, a drainage frame 6, a limiting plate 7, a second dehydration roller 8, a second transmission component 9, a fixing frame 90 and an anti-rolling mechanism 11, wherein the middle of the placing frame 1 is welded and connected with the supporting shell 2, the dustproof shell 3 is fixedly connected on the left side wall and the right side wall of the supporting shell 2 through screws, the first dehydration roller 4 capable of squeezing and dehydrating textile fabrics is rotatably arranged on the front side and the rear side of the lower part in the supporting shell 2, the first transmission component 5 is fixedly connected on the left wall of the lower part of the supporting shell 2, the drainage frame 6 is fixedly connected on the lower part in the supporting shell 2 through bolts, the first dehydration roller 4 is positioned in the drainage frame 6, the limiting plate 7 is fixedly connected on the left wall of the upper part of the supporting shell 2, the second dehydration roller 8 is symmetrically arranged on the front side and the rear side of the upper part in the supporting shell 2, limiting plate 7 goes up the slip formula and is equipped with second transmission assembly 9, and the equal rotary type ground is connected with mount 90 between 8 left sides of second dewatering roller and between the right side, is equipped with on the support shell 2 and prevents rolling up mechanism 11 that can prevent that the fabric from rolling up.

As shown in fig. 2, fig. 3, fig. 4 and fig. 5, the first transmission assembly 5 includes a first motor, two first belt pulleys and a first transmission belt, the two first belt pulleys are respectively connected to the left sides of the two first dewatering rolls 4, the first transmission belt is sleeved on the two first belt pulleys, the first motor is installed on the left wall of the lower part of the supporting shell 2 through a bolt, and the output shaft of the first motor is connected to the first dewatering rolls 4 at the rear side through a coupler, the second transmission assembly 9 includes a second motor, a second belt pulley and a second transmission belt, the two second belt pulleys are respectively connected to the left sides of the two second dewatering rolls 8, the second transmission belt is sleeved on the two second belt pulleys, and the second motor is slidably disposed on the limiting plate 7.

As shown in fig. 2, fig. 8 and fig. 9, the anti-rolling mechanism 11 includes a limiting frame 110, a pressing plate 111, a connecting seat 112, an L-shaped connecting rod 113 and a connecting plate 114, the inner side of the fixing frame 90 is fixedly connected with two limiting frames 110 through bolts, the pressing plate 111 capable of preventing the textile fabric from rolling up is slidably arranged between the limiting frames 110, the pressing plate 111 is located at a position between two second dewatering rollers 8, the left and right sides of the pressing plate 111 are fixedly connected with the connecting seat 112, the connecting seat 112 is welded with the L-shaped connecting rod 113, the left side of the second belt pulley and the right side of the second dewatering roller 8 are connected with the connecting plate 114, and the lower part of the connecting plate 114 is slidably connected with the adjacent L-shaped connecting rod 113.

Still including elevating system 10, elevating system 10 is including screw rod 100, carousel 101, driving plate 102, graduation apparatus 103, bull stick 104 and lift knob 105, equal screw thread formula is equipped with screw rod 100 on mount 90, the equal fixedly connected with carousel 101 in screw rod 100 top, the rotary type is equipped with driving plate 102 between two carousel 101 top right sides, support 2 middle bolt fixedly connected with graduation apparatus 103 in the top of shell, the rotary type is equipped with bull stick 104 on the graduation apparatus 103, bull stick 104 top fixedly connected with lift knob 105, lift knob 105 is located graduation apparatus 103, the rotary type links to each other in the middle of bull stick 104 lower part right side and driving plate 102.

The device can dewater and flatten textile processing objects, when the device is needed to dewater textile fabrics, people can firstly spread the textile fabrics on the placing rack 1, then push the textile fabrics to the rear side, so that the textile fabrics are contacted with the first dewatering roller 4 and the second dewatering roller 8, if the gap between the first dewatering roller 4 and the second dewatering roller 8 is proper, people can start the first transmission component 5 and the second transmission component 9, so that the first transmission component 5 and the second transmission component 9 drive the first dewatering roller 4 and the second dewatering roller 8 to rotate, the first dewatering roller 4 can rotate to the front side, the second dewatering roller 8 can rotate to the rear side, so that the textile fabrics are pushed backwards, people also push the textile fabrics to assist in hand pushing, the textile fabrics can be squeezed by the rotation of the first dewatering roller 4 and the second dewatering roller 8, so that the moisture is squeezed, and the purpose of dewatering is achieved, excess water can be discharged downwards through the drainage frame 6, the second dewatering roller 8 and the second belt pulley rotate to drive the connecting disc 114 to rotate, the connecting disc 114 drives the L-shaped connecting rod 113 to repeatedly move up and down, the L-shaped connecting rod 113 drives the connecting seat 112 and the pressing plate 111 to repeatedly move up and down, the pressing plate 111 can block textiles, the textiles are prevented from being rolled up by the rotation of the second dewatering roller 8 on the front side, the textiles can be stably pushed to the rear side and then evenly squeezed, when the first dewatering roller 4 and the second dewatering roller 8 rotate to squeeze the textiles, wrinkles on the textiles are also flattened by the first dewatering roller 4 and the second dewatering roller 8, after the textiles are squeezed, people can take out the textiles, then place other textiles to squeeze, according to the characteristics of the textiles, two or three textiles can be squeezed together, improve the working effect, when meeting thicker textile fabrics, if need to heighten the second dewatering roll 8, people can close the first transmission component 5 and the second transmission component 9 first, then can rotate the lifting knob 105 to drive the rotating rod 104 to rotate, so that the rotating rod 104 drives the transmission plate 102 and the rotating disc 101 to rotate, the rotating disc 101 drives the screw 100 to rotate, so that the screw 100 drives the fixed frame 90, the second transmission component 9 and the second dewatering roll 8 to move upwards, by checking the numerical value of the lifting knob 105 aligned with the dial gauge 103, the rotating angle of the lifting knob 105 can be known, and further the rising height of the second dewatering roll 8 can be known, after the second dewatering roll 8 rises to a proper height, people can stop rotating the lifting knob 105, and similarly, if need to lower the height of the second dewatering roll 8, people reverse the lifting knob 105, drive the rotating rod 104, the transmission plate 102 and the rotating disc 101 to reverse, the screw 100 can be driven to rotate reversely, so that the screw 100 drives the second transmission component 9 and the second dewatering roll 8 to move downwards for adjustment, and the lifting knob 105 stops rotating after adjustment, so that the device is more convenient to use in practice and is suitable for textiles with different thicknesses.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2, 10, 11 and 12, the device further includes a pulling mechanism 12, the pulling mechanism 12 includes a pull rod 120, a connecting frame 121, a ball 122 and a threaded sleeve 123, the pull rod 120 is slidably disposed on a front side of the support housing 2, the connecting frame 121 is fixedly connected to a rear side of the pull rod 120, the threaded sleeve 123 is fixedly connected to a lower portion of the rotating rod 104, the connecting frame 121 can slide along the threaded sleeve 123, the ball 122 is fixedly connected to a middle portion of the connecting frame 121, and the ball 122 can slide along a groove on the threaded sleeve 123.

After people place the textile on the placing rack 1, the textile is pushed backwards to be contacted with the pull rod 120, if the distance between the pull rod 120 and the textile is too close, the textile is difficult to move backwards continuously, the height between the second dewatering roll 8 and the pull rod 120 needs to be increased, when in operation, people can pull the pull rod 120 upwards to drive the connecting frame 121 and the balls 122 to move upwards, the balls 122 slide along the grooves on the threaded sleeve 123 to drive the threaded sleeve 123 to rotate, the threaded sleeve 123 drives the rotating rod 104 to rotate, the rotating rod 104 drives the screw rod 100 to rotate through the turntable 101, so that the screw rod 100 drives the second dewatering roll 8 to move upwards, people can adjust by checking the distance between the pull rod 120 and the textile, after the pull rod 120 is adjusted to a proper height, the pull rod 120 can be loosened, and similarly, when the height of the pull rod 120 needs to be adjusted to be decreased, the pull rod 120 is pushed downwards, make pull rod 120 take link 121 and ball 122 to move down, ball 122 just takes threaded sleeve 123 and bull stick 104 to reverse, make bull stick 104 take carousel 101 and screw rod 100 to reverse, screw rod 100 just takes second dewatering roll 8 to move down and adjusts, so under the effect of pulling mechanism 12, it is more convenient when confirming the height of second dewatering roll 8, only need look over the interval between fabric and the pull rod 120 alright learn whether the height of second dewatering roll 8 is suitable.

As shown in fig. 2, 13 and 14, the dewatering device further comprises a transmission mechanism 13, the transmission mechanism 13 comprises a transmission roller 130, a transmission disc 131 and a connecting plate 132, the lower portion of the support shell 2 is evenly and rotatably provided with three transmission rollers 130 capable of pushing textile fabrics, the right side of each transmission roller 130 and the right side of the corresponding first dewatering roller 4 are both fixedly connected with the transmission disc 131 through bolts, and the connecting plate 132 is rotatably arranged between the upper sides of the transmission discs 131.

When carrying out the dehydration of fabric, first dehydration roller 4 rotates and will take the driving plate 131 that meets with self to rotate, make driving plate 131 drive connecting plate 132 and rotate, connecting plate 132 just drives remaining driving plate 131 and rotates, remaining driving plate 131 just can drive driving roller 130 and rotate, make driving roller 130 carry out the propelling movement to the fabric, need not artifical manual propelling movement fabric rearward movement, realize the effect of automatic propelling movement dehydration, finish at the fabric dehydration, first dehydration roller 4 stall back, driving roller 130 has just also stopped rotating.

As shown in fig. 1, 2, 15, 16 and 17, the device further comprises a hair scraping mechanism 14, the hair scraping mechanism 14 comprises a support frame 140, a limit frame 141, a collection frame 142, a scraping plate 143, a return spring 144, wedge blocks 145 and wedge plates 146, the support frame 140 is connected between the fixing frames 90, the support frame 140 is located inside the support shell 2, the limit frame 141 is fixedly connected to the support frame 140, the collection frame 142 is arranged in the limit frame 141 in a sliding manner, the scraping plate 143 capable of removing hair bulbs is arranged in the limit frame 141 in a sliding manner, the scraping plate 143 can move towards the rear side and can be in contact with the second dewatering roll 8 at the front side, two return springs 144 are connected between the scraping plate 143 and the limit frame 141, the wedge plates 146 are fixedly connected to the left and right sides of the upper rear side of the scraping plate 143 in a symmetrical manner, the wedge blocks 145 are fixedly connected to the left and right sides of the top of the pressing plate 111, and the wedge blocks 145 are all in contact with the similar wedge plates 146.

When the dewatering operation is carried out, the anti-rolling mechanism 11 can work through the operation of the second transmission component 9, the pressing plate 111 repeatedly moves up and down, the pressing plate 111 drives the wedge-shaped block 145 to move upwards when moving upwards, the wedge-shaped block 145 pushes the wedge-shaped plate 146 to move towards the rear side, the wedge-shaped plate 146 drives the scraper 143 to move towards the rear side, the return spring 144 is stretched, the scraper 143 moves towards the rear side and can be contacted with the second dewatering roll 8 at the front side, the surface of the second dewatering roll 8 at the front side is cleaned, the hair balls on the surface of the second dewatering roll 8 at the front side can be scraped and fallen into the collection frame 142, the cleaning purpose is achieved, when the pressing plate 111 moves downwards, the wedge-shaped plate 146 is driven to move downwards, the wedge-shaped block 146 is not contacted with the wedge-shaped block 145 any more, the scraper 143 drives the wedge-shaped plate 146 to move forwards and return under the return action of the return spring 144, and the pressing plate 111 repeatedly moves upwards and downwards, the wedge-shaped plate 146 repeatedly pushes the wedge-shaped block 145, and then the scraper 143 repeatedly moves back and forth to scrape and clean the second dewatering roll 8 on the front side, so that the situation that the wool ball residue of the second dewatering roll 8 on the front side is excessively stained on other textiles is avoided.

As shown in fig. 1, fig. 2 and fig. 18, still including collecting mechanism 15, collecting mechanism 15 is including backup pad 150, spacing rail 151, hydrops frame 152 and pull handle 153, rack 1 bottom bilateral symmetry is used for the spacing rail 151 of direction through bolt fixedly connected with, the equal fixedly connected with backup pad 150 in both sides about rack 1 bottom, backup pad 150 is located the outside of spacing rail 151, slidingtype is equipped with the hydrops frame 152 that can collect waste water between the spacing rail 151, hydrops frame 152 is located rack 1 bottom, hydrops frame 152 front side fixedly connected with pulls handle 153, the outside of pull handle 153 scribbles the anti-skidding glue, difficult skidding when pulling pull handle 153.

The water that the fabric dehydration flows out will flow to hydrops frame 152 inside through rack 1, after the fabric all dewaters, alright will draw handle 153 pulling to the front side, take hydrops frame 152 to pull out along spacing rail 151 to the front side, alright clear up the water in the hydrops frame 152, after the clearance finishes, again with hydrops frame 152 along spacing rail 151 rear side promote reset can, so can avoid the water that produces in the dehydration work to directly arrange subaerial.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (8)

1. A dehydration flattening device for textile processing comprises a placing frame (1), a supporting shell (2), a dustproof shell (3), a first dehydration roller (4), a first transmission component (5), a drainage frame (6), a limiting plate (7), a second dehydration roller (8), a second transmission component (9) and a fixing frame (90), wherein the supporting shell (2) is fixedly connected on the placing frame (1), the dustproof shell (3) is fixedly connected on both side walls of the supporting shell (2), the first dehydration roller (4) capable of extruding and dehydrating textile fabrics is rotatably arranged on both sides inside the supporting shell (2), the first transmission component (5) is fixedly connected on the supporting shell (2), the drainage frame (6) is fixedly connected inside the supporting shell (2), the first dehydration roller (4) is positioned in the drainage frame (6), the limiting plate (7) is fixedly connected on the upper portion of the supporting shell (2), support the inside both sides slidingtype of shell (2) and be equipped with second dewatering roller (8), sliding type is equipped with second transmission assembly (9) on limiting plate (7), and equal rotary type ground is connected with mount (90) between two second dewatering roller (8) both sides, characterized by, still including preventing rolling up mechanism (11), be equipped with on support shell (2) and prevent rolling up mechanism (11) that can prevent that the fabric from rolling up.

2. The dewatering and flattening device for textile processing as claimed in claim 1, characterized in that the first transmission assembly (5) comprises a first motor, two first belt pulleys and a first transmission belt, the two first belt pulleys are respectively connected to the left sides of the two first dewatering rolls (4), the first transmission belt is sleeved on the two first belt pulleys, the first motor is mounted on the left wall of the lower portion of the supporting shell (2), the output shaft of the first motor is connected with the first dewatering rolls (4) at the rear side through a coupling, the second transmission assembly (9) comprises a second motor, a second belt pulley and a second transmission belt, the two second belt pulleys are respectively connected to the left sides of the two second dewatering rolls (8), the second transmission belt is sleeved on the two second belt pulleys, and the second motor is slidably arranged on the limiting plate (7).

3. The dewatering and flattening device for textile processing as claimed in claim 2, characterized in that the anti-rolling mechanism (11) comprises two limiting frames (110), a pressing plate (111), connecting seats (112), L-shaped connecting rods (113) and connecting discs (114), the inner sides of the fixing frames (90) are fixedly connected with the two limiting frames (110), the pressing plate (111) capable of preventing the textile from rolling up is arranged between the limiting frames (110) in a sliding manner, the pressing plate (111) is located between the two second dewatering rolls (8), the connecting seats (112) are fixedly connected to both sides of the pressing plate (111), the L-shaped connecting rods (113) are fixedly connected to the connecting seats (112), the connecting discs (114) are connected to the second dewatering rolls (8) and the second belt wheels, and the lower portions of the connecting discs (114) are connected to the adjacent L-shaped connecting rods (113) in a sliding manner.

4. The dewatering and flattening device for textile processing is characterized by further comprising a lifting mechanism (10), wherein the lifting mechanism (10) comprises a screw (100), a rotary table (101), a transmission plate (102), a dial (103), a rotary rod (104) and a lifting knob (105), the screw (100) is arranged on each of two fixing frames (90) in a threaded mode, the rotary table (101) is fixedly connected to the top of the screw (100), the transmission plate (102) is arranged between the two rotary tables (101) in a rotating mode, the dial (103) is fixedly connected to the top of the supporting shell (2), the rotary rod (104) is arranged on the dial (103) in a rotating mode, the lifting knob (105) is fixedly connected to the rotary rod (104), the lifting knob (105) is located on the dial (103), and the rotary rod (104) is rotatably connected with the transmission plate (102).

5. The dewatering and flattening device for textile processing as claimed in claim 4, characterized by further comprising a pulling mechanism (12), wherein the pulling mechanism (12) comprises a pull rod (120), a connecting frame (121), balls (122) and a threaded sleeve (123), the pull rod (120) is slidably arranged on the support shell (2), the connecting frame (121) is fixedly connected to the pull rod (120), the threaded sleeve (123) is fixedly connected to the rotating rod (104), the connecting frame (121) can slide along the threaded sleeve (123), the balls (122) are fixedly connected to the inside of the connecting frame (121), and the balls (122) can slide along grooves in the threaded sleeve (123).

6. The dewatering and flattening device for textile processing as claimed in claim 5, characterized by further comprising a transmission mechanism (13), wherein the transmission mechanism (13) comprises a transmission roller (130), a transmission disc (131) and a connecting plate (132), at least three transmission rollers (130) capable of pushing textile fabrics are uniformly and rotatably arranged at the lower portion in the supporting shell (2), the transmission roller (130) and the first dewatering roller (4) are fixedly connected with the transmission disc (131), and the connecting plate (132) is rotatably arranged between the upper sides of the transmission discs (131).

7. The dewatering and flattening device for textile processing as recited in claim 6, further comprising a dehairing mechanism (14), the dehairing mechanism (14) comprises a support frame (140), a limit frame (141), a collecting frame (142), a scraping plate (143), a reset spring (144), a wedge block (145) and a wedge plate (146), the support frame (140) is connected between the fixing frames (90), the support frame (140) is located inside the support shell (2), the limit frame (141) is fixedly connected to the support frame (140), the collecting frame (142) is arranged in the limit frame (141) in a sliding manner, the scraping plate (143) capable of clearing hair balls is arranged in the limit frame (141) in a sliding manner, the scraping plate (143) moves towards the rear side and can contact with the second dewatering roller (8) at the front side, two reset springs (144) are connected between the scraping plate (143) and the limit frame (141), two wedge plates (146) are fixedly connected to the upper portion of the scraper (143), two wedge blocks (145) are fixedly connected to the top of the pressing plate (111), and the wedge blocks (145) are all in contact with the adjacent wedge plates (146).

8. The dewatering and flattening device for textile processing is characterized by further comprising a collecting mechanism (15), wherein the collecting mechanism (15) comprises a supporting plate (150), limiting rails (151), liquid accumulating frames (152) and a pull handle (153), two limiting rails (151) used for guiding are fixedly connected to the bottom of the placing rack (1), the supporting plates (150) are fixedly connected to two sides of the bottom of the placing rack (1), the supporting plate (150) is located on the outer sides of the limiting rails (151), liquid accumulating frames (152) capable of collecting waste water are arranged between the limiting rails (151) in a sliding mode, the liquid accumulating frames (152) are located at the bottom of the placing rack (1), the pull handle (153) is fixedly connected to the liquid accumulating frames (152), and anti-slip glue is coated on the outer sides of the pull handle (153).

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