CN113308828A - Cloth dewatering equipment - Google Patents

Abstract

The invention relates to the technical field of dewatering equipment, in particular to cloth dewatering equipment, which comprises a dewatering pool, a top plate, a driving roller, a fixed arm, a V-shaped support, a reset mechanism, a rack, a transmission mechanism and a poking roller, wherein the dewatering pool is used for centrifugally dewatering cloth; the top plate is positioned above the dehydration pool, and an upright post is connected between the top plate and the dehydration pool; the driving roller is positioned on the top plate, the cloth bypasses the driving roller, and the driving roller is used for conveying the cloth; the fixed arm is connected with the top plate; the tip end of the V-shaped support is connected with the fixed arm, the V-shaped support can rotate in the vertical direction, and the cloth sequentially passes through the V-shaped support and the driving roller; the reset mechanism is connected with the V-shaped bracket and is used for resetting the V-shaped bracket. The invention can solve the problem that cloth is wound together after being dehydrated and is inconvenient to wind in the prior art, and provides cloth dehydrating equipment.

Description

Cloth dewatering equipment

Technical Field

The invention relates to the technical field of dewatering equipment, in particular to cloth dewatering equipment.

Background

Cloth need carry out dehydration when processing in printing and dyeing, and dehydration mostly adopts the hydroextractor, and the hydroextractor mainly utilizes the motor of high-speed rotation to drive the spin-drying bucket and rotate and produce centrifugal force, and water will throw away to outer bucket under the effect of this centrifugal force to reach the purpose of most moisture removal.

However, in the prior art, after the cloth is dehydrated by the dehydrator, the cloth is rolled together, and the defect of inconvenient rolling exists.

Disclosure of Invention

Therefore, the invention provides the cloth dewatering equipment, aiming at solving the problem that the cloth is wound together after being dewatered and is inconvenient to wind in the prior art.

A cloth dewatering device comprises a dewatering pool, a top plate, a driving roller, a fixed arm, a V-shaped support, a reset mechanism, a rack, a driving mechanism and a poking roller, wherein the dewatering pool is used for centrifugally dewatering cloth; the top plate is positioned above the dehydration pool, and an upright post is connected between the top plate and the dehydration pool; the driving roller is positioned on the top plate, the cloth bypasses the driving roller, and the driving roller is used for conveying the cloth; the fixed arm is connected with the top plate; the tip end of the V-shaped support is connected with the fixed arm, the V-shaped support can rotate in the vertical direction, and the cloth sequentially passes through the V-shaped support and the driving roller; the reset mechanism is connected with the V-shaped bracket and is used for resetting the V-shaped bracket; the rack is connected with the bottom of the V-shaped bracket; the transmission mechanism is meshed with the rack; the poking stick is connected with the transmission mechanism, and the transmission mechanism is used for driving the poking stick to swing so as to flap cloth.

Optionally, the resetting mechanism comprises a connecting rope, the top end of the connecting rope is connected with the V-shaped support, a interlayer plate is connected to the fixed arm and located below the V-shaped support, the rack and the connecting rope penetrate through the interlayer plate, the bottom end of the connecting rope is connected with a pressing plate, a second spring is connected to the upper surface of the pressing plate, and one end of the pressing plate, far away from the second spring, is connected with the lower surface of the interlayer plate.

Optionally, the upper surface of the interlayer plate is provided with a guide wheel, and the connecting rope can be in contact with the rolling surface of the guide wheel.

Optionally, drive mechanism includes the straight-teeth gear, the straight-teeth gear with rack toothing, coaxial coupling has first bevel gear on the straight-teeth gear, the meshing has second bevel gear on the first bevel gear, coaxial coupling has the dwang on the second bevel gear, stir the rod with the dwang lateral wall is connected.

Optionally, a dewatering tank is arranged on the dewatering tank, a bottom plate is connected to the bottom wall of the dewatering tank in a rotating mode, the bottom plate is used for supporting cloth, a blocking ring is arranged on the side wall inside the dewatering tank, a plurality of drain holes are formed in the blocking ring, a water pouring groove is arranged on the dewatering tank, the drain holes are communicated with the water pouring groove and the dewatering tank, the bottom of the water pouring groove is communicated with an annular groove, a water outlet hole is communicated with the annular groove, and a water outlet pipe is connected to the water outlet hole.

Optionally, the bottom wall of the dewatering tank is provided with a first chute, the bottom plate is connected with a plurality of first rollers, and the first rollers can roll in the first chute.

Optionally, the bottom plate axis is connected with an anti-stirring rod, and the cloth can wind around the side wall of the anti-stirring rod.

Optionally, a first extrusion cylinder and a second extrusion cylinder are connected to the top plate, the cloth is located between the first extrusion cylinder and the second extrusion cylinder, and the first extrusion cylinder and the second extrusion cylinder are used for extruding the cloth.

Optionally, a hydraulic rod is connected to the first container and used for pushing and pulling the first container, a second motor is connected to the second container and used for driving the second squeezing roller to rotate around its axis.

Optionally, a drainage plate is arranged below the first extrusion cylinder and used for draining water.

The technical scheme of the invention has the following advantages:

1. the invention provides a cloth dewatering device, through the arrangement, after the cloth is centrifugally dewatered in a dewatering tank, the cloth is conveyed to a winding device through a transmission roller, wherein the cloth can pass through a V-shaped support and is attached to the side wall of the V-shaped support before being wound to the winding device; if when the cloth is rolled up together, the area of contact increase of cloth and V type support, frictional force between cloth and V type support drives V type support upwards to rotate, V type support drives the rack and upwards moves, rack and drive mechanism mesh, therefore the rack passes through drive mechanism and drives to stir the rod and rotate to a direction, when V type support upwards rotates certain angle, canceling release mechanism drive V type support downstream returns the normal position, the rack passes through drive mechanism and drives to stir the rod and rotate to opposite direction this moment, so stir the rod and can make a round trip to beat and beat the cloth of rolling up together, until making the cloth unfold completely, and then make the cloth be convenient for the rolling.

2. The invention provides cloth dewatering equipment.A reset mechanism works in the following process, a V-shaped support pulls a pressing plate through a connecting rope, a second spring between the pressing plate and a interlayer plate is compressed, when the V-shaped support rotates upwards to a critical position, the second spring begins to rebound, so that the second spring pushes the pressing plate to move downwards, and the pressing plate enables the V-shaped support to move downwards through the connecting rope and reset.

3. The invention provides cloth dewatering equipment, through the arrangement, a connecting rope can be in contact with a guide wheel when moving up and down, the guide wheel enables the connecting rope to move more smoothly, and meanwhile, the abrasion of the connecting rope is reduced.

4. The invention provides cloth dewatering equipment, wherein a transmission mechanism works in the following process that a rack drives a straight gear to rotate, the straight gear drives a first bevel gear to rotate, the first bevel gear drives a second bevel gear to rotate, the second bevel gear drives a rotating rod to rotate, and the rotating rod drives a poking rod to rotate.

5. The invention provides cloth dewatering equipment, wherein an operator puts cloth to be dewatered into a dewatering groove on a dewatering pool, then drives a bottom plate to rotate, the bottom plate drives the cloth to rotate, the cloth starts to be dewatered under the action of centrifugal force, wastewater sequentially passes through a water discharge hole, a water pouring groove, an annular groove and a water outlet hole, and finally the wastewater is discharged from a water outlet pipe, so that the centrifugal dewatering process of the cloth is completed.

6. According to the cloth dewatering equipment, due to the arrangement, the friction force applied to the bottom plate during rotation is small and the rotation is smoother because the bottom plate is connected with the plurality of first rollers.

7. The invention provides cloth dewatering equipment, which is characterized in that when an operator puts cloth into a dewatering tank, the cloth is wound around an anti-stirring rod, so that the cloth can be positioned in the middle of a bottom plate during centrifugal dewatering, and the cloth can be dewatered more efficiently.

8. The invention provides cloth dewatering equipment, which is characterized in that when the water content of cloth to be dewatered is high, the cloth to be dewatered is directly placed into a dewatering tank, the rotating speed of a bottom plate is reduced, even the bottom plate cannot rotate, therefore, before the cloth to be dewatered is placed into the dewatering tank for dewatering, the cloth to be dewatered is placed between a first extrusion cylinder and a second extrusion cylinder, the first extrusion cylinder and the second extrusion cylinder extrude and dewater the cloth, the water content of the cloth with dewatering is reduced, and then the cloth to be dewatered is placed into the dewatering tank.

9. The invention provides cloth dewatering equipment, through the arrangement, an operator can conveniently drive a first extrusion cylinder to move towards or away from a second extrusion cylinder by using a hydraulic rod, and can efficiently drive the second extrusion cylinder to rotate by using a second motor, so that cloth can be conveniently conveyed, the cloth can be conveyed while being squeezed and dewatered, and dewatering is more sufficient.

10. The invention provides cloth dewatering equipment, wherein waste water obtained by extruding cloth by a first extruding cylinder and a second extruding cylinder can be remained at a specified position through a drainage plate, so that the waste water cannot flow around, and the cleanness of a workshop is favorably kept.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a side view of a cloth dewatering apparatus according to an embodiment of the present application;

FIG. 2 is a front view of a cloth dewatering apparatus according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a dewatering pool of a cloth dewatering apparatus according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a pressing mechanism of a cloth dewatering apparatus according to an embodiment of the present application;

FIG. 5 is an enlarged view of portion A of FIG. 3;

FIG. 6 is a schematic structural diagram of an unfolding mechanism and a toggle mechanism of a cloth dewatering device according to an embodiment of the present application;

FIG. 7 is a sectional view of a spreading mechanism of a cloth dewatering apparatus according to an embodiment of the present application;

FIG. 8 is a cross-sectional view of a toggle mechanism of a cloth dewatering apparatus according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a V-shaped support of a cloth dewatering device according to an embodiment of the present application.

Description of reference numerals: 101. a dewatering tank; 102. a first groove; 103. a first motor; 104. a through hole; 105. a base plate; 106. an anti-stir bar; 107. a first baffle; 108. a second baffle; 109. a third baffle; 110. a first roller; 111. a first chute; 201. a column; 202. a top plate; 203. a driving roller; 300. an extrusion mechanism; 301. a connecting plate; 302. an outer plate; 303. a second chute; 304. a hydraulic lever; 305. pushing the plate; 306. a first spring; 307. a drainage plate; 308. a fixing plate; 309. a second motor; 310. sleeving a ring; 400. a deployment mechanism; 401. a fixed arm; 402. a V-shaped bracket; 403. a rack; 404. a interlayer plate; 405. a card slot; 406. a wire hole; 407. pressing a plate; 408. a second spring; 409. a guide wheel; 410. connecting ropes; 500. a waving mechanism; 501. a second groove; 502. a spur gear; 503. a first bevel gear; 504. a second bevel gear; 505. rotating the rod; 506. poking the stick; 507. a block body; 601. a barrier ring; 602. a drain hole; 603. a water pouring groove; 604. an annular groove; 605. a water outlet hole; 606. a water outlet pipe; 607. a water inlet hole; 700. a first extrusion cylinder; 800. a second extrusion cylinder; 801. a squeeze roll; 802. a limiting plate; 803. a drive shaft.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Example 1

Referring to fig. 1-9, the invention provides a cloth dewatering device, comprising a dewatering pool, a top plate 202, a driving roller 203, a fixed arm 401, a V-shaped bracket 402, a reset mechanism, a rack 403, a driving mechanism and a poking stick 506, wherein the dewatering pool is used for centrifugally dewatering cloth; a top plate 202 is positioned above the dehydration pool, and a vertical column 201 is connected between the top plate 202 and the dehydration pool; the driving roller 203 is positioned on the top plate 202, the cloth is wound around the driving roller 203, and the driving roller 203 is used for conveying the cloth; a fixed arm 401 is connected with the top plate 202; the tip of the V-shaped bracket 402 is connected with the fixing arm 401, the V-shaped bracket 402 can rotate in the vertical direction, and the cloth sequentially passes through the V-shaped bracket 402 and the driving roller 203; the reset mechanism is connected with the V-shaped bracket 402 and is used for resetting the V-shaped bracket 402; the rack 403 is connected with the bottom of the V-shaped bracket 402; the transmission mechanism is meshed with the rack 403; poking stick 506 is connected with transmission mechanism, transmission mechanism is used for driving poking stick 506 swings in order to beat the cloth.

Through the arrangement, after the cloth is centrifugally dewatered in the dewatering tank, the cloth is conveyed to the winding device through the transmission roller 203, wherein the cloth can penetrate through the V-shaped support 402 and is attached to the side wall of the V-shaped support 402 before being wound to the winding device, when the cloth is unfolded, the contact area of the cloth and the V-shaped support 402 is small, and the friction force borne by the V-shaped support 402 is insufficient to enable the V-shaped support 402 to rotate; if the cloth is rolled up together, the contact area between the cloth and the V-shaped support 402 is increased, the V-shaped support 402 is driven to rotate upwards by the friction force between the cloth and the V-shaped support 402, the V-shaped support 402 drives the rack 403 to move upwards, and the rack 403 is meshed with the transmission mechanism, so that the rack 403 drives the poking rod 506 to rotate towards one direction through the transmission mechanism, when the V-shaped support 402 rotates upwards to a certain angle, the reset mechanism drives the V-shaped support 402 to move downwards to return to the original position, at the moment, the rack 403 drives the poking rod 506 to rotate towards the opposite direction through the transmission mechanism, and the poking rod 506 can beat and beat the cloth rolled together back and forth until the cloth is completely unfolded, and the cloth is convenient to roll.

Reset mechanism is connected with V type support 402 including connecting rope 410, connects rope 410 top, is connected with interlayer board 404 on the fixed arm 401, and interlayer board 404 is located the below of V type support 402, and rack 403 all passes interlayer board 404 with connecting rope 410, connects rope 410 bottom and is connected with clamp plate 407, and clamp plate 407 upper surface is connected with second spring 408, and the one end that clamp plate 407 was kept away from to second spring 408 is connected with interlayer board 404 lower surface.

The reset mechanism works in such a way that the V-shaped bracket 402 pulls the pressing plate 407 through the connecting rope 410, the second spring 408 between the pressing plate 407 and the interlayer plate 404 is compressed, when the V-shaped bracket 402 rotates upwards to a critical position, the second spring 408 begins to rebound, so that the second spring 408 pushes the pressing plate 407 to move downwards, and the pressing plate 407 makes the V-shaped bracket 402 move downwards through the connecting rope 410 and reset.

The upper surface of the interlayer plate 404 is provided with a guide wheel 409, and the connecting rope 410 can be in contact with the rolling surface of the guide wheel 409. Through last setting, connect rope 410 and can contact with leading wheel 409 when moving from top to bottom, leading wheel 409 makes the motion of connecting rope 410 more smooth, has also reduced the wearing and tearing of connecting rope 410 simultaneously.

Specifically, the rack 403 is arc-shaped; the tip of the V-shaped support 402 is connected with an insertion block, the insertion block is provided with an insertion slot and is C-shaped, the fixed arm 401 is positioned in the insertion slot of the insertion block, and the insertion block is hinged with the fixed arm 401 through a hinged shaft; the interlayer plate 404 is provided with a clamping groove 405 and a line hole 406, the rack 403 passes through the clamping groove 405, and the connecting rope 410 passes through the line hole 406.

The transmission mechanism comprises a straight gear 502, the straight gear 502 is meshed with a rack 403, a first bevel gear 503 is coaxially connected to the straight gear 502, a second bevel gear 504 is meshed to the first bevel gear 503, a rotating rod 505 is coaxially connected to the second bevel gear 504, and a poking rod 506 is connected with the side wall of the rotating rod 505. The transmission mechanism works as follows, the rack 403 drives the spur gear 502 to rotate, the spur gear 502 drives the first bevel gear 503 to rotate, the first bevel gear 503 drives the second bevel gear 504 to rotate, the second bevel gear 504 drives the rotating rod 505 to rotate, and the rotating rod 505 drives the poking rod 506 to rotate.

Specifically, fixed arm 401 lateral wall bottom is connected with the block 507, it has second recess 501 to open on the block 507, rack 403 can insert in second recess 501, second recess 501 set up to rack 403 provides the space of motion, in addition, dwang 505 is connected with second recess 501 diapire, spur gear 502 is connected with second recess 501 lateral wall, stir rod 506 and stretch out from second recess 501, it should be noted that block 507 can not block the rotation of stirring rod 506.

The fixed arm 401, the V-shaped bracket 402, the rack 403, the interlayer plate 404, the clamping groove 405, the line hole 406, the pressing plate 407, the second spring 408, the guide wheel 409 and the connecting rope 410 form the unfolding mechanism 400; the striking bar 506 is the swing mechanism 500.

Be equipped with dewatering trough 101 on the dehydration pond, the inside diapire of dewatering trough 101 rotates and is connected with bottom plate 105, bottom plate 105 is used for holding the cloth, the inside lateral wall of dewatering trough 101 is equipped with separation ring 601, be equipped with a plurality of wash ports 602 on the separation ring 601, be equipped with pouring basin 603 on the dewatering pond, wash port 602 intercommunication pouring basin 603 and dewatering trough 101, pouring basin 603 bottom intercommunication has annular groove 604, the intercommunication has apopore 605 on the annular groove 604, be connected with outlet pipe 606 on the apopore 605.

An operator puts cloth to be dehydrated into the dehydration tank 101 on the dehydration pool, then drives the bottom plate 105 to rotate, the bottom plate 105 drives the cloth to rotate, the cloth starts to be dehydrated under the action of centrifugal force, wastewater sequentially passes through the water discharge hole 602, the water pouring groove 603, the annular groove 604 and the water outlet hole 605, and finally the wastewater is discharged from the water outlet pipe 606, so that the centrifugal dehydration process of the cloth is completed.

It should be noted that the drain hole 602 is disposed obliquely, the lower the portion of the bottom wall of the drain hole 602 which is farther from the center of the bottom plate 105, the lower the portion of the bottom wall of the annular groove 604 which is farther from the center of the bottom plate 105, the lower the portion of the bottom wall of the outlet hole 605 which is farther from the center of the bottom plate 105, and the lower the portion of the bottom wall of the outlet hole 605 which is obliquely disposed. Through above-mentioned setting, can discharge waste water more fast.

The bottom of the dewatering tank is provided with a first groove 102, a first motor 103 is arranged in the first groove 102, the bottom of the first groove 102 is provided with a through hole 104, the through hole 104 is communicated with the dewatering tank 101, an output shaft of the first motor 103 extends into the through hole 104, the output shaft of the first motor 103 is connected with the center of the bottom plate 105, and the first motor 103 is used for driving the bottom plate 105 to rotate.

The bottom wall of the dewatering trough 101 is provided with a first chute 111, the bottom plate 105 is connected with a plurality of first rollers 110, and the first rollers 110 can roll in the first chute 111. Through the arrangement, the bottom plate 105 is connected with the plurality of first rollers 110, so that the friction force received by the bottom plate 105 during rotation is small, and the rotation is smoother.

The axial center of the bottom plate 105 is connected with an anti-stirring rod 106, and the cloth can wind the side wall of the anti-stirring rod 106. When an operator puts cloth into the dewatering tub 101, the cloth should be wound around the anti-stirring bar 106 so that the cloth can be positioned in the middle of the bottom plate 105 during centrifugal dewatering, thereby enabling more efficient dewatering.

The top plate 202 is connected with a first extrusion cylinder 700 and a second extrusion cylinder 800, the fabric is located between the first extrusion cylinder 700 and the second extrusion cylinder 800, and the first extrusion cylinder 700 and the second extrusion cylinder 800 are used for extruding the fabric. When the cloth water content of treating the dehydration is higher, directly put into the dehydration tank 101 with it and can reduce the rotational speed of bottom plate 105 and even make the bottom plate 105 unable rotatory, consequently will treat that the dehydration cloth puts into before the dehydration tank 101 dewaters, will treat now that the dehydration cloth is put between first recipient 700 and the second recipient 800, make first recipient 700 and second recipient 800 extrude the dehydration to the cloth, reduce the water content of taking the dehydration cloth, then will treat that the dehydration cloth is put into the dehydration tank 101.

The first extrusion cylinder 700 is connected with a hydraulic rod 304, the hydraulic rod 304 is used for pushing and pulling the first extrusion cylinder 700, the second extrusion cylinder 800 is connected with a second motor 309, and the second motor 309 is used for driving the second extrusion roller 801 to rotate around the axis of the second extrusion roller 309. Through the arrangement, an operator can conveniently drive the first extrusion cylinder 700 to move towards the direction close to or away from the second extrusion cylinder 800 by using the hydraulic rod 304, and can efficiently drive the second extrusion cylinder 800 to rotate by using the second motor 309, so that the cloth can be conveniently conveyed, the cloth can be extruded and dewatered and conveyed at the same time, and the dewatering is more sufficient.

A drainage plate 307 is arranged below the first extrusion cylinder 700, and the drainage plate 307 is used for draining water. The wastewater obtained by the first extrusion cylinder 700 and the second extrusion cylinder 800 through the extrusion of the material can be left at a designated position through the drainage plate 307, so that the wastewater can not flow around, and the cleanness of a workshop can be kept.

Specifically, a connecting plate 301 is connected to the top plate 202, the hydraulic rod 304 is located below the connecting plate 301, a cylinder of the hydraulic rod 304 is connected to the lower surface of the connecting plate 301, one end of the connecting plate 301, which is far away from the top plate 202, is connected with an outer plate 302, a push plate 305 is connected to a piston rod of the hydraulic rod 304, the outer plate 302 is parallel to the top plate 202, second sliding grooves 303 are formed in one sides, facing the first extrusion cylinder 700, of the outer plate 302 and the top plate 202, bottom walls of the second sliding grooves 303 are connected with first springs 306, top ends of the first springs 306 are connected with a ring sleeve 310, the ring sleeve 310 is in sliding fit with the second sliding grooves 303, the ring sleeve 310 is sleeved on the outer wall of a center shaft of the first extrusion cylinder 700, and one end, which is far away from the first springs 306, of the ring sleeve 310 is connected with the push plate 305. In addition, one end of the top plate 202, which is far away from the connecting plate 301, is connected with the fixing plate 308, the second motor 309 is located on the fixing plate 308, the output shaft of the second motor 309 is connected with the transmission shaft 803, the transmission shaft 803 passes through the top plate 202, one end of the transmission shaft 803, which is far away from the second motor 309, is connected with the middle shaft of the second container 800, the limiting plates 802 are coaxially sleeved on the middle shafts of the first container 700 and the second container 800, and the limiting plates 802 on the first container 700 and the limiting plates 802 on the second container 800 are arranged in a staggered manner in the vertical direction.

The connecting plate 301, the outer plate 302, the second slide groove 303, the fixing plate 308, and the second motor 309 constitute the pressing mechanism 300.

The advantage of above-mentioned setting lies in, the setting of second spout 303 makes the removal of first recipient 700 more smooth, and first spring 306 can make first recipient 700 obtain the buffering when removing to the life of the first recipient 700 of extension, in addition, limiting plate 802 on the first recipient 700 and limiting plate 802 on the second recipient 800 dislocation set in vertical direction, can avoid the direct looks collision of the spacing section of thick bamboo of first spacing section of thick bamboo and second.

The drainage plate 307 is triangular, the top plate 202 is connected with a first guide plate 107 and a second guide plate 108, the side wall of the dewatering pool is connected with a third guide plate 109, a water inlet hole 607 is formed in the dewatering pool, the water inlet hole 607 is communicated with the annular groove 604, the water inlet hole 607 is obliquely arranged, and the part of the water inlet hole 607, which is closer to the center of the bottom plate 105, is lower. The flow paths of the wastewater obtained by the first extrusion cylinder 700 and the second extrusion cylinder 800 extruding the cloth are as follows: the wastewater sequentially passes through the drainage plate 307, the first guide plate 107, the second guide plate 108, the third guide plate 109, the water inlet hole 607, the annular groove 604 and the water outlet hole 605, and is finally discharged to a designated position through the water outlet pipe 606.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (10)

1. A cloth dewatering apparatus, comprising:

the dewatering tank is used for centrifugally dewatering the cloth;

the top plate (202) is positioned above the dewatering pool, and an upright post (201) is connected between the top plate (202) and the dewatering pool;

a driving roller (203) which is positioned on the top plate (202), the cloth is wound around the driving roller (203), and the driving roller (203) is used for conveying the cloth;

a fixed arm (401) connected to the top plate (202);

the tip end of the V-shaped support (402) is connected with the fixing arm (401), the V-shaped support (402) can rotate in the vertical direction, and the cloth sequentially passes through the V-shaped support (402) and the driving roller (203);

a reset mechanism connected with the V-shaped bracket (402) and used for resetting the V-shaped bracket (402);

a rack (403) connected with the bottom of the V-shaped bracket (402);

a transmission mechanism engaged with the rack (403);

a poking stick (506) connected with the transmission mechanism, wherein the transmission mechanism is used for driving the poking stick (506) to swing so as to beat the cloth.

2. A cloth dewatering apparatus according to claim 1, wherein the return mechanism includes a connecting rope (410), the top end of the connecting rope (410) is connected to the V-shaped bracket (402), the fixing arm (401) is connected to a partition plate (404), the partition plate (404) is located below the V-shaped bracket (402), the rack (403) and the connecting rope (410) both pass through the partition plate (404), the bottom end of the connecting rope (410) is connected to a pressing plate (407), the upper surface of the pressing plate (407) is connected to a second spring (408), and one end of the second spring (408) far away from the pressing plate (407) is connected to the lower surface of the partition plate (404).

3. A cloth dewatering apparatus according to claim 2, characterized in that the upper surface of the division plate (404) is provided with a guide wheel (409), and the connecting rope (410) is capable of contacting with the rolling surface of the guide wheel (409).

4. The cloth dewatering apparatus according to claim 1, wherein the transmission mechanism comprises a straight gear (502), the straight gear (502) is engaged with the rack (403), a first bevel gear (503) is coaxially connected to the straight gear (502), a second bevel gear (504) is engaged with the first bevel gear (503), a rotating rod (505) is coaxially connected to the second bevel gear (504), and the poking rod (506) is connected to a side wall of the rotating rod (505).

5. The cloth dewatering equipment according to claim 1, wherein a dewatering tank (101) is arranged on the dewatering tank, a bottom plate (105) is rotatably connected to the bottom wall of the interior of the dewatering tank (101), the bottom plate (105) is used for supporting cloth, a blocking ring (601) is arranged on the side wall of the interior of the dewatering tank (101), a plurality of drain holes (602) are arranged on the blocking ring (601), a water pouring tank (603) is arranged on the dewatering tank, the drain holes (602) are communicated with the water pouring tank (603) and the dewatering tank (101), an annular groove (604) is communicated with the bottom of the water pouring tank (603), a water outlet hole (605) is communicated with the annular groove (604), and a water outlet pipe (606) is connected to the water outlet hole (605).

6. A cloth dewatering apparatus according to claim 5, characterized in that a first chute (111) is provided in the bottom wall of the dewatering tub (101), and a plurality of first rollers (110) are connected to the bottom plate (105), the first rollers (110) being capable of rolling in the first chute (111).

7. A cloth dewatering apparatus according to claim 5, characterised in that an anti-churning bar (106) is attached to the base plate (105) at its centre, the cloth being able to wrap around the side walls of the anti-churning bar (106).

8. A cloth dewatering apparatus according to claim 1, characterized in that a first (700) and a second (800) press cylinder are connected to the top plate (202), the cloth is located between the first (700) and second (800) press cylinders, and the first (700) and second (800) press cylinders are used to press the cloth.

9. The cloth dewatering apparatus according to claim 8, characterized in that a hydraulic rod (304) is connected to the first pressing barrel (700), the hydraulic rod (304) is used for pushing and pulling the first pressing barrel (700), a second motor (309) is connected to the second pressing barrel (800), and the second motor (309) is used for driving the second pressing roller (801) to rotate around its axis.

10. The cloth dewatering apparatus of claim 8, wherein a drainage plate (307) is provided below the first press tube (700), and the drainage plate (307) is used for draining water.

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