阅读说明：本技术 一种纺织面料甩干设备 (Textile fabric spin-drying equipment ) 是由 周峰 李阿娟 傅文涛 高壮飞 于 2021-06-29 设计创作，主要内容包括：本发明公开了一种纺织面料甩干设备,涉及纺织面料处理技术领域；包括漂洗池、柔性甩干桶、第一限位机构、震动装置、网筒、移动装置、转动装置；所述柔性甩干桶包括两个链板串、第一连接板、第二连接板、位于链板串之间的第一挤压网、若干连接轴；所述网筒包括两个相对布置的圆盘、第二挤压网；所述圆盘固接有若干连接头,所述圆盘一侧设有躲避槽,所述链板串由若干链板构成；所述链板包括板体、嵌入槽、第二限位机构、第一长孔、滑块、第一施力弹簧、固定机构、单向机构、失效机构；所述漂洗池上方设有下压机构,所述漂洗池的池底设有抬板。本发明的有益效果是甩干时面料均匀的分布在网筒外侧,甩干时间大大缩短。(The invention discloses spinning equipment for textile fabric, and relates to the technical field of textile fabric treatment; comprises a rinsing pool, a flexible spin dryer tube, a first limiting mechanism, a vibration device, a net drum, a moving device and a rotating device; the flexible spin dryer tube comprises two chain plate strings, a first connecting plate, a second connecting plate, a first extrusion net positioned between the chain plate strings and a plurality of connecting shafts; the net barrel comprises two discs which are oppositely arranged and a second extrusion net; the disc is fixedly connected with a plurality of connectors, one side of the disc is provided with an avoiding groove, and the chain plate string is composed of a plurality of chain plates; the chain plate comprises a plate body, an embedded groove, a second limiting mechanism, a first long hole, a sliding block, a first force application spring, a fixing mechanism, a one-way mechanism and a failure mechanism; a pressing mechanism is arranged above the rinsing tank, and a lifting plate is arranged at the bottom of the rinsing tank. The invention has the beneficial effects that the fabric is uniformly distributed outside the net drum during spin-drying, and the spin-drying time is greatly shortened.)

1. A textile fabric spin-drying device is characterized by comprising a rinsing pool, a flexible spin-drying barrel for placing fabric, a first limiting mechanism for fixing the flexible spin-drying barrel at the bottom of the rinsing pool, a vibration device for vibrating the rinsing pool, a net drum, a moving device for moving the net drum and a rotating device for rotating the net drum;

the flexible spin dryer tube comprises two chain plate strings, a first connecting plate, a second connecting plate, a first extrusion net and a plurality of connecting shafts, wherein the first connecting plate is positioned at one end of each chain plate string and used for connecting the two chain plate strings, the second connecting plate is positioned at the other end of each chain plate string and used for connecting the two chain plate strings, the first extrusion net is positioned between the chain plate strings, and the connecting shafts are positioned between the chain plate strings and used for connecting the first extrusion net;

the net barrel comprises two oppositely arranged disks and a second extrusion net positioned between the disks;

one side of each disc, which is far away from the other disc, is fixedly connected with a plurality of connectors, and the connectors are arranged along the edge of the disc; one side of the disc is provided with a hiding groove for hiding the first connecting plate and the second connecting plate, one end of the second extrusion net is positioned on one side of the hiding groove, and the other end of the second extrusion net reaches the other side of the hiding groove along the edge of the disc;

the chain plate string is composed of a plurality of chain plates which are connected in series, and the adjacent chain plates are hinged;

the chain plate comprises a plate body, an embedded groove, a second limiting mechanism, a first long hole, a sliding block, a first force application spring, a fixing mechanism, a one-way mechanism and a failure mechanism, wherein the embedded groove is located on one side of the plate body and used for embedding a connector, the second limiting mechanism is used for limiting the connector in the embedded groove, the first long hole is located on the plate body, the sliding block is connected in the first long hole in a sliding mode, the first force application spring is used for applying force towards the embedded groove to the sliding block, the fixing mechanism is used for fixing the sliding block at one end, away from the embedded groove, of the first long hole, the one-way mechanism is used for preventing the sliding block from sliding towards one side, away from the embedded groove, along the first long hole, and the failure mechanism is used for enabling the one-way mechanism to fail;

the end part of the connecting shaft is connected with the sliding block;

a pressing mechanism for pressing the connecting shaft is arranged above the rinsing pool, a lifting plate for lifting the connecting shaft is arranged at the bottom of the rinsing pool, and a lifting cylinder is arranged on the lower side of the lifting plate.

2. A textile fabric dewatering apparatus according to claim 1 wherein the slide block of the link plate connected to the first link plate is slidably connected to the first link plate and the slide block of the link plate connected to the second link plate is connected to the second link plate.

3. A textile fabric spin-drying apparatus according to claim 1, wherein the first limiting mechanism comprises two first limiting plates for abutting against the chain plate string, a second limiting plate for abutting against the first connecting plate, a third limiting plate for abutting against the second connecting plate, a driving cylinder for driving the first limiting plate, a driving cylinder for driving the second limiting plate, and a driving cylinder for driving the third limiting plate.

4. The textile fabric spin-drying device according to claim 1, wherein the second limiting mechanism comprises a first side chute located at one side of the embedded groove, a limiting rod slidably connected in the first side chute, a second force application spring for applying a force to the limiting rod towards the embedded groove, a first guide surface located at one side of the limiting rod, a second side chute located at one side of the plate body close to the embedded groove, a first extrusion rod slidably connected in the second side chute for extruding the first guide surface so as to enable the limiting rod to be far away from the embedded groove, and a first reset spring for resetting the first extrusion rod;

one side of the disc, which is far away from the disc on the other side, is provided with a plurality of extrusion cylinders for extruding the first extrusion rod;

and one end of the limiting rod is positioned in the embedded groove and is provided with a second guide surface which drives the limiting rod to be far away from the embedded groove when being extruded by the connector.

5. A textile fabric drying apparatus according to claim 4, wherein one side of the slider is provided with a hook groove;

the fixing mechanism comprises a first end sliding groove positioned in the plate body, an end sliding block connected in the first end sliding groove in a sliding manner, a third reset spring used for resetting the end sliding block, a hook fixedly connected with the end sliding block and used for being matched with the hook groove, and a damping rod penetrating through the end sliding block;

a cavity is arranged in the plate body, a lever is rotatably connected in the cavity, a fourth reset spring for resetting the lever is arranged between the lever and the cavity, one end of the lever abuts against one end, far away from the embedded groove, of the limiting rod, and a second long hole is formed in the other end of the lever;

the damping rod comprises a damping section positioned in the smooth section and positioned in the end sliding block and a limiting block fixedly connected to one end of the damping section far away from the smooth section;

a bulge 34 is fixedly connected to one end of the smooth section, which is far away from the damping section, and the bulge 34 is positioned in the second long hole;

the hooking part of the hook and the hook groove faces to the side far away from the lever.

6. The textile fabric spin-drying equipment according to claim 5, wherein the sliding block is provided with side edges at two opposite sides, the first long hole is provided with side sliding grooves for the side edges to slide at two opposite sides, one side of the side sliding groove, which is far away from the first long hole, is provided with a tooth socket, and one side of the tooth socket, which is close to the embedded groove, is provided with a second end sliding groove;

the one-way mechanism comprises a rotating wheel rotationally connected with the side edge, a one-way bearing positioned between the rotating wheel and the side edge, a plurality of clamping teeth fixedly connected to the outer edge of the rotating wheel, a supporting bar slidably connected in the tooth groove, a third force application spring positioned in the tooth groove and used for applying force to the supporting bar towards the first long hole, and matching teeth arranged along the supporting bar and used for matching with the clamping teeth;

the failure mechanism comprises a control pin which is connected in the sliding groove at the second end in a sliding manner, a third guide surface which is positioned on one side of the control pin, and a second extrusion rod which is inserted on one side of the plate body close to the embedded groove and used for extruding the third guide surface so as to enable the support bar to be far away from the rotating wheel;

one end of the second extrusion rod, which is far away from the control pin, is exposed outside the plate body;

a first lower pressing plate used for pressing a second extrusion rod is arranged above the rinsing pool, and a first lower pressing cylinder is arranged on the upper side of the first lower pressing plate;

the pressing mechanism comprises a second pressing plate and a second pressing cylinder, the second pressing plate is located on the lower side of the first pressing plate and used for pressing the connecting shaft downwards, and the second pressing cylinder is located on the first pressing plate and used for pressing the second pressing plate downwards.

7. A textile fabric dewatering apparatus according to claim 6, wherein the moving means comprises two parallel rails, a carriage slidably connected to the rails, a slide mechanism for driving the carriage to slide on the rails, and an upper hoist cylinder connected to the upper end of the carriage;

the lower end of the upper lifting cylinder belt is connected with the corresponding disc through a rotating device.

Technical Field

The invention belongs to the technical field of textile fabric treatment, and particularly relates to spinning-drying equipment for textile fabrics.

Background

After printing and dyeing, textile fabric needs to be rinsed and then dried, but the existing drying machine is similar to a household washing machine, the textile fabric is piled in a lump shape in a barrel during drying, the textile fabric is not uniformly spread in the barrel, the drying is fast in places with small spreading thickness, but the drying is slow in places with large spreading thickness; therefore, the spin-drying efficiency of the whole fabric is low.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides spinning-drying equipment for textile fabric, which is uniform in fabric spreading during spinning-drying and high in fabric spinning-drying efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme:

a textile fabric spin-drying device comprises a rinsing pool, a flexible spin-drying barrel for placing fabric, a first limiting mechanism for fixing the flexible spin-drying barrel at the bottom of the rinsing pool, a vibrating device for vibrating the rinsing pool, a net drum, a moving device for moving the net drum and a rotating device for rotating the net drum; the flexible spin dryer tube comprises two chain plate strings, a first connecting plate, a second connecting plate, a first extrusion net and a plurality of connecting shafts, wherein the first connecting plate is positioned at one end of each chain plate string and used for connecting the two chain plate strings, the second connecting plate is positioned at the other end of each chain plate string and used for connecting the two chain plate strings, the first extrusion net is positioned between the chain plate strings, and the connecting shafts are positioned between the chain plate strings and used for connecting the first extrusion net; the net barrel comprises two oppositely arranged disks and a second extrusion net positioned between the disks; one side of each disc, which is far away from the other disc, is fixedly connected with a plurality of connectors, and the connectors are arranged along the edge of the disc; one side of the disc is provided with a hiding groove for hiding the first connecting plate and the second connecting plate, one end of the second extrusion net is positioned on one side of the hiding groove, and the other end of the second extrusion net reaches the other side of the hiding groove along the edge of the disc; the chain plate string is composed of a plurality of chain plates which are connected in series, and the adjacent chain plates are hinged; the chain plate comprises a plate body, an embedded groove, a second limiting mechanism, a first long hole, a sliding block, a first force application spring, a fixing mechanism, a one-way mechanism and a failure mechanism, wherein the embedded groove is located on one side of the plate body and used for embedding a connector, the second limiting mechanism is used for limiting the connector in the embedded groove, the first long hole is located on the plate body, the sliding block is connected in the first long hole in a sliding mode, the first force application spring is used for applying force towards the embedded groove to the sliding block, the fixing mechanism is used for fixing the sliding block at one end, away from the embedded groove, of the first long hole, the one-way mechanism is used for preventing the sliding block from sliding towards one side, away from the embedded groove, along the first long hole, and the failure mechanism is used for enabling the one-way mechanism to fail; the end part of the connecting shaft is connected with the sliding block; a pressing mechanism for pressing the connecting shaft is arranged above the rinsing pool, a lifting plate for lifting the connecting shaft is arranged at the bottom of the rinsing pool, and a lifting cylinder is arranged on the lower side of the lifting plate.

Preferably, the slide block of the link plate connected with the first connecting plate is connected with the first connecting plate in a sliding manner, and the slide block of the link plate connected with the second connecting plate is connected with the second connecting plate.

Preferably, the first limiting mechanism comprises two first limiting plates used for abutting against the chain plate string, a second limiting plate used for abutting against the first connecting plate, a third limiting plate used for abutting against the second connecting plate, a driving cylinder used for driving the first limiting plate, a driving cylinder used for driving the second limiting plate and a driving cylinder used for driving the third limiting plate.

Preferably, the second limiting mechanism comprises a first side sliding groove positioned on one side of the embedded groove, a limiting rod connected in the first side sliding groove in a sliding manner, a second force application spring used for applying force towards the embedded groove to the limiting rod, a first guide surface positioned on one side of the limiting rod, a second side sliding groove positioned on one side of the plate body close to the embedded groove, a first extrusion rod connected in the second side sliding groove in a sliding manner and used for extruding the first guide surface so as to enable the limiting rod to be far away from the embedded groove, and a first reset spring used for resetting the first extrusion rod; one side of the disc, which is far away from the disc on the other side, is provided with a plurality of extrusion cylinders for extruding the first extrusion rod; and one end of the limiting rod is positioned in the embedded groove and is provided with a second guide surface which drives the limiting rod to be far away from the embedded groove when being extruded by the connector.

Preferably, one side of the sliding block is provided with a hook groove; the fixing mechanism comprises a first end sliding groove positioned in the plate body, an end sliding block connected in the first end sliding groove in a sliding manner, a third reset spring used for resetting the end sliding block, a hook fixedly connected with the end sliding block and used for being matched with the hook groove, and a damping rod penetrating through the end sliding block; a cavity is arranged in the plate body, a lever is rotatably connected in the cavity, a fourth reset spring for resetting the lever is arranged between the lever and the cavity, one end of the lever abuts against one end, far away from the embedded groove, of the limiting rod, and a second long hole is formed in the other end of the lever; the damping rod comprises a damping section positioned in the smooth section and positioned in the end sliding block and a limiting block fixedly connected to one end of the damping section far away from the smooth section; a bulge 34 is fixedly connected to one end of the smooth section, which is far away from the damping section, and the bulge 34 is positioned in the second long hole; the hooking part of the hook and the hook groove faces to the side far away from the lever.

Preferably, the two opposite sides of the sliding block are provided with side edges, the two opposite sides of the first long hole are provided with side sliding grooves for the side edges to slide, one side of each side sliding groove, which is far away from the first long hole, is provided with a tooth groove, and one side of each tooth groove, which is close to the embedded groove, is provided with a second end sliding groove; the one-way mechanism comprises a rotating wheel rotationally connected with the side edge, a one-way bearing positioned between the rotating wheel and the side edge, a plurality of clamping teeth fixedly connected to the outer edge of the rotating wheel, a supporting bar slidably connected in the tooth groove, a third force application spring positioned in the tooth groove and used for applying force to the supporting bar towards the first long hole, and matching teeth arranged along the supporting bar and used for matching with the clamping teeth; the failure mechanism comprises a control pin which is connected in the sliding groove at the second end in a sliding manner, a third guide surface which is positioned on one side of the control pin, and a second extrusion rod which is inserted on one side of the plate body close to the embedded groove and used for extruding the third guide surface so as to enable the support bar to be far away from the rotating wheel; one end of the second extrusion rod, which is far away from the control pin, is exposed outside the plate body; a first lower pressing plate used for pressing a second extrusion rod is arranged above the rinsing pool, and a first lower pressing cylinder is arranged on the upper side of the first lower pressing plate; the pressing mechanism comprises a second pressing plate and a second pressing cylinder, the second pressing plate is located on the lower side of the first pressing plate and used for pressing the connecting shaft downwards, and the second pressing cylinder is located on the first pressing plate and used for pressing the second pressing plate downwards.

Preferably, the moving device comprises two parallel guide rails, a sliding seat connected with the guide rails in a sliding manner, a sliding mechanism used for driving the sliding seat to slide on the guide rails, and an upper hoisting cylinder connected with the upper end of the sliding seat; the lower end of the upper lifting cylinder belt is connected with the corresponding disc through a rotating device.

The invention has the beneficial effects that: 1. part of rinsing liquid is extruded by the first extrusion net and the second extrusion net before spin-drying, so that spin-drying is accelerated; 2. when the drying is carried out, the fabric is uniformly distributed on the outer side of the net barrel, the drying is uniformly carried out, and the drying time is greatly shortened.

Drawings

FIG. 1 is a schematic diagram of an embodiment;

FIG. 2 is a side view of the net drum and the moving device;

FIG. 3 is a partial top view of FIG. 1;

FIG. 4 is an enlarged view of the chain plate string and its ends;

fig. 5 is a schematic view of a link plate;

FIG. 6 is an enlarged view of FIG. 5 at A;

FIG. 7 is an enlarged view of FIG. 5 at B;

FIG. 8 is a schematic view of the fabric being placed in a rinse tank;

FIG. 9 is a schematic view of the fabric being shaken flat in the flexible spin dryer tube;

FIG. 10 is a schematic view of the mesh tube and one end of the flexible spin dryer tube engaged;

FIG. 11 is a schematic view of the stop lever and the connector after being engaged;

FIG. 12 is an enlarged view at C of FIG. 11;

FIG. 13 is a schematic view of the first extrusion web extruding the fabric upwardly onto the second extrusion web after the hooks and hook slots are disengaged;

FIG. 14 is a schematic view of the mesh tube and the other end of the flexible spin dryer tube mated together;

FIG. 15 is a schematic view showing the connection head being separated from the fitting groove after the first pressing bar is pressed;

FIG. 16 is a schematic view of the fabric being slouched off of the flexible spin tub;

FIG. 17 is a schematic view of the flexible spin basket as it is deployed at the bottom of the basin;

FIG. 18 is a view showing the engagement of the slider with the hook downward after the second pressing plate presses the connecting shaft after the second pressing bar is pressed.

In the figure: rinsing pool 1, fabric 2, vibrating device 3, chain plate string 4, first connecting plate 5, second connecting plate 6, connecting shaft 7, first extrusion net 8, plate body 9, disc 10, second extrusion net 11, connecting head 12, hiding groove 13, embedded groove 14, first long hole 15, slide block 16, first force application spring 17, first side sliding groove 18, limiting rod 19, second force application spring 20, first guide surface 21, first extrusion rod 22, second guide surface 23, first end sliding groove 24, end slide block 25, third return spring 26, hook 27, hook groove 28, damping rod 29, lever 30, second long hole 31, damping section 32, smooth section 33, limiting block 34, side edge 35, rotating wheel 36, tooth groove 37, supporting strip 38, matching tooth 39, control pin 40, third force application spring 41, third guide surface 42, second extrusion rod 43, extrusion cylinder 44, lifting plate 45, first lower pressure plate 46, A second lower pressure plate 47, a guide rail 48, an upper hoisting cylinder 49, a brake cylinder 50 and a proximity switch 51.

Detailed Description

The invention is explained in further detail below with reference to the figures and the detailed description:

example (b):

referring to fig. 1 to 18, a textile fabric spin-drying device comprises a rinsing pool 1, a flexible spin-drying barrel for placing fabric 2, a first limiting mechanism for fixing the flexible spin-drying barrel at the bottom of the rinsing pool 1, a vibration device 3 for vibrating the rinsing pool 1, a net drum, a moving device for moving the net drum, and a rotating device for rotating the net drum;

the flexible spin dryer tube comprises two chain plate strings 4, a first connecting plate 5 positioned at one end of each chain plate string 4 and used for connecting the two chain plate strings 4, a second connecting plate 6 positioned at the other end of each chain plate string 4 and used for connecting the two chain plate strings 4, a first extrusion net 8 positioned between the chain plate strings 4 and a plurality of connecting shafts 7 positioned between the chain plate strings 4 and used for connecting the first extrusion net 8;

the net drum comprises two oppositely arranged disks 10 and a second extrusion net 11 positioned between the disks 10;

a plurality of connectors 12 are fixedly connected to one side of each disc 10 far away from the other disc 10, and the connectors 12 are arranged along the edge of the disc 10; one side of the disc 10 is provided with a hiding groove 13 for hiding the first connecting plate 5 and the second connecting plate 6; one end of the second extrusion net 11 is positioned at one side of the avoiding groove 13, and the other end of the second extrusion net 11 reaches the other side of the avoiding groove 13 along the edge of the disc 10;

the chain plate string 4 is composed of a plurality of chain plates which are connected in series, and adjacent chain plates are hinged;

the chain plate comprises a plate body 9, an embedded groove 14, a second limiting mechanism, a first long hole 15, a sliding block 16, a first force application spring 17, a fixing mechanism, a one-way mechanism and a failure mechanism, wherein the embedded groove 14 is formed in one side of the plate body 9 and used for embedding the connecting head 12, the second limiting mechanism is used for limiting the connecting head 12 in the embedded groove 14, the first long hole 15 is formed in the plate body 9, the sliding block 16 is connected in the first long hole 15 in a sliding mode, the first force application spring 17 is used for applying force to the sliding block 16 towards the embedded groove 14, the fixing mechanism is used for fixing the sliding block 16 at one end, far away from the embedded groove 14, of the first long hole 15, the one-way mechanism is used for preventing the sliding block 16 from one side, far away from the embedded groove 14, and the failure mechanism is used for enabling the one-way mechanism to fail;

the end part of the connecting shaft 7 is connected with a sliding block 16;

a pressing mechanism for pressing the connecting shaft 7 is arranged above the rinsing pool 1, a lifting plate 45 for lifting the connecting shaft 7 is arranged at the bottom of the rinsing pool 1, and a lifting cylinder is arranged on the lower side of the lifting plate 45.

The slide block 16 of the link plate connected with the first connecting plate 5 is connected with the first connecting plate 5 in a sliding manner, and the slide block 16 of the link plate connected with the second connecting plate 6 is connected with the second connecting plate 6.

The first limiting mechanism comprises two first limiting plates used for abutting against the chain plate string 4, a second limiting plate used for abutting against the first connecting plate 5, a third limiting plate used for abutting against the second connecting plate 6, a driving cylinder used for driving the first limiting plate, a driving cylinder used for driving the second limiting plate and a driving cylinder used for driving the third limiting plate.

The second limiting mechanism comprises a first side sliding groove 18 positioned on one side of the embedded groove 14, a limiting rod 19 connected in the first side sliding groove 18 in a sliding manner, a second force application spring 20 used for applying force towards the embedded groove 14 to the limiting rod 19, a first guide surface 21 positioned on one side of the limiting rod 19, a second side sliding groove positioned on one side, close to the embedded groove 14, of the plate body 9, a first extrusion rod 22 connected in the second side sliding groove in a sliding manner and used for extruding the first guide surface 21 so that the limiting rod 19 is far away from the embedded groove 14, and a first reset spring used for resetting the first extrusion rod 22;

a plurality of extruding cylinders 44 for extruding the first extruding rod 22 are arranged on one side of the disc 10 far away from the disc 10 on the other side;

one end of the limiting rod 19 is positioned in the embedded groove 14 and is provided with a second guide surface 23 which drives the limiting rod 19 to be far away from the embedded groove 14 when being pressed by the connecting head 12.

One side of the sliding block 16 is provided with a hook groove 28;

the fixing mechanism comprises a first end sliding groove 24 positioned in the plate body 9, an end sliding block 25 connected in the first end sliding groove 24 in a sliding manner, a third return spring 26 used for returning the end sliding block 25, a hook 27 fixedly connected with the end sliding block 25 and used for being matched with a hook groove 28, and a damping rod 29 penetrating through the end sliding block 25;

a cavity is arranged in the plate body 9, a lever 30 is rotatably connected in the cavity, a fourth reset spring for resetting the lever 30 is arranged between the lever 30 and the cavity, one end of the lever 30 abuts against one end, far away from the embedded groove 14, of the limiting rod 19, and the other end of the lever 30 is provided with a second long hole 31;

the damping rod 29 comprises a smooth section 33, a damping section 32 positioned in the end sliding block 25 and a limiting block 34 fixedly connected to one end of the damping section 32 far away from the smooth section 33;

a protrusion 34 is fixedly connected to one end of the smooth section 33, which is far away from the damping section 32, and the protrusion 34 is located in the second long hole 31;

the hooking portions of the hook 27 and the hook groove 28 face a side away from the lever 30.

The opposite two sides of the sliding block 16 are provided with side edges 35, the opposite two sides of the first long hole 15 are provided with side sliding grooves for the sliding of the side edges 35, one side of each side sliding groove, which is far away from the first long hole 15, is provided with a tooth groove 37, and one side of each tooth groove 37, which is close to the embedded groove 14, is provided with a second end sliding groove;

the one-way mechanism comprises a rotating wheel 36 rotationally connected with the side edge 35, a one-way bearing positioned between the rotating wheel 36 and the side edge 35, a plurality of clamping teeth fixedly connected with the outer edge of the rotating wheel 36, a supporting strip 38 connected in a sliding way in a tooth groove 37, a third force application spring 41 positioned in the tooth groove 37 and used for applying force to the supporting strip 38 towards the first long hole 15, and matching teeth 39 arranged along the supporting strip 38 and used for matching with the clamping teeth;

the disabling mechanism comprises a control pin 40 slidably connected in the second end chute, a third guide surface 42 positioned on one side of the control pin 40, and a second pressing rod 43 inserted on one side of the plate body 9 close to the embedded groove 14 and used for pressing the third guide surface 42 so as to enable the supporting bar 38 to be far away from the rotating wheel 36;

one end of the second pressing rod 43, which is far away from the control pin 40, is exposed outside the plate body 9;

a first lower pressing plate 46 for pressing down the second extrusion rod 43 is arranged above the rinsing pool 1, and a first lower pressing cylinder is arranged on the upper side of the first lower pressing plate 46;

the pressing mechanism comprises a second pressing plate 47 which is arranged on the lower side of the first pressing plate 46 and used for pressing the connecting shaft 7, and a second pressing cylinder which is arranged on the first pressing plate 46 and used for pressing the second pressing plate 47.

The moving device comprises two parallel guide rails 48, a sliding seat connected with the guide rails 48 in a sliding way, a sliding mechanism used for driving the sliding seat to slide on the guide rails 48, and an upper hoisting cylinder 49 connected with the upper end of the sliding seat;

the lower end of the upper lifting cylinder 49 is connected with the corresponding disc 10 through a rotating device.

Principle of embodiment:

initially, the flexible spin dryer tube is unfolded, the two chain plate strings 4 are in a linear shape, are paved at the bottom of the rinsing pool 1, the embedded groove 14 faces upwards, rinsing liquid is filled in the rinsing pool 1, and the liquid level of the rinsing liquid is not higher than the height of the plate body 9 (so that fabric is prevented from going out of the flexible spin dryer tube under the action of the rinsing pool 1), which is shown in fig. 1;

the slider 16 is positioned at the lower end of the first long hole 15, and the hook 27 and the hook groove 28 are matched, see fig. 4 to 7;

putting the fabric 2 into the rinsing pool 1, accumulating the fabric on the first extrusion net 8 under the action of gravity, enabling the first limiting plate to abut against two opposite sides of the flexible spin dryer tube under the action of the driving cylinder, and enabling the second limiting plate and the third limiting plate to abut against two opposite sides of the flexible spin dryer tube under the action of the driving cylinder, so that the flexible spin dryer tube is prevented from sliding relatively at the bottom of the rinsing pool 1 when the rinsing pool 1 vibrates, and referring to fig. 8;

the vibration device 3 adopts the prior art, when the vibration device runs, the rinsing pool 1 vibrates, and under vibration, the fabric is slowly and uniformly spread on the first extrusion net 8; here, the smoother the surface of the fabric, the softer the texture, the thinner the thickness, and the more uniform the paving; therefore, the embodiment is preferably applied to the fabric with smooth surface, soft texture and light and thin thickness; in addition, tests prove that the device is particularly suitable for spin-drying small fabric pieces, and the fabric pieces formed by a plurality of small fabric pieces are more uniformly spread after being vibrated (compared with a whole large-area fabric piece which is vibrated); the rinsing liquid plays a role in lubrication, so that the friction force between the fabrics is smaller, the fabrics can be vibrated from a lump to a spreading state under the vibration effect, and referring to fig. 9, when the spreading state is not uniform enough after vibration, manual work is involved to perform auxiliary spreading;

the first limiting plate, the second limiting plate, the third limiting plate and the flexible spin dryer tube are separated, then the lifting plate 45 lifts the flexible spin dryer tube upwards under the action of the lifting cylinder, the lifting plate 45 is supported on the lower side of the connecting shaft 7, the fabric leaves rinsing liquid, the net drum is positioned above the first connecting plate 5, the upper hanging cylinder 49 extends, the net drum moves downwards, the connecting head 12 on the lower edge of the disc 10 enters the embedded groove, the connecting head 12 presses the second guide surface 23, the limiting rod 19 is far away from the embedded groove, the lever 30 rotates, the lever 30 pushes the damping rod 29 to move rightwards (the direction is described with reference to the direction of fig. 12), the damping section 32 leaves the end sliding block 25, and the smooth section 33 passes through the end sliding block 25, which is shown in fig. 12; when the connector 12 reaches the bottom of the embedded groove through the limiting rod 19, the upper end of the first connecting plate 5 enters the avoiding groove 13, see fig. 10; under the action of the spring, the limiting rod 19 returns immediately, and the limiting rod 19 is separated from the lever 30, as shown in fig. 11; under the action of the spring, the lever 30 will rotate back to drive the damping rod 29 to move leftward (refer to the orientation of fig. 12), when the smooth section 33 slides in the end slider 25, the damping between the smooth section 33 and the end slider 25 is small, and will not drive the end slider 25 to move leftward, when the damping section 32 enters the end slider 25, the friction between the damping section 32 (with rough surface) and the end slider 25 is large, so as to drive the end slider 25 to move leftward, so that the hook 27 and the hook groove 28 are disengaged, under the action of the spring, the end slider 25 moves upward, the rotating wheel 36 moves upward along the supporting strip 38 (under the action of the one-way bearing, the rotating wheel 36 can only move upward and cannot move downward), the first extrusion net 8 pushes the fabric upward to extrude the fabric onto the second extrusion net 11 of the net cylinder, and after the fabric is extruded, part of the rinsing liquid will be extruded, see fig. 13 (for description herein, the purpose of the damping rods 29 is to: after the joint 12 and the limiting rod 19 are matched, the hook 27 is separated from the hook groove 28; otherwise, if the connecting head 12 is not engaged with the stopper rod 19 and the hook 27 is disengaged from the hook groove, the link plate moves downward by gravity and the connecting head comes out of the fitting groove); then the rotating device operates, the sliding mechanism moves, the net barrel rotates and moves leftwards (the direction of fig. 14 is used for explanation), in the process, the connector 12 entering the embedded groove drives the plate body 9 to rotate, meanwhile, other connectors 12 sequentially enter the embedded groove 14 to be matched with corresponding chain plates, the hook 27 is sequentially separated from the hook groove, the first extrusion net 8 extrudes the fabric on the second extrusion net under the action of the spring, finally, the second connecting plate 6 enters the avoiding groove, the flexible spin dryer tube is wound outside the net barrel, and the fabric is uniformly distributed outside the net barrel, which is shown in fig. 14;

then the lifting plate 45 moves downwards to the bottom of the pool, the net drum moves upwards, then the rotating device runs quickly, the fabric is dried under the action of centrifugal force, then the rotating device stops rotating, when the net drum stops rotating, the second connecting plate 6 and the first connecting plate 5 are positioned at the lower side of the net drum (the realization method is that a proximity switch 51 is arranged at one side of the disc 10, a brake cylinder 50 is arranged at one side of an upper hanging cylinder 49, a brake pad is arranged at one end of the brake cylinder 50, after the rotating device stops, the net drum continues rotating under the action of inertia, after the speed is reduced, when the proximity switch moves to the upper hanging cylinder 49, the brake cylinder 50 extends, the brake pad is abutted against the disc 10, so that the net drum stops rotating, and at the moment, the first connecting plate 5 and the second connecting plate 6 are positioned at the lower side of the net drum); then the sliding mechanism runs, the net barrel leaves the upper part of the rinsing pool 1, then the extrusion cylinder firstly extrudes the first extrusion rod 22 corresponding to the second connecting plate 6, and after extrusion, the end part of the limiting rod 19 leaves the embedded groove 14, see fig. 15; under the action of gravity, the corresponding chain plate can be slouched off; the turning device is then operated clockwise, with the net drum turning and the squeeze cylinders 44 squeezing the first squeeze bars 22 of the link plates on the underside of the net drum, so that the link plates can slouch off once they reach the underside of the net drum, see fig. 16; when the net drum rotates by 180-200 degrees, the net drum stops rotating, part of the fabric can be drooped from the drooped flexible spin dryer barrel after the action of the first squeezing net 8 and the second squeezing net is lacked, (but the part of the fabric is still squeezed by the first squeezing net 8 and the second squeezing net, so that the fabric cannot fall to the ground) and the dried fabric is pulled off from the net drum by hands;

then, the sliding mechanism moves to the position above the rinsing pool 1, then the net barrel is lowered, the part of the flexible spin dryer barrel which is pulled down is spread at the bottom of the pool, then the sliding mechanism moves rightwards, meanwhile, the rotating device runs clockwise, and when a squeezing cylinder passes through the lower side of the disc, the squeezing cylinder squeezes the corresponding first squeezing rod 22, so that the corresponding limiting rod 19 and the connecting head are disconnected, and the reference of figure 17 is made; finally, the flexible spin dryer tube is unfolded at the bottom of the pool again, and the net tube is separated from the flexible spin dryer tube;

in order to facilitate subsequent fabric drying, the first limiting plate abuts against two opposite sides of the flexible drying barrel under the action of the driving cylinder, the second limiting plate and the third limiting plate abut against two opposite sides of the flexible drying barrel under the action of the driving cylinder, so that the flexible drying barrel is positioned on the bottom of the tank, the first lower pressing plate 46 descends and presses down the second extrusion rod 43, the control pin 40 drives the supporting bar 38 to move, the matching teeth 39 and the clamping teeth are disengaged, then the second lower pressing plate 47 moves downwards to press the connecting shaft 7 downwards, and the slider 16 moves to the first long hole 15 to be matched with the hook 27 again.

In conclusion, the invention has the following advantages: 1. part of rinsing liquid is extruded by the first extrusion net and the second extrusion net before spin-drying, so that spin-drying is accelerated; 2. when the drying is carried out, the fabric is uniformly distributed on the outer side of the net barrel, the drying is uniformly carried out, and the drying time is greatly shortened.