CN108103706A

CN108103706A - A kind of dewaterer device of printing and dyeing fabrics

Info

Publication number: CN108103706A
Application number: CN201711179980.6A
Authority: CN
Inventors: 不公告发明人
Original assignee: Zhengzhou Greta Electronic Information Technology Co Ltd
Current assignee: Shanghai Maobai Trading Co., Ltd
Priority date: 2016-06-03
Filing date: 2016-06-03
Publication date: 2018-06-01
Anticipated expiration: 2036-06-03
Also published as: CN105862296B; CN108103706B; CN105862296A

Abstract

The invention discloses a kind of dewaterer devices of printing and dyeing fabrics, and including pedestal, the top surface of pedestal has groove, and groove is equipped with dehydration barrel, and dehydration barrel is equipped with multiple apopores, several ring shape lower flumes are formed in the bottom interior wall of groove；Annular lower flume bottom interior wall is equipped with discharge outlet, the inserting groove of a pair of opposing is formed in discharge outlet on opposite side wall, one end of filter screen is fixedly connected with grafting block, the other end is equipped with grafting set, grafting block and grafting set are plugged on respectively in corresponding inserting groove, the top and bottom of filter screen form a pair of of connecting rod, guide groove is formed in connecting rod, sleeve is distinguished in the guide groove of corresponding connecting rod in the top and bottom of grafting set, one end sleeve of filter screen is in grafting set, compression spring is fixedly connected between the inner wall of the end of filter screen and grafting set.The present invention has the advantages of ponding is not easy in the groove of pedestal, dehydration efficiency is improved, and can be filtered to the aqueous of abjection.

Description

A kind of dewaterer device of printing and dyeing fabrics

The application is application number 2016103949065, on 06 03rd, 2016 applying date, a kind of denomination of invention " dyeing cloth The divisional application of the dewaterer device of material ".

Technical field

The present invention relates to the technical field of textile machine equipment, a kind of dewaterer device of printing and dyeing fabrics is specifically related to.

Background technology

The dewaterer of existing printing and dyeing fabrics throws away the moisture in cloth, then discharges water by the apopore in dehydration barrel Then liquid, the aqueous temporary cache of discharge discharge dewaterer by the discharge outlet on pedestal again in the groove of pedestal.However, Said structure has the following disadvantages：When the water of dehydration barrel abjection is larger, aqueous can be deposited in the groove of pedestal or even expire Groove is crossed, the aqueous of excess load enters from apopore in dehydration barrel again so that the cloth in dehydration barrel is wetted again, this Sample greatly reduces the dehydration efficiency of dewaterer.In addition, the discharge outlet on the pedestal of existing dewaterer does not have filter device, this So that having impurity in the aqueous of abjection, more effectively aqueous can not be recycled.

The content of the invention

The purpose of the present invention aims to solve the problem that problem existing in the prior art, provides in a kind of groove of pedestal and is not easy ponding, Aqueous is not easy to flow back in dehydration barrel, improves dehydration efficiency, and the dehydration for the printing and dyeing fabrics that can be filtered to the aqueous of abjection Machine device.

The present invention relates to a kind of dewaterer devices of printing and dyeing fabrics, and including pedestal, the top surface of the pedestal has groove, institute Groove is stated equipped with dehydration barrel, the dehydration barrel is equipped with multiple apopores, and the apopore is connected with groove, the groove Bottom interior wall on form several ring shape lower flumes, form ring on the groove inner wall between the adjacent annular lower flume The lower water portion of shape, in subtriangular, lower water portion is in from triangle peak thereon to both sides for the longitudinal section in the lower water portion Annular lower flume it is skewed；

The annular lower flume bottom interior wall is equipped with discharge outlet, is formed in the discharge outlet on opposite side wall a pair of opposite The inserting groove of setting, discharge outlet are equipped with filter screen, and one end of the filter screen is fixedly connected with grafting block, the other end equipped with slotting Female connector, the grafting block and grafting set are plugged on respectively in corresponding inserting groove, and the top and bottom of filter screen form a pair Connecting rod, guide groove is formed in the connecting rod, and sleeve is distinguished in corresponding connecting rod in the top and bottom of the grafting set Guide groove in, one end sleeve of filter screen is fixedly connected in grafting set between the inner wall that the end of filter screen is covered with grafting There is compression spring.

By above-mentioned technical proposal, in the use of the present invention, printing and dyeing fabrics are dehydrated in dehydration barrel, the liquid of abjection is through de- Apopore on bucket is flowed into the groove of pedestal.After liquid enters the groove of pedestal, since the longitudinal section in lower water portion is in centre It is highest subtriangular, thus the water in lower water portion is flowed into both sides in annular lower flume, then along annular lower flume from it Discharge outlet outflow.The liquid so come out from dehydration barrel is discharged rapidly out of pedestal groove, is not easy to deposit in groove.And In discharge, liquid is filtered out the impurity in liquid by the filter screen in discharge outlet, filter screen liquid, so that the water energy of discharge It is recycled.When needing to disassemble filter screen into cleaning from pedestal, only filtering need to be pulled towards one end that grafting covers Online connecting rod, filter screen is driven to cover towards grafting and move, when mobile, top and bottom the leading in connecting rod of grafting set It being moved into slot, compression spring is compressed, until the grafting block of the filter screen other end spins off out of discharge outlet inserting groove, The grafting set of the filter screen other end is also removed out of inserting groove again, you can the filter screen disassembled is cleared up, so as to Improve filter efficiency.

Through the above scheme, ponding is not easy in the groove of pedestal in dewaterer device of the invention, aqueous is not easy to flow back to In dehydration barrel, dehydration efficiency is so effectively improved, and the aqueous of abjection can be filtered, impurity is prevented to be expelled directly out so that The aqueous of discharge can be recycled, and the filter screen in discharge outlet is quick detachable, facilitates and is cleared up, so as to improve filtering Efficiency.

One kind as said program preferably, in the middle part of the bottom surface of the dehydration barrel has the tapered protrusion portion upwardly extended, The middle part bottom surface of the pedestal is fixed with servo drive motor, and the output shaft of the servo drive motor is extended upwardly into groove simultaneously Rotation axis is fixed with by shaft coupling, the rotation axis is fixedly connected with the tapered protrusion portion, and rotation axis is hinged on middle part cone In shape block, the middle part taper block sleeve has wearing layer in tapered protrusion portion on the lateral wall of middle part taper block, The wearing layer is close to the madial wall in tapered protrusion portion.By said program, at work, servo-drive is electric for dewaterer of the invention Machine drives rotation axis to rotate, and rotation axis drives tapered protrusion portion to rotate, and tapered protrusion portion is around middle part taper Block rotation, so Servo drive motor directly drives dehydration barrel to rotate and realizes dehydration, and dehydrating effect is good, can effective shock-absorbing.

Preferably, the bottom surface of the middle part taper block has annular side plate to one kind as said program, the pedestal The wear-resisting groove body in bottom is fixed on bottom portion of groove inner wall, the annular lower flume surrounds the wear-resisting groove body in the bottom, the ring Shape side plate fixes sleeve in the wear-resisting groove body in bottom, and the equal sleeve of output shaft and rotation axis of the servo drive motor is in annular side In plate.

Preferably, the guide groove in the connecting rod is T-shaped guide groove to one kind as said program, and the grafting covers upper End and lower end form T-shaped limited block, and the T-shaped limited block sleeve is in the T-shaped guide groove.By said program, dismantled During strainer, the T-shaped limited block of grafting set moves in T-shaped guide groove in connecting rod, so can be to the shift position of filter screen It is oriented to and /V.

Preferably, the connecting rod forming is in the half of top surface with the corresponding filter screen of grafting set for one kind as said program On bottom surface, the top and bottom clearance fit of connecting rod and filter screen.

Preferably, the distance of the filter screen end to grafting set inner wall is more than and grafting block institute one kind as said program Inserting groove depth.

One kind as said program is preferably fixed with cylindrical shape protective cover, the cylindrical shape on the top surface of the pedestal In the middle part of the top surface of protective cover there is vertical placement through hole, annular wear-resisting ring, institute are fixed on the madial wall of cylindrical shape protective cover Dehydration barrel sleeve is stated in the annular wear-resisting ring, the outer wall of dehydration barrel is close on the madial wall of annular wear-resisting ring, and cylindrical shape is protected Shield is communicated with the groove of the pedestal.

Above description is only the general introduction of technical solution of the present invention, in order to better understand the technological means of the present invention, And can be practiced according to the content of specification, below with presently preferred embodiments of the present invention and coordinate attached drawing be described in detail as after.

Description of the drawings

The following drawings is only intended to, in doing schematic illustration and explanation to the present invention, not delimit the scope of the invention.Wherein：

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the partial structural diagram of Fig. 1；

Fig. 3 is the partial cutaway view of Fig. 2；

Fig. 4 is the structure diagram of the groove of pedestal in the present invention.

Specific embodiment

With reference to the accompanying drawings and examples, the specific embodiment of the present invention is described in further detail.Implement below Example is not limited to the scope of the present invention for illustrating the present invention.

Referring to Fig. 1, a kind of dewaterer device of printing and dyeing fabrics of the present invention, including pedestal 10, the top of the pedestal Mask fluted 11, the groove are equipped with dehydration barrel 20, cylindrical shape protective cover 30, institute are fixed on the top surface of the pedestal 10 Stating has vertical placement through hole 31 in the middle part of the top surface of cylindrical shape protective cover, ring is fixed on the madial wall of cylindrical shape protective cover 30 Shape wear-resisting ring 32, for 20 sleeve of dehydration barrel in the annular wear-resisting ring 32, the outer wall of dehydration barrel 20 is close to annular wear-resisting ring On 32 madial wall, cylindrical shape protective cover 30 is communicated with the groove 11 of the pedestal 10.

Referring to Fig. 1, Fig. 4, the dehydration barrel 20 is equipped with multiple apopores 21, and the apopore is connected with groove 11, Several ring shape lower flumes 12 are formed in the bottom interior wall of the groove 11, in the groove between the adjacent annular lower flume The lower water portion 13 of annular is formed on wall, the longitudinal section in the lower water portion is in subtriangular, and lower water portion 13 is in by three thereon The annular lower flume 12 of angular peak to both sides is skewed.

Referring to Fig. 1 to Fig. 3, annular lower flume 12 bottom interior wall is equipped with discharge outlet 14, opposite in the discharge outlet Side wall on form the inserting groove 15 of a pair of opposing, discharge outlet 14 is equipped with filter screen 40, one end of the filter screen Be fixedly connected with grafting block 50, the other end be equipped with grafting cover 60, the grafting block 50 and grafting set 60 be plugged on respectively it is corresponding In inserting groove 15, the top and bottom of filter screen 40 form a pair of of connecting rod 41, and guide groove is formed in the connecting rod 411, sleeve is distinguished in the guide groove 411 of corresponding connecting rod 41 in the top and bottom of the grafting set 60, the connecting rod Guide groove 411 on 41 is T-shaped guide groove 411, and the top and bottom of the grafting set 60 form T-shaped limited block 61, the T 61 sleeve of shape limited block is in the T-shaped guide groove 411, and one end sleeve of filter screen 40 is covered in grafting in 60, filter screen 40 Compression spring 70 is fixedly connected between the inner wall of end and grafting set 60,40 end of filter screen to grafting covers 60 inner walls Distance is more than the depth with the inserting groove 15 where grafting block 50.

There is the tapered protrusion portion 22 upwardly extended referring to Fig. 1, in the middle part of the bottom surface of the dehydration barrel 20, the pedestal 10 Middle part bottom surface is fixed with servo drive motor 80, and the output shaft of the servo drive motor extends upwardly into groove 11 and passes through connection Axis device is fixed with rotation axis 81, and the rotation axis is fixedly connected with the tapered protrusion portion 22, and rotation axis 81 is hinged on middle part cone In shape block 90, the middle part taper block sleeve has in tapered protrusion portion 22 on the lateral wall of middle part taper block 90 Wearing layer 91, the wearing layer are close to the madial wall in tapered protrusion portion 22；The bottom surface of the middle part taper block 90 has annular Side plate 92, is fixed with the wear-resisting groove body 16 in bottom in 11 bottom interior wall of groove of the pedestal 10, and the annular lower flume 12 is by institute It states the wear-resisting groove body 16 in bottom to surround, the annular side plate 92 fixes sleeve in the wear-resisting groove body 16 in bottom, the servo-drive electricity The output shaft and 81 equal sleeve of rotation axis of machine 80 are in annular side plate 92.

In the specific implementation, printing and dyeing fabrics are dehydrated the present invention in dehydration barrel 20, and the liquid of abjection is through in dehydration barrel 20 Apopore 21 is flowed into the groove 11 of pedestal 10.After liquid enters the groove 11 of pedestal 10, since the longitudinal section in lower water portion 13 is in It is intermediate highest subtriangular, thus the water in lower water portion 13 is flowed into both sides in annular lower flume 12, then along water under annular The discharge outlet 14 of slot 12 from it flows out.So discharged from the liquid that dehydration barrel 20 comes out out of pedestal 10 groove 11 rapidly, It is not easy the deposition in groove 11.And liquid is in discharge, liquid is by the filter screen 40 in discharge outlet 14, and filter screen 40 is by liquid In impurity filter out so that discharge water can be recycled.It needs filter screen 40 disassembling cleaning from pedestal 10 When, the connecting rod 41 on 60 one end pulling filter screen 40 need to be only covered towards grafting, filter screen 40 is driven towards grafting set 60 Mobile, when mobile, the top and bottom of grafting set 60 are moved in the guide groove 411 of connecting rod 41, and compression spring 70 is compressed, Until the grafting block 50 of 40 other end of filter screen spins off out of discharge outlet 14 inserting groove 15, then by 40 other end of filter screen Grafting set 60 also removed out of inserting groove 15, you can the filter screen 40 disassembled is cleared up, so as to improve filtering effect Rate.

In conclusion being not easy ponding in the groove 11 of pedestal 10 in the dewaterer device of the present invention, aqueous is not easy to flow back to In dehydration barrel 20, dehydration efficiency is so effectively improved, and the aqueous of abjection can be filtered, impurity is prevented to be expelled directly out, is made The aqueous that must be discharged can be recycled, and the filter screen 40 in discharge outlet 14 is quick detachable, facilitates and is cleared up, so as to carry Filtration efficiency.

The dewaterer device of printing and dyeing fabrics provided by the present invention is only the specific embodiment of the present invention, but of the invention Protection domain be not limited thereto, any one skilled in the art in the technical scope disclosed by the present invention, Change or replacement can be readily occurred in, should all be covered within the scope of the present invention.Therefore, protection scope of the present invention should be with institute It states subject to scope of the claims.

Claims

1. a kind of dewaterer device of printing and dyeing fabrics, including pedestal (10), the top surface of the pedestal has groove (11), described recessed Slot is equipped with dehydration barrel (20), and the dehydration barrel is equipped with multiple apopores (21), and the apopore is connected with groove (11), It is characterized in that：

Several ring shape lower flumes (12) are formed in the bottom interior wall of the groove (11), between the adjacent annular lower flume Groove (11) inner wall on form the lower water portion (13) of annular, the longitudinal section in the lower water portion is in subtriangular, lower water portion (13) it is skewed in the annular lower flume (12) from triangle peak thereon to both sides；

Described annular lower flume (12) bottom interior wall is equipped with discharge outlet (14), is formed on opposite side wall in the discharge outlet The inserting groove (15) of a pair of opposing, discharge outlet (14) are equipped with filter screen (40), and one end of the filter screen is fixedly connected There are grafting block (50), the other end to be equipped with grafting set (60), the grafting block (50) and grafting set (60) are plugged on corresponding respectively In inserting groove (15), the top and bottom of filter screen (40) form a pair of of connecting rod (41), form and lead in the connecting rod To slot (411), guide groove (411) of the sleeve in corresponding connecting rod (41) is distinguished in the top and bottom of the grafting set (60) Interior, one end sleeve of filter screen (40) is in grafting set (60), between the end of filter screen (40) and the inner wall of grafting set (60) It is fixedly connected with compression spring (70)；

There is the tapered protrusion portion (22) upwardly extended, the middle part bottom of the pedestal (10) in the middle part of the bottom surface of the dehydration barrel (20) Face is fixed with servo drive motor (80), and the output shaft of the servo drive motor extends upwardly into groove (11) and passes through shaft coupling Device is fixed with rotation axis (81), and the rotation axis is fixedly connected with the tapered protrusion portion (22), during rotation axis (81) is hinged on In portion's taper block (90), the middle part taper block sleeve is in tapered protrusion portion (22), outside middle part taper block (90) There is wearing layer (91), the wearing layer is close to the madial wall of tapered protrusion portion (22) on side wall；

The bottom surface of the middle part taper block (90) has annular side plate (92), groove (11) bottom interior wall of the pedestal (10) On be fixed with the wear-resisting groove body in bottom (16), the annular lower flume (12) surrounds the wear-resisting groove body in the bottom (16), the ring The fixed sleeve of shape side plate (92) is in the wear-resisting groove body in bottom (16), the output shaft and rotation axis of the servo drive motor (80) (81) sleeve is in annular side plate (92)；

Guide groove (411) on the connecting rod (41) is T-shaped guide groove (411), the top and bottom of the grafting set (60) T-shaped limited block (61) is formed, the T-shaped limited block sleeve is in the T-shaped guide groove (411)；

The distance of filter screen (40) end to grafting set (60) inner wall is more than and the inserting groove (15) where grafting block (50) Depth；Cylindrical shape protective cover (30), the top surface middle part of the cylindrical shape protective cover are fixed on the top surface of the pedestal (10) With vertical placement through hole (31), annular wear-resisting ring (32) is fixed on the madial wall of cylindrical shape protective cover (30), it is described de- For bucket (20) sleeve in the annular wear-resisting ring (32), the outer wall of dehydration barrel (20) is close to the madial wall of annular wear-resisting ring (32) On, cylindrical shape protective cover (30) is communicated with the groove (11) of the pedestal (10).

2. the dewaterer device of printing and dyeing fabrics according to claim 1, it is characterised in that：The connecting rod (41) is molded over On the half of top and bottom of filter screen (40) corresponding with grafting set (60), the top surface of connecting rod (41) and filter screen (40) and Bottom surface clearance fit.