CN113350888A - Stifled high-efficient filter pressing device is prevented to dyestuff for fabrics processing - Google Patents

Abstract

The invention relates to the technical field of dye filter pressing, and discloses a dye anti-blocking high-efficiency filter pressing device for textile processing, which comprises a filter pressing chamber, wherein a driving mechanism is arranged at the bottom end of the filter pressing chamber and connected with a reciprocating mechanism, a filter pressing frame is arranged on the reciprocating mechanism, the upper end and the lower end of the filter pressing frame are arranged in the filter pressing chamber in a sliding and sealing mode, an automatic cleaning mechanism and an impurity output mechanism are arranged in the filter pressing frame, the automatic cleaning mechanism comprises conveying rollers, the conveying rollers are symmetrically arranged at the top end of the filter pressing frame, conveying belts are sleeved on the conveying rollers, cleaning rods are fixedly arranged on the conveying belts, cleaning brushes are uniformly distributed on the cleaning rods, first conveying wheels are arranged at the top ends of the conveying rollers, the bottom ends of two sides of the filter pressing chamber are connected with a bubble eliminating mechanism through discharging pipes, and the top end of the filter pressing chamber is connected with a feeding mechanism. The automatic dye filter press can rapidly filter and press dye, can automatically clean the filter device, is provided with the bubble eliminating mechanism to eliminate bubbles, and effectively improves the filter pressing effect.

Description

Stifled high-efficient filter pressing device is prevented to dyestuff for fabrics processing

Technical Field

The invention relates to the technical field of dye filter pressing, in particular to an anti-blocking efficient dye filter pressing device for textile processing.

Background

The processing of the textile usually requires the dye to dye the textile, the dye contains water, inorganic salt and organic impurities, the application cannot be directly provided, the textile can be used after the textile is processed to reach the standard, the processing of the textile requires impurity filtration of the dye, and compared with the traditional filtration device, the filter pressing device can improve the filtration efficiency;

but the impurity on the filter screen surface is got rid of automatically to the most unable realization of current filter-pressing device, needs artifical clearance, has increased the time of shutting down, has reduced work efficiency, and is not intelligent enough, and the most filter-pressing effect of current filter-pressing device is relatively poor, and filter-pressing efficiency is lower, and the energy consumption is higher, remains the processingquality that the bubble influences the dyestuff in the dyestuff easily.

Aiming at the problems, the invention provides the anti-blocking efficient filter pressing device for the dye for textile processing, which has the advantages of capability of automatically cleaning a filter screen, low energy consumption, convenience in maintenance, bubble elimination and the like.

Disclosure of Invention

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides a textile processing is with dyestuff anti-blocking high-efficient filter pressing device, including the filter-pressing room, actuating mechanism is installed to the filter-pressing room bottom, actuating mechanism connects reciprocating mechanism, reciprocating mechanism is last to install the filter-pressing frame, lower extreme sliding seal installs in the filter-pressing room on the filter-pressing frame, be provided with self-cleaning mechanism and impurity output mechanism in the filter-pressing frame, self-cleaning mechanism includes the transfer roller, the transfer roller symmetry is installed on filter-pressing frame top, the cover is equipped with the conveyer belt on the transfer roller, fixed mounting has clean pole on the conveyer belt, evenly distributed has clean brush on the clean pole, first drive wheel is installed on the transfer roller top, bubble elimination mechanism is connected through the discharging pipe in filter-pressing room both sides bottom, the filter-pressing room top is connected with feed mechanism.

Preferably, actuating mechanism includes the mount, and the mount is installed in the filtration chamber bottom, and mount bottom fixed mounting has driving motor, installs the driving-disc in driving motor's the drive shaft, installs the actuating lever on the driving-disc.

The driving motor in the driving mechanism works to drive the driving shaft to rotate, the driving shaft rotates to drive the driving disc to rotate, the driving disc rotates to drive the driving rod on the driving disc to rotate, and the driving rod acts on the reciprocating mechanism to drive the reciprocating mechanism to work.

Preferably, reciprocating mechanism includes the reciprocating lever, and reciprocating lever symmetry sliding seal installs in the filter-pressing room both sides, and reciprocating lever one end is connected the filter-pressing frame, and the other end is provided with the drive rack, and drive gear is installed through the mounting panel to filter-pressing room middle part bottom, and drive rack and drive gear intermeshing still are provided with the limiting plate on the mounting panel, and the limiting plate acts on respectively on the drive rack, and the left reciprocating lever bottom of filter-pressing room is connected with spacing frame, and actuating lever movable mounting is in spacing frame.

The driving rod works and acts on the limiting frame to drive the limiting frame to move left and right, the limiting frame drives the reciprocating rod on the left side of the filter pressing chamber to move left and right when moving left and right, the driving rack acts on the driving gear on the mounting plate to drive the driving gear to rotate when moving the reciprocating rod on the left side, the driving gear rotates and acts on the driving rack on the reciprocating rod on the right side of the filter pressing chamber, and therefore the reciprocating rod on the right side of the filter pressing chamber is driven to move left and right, the filter pressing frames on the two reciprocating rods are driven to be close to or far away from each.

Preferably, the filter frame rear side plate is the filter, impurity output mechanism includes a conveying cylinder, install the screw rod in the conveying cylinder, the second drive wheel is installed on the screw rod top, the mounting groove has evenly been seted up on the second drive wheel, install the latch through the spring axle in the mounting groove, filter frame top is run through and is provided with the drive ratch, the latch agrees with each other with the drive ratch, first drive wheel also agrees with each other with the drive ratch, the discharge gate has been seted up at the conveying cylinder top, the discharge gate passes through the flexible hose and connects collection mechanism.

When the filter-pressing frame moves leftwards, a first driving wheel in an automatic cleaning mechanism in the filter-pressing frame acts on a driving toothed bar to enable the first driving wheel to rotate, the first driving wheel rotates to drive a conveying roller to rotate, the conveying roller drives the conveying belt to move when rotating, the conveying belt moves to drive a cleaning rod on the conveying belt to move, the cleaning brush on the cleaning rod acts on a filter plate at the rear side of the filter-pressing frame to clean the filter plate by moving the cleaning rod, so that impurities are cleaned to one side of the filter-pressing frame, namely the impurity output mechanism, and then acts on the driving toothed bar through a second driving wheel to enable the second driving wheel to rotate, the second driving wheel rotates to drive a screw rod to rotate, the screw rod rotates to pump out the impurities together with dyes, the impurities are discharged into a collecting mechanism through a discharge port at the top end of a conveying cylinder, and when the filter-pressing frame moves rightwards, the driving toothed bar acts on a latch on the second driving wheel, because the latch passes through the spring shaft and installs in the mounting groove on the second drive wheel, so when the filter-pressing frame moved right, the drive ratch does not exert an effect to the latch on the second drive wheel to make the screw rod can not turn round, guarantee impurity output mechanism's effective work.

Preferably, collect the mechanism and including collecting the box, collect the box symmetry and install in filter-pressing room top both sides, install the filter screen in collecting the box, flexible hose connects and collects the box top, collects box bottom and filter-pressing room intercommunication.

Impurity lets in the collection box together with the dyestuff after, discharges into the pressure filter chamber again after filtering through the filter screen in collecting the box, and impurity is stopped on the filter screen, and the staff opens and collects the box and can clear up the impurity on the filter screen.

Preferably, bubble elimination mechanism includes the liquid reserve tank, and the discharging pipe is connected at the liquid reserve tank both ends, and the symmetry is provided with the installing frame in the liquid reserve tank, and the installing frame bilateral symmetry is provided with the bubble and eliminates the needle, and spacing frame is connected through the head rod on one of them installing frame top, and another installing frame top is passed through the second connecting rod and is connected the reciprocating lever on filter-pressing room right side, and the bin outlet has been seted up to the liquid reserve tank bottom.

The liquid reserve tank is discharged into through the discharging pipe to the dyestuff after the filtration is accomplished, when the reciprocating lever controlled about, and control about spacing frame drive the head rod, and the reciprocating lever on straining chamber right side drives the second connecting rod and controls about simultaneously for two installing frames control about in the liquid reserve tank, make the bubble elimination on the installing frame eliminate to the bubble in the dyestuff, effectively guarantee the processingquality of dyestuff.

Preferably, feed mechanism includes the charge-in pipeline, and the charge-in pipeline is seted up on the filter-pressing room top, and charge-in pipeline one side is connected with air compressor equipment, installs the filter cartridge on the air inlet of air compressor equipment.

During the material loading, let in the filter-pressing room with the outside air through air compressor equipment work and carry out the pressure boost to the filter-pressing room, improve the filter-pressing effect of pressure filter frame.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. the dye anti-blocking high-efficiency filter pressing device for textile processing is characterized in that when a filter pressing frame moves leftwards, a first driving wheel in an automatic cleaning mechanism in the filter pressing frame acts on a driving toothed bar to enable the first driving wheel to rotate, the first driving wheel rotates to drive a conveying roller to rotate, the conveying roller drives the conveying belt to move when rotating, the conveying belt moves to drive a cleaning rod on the conveying belt to move, a cleaning brush on the cleaning rod acts on a filter plate on the rear side of the filter pressing frame to clean the filter plate due to the movement of the cleaning rod, impurities are cleaned to one side of the filter pressing frame, namely the impurity output mechanism, and then acts on the driving toothed bar through a second driving wheel to enable the second driving wheel to rotate, the second driving wheel rotates to drive a screw rod to rotate, the screw rod rotates to draw the impurities together with dyes out, the impurities are discharged into a collecting mechanism through a discharge hole at the top end of a conveying cylinder, and the automatic cleaning work of the filter pressing frame is realized, simultaneously with the automatic collection mechanism of discharging into of impurity, make things convenient for the staff to clear up, high-efficient intelligence avoids shutting down, improves filter-pressing efficiency and alleviates staff's amount of labour.

2. This stifled high-efficient filter pressing device is prevented to dyestuff for fabrics processing, the dyestuff after the filtration completion passes through the discharging pipe and discharges into the liquid reserve tank, when moving about reciprocating lever, and control about spacing frame drives the head rod, and reciprocating lever on filter-pressing room right side drives the second connecting rod simultaneously and moves about for two installing frames move about in the liquid reserve tank, make the bubble elimination on the installing frame eliminate to the bubble in the dyestuff, effectively guarantee the processingquality of dyestuff.

3. This stifled high-efficient filter pressing device is prevented to dyestuff for textile processing, actuating lever work action among the actuating mechanism drives about spacing frame, when removing about spacing frame, drive the left reciprocating lever of filter pressing room and remove, drive the drive gear rotation on the drive gear that the drive rack acted on the mounting panel when removing about left reciprocating lever, drive gear rotates on the drive rack that acts on the reciprocating lever on filter pressing room right side, thereby it removes to drive the reciprocating lever on filter pressing room right side, thereby it is close to or keeps away from each other to drive the filter pressing frame on two reciprocating levers, the realization carries out the filter-pressing operation to the dyestuff in the filter pressing room, effectively improve filter-pressing efficiency, and is simple in structure, make things convenient for staff's later maintenance operation.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the impurity delivery mechanism of the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 1 according to the present invention;

FIG. 4 is an enlarged view of the invention at B of FIG. 1;

in the figure: 1. a filter pressing chamber; 2. a drive mechanism; 201. a fixed mount; 202. a drive motor; 203. a drive shaft; 204. a drive disc; 205. a drive rod; 3. a reciprocating mechanism; 301. a reciprocating lever; 302. a drive rack; 303. mounting a plate; 304. a transmission gear; 305. a limiting plate; 306. a limiting frame; 4. pressing a filter frame; 5. an automatic cleaning mechanism; 501. a conveying roller; 502. a conveyor belt; 503. a cleaning rod; 504. cleaning the brush; 505. a first drive pulley; 6. an impurity output mechanism; 601. a delivery cartridge; 602. a screw; 603. a second transmission wheel; 604. mounting grooves; 605. a spring shaft; 606. clamping teeth; 607. a drive rack; 608. a discharge port; 609. a flexible hose; 7. a bubble eliminating mechanism; 701. a liquid storage tank; 702. installing a frame; 703. a bubble eliminating needle; 704. a first connecting rod; 705. a second connecting rod; 706. a discharge outlet; 8. a feeding mechanism; 801. a feed conduit; 802. an air compressor device; 803. an air inlet; 804. a filter cartridge; 9. a collection mechanism; 901. a collection box; 902. a filter screen; 10. and (4) discharging the pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

The first embodiment is as follows: referring to fig. 1-3, a dye anti-blocking high-efficiency filter pressing device for textile processing comprises a filter pressing chamber 1, a driving mechanism 2 is installed at the bottom end of the filter pressing chamber 1, the driving mechanism 2 is connected with a reciprocating mechanism 3, a filter pressing frame 4 is installed on the reciprocating mechanism 3, the upper end and the lower end of the filter pressing frame 4 are installed in the filter pressing chamber 1 in a sliding and sealing mode, an automatic cleaning mechanism 5 and an impurity output mechanism 6 are arranged in the filter pressing frame 4, the automatic cleaning mechanism 5 comprises a conveying roller 501, the conveying roller 501 is symmetrically installed at the top end of the filter pressing frame 4, a conveying belt 502 is sleeved on the conveying roller 501, a cleaning rod 503 is fixedly installed on the conveying belt 502, cleaning brushes 504 are uniformly distributed on the cleaning rod 503, a first driving wheel 505 is installed at the top end of the conveying roller 501, the bottom ends of two sides of the filter pressing chamber 1 are connected with a bubble eliminating mechanism 7 through a discharging pipe 10, and the top end of the filter pressing chamber 1 is connected with a feeding mechanism 8.

The driving mechanism 2 comprises a fixed frame 201, the fixed frame 201 is installed at the bottom end of the filter pressing chamber 1, a driving motor 202 is fixedly installed at the bottom end of the fixed frame 201, a driving disc 204 is installed on a driving shaft 203 of the driving motor 202, and a driving rod 205 is installed on the driving disc 204.

The driving shaft 203 is driven to rotate by the operation of the driving motor 202 in the driving mechanism 2, the driving shaft 203 drives the driving disc 204 to rotate, the driving disc 204 drives the driving rod 205 on the driving disc 204 to rotate, and the driving rod 205 acts on the reciprocating mechanism 3 to drive the reciprocating mechanism 3 to operate.

The reciprocating mechanism 3 comprises a reciprocating rod 301, the reciprocating rod 301 is symmetrically installed on two sides of the filter pressing chamber 1 in a sliding and sealing mode, one end of the reciprocating rod 301 is connected with the filter pressing frame 4, the other end of the reciprocating rod is provided with a driving rack 302, a transmission gear 304 is installed at the bottom end of the middle of the filter pressing chamber 1 through a mounting plate 303, the driving rack 302 is meshed with the transmission gear 304, a limiting plate 305 is further arranged on the mounting plate 303, the limiting plate 305 acts on the driving rack 302 respectively, the bottom end of the reciprocating rod 301 on the left side of the filter pressing chamber 1 is connected with a limiting frame 306, and the driving rod 205 is movably installed in the limiting frame 306.

The driving rod 205 works and acts on the limit frame 306 to drive the limit frame 306 to move left and right, when the limit frame 306 moves left and right, the reciprocating rod 301 on the left side of the filter pressing chamber 1 is driven to move left and right, when the reciprocating rod 301 on the left side moves left and right, the driving rack 302 acts on the driving gear 304 on the mounting plate 303 to drive the driving gear 304 to rotate, the driving gear 304 rotates and acts on the driving rack 302 on the reciprocating rod 301 on the right side of the filter pressing chamber 1, so that the reciprocating rod 301 on the right side of the filter pressing chamber 1 is driven to move left and right, the filter pressing frames 4 on the two reciprocating rods 301 are driven to be close to or far away from each other, and the filter pressing operation of dyes in the filter pressing chamber 1 is realized.

The rear side plate of the filter pressing frame 4 is a filter plate, the impurity output mechanism 6 comprises a conveying cylinder 601, a screw 602 is installed in the conveying cylinder 601, a second driving wheel 603 is installed at the top end of the screw 602, an installation groove 604 is evenly formed in the second driving wheel 603, a latch 606 is installed in the installation groove 604 through a spring shaft 605, a driving toothed bar 607 is arranged at the top end of the filter pressing frame 4 in a penetrating mode, the latch 606 is mutually matched with the driving toothed bar 607, the first driving wheel 505 is also mutually matched with the driving toothed bar 607, a discharge port 608 is formed in the top end of the conveying cylinder 601, and the discharge port 608 is connected with the collecting mechanism 9 through a telescopic hose 609.

When the filter pressing frame 4 moves leftwards, the first driving wheel 505 in the automatic cleaning mechanism 5 in the filter pressing frame 4 acts on the driving rack 607 to rotate the first driving wheel 505, the first driving wheel 505 rotates to drive the conveying roller 501 to rotate, the conveying roller 501 rotates to drive the conveying belt 502 to move, the conveying belt 502 moves to drive the cleaning rod 503 on the conveying belt 502 to move, the cleaning brush 504 on the cleaning rod 503 acts on the filter plate at the rear side of the filter pressing frame 4 to clean the filter plate, so that the impurities are cleaned to one side of the filter pressing frame 4, namely the impurity output mechanism 6, and then acts on the driving rack 607 through the second driving wheel 603 to rotate the second driving wheel 603, the second driving wheel 603 rotates to drive the screw 602 to rotate, the screw 602 rotates to extract the impurities together with the dye, and the impurities are discharged into the collecting mechanism 9 through the discharge hole 608 at the top end of the conveying cylinder 601, when the filter pressing frame 4 moves rightwards and returns, the driving toothed bar 607 acts on the latch 606 on the second driving wheel 603, and because the latch 606 is installed in the installation groove 604 on the second driving wheel 603 through the spring shaft 605, when the filter pressing frame 4 moves rightwards, the driving toothed bar 607 does not act on the latch 606 on the second driving wheel 603, so that the screw 602 cannot rotate, and the effective work of the impurity output mechanism 6 is ensured.

Example two: referring to fig. 1-4, a dye anti-blocking high-efficiency filter pressing device for textile processing comprises a filter pressing chamber 1, a driving mechanism 2 is installed at the bottom end of the filter pressing chamber 1, the driving mechanism 2 is connected with a reciprocating mechanism 3, a filter pressing frame 4 is installed on the reciprocating mechanism 3, the upper end and the lower end of the filter pressing frame 4 are installed in the filter pressing chamber 1 in a sliding and sealing mode, an automatic cleaning mechanism 5 and an impurity output mechanism 6 are arranged in the filter pressing frame 4, the automatic cleaning mechanism 5 comprises a conveying roller 501, the conveying roller 501 is symmetrically installed at the top end of the filter pressing frame 4, a conveying belt 502 is sleeved on the conveying roller 501, a cleaning rod 503 is fixedly installed on the conveying belt 502, cleaning brushes 504 are uniformly distributed on the cleaning rod 503, a first driving wheel 505 is installed at the top end of the conveying roller 501, the bottom ends of two sides of the filter pressing chamber 1 are connected with a bubble eliminating mechanism 7 through a discharging pipe 10, and the top end of the filter pressing chamber 1 is connected with a feeding mechanism 8.

The driving mechanism 2 comprises a fixed frame 201, the fixed frame 201 is installed at the bottom end of the filter pressing chamber 1, a driving motor 202 is fixedly installed at the bottom end of the fixed frame 201, a driving disc 204 is installed on a driving shaft 203 of the driving motor 202, and a driving rod 205 is installed on the driving disc 204.

The reciprocating mechanism 3 comprises a reciprocating rod 301, the reciprocating rod 301 is symmetrically installed on two sides of the filter pressing chamber 1 in a sliding and sealing mode, one end of the reciprocating rod 301 is connected with the filter pressing frame 4, the other end of the reciprocating rod is provided with a driving rack 302, a transmission gear 304 is installed at the bottom end of the middle of the filter pressing chamber 1 through a mounting plate 303, the driving rack 302 is meshed with the transmission gear 304, a limiting plate 305 is further arranged on the mounting plate 303, the limiting plate 305 acts on the driving rack 302 respectively, the bottom end of the reciprocating rod 301 on the left side of the filter pressing chamber 1 is connected with a limiting frame 306, and the driving rod 205 is movably installed in the limiting frame 306.

The rear side plate of the filter pressing frame 4 is a filter plate, the impurity output mechanism 6 comprises a conveying cylinder 601, a screw 602 is installed in the conveying cylinder 601, a second driving wheel 603 is installed at the top end of the screw 602, an installation groove 604 is evenly formed in the second driving wheel 603, a latch 606 is installed in the installation groove 604 through a spring shaft 605, a driving toothed bar 607 is arranged at the top end of the filter pressing frame 4 in a penetrating mode, the latch 606 is mutually matched with the driving toothed bar 607, the first driving wheel 505 is also mutually matched with the driving toothed bar 607, a discharge port 608 is formed in the top end of the conveying cylinder 601, and the discharge port 608 is connected with the collecting mechanism 9 through a telescopic hose 609.

The collecting mechanism 9 comprises collecting boxes 901, the collecting boxes 901 are symmetrically arranged at two sides of the top end of the filter pressing chamber 1, filter screens 902 are arranged in the collecting boxes 901, the telescopic hoses 609 are connected with the top ends of the collecting boxes 901, and the bottom ends of the collecting boxes 901 are communicated with the filter pressing chamber 1.

Bubble elimination mechanism 7 includes liquid reserve tank 701, and discharging pipe 10 is connected at the liquid reserve tank 701 both ends, and the symmetry is provided with installing frame 702 in the liquid reserve tank 701, and installing frame 702 bilateral symmetry is provided with bubble elimination needle 703, and spacing frame 306 is connected through first connecting rod 704 on one of them installing frame 702 top, and reciprocating lever 301 on another installing frame 702 top through second connecting rod 705 connection filtration chamber 1 right side, and bin outlet 706 has been seted up to liquid reserve tank 701 bottom.

The feeding mechanism 8 comprises a feeding pipeline 801, the feeding pipeline 801 is arranged at the top end of the filter chamber 1, an air compressor device 802 is connected to one side of the feeding pipeline 801, and a filter box 804 is installed on an air inlet 803 of the air compressor device 802.

The working principle is as follows:

when the device works, the driving motor 202 in the driving mechanism 2 works to drive the driving shaft 203 to rotate, the driving shaft 203 rotates to drive the driving disc 204 to rotate, the driving disc 204 rotates to drive the driving rod 205 on the driving disc 204 to rotate, the driving rod 205 acts on the reciprocating mechanism 3 to drive the reciprocating mechanism 3 to work, the driving rod 205 works to act on the limiting frame 306 to drive the limiting frame 306 to move left and right, the reciprocating rod 301 on the left side of the dynamic pressure filter chamber 1 moves left and right when the limiting frame 306 moves left and right, the driving rack 302 acts on the driving gear 304 on the mounting plate 303 to drive the driving gear 304 to rotate when the reciprocating rod 301 on the left side moves left and right, the driving gear 304 rotates to act on the driving rack 302 on the reciprocating rod 301 on the right side of the dynamic pressure filter chamber 1 to drive the reciprocating rod 301 on the right side of the dynamic pressure filter chamber 1 to move left and right, so as to drive the pressure filter frames 4 on the two reciprocating rods 301 to approach or move away from each other, the dye in the filter pressing chamber 1 is subjected to filter pressing operation, so that the filter pressing efficiency is effectively improved, and meanwhile, the structure is simple, and the later maintenance operation of workers is facilitated;

when the filter pressing frame 4 moves leftwards, the first driving wheel 505 in the automatic cleaning mechanism 5 in the filter pressing frame 4 acts on the driving rack 607 to rotate the first driving wheel 505, the first driving wheel 505 rotates to drive the conveying roller 501 to rotate, the conveying roller 501 rotates to drive the conveying belt 502 to move, the conveying belt 502 moves to drive the cleaning rod 503 on the conveying belt 502 to move, the cleaning brush 504 on the cleaning rod 503 acts on the filter plate at the rear side of the filter pressing frame 4 to clean the filter plate, so that the impurities are cleaned to one side of the filter pressing frame 4, namely the impurity output mechanism 6, and then acts on the driving rack 607 through the second driving wheel 603 to rotate the second driving wheel 603, the second driving wheel 603 rotates to drive the screw 602 to rotate, the screw 602 rotates to extract the impurities together with the dye, and the impurities are discharged into the collecting mechanism 9 through the discharge hole 608 at the top end of the conveying cylinder 601, when the filter pressing frame 4 moves rightwards and returns, the driving gear lever 607 acts on the latch 606 on the second transmission wheel 603, since the latch 606 is mounted in the mounting groove 604 of the second driving wheel 603 by the spring shaft 605, when the filter pressing frame 4 moves rightwards, the driving toothed bar 607 does not act on the latch 606 on the second transmission wheel 603, thereby leading the screw 602 not to rotate, ensuring the effective work of the impurity output mechanism 6, realizing the automatic cleaning work of the filter pressing frame 4, meanwhile, the impurities are automatically discharged into the collecting mechanism 9, and after the impurities and the dye are introduced into the collecting box 901, the filter screen 902 in the collection box 901 is filtered and then discharged into the filter pressing chamber 1 again, impurities stay on the filter screen 902, and workers can clean the impurities on the filter screen 902 by opening the collection box 901, so that the filter pressing chamber is convenient for the workers to clean, is efficient and intelligent, avoids shutdown, improves filter pressing efficiency and reduces the labor capacity of the workers;

dye after the filtration is accomplished is discharged into liquid reserve tank 701 through discharging pipe 10, when reciprocating lever 301 moves about, spacing frame 306 drives first connecting rod 704 and moves about, reciprocating lever 301 on filter pressing room 1 right side drives second connecting rod 705 and moves about simultaneously, make two installing frame 702 move about in liquid reserve tank 701, make the bubble of needle 703 in to the dye is eliminated to the bubble on the installing frame 702, effectively guarantee the processingquality of dye, during the material loading, let in filter pressing room 1 and pressurize filter pressing room 1 through air compressor equipment 802 work, improve filter pressing frame 4's filter-pressing effect.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a stifled high-efficient filter pressing device is prevented to dyestuff for textile processing, includes filter-pressing room (1), its characterized in that: the bottom end of the filter-pressing chamber (1) is provided with a driving mechanism (2), the driving mechanism (2) is connected with a reciprocating mechanism (3), a filter-pressing frame (4) is arranged on the reciprocating mechanism (3), the upper end and the lower end of the filter-pressing frame (4) are arranged in the filter-pressing chamber (1) in a sliding and sealing way, an automatic cleaning mechanism (5) and an impurity output mechanism (6) are arranged in the filter-pressing frame (4), automatic clean mechanism (5) are including transfer roller (501), transfer roller (501) symmetry is installed on filter-pressing frame (4) top, the cover is equipped with conveyer belt (502) on transfer roller (501), fixed mounting has clean pole (503) on conveyer belt (502), evenly distributed has clean brush (504) on clean pole (503), first drive wheel (505) are installed on transfer roller (501) top, filter-pressing room (1) both sides bottom is passed through discharging pipe (10) and is connected bubble elimination mechanism (7), filter-pressing room (1) top is connected with feed mechanism (8).

2. The anti-blocking efficient filter pressing device for the dyes for textile processing according to claim 1, is characterized in that: the driving mechanism (2) comprises a fixing frame (201), the fixing frame (201) is installed at the bottom end of the filter pressing chamber (1), a driving motor (202) is fixedly installed at the bottom end of the fixing frame (201), a driving disc (204) is installed on a driving shaft (203) of the driving motor (202), and a driving rod (205) is installed on the driving disc (204).

3. The anti-blocking efficient filter pressing device for the dyes for textile processing according to claim 2, is characterized in that: reciprocating mechanism (3) are including reciprocating lever (301), reciprocating lever (301) symmetry sliding seal installs in straining chamber (1) both sides, straining frame (4) is connected to reciprocating lever (301) one end, the other end is provided with drive rack (302), drive gear (304) are installed through mounting panel (303) in straining chamber (1) middle part bottom, drive rack (302) and drive gear (304) intermeshing, still be provided with limiting plate (305) on mounting panel (303), limiting plate (305) act on respectively on drive rack (302), left reciprocating lever (301) bottom in straining chamber (1) is connected with spacing frame (306), drive lever (205) movable mounting is in spacing frame (306).

4. The anti-blocking efficient filter pressing device for the dyes for textile processing according to claim 1, is characterized in that: the impurity output mechanism (6) comprises a conveying cylinder (601), a screw rod (602) is installed in the conveying cylinder (601), a second driving wheel (603) is installed at the top end of the screw rod (602), an installation groove (604) is uniformly formed in the second driving wheel (603), a clamping tooth (606) is installed in the installation groove (604) through a spring shaft (605), a driving toothed bar (607) is arranged at the top end of the filter pressing frame (4) in a penetrating mode, the clamping tooth (606) is mutually matched with the driving toothed bar (607), a first driving wheel (505) is also mutually matched with the driving toothed bar (607), a discharge port (608) is formed in the top end of the conveying cylinder (601), and the discharge port (608) is connected with a collecting mechanism (9) through a telescopic hose (609).

5. The anti-blocking efficient filter pressing device for the dyes for textile processing according to claim 4, is characterized in that: the collecting mechanism (9) comprises collecting boxes (901), the collecting boxes (901) are symmetrically arranged on two sides of the top end of the filter pressing chamber (1), filter screens (902) are arranged in the collecting boxes (901), the telescopic hoses (609) are connected with the top end of the collecting boxes (901), and the bottom ends of the collecting boxes (901) are communicated with the filter pressing chamber (1).

6. The anti-blocking efficient filter pressing device for the dyes for textile processing according to claim 1, is characterized in that: bubble elimination mechanism (7) include liquid reserve tank (701), discharging pipe (10) are connected at liquid reserve tank (701) both ends, the symmetry is provided with installing frame (702) in liquid reserve tank (701), installing frame (702) bilateral symmetry is provided with bubble elimination needle (703), spacing frame (306) are connected through first connecting rod (704) on one of them installing frame (702) top, reciprocating rod (301) on pressure filtration room (1) right side are connected through second connecting rod (705) on another installing frame (702) top, bin outlet (706) have been seted up to liquid reserve tank (701) bottom.

7. The anti-blocking efficient filter pressing device for the dyes for textile processing according to claim 1, is characterized in that: the feeding mechanism (8) comprises a feeding pipeline (801), the feeding pipeline (801) is arranged at the top end of the filter-pressing chamber (1), one side of the feeding pipeline (801) is connected with an air compressor device (802), and a filter box (804) is installed on an air inlet (803) of the air compressor device (802).

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