CN116328406B - Continuous filtering and washing device for DATA synthesis production and application method thereof - Google Patents

Abstract

The invention relates to the technical field of DATA production, in particular to a continuous filtering and washing device for DATA synthesis production and a use method thereof, comprising a center conveying frame and side conveying frames symmetrically and parallelly arranged on two sides of the center conveying frame, wherein a rotary rail is arranged in the middle of the center conveying frame and the side conveying frames in a surrounding manner, a traction chain is arranged in the middle of the rotary rail, and the continuous filtering and washing device further comprises: the unit filter frames are arranged around the outer sides of the central conveying frames in a surrounding mode, and all the unit filter frames are driven by the traction chains to synchronously move around the central conveying frames along the revolving tracks. According to the invention, the unit filter frames are sequentially connected with the filter conveying discs on the side conveying frames at the two sides in the surrounding conveying process along the central conveying frame, and the filter conveying discs on the side conveying frames at the two sides respectively convey the synthetic liquid and the cleaning liquid for filtering and washing, so that the unit filter frames perform continuous filtering and washing work in the surrounding conveying process.

Description

Continuous filtering and washing device for DATA synthesis production and application method thereof

Technical Field

The invention relates to the technical field of DATA production, in particular to a continuous filtering and washing device for DATA synthesis production and a use method thereof.

Background

DATA is the main intermediate of high-grade organic pigment quinacridone pigment, and DATA synthesis process generally adopts hydrogen peroxide oxidation process, can reduce the production of solid accessory substance, then the reaction solution acidifies with sulfuric acid aqueous solution to obtain product DATA through filtering, washing, stoving, and current DATA production is filtered, is washed and generally adopts plate frame filtration equipment, and current plate frame filter pressing equipment only can carry out the periodic operation, need to unload, clear up and refill after accomplishing a filtration washing, and whole workflow is comparatively complicated, and the time consuming is longer, and the production continuity is relatively poor.

Patent application number CN202210209421.X discloses an automated chemical filtration device comprising a base and a filtration body, the base being provided with a water reservoir; the filter body comprises a shell, a sliding part, a first piston assembly and a second piston assembly; the bottom end of the shell is provided with a water supply channel; one end of the water receiver is assembled in the water supply channel; a discharge hole and a water outlet channel are arranged at one side of the bottom of the shell; the sliding part is sleeved on the outer wall of the water supply channel in a sliding way and is combined with the shell to form a first cavity; when the first piston assembly slides upwards and the water supply channel is communicated with the first chamber; the sliding part can slide upwards and form a seal with the discharge port; when the second piston assembly slides and enables the water outlet channel to be communicated with the first cavity, the sliding part can slide downwards and enable the discharge port to be communicated with the inner cavity of the shell, continuous filtration of mixed liquid can be achieved, and separated solid substances can be continuously discharged in the filtration process.

However, although continuous filtration can be realized, the filtered product cannot be washed, and a large amount of raw materials still exist in the filtered product, so that the residual reaction liquid in the process of producing DATA cannot be recovered.

Disclosure of Invention

Therefore, the present invention is directed to a continuous filtering and washing device for synthesizing and producing DATA and a method for using the same, which are used for solving the problems that the filtering product can not be washed by the conventional continuous filtering device, a large amount of raw materials still exist in the filtering product, and the residual reaction liquid in the DATA production process can not be recovered.

Based on the above object, the invention provides a continuous filtering and washing device for DATA synthesis production, which comprises a center conveying frame and side conveying frames symmetrically arranged on two sides of the center conveying frame in parallel, wherein a rotary rail is arranged in the middle of the center conveying frame and the side conveying frames in a surrounding manner, a traction chain is arranged in the middle of the rotary rail, and the continuous filtering and washing device further comprises:

the unit filter frames are arranged around the outer side of the central conveying frame in a surrounding mode, and all the unit filter frames are driven by a traction chain to synchronously move around the central conveying frame along the revolving track;

the unit filter frame is provided with filter cloth on the inner side;

the unit conveying frames are arranged around the outer sides of the side conveying frames in a surrounding mode, all the unit conveying frames are driven by traction chains to synchronously move around the side conveying frames along the revolving track in a surrounding mode, and telescopic sleeves are arranged in the middle of the unit conveying frames;

the filter conveying disc is connected to the lower end of the telescopic tube, the filter conveying disc and the unit filter frames are mutually matched in size, a hydraulic telescopic rod is arranged between the filter conveying disc and the unit conveying frame, a closed conveying bin is arranged in the filter conveying disc, a plurality of conveying hole sleeves uniformly penetrate through the bottom of the closed conveying bin, the closed conveying bin is mutually communicated with the telescopic tube, and a filter recycling bin is arranged under the filter conveying disc at intervals;

the unit filter frames and the filter conveying discs are arranged correspondingly, and the unit filter frames are located between the filter conveying discs and the filter recycling drums when surrounding the central conveying frame to move close to the side conveying frames, and keep synchronous movement with the filter conveying discs;

the device comprises a unit filter frame, a discharge support arm, a support arm rotating shaft, a discharge sleeve, a discharge ejector rod, an ejector rod spring, a discharge cam, a discharge ejector rod driving to reciprocate along the discharge sleeve when the discharge cam rotates, and a discharge ejector rod positioned above the center of a filter cloth when the discharge support arm rotates to a horizontal state along one side of the unit filter frame;

the inner end of the discharging ejector rod is provided with an ejector rod magnet, the center of the filtering cloth is provided with a center magnet, and the ejector rod magnet and the center magnet are mutually adsorbed when the discharging support arm turns to a horizontal state along the support arm rotating axis to one side of the unit filtering frame;

the left side and the right side of the central conveying frame are respectively provided with a horizontal recovery tank and a horizontal cleaning tank in parallel, the horizontal recovery tank and the horizontal cleaning tank are positioned at the front side of the side conveying frame, the middle of the horizontal cleaning tank is horizontally provided with a cleaning spray pipe, and a plurality of cleaning spray heads are uniformly distributed in the middle of the cleaning spray pipe;

the top ends of the telescopic sleeves arranged on the side edge conveying frames on the two sides are respectively connected with a raw material conveying hose and a washing conveying hose, and the bottom ends of the filtering recovery barrels arranged on the side edge conveying frames on the two sides are respectively connected with a filtrate recovery hose and a washing recovery hose;

the unit filter frame is connected with the annular filter frame through the upset carousel rotation to the outside of upset carousel is encircled and is provided with the carousel gear, and the outside meshing of carousel gear is provided with the upset gear, and the axle head of upset gear 201 is provided with the upset motor.

Further, the outside edge of filtering the filter cloth encircles fixed connection and is provided with the filter cloth braced frame, filtering the filter cloth pass through the filter cloth braced frame with the nested sliding connection of unit filtration frame, the bottom of unit filtration frame is encircleed and is provided with spacing support ring, the filter cloth braced frame with be provided with the bearing spring between the spacing support ring, the bottom plane of filtering the delivery tray with filter between the filter cloth and be parallel to each other.

Further, the inboard of seal delivery warehouse is provided with synchronous regulation frame, synchronous regulation frame's downside is connected and is provided with a plurality of seal ejector pins, seal the ejector pin with the delivery port cover one-to-one sets up and the size is mutually supported, synchronous regulation frame's top is provided with the traction guide pole, the top of filtering the delivery tray is provided with the direction sliding sleeve, traction guide pole's top is provided with ring magnet, ring magnet nest set up in telescopic tube's outside, telescopic tube's bottom encircles and is provided with adjusting electromagnet, adjusting electromagnet with be provided with the sleeve spring between the ring magnet.

Further, the synchronous adjusting frame is connected with the guide sliding sleeve in an up-down sliding mode through the traction guide rod, all the closed ejector rods are driven to be pulled out from the conveying hole sleeve to open the conveying hole sleeve when the synchronous adjusting frame moves upwards, all the closed ejector rods are driven to be inserted into the conveying hole sleeve to close the conveying hole sleeve when the synchronous adjusting frame moves downwards, and at the moment, the bottom plane of the closed ejector rods and the bottom plane of the filtering conveying disc are located on the same plane.

Further, the top of filtering recovery bucket is provided with spacing filter press board, evenly run through in the middle of spacing filter press board and be provided with a plurality of filter pressing trompils, spacing filter press board with size is mutually supported between the unit filter frame, the top surface of spacing filter press board with be parallel to each other between the filter cloth, the outside connection of filtering recovery bucket is provided with hydraulic lifting rod.

Further, the outside nestification of unit filter frame is provided with annular filtration frame, the unit filter frame with be provided with the upset carousel between the annular filtration frame, the unit filter frame passes through the upset carousel with annular filtration frame rotates to be connected, be provided with the locking plug bush in the middle of the lateral wall of unit filter frame, be provided with the locking sliding sleeve in the middle of the inner wall of annular filtration frame, the inside nested slip of locking sliding sleeve is provided with the elasticity bolt, the elasticity bolt with the locking plug bush corresponds each other and sets up and the size is mutually supported, the rear side of elasticity bolt is provided with the unblock electro-magnet, the unit filter frame is in when the horizontality the elasticity bolt embedding locking plug bush is in order to lock.

A method for using a continuous filtering and washing device for DATA synthesis production comprises the following steps:

when the traction chain drives all the unit conveying frames to synchronously move to the side conveying frames on one side around the side conveying frames along the revolving track, the unit filtering frames and the filtering conveying discs are synchronously moved, the filtering conveying discs are synchronously moved to the other side around the central conveying frame, the filtering conveying discs are kept right above the unit filtering frames, then the hydraulic telescopic rods drive the filtering conveying discs to be embedded into the inner sides of the unit filtering frames at a reduced height, raw material liquid is conveyed to the unit filtering frames through telescopic sleeves, the raw material liquid is filtered through filtering filter cloth in the unit filtering frames, filtrate naturally flows into a filtering recovery barrel right below the unit filtering frames for recovery, the raw material liquid is continuously conveyed in the moving process to filter and accumulate a certain filtering material, then the hydraulic telescopic rods drive the filtering conveying discs to ascend and reset, then the unit filtering frames are moved to the other side around the central conveying frames, the filtering conveying discs on the other side are synchronously moved, then the liquid is conveyed to the inner sides of the unit filtering frames through telescopic sleeves, the filtering cloth is filtered on the filtering filter cloth, the filtered and intercepted raw material liquid is washed by the telescopic sleeves, the filtered material liquid is continuously flows into the filtering recovery barrel after the filtering recovery barrel is continuously, and the filtered material is continuously conveyed in the circulating process after the circulating process is continuously, and the filtering material is continuously washed by the filtering material is continuously and conveyed in the circulating process after the circulating process is continuously, and the filtering material is continuously recovered.

The invention has the beneficial effects that: from the above, it can be seen that, according to the continuous filtering and washing device for DATA synthesis production provided by the invention, a plurality of unit filter frames and filtering and conveying discs are respectively and circularly conveyed by the central conveying frame and the side conveying frames at two sides of the central conveying frame, the unit filter frames and the filtering and conveying discs on one side of the central conveying frame are kept to move synchronously in the process of encircling and conveying along the central conveying frame, the filtering and conveying discs are lowered to seal the filtering and conveying discs when moving synchronously with the unit filter frames, raw material liquid is conveyed to the unit filter frames, filtering and conveying are carried out through the filtering and filtering cloth in the unit filter frames, filtering and conveying are stopped after a certain solid raw material is accumulated in the process of moving and conveying, the unit filter frames and the filtering and conveying discs on the other side of the unit filter frames are kept to move synchronously, and the filtering and intercepting solid raw material is washed on the filtering and filtering cloth of the unit filter frames are sequentially realized in the encircling and conveying process, and the continuous filtering and washing work is more flexible and convenient in use.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only of the invention and that other drawings can be obtained from them without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a front side structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a rear structure of an embodiment of the present invention;

FIG. 3 is a schematic view of a central carriage according to an embodiment of the present invention;

FIG. 4 is a schematic view of a partial structure of a center carriage according to an embodiment of the present invention;

FIG. 5 is a schematic view of a side frame according to an embodiment of the present invention;

FIG. 6 is a schematic view of a partial structure of a filter tray according to an embodiment of the present invention;

FIG. 7 is a schematic view of the structure of an annular filter holder according to an embodiment of the present invention;

FIG. 8 is a schematic view showing a rotation state of a unit filter frame according to an embodiment of the present invention;

FIG. 9 is a schematic view of a unit carriage according to an embodiment of the present invention;

FIG. 10 is a schematic view of a filter tray according to an embodiment of the present invention;

FIG. 11 is a schematic view of a filtering recovery tank according to an embodiment of the present invention;

FIG. 12 is a schematic view of a discharge arm according to an embodiment of the present invention;

FIG. 13 is a schematic view of the operation of the discharge arm according to an embodiment of the present invention.

Marked in the figure as:

1. a central carriage; 101. a side carriage; 102. a swivel rail; 103. a long side guide rail; 104. a circular arc guide rail; 105. a traction chain; 106. traction fluted disc; 107. a traction motor; 2. an annular filter frame; 201. a turnover gear; 202. a turnover motor; 203. locking the sliding sleeve; 204. an elastic bolt; 205. unlocking the electromagnet; 3. a unit filter frame; 301. limiting supporting rings; 302. turning over the turntable; 303. a turntable gear; 304. locking the plug bush; 4. filtering the filter cloth; 401. a filter cloth support frame; 402. a support spring; 403. a center magnet; 5. a unit transport rack; 501. a telescoping tube; 502. a hydraulic telescopic rod; 503. a filter delivery tray; 504. closing the conveying bin; 505. a conveying hole sleeve; 506. a guide sliding sleeve; 6. a synchronous adjusting frame; 601. closing the ejector rod; 602. traction guide bar; 603. a ring magnet; 604. adjusting an electromagnet; 605. a sleeve spring; 7. filtering and recycling the barrel; 701. a hydraulic lifting rod; 702. limiting filter press plates; 703. press filtration and perforating; 8. a discharge support arm; 801. a support arm rotating shaft; 802. resetting the motor; 803. a discharge sleeve; 804. a discharging ejector rod; 805. a push rod spring; 806. a push rod magnet; 807. a discharge cam; 808. a discharging motor; 9. a horizontal recovery tank; 901. a horizontal cleaning tank; 902. cleaning the spray pipe; 903. and cleaning the spray head.

Detailed Description

The present invention will be further described in detail with reference to specific embodiments in order to make the objects, technical solutions and advantages of the present invention more apparent.

It is to be noted that unless otherwise defined, technical or scientific terms used herein should be taken in a general sense as understood by one of ordinary skill in the art to which the present invention belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10 and fig. 11, a continuous filtering and washing device for DATA synthesis production includes a central conveying frame 1 and side conveying frames 101 symmetrically and parallelly arranged on two sides of the central conveying frame 1, a revolving track 102 is arranged around the middle of the central conveying frame 1 and the side conveying frames 101, and a traction chain 105 is arranged in the middle of the revolving track 102, and the continuous filtering and washing device further includes:

the unit filter frames 3, a plurality of unit filter frames 3 are arranged around the outer side of the central conveying frame 1 in a surrounding way, and all the unit filter frames 3 are driven by a traction chain 105 to synchronously move around the central conveying frame 1 along a revolving track 102;

the unit filter frame 3, the inboard of unit filter frame 3 is provided with the filter cloth 4;

the unit conveying frames 5 are arranged around the outer sides of the side conveying frames 101 in a surrounding mode, all the unit conveying frames 5 are driven by a traction chain 105 to synchronously move around the side conveying frames 101 along a revolving track 102, and a telescopic sleeve 501 is arranged in the middle of the unit conveying frames 5;

the filter conveying disc 503 is connected to the lower end of the telescopic pipe 501, the filter conveying disc 503 and the unit filter frame 3 are mutually matched in size, a hydraulic telescopic rod 502 is arranged between the filter conveying disc 503 and the unit conveying frame 5, a closed conveying bin 504 is arranged in the filter conveying disc 503, the bottom of the closed conveying bin 504 is uniformly penetrated and provided with a plurality of conveying hole sleeves 505, the closed conveying bin 504 is mutually communicated with the telescopic pipe 501, and a filter recycling bin 7 is arranged under the filter conveying disc 503 at intervals;

the unit filter frames 3 and the filter conveying trays 503 are disposed in correspondence with each other, and the unit filter frames 3 are located between the filter conveying trays 503 and the filter recovery tank 7 when moved around the center conveyor frame 1 to approach the side conveyor frame 101, and are moved in synchronization with the filter conveying trays 503.

In the embodiment, the device circularly conveys a plurality of unit filter frames 3 and filter conveying discs 503 through a central conveying frame 1 and side conveying frames 101 on two sides of the central conveying frame, a traction fluted disc 106 is meshed and arranged on the inner side of a traction chain 105, a traction motor 107 is arranged in the middle of the traction fluted disc 106, the traction motor 107 can drive the traction chain 105 to move through the traction fluted disc 106, further the unit filter frames 3 or the unit conveying frames 5 are driven by the traction chain 105 arranged on the central conveying frame 1 or the side conveying frames 101 to synchronously and circularly move around the central conveying frame 1 or the side conveying frames 101 along a rotary track 102, the central conveying frame 1 and the side conveying frames 101 on two sides of the central conveying frame are similar in structure, the rotary track 102 arranged on the central conveying frame is of a horizontal rotary structure and provided with two parallel long side guide rails 103 and arc guide rails 104 with two ends of the long side guide rails 103 connected with each other, the annular filter frame 2 and the filter conveying disc 503 can be rotated and conveyed along the rotation track 102, the filter conveying disc 503 on the side conveying frame 101 which is arranged in parallel with the side direction of the central conveying frame 1 can be synchronously moved when the unit filter frame 3 is conveyed along the long side guide rail 103 on the side of the central conveying frame 1, the unit filter frame 3 and the filter conveying disc 503 are correspondingly arranged, and the filter conveying disc 503 is kept right above the unit filter frame 3, so the filter conveying disc 503 can be driven to reduce the height by a hydraulic telescopic rod 502 to be embedded into the inner side of the unit filter frame 3, the upper opening of the unit filter frame 3 can be closed by the filter conveying disc 503, then raw material liquid can be conveyed into the unit filter frame 3 by a telescopic sleeve 501 and filtered by a filter cloth 4 in the raw material liquid can naturally flow into a filter recovery barrel 7 right below the unit filter frame 3 for recovery, the filtration and transportation can be stopped after a certain filter material is continuously conveyed in the moving process, the filtering and transportation can be stopped after a certain filter material is accumulated by filtration, then the hydraulic telescopic rod 502 pulls the filtering and transportation disc 503 to ascend and reset, thereby the filtering work is completed in the moving process, then after the unit filtering frame 3 moves to the tail end of the long-side guide rail 103 arranged on the rotary rail 102, the unit filtering frame 3 is conveyed to the long-side guide rail 103 on the other side through the circular arc guide rail 104 on the rotary rail 102, the unit filtering frame 3 is synchronously moved with the filtering and transportation disc 503 on the other side transportation frame 101, the hydraulic telescopic rod 502 drives the filtering and transportation disc 503 to be embedded into the inner side of the unit filtering frame 3 at a reduced height, then the cleaning liquid is conveyed to the unit filtering frame 3 through the telescopic sleeve 501, the filtering and intercepted solid raw materials on the filtering cloth 4 are washed, the washed after the washed is flowed into the unit filtering and transportation disc 7 under the unit filtering and transportation frame 3, after the washing liquid is continuously conveyed in the moving process, the filtering and transportation disc 503 ascend and reset after the washing is completed, thereby the washing work is completed in the moving process, the filtering cloth 4 can be discharged, the finished unit filtering and the filtering frame 3 is rotatively conveyed to the rotary and transported to the other side by the circular arc guide rail 104 on the rotary rail on the other side, the filtering cloth 3 is continuously moved to the side, the filtering material is continuously and the discharged and the filtering material is continuously, the discharged and the filtering cloth, and the filtering material is continuously and the discharged and the filtering material is continuously, and the filtered and the discharged and the filtering material is continuously The filtrate recovery hose and the washing recovery hose are respectively and uniformly connected through rotary conveying joints which are correspondingly arranged, so that the liquid can be conveniently conveyed in the rotation process.

As shown in fig. 6 and 7, preferably, the device filters the DATA synthetic liquid through the filter cloth 4 in the annular filter frame 2, and the filter cloth 4 is in nested sliding connection with the unit filter frame 3 through the filter cloth supporting frame 401, when a large amount of filtrate is impacted to the filter cloth 4 during filtration, the filter cloth supporting frame 401 and the filter cloth 4 can slide downwards to a certain extent, and a certain buffer is performed through the bearing spring 402, so as to weaken the impact force to the filter cloth 4 when the filtrate starts to be conveyed, avoid the damage to the filter cloth 4, be favorable for prolonging the service life of the filter cloth 4, and as the accumulated filter materials on the filter cloth 4 are gradually increased, the filter cloth 4 also moves downwards to improve the distance between the filter cloth 4 and the filter conveying disc 503, and further improve the capacity of the filter materials which can be accumulated on the filter cloth 4.

As shown in fig. 6, 9 and 10, preferably, the device conveys the synthetic liquid to the closed conveying bin 504 in the filtering conveying disc 503 through the telescopic sleeve 501, and further conveys the synthetic liquid to the filtering cloth 4 in the unit filtering frame 3 for filtering by the conveying hole sleeve 505, and the conveying hole sleeve 505 is uniformly distributed at the bottom of the filtering conveying disc 503, so as to facilitate uniform conveying of the synthetic liquid to the filtering cloth 4, avoid excessive accumulation of filter materials in a certain position of the filtering cloth 4, be beneficial to improving the filtering uniformity, meanwhile, the electromagnet 604 can attract the annular magnet 603 to move downwards when being electrified, and further drive the synchronous adjusting frame 6 to move downwards so as to drive all the closed ejector rods 601 to insert the conveying hole sleeve 505 to close the conveying hole sleeve 505, and drive the annular magnet 605 to move upwards for resetting when the adjusting electromagnet 604 loses electricity, and drive all the closed ejector rods 601 to be pulled out by the conveying hole sleeve 505 when the synchronous adjusting frame 6 moves upwards so as to conveniently control whether the conveying of the filtering conveying disc 503 is convenient, so as to avoid residual omission of the liquid when the filtering conveying disc 503 is closed, and avoid residual filter materials in the conveying hole sleeve 505, and simultaneously, the electromagnet 604 can attract the annular magnet 603 to move downwards to drive the annular magnet 601 to insert into the conveying hole sleeve 505, and simultaneously push the same plane as to extrude the filtering material 503 to the filtering material to a certain level to the filtering material 3.

As shown in fig. 6, 9, 10 and 11, preferably, the filter conveying tray 503 of the device is embedded in the unit filter frame 3, when the synthetic liquid is conveyed for filtering or the cleaning liquid is conveyed for washing, the filtrate can naturally flow and be conveyed to the filter recycling bin 7 directly below for recycling, and the top of the filter recycling bin 7 is also provided with a limiting filter pressing plate 702, when the filter recycling bin 7 is recycled, the filter recycling bin 7 can be lifted by the hydraulic lifting rod 701, the limiting filter pressing plate 702 arranged at the top of the filter recycling bin 7 is embedded in the unit filter frame 3, so as to seal the lower opening of the unit filter frame 3, the unit filter frame 3 and the filter recycling bin 7 are directly connected, the filter pressing plate 702 is prevented from splashing out and leaking, and meanwhile, when the filter conveying tray 503 moves downwards to press the filter material in the unit filter frame 3, the limiting filter pressing plate 702 provides support for the filter cloth 4, so that the extrusion filtering effect is improved, and meanwhile, the filter filtering cloth 4 can be prevented from being pulled and damaged.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 6, fig. 7 and fig. 8, preferably, the device filters the synthetic liquid through the filter cloth 4 in the unit filter frame 3, after the filtration and washing are completed, the filter material is stored and deposited on the upper side of the filter cloth 4, and the unit filter frame 3 is rotationally connected with the annular filter frame 2 through the turnover turntable 302, and the turntable gear 303 is circumferentially arranged on the outer side of the turnover turntable 302, the turnover gear 201 is arranged on the outer side of the turntable gear 303 in a meshed manner, the turnover motor 202 is arranged at the shaft end of the turnover gear 201, so that when the unit filter frame 3 moves on the horizontal recovery groove 9, the turnover motor 202 can drive the unit filter frame 3 to rotate and turn over one hundred and eighty degrees along the turnover turntable gear 201 and the turntable gear 303, so that the filter cloth 4 faces downwards, the filter cloth is convenient to deposit on the horizontal recovery groove 9 of the lower part of the filter cloth 4 naturally, so as to perform automatic unloading, and simultaneously the unit filter frame 3 can keep the turnover state to be continuously moved to the horizontal recovery groove 901, and the cleaning nozzle 902 in the horizontal cleaning groove 901 is provided with the cleaning nozzle 903, so as to spray the unit filter frame 3 upwards, the filter cloth 3 and the filter cloth 3 can be more conveniently and continuously cleaned by the filter frame 3, and the filter cloth can be more conveniently and continuously inserted into the filter frame 3, and the filter frame is more conveniently and fixed in the production state, and the filter frame is more convenient to be cleaned and more convenient to perform the operation and the operation.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 6, fig. 7, fig. 8, fig. 12 and fig. 13, preferably, when the unit filter frame 3 of the device is unloaded after being turned over, the reset motor 802 arranged at the shaft end of the support arm rotating shaft 801 can drive the unloading support arm 8 to turn to a horizontal state along the support arm rotating shaft 801 towards one side of the unit filter frame 3, the inner end of the unloading support rod 804 is provided with the support rod magnet 806, the center of the filter cloth 4 is provided with the center magnet 403, at this time, the support rod magnet 806 and the center magnet 403 are mutually adsorbed, the unloading motor 808 arranged at the shaft end of the unloading cam 807 can drive the unloading cam 807 to rotate so as to drive the unloading support rod 804 to reciprocate along the unloading sleeve 803, and further drive the filter cloth 4 in the corresponding unit filter frame 3 to vibrate through the support rod magnet 806 and the center magnet 403, so that the filter material deposited on the filter cloth 4 can drop completely, and a part of the filter material is prevented from remaining on the filter cloth 4.

When in use, corresponding pipelines of the device are connected, then the traction motor 107 drives the traction chain 105 to move through the traction fluted disc 106, the traction chain 105 arranged on the central conveying frame 1 drives all the unit filter frames 3 to synchronously move around the central conveying frame 1 along the rotary track 102, meanwhile, the traction chain 105 arranged on the side conveying frame 101 drives all the unit filter frames 3 to synchronously move around the side conveying frame 101 along the rotary track 102, when the unit filter frames 3 are conveyed along the long side guide rail 103 on one side of the rotary track 102 on the central conveying frame 1, the filter conveying discs 503 on the side conveying frame 101 which are parallel to the side direction are kept to synchronously move, then the hydraulic telescopic rods 502 drive the filter conveying discs 503 to reduce the height so as to be embedded into the inner sides of the unit filter frames 3, and then the sleeve springs 605 push the ring magnets 603 to move upwards for resetting when the electromagnet 604 is regulated to lose power, when the synchronous adjusting frame 6 moves upwards, all the closed ejector rods 601 are driven to pull out and open the conveying hole sleeves 505 by the conveying hole sleeves 505, then raw material liquid is conveyed into the closed conveying bin 504 through the telescopic sleeves 501 and is uniformly conveyed onto the filter cloth 4 by the conveying hole sleeves 505, raw material synthetic liquid is filtered by the filter cloth 4, meanwhile, the filter recycling bin 7 is lifted by the hydraulic lifting rod 701, the limit filter pressing plate 702 arranged at the top of the filter recycling bin 7 is embedded into the unit filter frame 3, filtrate naturally flows into the filter recycling bin 7 right below the unit filter frame 3 for recycling, after the raw material liquid is continuously conveyed to filter and accumulate a certain filter material in the moving process, the hydraulic telescopic rod 502 continuously pushes the filter conveying disc 503 to move downwards, a certain extrusion is carried out on the filter material in the unit filter frame 3, and the residual liquid in the filter material is further extruded, the dryness of the filter materials is improved, then the hydraulic telescopic rod 502 pulls the filter conveying disc 503 to ascend and reset, the filter recycling bin 7 moves downwards and resets, the filtering work is completed in the moving process, then the unit filter frame 3 moves to the tail end of the long-side guide rail 103 arranged on the rotary rail 102 and then is conveyed to the long-side guide rail 103 on the other side through the arc guide rail 104 on the rotary rail 102, and synchronously moves with the filter conveying disc 503 on the other side conveying frame 101, at the moment, the filter conveying disc 503 on the other side is the same as the action of the other side of the filter recycling bin 7, however, the filter conveying disc 503 on the other side conveys cleaning liquid to clean the filter materials, the washing work is completed in the moving process, then the unlocking electromagnet 205 is electrified to attract the elastic bolt 204 to move backwards to be separated from the locking sliding sleeve 203 so as to unlock the annular filter frame 2, then the overturning motor 202 drives the unit filter frame 3 to rotate and overturn for one hundred eighty degrees along the overturning turntable 302 through the overturning gear 201 and the turntable gear 303, so that the filter cloth 4 is downwards and directly below, meanwhile, the reset motor 802 arranged at the shaft end of the support arm rotating shaft 801 drives the unloading ejector rod 804 to overturn to one side of the unit filter frame 3 to a horizontal state along the support arm rotating shaft 801, the unloading motor 808 drives the unloading cam 807 to rotate so as to drive the unloading ejector rod 804 to reciprocate along the unloading sleeve 803, further, the ejector rod magnet 806 and the center magnet 403 drive the filter cloth 4 in the corresponding unit filter frame 3 to vibrate, the filter material deposited on the filter cloth 4 naturally falls into the horizontal recovery groove 9 below, meanwhile, the unit filter frame 3 keeps the overturning state and continuously moves to the horizontal cleaning groove 901, the cleaning nozzle 902 in the horizontal cleaning groove 901 sprays water upwards through the cleaning nozzle 903 to flush the unit filter frame 3 and the filter cloth 4 therein, then the turnover motor 202 drives the unit filter frame 3 to rotate and reset along the turnover turntable 302 through the turnover gear 201 and the turntable gear 303, the unlocking electromagnet 205 moves forward to be embedded into the locking sliding sleeve 203 again to lock the annular filter frame 2, and then the unit filter frame 3 continues to circularly move to the filter conveying disc 503 for conveying the synthetic liquid to perform the filtering work, and the unit filter frame 3 continuously circularly performs the filtering, washing, unloading and cleaning work.

A method for using a continuous filtering and washing device for DATA synthesis production comprises the following steps:

when the traction chain 105 drives all the unit conveying frames 5 to synchronously move around the side conveying frames 101 to one side along the revolving track 102, the unit filtering frames 3 and the filtering conveying disks 503 on the side conveying frames 101 are kept to synchronously move, at the moment, the unit filtering frames 3 and the filtering conveying disks 503 are kept to synchronously move, the filtering conveying disks 503 are kept right above the unit filtering frames 3, then the hydraulic telescopic rods 502 drive the filtering conveying disks 503 to be embedded into the inner sides of the unit filtering frames 3 in a lowering mode, raw material liquid is conveyed into the unit filtering frames 3 through the telescopic sleeves 501, filtering is carried out through filtering filter cloth 4 in the unit filtering frames 3, filtrate naturally flows into a filtering recovery barrel 7 under the unit filtering frames 3, filtering conveying can be stopped after the raw material liquid is continuously conveyed in the moving process to filter and accumulate a certain amount of filtering material, then the hydraulic telescopic rods 502 drive the filtering conveying disks 503 to synchronously move to the other side right above the unit filtering frames 3, the filtering conveying disks 503 on the other side of the unit filtering frames 101 are kept to be synchronously moved, the hydraulic telescopic rods drive the filtering conveying disks 503 to be embedded into the inner sides of the unit filtering frames 3 in a lowering mode, filtering cloth 4 is continuously conveyed into the filter cloth 3 through the telescopic sleeves 501, and the filtering recovery barrel is continuously moved around the filter cloth 3 after the filter cloth is continuously conveyed to clean the filter cloth 3, and the filter cloth is continuously washed in the filter material is continuously in the filter process, and the filter material is continuously washed by the filter material is continuously conveyed through the telescopic rods after the filter cloth is continuously and washed by the filter cloth 3.

According to the DATA synthesis production continuous filtering and washing device, the central conveying frame 1 and the side conveying frames 101 on the two sides of the central conveying frame are used for respectively and circularly conveying the unit filtering frames 3 and the filtering conveying discs 503, the unit filtering frames 3 and the filtering conveying discs 503 on one side of the unit filtering frames 101 keep synchronous movement in the process of conveying along the central conveying frame 1 in a surrounding mode, the filtering conveying discs 503 descend to seal the filtering conveying discs 503 when moving synchronously with the unit filtering frames 3, raw material liquid is conveyed into the unit filtering frames 3, filtering is carried out through the filtering filter cloth 4 in the unit filtering discs, filtering conveying is stopped after certain solid raw materials are accumulated in the moving conveying process, the unit filtering frames 3 and the filtering conveying discs 503 on the other side of the unit filtering frames 101 keep synchronous movement, the side filtering conveying discs 503 convey cleaning liquid to the unit filtering frames 3, and the filtering intercepted solid raw materials on the filtering filter cloth 4 are washed, and therefore continuous filtering and washing work is achieved in sequence in the process of conveying the unit filtering frames 3 in the surrounding mode, and the use is flexible and convenient.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of the invention (including the claims) is limited to these examples; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the invention, the steps may be implemented in any order and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

The present invention is intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, improvement, etc. of the present invention should be included in the scope of the present invention.

Claims (7)

1. The utility model provides a DATA synthetic production continuous filtration washing device, including center carriage (1) and center carriage (1) bilateral symmetry parallel arrangement's side carriage (101), center carriage (1) and side carriage (101) centre all encircle and are provided with gyration track (102), the centre of gyration track (102) is provided with traction chain (105), its characterized in that still includes:

the unit filter frames (3) are arranged around the outer sides of the central conveying frames (1), and all the unit filter frames (3) are driven by the traction chain (105) to synchronously move around the central conveying frames (1) along the revolving track (102);

a unit filter frame (3), wherein a filter cloth (4) is arranged on the inner side of the unit filter frame (3);

the unit conveying frames (5) are arranged around the outer sides of the side conveying frames (101) in a surrounding mode, all the unit conveying frames (5) are driven by a traction chain (105) to synchronously move around the side conveying frames (101) along a revolving track (102), and a telescopic sleeve (501) is arranged in the middle of the unit conveying frames (5);

the filtering and conveying disc (503) is connected to the lower end of the telescopic tube (501), the filtering and conveying disc (503) and the unit filtering frame (3) are mutually matched in size, a hydraulic telescopic rod (502) is arranged between the filtering and conveying disc (503) and the unit conveying frame (5), a closed conveying bin (504) is arranged in the filtering and conveying disc (503), a plurality of conveying hole sleeves (505) are uniformly arranged at the bottom of the closed conveying bin (504) in a penetrating mode, the closed conveying bin (504) is mutually communicated with the telescopic tube (501), and a filtering and recycling bin (7) is arranged under the filtering and conveying disc (503) at intervals;

the unit filter frames (3) and the filter conveying discs (503) are arranged correspondingly, and when the unit filter frames (3) move around the central conveying frame (1) to be close to the side conveying frames (101), the unit filter frames are positioned between the filter conveying discs (503) and the filter recycling bin (7) and keep synchronous movement with the filter conveying discs (503);

the device is characterized in that a discharge support arm (8) is arranged in the middle of the outer side of the unit filter frame (3), a support arm rotating shaft (801) is arranged at the bottom end of the discharge support arm (8), the discharge support arm (8) is rotationally connected with the unit filter frame (3) through the support arm rotating shaft (801), a discharge sleeve (803) is arranged at the top end of the discharge support arm (8), a discharge ejector rod (804) is arranged in the inner side of the discharge sleeve (803) in a nested sliding manner, an ejector rod spring (805) is arranged in the middle of the discharge ejector rod (804), a discharge cam (807) is attached to the outer end of the discharge ejector rod (804), the discharge cam (807) drives the discharge ejector rod (804) to reciprocate along the discharge sleeve (803) when the discharge support arm (8) rotates to the unit filter frame (3), and the discharge ejector rod (804) is positioned above the center of the filter cloth (4) when the discharge support arm rotating shaft (801) is turned to a horizontal state;

the inner end of the discharging ejector rod (804) is provided with an ejector rod magnet (806), the center of the filter cloth (4) is provided with a center magnet (403), and the ejector rod magnet (806) and the center magnet (403) are mutually adsorbed when the discharging support arm (8) is turned to a horizontal state along the support arm rotating shaft (801) to one side of the unit filter frame (3);

the left side and the right side of the center conveying frame (1) are respectively provided with a horizontal recovery tank (9) and a horizontal cleaning tank (901) in parallel, the horizontal recovery tank (9) and the horizontal cleaning tank (901) are positioned at the front side of the side conveying frame (101), the middle of the horizontal cleaning tank (901) is horizontally provided with a cleaning spray pipe (902), and a plurality of cleaning spray heads (903) are uniformly distributed in the middle of the cleaning spray pipe (902);

the top ends of the telescopic sleeves (501) arranged on the side edge conveying frames (101) on the two sides are respectively connected with a raw material conveying hose and a washing conveying hose, and the bottom ends of the filtering recovery barrels (7) arranged on the side edge conveying frames (101) on the two sides are respectively connected with a filtrate recovery hose and a washing recovery hose;

the unit filter frame (3) is rotationally connected with the annular filter frame (2) through a turnover turntable (302), a turntable gear (303) is arranged on the outer side of the turnover turntable (302) in a surrounding mode, a turnover gear (201) is arranged on the outer side of the turntable gear (303) in a meshed mode, and a turnover motor (202) is arranged at the shaft end of the turnover gear (201).

2. Continuous filtering and washing device for DATA synthesis production according to claim 1, characterized in that a filter cloth supporting frame (401) is fixedly connected around the outer side edge of the filter cloth (4), the filter cloth (4) is in nested sliding connection with the unit filter frame (3) through the filter cloth supporting frame (401), a limit supporting ring (301) is arranged around the bottom of the unit filter frame (3), a supporting spring (402) is arranged between the filter cloth supporting frame (401) and the limit supporting ring (301), and the bottom plane of the filter conveying disc (503) is parallel to the filter cloth (4).

3. The continuous filtering and washing device for DATA synthesis production according to claim 1, wherein a synchronous adjusting frame (6) is arranged on the inner side of the closed conveying bin (504), a plurality of closed ejector rods (601) are connected and arranged on the lower side of the synchronous adjusting frame (6), the closed ejector rods (601) are arranged in one-to-one correspondence with the conveying hole sleeves (505) and are mutually matched in size, a traction guide rod (602) is arranged above the synchronous adjusting frame (6), a guide sliding sleeve (506) is arranged at the top of the filtering conveying disc (503), a ring magnet (603) is arranged at the top of the traction guide rod (602), the ring magnet (603) is arranged on the outer side of the telescopic sleeve (501) in a nested mode, an adjusting electromagnet (604) is arranged at the bottom end of the telescopic sleeve (501) in a surrounding mode, and a sleeve spring (605) is arranged between the adjusting electromagnet (604) and the ring magnet (603).

4. A continuous filtration and washing device for DATA synthesis production according to claim 3, wherein the synchronous adjusting frame (6) is connected with the guiding sliding sleeve (506) in an up-down sliding way through the traction guiding rod (602), when the synchronous adjusting frame (6) moves upwards, all the closed ejector rods (601) are driven to be pulled out of the conveying hole sleeve (505) to open the conveying hole sleeve (505), when the synchronous adjusting frame (6) moves downwards, all the closed ejector rods (601) are driven to be inserted into the conveying hole sleeve (505) to close the conveying hole sleeve (505), and at the moment, the bottom end plane of the closed ejector rods (601) and the bottom end plane of the filtration conveying disc (503) are located on the same plane.

5. The continuous filtering and washing device for DATA synthesis production according to claim 1, wherein a limiting filter press plate (702) is arranged at the top end of the filtering and recycling bin (7), a plurality of filter press holes (703) are uniformly formed in the middle of the limiting filter press plate (702) in a penetrating mode, the limiting filter press plate (702) and the unit filter frames (3) are mutually matched in size, the top surface of the limiting filter press plate (702) and the filtering and recycling bin (7) are mutually parallel, and a hydraulic lifting rod (701) is connected to the outer side of the filtering and recycling bin (7).

6. Continuous filtering and washing device for the synthesis production of DATA according to claim 1, characterized in that an annular filtering frame (2) is nested outside the unit filtering frame (3), a turnover turntable (302) is arranged between the unit filtering frame (3) and the annular filtering frame (2), the unit filtering frame (3) is rotatably connected with the annular filtering frame (2) through the turnover turntable (302), a locking plug bush (304) is arranged in the middle of the outer side wall of the unit filtering frame (3), a locking plug bush (203) is arranged in the middle of the inner wall of the annular filtering frame (2), an elastic plug bolt (204) is arranged in the inner side nested sliding of the locking plug bush (203), the elastic plug bolt (204) and the locking plug bush (304) are mutually correspondingly arranged and are mutually matched in size, an unlocking electromagnet (205) is arranged at the rear side of the elastic plug bolt (204), and when the unit filtering frame (3) is in a horizontal state, the elastic plug bolt (204) is embedded into the locking plug bush (304) to lock.

7. Use of a continuous filtration and washing device produced by DATA synthesis according to any one of claims 1 to 6, characterized in that it comprises the following steps:

when all unit conveying frames (5) are driven by a traction chain (105) to synchronously move to a side conveying frame (101) on one side around the side conveying frame (101) along a rotary track (102), the unit conveying frames (3) and the filtering conveying discs (503) are kept to synchronously move, the filtering conveying discs (503) are kept right above the unit filtering frames (3), then a hydraulic telescopic rod (502) drives the filtering conveying discs (503) to be embedded into the inner side of the unit filtering frames (3) in a lowering mode, raw material liquid is conveyed to the unit filtering frames (3) through a telescopic sleeve (501), filtering is carried out through a filtering filter cloth (4) in the unit filtering frames (3), the filtrate naturally flows into a filtering recovery barrel (7) under the unit filtering frames (3) to be recovered, after a certain amount of filtering material liquid is continuously conveyed in the moving process, filtering conveying materials can be stopped, then the hydraulic telescopic rod (502) pulls the filtering conveying discs (503) to rise, then the other side of the filtering conveying discs (503) is reset to be embedded into the filtering frames (3) around the center of the unit filtering frames (3), the other side of the filtering frames (3) are driven to be embedded into the filtering frames (3) in a lowering mode, the other side of the filtering frames (101) in a lowering mode, the filtering liquid is conveyed to be synchronously, and the filtering materials are conveyed to be filtered by the filtering materials, and the filtering materials are conveyed to be accumulated in the filtering materials, and the filtering materials are continuously accumulated, and the filtering materials are accumulated, and the filtering and are conveyed. Then carry washing liquid to unit filter frame (3) through telescopic tube (501), filter the solid raw materials of interception on filtering filter cloth (4) and wash, the filtrate after wasing flows into unit filter frame (3) under and filters recovery bucket (7) and retrieve, after the in-process that removes constantly carries washing liquid to accomplishing the washing to the filter material, hydraulic telescoping rod (502) traction filtration delivery disc (503) rises and resets, unit filter frame (3) are encircleing the in-process of carrying and are continuously circulated and accomplish continuous filtration and washing work.