Disclosure of Invention
The invention aims to provide a swinging type sludge drying device with an aeration function, which overcomes the defects in the prior art.
In order to achieve the purpose, the invention provides the following technical scheme: a swing type sludge drying device with an aeration function comprises a support frame, a support plate, a support seat, a filtering screen frame, a screen plate, a power motor, a rotary vibration block, a first sliding frame, a first spring, a fifth cylinder, a push plate, an aeration mechanism and a separation mechanism, wherein the support plate is fixed at the top of the support frame, the support seat is fixed on the support plate, the fifth cylinder is installed at the top of the support frame, the telescopic rod of the fifth cylinder is connected with the push plate, the filtering screen frame is installed on the support seat, the screen plate is connected in the filtering screen frame in a sliding mode, the two first sliding frames are connected in the support plate in a sliding mode, a first spring is connected between each first sliding frame and the support plate, the two first sliding frames are connected with the filtering screen frame, the power motor is installed at the top of the first sliding frame at the front end, and the rotary vibration block is connected on an output shaft of the power motor, when power motor drives rotatory vibrations piece and rotates, first carriage can be along with rotatory vibrations piece vibrations from top to bottom to drive and filter the reel vibrations from top to bottom, aeration mechanism installs in support frame and filtration reel, and aeration mechanism is used for preventing sludge sedimentation, and separating mechanism installs in the top left side of support frame, and separating mechanism is used for separating sewage and silt. (ii) a The sieve can carry out filtration treatment to mud, with the inside debris filtering of mud, then collect the processing with the sewage and the silt separation in the mud again, when the debris in the mud is kept away from in the sieve, can start power motor and drive rotatory vibrations piece and rotate to drive first carriage and the slight vibrations of first spring, make the sieve can slightly shake, accelerate mud flow velocity, also avoid the debris in the mud to block up the sieve simultaneously.
Preferably, the sieve plate in the filtering sieve frame can be detached; the sieve can be dismantled, and possess the sieve of a plurality of through-hole variation in size, can separate out the debris in the mud, also be convenient for simultaneously change the sieve.
Preferably, the aeration mechanism comprises an air pump, a first air duct, a second air cylinder, a second air duct, a first fixing frame, a connecting plate, a sliding air guide rod and a sliding baffle plate, wherein the air pump is installed on the front side of the top of the supporting frame, the first air duct is connected to the air outlet of the air pump, the first fixing frame is fixed to the front end of the left side wall of the supporting plate, the second air cylinder is installed on the top of the first fixing frame, the second air duct is installed on the filtering screen frame, the sliding air guide rod is connected to the second air duct in a sliding mode, the front end of the sliding air guide rod is connected with the first air duct, the connecting plate is fixed to the front end of the sliding air guide rod, the telescopic rod of the second air cylinder is connected to the connecting plate, and the sliding baffle plate is connected to the left end of the bottom of the filtering screen frame in a sliding mode; the aeration avoids sludge deposition, can also accelerate the speed that microorganism in the mud decomposes organic matter simultaneously, carries out preliminary treatment to sewage, and the gas outlet size on second air duct and the slip air guide rod equals, withdraws the slip air guide rod earlier before stopping the aeration and can avoid mud to flow backward.
Preferably, the separation mechanism comprises a sewage collection frame, a water outlet, four cylinders, a third sliding frame, a filtrate plate, a filtrate frame and a liquid outlet frame, the sewage collection frame is installed on the left side of the top of the support frame, the water outlet is formed in the left side of the sewage collection frame, the two four cylinders are arranged on the left side of the top of the support frame and are respectively located on the front side and the rear side of the sewage collection frame, the third sliding frame is connected to the sewage collection frame in a sliding mode, telescopic rods of the two four cylinders are connected to the third sliding frame together, the filtrate plate is installed on the top of the third sliding frame, the liquid outlet frame is installed on the top of the sewage collection frame, and the filtrate frame is installed in the liquid outlet frame; and (3) separating the aerated sludge, enabling the sewage to flow into a sewage collection frame after passing through a filtrate plate and a filtrate frame which are similar to gauze, remaining sludge blocks between the filtrate plate and the filtrate frame, and clearing the sludge blocks after separation.
Preferably, the waste material collecting device further comprises a waste material collecting inclined plate, a first air cylinder, a sliding cleaning plate, a sliding material blocking frame, sliding rods and a second spring, wherein the waste material collecting inclined plate is fixed on the rear side of the filtering screen frame; debris at the sieve top in the filtration reel can be released to the right side by the slip clearance board, can make the slip fender work or material rest rise automatically when the slip clearance board moves to the right side to in pushing debris into the garbage collection swash plate.
Preferably, the air guide device further comprises a third spring, and the third spring is connected between the sliding air guide rod and the second air guide pipe; the third spring can provide forward elasticity for the slip air guide rod when No. two cylinders pull the slip air guide rod forward and reset.
Preferably, the sewage treatment device further comprises a second fixing frame, a third cylinder, a second sliding frame and a pressing plate, wherein the second fixing frame is fixedly connected between the filtering screen frame and the sewage collecting frame together, the third cylinder is mounted at the top of the second fixing frame, the second sliding frame is connected in the second fixing frame in a sliding manner, the right end of the second sliding frame is connected with a sliding baffle, a telescopic rod of the third cylinder is connected with the second sliding frame, and the pressing plate is fixed on the left side of the bottom of the second sliding frame; when driving the sliding baffle and descend, the second carriage can drive the clamp plate and descend, and the clamp plate can be with the moisture in the mud in filtrate board and the filtrating frame express out fast, and a mud piece is finally extruded, makes things convenient for follow-up collection processing.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of a filter screen frame according to the present invention.
Fig. 3 is a schematic perspective view of the slide bar according to the present invention.
Fig. 4 is a schematic cross-sectional view of the filtering screen frame according to the present invention.
Fig. 5 is a schematic perspective view of the aeration mechanism of the present invention.
Fig. 6 is an exploded view of the sliding air guide bar according to the present invention.
Fig. 7 is a schematic perspective view of the sliding shutter according to the present invention.
FIG. 8 is a schematic perspective view of a sewage collecting frame according to the present invention.
Fig. 9 is an exploded view of the third carriage of the present invention.
In the above drawings: 1: support frame, 101: support plate, 102: supporting seat, 2: filter screen frame, 201: screen deck, 202: garbage collection swash plate, 3: power motor, 301: rotating the seismic mass, 302: first carriage, 303: first spring, 4: cylinder number one, 401: sliding cleaning plate, 402: slip fender work or material rest, 403: slide bar, 404: second spring, 5: air pump, 501: first airway tube, 502: cylinder number two, 503: second airway tube, 504: first mount, 505: connecting plate, 506: sliding air guide rod, 507: third spring, 6: second mount, 601: cylinder number three, 602: slide damper, 603: second carriage, 604: pressing plate, 7: sewage collection frame, 701: drain port, 702: cylinder No. four, 703: third carriage, 704: filtrate plate, 705: filtrate box, 706: liquid outlet frame, 8: cylinder No. five, 801: a push plate.
Detailed Description
The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.
Example 1
A swing type sludge drying device with an aeration function is disclosed, as shown in figures 1-9, and comprises a support frame 1, a support plate 101, a support seat 102, a filtering screen frame 2, a screen plate 201, a power motor 3, a rotary vibration block 301, a first sliding frame 302, a first spring 303, a No. five cylinder 8, a push plate 801, an aeration mechanism and a separation mechanism, wherein two support columns are arranged on the right side of the support frame 1, the support plate 101 is fixed on the right side of the top of the support frame 1, two sliding holes are formed in the support plate 101, the support seat 102 is fixed in the middle of the top wall of the support plate 101, the upper surface of the support seat 102 is arc-shaped, the filtering screen frame is installed on the support seat, the filtering screen frame 2 is connected with the screen plate 201 in a sliding manner, a plurality of filtering holes are formed in the screen plate 201, the support plate 101 is connected with the two first sliding frames 302 in a sliding manner, a first spring 303 is connected between each first sliding frame 302 and the support plate 101, two first carriage 302 all are connected with filtration reel 2, a motor power 3 is installed at the first carriage 302 top of front end, be connected with a rotatory vibrations piece 301 on motor power 3's the output shaft, when motor power 3 drives rotatory vibrations piece 301 and rotates, first carriage 302 can vibrate from top to bottom along with rotatory vibrations piece 301, thereby it shakes from top to bottom to drive filtration reel 2, a No. five cylinder 8 is installed in the left place ahead in top of support frame 1, No. five cylinder 8's telescopic link sets up towards the back, No. five cylinder 8's telescopic link is connected with push pedal 801, No. five cylinder 8 is used for promoting push pedal 801 backward, aeration mechanism installs in support frame 1 and filtration reel 2, aeration mechanism is used for preventing sludge settling, separating mechanism installs the top left side at support frame 1, separating mechanism is used for separating sewage and silt.
When the machine is used for treating sludge, firstly, the sludge is poured into the filtering screen frame 2, the sludge can fall from gaps in the screen plate 201 in the filtering screen frame 2, when the sludge and impurities are screened, the power motor 3 is started, the power motor 3 drives the rotary vibrating block 301 to rotate, the rotary vibrating block 301 rotates to enable the first sliding frame 302 and the power motor 3 to vibrate up and down, the first spring 303 vibrates up and down along with the first spring, the filtering screen frame 2 and the screen plate 201 are driven to vibrate, screen plate 201 vibrates to avoid screen mesh blockage, after the sludge in the filtering screen frame 2 is filtered from the screen plate 201, the aeration mechanism is started, the aeration mechanism can avoid the sludge passing through the screen plate 201 from being deposited in the filtering screen frame 2, meanwhile, the moisture in the sludge can be aerated, after the aeration is completed, a baffle on the left side of the bottom of the filtering screen frame 2 is opened, then the sludge can flow into the separation mechanism from the left side of the filtering screen frame 2, the separating mechanism can discharge most of moisture in the sludge, the discharged moisture can be recycled, and the residual sludge block can be pushed out by the push plate 801 at the rear side of the fifth cylinder 8, so that the function of drying the sludge is realized.
Example 2
On the basis of embodiment 1, the screen plate 201 in the filtering screen frame 2 can be detached.
When the sieve plate 201 is damaged and needs to be replaced, the sieve plate 201 can be taken out from the front end of the filtering sieve frame 2 for replacement, and the sieve plate 201 with smaller through holes can also be replaced to screen out impurities in the sludge.
As shown in fig. 5-7, the aeration mechanism includes an air pump 5, a first air duct 501, a second air duct 502, a second air duct 503, a first fixing frame 504, a connecting plate 505, a sliding air guide rod 506 and a sliding baffle 602, the air pump 5 is installed on the front side of the top of the support frame 1, the first air duct 501 is connected to the air outlet of the air pump 5, the first air duct 501 is a flexible tube, the first fixing frame 504 is fixed on the front end of the left side wall of the support plate 101, the first fixing frame 504 is L-shaped, the second air duct 502 is installed on the top of the first fixing frame 504, the telescopic rod of the second air duct 502 is arranged towards the back, the filter screen frame 2 is provided with the second air duct 503, the second air duct 503 is a rigid tube, the second air duct 503 is provided with a plurality of air outlets, the sliding air guide rod 506 is slidably connected to the second air duct 503, the sliding air guide rod 506 is provided with a plurality of air outlets, the size of the air outlet on the second air duct 503 is equal to that of the air outlet on the sliding air guide rod 506, the front end of the sliding air guide rod 506 is connected with the first air duct 501, air in the air pump 5 enters the sliding air guide rod 506 through the first air duct 501, the front end of the sliding air guide rod 506 is fixed with a connecting plate 505, the telescopic rod of the second air cylinder 502 is connected to the connecting plate 505, the second air cylinder 502 controls the sliding air guide rod 506 to move back and forth through the connecting plate 505, the left end of the bottom of the filter screen frame 2 is connected with a sliding baffle 602 in a sliding mode, and the sliding baffle 602 is used for blocking sludge.
After impurities in the sludge are filtered, the filtered sludge is left at the bottom of the filtering screen frame 2, the sludge is blocked by the sliding baffle 602 on the left side of the bottom of the filtering screen frame 2, the air pump 5 is started at the moment, the air pump 5 inputs compressed air into the sliding air guide rod 506 through the first air guide pipe 501, the air outlet on the sliding air guide rod 506 is also blocked by the second air guide pipe 503 at the moment, the air cannot pass through the air outlet, the second air cylinder 502 is started, the telescopic rod of the second air cylinder 502 pushes the sliding air guide rod 506 backwards, when the air outlet on the sliding air guide rod 506 is overlapped with the through hole on the second air guide pipe 503, the second air cylinder 502 is closed, the air in the air pump 5 is discharged into the sludge through the air outlets of the first air guide pipe 501 and the sliding air guide rod 506, the oxidative decomposition of organic matters in the sewage is accelerated while the sludge deposition is avoided, and the aeration is completed, the second cylinder 502 is started first, the telescopic rod of the second cylinder 502 pulls the sliding air guide rod 506 back to the original position, then the second cylinder 502 is closed, the sliding air guide rod 506 blocks the air outlet on the second air guide pipe 503, then the air pump 5 is closed, then the sliding baffle 602 is pulled out, sludge flows into the separating mechanism leftwards, and the functions of avoiding sludge deposition and performing primary treatment on sewage are achieved.
As shown in fig. 5 and fig. 8-9, the separating mechanism includes a sewage collecting frame 7, a water outlet 701, a fourth cylinder 702, a third sliding frame 703, a filtrate plate 704, a filtrate frame 705 and a liquid outlet frame 706, the left side of the top of the support frame 1 is provided with the sewage collecting frame 7, the sewage collecting frame 7 is used for receiving sewage discharged from sludge, the left side of the sewage collecting frame 7 is provided with the water outlet 701, the water outlet 701 can be connected with a water pipe to collect sewage conveniently, the left side of the top of the support frame 1 is provided with two fourth cylinders 702, telescopic rods of the fourth cylinders 702 are arranged upwards, the two fourth cylinders 702 are respectively located at the front side and the rear side of the sewage collecting frame 7, the sewage collecting frame 7 is connected with the third sliding frame in a sliding manner, a horizontal plate of the third sliding frame 703 is provided with a plurality of through holes, the telescopic rods 703 of the two fourth cylinders 702 are connected to the third sliding frame 703 together, the fourth cylinders 702 can control the third sliding frame 703 to move up and down, a filtrate plate 704 is mounted at the top of the third sliding frame 703, the filtrate plate 704 can enable water in sludge to pass through but can block the sludge, a liquid outlet frame 706 is mounted at the top of the sewage collection frame 7, a plurality of through holes are formed in the four walls of the liquid outlet frame 706, the through holes in the third sliding frame 703 and the liquid outlet frame 706 are used for enabling sewage to pass through, a filtrate frame 705 is mounted in the liquid outlet frame 706, the filtrate frame 705 and the filtrate plate 704 jointly form a rectangular groove, and the filtrate plate 704 is in sliding connection with the filtrate frame 705.
After the aeration treatment of the sludge is finished, the sliding baffle 602 slides downwards, the sludge in the filtering screen frame 2 flows into the filtrate plate 704 and the filtrate frame 705 at the top of the sewage collecting frame 7, the filtrate plate 704 and the filtrate frame 705 are made of materials through which liquid can pass, sewage in the sludge can permeate from the filtrate plate 704 and the filtrate frame 705, then the sewage flows into the sewage collecting frame 7 through the through holes on the third sliding frame 703 or the liquid outlet frame 706, the sewage in the sewage collecting frame 7 flows out along the water outlet 701, when the sewage needs to be collected, a water pipe can be connected to the water outlet 701 to collect and treat the sewage, after no sewage flows out from the filtrate plate 704 and the filtrate frame 705, the two fourth air cylinders 702 are started, the telescopic rods of the two fourth air cylinders 702 upwards support the third sliding frame 703, the third sliding frame 703 drives the filtrate plate 704 and the residual sludge blocks to upwards rise, when the sludge block is equal to the fifth cylinder 8 in height, the two fourth cylinders 702 are closed, the fifth cylinder 8 is started simultaneously, the fifth cylinder 8 can push the sludge block backwards, after the fifth cylinder 8 is reset, the two fourth cylinders 702 are started, the telescopic rods of the two fourth cylinders 702 pull the third sliding frame 703 downwards, the third sliding frame 703 drives the filtrate plate 704 to move downwards for resetting, and the functions of separating sewage and sludge and respectively recovering the sewage and the sludge are realized.
Example 3
On the basis of the embodiment 2, as shown in fig. 2-3, the filtering screen frame further comprises a waste collecting inclined plate 202, a first air cylinder 4, a sliding cleaning plate 401, a sliding material retaining frame 402, a sliding rod 403 and a second spring 404, wherein the waste collecting inclined plate 202 is fixed on the rear side of the filtering screen frame 2, the waste collecting inclined plate 202 is an arc-shaped plate, the waste collecting inclined plate 202 slightly inclines towards the right, the first air cylinder 4 is installed at the front end of the supporting plate 101, the telescopic rod of the first air cylinder 4 is arranged towards the rear, the sliding cleaning plate 401 is slidably connected in the filtering screen frame 2, the telescopic rod of the first air cylinder 4 is connected with the sliding cleaning plate 401, the first air cylinder 4 is used for controlling the sliding cleaning plate 401 to slide back and forth, the lower half part of the rear side surface of the sliding cleaning plate 401 is an inclined surface, the sliding cleaning plate 401 slides in the filtering screen frame 2 to push out the sundries on the top of the screen plate 201 backwards, the sliding material retaining frame 402 is slidably connected with the rear side of the filtering screen frame 2, the slip keeps off work or material rest 402 left and right sides both ends who is equipped with cylindrical pole, and the rear side bilateral symmetry's of filtering reel 2 sliding connection has two slide bars 403, and slide bar 403 presses and keeps off work or material rest 402 top in the slip, all is connected with a second spring 404 between every slide bar 403 and the filtering reel 2, and second spring 404 provides decurrent elasticity for slide bar 403.
After the sludge is filtered, a lot of impurities are left on the top of the sieve plate 201, at this time, the first air cylinder 4 is started, the telescopic rod of the first air cylinder 4 pushes the sliding cleaning plate 401 backwards, the sliding cleaning plate 401 pushes the impurities on the top of the sieve plate 201 backwards, when the sliding cleaning plate 401 is in contact with the sliding material blocking frame 402 on the rear side, two sides of the sliding material blocking frame 402 on the rear side can slide upwards along the inclined plane on the rear side of the sliding cleaning plate 401, when the sliding material blocking frame 402 slides upwards, the sliding material blocking frame 402 can drive the sliding rod 403 to slide upwards and compress the second spring 404, the sliding cleaning plate 401 pushes the impurities on the top of the sieve plate 201 out from the rear side, after the cleaning is finished, the telescopic rod of the first air rod pulls back the sliding cleaning plate 401 forwards, when the sliding cleaning plate 401 slides forwards, the sliding material blocking frame 402 can slide downwards along the inclined plane on the rear side of the sliding cleaning plate 401 under the action of the second spring 404, after the sliding cleaning plate 401 is reset, the first air cylinder 4 is closed, and the function of automatically cleaning sundries on the top of the filter plate is realized.
As shown in fig. 6, a third spring 507 is further included, and the third spring 507 is connected between the sliding air guide rod 506 and the second air guide tube 503.
During aeration, the second cylinder 502 pushes the sliding air guide rod 506 to slide backwards, meanwhile, the third spring 507 is compressed, and after aeration is completed, the third spring 507 assists the second cylinder 502 to enable the sliding air guide rod 506 to slide forwards and reset, so that the function of assisting the sliding air guide rod 506 to slide forwards and reset is realized.
As shown in fig. 7, the device further comprises a second fixing frame 6, a third cylinder 601, a second sliding frame 603 and a pressing plate 604, wherein the second fixing frame 6 is fixedly connected between the filtering screen frame 2 and the sewage collecting frame 7, the second fixing frame 6 is L-shaped, and the sliding groove is arranged at one end of the second fixing frame 6 close to the filtering screen frame 2, the third cylinder 601 is arranged at the top of the second fixing frame 6, the telescopic rod of the third cylinder 601 is arranged downwards, the second sliding frame 603 is slidably connected in the second fixing frame 6, the right end of the second sliding frame 603 is connected with the sliding baffle 602, the right end of the second sliding frame 603 is U-shaped, the second sliding frame 603 is also slidably connected with the filtering screen frame 2, the telescopic rod of the third cylinder 601 is connected with the second sliding frame 603, the third cylinder 601 is used for controlling the second sliding frame 603 to slide up and down, the left side of the bottom of the second sliding frame 603 is fixedly provided with the pressing plate 604, and the pressing plate 604 is provided with a plurality of circular through holes.
After the aeration is finished, the third air cylinder 601 is started, the telescopic shaft of the third air cylinder 601 pushes the second sliding frame 603 downwards, the second sliding frame 603 drives the sliding baffle 602 and the pressing plate 604 to slide downwards while descending, the sludge in the filtering screen frame 2 flows out from the left side when descending, after all the sludge flows out, the telescopic rod of the second air cylinder 502 continues to drive the second sliding frame 603 to descend, the second sliding frame 603 descends to drive the sliding baffle 602 and the pressing plate 604 to descend, the bottom of the pressing plate 604 is provided with a filtering plate material with the same effect as the filtering plate 704, as the pressing plate 604 is just positioned at the top of the filtering plate 704, when the pressing plate 604 descends and enters the filtering frame 705, the pressing plate 604 contacts with the sludge, as the pressing plate 604 gradually moves downwards along the filtering frame, a large amount of sewage in the filtering frame 705 and the sludge in the filtering plate 704 is pressed out, the outflow sewage flows into the sewage collection frame 7 at the bottom through the third sliding frame 703 and the outflow frame 706, and the sludge between the filtrate frame 705 and the filtrate plate 704 is gradually pressed into a rectangular block, when most of the sewage in the sludge is discharged, the third cylinder 601 runs reversely, the telescopic rod of the third cylinder 601 drives the second sliding frame 603, the sliding baffle 602 and the pressing plate 604 to slide upwards for resetting, and when the sliding baffle 602 resets, the third cylinder 601 is closed, so that the functions of pressing out the moisture in the sludge and pressing and forming the sludge are realized.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.