CN117945623A - Disc type sludge heat exchange device - Google Patents

Abstract

The invention relates to the technical field of sludge treatment, and discloses a disc type sludge heat exchange device, which comprises a machine body, a base fixed below the machine body, and further comprises: the water collecting part is arranged on one surface of the machine body away from the top cover; the linkage part movably penetrates through the base and is positioned in the water collecting part; the cleaning part is arranged in the machine body; the water spraying part is connected with the water collecting part and penetrates through the top cover to be communicated with the machine body. The invention utilizes the water collecting part to automatically regulate the discharge flow direction of condensed water, collects and stores the condensed water, and enables the water spraying part to spray the water collected by the collecting part into the machine body to dip and wash the sludge adhered to the outer side of the hollow disc, thereby increasing the usability and the utilization rate of the condensed water.

Description

Disc type sludge heat exchange device

Technical Field

The invention relates to the technical field of sludge treatment, in particular to a disc type sludge heat exchange device.

Background

In the field of sludge treatment, it is generally necessary to perform heat exchange treatment on sludge in order to improve treatment efficiency and quality of sludge. In the heat exchange process, the water in the sludge is heated and evaporated, so that the purposes of reducing the volume of the sludge, killing pathogens and increasing the stability of the sludge are achieved. However, the conventional sludge heat exchange apparatus has some problems in the process.

For example, in operation, steam is usually required to flow into an interlayer of the machine body to heat and preserve heat in the machine body, and by flowing steam into the hollow shaft, the heat conduction of the steam and the hollow disc is utilized to heat the sludge injected into the machine body, so that the sludge absorbs heat to evaporate water in the sludge, and the hollow disc drives the scraping plate to rotate to scrape the sludge adhered to the inner wall of the machine body, but the sludge adhered to the outer side of the hollow disc cannot be treated.

Disclosure of Invention

The invention provides a disc type sludge heat exchange device which is convenient for cleaning sludge adhered to the outer side of a hollow disc.

In order to solve the technical problems, the technical scheme of the invention is as follows:

In a first aspect, a disc type mud heat exchange device, include organism and fix the base in the organism below, the base has three, the position department that the base was kept away from to the organism is fixed with the top cap, the inside rotation of organism runs through there is the hollow shaft, the intermediate layer has been seted up in the organism, still includes:

The water collecting part is arranged on one surface of the machine body, which is far away from the top cover, and is arranged on the base so as to collect condensed water in the interlayer;

The linkage part movably penetrates through the base and is positioned in the water collecting part so as to transfer buoyancy generated by condensed water collected in the water collecting part;

The cleaning part is arranged in the machine body and corresponds to the position of the linkage part, so that the linkage part pushes the cleaning part to adjust the position to clean the sludge;

The water spraying part is arranged on one side of the base, is connected with the water collecting part and penetrates through the top cover to be communicated with the machine body, so that condensed water collected by the water collecting part is conveyed into the machine body to dip and clean sludge.

Further, the water collecting part includes a collecting member and a storing member, the collecting member is used for collecting condensed water generated in the interlayer to store in the storing member and automatically adjusts the flow direction of the condensed water, the storing member includes:

the inner cavity is formed in the base;

The communicating pipes are two, two communicating pipes are positioned between the three bases, and penetrate through the bases and are communicated with the inner cavity.

Further, the collecting member includes:

Three-way electromagnetic valves which penetrate through one surface of the machine body far away from the top cover and are communicated with the interlayer, and each three-way electromagnetic valve is positioned on one side of each base;

the collecting pipe is arranged on one side of the three-way electromagnetic valve, which is close to the base, and penetrates through the base to be communicated with the inner cavity;

the automatic adjusting part is arranged in the inner cavity and is used for automatically adjusting the drainage direction of the three-way electromagnetic valve according to the liquid level of the collected condensed water.

Further, the linkage portion includes mounting and floating piece, and the mounting is used for pegging graft fixed floating piece, and the floating piece is used for utilizing the buoyancy transmission power of the condensate water of collecting, the mounting includes:

the steel mesh cover is fixed on the inner side of the inner cavity;

The floating plate is movably arranged at the inner side of the inner cavity and positioned at the inner side of the steel mesh enclosure;

a jack penetrating through the inside of the floating plate;

The bolt movably penetrates through the base and is positioned at the inner side of the jack;

and the handle is fixed at one end of the bolt, which is far away from the auxiliary plate.

Further, the float includes:

the tray is fixed on the outer side of the floating plate and is positioned on the inner side of the steel mesh enclosure;

The guide parts are arranged on two sides of the tray and are contacted with the inner wall of the steel mesh cover so as to enable the tray to slide along the inner side of the steel mesh cover;

A water hole penetrating through the inside of the tray;

the protection part is arranged in the base, is communicated with the inner cavity and is connected with the floating plate so as to prevent the collected condensed water from leaking out;

The wire slot is arranged on one side of the base and is communicated with the protective part;

the wire frame is fixed on one side of the base close to the three-way electromagnetic valve;

one end of the pull rope is fixed on one surface of the floating plate, which is far away from the tray, and movably penetrates through the protection part and the wire slot;

The stay cord is wound and supported on the outer side of the wire frame in a V-shaped manner;

The groove is formed at one end of the base close to the machine body;

The guide plate is movably and penetratingly arranged in the groove;

The first magnets are provided with a plurality of first magnets, and the plurality of first magnets are fixed on one surface of the guide plate, which is close to the machine body.

Further, the cleaning part includes cleaning member and displacement piece, the displacement piece is used for accepting the power of floating piece transmission to promote the cleaning member removal to expand, the cleaning member is direct to be used for cleaning work, the cleaning member includes:

The shaft sleeves are rotatably sleeved on the outer side of the hollow shaft through bearings;

the cotton brush is arranged at the position of the shaft sleeve away from the top cover and is positioned in the machine body.

Further, the displacement member includes:

the connecting block is fixed on one surface of the shaft sleeve, which is far away from the top cover;

The movable cavity is arranged in the connecting block and penetrates through one surface of the connecting block, which is far away from the top cover;

the two guide plates are symmetrically fixed in the movable cavity;

The rotating rod is fixed in the movable cavity;

the rotary drum is rotationally sleeved on the outer side of the rotary rod and positioned between the guide plates;

The rotary rods are symmetrically fixed at one end of the rotary drum;

The two rocker arms are respectively rotatably sleeved on the outer sides of the two rotary rods;

The adjusting plate is rotationally connected with one end of one rocker arm far away from the rotary drum;

the supporting plate is rotationally connected with one end of the other rocker arm far away from the rotary drum;

L board, fix the one end that is close to the deflector at regulating plate and fagging, and be located the outside of deflector.

Further, the water spraying part comprises an execution part and a starting part, the starting part is used for automatically operating the execution part, the execution part is used for collecting condensed water to be sprayed into the machine body, and the starting part comprises:

The waterproof covers are fixed on the inner wall of the inner cavity close to the groove;

The second switch is fixed on the inner wall of the inner cavity, which is close to the groove, and is positioned on the inner side of one of the waterproof covers;

the sealing part penetrates through one surface of the waterproof cover far away from the groove, so as to play a role in water prevention.

Further, the sealing part includes:

A through hole which penetrates through one surface of the waterproof cover far away from the groove;

and the sealing rubber is fixed at the inner side of the through hole, the inner side is provided with an inclined angle, and the outer side is provided with a notch.

Further, the execution unit includes:

the water pump is fixed on one side of one of the bases;

the bent pipe is fixed at the input end of the water pump and is connected with one of the communicating pipes;

and the G-shaped pipe is fixed at the output end of the water pump and penetrates through the top cover and one surface of the machine body, which is close to the top cover.

The scheme of the invention at least comprises the following beneficial effects:

Through utilizing the drainage flow direction of collecting the portion automatically regulated comdenstion water, collect and store the comdenstion water, make the water spray portion utilize the buoyancy of the comdenstion water of collecting to promote the linkage portion and remove, make the linkage portion start water spray portion, make the water spray portion spray the water that the collection portion was collected into the organism into the mud of the outside adhesion of the hollow dish of washing to increase the usability and the utilization ratio of comdenstion water.

Through setting up cleaning part preparation in the organism, when spraying into the organism with water in the water spray part, utilize linkage portion promotion cleaning part expansion to remove, make cleaning part and hollow dish laminating to make hollow dish rotate, the mud of adhesion on the cleaning part friction clearance hollow dish when utilizing frictional force realizes carrying out the cleaning treatment to the mud of adhesion on the hollow dish, improves functionality and convenience.

Drawings

Fig. 1 is a schematic overall perspective view of a disc type sludge heat exchange device according to an embodiment of the present invention;

FIG. 2 is a schematic illustration of a front cross-sectional structure provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a in fig. 2 according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a combination of a bracket, a motor and a slave pulley according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a hollow tray according to an embodiment of the present invention;

Fig. 6 is a schematic perspective view of a base according to an embodiment of the present invention;

FIG. 7 is a schematic cross-sectional perspective view of a base according to an embodiment of the present invention;

Fig. 8 is a schematic perspective sectional view of a second switch and waterproof cover combination according to an embodiment of the present invention;

fig. 9 is a schematic perspective sectional view of a first switch and waterproof cover combination according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of an exploded perspective view of a tray, a floating plate, a latch, a roller, a tapered rod and a floating plug according to an embodiment of the present invention;

Fig. 11 is a schematic perspective view of a connection block, a cotton brush, a first magnet and a second magnet according to an embodiment of the present invention;

FIG. 12 is a schematic cross-sectional perspective view of an adjusting plate and a connecting block according to an embodiment of the present invention;

Fig. 13 is a schematic perspective view of a B position in fig. 12 according to an embodiment of the present invention;

Fig. 14 is a schematic perspective view of a guide plate and first magnet combination according to an embodiment of the present invention.

Reference numerals illustrate:

In the figure: 1. a body; 101. a discharge cylinder; 102. an end cap; 103. a shield; 104. a brace rod; 105. a shaft housing; 106. a steam exhaust pipe; 107. a drain pipe; 108. a steam inlet pipe; 2. a top cover; 201. an air inlet pipe; 202. an exhaust pipe; 203. a feed pipe; 3. a hollow shaft; 301. a hollow disc; 302. a through hole; 303. a scraper; 304. a heat preservation pipe; 4. a base; 401. a bracket; 402. a motor; 403. a main belt wheel; 404. a slave pulley; 405. a belt; 5. an inner cavity; 501. a collection pipe; 502. a three-way electromagnetic valve; 503. a transparent plate; 504. a communicating pipe; 505. a taper rod; 506. a floating plugboard; 507. a waterproof cover; 508. a first switch; 509. a through port; 510. sealing rubber; 6. steel mesh enclosure; 601. a tray; 602. a floating plate; 603. a jack; 604. a plug pin; 605. a handle; 606. a movable groove; 607. a rotating roller; 608. a water hole; 609. a bottom groove; 610. a bellows; 611. a second switch; 612. a water pump; 613. bending the pipe; 614. a G-type tube; 7. a wire slot; 701. a wire frame; 702. a pull rope; 703. a groove; 704. a guide plate; 705. a first magnet; 8. a shaft sleeve; 801. a connecting block; 802. a movable cavity; 803. a guide plate; 804. a rotating rod; 805. a rotating drum; 806. a rotating rod; 807. a rocker arm; 808. an adjusting plate; 809. a supporting plate; 810. an L plate; 811. a cotton brush; 812. a second magnet; 813. and (3) a drainage valve.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present invention are shown in the drawings, it should be understood that the present invention may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

As shown in fig. 1 to 14, an embodiment of the present invention provides a disc-type sludge heat exchange device, which includes a machine body 1, a base 4 fixed below the machine body 1, three bases 4, a top cover 2 fixed at a position of the machine body 1 far away from the base 4, a hollow shaft penetrating through the interior rotation of the machine body 1, an interlayer provided in the machine body 1, and further includes:

the water collecting part is arranged on one surface of the machine body 1 away from the top cover 2 and on the base 4 so as to collect condensed water in the interlayer;

the linkage part movably penetrates through the base 4 and is positioned in the water collecting part so as to transfer buoyancy generated by condensed water collected in the water collecting part;

The cleaning part is arranged in the machine body 1 and corresponds to the position of the linkage part, so that the linkage part pushes the cleaning part to adjust the position to clean the sludge;

The water spraying part is arranged on one side of one base 4, is connected with the water collecting part, and penetrates through the top cover 2 to be communicated with the machine body 1 so as to convey condensed water collected by the water collecting part into the machine body 1 for pickling and cleaning sludge;

An interlayer is arranged in the machine body 1.

Specifically, the base 4 can provide firm support for the organism 1, make organism 1 can utilize base 4 to place firmly department, the front of organism 1 runs through and is fixed with row feed cylinder 101, the both ends of organism 1 are fixed with end cover 102 through fixed part, one of them end cover 102 is kept away from the one side of organism 1 and is fixed with the vaulting pole 104, and the one end that the end cover 102 was kept away from to the end cover 102 is fixed with shaft housing 105 in the run-through of vaulting pole 104 and the one end that the end cover 102 was kept away from to the cover 103 runs through fixed shaft housing 105 top and is fixed with exhaust pipe 106, and the one end that the end cover 103 was kept away from to the cover 102 runs through fixed shaft housing 105 and is fixed with drain pipe 107, and the one end that the end cover 102 was kept away from to the cover 104 runs through fixed shaft housing 105 is fixed with admission pipe 108, and shaft housing 105 dress is at the both ends of hollow shaft 3, and hollow shaft 3 and shaft housing 105 pass through bearing and rotation seal to be connected.

The machine body 1 can provide firm support for the end cover 102 and the discharge cylinder 101, the machine body 1 can provide a channel for discharging dried sludge after heat exchange into the discharge cylinder 101, the hollow shaft 3 rotates through the bearing and the shaft seal to penetrate through the inner mounting of the end cover 102, the end cover 102 can provide rotary support for the hollow shaft 3 under the support of the machine body 1, the end cover 102 can firmly support the shield 103 and the supporting rod 104, the shield 103 and the supporting rod 104 can provide support for the shaft cover 105, the shaft cover 105 can provide a circulating channel for steam and condensed water, and can provide rotary support and sealing effect for the hollow shaft 3 in cooperation with the bearing and the shaft seal, and the outer side of the hollow shaft is fixedly sleeved with the plurality of hollow discs 301.

Specifically, the one side that base 4 was kept away from to organism 1 is fixed with hood 2, the inside of hood 2 runs through and is fixed with intake pipe 201, intake pipe 201 runs through the one side that base 4 was kept away from to organism 1, hood 2 can provide firm support for intake pipe 201, intake pipe 201 can provide the circulation passageway for the air, conveniently supply air in to organism 1, and hood 2 can open the equipment that makes things convenient for the staff to maintain in the organism 1, the inside of hood 2 runs through and is fixed with blast pipe 202, and blast pipe 202 runs through organism 1 setting, blast pipe 202 can provide the discharge passageway for the steam that the evaporation of moisture produced in the organism 1, the inside of hood 2 runs through and is fixed with inlet pipe 203, and inlet pipe 203 runs through the one side that base 4 was kept away from to organism 1, inlet pipe 203 can provide the circulation passageway for the mud, make the mud can pass the inboard that inlet pipe 203 gets into organism 1, blast pipe 202 is located one side that end cover 102 was kept away from to intake pipe 201, inlet pipe 202 is located one side that blast pipe 202 is kept away from in blast pipe 201.

In the practical application process of this embodiment, the worker needs to fixedly connect the air inlet pipe 201 with the pipeline for conveying air by using the fixing component, fixedly connect the pipeline for discharging steam with the air outlet pipe 202 by using the fixing component, finally fixedly connect the pipeline for conveying sludge with the feeding pipe 203, make the sludge enter the inner side of the feeding pipe 203 through the pipeline for conveying sludge, and enter the machine body 1 through the top cover 2 along the feeding pipe 203, the worker can connect the pipeline for discharging steam with the steam outlet pipe 106 by using the fixing component, and connect the pipeline for conveying steam with the steam inlet pipe 108 by using the fixing component, the steam outlet pipe 106 can provide a discharging channel for air in the shaft cover 105, the steam inlet pipe 108 can provide a channel for steam into the shaft cover 105, make the steam enter the inner side of the hollow shaft 3 through the shaft cover 105 after entering one of the shaft covers 105, the steam moves along the hollow shaft 3 and exchanges heat with the hollow disc in the moving process, so as to heat the hollow disc, then passes through the hollow shaft 3, enters the inner side of the other shaft cover 105, and flows into the steam exhaust pipe 106 through the shaft cover 105 to be discharged, condensed water generated by the heat exchange of the steam in the hollow shaft 3 flows into the shaft cover 105 and passes through the shaft cover 105 to be discharged into the water exhaust pipe 107, the heated hollow disc 301 exchanges heat with the sludge under the support of the hollow shaft, the sludge injected into the machine body 1 absorbs heat to evaporate water, the effect of drying the sludge is realized, air passes through a pipeline for conveying air to enter the inner side of the air inlet pipe 201 when the sludge exchanges heat, and air is supplemented to the inner side of the machine body 1 along the air inlet pipe 201 when the sludge exchanges heat, and the water evaporated in the sludge enters the air exhaust pipe 202 when the sludge exchanges heat, and is discharged along the exhaust pipe 202 through the body 1 and the top cover 2 into a pipe connected to the exhaust pipe 202.

Specifically, a plurality of hollow discs 301 are fixedly sleeved on the outer side of the hollow shaft 3, through holes 302 are formed in the hollow discs 301 in a penetrating manner, through holes 302 can provide a penetrating channel for sludge, the hollow discs 301 are provided with inclined angles, a plurality of scrapers 303 are symmetrically fixed on the outer side of the hollow discs 301, the scrapers 303 are in contact with the inner wall of the machine body 1, a support 401 is fixed on one side of the base 4, a motor 402 is fixed on the support 401, a main belt pulley 403 is fixedly sleeved on the outer side of the output end of the motor 402, a secondary belt pulley 404 is fixedly sleeved on the outer side of the hollow shaft, the secondary belt pulley 404 is positioned on the inner side of the shield 103, a belt 405 is sleeved on the outer sides of the secondary belt pulley 404 and the main belt pulley 403, two heat preservation pipes 304 are arranged on one surface of the machine body 1, which is far away from the top cover 2, and the heat preservation pipes 304 are communicated with an interlayer, one heat preservation pipe 304 is positioned at a position close to the supporting rod 104, and the other heat preservation pipe 304 is positioned at a position close to the motor 402.

After the sludge is injected into the machine body 1, the sludge can flow through the hollow disc 301 through the through holes 302, a worker can start the motor 402 under the support of the support 401, the motor 402 drives the main belt pulley 403 to rotate, the main belt pulley 403 drives the auxiliary belt pulley 404 to rotate by using the rotation power and the friction force, the auxiliary belt pulley 404 pushes the hollow shaft 3 under the action of the rotation power, the hollow shaft 3 rotates under the support of the end cover 102 and the shaft cover 105 through the bearing and the shaft seal, meanwhile, the hollow shaft 3 drives the hollow disc 301 to rotate under the action of the rotation power, the hollow disc 301 pushes the sludge to move along the disc surface by using the centrifugal force and the friction force and throw out, the sludge is continuously conveyed to the discharge cylinder 101, heat on the hollow disc 301 is absorbed in the moving process to perform heat exchange, the sludge is gradually dried and discharged into the discharge cylinder 101, and the worker can connect a pipeline for conveying the treated sludge with the discharge cylinder 101 by using the fixing part, so that the sludge passes through the discharge cylinder 101 and enters the connecting pipeline.

The staff can utilize the fixed part to be connected with the insulating tube 304 with the pipeline that carries steam when carrying out mud heat exchange, makes steam pass in one of them insulating tube 304 gets into the intermediate layer, fills the intermediate layer and discharges to another insulating tube 304 in passing the intermediate layer and discharge to utilize the steam in the intermediate layer to realize heat preservation heating effect, and steam can produce the comdenstion water in the intermediate layer.

As a preferred embodiment of the present invention, the water collecting part includes a collecting member for collecting condensed water generated in the interlayer to store in the storing member and automatically adjusting a flow direction of the condensed water, and a storing member including:

An inner cavity 5 arranged in the base 4;

The two communicating pipes 504 are located between the three bases 4, and the communicating pipes 504 are communicated with the inner cavity 5 through the bases 4.

Specifically, the base 4 can provide an opening space for the inner cavity 5, the inner cavity 5 can provide a collecting and storing space for condensed water, and the communicating pipe 504 can communicate the inner cavities 5 formed in the three bases 4 with each other, so that the condensed water collected in the inner cavities 5 can circulate with each other through the communicating pipe 504;

The collecting member includes:

Three-way electromagnetic valves 502 which penetrate through the machine body 1 and are arranged on one surface far away from the top cover 2 and are communicated with the interlayer, and each three-way electromagnetic valve 502 is positioned on one side of each base 4;

the collecting pipe 501 is arranged on one side of the three-way electromagnetic valve 502 close to the base 4, and penetrates through the base 4 to be communicated with the inner cavity 5;

The automatic adjusting part is arranged in the inner cavity 5 and is used for automatically adjusting the drainage direction of the three-way electromagnetic valve 502 according to the liquid level of the collected condensed water.

Specifically, the self-adjusting part includes:

the tray 601 is movably arranged at the inner side of the inner cavity 5;

the cone rod 505 is fixed on one surface of the tray 601 close to the rack;

The floating plugboard 506 is movably sleeved on the outer side of the cone rod 505;

a first switch 508 fixed on the inner wall of the inner cavity 5 near the frame and positioned on the inner side of the other waterproof cover 507;

A through hole 509 which penetrates through the waterproof cover 507 and is arranged on one surface far away from the frame;

sealing rubber 510, two sealing rubbers 510 are arranged on the inner side of the through hole 509;

In the practical application process, the machine body 1 can firmly support the three-way electromagnetic valve 502, the three-way electromagnetic valve 502 can spring up when the first switch 508 is not pressed, the three-way electromagnetic valve 502 is started to regulate the channel circulation direction to the discharge end close to the collecting pipe 501, when the first switch 508 is pressed, the three-way electromagnetic valve 502 is controlled to regulate the channel circulation direction to the discharge end far away from the machine frame, the waterproof cover 507 can firmly support the sealing rubber 510 under the support of the base 4, the sealing rubber 510 can deform under the action of external force, and can rebound by the rebound force, the sealing rubber 510 can play a sealing role, condensed water produced by the introduced steam in the interlayer in the machine body 1 flows into the inner side of the three-way electromagnetic valve 502 under the action of gravity, then flows into the inner side of the collecting pipe 501 through the collecting pipe 501, and flows into the inner side of one of the inner cavities 5 through the collecting pipe 501, meanwhile, the condensed water flows through the inner sides of the communicating pipe 504 in the inner sides of the three inner cavities 5, the condensed water is increased along with the collecting pipe 5, the floating plate 506 is enabled to follow the conical rod 505, the sealing rubber 506 is deformed under the guide action of the conical rod 505, the action of the elastic force is enabled to be pushed by the elastic force of the sealing rubber 506 and is pushed to move along with the sealing rubber 506 under the direction close to the sealing rubber 506, and the sealing rubber 506 is inserted into the other side under the sealing rubber 506, and is pushed to the sealing rubber 506 is inserted into the sealing rubber 506 under the sealing rubber has the action of the sealing rubber has a sealing rubber 506, and the sealing rubber has a sealing role is inserted under the sealing rubber has a sealing role is inserted into the sealing rubber plate is inserted under the sealing rubber film 506 and a sealing cup is inserted, the first switch 508 is used for controlling the three-way electromagnetic valve 502 to change a circulation channel to a discharge end far away from the rack, a worker can connect a pipeline for conveying water with the discharge end far away from the rack of the three-way electromagnetic valve 502 by using a fixing component, so that condensed water passes through the three-way electromagnetic valve 502 and enters the pipeline for conveying water to be discharged, condensed water stops entering the inner cavity 5, when the liquid level of the condensed water in the inner cavity 5 is reduced, the floating plug board 506 can be pulled out from the inner side of the waterproof cover 507 through the sealing rubber pad under the action of gravity, the extrusion of the first switch 508 is released, the three-way electromagnetic valve 502 is used for adjusting the discharge channel to the collecting pipe 501, and the condensed water in the interlayer can pass through the three-way electromagnetic valve 502 and the collecting pipe 501 to enter the inner cavity 5 to be collected, so that automatic condensed water storage is realized;

As a preferred embodiment of the present invention, the linkage part includes a fixing member for inserting and fixing the floating member for transmitting power by using buoyancy of the collected condensed water, and the fixing member includes:

A steel mesh enclosure 6 fixed inside the inner cavity 5;

the floating plate 602 is movably arranged at the inner side of the inner cavity 5 and is positioned at the inner side of the steel mesh enclosure 6;

a jack 603 provided through the inside of the floating plate 602;

the bolt 604 movably penetrates through the base 4 and is positioned at the inner side of the jack 603;

a handle 605 is fixed to the end of the latch 604 remote from the sub-plate.

Specifically, the base 4 can firmly support the steel mesh enclosure 6 in the inner cavity 5, the steel mesh enclosure 6 can provide a circulation channel for condensed water, and can provide a limiting guide effect for guide parts, and can be matched with the inner cavity 5 to provide a moving space for the floating plate 602, the floating plate 602 can firmly support the tray 601, the floating plate 506, the floating plate 602 and the tray 601 can float on the water surface, the plug pins 604 are made of rubber materials and have certain elasticity, the plug pins 604 can be attached to the base 4 by utilizing the elasticity when the base 4 is incompletely pulled out, the plug holes 603 can provide a through channel for the plug pins 604, the plug pins 604 can be connected with the floating plate 602 under the support of the base 4 after being inserted into the plug holes 603, the positioning of the floating plate 602 is realized, the floating plate 602 is prevented from floating on the water surface, the plug pins 604 can firmly support the handle 605, and the handle 605 can be convenient for a worker to pull the plug pins 604;

The float member includes:

A tray 601 fixed to the outer side of the floating plate 602 and located inside the steel mesh enclosure 6;

guide parts which are arranged to rotate on both sides of the tray 601 and contact with the inner wall of the steel mesh cover 6 so as to enable the tray 601 to slide along the inner side of the steel mesh cover 6;

A water hole 608 penetrating through the inside of the tray 601;

the protection part is arranged in the base 4, is communicated with the inner cavity 5 and is connected with the floating plate 602 so as to prevent the collected condensed water from leaking out;

The wire slot 7 is formed on one side of the base 4 and is communicated with the protective part;

A wire frame 701 fixed on one side of the base 4 close to the three-way electromagnetic valve 502;

one end of a pull rope 702 is fixed on one surface of the floating plate 602, which is far away from the tray 601, and movably penetrates through the protection part and the wire slot 7;

The pull rope 702 is wound and supported on the outer side of the wire frame 701 in a V shape;

a groove 703 arranged at one end of the base 4 close to the machine body 1;

a guide plate 704 movably and penetratingly placed in the groove 703;

The first magnets 705 are provided in plurality, and the plurality of first magnets 705 are fixed on one surface of the guide plate 704 near the machine body 1.

Specifically, the guide member includes:

the movable grooves 606 are formed on two sides of the tray 601 close to the steel mesh enclosure 6;

a roller 607 rotatably connected to the inner side of the movable groove 606 and contacting the inner wall of the steel mesh cover 6;

the protective part includes:

a bottom groove 609 is arranged in the base 4 and positioned below the floating plate 602 and communicated with the inner cavity 5;

the bellows 610 is fixed on one surface of the floating plate 602 far away from the tray 601, and the bellows 610 is located on the inner side of the bottom slot 609, fixedly connected with the base 4, and located on the outer side of the pull rope 702.

In the practical application process, the tray 601 can provide an opening space for the water hole 608, the water hole 608 can provide a penetrating channel for water, so that water can fully contact the tray 601 and the floating plate 602, the tray 601 can provide an opening space for the movable groove 606, the movable groove 606 can provide a rotating space for the rotating roller 607, the rotating roller 607 can rotate under the action of external force, the bottom groove 609 can provide a placing space and a moving space for the corrugated pipe 610, the corrugated pipe 610 can be stretched under the pulling of the floating plate 602, and can be extruded, folded and contracted under the action of gravity of the floating plate 602, thereby not affecting the movement of the floating plate 602, the base 4 can provide an opening space for the wire groove 7, the wire groove 7 can provide a moving channel and a guiding function for the pull rope 702, the base 4 can firmly support 701, 701 can provide a resisting function for the pull rope 702, the pull rope 702 can be bent under the action of external force, and has no elasticity, the floating plate 602 can increase the draught area of the tray 601, the first magnet 705 has magnetism, the positive pole faces the frame, the frame 503 can penetrate through the transparent plate 503, and the transparent plate 503 can be observed by a worker to pass through the base 5 to the transparent plate 503;

When sludge in the machine body 1 is dried and discharged, and when a worker needs to transfer buoyancy, the worker needs to hold the handle 605 to pull the plug 604, so that the plug 604 is pulled out of the inner side of the jack 603, the fixing effect on the floating plate 602 is released, then the floating plate 602 and the tray 601 can drive the roller 607 to move along the steel mesh enclosure 6 towards the direction close to the machine body 1 by utilizing the buoyancy of condensed water collected in the inner cavity 5, simultaneously the roller 607 can rotate under the action of buoyancy and the action of friction force with the steel mesh enclosure 6, so that the tray 601 and the floating plate 602 can smoothly move, simultaneously the tray 601 can drive the cone 505 and the floating plug 506 to move together under the action of external force, so that the cone 505 pushes the sealing rubber 510 arranged in one of the waterproof covers 507, the sealing rubber 510 is deformed, the cone 505 is inserted into the inner side of the one of the waterproof covers 507 to squeeze the second switch 611 through the sealing rubber 510, meanwhile, the sealing rubber 510 is attached to the conical rod 505 by using a reverse elastic force to play a sealing role, the water pump 612 is started after the second switch 611 is extruded, the water pump 612 is stopped by bouncing the second switch 611 after the conical rod 505 is far away from the second switch 611, meanwhile, when the floating plate 602 moves towards the direction close to the rack, the pull rope 702 is pulled by using a buoyancy force, so that the pull rope 702 moves towards the inner side of the bottom slot 609 along the wire slot 7 under the action of an external force, when the floating plate 602 moves to the position of the next tenth of the collected condensed water by using the buoyancy force, the floating plate 602 is stretched and straightened under the resisting of the wire frame 701 by using the buoyancy force, then the floating plate 602 and the tray 601 continue to float upwards, the pull rope 702 pulls the guide plate 704 towards the direction close to the motor 402 under the action of the external force and the low gear of the wire frame 701, so that the guide plate 704 moves along the groove 703 and moves together with the first magnet 705 under the action of the external force, thereby transmitting buoyancy power to the first magnet 705, and moving the first magnet 705 in a direction approaching the motor 402.

As a preferred embodiment of the present invention, the cleaning part includes a cleaning member and a displacement member, the displacement member is used for receiving the power transmitted by the floating member and pushing the cleaning member to move and spread, the cleaning member is directly used for cleaning work, and the cleaning member includes:

The shaft sleeves 8 are provided with a plurality of shaft sleeves 8, and the plurality of shaft sleeves 8 are rotatably sleeved on the outer side of the hollow shaft through bearings;

the cotton brush 811 is disposed in the direction of the sleeve 8 away from the top cover 2 and is located in the machine body 1.

Specifically, the hollow shaft can provide rotary support for the shaft sleeve 8 by using the bearing, and the hollow shaft can not rotate along with the hollow shaft under the action of gravity of the connecting block 801 and the rotary support of the bearing, and the cotton brush 811 has certain elasticity and can brush or scrape sludge adhered to the hollow disc 301 under the action of external force;

The displacement piece includes:

a connecting block 801 fixed on one surface of the sleeve 8 away from the top cover 2;

a movable cavity 802 which is arranged in the connecting block 801 and penetrates through one surface of the connecting block 801 far away from the top cover 2;

The two guide plates 803 are symmetrically fixed in the movable cavity 802;

a rotating rod 804 fixed in the movable cavity 802;

A drum 805 rotatably fitted around the outside of the rotating lever 804 and positioned between the guide plates 803;

the two rotary rods 806, the two rotary rods 806 are symmetrically fixed at one end of the rotary cylinder 805;

two rocker arms 807, wherein the two rocker arms 807 are respectively rotatably sleeved on the outer sides of the two rotary rods 806;

An adjustment plate 808 rotatably coupled to an end of one of the rocker arms 807 remote from the drum 805;

a brace 809 rotatably connected to an end of the other rocker arm 807 remote from the drum 805;

an L plate 810 fixed to one end of the adjusting plate 808 and the stay plate 809 near the guide plate 803 and located outside the guide plate 803;

A second magnet 812 is fixed to an end of the adjustment plate 808 near the first magnet 705.

In the practical application process, the shaft sleeve 8 can firmly support the connecting block 801, the connecting block 801 can provide an opening space for the movable cavity 802, the movable cavity 802 can provide an installation space for the guide plate 803, the guide plate 803 can provide support and moving guide for the L plate 810, the connecting block 801 can firmly support the rotating rod 804, the rotating rod 804 can provide rotating support for the rotating cylinder 805, the rotating cylinder 805 can firmly support the rotating rod 806, the rotating rod 806 provides rotating support for the rocker arm 807, the rocker arm 807 can rotate under the action of external force with the rotating rod 806 as the center, one end of the rocker arm 807 away from the rotating rod 806 can rotate under the support of the adjusting plate 808, the other rocker arm 807 can rotate under the support of the supporting plate 809, the L plate 810 can provide moving support for the adjusting plate 808 and the supporting plate 809 under the support of the guide plate 803, the adjusting plate 808 and the supporting plate 809 can firmly support the cotton brush 811, the second magnet 812 has magnetism and faces the first magnet 705, the machine body 1 is non-iron, cobalt, nickel, and the cotton brush 808 and the supporting plate 809 are fixed on one surface of the adjusting plate 809 away from each other;

The buoyancy generated by the condensation water collected by the cooperation of the floating plate 602 and the tray 601 is enough to pull the guide plate 704 and the first magnet 705 through the pull rope 702, when the first magnet 705 is pulled along with the guide plate 704 towards the direction approaching the motor 402, the first magnet 705 can pull the second magnet 812 through the machine body 1 and the interlayer by utilizing magnetic force, the second magnet 812 can drive the adjusting plate 808 to move along with the direction approaching the motor 402, the adjusting plate 808 can drive the L plate 810 to move along the guide plate 803 along with the direction approaching the motor 402 under the action of external force, the adjusting plate 808 can pull one rocker arm 807 under the action of external force, one end of one rocker arm 807 can rotate anticlockwise under the support of the adjusting plate 808 and the rotating rod 806, one rocker arm 807 can push the rotating cylinder 805 to rotate clockwise around the rotating rod 804 through the rotating rod 806 under the action of external force, simultaneously, the rotary drum 805 pushes the other rocker arm 807 by using the rotary rod 806 under the action of the rotary force, so that one end of the other rocker arm 807 rotates anticlockwise by taking the rotary rod 806 as the center of a circle, and the other end rotates anticlockwise under the support of the supporting plate 809, so that the other rocker arm 807 pushes the supporting plate 809 to drive the L plate 810 to move along the guide plate 803 in the direction away from the motor 402 under the action of the external force, so that the supporting plate 809 and the adjusting plate 808 drive the cotton brush 811 fixed on one side of the L plate 810 to move towards the nearest hollow disc 301, and when the floating plate 602 moves to the next fifth of condensed water, the cotton brush 811 is attached to the hollow disc 301, and meanwhile, the motor 402 is started to enable the hollow disc 301 to rotate, so that the hollow disc 301 brushes the sludge adhered to the outer side of the hollow disc 301 by using the rotary force and the friction force of the cotton brush 811.

As a preferred embodiment of the present invention, the water spraying part includes an executing part for automatically operating the executing part, and a starting part for spraying the collected condensed water into the body 1, the starting part including:

Two waterproof covers 507, two waterproof covers 507 are fixed on the inner wall of the inner cavity 5 close to the groove 703;

A second switch 611 fixed to the inner wall of the inner chamber 5 adjacent to the groove 703 and located inside one of the waterproof covers 507;

the sealing part penetrates through one surface of the waterproof cover 507 far away from the groove 703 so as to play a waterproof role.

The sealing part comprises:

A through hole 509 which penetrates through the waterproof cover 507 and is arranged on one surface far away from the groove 703;

The sealing rubber 510 is fixed inside the through hole 509, has an inclination angle on the inside, and is provided with a notch on the outside.

The execution unit includes:

a water pump 612 fixed to one side of one of the bases 4;

the bent pipe 613 is fixed at the input end of the water pump 612 and is connected with one of the communicating pipes 504;

a G-shaped pipe 614 fixed to the output end of the water pump 612 and penetrating the top cover 2 and the body 1 to a surface close to the top cover 2;

the drain valve 813 is opened through the body 1 on a side away from the top cover 2, and is located at a position close to the water pump 612.

In the practical application process of the embodiment, the water pump 612 can suck out the condensed water stored in the inner cavity 5 through the bent pipe 613 and the communicating pipe 504, and discharge the condensed water into the G-shaped pipe 614, the G-shaped pipe 614 can provide a channel for the condensed water to enter the machine body 1, when the conical rod 505 penetrates the sealing rubber 510 and is inserted into the inner side of one of the waterproof covers 507 to press the second switch 611, the water pump 612 can be started under the support of the base 4, meanwhile, a worker needs to push the plug 604 through the handle 605, so that the plug 604 is inserted into the inner side of the inner cavity 5 to press the corrugated pipe 610 to deform, the corrugated pipe 610 is prevented from being folded, the plug 604 supports the floating plate 602 through the corrugated pipe 610, the floating plate 602 is prevented from being lowered due to the lowering of the water level, the conical rod 505 can be continuously kept under the support of the floating plate 602 to press the inner side of the waterproof cover 507 to press the second switch 611, the water pump 612 sucks out the condensed water stored in the inner cavity 5 through the bent pipe 613 and the communicating pipe 504, so that the water level of the condensed water in the inner cavity 5 is lowered, the sucked condensed water is discharged to the inner side of the G-shaped pipe 614, then the condensed water flows into the inner side of the machine body 1 along the G-shaped pipe 614, the condensed water soaks the hollow disc 301 in the machine body 1, the discharge cylinder 101 has a certain height, the condensed water cannot be influenced to soak the hollow disc 301 with accumulation degree in the machine body 1, after the soaking is finished, a worker can open the drain valve 813, the condensed water accumulated in the machine body 1 can pass through the drain valve 813 to be discharged to the outside, the worker can connect the pipeline with the drain valve 813 to convey the water discharged by the drain valve 813 according to the actual situation, and the worker can pull the plug 604 through the handle 605 to separate the plug 604 from the corrugated pipe 610, the positioning of the floating plate 602 is relieved, allowing the floating plate 602 to be lowered by gravity.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present invention, and such modifications and adaptations are intended to be comprehended within the scope of the present invention.

Claims (10)

1. A disc type sludge heat exchange device is characterized in that: including organism (1) and base (4) of fixing in organism (1) below, base (4) have three, the position department that base (4) was kept away from to organism (1) is fixed with top cap (2), the inside rotation of organism (1) runs through there is the hollow shaft, set up the intermediate layer in organism (1), still include:

The water collecting part is arranged on one surface of the machine body (1) far away from the top cover (2) and on the base (4) so as to collect condensed water in the interlayer;

the linkage part movably penetrates through the base (4) and is positioned in the water collecting part so as to transfer buoyancy generated by condensed water collected in the water collecting part;

the cleaning part is arranged in the machine body (1) and corresponds to the position of the linkage part, so that the linkage part pushes the cleaning part to adjust the position to clean the sludge;

The water spraying part is arranged on one side of the base (4), is connected with the water collecting part, and penetrates through the top cover (2) to be communicated with the machine body (1) so as to convey condensed water collected by the water collecting part into the machine body (1) for pickling and cleaning sludge.

2. The disc type sludge heat exchange apparatus according to claim 1, wherein the water collecting portion includes a collecting member for collecting condensed water generated in the interlayer to be stored in the storing member and automatically adjusting a flow direction of the condensed water, and a storing member including:

An inner cavity (5) arranged in the base (4);

and two communicating pipes (504) are arranged, two communicating pipes (504) are arranged between the three bases (4), and the communicating pipes penetrate through the bases (4) and are communicated with the inner cavity (5).

3. The disc type sludge heat exchange apparatus as claimed in claim 2, wherein the collecting member comprises:

three-way electromagnetic valves (502) are arranged penetrating through one surface of the machine body (1) far away from the top cover (2) and communicated with the interlayer, and each three-way electromagnetic valve (502) is positioned on one side of each base (4);

the collecting pipe (501) is arranged on one side of the three-way electromagnetic valve (502) close to the base (4) and penetrates through the base (4) to be communicated with the inner cavity (5);

The automatic adjusting part is arranged in the inner cavity (5) and is used for automatically adjusting the drainage direction of the three-way electromagnetic valve (502) according to the liquid level of the collected condensed water.

4. A disc type sludge heat exchange apparatus according to claim 3, wherein the linkage part comprises a fixing member for inserting and fixing the floating member for transmitting power by using buoyancy of the collected condensed water, and a floating member comprising:

a steel mesh enclosure (6) fixed at the inner side of the inner cavity (5);

The floating plate (602) is movably arranged at the inner side of the inner cavity (5) and is positioned at the inner side of the steel mesh enclosure (6);

a jack (603) penetrating through the floating plate (602);

the bolt (604) movably penetrates through the base (4) and is positioned at the inner side of the jack (603);

A handle (605) is fixed at one end of the bolt (604) far away from the auxiliary plate.

5. The disc type sludge heat exchange apparatus as claimed in claim 4, wherein the floating member comprises:

A tray (601) fixed on the outer side of the floating plate (602) and positioned on the inner side of the steel mesh enclosure (6);

The guide parts are arranged on two sides of the tray (601) in a rotating way and are contacted with the inner wall of the steel mesh cover (6) so as to enable the tray (601) to slide along the inner side of the steel mesh cover (6);

A water hole (608) penetrating the inside of the tray (601);

The protection part is arranged in the base (4), is communicated with the inner cavity (5) and is connected with the floating plate (602).

6. The disc type sludge heat exchange apparatus as claimed in claim 5, wherein the float member further comprises:

The wire slot (7) is arranged on one side of the base (4) and is communicated with the protection part;

The wire frame (701) is fixed on one side of the base (4) close to the three-way electromagnetic valve (502);

One end of the pull rope (702) is fixed on one surface of the floating plate (602) far away from the tray (601) and movably penetrates through the protection part and the wire slot (7);

the pull rope (702) is wound and supported on the outer side of the wire frame (701) in a V shape;

A groove (703) is formed at one end of the base (4) close to the machine body (1);

A guide plate (704) which is movably and penetratingly arranged in the groove (703);

The first magnets (705) are provided in a plurality, and the first magnets (705) are fixed on one surface of the guide plate (704) close to the machine body (1).

7. The disc type sludge heat exchange device according to claim 6, wherein the cleaning part comprises a cleaning member and a displacement member, the displacement member is used for receiving power transmitted by the floating member and pushing the cleaning member to move and expand, and the cleaning member comprises:

the shaft sleeves (8) are provided with a plurality of shaft sleeves (8), and the shaft sleeves (8) are rotatably sleeved on the outer side of the hollow shaft through bearings;

the cotton brush (811) is arranged at the position of the shaft sleeve (8) away from the top cover (2) and is positioned in the machine body (1).

8. The disc type sludge heat exchange apparatus as claimed in claim 7, wherein the displacement member comprises:

the connecting block (801) is fixed on one surface of the shaft sleeve (8) far away from the top cover (2);

The movable cavity (802) is arranged in the connecting block (801) and penetrates through one surface of the connecting block (801) far away from the top cover (2);

The guide plates (803) are provided with two guide plates (803) which are symmetrically fixed in the movable cavity (802);

the rotating rod (804) is fixed in the movable cavity (802);

The rotary drum (805) is rotatably sleeved on the outer side of the rotary rod (804) and positioned between the guide plates (803).

9. The disc type sludge heat exchange apparatus as claimed in claim 8, wherein the displacement member further comprises:

the rotary rods (806) are provided with two, and the two rotary rods (806) are symmetrically fixed at one end of the rotary cylinder (805);

The rocker arms (807) are provided with two rocker arms (807), and the two rocker arms (807) are respectively rotatably sleeved on the outer sides of the two rotary rods (806);

An adjustment plate (808) rotatably connected to one end of one of the rocker arms (807) remote from the drum (805);

A stay plate (809) rotatably connected to one end of the other rocker arm (807) away from the drum (805);

L-plate 810 fixed to one end of the adjusting plate 808 and the stay plate 809 near the guide plate 803 and located outside the guide plate 803.

10. The disc type sludge heat exchange device according to claim 9, wherein the water spraying part comprises an executing part and a starting part, the starting part is used for automatically operating the executing part, the executing part is used for spraying the collected condensed water into the machine body (1), and the starting part comprises:

The waterproof covers (507) are arranged, two waterproof covers (507) are fixed on the inner wall of the inner cavity (5) close to the groove (703);

a second switch (611) fixed on the inner wall of the inner cavity (5) close to the groove (703) and positioned on the inner side of one of the waterproof covers (507);

The sealing part penetrates through one surface of the waterproof cover (507) far away from the groove (703) to play a waterproof role.