CN112479549A - Filter-pressing drying equipment for heating sludge by penetrating hot gas - Google Patents

Abstract

The invention relates to a filter-pressing drying device heated by hot gas penetrating sludge, which comprises a plurality of first filter plates and a plurality of second filter plates, wherein the first filter plates and the second filter plates are overlapped and moved back and forth in a staggered manner and lean against each other, the front and back surfaces of each first filter plate and each second filter plate are respectively provided with a filter chamber and a sludge inlet, one side of each first filter chamber of each first filter plate is communicated with an external hot gas pipeline, the other side of each second filter chamber of each second filter plate is communicated with an external exhaust pipeline, the hot gas enters one side of each filter chamber of each first filter plate through the hot gas pipeline, the hot gas is enabled to penetrate towards the second filter plate completely and contact the heated sludge, and then the sludge is discharged from the other side of each filter chamber of each second filter plate and the exhaust pipeline, so that the sludge can be dehydrated really, the dryness of the sludge is improved.

Description

Filter-pressing drying equipment for heating sludge by penetrating hot gas

Technical Field

The invention relates to a filter-pressing drying device, in particular to a filter-pressing drying device which utilizes hot gas to penetrate through sludge for heating.

Background

At present, a filter press unit type filter press for sludge and other various filter materials is characterized in that a plurality of groups of filter press units which can be movably separated and overlapped in a displacement mode are placed on a machine table rail, each filter press unit is provided with two side filter chambers and a sludge inlet which is communicated, and the two side filter chambers are respectively covered with filter cloth which is communicated through the sludge inlet.

In the actual sludge press filtration process, all the press filtration units are overlapped with the filter cloth and lean against the filter cloth, the peripheries of every two filter cloths are closed, water-containing sludge is pumped into a sludge inlet of each press filtration unit and each filter cloth by a pump, the water-containing sludge is continuously extruded, sewage flows out through the filter cloth and a sewage drainage hole, and the sludge is wrapped in the filter chamber by the filter cloth, so that the purpose of extrusion dehydration is achieved. However, the simple squeezing dehydration method can only achieve the sludge dryness with the water content of 60-86%, the sludge volume and the occupied space cannot be more effectively reduced, and the subsequent transportation and reprocessing cost is high.

In order to improve the defects of the simple squeezing dehydration mode, a hot gas heating structure is added in a filter pressing unit of a filter press nowadays, so that moisture contained in sludge is gasified into steam, and the dryness of the sludge is improved. However, the hot gas heating structure of the filter press in the filter press unit needs to use a large amount of heat energy, and the hot gas cannot penetrate through and contact with the sludge in a full-surface manner, so that the sludge drying efficiency is affected, the filter press operation cost is relatively increased, and the heat energy resource is wasted. Therefore, how to solve the above problems is an urgent issue to be studied by those skilled in the art.

Disclosure of Invention

The main purpose of the invention is that each first filter plate is heated by hot gas to fully penetrate and contact with the sludge towards the second filter plate, so that the sludge can be dehydrated reliably, the dryness of the sludge is improved, the filter-pressing drying efficiency is increased, and the equipment cost and the sludge treatment operation cost are reduced.

The invention relates to a filter-pressing drying device for heating sludge by penetrating hot gas, which comprises a plurality of first filter plates and second filter plates which are opposite in the same direction, wherein each first filter plate and each second filter plate are sequentially overlapped and moved in a staggered manner, the front and the back of each first filter plate and each second filter plate are respectively provided with a filter chamber, each filter chamber is provided with the same side and the opposite side, a plurality of flow guide grooves which are communicated with each other are respectively arranged in each filter chamber, a sludge inlet which is communicated with the front and the back is arranged in each filter chamber so as to correspondingly communicate with an external sludge slurry pipeline, and the sludge slurry is filled in each filter chamber of each first filter plate and each second filter plate to be extruded and dehydrated into sludge; one side of the two filter chambers of each first filter plate is communicated with an external hot air pipeline, the other side, opposite to the two filter chambers, of each second filter plate is communicated with an external exhaust pipeline, the hot air pipeline is connected with a hot air source to supply hot air to enter one side of the two filter chambers of each first filter plate and each flow guide groove through the hot air pipeline, so that the hot air penetrates and contacts with the sludge in a full-face mode towards each second filter plate to heat the sludge, the hot air and the sludge are subjected to heat exchange to form warm waste gas, the warm waste gas enters each flow guide groove of the two filter chambers of each second filter plate, and the warm waste gas is exhausted from the other side of the two filter chambers of each second filter plate and the exhaust pipeline.

In the above filter-pressing drying apparatus heated by penetrating the sludge with hot gas, one side of the two filter chambers of each first filter plate is communicated with a hot gas inlet, and the hot gas pipeline is connected to each hot gas inlet; the other side of the two filter chambers of each second filter plate is communicated with an exhaust hole, and the exhaust pipeline is respectively connected with each exhaust hole.

In the filter-pressing drying device heated by penetrating the sludge with hot air, the two sides of each first filter plate and the second filter plate are respectively and correspondingly provided with the sewage drainage holes which are communicated with each other from front to back, the sewage drainage hole on one side of each first filter plate is communicated with one side of each corresponding filter chamber, and the sewage drainage hole on the other side of each second filter plate, which is opposite to each other side, is communicated with the other side of each corresponding filter chamber.

The filter-pressing drying equipment utilizing hot gas to penetrate through sludge for heating comprises a first filter plate, a second filter plate, a hot gas pipeline, a hot gas control valve and a flow guide channel, wherein the first filter plate is connected with the first sewage discharge hole at one side of the second filter plate, the second filter plate is connected with the second sewage discharge hole at the other side of the second filter plate, the hot gas pipeline is provided with the hot gas control valve which is connected with the first sewage discharge hole, the hot gas pipeline is connected with the first sewage discharge hole through the first filter plate and the second filter plate, and the hot gas enters one side of the two filter chambers of the first filter plates and the flow guide channel through the first sewage discharge hole at one side of the first filter plates.

In the above filter-pressing drying apparatus heated by penetrating the sludge with the hot gas, the two filter chambers of each of the first filter plate and the second filter plate are respectively coated with a membrane, the flow guide grooves of each of the two filter chambers are formed on the surfaces of the two membranes, an external air pressure pipeline is connected between the two filter chambers, the air pressure pipeline is connected with a compressed air source and a control valve, the compressed air source outputs compressed air to a position between the two membranes of each of the two filter chambers, and the two membranes are externally stretched to expand and extrude sludge slurry inside the two filter chambers.

Drawings

FIG. 1 is a schematic diagram of the arrangement of the filter press drying apparatus of the present invention.

Fig. 2 is a cross-sectional view of the filter press drying apparatus of the present invention driving the filter plates together.

Fig. 3 is a perspective view of a first filter plate of the filter press drying apparatus of the present invention.

Fig. 4 is a perspective view of a second filter plate of the filter press drying apparatus of the present invention.

FIG. 5 is a sectional view of the press filtration drying apparatus of the present invention for extruding sludge slurry.

FIG. 6 is a sectional view showing the sludge slurry squeezed by the pneumatic expanding membrane of the filter press drying apparatus of the present invention.

FIG. 7 is a sectional view of the filter press drying apparatus of the present invention for drying sludge by hot air.

Description of the reference numerals

1. Frame 4, sludge slurry pipeline

11. Fixing seat 5 and first sewage drainage pipeline

12. Movable seat 51 and sewage control valve

13. Oil hydraulic cylinder 52 and a second sewage draining pipeline

2. First filter plate 6, pneumatic pipeline

20. Second filter plate 61, compressed air source

21. Plate body 62 and control valve

22. Filter chamber 63, control valve

221. Filter chamber hole 7 and hot gas pipeline

222. Filter chamber orifice 71, hot gas source

23. Diaphragm 72, hot gas control valve

231. Flow guide groove 73 and hot gas control valve

24. Branch element 8, exhaust pipe

25. Sludge inlet 9, sludge slurry

26. Sewage outlet 91, sludge

261. Drain hole

27. Hot air inlet

28. Air vent

29. Air pressure hole

3. And (5) filtering the cloth.

Detailed Description

To achieve the above objects, the present invention provides a technical means and its effects, which are described below with reference to the accompanying drawings as follows:

first, referring to fig. 1 to 5, as can be clearly seen from the drawings, the filter press drying device of the present invention has a plurality of first filter plates 2 and second filter plates 20 straddling over rails on both sides of a frame 1, each of the first filter plates 2, the second filter plates 20 and filter cloth 3 being sequentially controlled by a pulling and feeding clamp to move horizontally and overlap and lean against each other, and being externally connected with a sludge slurry pipeline 4, a first sewage discharge pipeline 5, a second sewage discharge pipeline 52, an air pressure pipeline 6, a hot air pipeline 7 and an exhaust pipeline 8, and being forcibly positioned by applying force with a fixed seat 11, a movable seat 12 and an oil pressure cylinder 13 thereof, wherein:

the first filter plates 2 and the second filter plates 20 are opposite in the same direction, the first filter plates 2 and the second filter plates 20 are sequentially overlapped and moved back and forth in a staggered manner, filter chambers 22 and filter cloth 3 are respectively arranged on the front and back surfaces of the first filter plates 2 and the second filter plates 20, and supporting pieces 24 are respectively fixed on the two sides of the first filter plates and the second filter plates. Each filter chamber 22 has the same side and the opposite side, and each filter chamber 22 is provided with a plurality of flow guide grooves 231 communicated with each other, each plate body 21 is coated with a membrane 23 in each filter chamber 22, the periphery of each membrane 23 is fixedly connected and positioned with the plate body 21, and the flow guide grooves 231 of each filter chamber 22 are formed on the surfaces of the two membranes 23. A sludge inlet 25 which is communicated with the front and the back is arranged in each two filter chambers 22, the two sides of each first filter plate 2 and each second filter plate 20 are respectively and correspondingly provided with a sewage discharge hole 26 and a sewage discharge hole 261 which are communicated with the front and the back, the sewage discharge hole 26 on one side of the first filter plate 2 is communicated with one side of the corresponding two filter chambers 22 through a filter chamber hole 221, and the sewage discharge hole 261 on the other side of the first filter plate 2 is not communicated with the filter chamber hole 222 on the other side of the filter chamber 22; the drain hole 261 of the opposite side of the second filter sheet 20 communicates with the other side of the corresponding two filter chambers 22 through the chamber hole 222, and the drain hole 26 of the one side of the second filter sheet 20 does not communicate with the chamber hole 221 of the one side of the filter chamber 22. The first filter plate 2 and the second filter plate 20 have air pressure holes 29 between the plate bodies 21 and the diaphragms 23 of the filter chambers 22, and the filter chambers 22 of the first filter plate 2 have inlet air holes 27 communicating with each other through the filter chamber holes 221, and the filter chambers 22 of the second filter plate 20 have outlet air holes 28 communicating with each other through the filter chamber holes 222.

The sludge slurry pipeline 4 is communicated with the sludge inlets 25 of the first filter plate 2 and the second filter plate 20.

The first and second sewage pipes 5 and 52 are connected to the respective first and second filter plates 2 and 20 such that the sewage holes 26 at one sides of the respective first and second filter plates 2 and 20 are connected to the first sewage pipe 5 and the sewage control valve 51, and the sewage holes 261 at the other sides of the respective first and second filter plates 2 and 20 are connected to the second sewage pipe 52.

A compressed air source 61 and control valves 62 and 63 are connected to the pneumatic line 6, and compressed air is supplied to the pneumatic holes 29 connecting the plate bodies 21 and the filter chamber 22.

The hot air line 7 is connected to a hot air source 71 and a hot air control valve 72 to be connected to the hot air inlet hole 27 of each first filter plate 2 on the side of the two filter chambers 22 so that hot air can be introduced into the two filter chambers 22 of each first filter plate 2. The hot air pipe 7 may be provided with a hot air control valve 73 connected to the first sewage pipe 5 so that hot air may additionally pass through the sewage holes 26 on one side of each of the first filter plates 2 and the second filter plates 20 from outside to inside, and the sewage control valve 51 is closed in cooperation so that hot air passes through the sewage holes 26 on one side of each of the first filter plates 2 and the filter chamber holes 221 to enter one side of the two filter chambers 22 of each of the first filter plates 2 and each of the guide grooves 231.

The exhaust line 8 is connected to the exhaust hole 28 of each second filter plate 20 on the other side of the two filter chambers 22.

In practical operation of the filter press drying device of the present invention, please refer to fig. 1 to 4, the movable seat 12 of the filter press drying device drives each of the first filter plate 2 and the second filter plate 20 to move, so that all the first filter plate 2 and the second filter plate 20 are overlapped with the filter cloth 3 and close the periphery of two adjacent filter cloths 3. Referring to fig. 1 and 5, the sludge slurry 9 is fed into the sludge inlets 25 of the first filter plates 2 and the second filter plates 20 through the sludge slurry pipeline 4, and the sludge slurry 9 is continuously pushed to fill the filter chambers 22 for squeezing and dewatering, so that the water content of the sludge slurry 9 is gradually reduced, the sewage flows out through the filter cloth 3, the filter chamber holes 221 and 222, the sewage discharge holes 26 and 261, the first sewage discharge pipeline 5, the second sewage discharge pipeline 52 and the sewage discharge control valve 51, and the sludge 91 is wrapped in the filter chambers 22 by the filter cloth 3. When the filter press drying equipment continuously presses the sludge slurry 9 to discharge most of the sewage, please refer to fig. 1 and 6, the compressed air is respectively input into the air pressure holes 29 between the two diaphragms 23 of each plate body 21 through the control valves 62 by using the air pressure pipeline 6, and the two diaphragms 23 are expanded to press the sludge slurry 9 and the sludge 91 inside each filtering chamber 22, so that the sludge 91 is evenly distributed in the filtering chambers 22, and the hot air drying treatment is more easily performed.

When the filter pressing drying equipment of the invention is actually operated, the hot air pipeline 7 is started at proper time, and the sewage control valve 51 of the first sewage drainage pipeline 5 is closed, as shown in fig. 1 and 7, hot gas continuously enters the hot gas inlet holes 27 of the first filter plates 2 and one side of the two filter chambers 22 and the flow guide grooves 231 through the hot gas pipeline 7, so that the hot gas penetrates and contacts the sludge 91 in a full-face manner as shown by arrows in fig. 7, and the hot gas exchanges heat with the sludge 91 to become warm waste gas, then the warm waste gas enters the flow guide grooves 231 of the two filter chambers 22 of the second filter plates 20, and is discharged outside through the exhaust holes 28 on the other sides of the two filter chambers 22 of the second filter plates 20 and the exhaust pipeline 8, so that the sludge 91 can be dehydrated into a sludge cake state, so as to improve the dryness of the sludge 91, increase the filter-pressing drying efficiency, and reduce the equipment cost and the sludge treatment operation cost. Finally, the filter press drying device opens the movable seat 12 (see fig. 1), and then the pulling fixture clamps and pulls the first filter plate 2, the second filter plate 20 and the filter cloth 3 one by one, so that the first filter plate 2 and the second filter plate 20 are separated and displaced in sequence, and the dewatered sludge 91 is discharged from the filter chambers 22.

The above-described embodiments are intended to be illustrative, but not limiting, of the present invention, and various changes and modifications may be suggested to one skilled in the art without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (5)

1. A press filtration drying device heated by hot gas penetrating sludge comprises a plurality of first filter plates and second filter plates which are opposite in the same direction, wherein the first filter plates and the second filter plates are sequentially overlapped and leaned in a staggered manner, filter chambers are respectively arranged on the front and back surfaces of the first filter plates and the second filter plates, each filter chamber is provided with the same side and the opposite side, a plurality of mutually communicated flow guide grooves are respectively arranged in each filter chamber, and a sludge inlet which is communicated with the front and back is arranged in each filter chamber so as to be correspondingly communicated with an external sludge pipeline, so that sludge slurry is filled in each filter chamber of each first filter plate and each filter chamber of each second filter plate to be extruded and dehydrated into sludge; one side of the two filter chambers of each first filter plate is communicated with an external hot air pipeline, the other side, opposite to the two filter chambers, of each second filter plate is communicated with an external exhaust pipeline, the hot air pipeline is connected with a hot air source to supply hot air to enter one side of the two filter chambers of each first filter plate and each flow guide groove through the hot air pipeline, so that the hot air penetrates and contacts with the sludge in a full-face mode towards each second filter plate to heat the sludge, the hot air and the sludge are subjected to heat exchange to form warm waste gas, the warm waste gas enters each flow guide groove of the two filter chambers of each second filter plate, and the warm waste gas is exhausted from the other side of the two filter chambers of each second filter plate and the exhaust pipeline.

2. A filter-press drying apparatus heated by hot gas penetrating sludge according to claim 1, wherein one side of the two filter chambers of each first filter plate is communicated with a hot gas inlet, and the hot gas pipeline is connected to each hot gas inlet; the other side of the two filter chambers of each second filter plate is communicated with an exhaust hole, and the exhaust pipeline is respectively connected with each exhaust hole.

3. A filter-press drying apparatus using hot gas to penetrate through sludge for heating according to claim 1 or 2, wherein the first filter plate and the second filter plate are respectively provided with a drain hole on both sides thereof, the drain hole on one side of the first filter plate is communicated with one side of the two corresponding filter chambers, and the drain hole on the other side of the second filter plate opposite to the first filter plate is communicated with the other side of the two corresponding filter chambers.

4. A filter-press drying apparatus heated by hot gas penetrating sludge according to claim 3, wherein the drain holes at one side of each of the first filter plates and the second filter plates are connected to a first drain pipe and a drain water control valve, the drain holes at the other side of each of the first filter plates and the second filter plates are connected to a second drain pipe, the hot gas pipe is provided with a hot gas control valve connected to the first drain pipe, so that hot gas passes through the drain holes at one side of each of the first filter plates and the second filter plates from outside to inside, and hot gas enters the two filter chamber sides and the flow guide grooves of each of the first filter plates through the drain holes at one side of each of the first filter plates.

5. A filter-press drying apparatus heated by hot gas penetrating sludge according to claim 1, wherein the two filter chambers of each of the first filter plate and the second filter plate are coated with a membrane respectively, the guide grooves of the two filter chambers are formed on the surfaces of the two membranes, an external pneumatic pipeline is connected between the two filter chambers, the pneumatic pipeline is connected with a compressed air source and a control valve, the compressed air source outputs compressed air to the space between the two membranes of each of the two filter chambers, and the two membranes are expanded to extrude sludge slurry inside the two filter chambers.

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