JP6340447B1 - Sludge dewatering device attached to the belt conveyor water washing device - Google Patents

Abstract

A sludge mixed with powder and water generated by a belt conveyor water washing device is accommodated in a bag having a filtration function, and water in the sludge is automatically and efficiently dehydrated.
A belt in which sludge mixed with powder and water generated when the powder adhering to a return belt of a belt conveyor is washed away with water is sequentially discharged from a sludge outlet 58 of the sludge passage. A sludge dewatering device attached to the conveyor water washing device 5 as a sludge-accommodating bag 10 connected to the sludge outlet 58, while allowing passage of water in the sludge and a granular material in the sludge A bag compression device that uses a flexible container bag that can prevent the passage of the bag 10 and compresses the bag body 10 by pressing the outer surface of the bag body 10 in the vicinity of the bag body 10 connected to the sludge outlet 58. 3 is installed so that the bag body 10 with sludge can be forcibly compressed (dehydrated).
[Selection] Figure 2

Description

  The present invention relates to a belt conveyor in which sludge mixed with powder and water generated when the powder adhering to the belt on the return side of the belt conveyor is washed out with water is sequentially discharged from the discharge port of the sludge passage. The present invention relates to a sludge dewatering device attached to a water cleaning device.

  When conveying an object mixed with particles such as coal, iron ore, and rocks on the belt conveyor, the particles of the object to be transferred adhere to the return side of the belt conveyor. During laps, it may be peeled off from the belt and scattered around (deteriorating the surrounding environment), or may adhere to peripheral equipment and cause failure. In particular, when the adhered granular material is coal powder, there is a risk that the coal powder will ignite and become a fire.

  Therefore, conventionally, a belt conveyor water cleaning apparatus has been developed in which the granular material adhering to the return side belt of the belt conveyor is washed away with water (cleaning water). As conventional examples of this type of belt conveyor water cleaning device, for example, JP-A-9-255131 (Patent Document 1), JP-A-9-328219 (Patent Document 2), and the like are known.

  By the way, in this way, when the granular material adhering to the belt on the return side of the belt conveyor is washed away with water, it is possible to prevent the granular material from scattering to the surroundings as much as possible, but an apparatus using sludge mixed with granular material and water There are various problems such as clogging, waste water treatment after water washing, and troublesome sludge cleaning, and this type of belt conveyor water washing apparatus is not widely used.

  A centrifugal separator is known as a means for concentrating powder by separating water from sludge mixed with powder and water. This type of centrifugal separator is the above-described belt conveyor water cleaning device. The sludge cannot be continuously dewatered by adding to it.

JP-A-9-255131 JP 9-328219 A

  Therefore, the present invention is provided with a belt conveyor water cleaning device in which the powder particles adhering to the belt on the return side of the belt conveyor are washed away with water, and the powder particles and water mixed by the belt conveyor water cleaning device are mixed. Can be stored in a bag body (flexible container bag) having a filtration function to efficiently dehydrate moisture in the sludge, and sludge cake (concentrated sludge) concentrated in the bag body can be collected together with the bag. The purpose of the present invention is to provide a sludge dewatering device.

  The present invention has the following configuration as means for solving the above problems.

[Invention of Claim 1 of the Present Application]
In the invention of claim 1 of the present application, sludge mixed with powder and water (sludge concentration is very thin) generated when the powder adhering to the belt on the return side of the belt conveyor is washed away with water is treated as a sludge passage. The sludge dewatering device attached to the belt conveyor water cleaning device that sequentially discharges from the discharge port is intended.

The sludge dewatering device according to the first aspect of the present invention is a sludge containing bag connected to the discharge port of the sludge passage, while allowing the water in the sludge to pass, while the granular material in the sludge. A bag compression apparatus that uses a flexible container bag that can prevent passage of the bag, and compresses the bag by pressing the outer surface of the bag while the mouth of the bag is connected to the discharge port In addition, the sludge injection from the discharge port into the bag body and the compression of the bag body by the bag compression device are repeated with the mouth portion of the bag body connected to the discharge port. The sludge can be sequentially concentrated in the bag .

  In the following description of the present application, the flexible container bag employed for the bag body is simply referred to as a flexible container bag.

  Since the bag body (flexible bag) used in the sludge dewatering device of the present invention has an advanced filter function that prevents the passage of powder particles (for example, those having a particle size of about 0.1 mm) in the sludge, Water permeability in the natural state is very low. Therefore, it takes a very long time for water to be discharged (dehydrated) naturally from the sludge mixed with powder and water contained in the bag. In particular, when the bag is full, new sludge cannot be injected into the bag, which is not practical.

  Therefore, the sludge dewatering device according to the present invention presses the outer surface of the bag body with the bag body compression device when a predetermined amount of sludge is accommodated in the bag body from the discharge port of the sludge passage, so that the sludge inside the bag body Water can be forcibly squeezed out (dehydrated). When the compression by the bag compression device is released, the next (new) sludge can be accommodated in the compressed bag.

  If a passage opening / closing valve is provided near the discharge port of the sludge passage and the passage opening / closing valve is closed when the bag is compressed, sludge in the bag can be prevented from flowing back to the discharge port.

  The compression operation of the bag body by the bag body compression device is repeatedly performed every time a predetermined amount (for example, about 80 to 90% of the full amount) of sludge is accommodated in the bag body from the discharge port (for example, after a predetermined timer), By repeatedly performing the compression operation in this manner, sludge can be sequentially concentrated in the bag body, and a sludge cake concentrated to a predetermined high concentration can be generated.

  When a sludge cake concentrated to a predetermined high concentration is produced in the bag body, the mouth portion of the bag body is removed from the discharge port, and the concentrated bag body is removed from the forced dehydration unit (portion of the bag body compression device). The new sludge is attached to the forced dewatering section and the next sludge dewatering process is performed.

  According to the first aspect of the present invention, the direction of compression of the bag body compressing device is not particularly limited as long as it can compress the bag body connected to the discharge port. In addition to compression from below, compression from the opposite side of the bag may also be used).

[Invention of claim 2 of the present application]
The invention of claim 2 of the present application is the sludge dewatering device of the invention of claim 1, as a bag compression device, a pallet on which the bottom of the bag connected to the discharge port is placed, and the pallet within a predetermined height range. It is provided with a pallet lifting device that lifts and lowers in the above-described manner, and adopts a device that can compress the bag body from below by raising the pallet with the pallet lifting device. .

  Thus, when the pallet is moved up and down by the pallet lifting device with the sludge-containing bag placed on the pallet, the upper part (mouth) of the bag is tied to the discharge port, There is a function that it can be reliably compressed upward, and that the compressive force acts almost uniformly on the entire area of the bottom surface of the bag.

[Invention of claim 3 of the present application]
The invention of claim 3 of the present application is the sludge dewatering device according to claim 2 of the present invention, wherein the upper movement of the upper surface of the bag body is regulated at the position near the upper surface of the bag body connected to the discharge port when the pallet moves. The bag body upper surface movement restricting member is provided.

  Thus, if the bag body upper surface movement restricting member that restricts the upper surface movement of the bag body when moving the pallet is provided, the bag body upper surface does not bend upward when the bag body is compressed from below. The body can be reliably compressed from above and below.

[Effect of the invention of claim 1 of the present application]
The invention of claim 1 of the present application is a sludge dewatering device attached to a belt conveyor water washing device that sequentially discharges sludge mixed with powder and water from the discharge port of the sludge passage as described above. The sludge dewatering device of the invention of claim 1 uses a flexible container bag having a filter function as a bag body for accommodating sludge that is connected to the discharge port of the sludge passage, while the mouth portion of the bag body is connected to the discharge port. sludge with and a bag compression apparatus the outer surface of the bag body capable of compressing the pressure to the bag body in the state, the bag body mouth portion of the bag body from the outlet while being connected to the outlet The sludge can be sequentially concentrated in the bag body by repeating injection and compression of the bag body by the bag body compression device.

In the sludge dewatering device, the outer surface of the bag body is compressed by the bag body compression device while the sludge mixed with the powder and water generated in the belt conveyor water washing device is contained in the bag body (flexible bag). By doing so, the water in the sludge in the bag body can be forcibly squeezed out through the bag fabric (having a filter function). In addition, sludge injection from the discharge port into the bag body and compression of the bag body by the bag body compressing device are repeated an appropriate number of times every predetermined time.

Therefore, in the sludge dewatering device according to claim 1 of the present application, the sludge mixed with powder and water generated in the belt conveyor water washing device can be continuously dehydrated in the bag body connected to the discharge port, and from the discharge port. Since sludge can be repeatedly injected into the bag body and the bag body compressed by the bag compression device, sludge can be concentrated successively in the bag body (a highly concentrated sludge cake can be generated in the bag body). Is effective.

[Effect of the invention of claim 2 of the present application]
The invention of claim 2 of the present application is the sludge dewatering device of the invention of claim 1, as a bag compression device, a pallet on which the bottom of the bag connected to the discharge port is placed, and the pallet within a predetermined height range. And a pallet lifting device that lifts and lowers the pallet, and the pallet lifting device is used to raise the pallet so that the bag body can be compressed from below.

  Therefore, in the sludge dewatering device according to the second aspect, in addition to the effect of the first aspect, the bag body can be reliably compressed by raising the pallet, and the compressive force acts almost uniformly on the entire area of the bottom surface of the bag body. There is an effect that the sludge inside the bag can be dehydrated almost uniformly.

[Effect of the invention of claim 3 of the present application]
The invention of claim 3 of the present application is the sludge dewatering device according to claim 2 of the present invention, wherein the upper movement of the upper surface of the bag body is regulated at the position near the upper surface of the bag body connected to the discharge port when the pallet moves. A bag body upper surface movement restricting member is provided.

  Therefore, in the sludge dewatering device according to the third aspect, in addition to the effect of the second aspect, the bag body movement regulating member regulates the upward movement of the upper surface of the bag body when the pallet moves up (the bag body from below). Since the upper surface of the bag body does not bend upward during compression), there is an effect that the bag body can be reliably compressed from above and below (dehydration efficiency is improved).

It is the schematic of the state which attached the sludge dehydration apparatus of the Example of this application to the belt conveyor water washing apparatus. FIG. 2 is a front view of a sludge dewatering device according to an embodiment of the present invention employed in the installation example of FIG. 1. FIG. 3 is a plan view of the sludge dewatering device of FIG. 2. FIG. 3 is a left side view of the sludge dewatering device of FIG. 2. It is explanatory drawing of the bag body compression state from FIG. It is explanatory drawing of the spin-drying | dehydration process performed in an Example of this application. It is work explanatory drawing after completion | finish of spin-drying | dehydration from FIG.

  Hereinafter, the sludge dewatering device according to the present embodiment will be described with reference to FIGS. 1 to 7. The sludge dewatering device according to this embodiment is configured such that the powder particles attached to the return side belt 52 of the belt conveyor 50 as shown in FIG. 1. It is used together with the belt conveyor water washing device 5 in which the body is washed away with water (washing water).

As shown in FIG. 1, when an object mixed with powder, such as coal, iron ore, or rock, is conveyed by the belt conveyor 50, the conveyed object (object) is transferred from the terminal end of the conveying side belt (upper surface side) 51. As indicated by an arrow A, it is discharged downward and is supplied to a predetermined place by another conveyor 9. On the return side belt 52, which is the lower surface side of the belt conveyor 50, the granular material contained in the conveyed product is present. It is attached. When the granular material adheres to the return side belt 52, various adverse effects occur as described in the background section.

  Therefore, as shown in FIG. 1, the sludge dewatering device 1 of the embodiment of the present application is also provided in the belt conveyor water cleaning device 5 in which the powder particles adhering to the return side belt 52 of the belt conveyor 50 are washed away with water. doing.

  The belt conveyor water cleaning device 5 shown in FIG. 1 includes a fountain nozzle 54 in a water washing bucket 53 installed so as to surround a part of the return side belt 52, and water is supplied from the fountain nozzle 54 to the return side belt 52. By spraying, the granular material adhering to the return side belt 52 is washed away. The granular material / water mixed sludge washed away with water is sent from the bottom of the water washing bucket 53 to the sludge dewatering device 1 described later through the sludge conduit 55.

  The sludge dewatering device 1 according to the embodiment of the present invention is provided in the belt conveyor water washing device 5 as shown in FIG. 1, and is mixed with powder and water mixed through the sludge conduit 55 and a discharge pipe 56 described later. The sludge is dewatered (concentrated) in the bag body 10.

  The details of the sludge dewatering device 1 of this embodiment will be described later. Here, the outline of the sludge dewatering device 1 will be described with reference to FIG.

  The sludge dewatering device 1 is installed in a machine frame 2 having a lower frame 21 on the lower side and an upper frame 22 on the upper side. A discharge pipe 56 (details will be described later) to which the lower end of the sludge conduit 55 is connected is installed at the upper position of the upper frame body 22. The lower end of the discharge pipe 56 is a sludge discharge port 58.

  A pallet 30 that is a part of the bag compression device 3 is arranged at a position near the lower part in the upper frame 22 so as to be movable up and down as indicated by an arrow H. The bag body 10 is placed on the pallet 30, and the bag body 10 has its mouth portion 11 secured to the discharge port 58 by a securing tool 59.

  A water tank 60 for storing water W squeezed from the bag body 10 is installed in the lower frame body 21 of the machine frame body 2. The water in the water tank 60 is supplied to the fountain nozzle 54 in the water washing bucket 53 by the water circulation control device 6 and used for washing the granular material.

  The water circulation control device 6 includes a water level detector 61 for detecting the water level in the water tank 60, a strainer 62 installed in the water tank 60, a water pump 63 driven by a motor 64, and various pipes (reference numerals 65, 67, 69, 71). 73), and various solenoid valves (reference numerals 66, 68, 70, 72, 74) for controlling water flow to each pipe. The details of the control by the water circulation control device 6 will be described later. The water supplied to the fountain nozzle 54 is supplied with a washing bucket 53, a sludge conduit 55, a discharge pipe 56, a bag body 10, a water tank 60, a strainer 62, a pipe 65, It is made to circulate through the water pump 63 and the piping 67, respectively.

  Next, the sludge dewatering device 1 of this embodiment will be described with reference to FIGS. 2 to 5 together with FIG. 1. The sludge dewatering device 1 of this embodiment includes a lower frame body 21 configured by assembling a frame material. The machine frame 2 having the upper frame 22, the bag body (flexible bag) 10 used as a sludge dewatering filter, and the bag body compression for compressing the sludge-containing bag body 10 in the upper frame 22 The apparatus 3 is a basic configuration.

  The bag body (flexible bag) 10 used in the sludge dewatering apparatus of this embodiment has an advanced filter function that prevents passage of powder particles (for example, those having a particle size of about 0.1 mm) in the sludge. . The size of the bag body 10 is not particularly limited, but for example, a size of about 100 cm × 100 cm × 100 cm can be used.

  The lower frame 21 of the machine frame 2 is formed of a frame material, for example, having a front and rear length of 330 cm, a left and right width of 155 cm, and a height of about 92 cm and a hollow frame inside. On the other hand, the upper frame 22 of the machine frame 2 is made of a similar frame material, for example, with a front-rear length of 130 cm and a left-right width of 155 cm at a height slightly above the front-rear central portion of the lower frame 21. Is about 170 cm in size, and the inside is formed in a hollow frame shape. In addition, the size (each said dimension) and shape of the lower frame body 21 and the upper frame body 22 are not limited to said thing, Of course, it can change a design suitably.

  A water tank 60 is installed inside the lower frame body 21. The water tank 60 is open on the entire upper surface side, and the water W that has oozed out of the bag body (flexible bag) is stored in the water tank 60 as it is, as will be described later.

  A portion surrounded by the upper frame body 22 on the lower frame body 21 serves as a forced dewatering portion 23 for forcibly dewatering sludge in the bag body 10. At the bottom of the forced dewatering unit 23, a first roller unit 25 that can be moved forward and backward by placing a pallet 30 for placing a bag body is installed. The first roller portion 25 is configured by installing a total of five (the number of rollers is not particularly limited) single-sided rollers with a slight gap in the front-rear direction.

  The rear side portion of the upper frame body 22 on the lower frame body 21 becomes a natural dewatering section 24 for temporarily waiting the bag body 10 after the forced dewatering section 23 forcibly dewatering to dehydrate naturally. is there. At the bottom of the natural dewatering unit 24, a second roller unit 26 is installed which can be moved forward and backward by placing a pallet 30 for placing a bag. The second roller portion 26 is configured by installing a total of six (the number of rollers is not particularly limited) single-sided rollers with a slight gap in the front-rear direction.

  A discharge pipe 56 to which the lower end of the sludge conduit 55 is connected is installed at an upper position of the upper frame body 22. Although not shown, the discharge pipe 56 is fixed to the upper frame 22 in a stationary state. And the lower end part of this discharge pipe 56 becomes the discharge port 58 of sludge. In this embodiment, the sludge conduit 55 and the discharge pipe 56 constitute a sludge passage in the claims.

  In the middle of the discharge pipe 56, a passage opening / closing valve 57 for opening and closing the passage in the discharge pipe is provided. The passage opening / closing valve 57 closes the passage in the discharge pipe 56 when the sludge-containing bag body 10 is compressed as will be described later, and prevents sludge in the bag body 10 from flowing backward to the discharge port 58 side. belongs to.

  The bag compression apparatus 3 is installed in the upper frame 22 portion. The bag compression device 3 includes a pallet 30 on which the bag 10 is placed, and a pallet lifting device 31 that lifts and lowers the pallet 30 within a predetermined height range.

  Although the structure of the pallet 30 is not particularly limited, in this embodiment, a spacing member is interposed between the upper and lower plate surfaces, and a fork lift fork can be inserted and lifted between the upper and lower plate surfaces. Is adopted. The plane size of the pallet 30 is suitably about 100 cm × 100 cm.

  The pallet elevating device 31 is configured so that the elevating platform 41 for placing the pallet 30 can be raised and lowered by the elevating drive device 32.

  Although the structure of the lifting drive device 32 will be described later, the structure of the lifting table 41 will be described first. This lifting table 41 is formed between the two left and right vertical plates 42 and 43 having a slightly larger interval than the left and right intervals of the pallet 30. Further, a plurality of (six) vertical ribs 44, 44,... Are integrally provided in a lateral orientation. As will be described later, the elevator base 41 pushes up the lower surface of the pallet 30 with the upper end surfaces of the vertical ribs 44, 44,. 2 to the state shown in FIG. 4), the vertical ribs 44, 44... Enter the space between the single rolls of the first roller portion 25, and the vertical ribs 44, 44. The end surface is set to be slightly below the upper end surface (maximum height surface) of each single roll. Therefore, when the elevator 41 is lowered to the lowest position, the lower surface of the pallet 30 is transferred from the vertical ribs 44, 44... To the upper surface of the first roller portion 25.

  The elevating drive device 32 includes an extendable cylinder 33 and a power transmission mechanism 34 that transmits the power of the extendable cylinder 33 to the elevating table 41. The extension cylinder 33 employs an electric power cylinder in this embodiment, but may be a hydraulically operated extension cylinder.

  In this embodiment, as shown in FIG. 2, only one expansion cylinder 33 is used at a position near the outside of the machine frame 2 and at a position near the rear side of the front and rear width of the upper frame 22. Two telescopic cylinders 33 may be used with an interval in the front-rear direction.

  The power transmission mechanism 34 includes a first shaft 35 and a second shaft 36 provided on the upper surface of the upper frame 22 in a parallel state, and a total of four drive-side sprockets 37 a, 37 b, 37 c and 37 d attached to the first shaft 35. And a total of two driven sprockets 38a, 38b attached to the second shaft 36, and a total of four chains 39a, 39b, 39c, 39d wound around the respective subrockets. Each end of each chain (four in total) is divided into two left and right vertical plates 42, 42 of the lifting platform 41 and connected in two places. The base ends of the two chains 39a and 39b are fixed to the rod tip of the telescopic cylinder 33, respectively, while the base ends of the other two chains 39c and 39d are fixed to the weight member 40, respectively. ing.

  In this embodiment, when the telescopic cylinder 33 is extended (see FIGS. 2 and 4), the elevating platform 41 is moved downward via the power transmission mechanism 34 (each chain and each sprocket), while the telescopic cylinder 33 is reduced. Then (see FIG. 5), the lifting platform 41 is moved up via the power transmission mechanism 34 (each chain and each sprocket).

  The pallet 30 is placed on the lifting platform 41, and the lower surface of the bag body 10 is placed on the pallet 30, and the bag body 10 placed on the pallet 30 with the lifting platform 41 in the lowest movement state. The mouth portion 11 is located at a position reaching the discharge port 58 of the discharge pipe 56.

  The lifting stroke of the pallet 30 by the pallet lifting / lowering device 31 is, for example, within the height range indicated by the symbol H shown in FIG. It can be set to about 60 to 70 cm (this numerical value is not particularly limited). When the pallet 30 is moved up to a height of 30 ', the bag placed on the pallet 30 is compressed upward as indicated by 10'.

  In the vicinity of the upper surface of the bag body 10 connected to the discharge port 58, a bag body upper surface movement restricting member 15 is provided for restricting the upper surface 12 of the bag body 10 from moving upward when the pallet 30 is moved upward. In the following description, the bag body upper surface movement restricting member is simply referred to as an upper movement restricting member.

  In this embodiment, for example, a ring body having an inner diameter of about 60 cm is used as the upward movement restricting member 15, and the ring body is installed at a position near the upper surface of the bag body 10 so as to surround a position immediately below the discharge port 58. doing. The upper movement restricting member (ring body) 15 is supported in a fixed state by a stay from the upper part of the upper frame body 22. The upper movement restricting member (ring body) 15 may be provided in an inner / outer double or a donut plate shape having a width in the horizontal direction.

  Next, the operation method and function of the sludge dewatering device 1 of this embodiment will be described with reference to FIGS.

  In order to set the bag body 10 to the use position, the elevator 41 is moved to the lowest position, and the pallet 30 is placed on the elevator 41 (the respective vertical ribs 44, 44...). The mouth portion 11 of the bag body 10 is connected (secured) to the discharge port 58 and the bottom surface of the bag body is placed on the pallet 30 (as shown by the chain line in FIGS. 2 and 4). At this time, sludge discharge from the discharge port 58 is stopped (the water pump for water supply 63 to the fountain nozzle 54 is stopped). In this state, the bag 10 is empty as shown in FIG.

  2 and 4, the granular material (sludge S) washed away in the washing bucket 53 is sent to the discharge pipe 56 (arrow S) through the sludge conduit 55 (FIG. 1), and its lower end. Sludge is sequentially injected into the bag 10 from the outlet 58 of the section.

  The water in the sludge injected into the bag body 10 gradually naturally flows out of the bag from the side peripheral surface and the bottom surface of the bag due to the filter function of the bag fabric, as indicated by the symbol W in FIG. The effluent water W is dropped and stored in the lower water tank 60. Further, when water flows out from the sludge in the bag body 10, the powder particles in the sludge are indicated by the symbol T on the inner surface (side circumferential surface and bottom surface) of the bag fabric as time passes. In this way, it becomes a sludge cake (concentrated sludge) and adheres and accumulates. In addition, when the low-concentration sludge S is filled up to a predetermined amount (for example, about 80 to 90% of the full amount) in the bag body 10, it is preferable to stop the water pump 63 for water supply to the fountain nozzle 54 (to the bag body 10). Can be prevented).

  Next, after a predetermined time has elapsed (for example, at intervals of 15 minutes), the expansion cylinder 33 of the bag compression device 3 is contracted as shown in FIG. The passage opening / closing valve 57 provided at 56 is closed. Thus, when the passage opening / closing valve 57 is closed, sludge in the bag body 10 does not flow backward to the discharge pipe 56 side when the bag body 10 is compressed upward as will be described later.

  When the telescopic cylinder 33 is contracted, the lifting platform 41 and the pallet 30 are moved upward via the power transmission mechanism 34 and the bag body 10 is compressed upward, so that the water in the bag body 10 is shown in FIG. 6C, the bag body is forcibly dehydrated to the outside through the bag fabric and the sludge cake T adhering to the side peripheral surface of the inner surface of the bag body 10 is peeled off from the side peripheral surface. Deposited on the bottom surface (see FIG. 6C). At this time, when the pallet 30 is moved upward, the upper surface 12 of the bag body 10 is pushed upward (bends upward), but the upper movement restricting member ( Since the ring body 15 is provided, the upper surface of the bag body does not bend upward (the bag body can be reliably compressed from above and below).

  Thereafter, by extending the telescopic cylinder 33 of the bag compression device 3, the elevator 41 and the pallet 30 that have been moved upward as shown in FIG. 6D are lowered to extend the bag 10 downward (empty). The volume is increased), and the injection of the next sludge S into the bag body 10 is allowed.

Then, in the state of FIG. 6D, the next sludge S is injected into the bag body 10 and naturally dehydrated from the sludge S in the bag body for a predetermined time by the filter function of the bag fabric, and then in FIG. 6E. by actuating the bag body compressor 3 (a pallet 30 upward movement) is as shown, by compressing the bag body 10 upwards, together with the forces dewatered sludge S of the bag body 10, the bag body 10 inner surface of the The sludge cake T adhering to the side peripheral surface is deposited on the bag bottom surface.

  In this manner, the bag body 10 on the pallet 30 is repeatedly compressed and expanded by the bag body compressing device 3 every predetermined time, so that the sludge S newly injected into the bag body 10 is automatically and sequentially dewatered ( 6), the bag body 10 is filled with the high-concentration sludge cake T as shown in FIG.

When a predetermined amount of sludge cake T is generated in the bag body 10 on the pallet 30 (see FIG. 6 (F)), the forcible dewatering section 23 discharges the mouth portion 11 of the bag body 10 as shown in FIG. tied the mouth portion 11 removed from 58, the sludge cake containing bag 10 remains placed on the pallet 30, to a second roller portion 26 of the natural dewatering section 24 from above the first roller portion 25 of the forced dewatering section 23 If the forced dehydration unit 23 that has been moved and emptied is equipped with the next pallet 30 and the bag 10, the sludge dewatering device 1 can perform the next sludge dewatering operation.

  The sludge cake-containing bag body 10 moved to the natural dewatering unit 24 still contains a large amount of moisture even if the sludge cake T inside is concentrated, and gradually passes through the bag dough even in the natural state. The water that oozes out from the bag fabric can be dropped and accommodated in the lower water tank 60.

  When the natural dehydration unit 24 stops water from the bag 10 after the predetermined time has elapsed, the series of processing is completed by carrying the sludge cake bag 10 together with the pallet 30 to a predetermined position by a forklift. In addition, when the sludge cake in the bag body 10 is coal powder, this sludge cake can be utilized as fuel.

  When the sludge dewatering device 1 of this embodiment is used, the sludge S mixed with powder and water generated in the belt conveyor water washing device 5 can be continuously dehydrated in the bag body 10, and the bag body is used as the dewatering means. Since the compression device 3 is used, water in the sludge in the bag body 10 can be forcibly discharged efficiently.

  In this embodiment, the bag compression device 3 includes a pallet 30 on which the bottom of the bag body 10 is placed and a pallet lifting device 31 that lifts and lowers the pallet 30 within a predetermined height range. The apparatus 31 employs a device that allows the bag body 10 to be compressed from below by moving the pallet 30 upward. Therefore, the bag body 10 can be reliably compressed, and the compressive force acts almost uniformly on the entire area of the bottom surface of the bag body, so that sludge inside the bag body can be dehydrated almost evenly.

  Further, since the bag body upper surface movement restricting member 15 for restricting the upper surface movement of the bag body 10 when the pallet moves upward is provided in the vicinity of the upper surface of the bag body 10 connected to the discharge port 58, Since the upper movement regulating member 15 of the bag body restricts the upper movement of the upper surface of the bag body 10 during movement (because the upper surface of the bag body does not bend upward when the bag body is compressed from below), the bag body 10 is reliably moved up and down Can be compressed (dehydration efficiency is improved).

  Incidentally, in this embodiment, as shown in FIG. 1, the water circulation control device 6 circulates and uses the water dehydrated from the sludge by the sludge dewatering device 1 as water for belt conveyor cleaning.

  In this water circulation control device 6, in order to supply water to the fountain nozzle 54 for cleaning the return side belt 52, the water pump 63 is operated with the electromagnetic valves 66 and 68 opened and the electromagnetic valves 70, 72 and 74 closed. By operating, the water in the water tank 60 can be supplied to the fountain nozzle 54 through the pipes 65 and 67 via the strainer 62.

  The water level in the water tank 60 is always detected by a water level detector 61. When the water level detector 61 detects the minimum water level (replenishment is required), the electromagnetic valve 70 is opened to replenish makeup water into the water tank 60 via the strainer 62, and the water level detector 61 is at the maximum water level (excess water level). Is detected, the solenoid valves 66 (or 72) and 74 are opened, the solenoid valve 68 is closed, and the water pump 63 is operated, whereby the water in the water tank 60 can be discharged through the pipe 73.

  In addition, when operating for a long period of time, sludge may accumulate on the bottom 60a of the water tank 60. In this case, the electromagnetic valves 72 and 74 are opened, the electromagnetic valves 66 and 68 are closed, and the water pump 63 is operated. By doing so, sludge accumulated at the bottom of the water tank 60 through the pipe 73 can be discharged.

  1 is a sludge dewatering device, 2 is a machine frame, 3 is a bag compression device, 5 is a belt conveyor water washing device, 6 is a water circulation control device, 10 is a bag, 11 is a mouth of the bag, and 12 is a bag. 15 is a bag body upper surface movement restricting member, 21 is a lower frame body, 22 is an upper frame body, 23 is a forced dewatering section, 24 is a natural dewatering section, 25 is a first roller section, and 26 is a second roller section. , 30 is a pallet, 31 is a pallet lifting device, 32 is a lifting drive device 41 is a lifting platform, 50 is a belt conveyor, 52 is a return side belt, 53 is a washing bucket, 55 is a sludge conduit, 56 is a discharge pipe, and 58 is a discharge pipe. An outlet, 60 is a water tank, S is sludge, T is sludge cake, and W is effluent water.

Claims (3)

To the belt conveyor water washing device that discharges sludge mixed with powder and water that is generated when the powder adhering to the belt on the return side of the belt conveyor is washed away with water from the outlet of the sludge passage. It is a sludge dewatering device attached,
While using a flexible container bag that allows passage of water in the sludge while preventing passage of powder in the sludge as a bag for sludge accommodation connected to the discharge port ,
With a bag compression device capable of compressing the bag by pressing the outer surface of the bag with the mouth of the bag connected to the outlet ,
Sludge injection in the bag body is repeated by injecting sludge into the bag body from the discharge port and compressing the bag body by the bag body compression device with the mouth portion of the bag body connected to the discharge port. It is configured to be able to concentrate sequentially,
A sludge dewatering device attached to a belt conveyor water cleaning device. The bag compression device includes a pallet on which the bottom of the bag connected to the discharge port is placed, and a pallet lifting device that lifts and lowers the pallet within a predetermined height range. The bag body can be compressed from below by raising the pallet.
A sludge dewatering device provided in the belt conveyor water cleaning device according to claim 1. A bag body upper surface movement restricting member is provided in the vicinity of the upper surface of the bag body connected to the discharge port to restrict the upper surface movement of the bag body when the pallet moves up.
A sludge dewatering apparatus provided in the belt conveyor water cleaning apparatus according to claim 2.

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