KR200273328Y1 - Roller Structure for Dehydrator - Google Patents

Abstract

The present invention arranges the rollers installed in the sludge dewatering device in an oblique direction to maximize the dewatering effect of the filter cloth and improves the dewatering efficiency, and the sludge dewatering device which can collect the dehydration liquid from the rollers of each stage with a single collection tank. The roller structure of the The roller structure of the present invention has a dewatering interlocking roller installed in parallel with at least one diagonal to the frame, and a water collecting tank for collecting the dehydrating liquid which is installed at the lower part of the dehydrating interlocking roller and dropped to the lower part of the dehydrating interlocking roller in each stage. It consists of. With this configuration, the dehydration interlocking rollers are arranged diagonally to increase the compression area of the up and down rollers and at the same time increase the dewatering efficiency, enabling efficient dewatering treatment in a simple structure. By making it possible to collect and collect, it is possible to achieve economical production with a simple structure, and to reduce industrial waste generated by efficient dehydration, as well as to reduce operating cost of belt press, product production cost and cake processing cost.

Description

Roller Structure for Sludge Dewatering Equipment

The present invention improves the roller structure of the sludge dewatering device. More specifically, the rollers respectively installed in the sludge dewatering device are arranged in an oblique direction to maximize the dewatering effect of the filter cloth, and the dewatering efficiency is increased, and each step is carried out in one collection tank. It relates to the roller structure of the sludge dewatering device that can collect the dehydration liquid from the roller.

In general, sludge dewatering equipment is to remove the water of processed sludge generated during the operation of industrial waste treatment facilities, sewage, sewage treatment facilities, and environmental wastewater treatment facilities such as agriculture and livestock. While moving along the guide roller of the high-water content sludge supplied to the filter cloth by dehydration to separate the water and cake.

Such a conventional sludge dewatering device is injected into the sludge storage tank by the flocculating sludge is injected between the upper and upper super-foam (filtration belt) circulated along a plurality of rollers, the vertical and horizontal with the driving roller by the drive motor By circulating between the guide rollers installed in a zigzag shape in the direction, water is dehydrated and dropped under the filter cloth by the pressure of the upper and upper fabrics pressed into the rollers, and the cakes can be separately collected and disposed of.

However, the sludge dewatering apparatus used in the related art can reduce the total length of the dewatering apparatus when the arrangement of the rollers is arranged vertically, but the water dewatered to the lower portion of the filter cloth when the sludge passes through the filter cloth is disposed thereunder. It fell to the rollers and fell back to the filter cloth and sludge could not achieve an effective dehydration action. In order to prevent the dehydration effect from being deteriorated, water collecting tanks are installed at the lower stages of the rollers and the filter cloths, but this is complicated by the structure of the device and it is impossible to install the water collecting tanks by the entire length between the rollers. The solution is insufficient.

In addition, when the configuration arrangement of the roller is arranged in a horizontal state can reduce the overall height of the dewatering device, but because the length is enlarged and the occupied area according to the installation becomes large, the production cost is excessive.

In addition, when the arrangement of the rollers is vertical or horizontal, the contact area of the filter cloth wound around the rollers in each stage does not exceed half of the outer diameter of the rollers, so that the pressure to be injected is reduced, so that the dehydration performance of the water present in the sludge is reduced. There is a problem that can not achieve an effective dehydration effect by causing the presence of moisture in the sludge is weak.

The present invention has been devised to solve such a conventional problem, the interlocking rollers for the dewatering respectively installed in the sludge dewatering device is arranged in an oblique direction, and the dehydration liquid from each of the rollers is collected in a single collection tank It is possible to reduce the installation area of the device by maximizing the dewatering effect of the filter cloth and to increase the dewatering efficiency to achieve economic manufacturing, and to effectively collect the dehydrated liquid dehydrated at all stages in one collection tank to achieve economic and efficient dewatering action. It is to provide a roller structure of the sludge dewatering device.

The roller structure of the sludge dewatering device of the present invention for achieving the above object is a roller arranged at least one or more in the vertical or horizontal direction of the frame, and the filter cloth is arranged up and down respectively by the rollers are arranged in a zigzag form each In the apparatus for dewatering sludge in stages, a dehydration interlocking roller is installed at least one parallel to the frame in an oblique direction, and a dehydration liquid installed at a lower portion of the dehydration interlocking roller and dropped to a lower portion of each stage of the dehydration interlocking roller. It consists of a sump to collect them into one.

Wherein the dewatering interlocking roller is installed at least one or more on one support arranged in the diagonal direction to the frame, the upper and lower limbs bound in a zigzag state is arranged in close contact with the outer diameter surface 3/4 range of one dewatering interlocking roller It is preferable.

Here, the water collecting tank is preferably formed in a V shape corresponding to the diagonal direction of the dehydration interlocking roller.

1 is a front view of the sludge dewatering apparatus of the roller structure according to the present invention

Figure 2 is a block diagram showing an excerpt of the roller arrangement state according to the present invention

Figure 3 is a main view of the filter cloth wound on the roller according to the present invention

* Description of the symbols for the main parts of the drawings *

10; Frames 20a to 20h; Dewatering and Interlocking Roller

30; Upper filtrate 32; Lower filtration cloth

40; Sump 50; support fixture

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view showing a sludge dewatering apparatus to which a roller structure according to the present invention is applied, and FIG. 2 is a schematic view showing a main part state by extracting a roller arrangement according to the present invention. Figure 3 shows a state in which the filter cloth wound around the roller according to the present invention.

1 to 3, the roller structure of the sludge dewatering apparatus of the present invention, a plurality of section steel is assembled vertically and horizontally to provide a frame 10, a plurality of dewatering interlocking roller in the frame 10 (20a ~ 20h) is installed to wind the upper and upper super-cannon 30, 32 in a zigzag state, and a water collecting tank 40 for collecting the dehydration liquid to be dewatered and dropped in the lower portion of the dehydration interlock roller (20a ~ 20h) long It is installed.

Dehydration interlocking rollers (20a ~ 20h) is disposed on one side of the frame 10, the dehydration interlocking roller (20a) at the tip has a larger diameter than the other and is arranged in an independent state to have a preliminary dewatering function. In addition, the upper and lower separate superintendents 30 and 32 are separated and guided to perform a basic role.

Thus, the upper and lower superfoams 30 and 32 collected on the basis of the dehydration interlocking roller 20a (stacked and built in sludge) are arranged side by side in a vertical state on a support 50 attached in a diagonal direction of the frame 10. It is connected to the dehydration interlocking roller (20b-20h) that is supported in a staggered state.

Here, the upper and upper super-foams 30 and 32 are bound in a state in which 3/4 ranges are in close contact with the outer diameter surfaces of the dehydration interlocking rollers 20a to 20h.

In addition, one water collecting tank 40 which is supported and fixed to the frame 10 is installed at the lower end of the dehydration interlocking roller 20a to 20h.

The sump 40 consists of a single body, has a predetermined depth, one side is long and inclined, and the other side is made of a V-shape as a whole.

The water collection tank 40 is configured to collect the dewatering liquid to be drained by the dehydration operation of the dehydration interlocking roller (20a ~ 20h) step by step, and connected to the drainage pipe (not shown) to be drained.

The upper and lower one side of the frame 10 is provided with a tension adjusting unit 60, 70 that can maintain the upper and lower filter cloth 30, 32 a moderate tension. In addition, a cleaning unit 80 for cleaning the upper and lower filter cloths 30 and 32 is disposed at one central side of the frame 10, and a driving unit 90 is disposed at one upper end of the frame 10.

When the driving unit 90 is driven, the present invention having such a configuration is provided with a plurality of upper and lower superfoams 30 and 32 which are installed on the frame and are connected to the guide rollers and the dehydration interlocking rollers 20a to 20h. In the state of maintaining the tension (circulation), the sludge mixed with a liquid flocculant in the mixing tank 100 is supplied in the form applied to the lower filter cloth (32).

The sludge is moved to a state of being loaded and maintained in the lower filter cloth 32 at a predetermined thickness, and then overlaps with the upper filter cloth 30 while the sludge is built on the basis of the dehydration interlocking roller 20a. A large amount of water is primarily dehydrated while passing through the roller 20a. At this time, the dehydration liquid to be dewatered is collected by dropping into the collection tank 40 of the lower.

The primary dewatered sludge is continuously circulated in accordance with the progression of the upper and lower smokers 30 and 32 to move to the dehydration interlocking rollers 20b to 20h which are installed in the diagonal direction on the support 50. When the upper and lower parts of the dehydration interlocking roller (20b ~ 20h) is pressed and pressed respectively by the rotational force so that the water contained in the sludge is dewatered and collected in the V-shaped collection tank 40 installed in the frame 10 and collected .

In this process, the falling water dropped by the dehydration interlocking rollers 20a to 20h is accommodated in one water collecting tank 40 and is guided to the left and right slopes to form a drainage state.

The sludge dehydrated through such a process is discharged to the outside by the separating operation of the upper and upper superfoams 30 and 32 and is collected and recycled or discarded through a collecting device (not shown).

Here, the tension adjusting unit 60 (70) is relaxed in the process of circulating the upper and upper super-cannon (30, 32) when the guide roller is moved by a fixed distance by a bracket that is operated by the cylinder when the proper tension is not maintained. The upper and upper super-foam fabric 30, 32 is wound on the outer edge to maintain a constant tension.

And the upper and upper super-foam (30, 32) in close contact with the dehydration interlocking roller (20a ~ 20h) is squeezed to the 3/4 range in the outer diameter of the dehydration interlocking roller (20a ~ 20h) and pressed to maximize the dewatering operation to dewatering the sludge The operation is simple in structure and can be dehydrated in a short time.

As described above, the present invention has a dehydration interlocking roller arranged in an oblique direction to enlarge the compression area of the upper and upper fruit fabrics and at the same time increase the dehydration efficiency, so that efficient dewatering treatment is possible in a simple structure. It enables economical production with a simple structure by collecting and collecting falling water discharged from the city, reducing the industrial waste generated by efficient dewatering operation, reducing the operating cost of belt press, and reducing the production cost and cake processing cost. There is.

Claims (3)

In the apparatus for dewatering the sludge in each step while the rollers arranged at least one in the vertical or horizontal direction of the frame and the filter cloth arranged up and down are overlapped by the rollers are arranged in a zigzag form, A dewatering interlocking roller installed at least one parallel to the frame in an oblique direction; The roller structure of the sludge dewatering device, characterized in that the dewatering interlocking roller is installed in the lower portion of the dehydration interlocking roller for each stage to collect the dehydration liquid falling to the lower portion. The method of claim 1, The dewatering interlocking roller is installed at least one or more on one support disposed in the diagonal direction to the frame, the upper and upper super-foams bound in a zigzag state is arranged in close contact with the outer diameter surface 3/4 range of one dewatering interlocking roller. Roller structure of sludge dewatering device characterized by the above-mentioned. The method of claim 1, The water collection tank is a roller structure of the sludge dewatering apparatus, characterized in that the V-shape corresponding to the diagonal direction of the dehydration interlocking roller.