RU108318U1 - BELT FILTER PRESS FOR DRAINAGE DRAINAGE - Google Patents

Abstract

 1. A belt filter press for sludge dewatering, comprising a drive, a receiving chamber for feeding sludge, a frame, a set of functional shafts mounted on the frame, filter belts configured to pull on the functional shafts, devices for draining the filtrate and washing water and a tensioning device comprising at least one tension shaft and at least one tension cylinder connected to each other, characterized in that the tension device further comprises a compensation shaft assembly, including at least at least two compensation shafts and levers of their fastening to the frame. ! 2. The belt filter press according to claim 1, characterized in that it contains two tension cylinders, which are pneumatic. ! 3. The belt filter press according to claim 1, characterized in that the levers for attaching the compensation shafts to the frame are double-arm. ! 4. The belt filter press according to claim 1, characterized in that the pneumatic tension cylinders are fixed on both sides of the frame by means of pins. ! 5. The belt filter press according to claim 1, characterized in that the tension shaft is fixed to the frame by means of brackets provided with articulated supports. ! 6. The belt filter press according to claim 1, characterized in that the set of functional shafts comprises drive, squeeze and trailing shafts.

Description

The utility model relates to equipment for sludge dewatering in a continuous mode, in particular to the design of belt filter presses.

Modern continuous belt filter presses are used to separate liquid heterogeneous systems under pressure into a liquid phase (filtrate) and a solid phase (directly dehydrated product). Filter presses are used to filter a wide class of suspensions, and they are also suitable for separating suspensions with a low concentration of solid particles and suspensions with an elevated temperature, the cooling of which is unacceptable due to the precipitation of crystals from the liquid. Currently, belt filter presses are widely used in sewage treatment plants, drinking water treatment plants, livestock farms, sugar production enterprises, the food industry, coal and mining industries, in the production of building materials, as well as in pulp and paper, woodworking , textile, leather, oil and chemical industries. Such widespread filter belt presses are due to their simple and reliable design, which allows for high efficiency of dehydration of feedstock and ease of operation. However, the trend remains to simplify and optimize the design of the belt filter press, which allows to increase the efficiency of sludge dewatering and its operation as a whole.

The closest analogue of the claimed utility model is a belt filter press described in Korean Patent No. 100797946, comprising a drive, a receiving chamber for feeding sludge, a frame, a set of functional shafts mounted on the frame, filter belts configured to tension on functional shafts, devices for draining the filtrate and washing water, and a tension device comprising at least one tension shaft and at least one tension cylinder connected to each other. The tension cylinder is hydraulic. Using a tension cylinder allows you to control the pressure exerted by the shafts on the filter belts, and, accordingly, to control the degree of sludge dewatering.

The disadvantages of the described solution include the insufficient efficiency of sludge dewatering due to the design of the described technical solution, since it is possible to control the pressure exerted by the shafts only on the upper filter belt, which in turn does not allow to compensate for the difference in tension between the upper and lower filter belts.

The utility model is based on the task of developing a belt filter press for sludge dewatering, which, due to the reliability and simplicity of its design due to the presence of a tensioning device, allows to increase the efficiency of dewatering of the treated sludge, improve the operational characteristics of the filter press as a whole, and increase its economic efficiency operation due to uniform tension of tapes.

The problem is solved by the fact that a belt filter press for sludge dewatering was developed, containing a drive, a receiving chamber for feeding sludge, a frame, a set of functional shafts mounted on the frame, filter belts made with the possibility of tension on functional shafts, devices for draining the filtrate and washing water, and a tension device comprising at least one tension shaft and at least one tension cylinder connected to each other, characterized in that the tension device further comprises node t compensating shafts, comprising at least two compensation levers shaft and attaching them to the frame. Such an implementation of the utility model ensures the simplicity of design and the reliability of the belt filter press due to the design of the tensioner, which allows to increase the efficiency of dewatering of the processed sludge, improve the operational characteristics of the filter press as a whole, and also increase the economic efficiency of the filter belt press. The tensioning device is designed to tension the filter press belts and create pressure on the sediment layer located between the belts to wring moisture. By the pressure of compressed air in the pneumatic tension cylinders it is possible to regulate the pressure of the tapes on the squeezed deposit, depending on its properties. The design of this tensioner allows you to stretch the filter press tapes using only two pneumatic cylinders instead of four, as is used in the known designs of filter press belt tensioners with two filter tapes. The constructive connection of the tension shaft with pneumatic tension cylinders allows you to automatically change the spatial position of the tension roller when the volume of the dehydrated sludge changes, while maintaining the required degree of tension of the filter belts.

It is advisable to implement such a utility model in which the levers of fastening the compensation shafts to the frame are double-arm, and due to the presence of articulated bearings, the difference in the tension forces of the filter belts on the compensation shafts is balanced.

It is also advisable to implement such a utility model in which a pneumatic tension cylinder is fixed on both sides of the frame by means of pins, which in turn allows for high reliability of the inventive belt filter press and, accordingly, high efficiency of sludge dewatering.

Preferred is the implementation of a belt filter press in which the tension shaft is fixed to the frame by means of brackets provided with hinged supports. This embodiment of the utility model allows for the possibility of radial displacement of the tension shaft, which in turn provides simultaneous tension of the filter belts when compressed air is supplied to the cavity of the pneumatic cylinder.

Also preferred is a performance of a utility model in which a set of functional shafts comprises drive and pinch shafts. This ensures reliable and efficient operation of the filter belt press as a whole.

The filter belts are equipped with knives for cutting compressed sludge. The knives are flat rectangular plates, the width of the cutting edges of which is preferably not less than the width of the filter belts. In this case, the cutting edges of each knife are usually located tangentially to the drive shafts.

The utility model is illustrated with the help of a figure, which shows the general scheme of a belt filter press.

The belt filter press contains an electric motor (not shown), a receiving chamber for feeding sludge (not shown), frame 1, a set of functional shafts mounted on frame 1, filter belts 2 made with tension when the filter belt press is brought into action, knives for cutting the compressed sediment (not shown), devices for draining the filtrate and washing water (not shown), a tension device consisting of a node of the tension shaft I and the node of the compensation shafts II. The tension shaft assembly I comprises a tension shaft 3 connected to the frame 1 by means of brackets 4 provided with pivot bearings 5, and also contains two pneumatic tension cylinders 6. The compensation shaft assembly II comprises two compensation shafts 7 and two-arm levers 8 for attaching the shafts to the frame 1 s pivot bearings 9.

Belt filter press operates as follows.

The belt filter press is driven by an electric motor (not shown). The sludge to be dehydrated is fed to a receiving chamber for feeding sludge to dehydration (not shown). The filter belts 2 are tensioned by supplying compressed air to the cavity of the pneumatic tension cylinders 6, while the tension shaft 3 is displaced around the hinge supports 5 of the brackets 4. The tension shaft 3 is positioned as close as possible to the sediment outlet from the filter press, where the sediment has the lowest humidity and it is possible to extrude it along the edges of the filter belts 2 by the tension shaft 3. The compensation shafts 7 are located in a place where the filter belts 2 are as close to each other as possible to reduce the size of the double chevogo lever 8. Going through the filter belt 2 precipitate is subjected to gravitational compaction and dehydration. The filter surface is cleaned with knives to cut off the compressed cake (not shown). For washing the working surfaces, water is used for washing. Waste wash water is discharged using a specially provided device for draining the filtrate and wash water (not shown).

Thus, the developed belt filter press for sludge dewatering due to the reliability and simplicity of its design due to the presence of a tensioning device allows to increase the efficiency of dewatering the treated sludge, improve the operational characteristics of the filter press as a whole, as well as increase the economic efficiency of its operation due to uniform tension tapes.

Claims (6)

1. A belt filter press for sludge dewatering, comprising a drive, a receiving chamber for feeding sludge, a frame, a set of functional shafts mounted on the frame, filter belts configured to pull on the functional shafts, devices for draining the filtrate and washing water and a tensioning device comprising at least one tension shaft and at least one tension cylinder connected to each other, characterized in that the tension device further comprises a compensation shaft assembly, including at least at least two compensation shafts and levers of their fastening to the frame. 2. The belt filter press according to claim 1, characterized in that it contains two tension cylinders, which are pneumatic. 3. The belt filter press according to claim 1, characterized in that the levers for attaching the compensation shafts to the frame are double-arm. 4. The belt filter press according to claim 1, characterized in that the pneumatic tension cylinders are fixed on both sides of the frame by means of pins. 5. The belt filter press according to claim 1, characterized in that the tension shaft is fixed to the frame by means of brackets provided with articulated supports. 6. The belt filter press according to claim 1, characterized in that the set of functional shafts comprises drive, squeeze and trailing shafts.