RU2789555C1 - Universal complex of equipment for dehydration, collection and transportation of fine waste - Google Patents

Abstract

FIELD: fine waste processing.

SUBSTANCE: invention relates to the processing of fine waste, such as sewage sludge, including raw sludge and excess activated sludge, as well as waste from the petrochemical, pharmaceutical, food industries, waste from the production of cosmetics, medical products of the widest range. A universal complex of equipment for dehydration, collection and transportation of fine waste contains a feeding conveyor belt, an overload conveyor belt, a conveyor belt for unloading dehydrated waste. The complex additionally contains a comb, a mechanical brush located above the comb and in front of the supply conveyor belt, adapted for collecting dehydrated waste, which, together with the interconnected supply conveyor belt and the conveyor belt for reloading dehydrated waste, form a complex installation for dehydration and collection of dehydrated waste, mounted on a mounting frame. The mounting frame is made with the possibility of its movable attachment to the support frame, which is fixedly installed along the site perimeter with waste placed on it, and is adapted for vertical and horizontal movement above the site surface. The comb is made with the possibility of turning the waste to bring it to the state of the required degree of dehydration when moving the mounting frame.

EFFECT: creation of a universal complex of equipment for waste processing, which allows for highly efficient waste dehydration with the achievement of the required degree of dehydration, collection and transportation of dehydrated waste from a large surface.

4 cl, 1 dwg

Description

The field of technology to which the invention belongs.

The invention relates to the processing of fine waste, such as sewage sludge, including raw sludge and excess activated sludge, as well as waste from the petrochemical, pharmaceutical, food industries, waste from the production of cosmetics, medical products of the widest range.

The level of technology.

The prior art technical solution according to the RF patent for the invention No. 2318576, KZ HANDELS AB (SE), B01D21/18, E03F5/14, C02F1/52, publ. 03/10/2008, which presents a description of the scraping, transportation and collection system, which contains, first of all, a number of scraper and transporting elements, transporting elements are located at least at two levels, including the lower level consisting of Direct transporting elements placed in essence perpendicularly relative to the longitudinal axis of the sump, and the upper level at which the transporting elements are made arched in the horizontal direction and/or curved in the middle at an angle. The common features that coincide with the essential features of the invention are: the system of transportation and collecting silt containing scraper and transporting elements. The technical problem, which could not be solved in the implementation and use of the above analogue of the invention, is that the above equipment system contains transporting elements, the design of which provides the concentration of silt, which is practically excluded or at least significantly decreases by its flow through the edge the transporting element, which indicates a high degree of humidity of the transported sludge, close in consistency to clay, bitumen, ground, etc., as a result of which there is a high probability of sticking silt to the surface of the transporting device, which is later almost impossible to clean from the adhering product, which may result in decreased performance of the equipment.

Closest to the claimed technical solution is the technical solution according to the RF patent for the invention No. 2660885, Limited Liability Company "ECOTECH", C02F11/00, publ. 07/10/2018, which provides a description of the production complex for the processing of sewage sludge, containing a dewatered sludge supply conveyor; filler capacity with a screw feeder, placed with the possibility of supplying sediment and filler into the mixer, made with the product for unloading the mixture; agent for the destruction of pathogens; emergency unloading conveyor with the possibility of connecting its input to the output of the dewatered sludge feed conveyor; container for receiving the mixture; Loading conveyor for loading the mixture and a conveyor of unloading compost from the agent to destroy pathogens, and the means for destroying pathogens is made in the form of an aerobic enzyme, the product for unloading the mixture is made in the form of a conveyor, the output of which is installed with the possibility of supplying the mixture into a container for receiving the mixture mixture, A loading conveyor is placed with the ability to receive a mixture from a container for receiving a mixture and supplying it to the enzyme. The common signs that coincide with the essential features of the invention are: a production complex for processing sediments of wastewater containing the supply of dehydrated sediment; a conveyor of overload of dehydrated sediment with the ability to connect its entrance to the output of the supply transporter of dehydrated sediment; dewatered sludge unloading conveyor (system of conveying devices)

The technical problem that could not be solved in the implementation and use of the above analogue of the invention is that the above production complex contains permanently installed pieces of equipment, and can only be used with a continuous supply of isolated dehydrated sludge from wastewater, while it must be ensured maintaining a constant amount of incoming sludge for processing, regardless of their allocation by time of day, which requires additional funds for transporting dehydrated sludge from the place where the process of their dehydration is directly carried out. The production complex is not suitable for simultaneous dehydration and transportation of waste directly at the sites where waste is placed, including. large surface area. In addition, the complex, as stated in the description of the invention, is used without installing it directly on the landfills of sewage sludge, the supply of dehydrated sludge can be carried out from different landfills with the obligatory fulfillment of only the condition of continuity and constancy of the amount of supplied dehydrated sludge, the percentage of dehydration of sludge, while, It is an average inconsistent value, which is difficult to adjust, when exceeded above 50%, the precipitate sticking to the tape of the transporting device begins.

Disclosure of the essence of the invention.

The technical result provided by the invention is the creation of a universal complex of equipment for waste processing, which allows for highly efficient dehydration of waste with the achievement of the required degree of dehydration, collection and transportation of dehydrated waste from a large surface, which is achieved through the implementation of a universal complex of equipment for waste processing, containing a supply conveyor a belt, a conveyor belt for reloading, a conveyor belt for unloading dehydrated waste, which additionally contains a comb, a mechanical brush located above the comb and in front of the supply conveyor belt, adapted for collecting dehydrated waste, which, together with the interconnected supply conveyor belt and the conveyor belt for reloading dehydrated waste, forming a complex installation for dehydration and collection of dehydrated waste, mounted on a mounting frame, made with the possibility of hanging its secure fastening to a support frame, fixedly installed along the perimeter of the site with waste placed on it, and adapted for vertical and horizontal movement above the surface of the site, and the comb is made with the possibility of turning the waste to bring it to the state of the required degree of dehydration when moving the mounting frame.

Collection and transportation of waste from a large surface is provided by:

- the possibility of movable fastening of the mounting frame on which the comb is mounted, a mechanical brush adapted for collecting dehydrated waste, a supply conveyor belt interconnected with a conveyor belt for reloading dehydrated waste, forming a complex installation for dehydration and collection of dehydrated waste, to a platform fixed around the perimeter with the support frame placed on it with waste, relative to which the mounting frame can move in the vertical and horizontal direction over the entire surface of the site, and the overall dimensions of the support frame correspond to the overall dimensions of the site with waste, which allows the use of a set of equipment on the site with unlimited overall dimensions, incl. h. having a large surface.

Highly efficient waste dewatering is ensured by:

- the presence of a comb, made with the possibility of agitation (loosening) of raw (high humidity) waste when moving the mounting frame, while, with horizontal movement of the frame, the comb directly agitates raw waste, destroying the quickly drying top layer, thereby contributing to a faster drying process and dehydration of waste, bringing them to the state of the required degree of dehydration, and with vertical movement of the mounting frame, the comb can be lowered to the required depth of the layers of waste as dehydration and removal of dehydrated waste from the surface.

The versatility of the equipment complex is ensured by:

- the presence in the complex at the same time of equipment for dehydration of waste, made in the form of a comb, equipment for collecting dehydrated waste, made in the form of a mechanical brush adapted to collect dehydrated waste by rotating it relative to a fixed axis located above the comb and in front of the supply conveyor belt, and equipment for the transportation of dehydrated waste, including a feeding conveyor belt interconnected with an overload conveyor belt with a variable angle of inclination, combined as part of a single complex installation, which makes it possible to sequentially and continuously dehydrate the waste to the required degree of moisture and collect it directly on the site, where wet waste is placed, thereby eliminating the need to additionally use equipment for the delivery of previously dehydrated waste somewhere else to the place of their further processing.

Brief description of the drawings.

The invention is illustrated by the drawing, which shows a General view of the universal set of equipment for waste processing in axonometric projection.

The positions in the drawing indicate:

1 - comb,

2 - brush,

3 - feed conveyor belt (transverse conveyor belt),

4 - conveyor belt overload,

5 - unloading conveyor belt (longitudinal conveyor belt),

6 - complex installation for the collection and dehydration of waste,

7- mounting frame,

8 - support frame,

9 - frame assembled from channels,

10 - screw supports,

11 - threaded racks,

12 - screw pairs,

13 - screw-nut nodes,

14 - wheels,

15 - site with placed waste.

Implementation of the invention.

The universal complex of equipment for waste processing is designed for dehydration, collection and transportation of fine waste (product, substances), which can be used for processing sewage sludge, including raw sludge and excess activated sludge, as well as petrochemical, pharmaceutical, food industry waste , production waste of cosmetic, medical products of the widest range. These wastes can be placed on sludge beds, or in other places with large surface areas.

The complex of equipment contains a mechanism for turning (loosening) the dehydrated fine waste, made in the form of a comb 1, which performs the function of dehydrating raw (having high humidity) waste; a device for collecting dehydrated waste, made in the form of a mechanical brush 2, adapted to collect dehydrated waste by rotating it about a fixed axis; a system of successively arranged conveyor belts, including a dehydrated waste supply conveyor belt 3, a dehydrated waste reloading conveyor belt 4, and a dehydrated waste unloading conveyor belt 5.

The comb 1, the brush 2 and the supply conveyor belt 3, which interacts with the overload conveyor belt 4, are functionally interconnected pieces of equipment that make up a single integrated installation for dehydration and collection of finely dispersed substances from the surface 6, mounted on a mounting frame 7, made in the form of two parallel vertical plates connected by one horizontal plate, while the brush 2 is mounted above the comb 1 and directly in front of the supply conveyor belt 3.

Comb 1 is made of metal rods 10 cm in size, which are welded (or bolted) attached directly to the comb, with their ends comb 1 is rigidly fixed to the vertical plates of the mounting frame 7. Mechanical brush 2, made of either iron wire or polymer materials increased strength, mounted on a horizontal fixed axis on bearings (not shown in the drawing), and the ends of the fixed axis are also rigidly fixed on the vertical plates of the mounting frame 7. The fixed axis, around which the brush 2 performs rotational movements during the operation of the equipment complex, is located, practically , parallel to the longitudinal axis of the comb 1.

The mounting frame 7 is made with the possibility of its movable fastening to a fixed support frame 8, consisting of a frame assembled from four channels 9 connected to each other, installed on supports along the perimeter of the platform 15 with wastes having a high humidity (98.8%) placed on it. As supports, screw supports 10 are used, consisting of threaded posts 11 and screw pairs 12, functionally operating according to the simplest screw transmission scheme. Racks with thread 11 are fixed from below either according to the principle of piles, or by concreting, and from above they are fixed by transverse and longitudinal jumpers. The frame of channels 9 is attached to the threaded posts 11 by means of screw-nut assemblies 13. The perimeter, shape and cross-sectional size of the support frame 8 corresponds to the perimeter, shape and cross-sectional size of the platform 15 on which the waste is placed.

The mounting frame 7, namely the vertical plates of the mounting frame, are movably attached to two opposite parallel sides of the channel frame 9 at four points by means of four wheels 14, each plate being respectively attached by means of two wheels to one of these sides. With the help of wheels 14, the mounting frame 7, on which the equipment of the complex installation 6 is mounted, has the ability to move (move) along a gear rack (not shown in the drawing) attached to each side of the frame of channels 9 along these sides of the frame. The horizontal movement (forward-backward) of the mounting frame 7 can also be provided by combinations of winch movements.

The mounting frame 7 is adapted to move above the surface of the site with waste 15 in the vertical direction by performing reciprocating movements (up and down) in the vertical direction and moving in the horizontal direction by rolling the wheels 14 along the rack along the sides of the frame of channels 9, to which mounting frame 7 is movably attached.

The comb 1 is made with the possibility of turning the waste to bring it to the state of the required degree of dehydration of 50-70% (mainly 60%) while moving the mounting frame 7 with the equipment installed on it. The comb 1 has a rotary mechanism (not shown in the drawing), which allows you to vary the depth of waste agitation in one pass of the complex installation 6, which corresponds to a single horizontal movement of the mounting frame 7 with the equipment constituting the complex installation 6, along the sides of the frame of channels 9 throughout their length in the same direction.

The feed conveyor belt 3 is located in the complex installation 6 for collecting and dewatering in the rear part after the brush 2. The feed conveyor belt 3 and the conveyor belt 4 for reloading the dehydrated waste are located transversely (perpendicularly) to the direction of horizontal movements of the mounting frame 7 and are functionally interconnected in such a way as to ensure transportation of waste from the place of collection to the longitudinal conveyor belt for unloading dehydrated waste 5, which provides transportation of waste to the equipment for preliminary preparation of a semi-finished product from dehydrated waste. The unloading conveyor belt 5 is fixedly installed outside the perimeter of the platform 15 along the side of the support frame 8, along which the complex installation 6 performs horizontal movements, and from the side of which the product is transferred to it from the overload conveyor belt 4.

Since the transversely located feeding conveyor belt 3 and the reloading conveyor belt 4 move along with the complex installation 6 vertically as the product is removed from the surface, and the longitudinal product unloading conveyor belt 5, at the same time, moves only horizontally, the design of the longitudinal waste reloading conveyor belt 4 the possibility of changing the angle of its inclination of the tape during transportation and transfer of the product is provided.

Universal set of equipment for waste processing works as follows.

The proposed universal set of equipment can be used for processing waste with an initial moisture content of 98.8%, located mainly on sludge beds, or in other places, for example, in tanks, storages, natural ponds, etc., having large surface areas, where it is difficult to collect them by known methods, and also requires high costs, and having a geometric shape in cross section, similar to the geometric shape of sludge sites, namely, a rectangular or square shape, while the ratio of width and length and their size of the sides of the selected site does not matter much (they are different for each water utility), because the overall dimensions of the equipment included in the complex installation 6, namely, the length of the comb 1, the length of the fixed axis, about which the mechanical brush 2 can rotate, as well as the length of the supply conveyor belt 3 and the overload conveyor belt 4 can be selected to fit the size of the selected area 15 with waste placed on it.

After site 15 is selected (for example, it is a sludge pit with waste), four screw supports 10 are installed in its corners, the height of which is determined specifically for each water utility, depending on the depth of the sludge pit itself (it can be from 0.5 meters to 2 meters). Screw supports contain threaded posts 11 and screw pairs 12. Threaded posts 11 are fixed in the base, for example, by concreting, while the depth of concreting is calculated depending on the volume of waste located on a given sludge site, depending on the width and length of the sludge site 15 (silt map). From above, threaded racks 11 are fixed with transverse and longitudinal jumpers. On screw supports 10, pre-assembled from four interconnected channels of the frame 9, which is attached to the racks with a thread of 11 via four knots of the screw 13. The support frame 8, consisting of a frame from the channel 9 installed and fixed on the screw supports 10, Located above the silt platform 15 and has a perimeter geometrically corresponding to the perimeter of the silt site.

To any two opposite parallel sides of the frame of channels 9 when choosing a platform of square section or having a longer length when choosing a platform of rectangular section, to which a gear rack is attached, at four points using four wheels 14, two vertical plates of the mounting frame 7 are attached, each plate, respectively it is attached by means of two wheels to one of these sides, forming a movable connection when the wheels roll along the rack, working on the principle of a wheelset of wagons. Thus, a movable attachment of the mounting frame 7 to the support frame 8 is implemented, which allows the mounting frame 7 with the equipment installed and rigidly fixed on it to freely walk by rolling the wheels 14 along the rack, making horizontal movements. The equipment on the mounting frame 7 is installed and rigidly fixed in compliance with the order of their relative position, namely, the comb 1 is installed at the lowest level, the mechanical brush 2 is installed above the comb, after which the rear in the direction of the mounting frame 7 and just below the brush 2 is located a feed conveyor belt 3 cooperating with an overload conveyor belt 4, which is mounted and fixed on a mounting frame 7 under the feed conveyor belt 3, i.e. brush 2 is located in front of the feed conveyor belt 3.

The process of dehydration of raw waste with initial moisture 98.8%, and bringing them to humidity of more than 50-70%(mainly 60%) in one pass or several passes (if necessary) Complex installation 6 above the surface of the site with waste 15, corresponding to one horizontal movement (or several horizontal movements) from one side of the site to the other opposite side of the site, these sides are perpendicular to the direction of the installation 6. Dressed by 10 cm in the waste layer of the comb 1 The upper dried layer, usually covered with a crust that prevents the drying of the waste layers located under it, is loosened. With its horizontal movement, the comb 1 loosens the upper layer of the fine product that is covered with a crust, transferring it to the average scam, in this state, drying and dehydration of waste is much faster. The level of waste humidity is controlled by a special measurement device (moisture meter). The speed of bringing the required waste humidity can be adjusted by varying the depth of immersion of the comb, the number of horizontal and vertical movements of the installation, as well as the speed of movement of the installation, which can be selected by the expert way. The achievement of waste humidity up to 50-70% (mainly 60%) is enough so that it does not stick (in large quantities) to the conveyor tape.

When the comb 1 moves, the brush 2 does not work, when the moisture content of the waste reaches 60%, the brush starts to work. Croenka 1, when moving, throws a dehydrated withdrawal on a working brush 2, which is under a slight slope to the surface of the waste, and, precisely, when the frame 7 forward, the waste is advantageous on top of the comb 1 and fall directly into the brush 2 -rotation zone 2 It is carried out through the belt transmission from the reducer of the connection of the reciprocating movement of the complex installation 6. The rotating brush 2 collects and outlines the assembled product to the tray (bunker) for feeding the brush of a dehydrated product (not shown in the drawing), which then, through the chipper (on the drawing is not shown ) It is directed to the supply conveyor tape 3, which is at a level, lower than the brush 2. On the supply conveyor tape 2, scrapers are installed that additionally prevent the product to stick to the surface of the tape.

After each pass in the horizontal direction, as the dehydrated product is collected, the installation 6 lowers another 10 cm to turn the next layer of waste. The lowering of the installation level 6 occurs until the moment of the maximum complete collection of the product from the sludge bed 15.

From the supply transverse conveyor belt 3, the collected dehydrated waste is fed by means of the transfer conveyor belt 4 to the longitudinal conveyor belt for unloading the dehydrated waste 5. the belt 5 moves only horizontally, the reloading conveyor belt 4 is made with the possibility of changing its angle of inclination when transporting the product with the transfer of the product, the lower the installation 6 falls, the smaller the angle of inclination of the reloading conveyor belt 4. The unloading conveyor belt 5 delivers the harvested product directly to the block equipment for preliminary preparation of semi-finished products.

The complex of equipment allows the collection of dehydrated waste up to 4-5 times per season (often) compared to existing technologies that collect only once per season (mechanical dehydration, silt cleaners).

The complex of equipment is easily mounted and dismantled, therefore it can be installed on any sludge site.

Claims (4)

1. A universal complex of equipment for dehydration, collection and transportation of fine waste, containing a supply conveyor belt, an overload conveyor belt, a conveyor belt for unloading dehydrated waste, characterized in that it additionally contains a comb, a mechanical brush located above the comb and in front of the supply conveyor belt, adapted for the collection of dehydrated waste, which, together with the interconnected supply conveyor belt and the conveyor belt for reloading dehydrated waste, forming a complex installation for dehydration and collection of dehydrated waste, are mounted on a mounting frame made with the possibility of movable fastening it to a support frame fixedly installed along the perimeter of the site with waste placed on it, and adapted for vertical and horizontal movement above the surface of the site, and the comb is made with the possibility of turning the waste to bring it to the state of t required degree of dehydration when moving the mounting frame. 2. A universal set of equipment for dehydration, collection and transportation of fine waste according to claim 1, characterized in that the overall dimensions of the support frame correspond to the overall dimensions of the site with waste. 3. A universal set of equipment for dehydration, collection and transportation of fine waste according to claim 1, characterized in that the conveyor belt for reloading dehydrated waste is made with the possibility of changing the angle of inclination. 4. A universal set of equipment for dehydration, collection and transportation of fine waste according to claim 1, characterized in that the mechanical brush is adapted to collect dehydrated waste by rotating it relative to a fixed axis.

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