RU114695U1 - DEVICE FOR MECHANICAL WASTE WATER TREATMENT - Google Patents

Abstract

The utility model relates to the field of wastewater treatment, in particular to rake-type devices for trapping and removing garbage and waste from wastewater. The technical result, which the utility model is aimed at, is to increase the efficiency and reliability of the device, improve the lattice protection system and reduce the noise level. The technical solution allows to increase the efficiency and reliability of the device due to the fact that the working surface of the filter cloth is installed parallel to the plane of movement of the rake, in addition, in the lower part of the grill, the gears (driven) wheels are replaced by a caprolon roller, which compensates for the uneven extension of the transport chain and, as a result, the rake is distorted, leading to serious damage. To prevent chain sagging due to its elongation during operation, to reduce noise during the operation of the grate and to enable reverse movement of transport chains with tines, guides of the transport chain from caprolon along the entire length of the sidewalls are used. The guide located in the area of the drive shaft is made adjustable in length. The lattice design includes a tensioning device for tensioning the transport chain, which allows the chain to be tensioned within one link during operation, except for sagging. The lattice drive design also uses a tensioning device to automatically control the tension of the drive chain. The grill drive has a special torque coupling, the design of which provides a shear pin and a proximity switch for protection against possible critical loads, protecting the grill from serious damage and eliminating the intervention of maintenance personnel in the grill protection system. The garbage discharge mechanism, made in the form of a scraper, has a rigid attachment to the grill housing. A rubber plate is installed on the part of the scraper directly in contact with the rake, which improves the contact of the ejector with the rake. In the design of the ejector, a lead-in section is provided, which ensures uniform return of the ejector to its initial position. To clean the rake in the grate design, a device is provided that negates the risk of wrapping fibrous inclusions and packets around the rake during its movement during the operation of the grate. Flow guides are attached to the casing of the grating, having an inclination towards the filter cloth and serving to reduce the hydraulic load on the grating casing by reducing the angle of attack of the water flow. The design of the grill allows self-sealing when installed in the channel due to rubber seals located on the sidewalls. The bands of the filter cloth are rigidly fixed in the upper and lower parts and have a tension mechanism. The electric drive of the grate has a frequency converter that allows you to adjust the speed of the rake depending on the change in water quality, thereby increasing the life of the device, reducing noise and saving energy.

Description

The utility model relates to the field of wastewater treatment, in particular to devices for trapping and removing garbage and waste from wastewater.

A device for mechanical wastewater treatment is known, which contains a frame with a filter cloth, rake with teeth mounted on two endless chains mounted on pairs of drive and working gears. The filter cloth is made in the form of a set of flexible thin strips. The tops of the rake teeth are located in the plane of their movement, and the working surface of the filter cloth is set at an angle to it. (RF patent No. 2293065 published 02.10.2007).

The disadvantages of the device are:

- there is no system to protect the device from extreme loads.

- the device does not have a mechanism for dropping garbage and cleaning the rake, which allows the possibility of wrapping fibrous inclusions and packages around the rake during its movement during the operation of the grate.

- “leaping” of the links of two endless lattice chains mounted on four gears (2 drive (driving) gears and 2 driven gears), caused by the gradual lengthening (sagging) of the chain as a result of its wear during operation. "Leaping" of the teeth of the chains leads to a warp of the rake, their jamming and serious damage to the equipment.

- there is a possibility of foreign objects and debris getting into the gap formed when the filter cloth is positioned at an angle to the plane of movement of the rake, caused by the gradual release of the rake from the mesh.

- there is no possibility of reverse movement of the chain to remove jammed debris.

- a part of the stream of water with garbage passes along the edges of the grate due to the existing gap between the sides of the grate and the walls of the channel, negatively affecting the efficiency of work.

- the lack of rigid fixation of the plates of the filter cloth in the upper part leads to unevenness of the gap between the plates due to shock loads from foreign objects present in the stream (metal, wood, stones). Significant flow loads are able to push apart the plates of the filter cloth, until the long-level protrusions completely pop out of the sockets, leading to serious damage.

- high noise level (80-90 dBA) during operation of the device.

The technical result to which the utility model is directed is to increase the efficiency and reliability of the device, improve the lattice protection system and reduce the noise level.

The technical result is achieved in a device for mechanical wastewater treatment, which consists of a frame with a filter cloth installed inside, in the form of a set of thin strips, a drive and a rake with teeth mounted on two endless chains mounted on a pair of drive gears and rollers.

The working surface of the filter cloth is parallel to the plane of movement of the rake to prevent debris from entering the gap formed when the filter cloth is positioned at an angle to the plane of movement of the rake, caused by the gradual disengagement of the rake.

To avoid sagging of the chain due to its elongation during operation and to reduce noise during the operation of the grill, guides of the transport chain of caprolon are used, made along the entire length of the sides of the grill. The guide located in the area of the drive shaft is made adjustable in length to adjust to the changing length of the chain. The implementation of the guides along the entire length of the sidewall allows for reverse movement of the chain to remove debris stuck in the filter cloth, thereby eliminating the need to stop the grate and remove debris manually.

In the lower part of the grill, the driven gears are replaced by a caprolon roller, leveling the uneven length of the transport chain and, as a result, the rake is distorted, leading to serious damage.

For the tension of the transport chain in the lattice design, a tensioning device is provided that allows the chain to be tensioned within one link during operation, except for its sagging. The design of the grill drive also uses a tensioning device that automatically adjusts the tension of the drive chain. The tension of the transport and drive chains reduces the unevenness of their movement, significantly reducing the noise level.

Lugs clear the filter plate, retaining the debris and transporting it to the discharge zone. In the discharge zone, a special ejector device is provided for removing debris from the rake. The ejector is fixed inside the grill housing in the area of the drive shaft using brackets and consists of a scraper and a rocker arm having a lead-in section. The beam is attached to the brackets using an axis with the possibility of rotation around it. The scraper consists of a metal base with a rubber strip fixed on it, designed to improve contact with the rake and provide better removal of debris. The scraper has a rigid mount to the rocker arm of the ejector, which eliminates the possibility of skewing the scraper during operation. The yoke of the ejector has an arcuate shape, providing constant contact with the rake moving with the chain. The upper surface of the rocker arm (lead-in area) along which the rake slides ensures a uniform return of the ejector to its original working position. The rake mounted on the drive chain, with delayed debris, moves up to the dumping area. Once in the discharge zone, the rake comes in contact with the scraper of the ejector. Moving along with the chain, the rake abuts against the scraper of the ejector, pushing it in the direction of its movement. The rocker arm with the scraper begins to deviate backward, making a rotational movement about the axis, while the scraper of the dropper moves down along the rake teeth, removing debris on the skid, dumping it onto the conveyor belt. After passing the dumping area, the rake continues its movement along the upper surface of the scraper, smoothly turning into an arcuate entry section of the rocker arm, the movement along which smoothly returns the dumper to its original position, excluding impacts that cause breaker breakdown and noise. The reset is returned to its initial position by gravity.

The design of the grate provides a device for cleaning the rake, which is a ribbon brush with a long pile that cleans the rake during their reverse movement. The brush has replaceable cassettes with a pile, which can be easily replaced if necessary during operation. The brush additionally cleans the rake from debris remaining after dropping its main mass onto the conveyor belt. Using this device for additional cleaning of the rake eliminates the possibility of wrapping fibrous inclusions and packets around the rake during its movement during the operation of the grate.

To protect against possible critical loads, the grill drive has a special torque coupling, the design of which provides a shear pin and a proximity switch. During normal grid operation, the shear pin transfers rotation from the geared motor to the gears and then to the drive shaft of the endless chains. In the event of critical loads in order to prevent serious breakdowns and damage to the lattice elements, the finger is cut off, the rake movement stops and the proximity switch switches off the electric drive. Thus, after cutting the shear pin, the mechanical grill is turned off until the reasons that cause an increase in the nominal load on the traction chains of the mechanical grill are identified and eliminated. The shear pin has a special conical shape, eliminating the possibility of jamming of the moment coupling by improvised materials to continue the work of the grate. To replace the cut-off finger, it is necessary to set the two “halves” of the torque coupling in such a way that the mounting holes for the cut-off finger coincide, which cannot be done without fixing the problem that caused the cutting of the finger.

The electric drive of the grate has a frequency converter that allows you to adjust the speed of the rake depending on the change in water quality, thereby increasing the life of the device, reducing noise and saving energy.

Flow guides are attached to the casing of the grating, having an inclination towards the filter cloth and serving to reduce the hydraulic load on the grating casing by reducing the angle of attack of the water flow.

The design of the grate when installed in the channel, due to rubber seals attached to the sidewalls, eliminates the possibility of passing water with debris along the edges of the grate. When installed in the channel, the rubber seal takes the form of a gap between the walls of the channel and the casing of the lattice, occupying the entire volume of the cavity. On the walls of the channel are lodges, which are a protrusion on the walls of the channel, made of reinforced concrete or metal. The lodges are designed to exclude the possibility of forcing a rubber seal with a stream of water. The rubber seal also increases the efficiency of the flow guides by eliminating the passage of water on the sides of the grill.

The bands of the filter cloth are rigidly fixed inside the frame due to the set of support ridges with grooves, as well as two studs located in the upper and lower parts of the floor. The pin located in the upper part of the filter cloth has a tension mechanism consisting of a series of brackets fixed with nuts on the frame of the filter cloth. The tensioning mechanism allows for additional tensioning of the filter strip bands due to tightening the nuts. Rigid fixation of the strips and the tension mechanism exclude the unevenness of the gap between the strips under shock loads and the possibility of their jumping out of the grooves.

Thanks to the use of chain guides in the design of the grill, the replacement of gears at the bottom of the gears with rollers, the use of tensioning devices for the transport and drive chains, the use of a frequency converter, the noise level of the working grill is 20-25 dBA.

The above shows that the combination of the claimed features ensures the achievement of the goal, namely, it allows to increase the efficiency and reliability of the device.

Figure 1 shows a General view of the device installed in the channel.

Figure 2 shows a General view of the device in isometry.

Figure 3 shows the filter cloth in isometry.

Figure 4 shows a section aa.

Figure 5 shows the filter cloth with tines.

Figure 6 shows a section bB

Figure 7 shows a section bb

On Fig depicts a rake in mesh with the canvas

Figure 9 shows a torque clutch with a shear pin

Figure 10 shows the retainer plate with a screw.

Figure 11 shows the clutch of the moment with a shear pin when cutting

On Fig shows a General view of the ejector with a rake.

On Fig shows the lead-in section of the rocker ejector

On Fig shows the location of the ejector inside the casing.

On Fig shows the principle of operation of the ejector.

In Fig.16 shows the principle of operation of the inlet section of the ejector.

On Fig shows a grille with a seal installed in the channel

On Fig shows a section GG.

A device for mechanical wastewater treatment comprises a frame 1, consisting of two sidewalls 2, a sidewall 3 and a rear wall 4, a filter cloth 5, a drive 6 and a set of rake 7.

The drive 6 contains a drive shaft 8, two drive gears 9, two rollers 10 and endless chains 11. The wheels 9 are mounted on the drive shaft 8, and the rollers 10 are mounted on the rollers 12. The endless chains 11 are mounted on pairs of drive gears 9 and rollers 10 .

Each rake 7 is made by a team having a corner 13 and a comb 14 with teeth 15. The comb 14 is fixed to the corner 13. The material of the comb 14 is a high-strength polymer. The device is equipped with several rake mounted on endless chains 11. The vertices 16 of the teeth 15 of all rake 16 are located in the plane 17 of the rake movement.

The filter cloth 5 consists of a frame 18, inside which there is a set of strips 19. The frame consists of left and right longitudinal walls 20, an end front wall 21 and an end rear wall 22. Each of the end walls 21, 22 is equipped with supporting ridges 23 with grooves 24, in which a set of flexible plates 19 is mounted. The strips 19 have a rectangular cross-sectional shape.

The strips 19 have a thickness equal to 1.0..5.0 mm, a width of 100 ... 250 mm and a length of 1000 ... 5000 mm to provide the specified stiffness and the possibility of oscillation. The plate material is stainless steel. The strips 19 on both sides have 2 grooves 25 for installation in the support flanges 23 and holes 26 for interconnection by means of a stud 27. The stud 27 located in the upper part of the filter cloth has a tension mechanism 28, consisting of a bracket 29 and nuts 30, allowing additional tensioning of the bands of the filter cloth after installation with nuts 30.

On the working surface 31, depending on the length of the filter cloth 5, there must be at least 3 rake 7. The debris from the water stream is delayed on the working surface 31 of the filter pan.

The grating drive 6 has a torque clutch designed to protect the elements and the entire mechanism of the mechanical grating from loads exceeding the calculated ones. The shear pin 32, having a conical shape, is installed in the hole of the bushings 33, 34 and is secured against falling out of the hole by the retaining plate 35 and the screw 36. During normal operation, the shear pin 32 transfers rotation from the geared motor 37 to the gear wheels 9 and then to the drive shaft 8 endless chains 11. In the event of dangerous loads from the traction chains to the drive, the shear pin 32 is cut off at the point of undercutting. At the cut point, the coupling of the moment coupling housing and the drive sprocket 38 is broken. The housing of the drive coupling 39 continues to rotate, and the drive sprocket 38 is in place (does not rotate). The rotation of the clutch housing 39 occurs until the motor-gearbox 37 of the drive 8 is automatically turned off by a proximity switch installed under the drive cover 8. Thus, after cutting the shear pin 32, the mechanical grill is turned off until the causes that increase the load on the traction chains are identified and eliminated mechanical lattice.

To remove debris from the rake and dump it onto the conveyor belt 40, the ejector 41 is used. The ejector 41 consists of a scraper 42, with a rubber plate 43, rocker arm 44 with the inlet section 45, axles 46 and brackets 47. The ejector 41 is attached to the grill body via brackets 47 , and axis 46 allows rotation of the ejector. The scraper 42 is rigidly attached to the body of the ejector 41. A rubber plate 43 is installed on the part of the scraper directly in contact with the rake 7, which improves the contact of the ejector with the rake 7 and provides better removal of debris. Once in the discharge zone, the rake 7 is in contact with the scraper 42 of the ejector 41 (Fig.13, 14). Moving along with the chain 11, the rake 7 abuts against the scraper 42 of the ejector 41, pushing it in the direction of its movement. The rocker 44 of the ejector 41 starts to deviate backward, making a rotational movement relative to the axes 46, the scraper of the ejector 42 moves down along the teeth of the rake 7, removing debris 48 on the skid, dumping it on the conveyor belt 40. After passing the discharge section of the rake 7 continues its movement on the entry section 45 of the rocker arm 44, the movement along which smoothly returns the ejector 41 to its original position, excluding impacts that cause damage to the ejector and noise.

To further clean the rake 7 from debris remaining after dropping its main mass onto the conveyor belt 40, a tape brush 49 is used to clean the rake 7 during their reverse movement.

The grill has flow guides 50 that serve to reduce the hydraulic load on the grill housing by reducing the angle of attack of the water flow.

When installed in the channel, the lattice structure is self-sealing due to rubber seals 51 mounted on the lateral longitudinal walls of the lattice frame 20 and lodges 52 located on the channel walls.

The device operates as follows: the drive 6 through the drive shaft 8 with gears 9 drives the ring chains 11 with tines 7. The tines 7 with combs 14, moving, move from the idle section to the working section, where the teeth of the combs 14 enter the gap 53 between in the bands 19 of the filter strip 5. The teeth 15 of the combs 14 clean the spaces 53 between the bands 19, while limiting their oscillation, and the combs 14 of the rake 7 remove debris from the working surface 31 and then transport it to the discharge zone. In the discharge zone, debris is disposed of by the ejector 41 onto the conveyor belt 40. Next, the rake 7 is again moved to the empty section. At the idle section, additional cleaning of the rake from the debris remaining on them with the help of a rake cleaning device 49 takes place. After this, the lattice operation cycle is repeated.

The advantages of the proposed technical solution:

- The original guides of the transport chain from caprolon along the entire length of the sidewalls of the grate eliminate chain sagging and reduce noise during the operation of the grate, as well as provide the possibility of reverse movement of the chain.

- The guide located in the area of the drive shaft is made adjustable in length to adjust to the changing length of the chain.

- In the lower part of the grill, the gears (driven) wheels are replaced by a skating rink made of caprol, leveling the unevenness of the elongation of the transport chains and, as a result, the rake is skewed,

- The filter cloth is located parallel to the plane of the rake, excluding the debris entering the gap formed when the filter cloth is at an angle to the plane of the rake, caused by the gradual release of the rake from the mesh.

- For the tension of the transport chain in the lattice design, a tensioning device is provided that allows the chain to be tensioned within one link during operation, except for its sagging. The design of the grill drive also uses a tensioning device that automatically adjusts the tension of the drive chain.

- The grill drive has a special torque clutch, the design of which provides a shear pin having a conical shape, and a proximity switch that protects the grille from serious damage and eliminates the intervention of maintenance personnel in the grille protection system.

- The electric drive of the grill has a frequency converter that allows you to adjust the speed of the rake, thereby increasing the life of the device, reducing the noise level and saving energy.

- The garbage discharge mechanism, made in the form of a scraper, has a hard staining to the grating body, which eliminates the problem of skewing of the ejector during operation. A rubber plate is installed on the part of the scraper directly in contact with the rake, which improves the contact of the ejector with the rake and provides better removal of debris.

- In the design of the ejector, a lead-in section is provided, which ensures uniform return of the ejector to its initial position.

- The design of the grate provides a device for cleaning the rake additionally cleans the rake from debris remaining after dropping its main mass onto the conveyor belt, which completely eliminates the possibility of wrapping fibrous inclusions and packets around the rake during its movement during the operation of the grate.

- The lattice design when installed in the channel is self-sealing due to rubber seals installed on the lateral longitudinal walls of the lattice frame and lodges located on the channel walls.

- The bands of the filter cloth are rigidly fixed in the upper and lower parts and have a tension mechanism that eliminates the unevenness of the gap between the bands under shock loads and the possibility of them popping out of the grooves.

- Thanks to the use of chain guides in the design of the grill, the replacement of gears at the bottom of the gears with rollers, the use of tensioning devices for the transport and drive chains, the noise level of the working grill is 20-25 dBA.

Claims (14)

1. Device for mechanical wastewater treatment, consisting of a frame with an installed filter cloth in the form of a set of thin strips, a drive and a rake with teeth fixed on two endless chains mounted on one side on a pair of drive gears, characterized in that the rake drive has a special torque coupling, in the design of which a shear pin and a proximity switch are provided, in that the device is equipped with a scraper and a ribbon brush for cleaning the rake, as well as the fact that another the ring chain is mounted on the roller, while the tops of the teeth of all rakes are located in the plane of movement of the rake, and the working surface of the filter cloth is made parallel to the specified plane. 2. The device according to claim 1, characterized in that the filter cloth is parallel to the plane of movement of the rake. 3. The device according to claim 1, characterized in that the design of the lattice provides devices for tensioning the transport and drive chains. 4. The device according to claim 1, characterized in that when the lattice is used, guides of the transport chain of caprolon are used along the entire length of the sidewall. 5. The device according to claim 1, characterized in that the guide located in the area of the drive shaft is made adjustable in length. 6. The device according to claim 1, characterized in that the device provides for the possibility of reverse movement of the transport chain with tines. 7. The device according to claim 1, characterized in that the roller is made of caprolon. 8. The device according to claim 1, characterized in that the scraper is rigidly fixed to the body of the ejector. 9. The device according to claim 1, characterized in that on the part of the scraper directly in contact with the rake, a rubber plate is installed. 10. The device according to claim 1, characterized in that in the design of the ejector is provided a lead-in section that ensures uniform return of the ejector to its initial position. 11. The device according to claim 1, characterized in that the shear pin in the moment coupling has a conical shape. 12. The device according to claim 1, characterized in that the electric grid has a frequency converter that allows you to adjust the speed of the rake. 13. The device according to claim 1, characterized in that rubber seals are located on the lateral longitudinal walls of the lattice frame. 14. The device according to claim 1, characterized in that the bands of the filter cloth are rigidly fixed in the upper and lower parts and have a tension mechanism.