RU205362U1 - DEVICE FOR UNDERGROUND GARBAGE - Google Patents

Abstract

Utility model The device for underground collection and temporary storage of garbage refers to the area of municipal services and ensures the collection and disposal of solid municipal (household) waste (MSW) in residential, park areas and other places of residence of the population in compliance with environmental requirements. underground waste collection, ensuring its long-term reliable operation at different times of the year, including at negative temperatures, while ensuring its maintainability during scheduled and routine maintenance. The technical result is to increase the reliability of the device for underground waste collection at different times of the year, including at subzero temperatures. which has a supporting upper platform with garbage bins, a lower platform for garbage containers placed between them with the possibility of vertical movement of the platforms from the drive lever mechanism located under the lower one, in parallel guides fixed to the bottom plate and to the base of the hopper, which are hingedly mounted movably connected to each other in the middle part of a pair of levers of the linkage mechanism, the free ends of which are installed in parallel guides fixed, respectively, to the base and to the lower platform of the hopper, a container made of concrete is formed from connected me I wait for the volumetric blocks closed in cross-section, moreover, the movable connection between the levers in each of the pairs of the lever mechanism in their middle part is made in the form of longitudinal grooves in some of them and an axis placed in them, fixed to the other of them. At the same time, the upper and lower blocks are pulled together through embedded parts. And the volumetric blocks of the container, closed in cross-section, are interconnected by means of a waterproof tongue-and-groove joint, and embedded parts are installed along the perimeter of the connection of each of the blocks. The upper platform, when resting on the shoulder of the end of the upper volumetric block, overlaps its outer contour in plan, on the upper surface of the lower platform there are guides, preferably adjustable, for the wheels of waste-collecting containers and container locks in the working position. 8 p.p. f-ly, 6 dwg

Description

Utility model A device for underground collection and temporary storage of garbage belongs to the field of municipal services and ensures the collection and disposal of solid municipal (household) waste (MSW) in residential, park areas and other places of residence of the population in compliance with environmental requirements, in particular Federal Law No. 89 from 24.06.1998 "On production and consumption waste", and the Rules for the management of municipal solid waste, approved by the Government of the Russian Federation of 12.11.2016 No. 1156 "On the management of MSW" with amendments and additions introduced by the Decree of the Government of the Russian Federation of 25.08.2008 No. 641 and Decree of the Government of the Russian Federation of 12.11.2016 No. 1156

A device for underground waste collection is known, which is a concrete container made in a pit, in the vertical guides of which a lifting platform is installed, carrying a container for solid municipal waste. The device has a cover overlapping the concrete container, on which there is an urn with a receiving window for discharging MSW into the container (CN 203544835 U, 04.16.2014) [1].

A device for underground waste collection is known, which is a monolithic concrete container made in a pit in the shape of a glass, in which a platform for containers lifting by means of an articulated lever system and a drive for lifting and lowering the platform carrying containers are located, respectively, to the position of unloading containers and to the working position (BUSINESS DIALOGUE No. 28, September 28, 2017, pp. 28-31) [2].

The closest known is a device for underground garbage collection, containing a container made of concrete in the form of a bunker open on top, in which a lower platform carrying an upper platform with garbage bins is located for garbage containers placed under them with the possibility of vertical movement of the platforms from the one located under the lower one of the linkage mechanism, in parallel guides fixed to the bottom plate and to the base of the hopper of which are hingedly connected to each other in their middle part, pairs of levers of the linkage mechanism, the free ends of which are mounted with the possibility of synchronous movement in fixed, respectively, to the base and to the lower platform of the hopper parallel guides (CN 210456028 U, 05.05.2020) [3].

The task of the proposed technical solution is to create a device for underground waste collection, ensuring its long-term reliable operation at different times of the year, including at negative temperatures, while ensuring its maintainability during scheduled and routine maintenance.

The technical result consists in increasing the reliability of the device for underground waste collection at different times of the year, including at negative temperatures.

To solve the problem with the achievement of the specified technical result, the device for underground waste collection contains a container made of concrete in the form of a bunker open on top, in which a lower platform carrying an upper platform with garbage bins is located for garbage containers placed between them with the possibility of vertical movement of the platforms from the one located under the lower of them is a drive lever mechanism, in parallel guides fixed to the bottom plate and to the base of the hopper, which are hingedly mounted, movably connected to each other in their middle part, pairs of levers of the lever mechanism, the free ends of which are installed in fixed, respectively, to the base and to the lower platform of the hopper parallel guides, a container made of concrete is formed from interconnected volumetric blocks closed in cross-section, moreover, a movable connection between levers in each of the pairs of the lever mechanism in their middle part and is made in the form of longitudinal grooves in some of them and an axis placed in them, fixed to the other of them. At the same time, the upper and lower blocks are pulled together through embedded parts. And the volumetric blocks of the container, closed in cross-section, are interconnected by means of a waterproof tongue-and-groove joint, and embedded parts are installed along the perimeter of the connection of each of the blocks. The upper platform, when resting on the shoulder of the end of the upper volumetric block, overlaps its outer contour in plan, on the upper surface of the lower platform there are guides, preferably adjustable, for the wheels of waste-collecting containers and container locks in the working position. The device for underground waste collection can have heating means for the zone of abutment of the upper platform to the upper part of the upper volumetric block formed along the perimeter of the bead, made in the form of an electric heating cable mounted in the upper part of the upper volumetric block or in the lower part of the upper platform. It is advisable that a fire extinguishing agent is placed in the upper platform with the possibility of supplying a fire extinguishing agent to the garbage containers placed on the lower platform, and it would have sensors for signaling the complete filling of garbage containers, and an opening is made in the wall of the upper volumetric block for placement flush with its inner surface cabinet for electrical and hydraulic equipment, and emergency hatches in the upper platform and inspection hatches in the lower platform are made from the side of the said cabinet. In this case, the lower of the volumetric blocks has a recess formed at the base of the hopper below the level of placement of guides connected to the base with anchors for collecting and draining liquid, and the container is made with an opening for draining the drainage liquid in its side wall.

The causal relationship of the features of the utility model with an increase in the reliability of the device for underground waste collection at different times of the year, including at negative temperatures, is ensured by the fact that the concrete container is made of reinforced concrete, the setting and hardening processes of which during heat treatment with subsequent stripping products after they have set the required strength for this, occur in accordance with the current technological regulations and guarantee controlled parameters, in particular, strength, swelling and water permeability. These parameters are important for a sufficiently thin-walled concrete tank placed in a humid soil environment, and factory control over their observance affects the reliability and durability of the device as a whole. Since a concrete container in the form of a glass is assembled at the plant of reinforced concrete products from the upper and lower volumetric blocks that are interconnected by means of a tongue-and-groove joint, the waterproofing of the tongue-and-groove blocks preventing the displacement of the tongue-and-groove blocks is made in the factory, which is controlled by the entire (expediently, the entire outer surface of the container) of the protected surface, high-quality protection from the aggressive external environment. The upper platform with garbage bins and the lower platform are interconnected for placing garbage containers in the space formed between them. The presence of a tongue-and-groove joint, in addition to increasing reliability due to its waterproofness, also ensures the maintainability of the device by not laborious replacement with a connector on it only the upper volumetric block, which is most damaged from external dynamic influences, as well as as a result of sharp temperature changes during the off-season period. For vertical movement of the platforms, a lever mechanism located under the lower of them with parallel guides fixed to the lower platform and to the base of the hopper, in which pairs of levers of the lever mechanism, movably connected to each other in their middle part, are hingedly mounted, the free ends of which are movably installed in the fixed , respectively, to the base and to the lower platform of the bunker of parallel guides. Such a linkage mechanism provides smooth bumpless, including when reversing, lifting and lowering the platforms, which excludes the transfer of dynamic loads to the tank walls. To remove water due to condensation, possible storm leaks or leaks during snow melting, the container located in the mechanism is protected by a recess made in the lower of the volumetric blocks at its base below the placement level of the guides connected to the base with anchors for collecting and draining the liquid. This eliminates the presence of interacting metal parts of the mechanism in an aggressive environment, which increases the reliability of its operation and prevents corrosion. This is also served by the upper platform, which, when resting on the shoulder of the end of the upper volumetric block, overlaps its outer contour in plan. Additionally, the technical result is influenced by the implementation of the movable connection between the levers in each of the pairs of the lever mechanism in their middle part is made in the form of longitudinal grooves in some of them and an axis placed in them, fixed to the other of them. This design excludes the influence of pollution by the medium operating in the translational mode by a certain amount of displacement of the hinge axis, after which there are no obstacles for its rotation in the groove. This especially affects work in winter conditions, when freezing is possible due to a moisture-saturated environment, including due to fumes from wet MSW. The difference in the applied force for turning the axle frozen in the hinge (as it may be in the known solutions) and even with its insignificant translational shift (as in the proposed solution) followed by a free rotation is significant. Also, trapped in an unprotected (in the known solutions) hinge joint, abrasive particles cannot be removed from the rubbing surfaces, which leads to significant wear of the hinge joint and a possible deviation from the trajectory of the specified movement of the containers, which reduces the reliability of the device. In the proposed device, such particles are removed by shear from the friction surface due to the translational displacement of the axis in the longitudinal groove. The presence of heating means around the perimeter of the zone of abutment of the upper platform to the upper part, preferably located in the shoulder of the upper volumetric block, excludes the possibility of freezing of the upper platform to the upper part of the upper volumetric block, which can lead to breakage of the lever mechanism of the device. The use of an electric heating cable, mounted in the upper part of the upper volumetric block or in the lower part of the upper platform, makes it possible to uniformly ensure the temperature regime at which such freezing is excluded. To ensure reliable operation in non-regulated (non-extinguished cigarettes) and emergency situations for the device, a fire extinguishing agent can be placed in the upper platform with the possibility of supplying a fire extinguishing agent to the garbage containers located on the lower platform. Making a hole for drainage fluid in the side wall of the upper or lower volumetric blocks allows you to exclude freezing of the drainage water in winter and undesirable flooding of the tank. The presence on the upper surface of the lower platform of the guides for the wheels of waste collection containers and their locks in the working position will exclude displacement and possible jamming in the device of containers during their vertical movement. Making an opening in the wall of the upper volumetric block for placement flush with its inner surface of the cabinet for electrical and hydraulic equipment will ensure that its contents are in the zone of an insignificant temperature gradient, which will exclude the appearance of condensate in the cabinet and oxidation of the connection contacts, thereby ensuring the reliability of the entire device. Placing an emergency hatch in the upper platform and an inspection hatch in the lower platform from the side of the cabinet will provide access to the hatch in any position of the upper and lower platforms. At the same time, the content of the concept "concrete" in this case includes any of its particular implementations, for example, reinforced concrete, polymer concrete, fiber concrete, etc.

The device for underground waste collection is illustrated by drawings,

where in Fig. 1 shows its cross-section in the position of servicing or unloading containers;

in fig. 2 shows its longitudinal section in the position of servicing or unloading containers;

in fig. 3 is a side view of the device in the assembled state in the working position;

in fig. 4 is a front sectional view of the device in a working position;

in fig. 5 shows the levers of the linkage mechanism in the position of servicing or unloading containers;

in fig. 6 shows the levers of the linkage mechanism in the working position.

The device for underground garbage collection contains a container made of concrete in the form of an open top bunker 1. In the bunker there is a lower platform 2, on which the upper platform 3 with openings and garbage bins 4 installed on it is mounted. The lower platform 2 is adapted for inventory ( not included in the structure of the device) garbage containers 5. For vertical movement of the platforms is located under the lower of them lever mechanism 6 with a hydraulic drive. The lever mechanism 6 is a pair of levers 8 and 9 of the lever mechanism fixed to the lower platform 2 and to the base of the hopper 1 and movably connected to each other in their middle part by the axis 7. The free ends of the levers 8 and 9 are installed in parallel guides 10 and 11 fixed, respectively, to the base and to the lower platform 2 of the hopper. The capacity of the hopper 1 is made of concrete and consists of 12 volumetric upper 13 and lower 14 blocks, tied together by ties 15 through the embedded parts installed along the perimeter of each of the blocks. The lower 14 of the blocks has a recess 16 for a drainage pump formed at the base of the hopper 1 below the level of placement of guides 11 connected to the base with anchors 11, providing collection and removal of liquid. The upper 3 platform, when resting on the shoulder 17 of the end of the upper 13 of the volumetric block, overlaps its outer contour in plan. The movable connection between the levers 8 and 9 in each of the pairs of the lever mechanism in their middle part is made in the form of longitudinal grooves 18 (the value of the groove 18 in Fig. 5 is exaggerated) in some of them and the axis 7 placed in them, fixed to the other of them ... To ensure reliable operation at low temperatures, the device for underground waste collection has means for heating the zone of adjoining the upper 3 platform to the upper part of the upper volumetric block formed along the perimeter of the shoulder, made, for example, in the form of an electric heating cable mounted in the upper part of the upper 13th volumetric block or in the lower part of the upper platform 3. In the upper platform there is a fire extinguishing agent with the possibility of supplying a fire extinguishing agent, for example, water or carbon dioxide, to the garbage containers located on the lower platform 2. To prevent freezing in the winter season and reliably remove the liquid, an opening for draining the drainage liquid is made in the side wall of the upper or lower volumetric blocks. Garbage bins by known methods can be adapted for separate collection and delivery to garbage containers of garbage according to the type of its constituent main material - paper, metal, polymers or glass. Also, the device for underground waste collection can have sensors to signal the full filling of waste containers. Such sensors can be, for example, using photocells, i. E. photovoltaic, giving a signal to a control lamp located on the counter and at the same time to the dispatcher about the need to remove garbage or replace a filled container with an empty one. To ensure the reliability of the device and prevent the containers from moving when they are lowered or raised, guides, preferably movable, are mounted on the upper surface of the lower platform 2 for the wheels of garbage containers, as well as container locks in the working position, made in the form of hinged stops or recesses in these guides ... In the wall of the upper volumetric unit, an opening 19 is made for placement flush with its inner surface of the cabinet 20 for electrical and hydraulic equipment, and the emergency hatches in the upper 3 platform and the inspection hatches in the lower 2 platform (not shown) are made from the side of the said cabinet 20. Platforms 2 and 3 are interconnected by racks 21.

Volumetric upper 13 and lower 14 blocks of the bunker 1 are manufactured at the factory by vibratory casting. Then the upper 13 and lower 14 blocks are connected and centered relative to each other using a tongue-and-groove joint 12. Additionally, after connection, the upper and lower parts are tightened with ties 15, which can be bolts through embedded parts, discretely installed along the contour (perimeter) ... After that, the assembled bunker 1 is waterproofed from the outside. In the niche of the side wall of the upper 13 block, a cabinet-niche is mounted to accommodate electrical equipment and a hydraulic station. Then the linkage mechanism 6 with a hydraulic drive is mounted, which is fixed to the lower platform 2 and to the base of the hopper 1, movably connected to each other in their middle part by the axis 7 of pairs of levers 8 and 9. The free ends of the levers 8 and 9 are installed in fixed, respectively, to the base and to the lower platform 2 of the bunker of parallel guides 10 and 11. Upon completion of the installation of all elements of the device for underground waste collection, it is delivered to the object assembled or partially (based on transportation conditions) disassembled. Waste collection (MSW) is carried out when the garbage containers 5 are lowered into the cavity of the bunker 1. When they are filled, the lower platform 2 with the containers 5 is lifted to the surface level, after which the containers 5 are rolled out for emptying or replacement.

Claims (8)

1. A device for underground garbage collection, containing a container made of concrete in the form of a bunker open on top, in which a lower platform carrying an upper platform with garbage bins is located for garbage containers placed between them with the possibility of vertical movement of the platforms from the drive linkage located under the lower one , in parallel guides fixed to the bottom plate and to the base of the hopper, which are hingedly mounted, movably connected to each other in their middle part, a pair of levers of the linkage mechanism, the free ends of which are installed in parallel guides fixed, respectively, to the base and to the bottom platform of the hopper, characterized in that, that the container made of concrete is formed of interconnected volumetric blocks closed in cross-section, and the movable connection between the levers in each of the pairs of the lever mechanism in their middle part is made in the form of longitudinal grooves in some of them and p the axis located in them, fixed to the other of them. 2. A device for underground waste collection according to claim 1, characterized in that the upper and lower blocks are pulled together through embedded parts. 3. A device for underground garbage collection according to claim 1 or 2, characterized in that the volumetric blocks of the container, closed in cross-section, are interconnected by means of a waterproof tongue-and-groove joint, and the embedded parts are installed along the perimeter of the connection of each of the blocks. 4. A device for underground waste collection according to claim 1, characterized in that the upper platform, when resting on the shoulder of the end of the upper volumetric block, overlaps its outer contour in plan, on the upper surface of the lower platform there are guides, preferably adjustable, for the wheels of waste containers, and locks of containers in working position. 5. A device for underground garbage collection according to claim 1, characterized in that it has means for heating the zone of adjoining the upper platform to the upper part of the upper volumetric block formed along the perimeter of the bead, made in the form of an electric heating cable mounted in the upper part of the upper volumetric block or in the bottom of the upper platform. 6. A device for underground garbage collection according to claim 1, characterized in that a fire extinguishing means is placed in the upper platform with the possibility of supplying a fire extinguishing agent to garbage containers located on the lower platform. 7. A device for underground waste collection according to claim 1, characterized in that it has sensors for signaling the complete filling of waste containers, and an opening is made in the wall of the upper volumetric block for placement flush with its inner surface of the cabinet for electrical and hydraulic equipment, and the emergency hatches in the upper platform and inspection hatches in the lower platform are made from the side of the said cabinet. 8. A device for underground garbage collection according to claim 1, characterized in that the lower of the volumetric blocks has a recess formed at the base of the hopper below the level of placement of guides connected to the base with anchors for collecting and draining liquid, and the container is made with an opening for draining the drainage liquid into side wall.

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