RU168965U1 - Glass container container - Google Patents

Abstract

The container for collecting glass containers is designed for separate collection of recyclables in the form of glass bottles and cullet. The container has a hollow rigid body with a bottle opening, an inclined sleeve attached to the opening and a mesh at the bottom of the case. The sleeve and the inlet are made of cylindrical diameter 110 mm. The mesh is made of metal and has a mesh size of 50 * 50 mm. The presence of an input device in the form of a round hole and a long narrow sleeve prevents extraneous debris from entering the container (the first sorting stage), and the presence of a mesh in the lower part of the container allows the second sorting stage to be performed - separation of cullet from whole bottles and large fragments.

Description

The utility model relates to containers for separate collection of garbage, in particular for the collection and storage of recycled glass containers - glass bottles.

Utilization of glass containers has a peculiarity: its processing can only be done after separation by color, since the dye cannot be removed from the melt. However, there is a cullet - fragments of glass products with a size of 10 to 50 mm (GOST R 52233-2004 Glass containers. Cullet. General specifications), which are sorted by color impractical and are usually used as an additive in a charge or when melting glass containers green colors. The task of separate collection of garbage is to provide with the minimum means the maximum possible approximation of the collected to the requirements of recycling. The objective of the utility model is to create a container for separate collection of glass containers, which facilitates the sorting of used bottles by color and the separation of cullet from bottles.

Another feature of collecting glass containers is the noise emanating from the glass containers when placed in a container. Sound absorbing coatings on the inner surfaces of the container are designed to reduce the noise level. Usually they are damping elements that reduce the percentage of bottles that break when placed in a container. Another way to reduce noise is to install devices in the container that slow down the movement of the bottles by gravity.

It is known to use as a sorting device a loading hole of size and shape that excludes the placement of garbage in the container that does not meet the purpose of the container. So, for example, the Hazardous Waste Container (ed. Certificate of the USSR No. 1822851, B65F 1/00, publ. 06/23/1993 g) contains a sealed enclosure having a loading hole in the form of a gap with a length and width corresponding to the length and diameter of the collected waste - gas discharge lamps. It is also known to use as a device slowing down the fall of glass products by gravitational rolling, two counter-inclined planes located inside the container for collecting compact fluorescent energy-saving lamps (patent RU 2463234 C1, B65F 1/00, B65F 1/14, publ. 10.10.2012 d). All known containers do not have the function of separating secondary glass containers and cullet.

The closest in technical essence (by the number of common features) adopted for the prototype is a glass bottle collection container containing a hollow rigid body with a receiving device in the form of cylindrical holes and elements damping the falling of bottles (patent FR 2893318, B65F 1/14, published on May 18, 2007). Such a container does not have the function of sorting incoming garbage and does not use the internal volume efficiently, since most of it is occupied by damping elements.

The objective of the claimed utility model is to create a container with a new function - sorting incoming garbage into bottles and cullet. In order to solve the problem in a well-known container containing a hollow rigid casing, a receiving device and damping elements for falling bottles, a sleeve connected to a receiving hole is installed inside the housing as a receiving device, and a net is installed in the lower part of the case as elements damping falling bottles. .

In FIG. 1 shows a vertical section of the inventive container along the axis of the sleeve.

The inventive container has a housing 1 with an opening 2 to which a sleeve 3 is attached. A mesh 4 is installed in the lower part of the container. A vibration-absorbing coating 5 can be installed on the inner surface of the container.

The best performance, according to the author, is the manufacture of the housing 1 in the form of a rectangular parallelepiped with a frame of metal pipes of rectangular cross-section and sheathing from metal siding. A cylindrical hole 2 for receiving glass bottles is produced in the upper part of the front side of the housing, based on the maximum size of the most common containers, with a diameter of 110 mm. A sleeve in the form of a cylindrical steel pipe of the same diameter, connected to a cylindrical hole 2, exceeding the maximum size of the most common containers, namely 60 cm, is welded to the frame from the inside of the body. The pipe is welded at an angle of 15 degrees downward, ensuring smooth movement of the bottle from the inlet of the cylindrical hole 2 to the damping element - mesh 4 made of metal according to GOST 3826-82 "Woven wire mesh with square cells". The mesh cell size is advisable to choose 50 * 50 mm, based on the maximum size of the pieces of cullet installed in accordance with GOST R 52233-2004 "Glass containers. Cullet. General specifications. " On the inner side of the housing 1 to meet the requirements of SNiP II-12-77 “Protection against the noise of residential territories”, a vibration-absorbing coating 5 can be applied, for example, from the material “Vibroplast” TU 5772-006-48214265-01.

The inventive utility model is used as follows. The container is installed in the immediate vicinity of the source of emptied glass containers (store, stadium, etc.) or in places of collection of household garbage on the container site. The recycled glass bottle is pushed into the opening 2 of the housing 1 and along the inclined sleeve 3 under the influence of gravity smoothly moves to the exit of the sleeve 3 and falls from a small height onto the net 4 or a bunch of previous bottles. If, as a result of a fall, the bottle breaks or parts (neck, bottom) break off, then fragments of a size less than the maximum allowable in accordance with GOST R 52233-2004 fall through mesh 4, thus separating cullet. After filling the container, whole bottles and large fragments are removed with simultaneous sorting by the color of the glass and the separated glass cube is unloaded, which cannot be sorted by color.

Thus, the presence of a round hole and a long narrow sleeve in the input device prevents extraneous debris from entering the container (the first sorting stage), and the presence of a mesh in the lower part of the container allows the second sorting stage to be performed - separation of cullet from whole bottles and large fragments.

Claims (4)

1. A container for collecting glass containers containing a hollow rigid body, a receiving device and damping drops for bottles, characterized in that a sleeve connected to the receiving hole is installed inside the housing as a receiving device, and in the lower part as elements damping falling bottles Cases installed mesh. 2. The container according to claim 1, characterized in that the sleeve and the receiving hole are made of a cylindrical diameter of 110 mm 3. The container according to claim 1, characterized in that the sleeve is made in the form of a pipe, inclined downward at an angle of 15 ^° C. 4. The container according to claim 1, characterized in that the mesh is made of metal and has a mesh size of 50x50 mm.

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