BG3484U1 - Device for dry combined-medium-fine crushing and grinding of glass and other high hardness materials - Google Patents

Abstract

The utility model relates to a multifunctional device for step crushing of glass bottles to pieces of about 25 mm in size, followed by roughly grinding to about 3 mm, and followed by grinding to less than 100 mkm, in which 3D vibrations are generated and grinding units have different configurations according to the granulometric characteristics of the desired product. This device is mainly intended for grinding glass waste (especially with sizes below 10 mm), for which there is no commercial demand and accumulates in landfills in large quantities.

Description

5821 Descriptions to registration certificates for utility models № 03.1 / 16.03.2020 (54) DEVICE FOR DRY JOINT - MEDIUM - FINE CRUSHING AND GRINDING OF GLASS AND OTHER HIGH TWO MATERIALS

The utility model refers to a multifunctional device for sequential crushing of glass bottles to pieces with dimensions of about 25 mm, is subsequent coarse grinding to about 3 mm, and subsequent grinding to less than 100 mkm, in which 3D vibrations are generated and grinding bodies are different configurations according to the grain size characteristics of the desired product. This device is designed primarily for grinding glass waste (especially sizes less than 10 mm), for which there is no commercial demand and accumulate in landfills in large quantities.

There is a vibrating device for crushing and grinding, which is based on the same 3D vibrations is similar to grinding bodies, but structurally and in principle is not able to take whole bottles or white flat glass is larger. Roller and hammer crushers are also known for the pre-treatment of waste glass fed to smelters.

A disadvantage of the known devices is the limited degree of crushing, which is not higher than 1: 8. Another disadvantage is the limited number of factors for controlling the grain size distribution of the finished product.

The task of the utility model is to create a device that can take large pieces of glass (or other materials) and, depending on the need to break or grind it to the required grain fraction, ie. if we supply the device with whole bottles, if necessary we can get a final product below 0.1 sh. The device is designed to produce glass grinders for local production and local landfills for solid waste. Ground glass fractions can be used for the production of dry construction mixtures, abrasives, floor fillings, sandblasting, etc. The multi-stage stage grinding allows for the replacement of the specific grinding bodies on the floors of the mill, the aim is to achieve products with more specific grain size characteristics, as well as to achieve particle sizes below 90 mkm. The device works in a hermetically sealed space, without its own dust emissions.

The advantage of the device is its versatility in terms of the desired grain size classes, fast and easy readjustment from one to another desired grain size product, the ability to readjust 3D vibration sources by speed / min ¹ / and imbalances to the feed material is to increase process efficiency, as well as achieving a low degree of wear of the specific grinding bodies located on the floors in the device.

The task of the utility model as a device is solved by placing different purpose grinding bodies on floors connected in a cylindrical common, vertically arranged volume, as the material fed for crushing and grinding passes successively through the impact of grinding bodies designed to consistently reduce the size of the resulting particles. If necessary, the grinding bodies can be replaced from floor to floor and / or duplicated, for which purpose each floor is detachable for quick and convenient readjustment. The cylindrical part of the device is movable 3D vibrating, in which the grinding bodies synchronously and asynchronously separately perform vertical movements is a simultaneous axial rotation - the effect of impact, pressure and grinding to the required degree of destruction. The movable cylindrical part rests elastically on a fixed supporting structure, and the 3D vibrations are generated by a known vibro-unbalanced motor-mechanical system.

The utility model is implemented in a device representing a vertical cylindrical vessel, closed in its high and low part is flange joints are lids containing openings - respectively for material inlet and outlet for crushed or ground product to the next floor, and the cylindrical body contains the most slightly three grinding floors, firmly connected to the cylindrical body by flange connections. Each floor contains different in function and configuration grinding bodies, as in the first receiving floor the grinding bodies are vertically arranged, tapered at its upper end steel bars is round, the second floor contains a grinding body, representing a massive truncated cone is a hole in the middle and base, formed in two opposite slopes and a flat bottom lying on a rigid supporting structure bottom is openings attached between the flange connections, and the third floor contains concentrically located grinding bodies - rings or sectors of rings, freely located on a movable bottom is an opening

5822 Descriptions to certificates for registration of utility models № 03.1 / 16.03.2020 in the middle - a total of holes lying on a fixed bottom. The device can consist of more than three floors is different combinations of grinding bodies.

An exemplary embodiment of the device is shown in Figure 1, representing a vertical cross-section.

The device consists of a cylindrical housing 1 consisting of separate cylindrical floor bodies, fastened together by flange connections 2, rigidly connected by a frame 3 is a vibrating source 4 and an elastic support 5 on a supporting fixed frame 6. The first receiving floor body 7 in its upper part is open, and in its lower part is formed a bottom is holes 8, on which are vertically freely placed grinding bodies, representing conically-pointed cylindrical rods 9. The second floor body 10 contains a grinding body 11, representing a massive truncated cone is a central hole, and the lower part is formed by slopes and a flat part lying on a bearing bottom 12 is openings. The third storey body 13 comprises concentrically spaced steel rings or ring sectors 14 on an also movable disk 15 is a back conical opening and lying on a fixed bottom are openings 16 under which an unloaded chute 17 is mounted and a material hopper 18 is mounted above the device.

The device, according to the utility model works as follows.

The glass cylinders or other solid material from the hopper 18 is a chute enters the vibration zone in the first floor body 7 between conically pointed cylindrical rods 9 and roughly crushing moves downward to the zone of direct impacts between the rods 9 and the bottom is holes 8 through which openings pass into the second floor body 8. Already saturated to a certain extent - up to less than 20 mm, the crushed particles fall into the vibration zone of the conical grinding body 11 - in the area of its entire narrowing, limited by a cylindrical cone 1 work surface, and through the central opening - to the periphery there are constant vibration shocks and crushing effect on the fixed bearing bottom 12 until the finely crushed material passes through its openings to the third floor body 13. In the third floor body 13 the material is vibrated by freely mounted vibrating rings or ring sectors 14 and is unloaded through the center of a freely mounted disk for fine impact-crushing impact on top in the fixed bottom there are openings 16 are openings for taking the finished ground product through the unloading chute 17.

The device, according to the utility model gives a wide technological applicability is an opportunity to select the grinding bodies - in size, weight, impact impact area, number of floors, frequency and strength of the applied vibrations.

The vibrators are four in number and are unbalanced in the configuration for the formation of 3D vibrations, which enhances the crushing effect in the second and subsequent floors.

The impact time between the freely moving and conditionally stationary cylindrical and bottom parts of the device is measured in milliseconds, which leads to high stress, stress destructive effects on the particles to be ground and a low degree of surface abrasion. Another advantage is that with this type of operating mode there is a possibility for surface self-ignition and increase the service life of the grinding bodies.

Claims (3)

5823 Descriptions to utility registration certificates № 03.1 / 16.03.2020 Claims Device for dry crushing and grinding of glass, comprising at least three grinding floors, of which a floor body (7) with grinding bodies for fine crushing - conical-pointed cylindrical rods (9), a second floor body (10) with grinding body (11) for coarse grinding and third floor body (13) with grinding bodies ring sectors (14) and movable disk (15) for fine grinding, characterized in that the motor-vibrator (4) is connected to a common vibrating with 3D vibrations vertical cylindrical body (1), synchronously performing destructive actions on the treated material from the inlet - hopper (18) to the outlet unloading chute (17), ensuring the absorption of large inlet pieces, whole glass bottles and grinding them to the required micro dimensions. Device according to claim 1, characterized in that the motor vibrator (4) is capable of changing the speed and unbalance force, the grinding bodies (9 and 11) in the first and second storey bodies (1) are capable of change of shape and weight and floors II (10) and III (13) have the possibility to increase or decrease their number to achieve particle size distribution. Device according to Claim 1, characterized in that the local vibrations generated by the motor vibrators (4) transmitted to the grinding bodies (9, 11 and 14) result in local stress stresses on the treated materials (glass particles). ) for a period measured in milliseconds, resulting in a self - ignition effect of the metal grinding bodies (9, 11 and 14).