DE4334714C2 - Dry battery sorting system and sorting method using the sorting system - Google Patents

Description

The present invention relates to a dry battery sorting system, the input side Detaching device for batteries and objects above a certain size has a vibrating table on which the battery mixture conveyed onto it in front preferably three fractions are separated and the at least one, preferably two sorting has devices for additional sorting from the vibrating table fractions.

Sorting is one of the important tasks of waste disposal and recycling the numerous, everyday, very different, used dry batteries.

Thus, in "Patent Abstracts of Japan" E-1218, June 18, 1992, Vol. 16 / No 271, a sorting is done described process for waste dry cells, in which cylindrical dry cell batteries from those of other external forms.

DE 34 07 460 A1 describes a screening device for valuable materials, waste and other problematic materials disclosed, with arranged in the transport direction, inclined, in a swinging motion displaceable rods, wherein at least two successively arranged one behind the other Rod grate screens are provided, the end regions of which are directed in the transport direction are free-floating and open.

Also in LUEGER, Lexikon der Technik, 4th edition, 1970, page 450, Deutsche Verlag anstalt Stuttgart, rod sieves are described.

DE 36 01 671 A1 discloses a device for screening or classifying in particular special garbage with a movable sieve element on a stationary frame. For this, meh rere transverse walls running parallel to each other and crossing the conveying direction on the one hand mounted on the frame and on the other hand with a distance to the frame arranged, the drive having the frame connected so that the upper edges of the Transverse walls are staggered higher and one in front of the in the conveying direction switched transverse wall protruding screening device are overlapped.  

It is known that batteries partially toxic heavy metals or heavy metal compound included. The emissions of such disregarding landfills or uncon Controlled disposal of batteries is therefore a serious environmental burden.

However, due to legislative measures, batteries are increasingly used collected and disposed of risk-free or recycled, carefully Sorting is a prerequisite.

The most common batteries can be divided into four groups, namely:

• 1. Zinc-carbon and alkaline-manganese batteries
• 2. Lithium batteries
• 3. Nickel-Cadmium batteries
• 4. Mercury batteries (e.g. button cells).

Because batteries are produced, exported and imported in large quantities in industrialized countries are and so far no uniform standards in production and labeling be the task of sorting is particularly difficult. It should be taken into account that on the one hand the sizes and shapes are different and on the other hand under Different sizes and shapes also have different compositions.

The applicant has succeeded in developing a device that is technically suitable Scale enables this mixture to be sorted reliably so that the sorted fractions tion can be recycled in a practicable manner records that this device

• a) has a bar screen in the entrance area, the passage width preferably is adjustable between 65 and 75 mm.
• b) a conveyor belt for conveying batteries that have passed through the sieve a) points out  
• c) has a vibrating table that moves in such a way that the on the table conveyed batteries are moved in the conveying direction and its Vibrating frequency is adjustable and the adjustable incline of 1-15 ° Has vibrating table surface on which that which has passed through sieve a) Battery mixture is abandoned, the surface of which is at least two behind rod screens installed in the direction of conveyance are different Passage width, the passage width of the first screen-like surface is less than that of the following and is set so that button batteries by the first sieve fall through and the second rod sieve, which with regard to the current battery sizes on the market, a passage width of 17 mm has that of the spaces below the bar screens each Conveyor belt runs out, the falling through the bar screens Promotes battery share,
• d) that the fraction which has passed through the second rod screen is on a conveyor tied through a sorting line,
• e) that the batteries <17 mm at the end of the vibrating table also on a conveyor belt arrive with sorting line,
• f) that the conveyor belts can be regulated independently of one another with one conveyor each speed from 0.005 to 1 m / sec. are operable and
• g) that at the end of the two conveyor belts for the incoming fractions Collection container.

The applicant has also managed to find a sorting procedure for dry cell batteries Develop use of the device according to the invention. The invention The device has a separation system in which, in a first separation stage, batteries other objects above a certain size may also be separated. This is done according to the invention in such a way that the mixture of used batteries is poured onto a sieve-like pad which covers a storage container. This Sieve is a bar screen, in which bars are placed side by side with a certain passage are arranged wide. The bars preferably have an angle iron profile. However, you can also have other profiles such as square, rectangular, round and other profiles.  

The rods are usually made of steel. But also other materials like Edel steels, plastics and wood of sufficient strength, composites and the like can be used according to the invention.

According to the invention, the sieve-like support on the silo can preferably be tilted, the Oversizes can be conveyed into a storage container.

The passage width of the sieve can be fixed or adjustable. The passage width is 65 to 75 mm, preferably 67 to 70 mm. However, it can depend on the on the Dry battery sizes on the market can also be a very exact width, such as B. 68 mm, so that dry cells with an edge length <68 mm × 68 mm are separated and can be collected in a storage container.

The large batteries thus separated can be sorted according to the invention are fed, in which they automatically or manually in certain materials together can be separated further.

The battery mixture present in the storage container is conveyed through a conveyor, preferably a conveyor belt, conveyed onto a vibrating table. The vibrating table at least points two bar screens with different passage widths on top, as screen inserts lie on the vibrating table. The vibrating frequency of the table is adjustable. The movement the table is advantageously carried out in such a way that the batteries conveyed on the table in Direction of funding to be moved. The slope of the vibrating table or the bar screens is adjustable so that the promotion of the batteries also by adjusting the slope can be regulated. Here, the incline or descent can be in a range from about 1 to 15 °, preferably 2 to 10 ° adjustable. The poles of the Bar screens are preferably arranged in the conveying direction. For the shape and type of Stangen applies to what has already been said in connection with the inlet sieve.

The passage width of the first sieve is chosen so that essentially the so-called button cells fall through the sieve. The passage width is adjustable or the sieve insert can be exchanged for another one if necessary. In the The current production of button batteries on the market is the distance between the rods 8 mm so that the batteries <8 mm down through the sieve can fail. After passing through, the batteries arrive on a conveyor belt, the  Slope is preferably adjustable. The tape passes a magnet, preferably one Drum magnets in which foreign materials containing iron can be sorted out and a waste container for residual waste. Possibly. the residual waste from another sorting facility tion are fed.

The separated button cells are fed to a processing plant, in which the Mercury can be removed and collected without emissions.

The batteries, which are not separated on the first rod screen, open up at least one following bar screen - preferably the device according to the invention has two such bar screens on - in view of the current ones on the market battery sizes located has a passage width of 17 mm. This too Rod screen is interchangeable or has an adjustable passage width, so that this can be adapted to the respective market conditions.

The batteries falling through the second bar sieve reach a conveyor device, preferably a conveyor belt that passes through a sorting line.

The conveyor speed of the conveyor belts emanating from the vibrating table is stepped adjustable. It is between 0.005 to 1 m / s, preferably between 0.01 to 0.3 m / s. On the conveyor line is automatically sorted or at least partially manual sorting.

All modern sorting methods and devices come in as automatic sorting Question, especially image sorting, the size, shape, color, inscriptions, special Indicators that relate to the composition of the battery, etc.

As is known to the person skilled in the art, the radiation from the object is combined with electromagnetic and / or acoustic waves from the object arriving waves registered and compared with stored data. The data processing then takes place the control of a sorting device which is pneumatic, hydraulic, mechanical, electrical or otherwise sorts out the identified batteries.

Alternatively, manual sorting can be carried out by trained personnel. Erfin According to the invention, automatic sorting with manual sorting can also be carried out To achieve optimal separation of the individual batteries can be combined.  

The applicant 's extensive investigations have shown that Combination of the individual systems of the device according to the invention with the applied ones Parameters a very reliable sorting is possible in such a way that the lithium, Nickel / cadmium and, if available, mercury-containing batteries preferred be sorted out on the sorting line, while the zinc / coal and Alkaline / manganese batteries remain on the belt and at the end of the belt in collection containers get hold of.

The sorting is favored in that the subdivision according to the invention of the current Batteries currently on the market in a fraction of 17 mm, <8 mm and <17 mm.

The batteries <17 mm reach the end of the vibrating table and from there onto a conveyor band with sorting line. Here, too, lithium and nickel / cadmium batteries are discarded animals, while the zinc / carbon and alkali / manganese batteries at the end of the conveyor belt get a collection container.

The batteries present in the collection containers can be sorted further Process separated in zinc / cabbage batteries on the one hand and alkali / manganese batteries on the other hand will. The components can be recovered from the separate battery types will.

In principle, according to the present invention, a further separation of the used dry cell batteries on more than two rod screens with different openings wide possible. Only the button batteries <8 mm can also be disconnected and the batteries = <8 mm sorted on only one conveyor belt with only one sorting line will.

All conveyor belts can preferably be operated and regulated independently of one another. in the in general, the conveyor belts emanating from the vibrating table are at 90 ° to the conveying direction device arranged.

The conveyor belts can for example be switched so that the conveyor belt for batteries <17 mm is stopped, for. B. due to overload of the sorting line, then vibrating screen insert 2 and the conveyor belt starting from the storage container are stopped, while the conveyor belt for batteries of 17 mm and the conveyor belt <8 mm continue to run.

Alternatively, the conveyor belt for batteries of 17 mm can be stopped, for example, at the same time the first bar screen and the conveyor belt starting from the vibrating table be stopped while the conveyor belt starting from the bar screen <17 mm and the conveyor belt for button batteries continues to run.

The present invention also includes the method of sorting dry cell batteries using the device according to the invention. Here, as already in Described in connection with the device, initially batteries and other larger ones Items such. B. <68 mm × 68 mm at the entrance of the system over a bar screen severed. The battery mixture gets into a storage container under the sieve and is from there via a conveyor belt to a vibrating table with preferably two bar screens different passage width promoted.

Due to the different passage widths fall on the first rod screen pulls the button batteries containing mercury through the rod screen. she get on a conveyor belt that they, preferably via a magnetic separator z. B. one Drum magnets, conveyed to a collection container. By magnetic separation ferrous materials are separated. The separated from the button batteries Materials are collected as residual waste in a separate collection container. Out the mixture, which is freed from the button batteries, is removed by a second rod sieve Batteries separated by 17 mm. You get to a conveyor belt that is a sorting line goes through. The lithium, Nickel / cadmium and possibly existing mercury batteries sorted out. The remaining zinc / carbon and alkali / manganese batteries arrive at the end of the Conveyor belt in a collection container. Batteries <17 mm reach the end of the vibrator tables on another conveyor belt, where the sorting of lithium and Nickel / cadmium batteries are made from the zinc / carbon and alkali manganese batteries.

An exemplary device according to the invention will be explained in more detail with the aid of the figure. ( 1 ) represents the bar screen support above the storage container at the entrance to the system. The larger batteries and other objects can be tipped from the bar screen into the collection container ( 2 ). A conveyor belt ( 3 ) leads from the storage container to the vibrating table ( 4 ), which consists of two rod screens with different rod widths. From the first rod sieve fall through button batteries via conveyor belt ( 5 ) and drum magnets ( 6 ) on conveyor belt ( 8 ) and from there in collecting container ( 9 ). Residual waste components can be conveyed into a collecting container ( 10 ) via a conveyor belt ( 7 ).

From the second rod screen of the vibrating table, a conveyor belt ( 11 ) leads over a sorting line ( 12 ). The lithium, nickel / cadmium and, if applicable, mercury batteries are sorted out there. The zinc / carbon and alkali / manganese batteries remaining on the belt enter one of the collection containers ( 15 ). The material <17 mm located at the end of the vibrating table arrives on a conveyor belt ( 13 ), which also passes through a sorting system ( 14 ). The same sorting takes place there as in the sorting system ( 12 ). The remaining batteries in turn get into one of the collection containers ( 15 ).

Claims (10)

1. Device for sorting used dry cell batteries, characterized in that this

• a) has a bar screen in the entrance area, the passage width is preferably adjustable between 65 to 75 mm.
• b) has a conveyor belt for conveying batteries that have passed through the sieve a),
• c) has a vibrating table which moves in such a way that the batteries conveyed onto the table are moved further in the conveying direction and whose vibrating frequency is adjustable and which has an adjustable incline of 1-15 ° of the vibrating table surface on which the sieve a) is passed through the battery mixture, the surface of which has at least two successively installed, in the conveying direction aligned bar screens of different passage width, the passage width of the first screen-like area is smaller than that of the following and is set so that button batteries fall through the first screen and the second bar screen, which, in view of the current battery sizes on the market, has a passage width of 17 mm, that a conveyor belt emanates from the spaces below the bar screens, which further conveys the battery fraction falling through the bar screens,
• d) that the fraction which has passed through the second rod screen passes through a sorting section on a conveyor belt,
• e) that the batteries <17 mm at the end of the vibrating table also reach a conveyor belt with a sorting line,
• f) that the conveyor belts can be regulated independently of one another, each with a conveying speed of 0.005 to 1 m / sec. are operable and
• g) that there are collection containers for the incoming fractions at the end of the two conveyor belts.

2. Device according to claim 1, characterized in that the passage widths between the rods of the rod sieve are 68 to 70 mm wide. 3. Device according to at least one of claims 1 and 2, characterized net that a magnet is arranged on the conveyor belt for button cells. 4. The device according to at least one of claims 1 to 3, characterized net that automatic sorting routes are available. 5. The device according to at least one of claims 1 to 3, characterized net that manual sorting routes are at least partially available. 6. The device according to at least one of claims 1 to 5, characterized in net that the adjustable pitch of the bar screens is 2-10 °. 7. Method for sorting used dry cell batteries with the device according to the Claims 1-6, characterized in that the battery mixture from which Batteries above a certain size are removed using the bar screen have been conveyed to the vibrating table by means of the conveyor belt that on the first rod screen button batteries are disconnected that the on the Batteries remaining batteries on the following rod screen in two parts different dimensions are separated and that the two parts different sizes are sorted in sorting devices, the Conveyor belts can be regulated independently of one another Conveying speed from 0.005 to 1 m / sec. is set, but not sorted batteries can be collected. 8. The method according to claim 7, characterized in that the conveyor belt for the Button cells pass a magnet.   9. The method according to at least one of claims 7 and 8, characterized in that that is sorted automatically. 10. The method according to at least one of claims 7 and 8, characterized in that that sorting is at least partially manual.