CN209344026U - A kind of fluorescent tube reclaimer - Google Patents

Abstract

The utility model discloses a kind of fluorescent tube reclaimers, belong to waste resource utilization technology field.Mercury in useless fluorescent lamp is carried out by innoxious recycling using mercury recyclable device, metal and plastics object are separated out using macropore vibrosieve, cullet are separated out using aperture vibrosieve, the glass powder for being mixed into fluorescent powder is collected using glass powder collecting board.A kind of fluorescent tube reclaimer of the utility model, more thorough to the recycling of waste fluorescent light tube, the recovery and treatment method feature of environmental protection is good, realizes the automation of operation and the automatic clustering of material and sorting.

Description

A kind of fluorescent tube reclaimer

Technical field

The utility model relates to a kind of fluorescent tube reclaimers, belong to waste resource utilization technology field.

Background technique

Fluorescent lamp is a kind of gas-discharge lamp, and mercury is to exist in fluorescent tube as gas discharge medium.Discarded fluorescence After fluorescent tube is broken, mercury vapour is distributed to surrounding immediately, the mercury concentration in surrounding air can instantaneously be made to reach 10~20 milligrams/cube Rice.When waste old fluorescence lamp tube is untreated or processing is mishandling, harmful components mercury will be entered by skin, breathing or food Human body generates high risks to human health.

Waste fluorescent light tube disposal options, which mainly have, at present adds sulphur landfill method, incineration method and recycling method.Wherein recycling benefit Usage use is more universal.Recycling method is divided into wet process and dry method separation again:

1, wet separation technology main method are as follows: (1) it with fluorescent tube that detergent and water cleaned is put into acetone soln in, it is right Lamp cap punching, then cuts down lamp cap, and the aluminium cap and glass solder of lamp cap are separated, the tungsten wire of stem and one nickel of copper are led Silk separation.(2) glass tube cleans again and is truncated to full-length after wiping fluorescent powder, and fluorescent powder is dried after filtering.(3) aluminium Cap obtains fine aluminium after handling in melting sodium chloride/carbon, copper-nickel seal wire handles to obtain copper-nickel alloy in melting Boratex/carbon, most Villaumite is obtained after furnace hydrochloric acid for dreg is washed afterwards.

2, dry method separation is divided into again splits recovery technology and " separation of cut end purging " technology.1. splitting recovery technology: splitting Recovery technology technical process is: first spliting the components such as (or pedestals) of begining to crop up of fluorescent lamp with fluorescent tube (light bulb), with high speed gas Stream blows out fluorescent powder, and fluorescent powder is recovered；Glass tube recycles after handling directly or through broken, stream of hot air；It begins to crop up (or pedestal) is by crushing separation and recovery metal；After distillation, (including air) containing mercury gas is flowed through and is made a living mercurous fluorescent powder Property carbon purifying recycle mercury, mercury by purification after recycle.2. " separation of cut end purging " technique is first to cut away the both ends of fluorescent tube, blow Enter after pressure-air blows out mercurous fluorescent powder and collect, then mercury is recycled by vacuum heater, the purity for generating mercury is 99.9%.Blow away fluorescent powder fluorescent tube it is broken after recycle.

China has corresponding patented technology in terms of fluorescent lamp recycling at present, and application No. is 200810067282.1 " method and apparatus of mercury of waste fluorescent light tube harmless treatment and recycling " patent, and application No. is 200910040727.1 " resource recycle method for waste tubes " patent.

Wherein, " method and apparatus of mercury of waste fluorescent light tube harmless treatment and recycling " and " useless fluorescent tube recycling time " though belonging to Dry recovery processing, its emphasis is different for receiving method.It is confined to carry out mercury in useless fluorescent lamp innoxious time Receive, and the recycling for how recycling fluorescent powder and glass and metal do not referred to, and to the innoxious recycling of mercury be only limitted to by Mercury is reacted with sulphur simple substance generates sulfide.Simultaneously as there are also a large amount of non-in fluorescent lamp metal in addition to magnetic metal (irony) Magnetic metal (aluminium, copper) etc., therefore can not necessarily achieve the purpose that metal is kept completely separate with glass using magnetic separator.In addition, In fluorescent tube shattering process, the glass powder of generation is easy to be mixed into fluorescent powder, influences the recycling of fluorescent powder.

Utility model content

In view of this, the present invention provides a kind of fluorescent tube reclaimer, more to the recycling of waste fluorescent light tube Thoroughly, the recovery and treatment method feature of environmental protection is good.

The utility model solves above-mentioned technical problem by following technological means:

A kind of fluorescent tube reclaimer of the utility model comprising rubber grab bucket, hammer mill, conveyer belt, big Hole vibrating screen and fluorescent powder collector, the lower section of rubber grab bucket are provided with fluorescent tube feed inlet, fluorescent tube feed inlet and hammer The connection of formula crusher, hammer mill recycle collector by mercury and are connected to mercury recyclable device, and mercury dress is steamed in hammer mill and heating Connection is set, heating, which is steamed, is provided with screw rod on mercury device, heating steams the outlet of mercury device in the top that conveyer belt is arranged in, conveying The upper end of band is connect with macropore vibrating screen, and the lower end of macropore vibrating screen is connect with chute, is connected with metal and plastics below chute Collecting box is provided with the first feed opening below macropore vibrating screen, and the first feed opening is connected to glass dry cleaner, glass dry cleaner On be provided with the second feed opening, the top of aperture vibrating screen, the lower end connection of aperture vibrating screen is arranged in second feed opening To glass collecting box, aperture vibrating screen lower section is provided with third feed opening, and third feed opening is connected to fluorescent powder collector, fluorescence Powder collector bottom is connected with wind circulation pipe, and wind circulation pipe is connected with blower, and the outlet of blower is provided with steam jacket, on steam jacket It is connected with nozzle, nozzle is arranged in glass powder collecting board, and baffle, glass powder collecting board bottom are provided in glass powder collecting board It is provided with baiting valve, is connect under baiting valve with fluorescent powder collecting box.

The rubber grab bucket is, using steel as skeleton, the finger-type of outer lining soft rubber grabs bucket.

The mercury recyclable device is oblique metal fiber web plate recycling bins.

The macropore vibrating screen is 10 mesh, and aperture vibrating screen is 200 mesh, and fluorescent powder collector is cone-shaped collection container, glimmering The bottom of light powder collector is provided with screw feeder, and fluorescent powder enters wind circulation pipe by screw feeder 1.

The steam jacket is tube type resistance furnace, and wind circulation pipe connects with the inner tube of steam jacket, forms circulated air channel, glass Collecting board is that activity is detachable, and valve is butterfly valve.

Air-exhausting duct is provided on the mercury recyclable device.

The macropore vibrating screen and ground are in 10-45 ° of angle, and aperture vibrating screen and ground are in 10-45 ° of angle.

It is rotating resistance furnace that mercury device is steamed in the heating, and the side of mercury recyclable device is provided with sulphur packing material absorbing plate.

It is negative pressure state in the hammer mill.

The utility model realizes the classification and separation of different material, while using hammer by the vibrating screen of different pore size Crusher is crushed, and is negative pressure state in hammer mill, can be recycled and be collected by mercury to avoid the loss of mercury, hammer mill Pipe is connected to mercury recyclable device, realizes the recycling of mercury, the side of mercury recyclable device is provided with sulphur packing material absorbing plate, utilizes mercury Stable mercuric sulphide can be generated with sulphur to realize the fixation of mercury.

By macropore vibrating screen, the separation of fluorescent powder, glass and metal, plastics is realized, then real by aperture vibrating screen The separation of glass and fluorescent powder is showed.

Whole device expects that broken, sorting fully achieves automation from above, and treatment effeciency is high.

The device that fluorescent tube recovery and treatment method provided by the utility model and this method use, because being recycled using mercury Mercury in useless fluorescent lamp is carried out innoxious recycling by device, is separated out metal and plastics object using macropore vibrosieve, is shaken using aperture Dynamic screening separates out cullet, and the glass powder for being mixed into fluorescent powder is collected using glass powder collecting board, to reach glimmering to giving up More thorough and environmental protection the technical effect of the recycling of light lamp tube.

The utility model has the beneficial effects that

(1) automatic processing of waste old fluorescence lamp tube is realized, treatment effeciency is high.

(2) each component is realized, automatic sorting and classification such as fluorescent powder, glass, metal and plastics.

(3) the complete recycling and harmless treatment of mercury are realized.

Detailed description of the invention

The utility model is further described with reference to the accompanying drawings and examples.

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram of the utility model hammer mill.

Fig. 3 is the utility model mercury recyclable device structural schematic diagram.

Fig. 4 is the utility model fluorescent powder collector structure schematic diagram.

Specific embodiment

The utility model is described in detail below with reference to attached drawing, as shown in Fig. 1,2,3 and 4: the one of the present embodiment Kind fluorescent tube reclaimer comprising rubber grab bucket 1, hammer mill 3, conveyer belt 7, macropore vibrating screen 8 and fluorescent powder are received The lower section of storage 16, rubber grab bucket 1 is provided with fluorescent tube feed inlet 2, and fluorescent tube feed inlet 2 is connected to hammer mill 3, Hammer mill 3 recycles collector 4 by mercury and is connected to mercury recyclable device 5, and hammer mill 3 steams mercury device 28 with heating and is connected to, Heating, which is steamed, is provided with screw rod 301 on mercury device 28, and heating steams the outlet of mercury device 28 in the top that conveyer belt 7 is arranged in, defeated The upper end of band 7 is sent to connect with macropore vibrating screen 8, the lower end of macropore vibrating screen 8 is connect with chute 10, is connected with gold below chute 10 Belong to and plastics collection box 12, the lower section of macropore vibrating screen 8 are provided with the first feed opening 9, the first feed opening 9 is connected to glass dry-cleaning Machine 11 is provided with the second feed opening 13 on glass dry cleaner 11, and the upper of aperture vibrating screen 14 is arranged in second feed opening 13 Side, the lower end of aperture vibrating screen 14 are connected to glass collecting box 27, third feed opening 15 are provided with below aperture vibrating screen 14, the Three feed openings 15 are connected to fluorescent powder collector 16, and 16 bottom of fluorescent powder collector is connected with wind circulation pipe 26, wind circulation pipe 26 It is connected with blower 25, the outlet of blower 25 is provided with steam jacket 22, and nozzle 19 is connected on steam jacket 22, and nozzle 19 is arranged in glass In glass powder collecting board 18, baffle 20 is provided in glass powder collecting board 18,18 bottom of glass powder collecting board is provided with baiting valve 23, Baiting valve 23 is lower to be connect with fluorescent powder collecting box 24.

The rubber grab bucket 1 is, using steel as skeleton, the finger-type of outer lining soft rubber grabs bucket.

The mercury recyclable device 5 is oblique metal fiber web plate recycling bins.

The macropore vibrating screen 8 is 10 mesh, and aperture vibrating screen 14 is 200 mesh, and fluorescent powder collector 16 is cone-shaped collection appearance Device, the bottom of fluorescent powder collector 16 are provided with screw feeder 1601, and fluorescent powder is followed by screw feeder 1601 into wind Endless tube 26.

The steam jacket 22 is tube type resistance furnace, and wind circulation pipe 26 connects with the inner tube of steam jacket 22, and it is logical to form circulated air Road, glass collecting board 18 are that activity is detachable, and valve 23 is butterfly valve.

Air-exhausting duct 6 is provided on the mercury recyclable device 5.

The macropore vibrating screen 8 is in 10-45 ° of angle with ground, and aperture vibrating screen 14 and ground are in 10-45 ° of angle.

It is rotating resistance furnace that mercury device 28 is steamed in the heating, and the side of mercury recyclable device 5 is provided with sulphur packing material absorbing Plate 501.

Embodiment 1

A kind of fluorescent tube reclaimer comprising rubber grab bucket 1, hammer mill 3, conveyer belt 7, macropore vibrating screen 8 With fluorescent powder collector 16, the lower section of rubber grab bucket 1 is provided with fluorescent tube feed inlet 2, and fluorescent tube feed inlet 2 and hammer are broken Broken machine 3 is connected to, and hammer mill 3 recycles collector 4 by mercury and is connected to mercury recyclable device 5, and mercury dress is steamed in hammer mill 3 and heating 28 connections are set, heating, which is steamed, is provided with screw rod 301 on mercury device 28, the outlet that mercury device 28 is steamed in heating is being arranged in conveyer belt 7 Top, the upper end of conveyer belt 7 connect with macropore vibrating screen 8, and the lower end of macropore vibrating screen 8 is connect with chute 10, chute 10 Lower section is connected with metal and plastics collection box 12, and the lower section of macropore vibrating screen 8 is provided with the first feed opening 9, and the first feed opening 9 connects It is connected to glass dry cleaner 11, the second feed opening 13 is provided on glass dry cleaner 11, second feed opening 13 is arranged in aperture The top of vibrating screen 14, the lower end of aperture vibrating screen 14 are connected to glass collecting box 27, and is provided with below aperture vibrating screen 14 Three feed openings 15, third feed opening 15 are connected to fluorescent powder collector 16,16 bottom of fluorescent powder collector and 26 phase of wind circulation pipe Even, wind circulation pipe 26 is connected with blower 25, and the outlet of blower 25 is provided with steam jacket 22, nozzle 19 is connected on steam jacket 22, Nozzle 19 is arranged in glass powder collecting board 18, and baffle 20,18 bottom of glass powder collecting board are provided in glass powder collecting board 18 It is provided with baiting valve 23, baiting valve 23 is lower to be connect with fluorescent powder collecting box 24.

The rubber grab bucket 1 is, using steel as skeleton, the finger-type of outer lining soft rubber grabs bucket.

The mercury recyclable device 5 is oblique metal fiber web plate recycling bins.

The macropore vibrating screen 8 is 10 mesh, and aperture vibrating screen 14 is 200 mesh, and fluorescent powder collector 16 is cone-shaped collection appearance Device, the bottom of fluorescent powder collector 16 are provided with screw feeder 1601, and fluorescent powder is followed by screw feeder 1601 into wind Endless tube 26.

The steam jacket 22 is tube type resistance furnace, and wind circulation pipe 26 connects with the inner tube of steam jacket 22, and it is logical to form circulated air Road, glass collecting board 18 are that activity is detachable, and valve 23 is butterfly valve.

Air-exhausting duct 6 is provided on the mercury recyclable device 5.

The macropore vibrating screen 8 is in 35 ° of angles with ground, and aperture vibrating screen 14 and ground are in 35 ° of angles.

It is rotating resistance furnace that mercury device 28 is steamed in the heating, and the side of mercury recyclable device 5 is provided with sulphur packing material absorbing Plate 501.

Embodiment 2

A kind of fluorescent tube reclaimer comprising rubber grab bucket 1, hammer mill 3, conveyer belt 7, macropore vibrating screen 8 With fluorescent powder collector 16, the lower section of rubber grab bucket 1 is provided with fluorescent tube feed inlet 2, and fluorescent tube feed inlet 2 and hammer are broken Broken machine 3 is connected to, and hammer mill 3 recycles collector 4 by mercury and is connected to mercury recyclable device 5, and mercury dress is steamed in hammer mill 3 and heating 28 connections are set, heating, which is steamed, is provided with screw rod 301 on mercury device 28, the outlet that mercury device 28 is steamed in heating is being arranged in conveyer belt 7 Top, the upper end of conveyer belt 7 connect with macropore vibrating screen 8, and the lower end of macropore vibrating screen 8 is connect with chute 10, chute 10 Lower section is connected with metal and plastics collection box 12, and the lower section of macropore vibrating screen 8 is provided with the first feed opening 9, and the first feed opening 9 connects It is connected to glass dry cleaner 11, the second feed opening 13 is provided on glass dry cleaner 11, second feed opening 13 is arranged in aperture The top of vibrating screen 14, the lower end of aperture vibrating screen 14 are connected to glass collecting box 27, and is provided with below aperture vibrating screen 14 Three feed openings 15, third feed opening 15 are connected to fluorescent powder collector 16,16 bottom of fluorescent powder collector and 26 phase of wind circulation pipe Even, wind circulation pipe 26 is connected with blower 25, and the outlet of blower 25 is provided with steam jacket 22, nozzle 19 is connected on steam jacket 22, Nozzle 19 is arranged in glass powder collecting board 18, and baffle 20,18 bottom of glass powder collecting board are provided in glass powder collecting board 18 It is provided with baiting valve 23, baiting valve 23 is lower to be connect with fluorescent powder collecting box 24.

The rubber grab bucket 1 is, using steel as skeleton, the finger-type of outer lining soft rubber grabs bucket.

The mercury recyclable device 5 is oblique metal fiber web plate recycling bins.

The macropore vibrating screen 8 is 10 mesh, and aperture vibrating screen 14 is 200 mesh, and fluorescent powder collector 16 is cone-shaped collection appearance Device, the bottom of fluorescent powder collector 16 are provided with screw feeder 1601, and fluorescent powder is followed by screw feeder 1601 into wind Endless tube 26.

The steam jacket 22 is tube type resistance furnace, and wind circulation pipe 26 connects with the inner tube of steam jacket 22, and it is logical to form circulated air Road, glass collecting board 18 are that activity is detachable, and valve 23 is butterfly valve.

Air-exhausting duct 6 is provided on the mercury recyclable device 5.

The macropore vibrating screen 8 is in 25 ° of angles with ground, and aperture vibrating screen 14 and ground are in 35 ° of angles.

It is rotating resistance furnace that mercury device 28 is steamed in the heating, and the side of mercury recyclable device 5 is provided with sulphur packing material absorbing Plate 501.

Embodiment 3

A kind of fluorescent tube reclaimer comprising rubber grab bucket 1, hammer mill 3, conveyer belt 7, macropore vibrating screen 8 With fluorescent powder collector 16, the lower section of rubber grab bucket 1 is provided with fluorescent tube feed inlet 2, and fluorescent tube feed inlet 2 and hammer are broken Broken machine 3 is connected to, and hammer mill 3 recycles collector 4 by mercury and is connected to mercury recyclable device 5, and mercury dress is steamed in hammer mill 3 and heating 28 connections are set, heating, which is steamed, is provided with screw rod 301 on mercury device 28, the outlet that mercury device 28 is steamed in heating is being arranged in conveyer belt 7 Top, the upper end of conveyer belt 7 connect with macropore vibrating screen 8, and the lower end of macropore vibrating screen 8 is connect with chute 10, chute 10 Lower section is connected with metal and plastics collection box 12, and the lower section of macropore vibrating screen 8 is provided with the first feed opening 9, and the first feed opening 9 connects It is connected to glass dry cleaner 11, the second feed opening 13 is provided on glass dry cleaner 11, second feed opening 13 is arranged in aperture The top of vibrating screen 14, the lower end of aperture vibrating screen 14 are connected to glass collecting box 27, and is provided with below aperture vibrating screen 14 Three feed openings 15, third feed opening 15 are connected to fluorescent powder collector 16,16 bottom of fluorescent powder collector and 26 phase of wind circulation pipe Even, wind circulation pipe 26 is connected with blower 25, and the outlet of blower 25 is provided with steam jacket 22, nozzle 19 is connected on steam jacket 22, Nozzle 19 is arranged in glass powder collecting board 18, and baffle 20,18 bottom of glass powder collecting board are provided in glass powder collecting board 18 It is provided with baiting valve 23, baiting valve 23 is lower to be connect with fluorescent powder collecting box 24.

The rubber grab bucket 1 is, using steel as skeleton, the finger-type of outer lining soft rubber grabs bucket.

The mercury recyclable device 5 is oblique metal fiber web plate recycling bins.

The macropore vibrating screen 8 is 10 mesh, and aperture vibrating screen 14 is 200 mesh, and fluorescent powder collector 16 is cone-shaped collection appearance Device, the bottom of fluorescent powder collector 16 are provided with screw feeder 1601, and fluorescent powder is followed by screw feeder 1601 into wind Endless tube 26.

The steam jacket 22 is tube type resistance furnace, and wind circulation pipe 26 connects with the inner tube of steam jacket 22, and it is logical to form circulated air Road, glass collecting board 18 are that activity is detachable, and valve 23 is butterfly valve.

Air-exhausting duct 6 is provided on the mercury recyclable device 5.

The macropore vibrating screen 8 is in 25 ° of angles with ground, and aperture vibrating screen 14 and ground are in 35 ° of angles.

It is rotating resistance furnace that mercury device 28 is steamed in the heating, and the side of mercury recyclable device 5 is provided with sulphur packing material absorbing Plate 501.

Finally, it is stated that above embodiments are merely intended for describing the technical solutions of the present application, but not for limiting the present application, although ginseng The utility model is described in detail according to preferred embodiment, those skilled in the art should understand that, it can be to this The technical solution of utility model is modified or replaced equivalently, without departing from the objective and model of technical solutions of the utility model It encloses, should all cover in the scope of the claims of the utility model.

Claims (9)

1. a kind of fluorescent tube reclaimer, it is characterised in that: including rubber grab bucket (1), hammer mill (3), conveyer belt (7), macropore vibrating screen (8) and fluorescent powder collector (16), rubber grab bucket (1) below be provided with fluorescent tube feed inlet (2), Fluorescent tube feed inlet (2) is connected to hammer mill (3), and hammer mill (3) is filled by mercury recycling collector (4) and mercury recycling (5) connection is set, hammer mill (3) steams mercury device (28) with heating and is connected to, and heating, which is steamed, is provided with screw rod on mercury device (28) (301), the outlet that mercury device (28) are steamed in heating is vibrated in setting in the top of conveyer belt (7), the upper end of conveyer belt (7) and macropore (8) connection is sieved, the lower end of macropore vibrating screen (8) is connect with chute (10), is connected with metal and plastic collection below chute (10) Case (12) is provided with the first feed opening (9) below macropore vibrating screen (8), and the first feed opening (9) is connected to glass dry cleaner (11), it is provided with the second feed opening (13) on glass dry cleaner (11), second feed opening (13) is arranged in aperture vibrating screen (14) top, the lower end of aperture vibrating screen (14) are connected to glass collecting box (27), are provided with below aperture vibrating screen (14) Third feed opening (15), third feed opening (15) are connected to fluorescent powder collector (16), fluorescent powder collector (16) bottom with follow Bostle pipe (26) is connected, and wind circulation pipe (26) is connected with blower (25), and the outlet of blower (25) is provided with steam jacket (22), heating It is connected with nozzle (19) on set (22), nozzle (19) setting is set in glass powder collecting board (18) in glass powder collecting board (18) Be equipped with baffle (20), glass powder collecting board (18) bottom is provided with baiting valve (23), under baiting valve (23) with fluorescent powder collecting box (24) it connects.

2. a kind of fluorescent tube reclaimer according to claim 1, it is characterised in that: the described rubber grab bucket (1) is Using steel as skeleton, the finger-type of outer lining soft rubber is grabbed bucket.

3. a kind of fluorescent tube reclaimer according to claim 1, it is characterised in that: the mercury recyclable device (5) is Oblique metal fiber web plate recycling bins.

4. a kind of fluorescent tube reclaimer according to claim 1, it is characterised in that: the macropore vibrating screen (8) is 10 mesh, aperture vibrating screen (14) are 200 mesh, and fluorescent powder collector (16) is cone-shaped collection container, fluorescent powder collector (16) Bottom is provided with screw feeder (1601), and fluorescent powder enters wind circulation pipe (26) by screw feeder (1601).

5. a kind of fluorescent tube reclaimer according to claim 1, it is characterised in that: the steam jacket (22) is tubular type Resistance furnace, circulation air hose (26) connect with the inner tube of steam jacket (22), form circulated air channel, and glass collecting board (18) is activity Detachably, baiting valve (23) is butterfly valve.

6. a kind of fluorescent tube reclaimer according to claim 1, it is characterised in that: on the mercury recyclable device (5) It is provided with air-exhausting duct (6).

7. a kind of fluorescent tube reclaimer according to claim 1, it is characterised in that: the macropore vibrating screen (8) with Ground is in 10-45 ° of angle, and aperture vibrating screen (14) and ground are in 10-45 ° of angle.

8. a kind of fluorescent tube reclaimer according to claim 1, it is characterised in that: mercury device (28) are steamed in the heating For rotating resistance furnace, the side of mercury recyclable device (5) is provided with sulphur packing material absorbing plate (501).

9. a kind of fluorescent tube reclaimer according to claim 1, it is characterised in that: in the hammer mill (3) For negative pressure state.