CN205709913U - Waste and old copper-clad plate reaction recovery system - Google Patents

Abstract

This utility model relates to a kind of waste and old copper-clad plate reaction recovery system, has reactive tank, oxidation trough, rinse bath, mother liquor vessel and feeder；The liquid outlet of mother liquor vessel is connected with the inlet of reactive tank, the inlet of oxidation trough respectively and communicates, and the inlet of mother liquor vessel is connected with the liquid outlet of rinse bath and communicates；Described mother liquor vessel is provided with heating system；Described mother liquor vessel is provided with and adds thermofin, adds thermofin and is provided with water inlet and outlet；Described heating system includes solar energy heat collector；The outlet of solar energy heat collector is connected with the water inlet adding thermofin, and the water inlet of the outlet and solar energy heat collector that add thermofin is connected.This utility model utilizes solar energy to heat mother solution, environmental protection and energy saving.

Description

Waste and old copper-clad plate reaction recovery system

Technical field

This utility model relates to waste and old copper-clad plate and reclaims field, reacts recovery system particularly to a kind of waste and old copper-clad plate.

Background technology

Copper-clad plate i.e. electronic circuit board, is formed by copper base and insulation board compoiste adhering.Along with developing rapidly of electron trade, Waste and old copper-clad plate has become various lots of industrial refuse, and processes these waste and old copper-clad plates, generally uses and pulverizes or burning Method, remove its insulation board and reclaim copper material.Burn processing method will cause serious pollution for environment.And pulverize Facture not only can not by waste and old copper-clad plate effective recycling, and need to spend more cost.Therefore there is utilization The production method of waste and old copper-clad plate black sulfuric acid copper.This production method solves the process of various lots of waste and old copper-clad plate and asks Topic.

The technique of waste and old copper-clad plate black sulfuric acid copper needs to be controlled the temperature of reaction mother liquor.At present to reaction mother liquor Mother solution in mother liquor vessel is mainly heated by the mode of heating by burning.This simple mode of heating the most not ring Protect, and cannot accurately control the temperature of mother solution.After mother solution enters reactive tank and oxidation trough, also cannot ensure mother solution simultaneously The temperature of current reaction.

The technique of waste and old copper-clad plate black sulfuric acid copper also needs to discharge the air into reactive tank and oxidation trough is interior for reaction. Traditional feeder is exactly a simple trachea, it is impossible to accomplish to enter in reactant liquor air uniform high-efficiency.

Meanwhile, reactive tank and oxidation trough also can produce substantial amounts of residue when carrying out substantial amounts of reaction and reclaiming and be deposited on reactive tank Cannot get rid of with the bottom of oxidation trough.

Utility model content

The purpose of this utility model is to provide a kind of waste and old copper-clad plate reaction recovery system, and this system utilizes solar energy to add Heat, environmental protection and energy saving.

The technical scheme realizing this utility model purpose is: this utility model has reactive tank, oxidation trough, rinse bath, mother Liquid container and feeder；The liquid outlet of mother liquor vessel is connected phase with the inlet of reactive tank, the inlet of oxidation trough respectively Logical, the inlet of mother liquor vessel is connected with the liquid outlet of rinse bath and communicates；Described mother liquor vessel is provided with heating system；Institute State mother liquor vessel to be provided with and add thermofin, add thermofin and be provided with water inlet and outlet；Described heating system includes the sun Can heat collector；The outlet of solar energy heat collector is connected with the water inlet adding thermofin, add the outlet of thermofin with The water inlet of solar energy heat collector connects.

Said heating system also includes electric heater unit；Described electric heater unit is arranged in mother liquor vessel.

Above-mentioned solar energy heat collector includes solar thermal collector, insulation press-bearing water tank, booster water pump and high temperature resistant water pump； Described insulation press-bearing water tank is provided with cold water inlet, water inlet of hot water, the first outlet and the second outlet；Described add The outlet of thermofin is connected with the water inlet end of booster water pump by pipeline, and the outlet of booster water pump passes through pipeline and insulation The cold water inlet of press-bearing water tank connects；First outlet of described insulation press-bearing water tank is by pipeline and high temperature resistant water pump Water inlet connects, and the outlet of high temperature resistant water pump is connected with the water inlet end of solar thermal collector by pipeline, solar energy heating The water side of device is connected by the water inlet of hot water of pipeline with insulation press-bearing water tank, and the second outlet of insulation press-bearing water tank leads to Piping is connected with the water inlet adding thermofin.

Above-mentioned solar energy heat collector also includes pressure-bearing buffer tank；The outlet of booster water pump is buffered with pressure-bearing by pipeline The water inlet of water tank connects, and the outlet of pressure-bearing buffer tank is connected by the cold water inlet of pipeline with insulation press-bearing water tank Connect；The pipeline that pressure-bearing buffer tank is connected with insulation press-bearing water tank is provided with check valve.

Above-mentioned reactive tank is provided with the first auxiliary and adds thermofin, and oxidation trough is provided with the second auxiliary and adds thermofin；Described first Auxiliary adds the outlet of thermofin, the second auxiliary adds the outlet of thermofin all entering by pipeline and solar energy heat collector The mouth of a river connects；Described first auxiliary adds the water inlet of thermofin, the second auxiliary add the water inlet of thermofin all by pipeline and The outlet of solar energy heat collector connects.

The bottom of above-mentioned reactive tank is provided with the first blowdown scraper plate；Outwards it is arranged with on two sidewalls that described reactive tank is relative The first chute heaved, the two ends of the first blowdown scraper plate are slidably arranged in corresponding first chute；The end of described oxidation trough Portion is provided with the second blowdown scraper plate；It is arranged with, on two sidewalls that described oxidation trough is relative, the second chute outwards heaved, the The two ends of two blowdown scraper plates are slidably arranged in corresponding second chute；In the outer drum surface of described first chute and the second chute All slide and be provided with driving magnetic piece；The two ends of described first blowdown scraper plate and the second blowdown scraper plate are equipped with driven magnetic piece；Described Magnetic piece is driven to coordinate with corresponding driven magnetic piece effect；Described driving magnetic piece is connected with driving cylinder.

Above-mentioned feeder includes the first air supply pipe, the second air supply pipe and gas cylinder；Described first air supply pipe is arranged on reactive tank In, the first air supply pipe is connected with the gas outlet of gas cylinder by trachea；Described second air supply pipe is arranged in oxidation trough, and second Air supply pipe is connected with the gas outlet of gas cylinder by trachea；Described first air supply pipe and the second air supply pipe all include giving vent to anger supervisor, Air leaving cover and go out gas branch pipe；The described side giving vent to anger supervisor is provided with edge；Described air leaving cover is located at out after coordinating with edge The side of gas supervisor；It is positioned on the supervisor that gives vent to anger of air leaving cover and is evenly equipped with multiple main venthole；On described flat board cover of giving vent to anger all It is furnished with multiple secondary venthole；Described give vent to anger supervisor be not positioned on the side of air leaving cover be evenly equipped with multiple go out gas branch pipe；Master goes out The area summation of pore is more than the area summation of secondary venthole.

This utility model has positive effect: mother solution is heated by (1) this utility model solar energy, anti-meeting While in requisition for, the most more energy-conserving and environment-protective；

(2) this utility model is illumination deficiency when, can realize compensating heating by electric heater unit；

(3) solar energy heat collector in this utility model can manufacture 150 by booster water pump and insulation press-bearing water tank High-temperature water about DEG C, thus be entirely capable of meeting the demand for heat to mother solution；

(4) in this utility model, solar energy heat collector is owing to being provided with pressure-bearing buffer tank, so that solar energy collection Hot device can stablize the work of safety in a high voltage state；

(5) this utility model add respectively on reactive tank and oxidation trough the first auxiliary add thermofin and second auxiliary heating Interlayer, may further ensure that in reactive tank and oxidation trough is solution-stabilized, improves the reaction effect of waste and old copper-clad plate；

(6) this utility model is respectively provided with the first blowdown scraper plate plate and the second blowdown scraper plate in reactive tank and oxidation trough, Not only ensure that the cleaning of reactive tank and oxidation trough, also work continuously provide condition for reactive tank and oxidation trough；

(7) in this utility model, the first blowdown scraper plate and the second blowdown scraper plate all utilize magnetic coupling principle to drive, thus carry The high sealing of reactive tank and oxidation trough；

(8) in this utility model feeder can by air more efficiently, be evenly discharged in corresponding solution, Improve reaction effect.

Accompanying drawing explanation

In order to make content of the present utility model be easier to be clearly understood, below according to specific embodiment and combine accompanying drawing, This utility model is described in further detail, wherein

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the structural representation of mother liquor vessel in this utility model；

Fig. 3 is the structural representation of solar energy heat collector in this utility model；

Fig. 4 is the structural representation of reactive tank in this utility model；

Fig. 5 is the sectional view of reactive tank in this utility model；

Fig. 6 is the structural representation of oxidation trough in this utility model；

Fig. 7 is the sectional view that this utility model opens oxidation trough；

Fig. 8 is the structural representation of the first air supply pipe in this utility model.

Detailed description of the invention

(embodiment one)

See that Fig. 1, this utility model have reactive tank 1, oxidation trough 2, rinse bath 3, mother liquor vessel 4 and feeder 5； The liquid outlet of mother liquor vessel 4 is connected with the inlet of reactive tank 1, the inlet of oxidation trough 2 respectively and communicates, mother liquor vessel The inlet of 4 is connected with the liquid outlet of rinse bath 3 and communicates；Described mother liquor vessel 4 is provided with heating system；Described mother solution Container 4 is provided with and adds thermofin 41, adds thermofin 41 and is provided with water inlet and outlet；Described heating system includes too Sun can heat collector 6；The outlet of solar energy heat collector 6 is connected with the water inlet adding thermofin 41, adds thermofin The outlet of 41 is connected with the water inlet of solar energy heat collector 6.

Described heating system also includes electric heater unit 7；Described electric heater unit 7 is arranged in mother liquor vessel 4.

(embodiment two)

See that Fig. 1 to Fig. 3, this utility model have reactive tank 1, oxidation trough 2, rinse bath 3, mother liquor vessel 4 and supply Device 5；The liquid outlet of mother liquor vessel 4 is connected with the inlet of reactive tank 1, the inlet of oxidation trough 2 respectively and communicates, The inlet of mother liquor vessel 4 is connected with the liquid outlet of rinse bath 3 and communicates；Described mother liquor vessel 4 is provided with heating system； Described mother liquor vessel 4 is provided with and adds thermofin 41, adds thermofin 41 and is provided with water inlet and outlet；Described heating system System includes solar energy heat collector 6；The outlet of solar energy heat collector 6 is connected with the water inlet adding thermofin 41, adds The outlet of thermofin 41 is connected with the water inlet of solar energy heat collector 6.

Described heating system also includes electric heater unit 7；Described electric heater unit 7 is arranged in mother liquor vessel 4.

Described solar energy heat collector 6 includes solar thermal collector 61, insulation press-bearing water tank 62, booster water pump 63, resistance to High-temperature water pump 64 and pressure-bearing buffer tank 65；Described insulation press-bearing water tank 62 be provided with cold water inlet, water inlet of hot water, First outlet and the second outlet；The described outlet water inlet end by pipeline with booster water pump 63 adding thermofin 41 Connecting, the outlet of booster water pump 63 is connected with the water inlet of pressure-bearing buffer tank 65 by pipeline, pressure-bearing buffer tank The outlet of 65 is connected by the cold water inlet of pipeline with insulation press-bearing water tank 62；Pressure-bearing buffer tank 65 holds with insulation The pipeline that setting-out case 62 connects is provided with check valve；First outlet of described insulation press-bearing water tank 62 passes through pipeline with resistance to The water inlet of high-temperature water pump 64 connects, and the outlet of high temperature resistant water pump 64 is entered by pipeline and solar thermal collector 61 Water end (W.E.) connects, and the water side of solar thermal collector 61 is connected by the water inlet of hot water of pipeline with insulation press-bearing water tank 62, Second outlet of insulation press-bearing water tank 62 is connected with the water inlet adding thermofin 41 by pipeline.

(embodiment three)

See Fig. 1, Fig. 2, Fig. 3, Fig. 5 and Fig. 7, this utility model have reactive tank 1, oxidation trough 2, rinse bath 3, Mother liquor vessel 4 and feeder 5；The liquid outlet of mother liquor vessel 4 respectively with the inlet of reactive tank 1, oxidation trough 2 Inlet connects and communicates, and the inlet of mother liquor vessel 4 is connected with the liquid outlet of rinse bath 3 and communicates；Described mother liquor vessel 4 It is provided with heating system；Described mother liquor vessel 4 is provided with and adds thermofin 41, adds thermofin 41 and is provided with water inlet and goes out The mouth of a river；Described heating system includes solar energy heat collector 6；The outlet of solar energy heat collector 6 with add thermofin 41 Water inlet connect, the water inlet of the outlet and solar energy heat collector 6 that add thermofin 41 is connected.

Described heating system also includes electric heater unit 7；Described electric heater unit 7 is arranged in mother liquor vessel 4.

Described solar energy heat collector 6 includes solar thermal collector 61, insulation press-bearing water tank 62, booster water pump 63, resistance to High-temperature water pump 64 and pressure-bearing buffer tank 65；Described insulation press-bearing water tank 62 be provided with cold water inlet, water inlet of hot water, First outlet and the second outlet；The described outlet water inlet end by pipeline with booster water pump 63 adding thermofin 41 Connecting, the outlet of booster water pump 63 is connected with the water inlet of pressure-bearing buffer tank 65 by pipeline, pressure-bearing buffer tank The outlet of 65 is connected by the cold water inlet of pipeline with insulation press-bearing water tank 62；Pressure-bearing buffer tank 65 holds with insulation The pipeline that setting-out case 62 connects is provided with check valve；First outlet of described insulation press-bearing water tank 62 passes through pipeline with resistance to The water inlet of high-temperature water pump 64 connects, and the outlet of high temperature resistant water pump 64 is entered by pipeline and solar thermal collector 61 Water end (W.E.) connects, and the water side of solar thermal collector 61 is connected by the water inlet of hot water of pipeline with insulation press-bearing water tank 62, Second outlet of insulation press-bearing water tank 62 is connected with the water inlet adding thermofin 41 by pipeline.

Described reactive tank 1 is provided with the first auxiliary and adds thermofin 11, and oxidation trough 2 is provided with the second auxiliary and adds thermofin 21； Described first auxiliary adds the outlet of thermofin 11, the second auxiliary adds the outlet of thermofin 21 all by pipeline and supercharging The water inlet end of water pump 63 connects；Described first auxiliary adds the water inlet of thermofin 11, the second auxiliary adds thermofin 21 Water inlet is all connected by the second outlet of pipeline with insulation press-bearing water tank 62.

(embodiment four)

See that Fig. 1 to Fig. 7, this utility model have reactive tank 1, oxidation trough 2, rinse bath 3, mother liquor vessel 4 and supply Device 5；The liquid outlet of mother liquor vessel 4 is connected with the inlet of reactive tank 1, the inlet of oxidation trough 2 respectively and communicates, The inlet of mother liquor vessel 4 is connected with the liquid outlet of rinse bath 3 and communicates；Described mother liquor vessel 4 is provided with heating system； Described mother liquor vessel 4 is provided with and adds thermofin 41, adds thermofin 41 and is provided with water inlet and outlet；Described heating system System includes solar energy heat collector 6；The outlet of solar energy heat collector 6 is connected with the water inlet adding thermofin 41, adds The outlet of thermofin 41 is connected with the water inlet of solar energy heat collector 6.

Described heating system also includes electric heater unit 7；Described electric heater unit 7 is arranged in mother liquor vessel 4.

Described solar energy heat collector 6 includes solar thermal collector 61, insulation press-bearing water tank 62, booster water pump 63, resistance to High-temperature water pump 64 and pressure-bearing buffer tank 65；Described insulation press-bearing water tank 62 be provided with cold water inlet, water inlet of hot water, First outlet and the second outlet；The described outlet water inlet end by pipeline with booster water pump 63 adding thermofin 41 Connecting, the outlet of booster water pump 63 is connected with the water inlet of pressure-bearing buffer tank 65 by pipeline, pressure-bearing buffer tank The outlet of 65 is connected by the cold water inlet of pipeline with insulation press-bearing water tank 62；Pressure-bearing buffer tank 65 holds with insulation The pipeline that setting-out case 62 connects is provided with check valve；First outlet of described insulation press-bearing water tank 62 passes through pipeline with resistance to The water inlet of high-temperature water pump 64 connects, and the outlet of high temperature resistant water pump 64 is entered by pipeline and solar thermal collector 61 Water end (W.E.) connects, and the water side of solar thermal collector 61 is connected by the water inlet of hot water of pipeline with insulation press-bearing water tank 62, Second outlet of insulation press-bearing water tank 62 is connected with the water inlet adding thermofin 41 by pipeline.

Described reactive tank 1 is provided with the first auxiliary and adds thermofin 11, and oxidation trough 2 is provided with the second auxiliary and adds thermofin 21； Described first auxiliary adds the outlet of thermofin 11, the second auxiliary adds the outlet of thermofin 21 all by pipeline and supercharging The water inlet end of water pump 63 connects；Described first auxiliary adds the water inlet of thermofin 11, the second auxiliary adds thermofin 21 Water inlet is all connected by the second outlet of pipeline with insulation press-bearing water tank 62.

The bottom of described reactive tank 1 is provided with the first blowdown scraper plate 12；On two sidewalls that described reactive tank 1 is relative, symmetry sets Having the first chute 13 that outward bulge rises, the two ends of the first blowdown scraper plate 12 are slidably arranged in corresponding first chute 13； The bottom of described oxidation trough 2 is provided with the second blowdown scraper plate 22；Be arranged with on two sidewalls that described oxidation trough 2 is relative to The second chute 23 heaved outward, the two ends of the second blowdown scraper plate 22 are slidably arranged in corresponding second chute 23；Described All slide in the outer drum surface of the first chute 13 and the second chute 23 and be provided with driving magnetic piece 8；Described first blowdown scraper plate 12 It is equipped with driven magnetic piece with the two ends of the second blowdown scraper plate 22；Described driving magnetic piece 8 is joined with corresponding driven magnetic piece effect Close；Described driving magnetic piece 8 is connected with driving cylinder.

(embodiment five)

See that Fig. 1 to Fig. 8, this utility model have reactive tank 1, oxidation trough 2, rinse bath 3, mother liquor vessel 4 and supply Device 5；The liquid outlet of mother liquor vessel 4 is connected with the inlet of reactive tank 1, the inlet of oxidation trough 2 respectively and communicates, The inlet of mother liquor vessel 4 is connected with the liquid outlet of rinse bath 3 and communicates；Described mother liquor vessel 4 is provided with heating system； Described mother liquor vessel 4 is provided with and adds thermofin 41, adds thermofin 41 and is provided with water inlet and outlet；Described heating system System includes solar energy heat collector 6；The outlet of solar energy heat collector 6 is connected with the water inlet adding thermofin 41, adds The outlet of thermofin 41 is connected with the water inlet of solar energy heat collector 6.

Described heating system also includes electric heater unit 7；Described electric heater unit 7 is arranged in mother liquor vessel 4.

Described solar energy heat collector 6 includes solar thermal collector 61, insulation press-bearing water tank 62, booster water pump 63, height Warm water pump 64 and pressure-bearing buffer tank 65；Described insulation press-bearing water tank 62 be provided with cold water inlet, water inlet of hot water, First outlet and the second outlet；The described outlet water inlet end by pipeline with booster water pump 63 adding thermofin 41 Connecting, the outlet of booster water pump 63 is connected with the water inlet of pressure-bearing buffer tank 65 by pipeline, pressure-bearing buffer tank The outlet of 65 is connected by the cold water inlet of pipeline with insulation press-bearing water tank 62；Pressure-bearing buffer tank 65 holds with insulation The pipeline that setting-out case 62 connects is provided with check valve；First outlet of described insulation press-bearing water tank 62 passes through pipeline with resistance to The water inlet of high-temperature water pump 64 connects, and the outlet of high temperature resistant water pump 64 is entered by pipeline and solar thermal collector 61 Water end (W.E.) connects, and the water side of solar thermal collector 61 is connected by the water inlet of hot water of pipeline with insulation press-bearing water tank 62, Second outlet of insulation press-bearing water tank 62 is connected with the water inlet adding thermofin 41 by pipeline.

Described reactive tank 1 is provided with the first auxiliary and adds thermofin 11, and oxidation trough 2 is provided with the second auxiliary and adds thermofin 21； Described first auxiliary adds the outlet of thermofin 11, the second auxiliary adds the outlet of thermofin 21 all by pipeline and supercharging The water inlet end of water pump 63 connects；Described first auxiliary adds the water inlet of thermofin 11, the second auxiliary adds thermofin 21 Water inlet is all connected by the second outlet of pipeline with insulation press-bearing water tank 62.

The bottom of described reactive tank 1 is provided with the first blowdown scraper plate 12；On two sidewalls that described reactive tank 1 is relative, symmetry sets Having the first chute 13 that outward bulge rises, the two ends of the first blowdown scraper plate 12 are slidably arranged in corresponding first chute 13； The bottom of described oxidation trough 2 is provided with the second blowdown scraper plate 22；Be arranged with on two sidewalls that described oxidation trough 2 is relative to The second chute 23 heaved outward, the two ends of the second blowdown scraper plate 22 are slidably arranged in corresponding second chute 23；Described All slide in the outer drum surface of the first chute 13 and the second chute 23 and be provided with driving magnetic piece 8；Described first blowdown scraper plate 12 It is equipped with driven magnetic piece with the two ends of the second blowdown scraper plate 22；Described driving magnetic piece 8 is joined with corresponding driven magnetic piece effect Close；Described driving magnetic piece 8 is connected with driving cylinder.

Described feeder 5 includes first air supply pipe the 51, second air supply pipe 52 and gas cylinder；Described first air supply pipe 51 Being arranged in reactive tank 1, the first air supply pipe 51 is connected with the gas outlet of gas cylinder by trachea；Described second air supply pipe 52 Being arranged in oxidation trough 2, the second air supply pipe 52 is connected with the gas outlet of gas cylinder by trachea；Described first air supply pipe 51 All include giving vent to anger supervisor 51-1, air leaving cover 51-2 and going out gas branch pipe 51-3 with the second air supply pipe 52；The described supervisor 51-1 that gives vent to anger Side be provided with edge；Described air leaving cover 51-2 is located at the side of the supervisor 51-1 that gives vent to anger with edge after coordinating；It is positioned at It is evenly equipped with multiple main venthole on the supervisor 51-1 that gives vent to anger in gas hood 51-2；It is evenly equipped with multiple pair on described air leaving cover 51-2 Venthole；Described give vent to anger supervisor 51-1 be not positioned on the side of air leaving cover 51-2 be evenly equipped with multiple go out gas branch pipe 51-3； The area summation of main venthole is more than the area summation of secondary venthole.

Particular embodiments described above, has been carried out the purpose of this utility model, technical scheme and beneficial effect further Describe in detail, be it should be understood that and the foregoing is only specific embodiment of the utility model, be not limited to This utility model, all within spirit of the present utility model and principle, any modification, equivalent substitution and improvement etc. done, Within should be included in protection domain of the present utility model.

Claims (10)

1. waste and old copper-clad plate reaction a recovery system, have reactive tank (1), oxidation trough (2), rinse bath (3), Mother liquor vessel (4) and feeder (5)；The liquid outlet of mother liquor vessel (4) respectively with the inlet of reactive tank (1), The inlet connection of oxidation trough (2) communicates, and the inlet of mother liquor vessel (4) is connected with the liquid outlet of rinse bath (3) Communicate；It is characterized in that: described mother liquor vessel (4) is provided with heating system；Described mother liquor vessel (4) is provided with and adds Thermofin (41), adds thermofin (41) and is provided with water inlet and outlet；Described heating system includes solar energy heating Device (6)；The outlet of solar energy heat collector (6) is connected with the water inlet adding thermofin (41), adds thermofin (41) outlet is connected with the water inlet of solar energy heat collector (6).

Waste and old copper-clad plate the most according to claim 1 reaction recovery system, it is characterised in that: described heating system Also include electric heater unit (7)；Described electric heater unit (7) is arranged in mother liquor vessel (4).

Waste and old copper-clad plate the most according to claim 1 reaction recovery system, it is characterised in that: described solar energy collection Thermal (6) includes solar thermal collector (61), insulation press-bearing water tank (62), booster water pump (63) and high temperature resistant Water pump (64)；Described insulation press-bearing water tank (62) be provided with cold water inlet, water inlet of hot water, the first outlet and Second outlet；The described outlet adding thermofin (41) is connected with the water inlet end of booster water pump (63) by pipeline, The outlet of booster water pump (63) is connected by the cold water inlet of pipeline with insulation press-bearing water tank (62)；Described insulation First outlet of press-bearing water tank (62) is connected with the water inlet of high temperature resistant water pump (64) by pipeline, high temperature resistant water pump (64) outlet is connected with the water inlet end of solar thermal collector (61) by pipeline, solar thermal collector (61) Water side is connected by the water inlet of hot water of pipeline with insulation press-bearing water tank (62), the second of insulation press-bearing water tank (62) Outlet is connected with the water inlet adding thermofin (41) by pipeline.

Waste and old copper-clad plate the most according to claim 3 reaction recovery system, it is characterised in that: described solar energy collection Thermal (6) also includes pressure-bearing buffer tank (65)；The outlet of booster water pump (63) is buffered with pressure-bearing by pipeline The water inlet of water tank (65) connects, and the outlet of pressure-bearing buffer tank (65) is by pipeline and insulation press-bearing water tank (62) Cold water inlet connect；The pipeline that pressure-bearing buffer tank (65) is connected with insulation press-bearing water tank (62) is provided with unidirectional Valve.

Waste and old copper-clad plate the most according to claim 1 and 2 reaction recovery system, it is characterised in that: described reaction Groove (1) is provided with the first auxiliary and adds thermofin (11), and oxidation trough (2) is provided with the second auxiliary and adds thermofin (21)； Described first auxiliary adds the outlet of thermofin (11), the second auxiliary adds the outlet of thermofin (21) and all passes through pipeline It is connected with the water inlet of solar energy heat collector (6)；Described first auxiliary add the water inlet of thermofin (11), second Auxiliary is added the water inlet of thermofin (21) and is all connected by the outlet of pipeline with solar energy heat collector (6).

6. react recovery system according to the waste and old copper-clad plate described in claim 3 or 4, it is characterised in that: described reaction Groove (1) is provided with the first auxiliary and adds thermofin (11), and oxidation trough (2) is provided with the second auxiliary and adds thermofin (21)； Described first auxiliary adds the outlet of thermofin (11), the second auxiliary adds the outlet of thermofin (21) and all passes through pipeline It is connected with the water inlet end of booster water pump (63)；Described first auxiliary adds the water inlet of thermofin (11), the second auxiliary adds The water inlet of thermofin (21) is all connected by the second outlet of pipeline with insulation press-bearing water tank (62).

7. according to one of them described waste and old copper-clad plate reaction recovery system of Claims 1-4, it is characterised in that: The bottom of described reactive tank (1) is provided with the first blowdown scraper plate (12)；On two sidewalls that described reactive tank (1) is relative Being arranged with the first chute (13) outwards heaved, the two ends of the first blowdown scraper plate (12) are slidably arranged in corresponding In one chute (13)；The bottom of described oxidation trough (2) is provided with the second blowdown scraper plate (22)；Described oxidation trough (2) Being arranged with, on two relative sidewalls, the second chute (23) outwards heaved, the two ends of the second blowdown scraper plate (22) are sliding Move and be arranged in corresponding second chute (23)；In the outer drum surface of described first chute (13) and the second chute (23) All slide and be provided with driving magnetic piece (8)；The two ends of described first blowdown scraper plate (12) and the second blowdown scraper plate (22) are all provided with There is driven magnetic piece；Described driving magnetic piece (8) coordinates with corresponding driven magnetic piece effect；Described driving magnetic piece (8) with drive Dynamic air cylinder connects.

Waste and old copper-clad plate the most according to claim 6 reaction recovery system, it is characterised in that: described reactive tank (1) Bottom be provided with the first blowdown scraper plate (12)；It is arranged with on two sidewalls that described reactive tank (1) is relative and outwards heaves The first chute (13), in the two ends of the first blowdown scraper plate (12) are slidably arranged in corresponding first chute (13)； The bottom of described oxidation trough (2) is provided with the second blowdown scraper plate (22)；On two sidewalls that described oxidation trough (2) is relative Being arranged with the second chute (23) outwards heaved, the two ends of the second blowdown scraper plate (22) are slidably arranged in corresponding In two chutes (23)；All slide in the outer drum surface of described first chute (13) and the second chute (23) and be provided with driving magnetic Block (8)；The two ends of described first blowdown scraper plate (12) and the second blowdown scraper plate (22) are equipped with driven magnetic piece；Described Magnetic piece (8) is driven to coordinate with corresponding driven magnetic piece effect；Described driving magnetic piece (8) is connected with driving cylinder.

Waste and old copper-clad plate the most according to claim 7 reaction recovery system, it is characterised in that: described feeder (5) the first air supply pipe (51), the second air supply pipe (52) and gas cylinder are included；Described first air supply pipe (51) is arranged on In reactive tank (1), the first air supply pipe (51) is connected with the gas outlet of gas cylinder by trachea；Described second air supply pipe (52) Being arranged in oxidation trough (2), the second air supply pipe (52) is connected with the gas outlet of gas cylinder by trachea；Described first supplies Trachea (51) and the second air supply pipe (52) all include giving vent to anger supervisor (51-1), air leaving cover (51-2) and going out gas branch pipe (51-3)； The described side giving vent to anger supervisor (51-1) is provided with edge；Described air leaving cover (51-2) is located at after coordinating with edge and gives vent to anger The side of supervisor (51-1)；It is positioned at and is evenly equipped with multiple master on the supervisor (51-1) that gives vent to anger of air leaving cover (51-2) and gives vent to anger Hole；Multiple secondary venthole it is evenly equipped with on described air leaving cover (51-2)；The described supervisor (51-1) that gives vent to anger is not positioned at air leaving cover (51-2) be evenly equipped with on the side in multiple go out gas branch pipe (51-3)；The area summation of main venthole is more than secondary venthole Area summation.

Waste and old copper-clad plate the most according to claim 8 reaction recovery system, it is characterised in that: described feeder (5) the first air supply pipe (51), the second air supply pipe (52) and gas cylinder are included；Described first air supply pipe (51) is arranged on In reactive tank (1), the first air supply pipe (51) is connected with the gas outlet of gas cylinder by trachea；Described second air supply pipe (52) Being arranged in oxidation trough (2), the second air supply pipe (52) is connected with the gas outlet of gas cylinder by trachea；Described first supplies Trachea (51) and the second air supply pipe (52) all include giving vent to anger supervisor (51-1), air leaving cover (51-2) and going out gas branch pipe (51-3)； The described side giving vent to anger supervisor (51-1) is provided with edge；Described air leaving cover (51-2) is located at after coordinating with edge and gives vent to anger The side of supervisor (51-1)；It is positioned at and is evenly equipped with multiple master on the supervisor (51-1) that gives vent to anger of air leaving cover (51-2) and gives vent to anger Hole；Multiple secondary venthole it is evenly equipped with on described air leaving cover (51-2)；The described supervisor (51-1) that gives vent to anger is not positioned at air leaving cover (51-2) be evenly equipped with on the side in multiple go out gas branch pipe (51-3)；The area summation of main venthole is more than secondary venthole Area summation.