CN204648945U - A kind of waste and old electrokinetic cell extracts cobaltous sulfate energy-saving type integrated roaster - Google Patents

Abstract

The utility model relates to a kind of roaster, particularly relates to a kind of waste and old electrokinetic cell and extracts cobaltous sulfate energy-saving type integrated roaster.The technical problem solved is to provide a kind of waste and old electrokinetic cell and extracts cobaltous sulfate energy-saving type integrated roaster.Provide so a kind of waste and old electrokinetic cell and extract cobaltous sulfate energy-saving type integrated roaster, include electric boiling plate, UTILIZATION OF VESIDUAL HEAT IN district, water pump, driving discaling roll, driven discaling roll etc.; In heat-insulation layer furnace wall, be provided with electric boiling plate, the middle part of body of heater is provided with lower baffle plate, the upper surface of lower baffle plate is movable connection with electric boiling plate and heat-insulation layer furnace wall; Cooler, UTILIZATION OF VESIDUAL HEAT IN district, water pump is provided with on the right side of water tank; Cooler is connected by the upper end of water inlet pipe with UTILIZATION OF VESIDUAL HEAT IN district; Be provided with above overhead gage and drive discaling roll and driven discaling roll, drive discaling roll and driven discaling roll to match.The waste and old electrokinetic cell of the one provided extracts cobaltous sulfate energy-saving type integrated roaster, achieves automation mechanized operation, reaches the object of economize energy.

Description

A kind of waste and old electrokinetic cell extracts cobaltous sulfate energy-saving type integrated roaster

Technical field

The utility model relates to a kind of roaster, particularly relates to a kind of waste and old electrokinetic cell and extracts cobaltous sulfate energy-saving type integrated roaster.

Background technology

Electrokinetic cell is the power supply in powered tools source, the battery that many fingers are electric automobile, electric train, electric bicycle, golf cart provide power.Waste and old electrokinetic cell, used and discarded electrokinetic cell exactly.Containing cobaltous sulfate in waste and old electrokinetic cell.

Cobaltous sulfate, rose crystallization.Take on a red color after dehydration powder, and water-soluble and methyl alcohol, is slightly soluble in ethanol.For ceramic glaze and paint drier, also contain cobalt pigment and other cobalt product, also for catalyst, analytical reagent, feed addictive, tire sealant stick, lithopone additive etc. for plating, alkaline battery, production.

Roaster, refer in particular to for relatively harsh to thermograde control overflow, and containing Korrosionsmedium, in roasting process, there is large amount of organic to decompose solid strip or its alloytype shape particle of volatilization, the shuttle type electrical heating roasting oven of roasting piecemeal under temperature curve temperature programming condition from low to high.

The cobaltous sulfate contained in the waste and old electrokinetic cell retrieved, can be extracted by the mode of roasting.But existing roaster, does not possess control system, automation mechanized operation cannot be realized, roasting efficiency is low, and roasting effect is poor, is not integral structure, the time interval be connected with subsequent handling is long, cannot meet the requirement of enterprise's High-efficient Production, traditional roaster still adopts old mode of heating simultaneously, does not take effective conservation measures, waste energy is serious, increase the cost of enterprise, cause huge burden to enterprise, be unfavorable for the benign development of enterprise.

Utility model content

(1) technical problem that will solve

The utility model is in order to overcome existing roaster, do not possess control system, automation mechanized operation cannot be realized, roasting efficiency is low, roasting effect is poor, it not integral structure, the time interval be connected with subsequent handling is long, the requirement of enterprise's High-efficient Production cannot be met, traditional roaster still adopts old mode of heating simultaneously, do not take effective conservation measures, the shortcoming that waste energy is serious, the technical problems to be solved in the utility model is to provide a kind of waste and old electrokinetic cell and extracts cobaltous sulfate energy-saving type integrated roaster.

(2) technical scheme

In order to solve the problems of the technologies described above, the utility model provides so a kind of waste and old electrokinetic cell and extracts cobaltous sulfate energy-saving type integrated roaster, include body of heater, electric boiling plate, heat-insulation layer furnace wall, lower baffle plate, water inlet pipe, cooler, UTILIZATION OF VESIDUAL HEAT IN district, water tank, cooling layer furnace wall, outlet pipe, water pump, right support, servomotor I, left socle, splicing cylinder, discharge nozzle, swingle, temperature sensor I, lower cylinder, temperature sensor II, upper cylinder, servomotor II, drive discaling roll, loading hopper, driven discaling roll, overhead gage, control system, broken rod,

The upper part of body of heater is provided with heat-insulation layer furnace wall, in heat-insulation layer furnace wall, is provided with electric boiling plate, body of heater middle part be provided with lower baffle plate, the upper surface of lower baffle plate is movable connection with electric boiling plate and heat-insulation layer furnace wall;

The lower part of body of heater is provided with water tank and cooling layer furnace wall, and the skin of cooling layer furnace wall is wrapped by water tank; Cooler, UTILIZATION OF VESIDUAL HEAT IN district, water pump is provided with on the right side of water tank; Cooler is arranged on water inlet pipe, and water tank is connected with cooler by water inlet pipe; UTILIZATION OF VESIDUAL HEAT IN district is arranged on the right side of cooler, and cooler is connected by the upper end of water inlet pipe with UTILIZATION OF VESIDUAL HEAT IN district; Water pump is arranged on outlet pipe, and water tank is connected with water pump by outlet pipe; UTILIZATION OF VESIDUAL HEAT IN district is arranged on the right side of water pump, and water pump is connected by the lower end of outlet pipe with UTILIZATION OF VESIDUAL HEAT IN district;

Be provided with right support, servomotor I, left socle in the bottom of body of heater, right support and left socle are that symmetrical expression is arranged, and right support is connected with the cooling layer furnace wall of body of heater through water tank with left socle; Servomotor I is arranged between right support and left socle, and servomotor I is connected with the swingle being arranged on top; Swingle extend into the inside of body of heater through water tank and cooling layer furnace wall, is circumferentially provided with the different fragmentation rod of multiple size length on the surface at swingle, and each broken rod is all vertical connection with swingle;

The lower left of body of heater is provided with discharge nozzle, and discharge nozzle is connected with body of heater through water tank, and the below of discharge nozzle is provided with splicing cylinder; The left side of water tank is provided with temperature sensor I, and the left side of body of heater is provided with lower cylinder, and lower cylinder is connected with lower baffle plate, and lower surface and the cooling layer furnace wall of lower baffle plate are movable connection, and lower baffle plate is arranged between heat-insulation layer furnace wall and cooling layer furnace wall;

The left side of heat-insulation layer furnace wall is provided with temperature sensor II, and the left side of heat-insulation layer furnace wall is provided with upper cylinder, and upper cylinder is connected with overhead gage, and the lower surface of overhead gage is movable connection with electric boiling plate and heat-insulation layer furnace wall; Be provided with above overhead gage and drive discaling roll and driven discaling roll, drive discaling roll and driven discaling roll to match, driving discaling roll inside is provided with servomotor II, drive discaling roll to be connected with servomotor II; Loading hopper is provided with directly over driving discaling roll and driven discaling roll;

Electric boiling plate, cooler, water pump, servomotor I, temperature sensor I, lower cylinder, temperature sensor II, upper cylinder, servomotor II are connected with control system all respectively.

Operation principle: when preparation, operating personnel first start control system, control system controls servomotor II again and carries out action.Servomotor II drives the driving discaling roll be attached thereto to rotate.Drive discaling roll to match with driven discaling roll, driving gear roller strap moves driven discaling roll and rotates together.Then, by operating personnel, waste and old electrokinetic cell is joined in loading hopper, the waste and old electrokinetic cell entered in loading hopper just in time falls into the top driving discaling roll and driven discaling roll, and driving gear roller strap moves driven discaling roll and rotates, and carries out fragmentation to the waste and old electrokinetic cell entered.The upper cylinder of control system control simultaneously carries out action, and upper cylinder drives the overhead gage be attached thereto to move to desired location left, and control system controls upper cylinder again and stops action.

Now, the suitable for reading of body of heater is opened, and the waste and old electrokinetic cell through driving discaling roll and the fragmentation of driven discaling roll to cross falls in body of heater.Now, lower baffle plate traverses in body of heater, body of heater is divided into two spaces, and the broken waste and old electrokinetic cell crossed also drops on lower baffle plate constantly.When the waste and old electrokinetic cell of the fragmentation entering upper of furnace body space reaches the amount of setting, control system control servomotor II takes to and drives discaling roll and driven discaling roll to stop operating.Now, drive discaling roll and the fragmentation of driven discaling roll stopping to waste and old electrokinetic cell, waste and old electrokinetic cell rests on and drives above discaling roll and driven discaling roll.

Control system controls upper cylinder again and carries out action, and upper cylinder drives the overhead gage be attached thereto to move right the position of setting, and control system controls upper cylinder again and stops action.Now, the suitable for reading of body of heater covers by overhead gage completely.Control system controls electric boiling plate again and starts, and electric boiling plate starts to carry out roasting to the waste and old electrokinetic cell of the fragmentation in upper of furnace body.Be arranged on the temperature in the temperature sensor II pair of upper of furnace body on the left of heat-insulation layer furnace wall, detect continuously, and the temperature information detected is fed back to control system.After electric boiling plate is to the waste and old electrokinetic cell roasting regular hour of the fragmentation in top, temperature reaches the number range of setting, and temperature information is fed back to control system by temperature sensor II, and control system controls electric boiling plate and stops heating.

After to the waste and old electrokinetic cell roasting of the fragmentation in upper of furnace body, control system controls lower cylinder and carries out action.Lower cylinder drives the lower baffle plate be attached thereto to left movement, is deposited in the roasting material on lower baffle plate, due to the stop of electric boiling plate, cannot with lower baffle plate to left movement, and gravitate, fall in the bottom to body of heater.When lower baffle plate will depart from body of heater completely, control system will control lower cylinder again and will stop action.The space, top and the bottom of body of heater is completely unobstructed, and roasting material all falls into the bottom of body of heater, and control system controls lower cylinder again and drives lower baffle plate to move right and get back to origin-location, continues the space, top and the bottom of body of heater to separate completely.

With it simultaneously, control system controls servomotor I and carries out action, and servomotor I driven rotary bar and broken rod rotate together.Swingle and fragmentation rod carry out fragmentation to the roasting material falling into lower portion of furnace body, and swingle is provided with more thorough by roasting material fragmentation of multiple not of uniform size, fragmentation that length is different rod.

With it simultaneously, control system controls water pump and carries out action, and the hot water in water tank is taken away by outlet pipe by water pump.And by outlet pipe, hot water is sent into UTILIZATION OF VESIDUAL HEAT IN district and utilize, the such as heating in the north.Hot water after utilizing is admitted in cooler and carries out being cooled to cold water, then enters in water tank by water inlet pipe, cools the roasting material in lower portion of furnace body.Be arranged on the temperature in the temperature sensor I pair of lower portion of furnace body on the left of water tank, detect continuously, and the temperature information detected is fed back to control system.After water tank is to the roasting material cooling regular hour in lower portion of furnace body, temperature reaches the number range of setting, and temperature information is fed back to control system by temperature sensor I, and control system controls water pump and stops operating.

Discharged by discharge nozzle through the broken complete roasting material of broken rod, enter in splicing cylinder.Control system controls servomotor I again and stops action.Repeat aforesaid operations, finish the work.

(3) beneficial effect

The waste and old electrokinetic cell of one provided by the utility model extracts cobaltous sulfate energy-saving type integrated roaster, there is control system, achieve automation mechanized operation, pay close attention in real time without the need to artificial, decrease cost of labor, electric boiling plate is adopted to heat, can adjust accurately the temperature of roaster and control, effective, efficiency is high, and adopt integral structure, be connected tight between roasting with pulverizing roasting material two procedures, accelerate job schedule, also utilize water pump delivery to be utilized to UTILIZATION OF VESIDUAL HEAT IN district simultaneously, reach the object of economize energy, structure is simple, easy to use, be easy to maintenance and repair.

Accompanying drawing explanation

Fig. 1 is front view structural representation of the present utility model.

Being labeled as in accompanying drawing: 1-body of heater, 2-electric boiling plate, 3-heat-insulation layer furnace wall, 4-lower baffle plate, 5-water inlet pipe, 6-cooler, 7-UTILIZATION OF VESIDUAL HEAT IN district, 8-water tank, 9-cooling layer furnace wall, 10-outlet pipe, 11-water pump, 12-right support, 13-servomotor I, 14-left socle, 15-splicing cylinder, 16-discharge nozzle, 17-swingle, 18-temperature sensor I, 19-lower cylinder, 20-temperature sensor II, 21-upper cylinder, 22-servomotor II, 23-drives discaling roll, 24-loading hopper, the driven discaling roll of 25-, 26-overhead gage, 27-control system, the broken rod of 28-.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further described.

embodiment 1

A kind of waste and old electrokinetic cell extracts cobaltous sulfate energy-saving type integrated roaster, as shown in Figure 1, include body of heater 1, electric boiling plate 2, heat-insulation layer furnace wall 3, lower baffle plate 4, water inlet pipe 5, cooler 6, UTILIZATION OF VESIDUAL HEAT IN district 7, water tank 8, cooling layer furnace wall 9, outlet pipe 10, water pump 11, right support 12, servomotor I 13, left socle 14, splicing cylinder 15, discharge nozzle 16, swingle 17, temperature sensor I 18, lower cylinder 19, temperature sensor II 20, upper cylinder 21, servomotor II 22, drive discaling roll 23, loading hopper 24, driven discaling roll 25, overhead gage 26, control system 27, broken rod 28.

The upper part of body of heater 1 is provided with heat-insulation layer furnace wall 3, in heat-insulation layer furnace wall 3, is provided with electric boiling plate 2, body of heater 1 middle part be provided with lower baffle plate 4, the upper surface of lower baffle plate 4 is connected for movable with electric boiling plate 2 and heat-insulation layer furnace wall 3.

The lower part of body of heater 1 is provided with water tank 8 and cooling layer furnace wall 9, and the skin of cooling layer furnace wall 9 is wrapped by water tank 8; Cooler 6, UTILIZATION OF VESIDUAL HEAT IN district 7, water pump 11 is provided with on the right side of water tank 8; Cooler 6 is arranged on water inlet pipe 5, and water tank 8 is connected with cooler 6 by water inlet pipe 5; UTILIZATION OF VESIDUAL HEAT IN district 7 is arranged on the right side of cooler 6, and cooler 6 is connected by the upper end of water inlet pipe 5 with UTILIZATION OF VESIDUAL HEAT IN district 7; Water pump 11 is arranged on outlet pipe 10, and water tank 8 is connected with water pump 11 by outlet pipe 10; UTILIZATION OF VESIDUAL HEAT IN district 7 is arranged on the right side of water pump 11, and water pump 11 is connected by the lower end of outlet pipe 10 with UTILIZATION OF VESIDUAL HEAT IN district 7.

Be provided with right support 12, servomotor I 13, left socle 14 in the bottom of body of heater 1, right support 12 and left socle 14 are symmetrical expression setting, and right support 12 is connected with the cooling layer furnace wall 9 of body of heater 1 through water tank 8 with left socle 14; Servomotor I 13 is arranged between right support 12 and left socle 14, and servomotor I 13 is connected with the swingle 17 being arranged on top; Swingle 17 extend into the inside of body of heater 1 through water tank 8 and cooling layer furnace wall 9, is circumferentially provided with the different fragmentation rod 28 of multiple size length on the surface at swingle 17, and each broken rod 28 is all vertical connection with swingle 17.

The lower left of body of heater 1 is provided with discharge nozzle 16, and discharge nozzle 16 is connected with body of heater 1 through water tank 8, and the below of discharge nozzle 16 is provided with splicing cylinder 15; The left side of water tank 8 is provided with temperature sensor I 18, the left side of body of heater 1 is provided with lower cylinder 19, lower cylinder 19 is connected with lower baffle plate 4, and the lower surface of lower baffle plate 4 is connected for movable with cooling layer furnace wall 9, and lower baffle plate 4 is arranged between heat-insulation layer furnace wall 3 and cooling layer furnace wall 9.

The left side of heat-insulation layer furnace wall 3 is provided with temperature sensor II 20, the left side of heat-insulation layer furnace wall 3 is provided with upper cylinder 21, upper cylinder 21 is connected with overhead gage 26, and the lower surface of overhead gage 26 is connected for movable with electric boiling plate 2 and heat-insulation layer furnace wall 3; Be provided with above overhead gage 26 and drive discaling roll 23 and driven discaling roll 25, drive discaling roll 23 and driven discaling roll 25 to match, driving discaling roll 23 inside is provided with servomotor II 22, drive discaling roll 23 to be connected with servomotor II 22; Loading hopper 24 is provided with directly over driving discaling roll 23 and driven discaling roll 25.

Electric boiling plate 2, cooler 6, water pump 11, servomotor I 13, temperature sensor I 18, lower cylinder 19, temperature sensor II 20, upper cylinder 21, servomotor II 22 are connected with control system 27 all respectively.

Operation principle: when preparation, operating personnel first start control system 27, and control system 27 controls servomotor II 22 again and carries out action.Servomotor II 22 drives the driving discaling roll 23 be attached thereto to rotate.Drive discaling roll 23 to match with driven discaling roll 25, drive discaling roll 23 to drive driven discaling roll 25 to rotate together.

Then, by operating personnel, waste and old electrokinetic cell is joined in loading hopper 24, the waste and old electrokinetic cell entered in loading hopper 24 just in time falls into and drives discaling roll 23 and the top of driven discaling roll 25, drives discaling roll 23 to drive driven discaling roll 25 to rotate, carries out fragmentation to the waste and old electrokinetic cell entered.Simultaneously control system 27 controls upper cylinder 21 and carries out action, and upper cylinder 21 drives the overhead gage 26 be attached thereto to move to desired location left, and control system 27 controls upper cylinder 21 again and stops action.

Now, the suitable for reading of body of heater 1 is opened, and the waste and old electrokinetic cell through driving discaling roll 23 and driven discaling roll 25 fragmentation to cross falls in body of heater 1.Now, lower baffle plate 4 traverses in body of heater 1, body of heater 1 is divided into two spaces, and the broken waste and old electrokinetic cell crossed also drops on lower baffle plate 4 constantly.When the waste and old electrokinetic cell of the fragmentation entering body of heater 1 upper space reaches the amount of setting, control system 27 controls servomotor II 22 and takes to and drive discaling roll 23 and driven discaling roll 25 to stop operating.Now, driving discaling roll 23 and driven discaling roll 25 stop the fragmentation to waste and old electrokinetic cell, and waste and old electrokinetic cell rests on and drives above discaling roll 23 and driven discaling roll 25.

Control system 27 controls upper cylinder 21 again and carries out action, and upper cylinder 21 drives the overhead gage 26 be attached thereto to move right the position of setting, and control system 27 controls upper cylinder 21 again and stops action.Now, the suitable for reading of body of heater 1 covers by overhead gage 26 completely.Control system 27 controls electric boiling plate 2 again and starts, and electric boiling plate 2 starts to carry out roasting to the waste and old electrokinetic cell of the fragmentation in body of heater 1 top.Be arranged on the temperature in temperature sensor II 20 pairs of body of heater 1 tops on the left of heat-insulation layer furnace wall 3, detect continuously, and the temperature information detected is fed back to control system 27.After the waste and old electrokinetic cell roasting regular hour of the fragmentation in electric boiling plate 2 pairs of tops, temperature reaches the number range of setting, and temperature information is fed back to control system 27 by temperature sensor II 20, and control system 27 controls electric boiling plate 2 and stops heating.

After to the waste and old electrokinetic cell roasting of the fragmentation in body of heater 1 top, control system 27 controls lower cylinder 19 and carries out action.Lower cylinder 19 drives the lower baffle plate 4 be attached thereto to left movement, is deposited in the roasting material on lower baffle plate 4, due to the stop of electric boiling plate 2, cannot with lower baffle plate 4 to left movement, and gravitate, fall in the bottom to body of heater 1.When lower baffle plate 4 will depart from body of heater 1 completely, control system 27 will control lower cylinder 19 again and will stop action.The space, top and the bottom of body of heater 1 is completely unobstructed, and roasting material all falls into the bottom of body of heater 1, and control system 27 controls lower cylinder 19 again and drives lower baffle plate 4 to move right to get back to origin-location, continue the space, top and the bottom of body of heater 1 to separate completely.

With it simultaneously, control system 27 controls servomotor I 13 and carries out action, and servomotor I 13 driven rotary bar 17 and broken rod 28 rotate together.Swingle 17 and fragmentation rod 28 carry out fragmentation to the roasting material falling into body of heater 1 bottom, and swingle 17 is provided with more thorough by roasting material fragmentation of multiple not of uniform size, fragmentation rod 28 that length is different.

With it simultaneously, control system 27 controls water pump 11 and carries out action, and the hot water in water tank 8 is taken away by outlet pipe 10 by water pump 11.And by outlet pipe 10, hot water is sent into UTILIZATION OF VESIDUAL HEAT IN district 7 and utilize, the such as heating in the north.Hot water after utilizing is admitted in cooler 6 and carries out being cooled to cold water, then enters in water tank 8 by water inlet pipe 5, cools the roasting material in body of heater 1 bottom.Be arranged on the temperature in temperature sensor I 18 pairs of body of heater 1 bottoms on the left of water tank 8, detect continuously, and the temperature information detected is fed back to control system 27.When after the roasting material cooling regular hour in water tank 8 pairs of body of heater 1 bottoms, temperature reaches the number range of setting, and temperature information is fed back to control system 27 by temperature sensor I 18, and control system 27 controls water pump 11 and stops operating.

Discharged by discharge nozzle 16 through the broken complete roasting material of broken rod 28, enter in splicing cylinder 15.Control system 27 controls servomotor I 13 again and stops action.Repeat aforesaid operations, finish the work.

The above embodiment only have expressed preferred embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion, improvement and substitute, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (1)

1. a waste and old electrokinetic cell extracts cobaltous sulfate energy-saving type integrated roaster, it is characterized in that, include body of heater (1), electric boiling plate (2), heat-insulation layer furnace wall (3), lower baffle plate (4), water inlet pipe (5), cooler (6), UTILIZATION OF VESIDUAL HEAT IN district (7), water tank (8), cooling layer furnace wall (9), outlet pipe (10), water pump (11), right support (12), servomotor I (13), left socle (14), splicing cylinder (15), discharge nozzle (16), swingle (17), temperature sensor I (18), lower cylinder (19), temperature sensor II (20), upper cylinder (21), servomotor II (22), drive discaling roll (23), loading hopper (24), driven discaling roll (25), overhead gage (26), control system (27), broken rod (28),

The upper part of body of heater (1) is provided with heat-insulation layer furnace wall (3), electric boiling plate (2) is provided with in heat-insulation layer furnace wall (3), body of heater (1) middle part be provided with lower baffle plate (4), the upper surface of lower baffle plate (4) is connected for movable with electric boiling plate (2) and heat-insulation layer furnace wall (3);

The lower part of body of heater (1) is provided with water tank (8) and cooling layer furnace wall (9), and the skin of cooling layer furnace wall (9) is wrapped by water tank (8); Cooler (6), UTILIZATION OF VESIDUAL HEAT IN district (7), water pump (11) is provided with on the right side of water tank (8); Cooler (6) is arranged on water inlet pipe (5), and water tank (8) is connected with cooler (6) by water inlet pipe (5); UTILIZATION OF VESIDUAL HEAT IN district (7) is arranged on the right side of cooler (6), and cooler (6) is connected by the upper end of water inlet pipe (5) with UTILIZATION OF VESIDUAL HEAT IN district (7); Water pump (11) is arranged on outlet pipe (10), and water tank (8) is connected with water pump (11) by outlet pipe (10); UTILIZATION OF VESIDUAL HEAT IN district (7) is arranged on the right side of water pump (11), and water pump (11) is connected by the lower end of outlet pipe (10) with UTILIZATION OF VESIDUAL HEAT IN district (7);

Right support (12), servomotor I (13), left socle (14) is provided with in the bottom of body of heater (1), right support (12) and left socle (14) are symmetrical expression setting, and right support (12) is connected with the cooling layer furnace wall (9) of body of heater (1) through water tank (8) with left socle (14); Servomotor I (13) is arranged between right support (12) and left socle (14), and servomotor I (13) is connected with the swingle (17) being arranged on top; Swingle (17) extend into the inside of body of heater (1) through water tank (8) and cooling layer furnace wall (9), circumferentially be provided with the different fragmentation rod (28) of multiple size length on the surface at swingle (17), each broken rod (28) is all vertical connection with swingle (17);

The lower left of body of heater (1) is provided with discharge nozzle (16), and discharge nozzle (16) is connected with body of heater (1) through water tank (8), and the below of discharge nozzle (16) is provided with splicing cylinder (15); The left side of water tank (8) is provided with temperature sensor I (18), the left side of body of heater (1) is provided with lower cylinder (19), lower cylinder (19) is connected with lower baffle plate (4), the lower surface of lower baffle plate (4) is connected for movable with cooling layer furnace wall (9), and lower baffle plate (4) is arranged between heat-insulation layer furnace wall (3) and cooling layer furnace wall (9);

The left side of heat-insulation layer furnace wall (3) is provided with temperature sensor II (20), the left side of heat-insulation layer furnace wall (3) is provided with upper cylinder (21), upper cylinder (21) is connected with overhead gage (26), and the lower surface of overhead gage (26) is connected for movable with electric boiling plate (2) and heat-insulation layer furnace wall (3); Be provided with in overhead gage (26) top and drive discaling roll (23) and driven discaling roll (25), discaling roll (23) and driven discaling roll (25) is driven to match, driving discaling roll (23) inside is provided with servomotor II (22), drives discaling roll (23) to be connected with servomotor II (22); Loading hopper (24) is provided with directly over driving discaling roll (23) and driven discaling roll (25);

Electric boiling plate (2), cooler (6), water pump (11), servomotor I (13), temperature sensor I (18), lower cylinder (19), temperature sensor II (20), upper cylinder (21), servomotor II (22) are connected with control system (27) all respectively.