CN203741570U - Efficient, energy-saving and low-emission fur dyeing machine - Google Patents

Abstract

The utility model relates to the field of fur dyeing equipment, in particular to an efficient, energy-saving and low-emission fur dyeing machine. The efficient, energy-saving and low-emission fur dyeing machine is even in dyeing and good in dyeing effect. The efficient, energy-saving and low-emission fur dyeing machine comprises a machine frame, a dyeing barrel, a motor and a gearbox, wherein a plurality of partition plates are arranged on the annular wall inside the dyeing barrel; a temperature detector is arranged inside the dyeing barrel. According to a fur dyeing method with the efficient, energy-saving and low-emission fur dyeing machine adopted, the bath ratio is 1: 2-5. According to the efficient, energy-saving and low-emission fur dyeing machine, through the arrangement of the partition plates and the structures of the partition plates, the turning time of the fur inside the dyeing barrel and the contact time of the fur and dye inside the dyeing barrel can be prolonged, the dyeing evenness can be effectively improved, the waste of the dye can be reduced, control over the dye is more accurate, the dyeing effect is improved, and the dyeing cost can be lowered greatly.

Description

Energy-efficient low emission fur dyeing machine

Technical field

The utility model relates to fur dyeing installation field, especially a kind of energy-efficient low emission fur dyeing machine.

Background technology

Existing fur dyeing mechanism: as application number: 201010192474, name is called fur dyeing kettle, discloses a kind of fur dyeing kettle, comprises a pot body, pot mouth and agitating device, it is characterized in that being provided with thermal insulation layer on pot body, on pot mouth, be provided with the pot cover coordinating with pot mouth.Described pot cover is provided with heat-insulation layer.Described thermal insulation layer and heat-insulation layer are, in the middle of the stainless steel material of both sides, heat-barrier material structure is set.A side outside at pot body is provided with return duct, and return duct is respectively reflux liquid inlet mouth and backflow liquid outlet with the interface of pot body one side, is connected with steam inlet tube on return duct.

As: a kind of beach woolfell illusion-colour dyeing kettle, number of patent application: zL201320278385.9 the utility model discloses a kind of beach woolfell illusion-colour dyeing kettle, structure comprises casing and agitator arm, on agitator arm, be provided with several blades, the surface of described blade is provided with row's steam hole and row's dye orifice; The top of casing is provided with an air bleeding valve, a safety valve and a pressure sensor, is provided with a high liquid level sensor and a low liquid level sensor on the sidewall of casing, is also provided with a temperature sensor on casing; On admission pipeline, input duct and the fluid pipeline in casing outside, be respectively arranged with a flow control valve; In structure, also include a controller.

Fur dyeing now, no matter be in order to upper any mechanism, fur makes fur at interior overturn by turning mechanism after being placed on inside, and due in each process dyeing, the amount of fur is relatively large, and the pressure that causes the fur contacting with tubular structure to bear is larger, easily makes fur receive damage in switching process, and can cause the inhomogeneous phenomenon of dyeing, dyeing time is relatively long; And in existing fur dyeing course, the bath raio adopting is 1:20 left and right, and in dyestuff, pass into steam, make bath raio be difficult to control, affect Color, dyeing cost is large, the dyeing course duration is no less than 6 hours simultaneously, fur wants water to remove the colorant adhering on fur after dyeing, and sewage discharge after dyeing become a major issue, and fur dyeing also can not be ignored the pollution of environment.This series of problems is anxious waits us to solve.

Utility model content

The purpose of this utility model is the deficiency in order to solve above-mentioned technology and provide a kind of even dyeing, the energy-efficient low emission fur dyeing machine that Color is good, cost is low.

In order to achieve the above object, the energy-efficient low emission fur dyeing machine that the utility model is designed, it comprises frame, dyeing cylindrical shell, motor, gearbox, control cabinet; Dyeing cylindrical shell is respectively equipped with axle in both sides, and this axle is arranged in frame, and motor drives the rotation of dyeing cylindrical shell by gearbox; In the annular wall of dyeing cylindrical shell, be provided with feeding gate, in annular wall in dyeing cylindrical shell, be provided with multiple dividing plates, dividing plate is extended to the center of dyeing cylindrical shell by annular wall, and the radical length of dividing plate is less than the radius of the cylindrical shell that dyes, the axial length of dividing plate is consistent with the inner length of dyeing cylindrical shell, described feeding gate, between two wherein adjacent dividing plates, is provided with Temperature Detector in dyeing cylindrical shell; At the outside coated one deck outer chamber that is provided with of annular wall of dyeing cylindrical shell, and form gap between outer chamber and annular wall, in gap, being provided with a baffle plate axially cuts off, making annular gap is half-duplex channel, be provided with steam inlet, steam (vapor) outlet in the both sides that axially cut off, this steam inlet, steam (vapor) outlet are in charge of with steam importing respectively, steam is derived to be in charge of and is connected; The axle of dyeing cylindrical shell both sides is hollow, steam importing is in charge of, steam derivation is in charge of by a quill shaft external, steam importing is in charge of, steam is derived to be in charge of by bindiny mechanism and is connected with steam feeding tube, vapour-discharge tube respectively, and under the effect of bindiny mechanism, steam imports to be in charge of while rotation, steam feeding tube transfixion, steam is derived and is in charge of while rotation simultaneously, vapour-discharge tube transfixion; At the upper outside barometric pipe that is connected to of dyeing cylindrical shell; Vapour-discharge tube is connected with Steam Recovery bucket; Control cabinet is mainly used in control that the detection of monitoring to temperature, steam intake and control, pressure-air pass into and the control of motor slewing rate and rotating.

In dyeing cylindrical shell rotation direction, steam inlet is positioned at the front of steam (vapor) outlet, and when this dyeing cylindrical shell uses, the direction of rotation of dyeing cylindrical shell is consistent in the flow direction of annular gap with steam, can reduce like this resistance, reduces costs, and reduces the use amount of steam.

Described outer chamber is coated on the outside of whole dyeing cylindrical shell, and baffle plate extends to the side, both sides of dyeing cylindrical shell, and baffle plate is also divided into two the gap between two sides and the outer chamber of dyeing cylindrical shell.

As optimization, the radical length of described dividing plate is the 10-70% of the radius of dyeing cylindrical shell.

As optimization, the radial cross-section of described dividing plate is spoon type or S type, and the setting party of dividing plate is to unanimously; In the time that dividing plate is spoon-shaped structure, structure is: described dividing plate is recessed to a side in the one end at the center near dyeing cylindrical shell, and dividing plate is straight in the one end near annular wall; In the time that dividing plate is S type structure, structure is: described dividing plate is recessed to a side in the one end at the center near dyeing cylindrical shell, and dividing plate is recessed to opposite side in the one end near annular wall.

As optimization, dyeing cylindrical shell is provided with backflow charging mechanism; Make in dyeing course, dyestuff separates and adds with water, and the dyestuff being added to the water is even,

As optimization, the structure of described backflow charging mechanism is: in the axle on dyeing cylindrical shell, be provided with high-pressure air tube, high-pressure air tube stretches in dyeing cylindrical shell, and be provided with shower nozzle at the port of the high-pressure air tube in cylindrical shell that dyes, on the high-pressure air tube of dyeing tube external body, be connected with feed pot, the outer end of this axle enters in feed pot after extending, the junction sealing of high-pressure air tube and this axle; The dyestuff bringing out in cylindrical shell that makes to dye can be fallen in feed pot, the junction sealing of high-pressure air tube and this axle, on the bottom of feed pot, high-pressure air tube, be connected with gauge tap, this gauge tap can be manually, can be also automatically to control by control cabinet; When work, by flowing of high-pressure air tube mesohigh air, dyestuff and auxiliary agent enter in high-pressure air tube from feed pot, along with pressure-air is evenly injected in dyeing cylindrical shell by shower nozzle together, and along with dyeing inner barrel air pressure increase after, inner air can be discharged to outside along with the hollow structure of this axle, and the dyestuff of taking out of and auxiliary agent reenter in feed pot, played the effect of barometric pipe simultaneously, can effectively avoid the waste of dyestuff and auxiliary agent, improve the accuracy of dyestuff and auxiliary agent use amount, improve Color.

Above-described motor drives the rotation of dyeing cylindrical shell can refer in the center of the external side of dyeing tube one end by gearbox and is fixed with belt pulley or gear, and the output shaft of the gearbox of motor is connected with belt pulley or the gear of the external side of dyeing tube by corresponding belt or gear.

As optimization, on the outer wall of described outer chamber, be provided with adiabator layer, make the better heat preservation of whole dyeing cylindrical shell, can effectively reduce the intake of steam, reduce production costs.

As preferably, two dividing plates of the arbitrary neighborhood in annular wall, one of them is that left side is higher than right side, and another is that right side is higher than left side, in the time of work, in dividing plate uphill process, fur horizontally slips along with the inclination of dividing plate, thereby increase the slip of fur in dyestuff, improve Color.

As preferably, four dividing plates of the arbitrary neighborhood in annular wall, one of them is that left side is higher than right side, one be right side higher than left side, two is level, and two dividing plates of level and two other baffle interval arrange, can increase equally the sliding distance of fur in dyestuff, improve Color.Certainly two above-mentioned horizontally disposed dividing plates can be also one, can be also more.

Fur colouring method, first fur raw material is added in dyeing cylindrical shell, then in dyeing cylindrical shell, add water, dyestuff and auxiliary agent, pass into steam simultaneously dyeing cylindrical shell is heated, when being warmed to 60-75 and spending, start insulation, detect through Temperature Detector, if temperature declines, supplement steam and heat up, whole dyeing starts to finish to dyeing from logical Steam Heating, time was controlled in 3 hours, was incubated after reaching design temperature, finally by the dyeing of spending the corresponding time; Wherein, in dyeing course, the rotating speed of dyeing cylindrical shell is controlled at 5-30 rev/min, and bath raio is 1:2-5; Without cleaning, directly go to dry from fur out in dyeing cylindrical shell.

The energy-efficient low emission fur dyeing machine that the utility model obtains, it is by the setting of the structure of dividing plate and dividing plate, can increase fur in dyeing in cylindrical shell stir and with contact time of dyestuff, thereby can effectively improve the uniformity of dyeing, also can reduce the waste of dyestuff simultaneously, make the control of dyestuff more accurate, improve Color; Simultaneously by the cooperation of this device and method, the bath raio that can realize fur dyeing is 1:2-5, can greatly lower dyeing cost, wherein, water can save 80%, and steam can save 80%, electric energy saves 80%, dyestuff saves 15%, labor saving 50%, and the water simultaneously reclaiming by Steam Recovery bucket can secondary utilization.

In existing fur dyeing installation and dyeing course, 100 required water of fur are 1 ton of left and right, are 150KG left and right and adopt 100 required water of this Apparatus and method for dyeing.

Brief description of the drawings

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

Fig. 2 is the structural representation of dividing plate cross section of the present utility model while being spoonful type;

Fig. 3 is the structural representation of dividing plate cross section of the present utility model while being S type;

Fig. 4 is the topology view of the side of dyeing cylindrical shell of the present utility model.

Detailed description of the invention

Below by embodiment, the utility model will be further described by reference to the accompanying drawings.

Embodiment 1:

As shown in Figure 1, Figure 2, Figure 4 shows, the energy-efficient low emission fur dyeing machine that the present embodiment is described, it comprises frame 2, dyeing cylindrical shell 1, motor 4, gearbox 5, control cabinet, dyeing cylindrical shell 1 is respectively equipped with axle 3 in both sides, this axle 3 is arranged in frame 2, and be connected by bearing between one of them axle 3 and dyeing cylindrical shell 1, and be fixedly connected with between frame 2, between another root axle 3 and dyeing cylindrical shell 1, be fixedly connected with, and between frame 2, be connected by bearing, motor 4 drives dyeing cylindrical shell 1 to rotate by gearbox 5, in the annular wall 7 of dyeing cylindrical shell 1, be provided with feeding gate, in annular wall 7 in dyeing cylindrical shell 1, be provided with multiple dividing plates 6, dividing plate 6 is extended to the center of dyeing cylindrical shell 1 by annular wall 7, and the radical length of dividing plate 6 is less than the radius of the cylindrical shell 1 that dyes, the axial length of dividing plate 6 is consistent with the inner length of dyeing cylindrical shell 1, described feeding gate, between two wherein adjacent dividing plates 6, is provided with Temperature Detector 16 in dyeing cylindrical shell 1, at the outside coated one deck outer chamber 8 that is provided with of annular wall 7 of dyeing cylindrical shell 1, and form gap between outer chamber 8 and annular wall 7, in gap, being provided with a baffle plate 21 axially cuts off, making annular gap is half-duplex channel, be wherein hollow structure with the fixing axle 3 of cylindrical shell 1 that dyes, on this axle 3 is interior, be provided with steam feeding tube 12, on steam feeding tube 12, be coated and be provided with steam delivery line 18 by rotary valve 13 near dyeing cylindrical shell 1 one end, the top rotary seal of steam feeding tube 12 is connected with steam importing and is in charge of 19, the top rotary seal of steam delivery line 18 is connected with steam derivation and is in charge of 20, steam import be in charge of 19 and steam derive and be in charge of 20 both sides that are separately positioned on baffle plate 21, on rotary valve 13, be also connected with vapour-discharge tube 17, vapour-discharge tube 17 is connected with Steam Recovery bucket 14.Control cabinet is mainly used in control that the detection of monitoring to temperature, steam intake and control, pressure-air pass into and the control of motor slewing rate and rotating; And in dyeing cylindrical shell 1 rotation direction, steam imports to be in charge of 19 and to be positioned at steam and to derive the front of being in charge of 20; Described outer chamber 8 is coated on the outside of whole dyeing cylindrical shell 1, and baffle plate 21 extends to the side, both sides of dyeing cylindrical shell 1, and baffle plate 21 is also divided into two the gap between two sides and the outer chamber 8 of dyeing cylindrical shell 1; The radical length of described dividing plate 6 be dyeing cylindrical shell 1 radius 40%; The radial cross-section of described dividing plate 6 is a spoon type, and the setting party of dividing plate 6 is to unanimously; In the time that dividing plate 6 is spoon-shaped structure, structure is: described dividing plate 6 is recessed to a side in the one end at the center near dyeing cylindrical shell 1, and dividing plate 6 is straight in the one end near annular wall 7; The axle 3 rotating corresponding thereto on dyeing cylindrical shell 1 is also hollow structure, is provided with backflow charging mechanism in axle 3; The structure of described backflow charging mechanism is: in the axle 3 on dyeing cylindrical shell 1, be provided with high-pressure air tube 10, high-pressure air tube 10 stretches in dyeing cylindrical shell 1, and be provided with shower nozzle 15 at the port of the high-pressure air tube 10 in cylindrical shell 1 that dyes, on the high-pressure air tube 10 of dyeing cylindrical shell 1 outside, be connected with feed pot 11, the outer end of this axle 3 enters in feed pot 11 after extending, and high-pressure air tube 10 seals with the junction of this axle 3; On the outer wall of described outer chamber 8, be provided with adiabator layer 9; Two dividing plates 6 of the arbitrary neighborhood in annular wall 7, one of them be left side higher than right side, and another is that right side is higher than left side.

Fur colouring method, first fur raw material is added in dyeing cylindrical shell 1, then in dyeing cylindrical shell 1, add water, dyestuff and auxiliary agent, pass into steam simultaneously dyeing cylindrical shell 1 is heated, be warmed to 65 while spending, start insulation, detect through Temperature Detector 16, if temperature declines, supplement steam and heat up, whole dyeing starts to finish to dyeing from logical Steam Heating, time was controlled in 3 hours, was incubated after reaching design temperature, finally by the dyeing of spending the corresponding time; Wherein, in dyeing course, the rotating speed of dyeing cylindrical shell 1 is controlled at 10 revs/min, and bath raio is 1:3; Directly go to dry from fur out in dyeing cylindrical shell 1.

Embodiment 2:

As shown in Fig. 1, Fig. 3, Fig. 4, the energy-efficient low emission fur dyeing machine that the present embodiment is described, it comprises frame 2, dyeing cylindrical shell 1, motor 4, gearbox 5, control cabinet, dyeing cylindrical shell 1 is respectively equipped with axle 3 in both sides, this axle 3 is arranged in frame 2, and be connected by bearing between one of them axle 3 and dyeing cylindrical shell 1, and be fixedly connected with between frame 2, between another root axle 3 and dyeing cylindrical shell 1, be fixedly connected with, and between frame 2, be connected by bearing, motor 4 drives dyeing cylindrical shell 1 to rotate by gearbox 5, in the annular wall 7 of dyeing cylindrical shell 1, be provided with feeding gate, in annular wall 7 in dyeing cylindrical shell 1, be provided with multiple dividing plates 6, dividing plate 6 is extended to the center of dyeing cylindrical shell 1 by annular wall 7, and the radical length of dividing plate 6 is less than the radius of the cylindrical shell 1 that dyes, the axial length of dividing plate 6 is consistent with the inner length of dyeing cylindrical shell 1, described feeding gate, between two wherein adjacent dividing plates 6, is provided with Temperature Detector 16 in dyeing cylindrical shell 1, at the outside coated one deck outer chamber 8 that is provided with of annular wall 7 of dyeing cylindrical shell 1, and form gap between outer chamber 8 and annular wall 7, in gap, being provided with a baffle plate 21 axially cuts off, making annular gap is half-duplex channel, be wherein hollow structure with the fixing axle 3 of cylindrical shell 1 that dyes, on this axle 3 is interior, be provided with steam feeding tube 12, on steam feeding tube 12, be coated and be provided with steam delivery line 18 by rotary valve 13 near dyeing cylindrical shell 1 one end, the top rotary seal of steam feeding tube 12 is connected with steam importing and is in charge of 19, the top rotary seal of steam delivery line 18 is connected with steam derivation and is in charge of 20, steam import be in charge of 19 and steam derive and be in charge of 20 both sides that are separately positioned on baffle plate 21, on rotary valve 13, be also connected with vapour-discharge tube 17, vapour-discharge tube 17 is connected with Steam Recovery bucket 14.Control cabinet is mainly used in control that the detection of monitoring to temperature, steam intake and control, pressure-air pass into and the control of motor slewing rate and rotating; And in dyeing cylindrical shell 1 rotation direction, steam imports to be in charge of 19 and to be positioned at steam and to derive the front of being in charge of 20; Described outer chamber 8 is coated on the outside of whole dyeing cylindrical shell 1, and baffle plate 21 extends to the side, both sides of dyeing cylindrical shell 1, and baffle plate 21 is also divided into two the gap between two sides and the outer chamber 8 of dyeing cylindrical shell 1; The radical length of described dividing plate 6 be dyeing cylindrical shell 1 radius 30%; The radial cross-section of described dividing plate 6 is S type, and the setting party of dividing plate 6 is to unanimously; In the time that dividing plate 6 is S type structure, structure is: described dividing plate 6 is recessed to a side in the one end at the center near dyeing cylindrical shell 1, and dividing plate 6 is recessed to opposite side in the one end near annular wall 7; The axle 3 rotating corresponding thereto on dyeing cylindrical shell 1 is also hollow structure, is provided with backflow charging mechanism in axle 3; The structure of described backflow charging mechanism is: in the axle 3 on dyeing cylindrical shell 1, be provided with high-pressure air tube 10, high-pressure air tube 10 stretches in dyeing cylindrical shell 1, and be provided with shower nozzle 15 at the port of the high-pressure air tube 10 in cylindrical shell 1 that dyes, on the high-pressure air tube 10 of dyeing cylindrical shell 1 outside, be connected with feed pot 11, the outer end of this axle 3 enters in feed pot 11 after extending, and high-pressure air tube 10 seals with the junction of this axle 3; On the outer wall of described outer chamber 8, be provided with adiabator layer 9; Four dividing plates 6 of the arbitrary neighborhood in annular wall 7, one of them be left side higher than right side, one is that right side is higher than left side, two is level, and two dividing plates 6 of level arrange with two other dividing plate 6 intervals, can increase equally the sliding distance of fur in dyestuff, improve Color.

Fur colouring method, first fur raw material is added in dyeing cylindrical shell 1, then in dyeing cylindrical shell 1, add water, then by backflow charging mechanism, dyestuff and auxiliary agent are sprayed in dyeing cylindrical shell 1, pass into steam heats to dyeing cylindrical shell 1 simultaneously, be warmed to 70 while spending, start insulation, detect through Temperature Detector 16, if temperature declines, supplement steam and heat up, whole dyeing starts to finish to dyeing from logical Steam Heating, and the time was controlled in 3 hours, after reaching design temperature, be incubated, finally by the dyeing of spending the corresponding time; Wherein, in dyeing course, the rotating speed of dyeing cylindrical shell 1 is controlled at 20 revs/min, and bath raio is 1:4; Directly go to dry from fur out in dyeing cylindrical shell 1.

Claims (9)

1. an energy-efficient low emission fur dyeing machine, it comprises frame, dyeing cylindrical shell, motor, gearbox, control cabinet; It is characterized in that: dyeing cylindrical shell is respectively equipped with axle in both sides, and this axle is arranged in frame, motor drives the rotation of dyeing cylindrical shell by gearbox; In the annular wall of dyeing cylindrical shell, be provided with feeding gate, in annular wall in dyeing cylindrical shell, be provided with multiple dividing plates, dividing plate is extended to the center of dyeing cylindrical shell by annular wall, and the radical length of dividing plate is less than the radius of the cylindrical shell that dyes, the axial length of dividing plate is consistent with the inner length of dyeing cylindrical shell, described feeding gate, between two wherein adjacent dividing plates, is provided with Temperature Detector in dyeing cylindrical shell; At the outside coated one deck outer chamber that is provided with of annular wall of dyeing cylindrical shell, and form gap between outer chamber and annular wall, in gap, being provided with a baffle plate axially cuts off, making annular gap is half-duplex channel, be provided with steam inlet, steam (vapor) outlet in the both sides that axially cut off, this steam inlet, steam (vapor) outlet are in charge of with steam importing respectively, steam is derived to be in charge of and is connected; The axle of dyeing cylindrical shell both sides is hollow, steam importing is in charge of, steam derivation is in charge of by a quill shaft external, steam importing is in charge of, steam is derived to be in charge of by bindiny mechanism and is connected with steam feeding tube, vapour-discharge tube respectively, and under the effect of bindiny mechanism, steam imports to be in charge of while rotation, steam feeding tube transfixion, steam is derived and is in charge of while rotation simultaneously, vapour-discharge tube transfixion; At the upper outside barometric pipe that is connected to of dyeing cylindrical shell; Vapour-discharge tube is connected with Steam Recovery bucket.

2. the energy-efficient low emission fur of one according to claim 1 dyeing machine, it is characterized in that: described outer chamber is coated on the outside of whole dyeing cylindrical shell, and baffle plate extends to the side, both sides of dyeing cylindrical shell, baffle plate is also divided into two the gap between two sides and the outer chamber of dyeing cylindrical shell.

3. the energy-efficient low emission fur of one according to claim 1 and 2 dyeing machine, is characterized in that: the radical length of described dividing plate is the 10-70% of the radius of dyeing cylindrical shell.

4. the energy-efficient low emission fur of one according to claim 3 dyeing machine, is characterized in that: the radial cross-section of described dividing plate is spoon type or S type, and the setting party of dividing plate is to unanimously; In the time that dividing plate is spoon-shaped structure, structure is: described dividing plate is recessed to a side in the one end at the center near dyeing cylindrical shell, and dividing plate is straight in the one end near annular wall; In the time that dividing plate is S type structure, structure is: described dividing plate is recessed to a side in the one end at the center near dyeing cylindrical shell, and dividing plate is recessed to opposite side in the one end near annular wall.

5. the energy-efficient low emission fur of one according to claim 4 dyeing machine, is characterized in that: dyeing cylindrical shell is provided with backflow charging mechanism.

6. the energy-efficient low emission fur of one according to claim 5 dyeing machine, it is characterized in that: the structure of described backflow charging mechanism is: in the axle on dyeing cylindrical shell, be provided with high-pressure air tube, high-pressure air tube stretches in dyeing cylindrical shell, and be provided with shower nozzle at the port of the high-pressure air tube in cylindrical shell that dyes, on the high-pressure air tube of dyeing tube external body, be connected with grug feeding jar, the outer end of this axle enters in grug feeding jar after extending, the junction sealing of high-pressure air tube and this axle.

7. the energy-efficient low emission fur of one according to claim 6 dyeing machine, is characterized in that: the outer surface at described outer chamber is provided with adiabator layer.

8. the energy-efficient low emission fur of one according to claim 7 dyeing machine, is characterized in that: two dividing plates of the arbitrary neighborhood in annular wall, one of them be left side higher than right side, and another is that right side is higher than left side.

9. the energy-efficient low emission fur of one according to claim 7 dyeing machine, it is characterized in that: four dividing plates of the arbitrary neighborhood in annular wall, one of them is that left side is higher than right side, one is that right side is higher than left side, two is level, and two dividing plates of level and the setting of two other baffle interval.