CN203721813U - Air distributing screen device of pole plate solidifying chamber - Google Patents

Abstract

The utility model discloses an air distributing screen device of a pole plate solidifying chamber, and aims to provide the air distributing device of a pole plate solidifying chamber, which has the advantages that the blowing-in homogeneity of each blowing-in hole of an air distributing screen is effectively improved, the direct impact of the output air of the blowing-in hole on a pole plate is weakened, and the homogeneity of the temperature and humidity and the amount of circulating air in the whole solidifying chamber is improved. The air distributing screen device comprises an air distributing box which is internally provided with a sealed cavity body, an air inlet which is arranged on the middle of the top surface of the air distributing box and is communicated with an inner cavity of the air distributing box, and a blowing-in pipeline communicated with the air inlet, wherein the inner cavity of the air distributing box is a variable cross-section channel sectional area of which is gradually reduced from the air inlet to the left and right sides; a guiding piece is arranged on the upper part of the inner cavity of the air distributing box, is arranged right below the air inlet and is used for guiding part of airflow in the blowing-in pipeline to flow to the left and right sides of the inner cavity of the air distributing box, the guiding piece is composed of left and right arc-shaped guiding plates which are symmetrically arranged, and the front side surface of the air distributing box is provided with a plurality of blowing-in holes.

Description

A kind of polar plate solidification chamber cloth wind screen device

Technical field

The utility model relates to a kind of curing room of accumulator plate, is specifically related to the polar plate solidification chamber cloth wind screen device in a kind of curing chamber of accumulator plate.

Background technology

Polar plate solidification operation is one critical process in lead acid accumulator production process.Pole plate, after having coated, need to be delivered to curing room and be cured.Solidifying of pole plate need to be cured in the curing room with certain temperature and humidity, and in polar plate solidification process, needs to utilize ventilation equipment to provide required air capacity for the plumbous oxidation in plate active material; And circulation of air uniformity in curing room will directly have influence in curing room the air capacity of circulation everywhere, the uniformity of temperature and humidity, thus affect polar plate solidification effect.

In current curing room, be typically provided with air blast, air exhauster, cloth wind screen heating webmaster and spray first-classly, it is blown by air blast, and air exhauster exhausting realizes the circulation of air circulation in curing room, and by cloth wind, shields to improve the uniformity of air blast air-supply.Current cloth wind screen structure generally includes and is arranged on the air distribution plate of the side in curing room and is evenly arranged on the air outlet on air distribution plate, between air distribution plate and corresponding curing room inwall, form the gas channel for airflow, and the sectional area of this gas channel in airflow direction is that uiform section is long-pending.The air-flow blasting when air blast passes through this gas channel, and send in the process of curing room by each air outlet on air distribution plate, because gas channel is that uiform section is long-pending, this makes near the air inlet blast of the gas channel of air blast large (air pressure is larger), thereby large near the air supply velocity of the part air outlet on the air distribution plate of the air inlet of gas channel; And reduce near the air velocity of gas channel end, make the closer to the air supply velocity of the air outlet of gas channel end less; So although the cloth wind screen structure in current curing room can be improved the uniformity of air-supply, but its even poor effect, cause the air capacity of circulation everywhere in curing room, the uniformity of temperature and humidity is not good, thereby affect polar plate solidification effect, extend cure cycle, reduce polar plate solidification uniformity and curing quality.

For example, China Patent Publication No. CN201708207U, open day on January 12nd, 2011, the name that utility model is created is called a kind of curing chamber of accumulator plate, comprise Yi Ge main chamber and a concubine, the both sides of main chamber are cloth wind screen, and the both sides of concubine have air inlet and air outlet to be connected with main chamber, in concubine, from air inlet to air outlet, set gradually having heaters and blower fan, between the inherent air inlet of concubine and heater, be provided with shower nozzle.There is equally above-mentioned deficiency in the polar plate solidification chamber of this application case.

Utility model content

The purpose of this utility model is not good in order to overcome the air-supply uniformity of each air outlet of cloth wind in curing room of the prior art screen structure, cause the air capacity of circulation everywhere and the uniformity of temperature and humidity in curing room not good, thereby affect polar plate solidification effect, extend cure cycle, reduce the problem of pole plate quality, a kind of polar plate solidification chamber cloth wind screen device is provided, it can effectively improve the air-supply uniformity that cloth wind shields each air outlet, the direct impact of the air-out of reduction air outlet to pole plate, and then improve whole curing Indoor Temperature, humidity and the everywhere uniformity of the air capacity of circulation, thereby shortening cure cycle, promote pole plate quality.

The technical solution of the utility model is:

A polar plate solidification chamber cloth wind screen device, comprises that inside is provided with the cloth bellows of airtight cavity, is arranged on cloth bellows end face middle part the air inlet communicating with the inner chamber of cloth bellows and the air supply duct being connected with air inlet; The sectional area of the inner chamber of described cloth bellows from air inlet toward the left and right sides reduces gradually, and forms variable section runner in the air inlet left and right sides; Described cloth bellows inner chamber top, be positioned under air inlet and be provided with and can make the part air-flow of air supply duct toward the conducting element of the left and right sides water conservancy diversion of cloth bellows inner chamber, the leading flank of described cloth bellows is provided with some air outlets.

When air-flow enters in the process of cloth bellows by air supply duct, a part of air-flow in air supply duct is down blown in cloth bellows, another part air-flow is the left and right sides water conservancy diversion toward cloth bellows inner chamber by conducting element, the interior air-flow of cloth bellows is distributed more even, avoids dead angle to produce.

On the other hand, (this cross section is vertical direction to the variable section runner reducing gradually for the sectional area from air inlet toward the left and right sides due to the inner chamber of cloth bellows, and with the perpendicular cross section of cloth bellows leading flank), larger by the volume of the variable section runner of air inlet, thereby can reduce the blast by the cloth bellows inner chamber at air inlet place, effectively alleviate the large problem of air supply velocity near the air outlet at air inlet place;

In the mobile process in the left and right sides of air-flow from air inlet toward variable section runner, because the sectional area of variable section runner reduces gradually, increase the middle part of variable section runner and the static pressure of end, can increase thus the air supply velocity of the centre of variable section runner and the air outlet of end portion; Thereby effectively improve the air-supply uniformity that cloth wind shields each air outlet, the direct impact of the air-out of reduction air outlet to pole plate, and then improve whole curing Indoor Temperature, humidity and the uniformity of the air capacity of circulation everywhere, thus shorten cure cycle, promote pole plate quality.

As preferably, conducting element consists of the symmetrically arranged baffler in two of left and right, and two bafflers are splayed and distribute.When air-flow enters by air supply duct in the process of cloth bellows, a part of air-flow in air supply duct can pass through two arc deflectors toward the left and right sides water conservancy diversion of cloth bellows inner chamber, the interior air-flow of cloth bellows is distributed more even, avoids dead angle to produce.

As preferably, the top of two bafflers up extends in air supply duct, and air inlet is separated into three parts, and the air inlet sectional area between two bafflers is less than the air inlet sectional area in two bafflers outsides.Due to the air outlet quantity of the cloth bellows left and right sides air outlet quantity more than cloth bellows mid portion, thereby this programme makes air inlet sectional area between two bafflers be less than the air inlet sectional area in two bafflers outsides, more wind can be imported to the cloth bellows left and right sides like this, further improve the air-supply uniformity that cloth wind shields each air outlet.

As preferably, baffler is arc deflector or plate baffler.

As preferably, cloth bellows are surrounded by six of front, back, left, right, up, down air distribution plate, four of described front, rear, left and right air distribution plate vertically distributes, and forward and backward two air distribution plates are parallel to each other, left and right two air distribution plates are parallel to each other, described lower air distribution plate is horizontally disposed with, described upper piece fabric swatch consists of the upper left piece fabric swatch and the upper right piece fabric swatch that are positioned at the air inlet left and right sides, upper left piece fabric swatch is turned left gradually toward downward-extension from air inlet, upper right piece fabric swatch is turned right gradually toward downward-extension from air inlet, and upper left piece fabric swatch and upper right piece fabric swatch are symmetrical arranged; Described air outlet is arranged on front air distribution plate.

As preferably, each air outlet is two rows and distributes, and each air outlet of upper row is uniformly distributed, and each air outlet of lower row is uniformly distributed, and upper dispatch air outlet and lower each air outlet of row are in staggered distribution.The air outlet of this programme structure is distributed with and is beneficial to the air current flow uniformity that improves each position in curing room.

As preferably, cloth bellows leading flank base length is 5950 millimeters, and the quantity of air outlet is 23, and the quantity of wherein descending dispatch air port is 12, and the quantity in upper dispatch air port is 11; Each air outlet is rectangular, and air outlet length be 250 millimeters, wide be 60 millimeters.

Preferred as another kind, each air outlet is rounded, and each air outlet edge is respectively equipped with the flow guide sleeve toward extension, and the cross section of flow guide sleeve is rounded, and is respectively equipped with self adaptation wind regulating device in each flow guide sleeve; Described self adaptation wind regulating device comprises the self adaptation regulating sleeve being coaxially arranged in flow guide sleeve, spindle rod and the impeller on spindle rod is rotatably set, and this impeller is positioned at self adaptation regulating sleeve; Described spindle rod is fixed on flow guide sleeve inwall by head rod, and head rod is between cloth bellows inner chamber and self adaptation regulating sleeve; Described impeller comprises the rotating axle sleeve being set on spindle rod, and this axle sleeve also can move axially along spindle rod, and described spindle rod outer end is provided with positive stop, and on spindle rod, be arranged with back-moving spring between axle sleeve and positive stop; Between described self adaptation regulating sleeve and axle sleeve, by the second connecting rod, be connected, self adaptation regulating sleeve medial surface is provided with some circumferentially uniform wind-force plates, the axis of each wind-force plate and self adaptation regulating sleeve is perpendicular, and each wind-force plate is between self adaptation regulating sleeve the inner and impeller, and the outer end of described self adaptation regulating sleeve can move to outward along spindle rod the outside of flow guide sleeve; Self adaptation regulating sleeve lateral surface is provided with the drag ring around self adaptation regulating sleeve, and the lateral surface of this drag ring contacts with flow guide sleeve medial surface, and the coefficient of friction of described flow guide sleeve medial surface is increased toward outer end gradually from the inner of flow guide sleeve.

This programme structure further regulates the air-out speed of each air outlet by self adaptation wind regulating device, when the air-out speed of air outlet changes (become greatly/diminish), self adaptation wind regulating device can automatically regulate the air-out speed of air outlet is maintained in the scope of a constant, and the strength of adjustment that wind speed changes self adaptation wind regulating device greatly also greatly, the air-out speed of each air outlet of active balance, further improves the air-out velocity uniformity of each air outlet.Air-flow that simultaneously can also softening air outlet, further weakens the impact dynamics of the air-out of air outlet to pole plate, improves polar plate solidification quality.

As preferably, between axle sleeve and spindle rod, by bearing, be connected, and the outer ring of this bearing is fixed on axle sleeve, rotating being set on spindle rod of inner ring of bearing, and the inner ring of bearing also can move axially along spindle rod; On described spindle rod, between positive stop and axle sleeve, be also arranged with transition interstage sleeve, on transition interstage sleeve, on the end face of axle sleeve, be also provided with annular protrusion, and the external diameter of this annular protrusion be less than the external diameter of the inner ring of bearing; Described back-moving spring is between transition interstage sleeve and positive stop, and annular protrusion is resisted against on the inner ring of bearing.

The beneficial effects of the utility model are: can effectively improve the air-supply uniformity that cloth wind shields each air outlet, the direct impact of the air-out of reduction air outlet to pole plate, and then improve whole curing Indoor Temperature, humidity and the uniformity of the air capacity of circulation everywhere, thereby shortening cure cycle, promotes pole plate quality.

Accompanying drawing explanation

Fig. 1 is a kind of perspective view of a kind of polar plate solidification chamber cloth wind screen device of embodiment 1 of the present utility model.

Fig. 2 is the front view of a kind of polar plate solidification chamber cloth wind screen device of embodiment 1 of the present utility model.

Fig. 3 is a kind of structural representation at the air outlet place of embodiment 2 of the present utility model.

Fig. 4 is a kind of structural representation at the air outlet place in the course of the work of polar plate solidification chamber cloth wind screen device of embodiment 2 of the present utility model.

In figure:

Cloth bellows 1, front air distribution plate 11, upper left piece fabric swatch 12a, upper right piece fabric swatch 12b, variable section runner 13, air inlet 14;

Air supply duct 2; Air outlet 3; Conducting element 4; Flow guide sleeve 5;

Spindle rod 61, head rod 62, self adaptation regulating sleeve 63, the second connecting rods 64, drag ring 65, wind-force plate 66, impeller 67, transition interstage sleeve 68, back-moving spring 69, positive stop 610.

Embodiment

Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail:

Embodiment 1: as shown in Figure 1 and Figure 2, a kind of polar plate solidification chamber cloth wind screen device comprises that inside is provided with the cloth bellows 1 of airtight cavity, is arranged on cloth bellows end face middle part the air inlet 14 communicating with the inner chamber of cloth bellows and the air supply duct 2 being connected with air inlet.Cloth bellows are surrounded by six of front, back, left, right, up, down air distribution plate.Four of front, rear, left and right air distribution plate vertically distributes, and forward and backward two air distribution plates are parallel to each other, and left and right two air distribution plates are parallel to each other.Lower air distribution plate is horizontally disposed with.Upper piece fabric swatch consists of the upper left piece fabric swatch 12a and the upper right piece fabric swatch 12b that are positioned at the air inlet left and right sides.Upper left piece fabric swatch is turned left gradually toward downward-extension from air inlet, and upper right piece fabric swatch is turned right gradually toward downward-extension from air inlet, and upper left piece fabric swatch and upper right piece fabric swatch are symmetrical arranged.The variable section runner 13 that cloth bellows inner chamber reduces gradually for the sectional area from air inlet toward the left and right sides, be that the inner chamber of the cloth bellows sectional area from air inlet toward the left and right sides reduces gradually, and in the cloth bellows inner chamber of the air inlet left and right sides the corresponding variable section runner that forms.

Cloth bellows inner chamber top, be positioned under air inlet and be provided with and can make the part air-flow of air supply duct toward the conducting element 4 of the left and right sides water conservancy diversion of cloth bellows inner chamber.This conducting element consists of the symmetrically arranged baffler in two of left and right, and two bafflers are splayed distribution.Baffler is arc deflector or plate baffler.Two bafflers are by welding or riveted joint or bolted mode are arranged between forward and backward two air distribution plates of cloth bellows.The top of two bafflers up extends in air supply duct, and air inlet is separated into three parts, and the air inlet sectional area between two bafflers is less than the air inlet sectional area in two baffler outsides.

The leading flank of cloth bellows is provided with some air outlets 3, and specifically, front air distribution plate 11 is provided with some air outlets.Each air outlet is two rows and distributes.Each air outlet of upper row is uniformly distributed, and each air outlet of lower row is uniformly distributed, and each air outlet of upper row and lower each air outlet of row are in staggered distribution.Cloth bellows leading flank base length is 5950 millimeters.The quantity of air outlet is 23, and the quantity of wherein descending dispatch air port is 12, and the quantity in upper dispatch air port is 11.Each air outlet is rectangular, and air outlet length be 250 millimeters, wide be 60 millimeters.

The specific works process of the curing chamber of accumulator plate cloth wind screen device of the present embodiment is as follows:

Air-flow enters cloth bellows by air supply duct, and is blown out in curing room by each air outlet of cloth bellows.When air-flow is entered in the process of cloth bellows by air supply duct, a part of air-flow in air supply duct is down blown in cloth bellows, another part air-flow is the left and right sides water conservancy diversion toward cloth bellows inner chamber by two arc deflectors, the interior air-flow of cloth bellows is distributed more even, avoids dead angle to produce.

When air-flow enters cloth bellows by air inlet, and in the mobile process in the cloth bellows left and right sides; (this cross section is vertical direction to the variable section runner reducing gradually for the sectional area from air inlet toward the left and right sides due to the inner chamber of cloth bellows, and with the perpendicular cross section of cloth bellows leading flank), thereby make by the volume of the variable section runner of air inlet larger, thereby can reduce the blast by the cloth bellows inner chamber at air inlet place, effectively alleviate the large problem of air supply velocity near the air outlet at air inlet place;

In the mobile process in the left and right sides of air-flow from air inlet toward variable section runner, because the sectional area of variable section runner reduces gradually, increase the middle part of variable section runner and the static pressure of end, can increase thus the air supply velocity of the centre of variable section runner and the air outlet of end portion; Thereby effectively improve the air-supply uniformity that cloth wind shields each air outlet, the direct impact of the air-out of reduction air outlet to pole plate, and then improve whole curing Indoor Temperature, humidity and the uniformity of the air capacity of circulation everywhere, thus shorten cure cycle, promote pole plate quality.

Embodiment 2: all the other structures in the present embodiment are with reference to embodiment 1, and its difference is:

As shown in Figure 3, Figure 4, each air outlet 3 is rounded, and each air outlet edge is respectively equipped with the flow guide sleeve 5 toward extension.Flow guide sleeve is positioned on front air distribution plate lateral surface.Flow guide sleeve is horizontally disposed with, and the cross section of flow guide sleeve is rounded.In each flow guide sleeve, be respectively equipped with self adaptation wind regulating device.Self adaptation wind regulating device comprises the self adaptation regulating sleeve 63 being coaxially arranged in flow guide sleeve, the spindle rod 61 and impeller 67 on spindle rod is rotatably set, and this impeller is positioned at self adaptation regulating sleeve.Spindle rod is fixed on flow guide sleeve inwall by head rod 62, and head rod is between cloth bellows inner chamber and self adaptation regulating sleeve.

Impeller comprises that the rotating blade that is set in the axle sleeve on spindle rod and is arranged on axle sleeve forms.This axle sleeve can rotate around spindle rod, also can move axially along spindle rod; Specifically, between axle sleeve and spindle rod, by bearing, be connected, and the outer ring of this bearing is fixed on axle sleeve, rotating being set on spindle rod of inner ring of bearing, and the inner ring of bearing also can move axially along spindle rod.Spindle rod outer end is provided with positive stop 610.On spindle rod, between positive stop and axle sleeve, be also arranged with transition interstage sleeve 68.Transition interstage sleeve can rotate around spindle rod, also can move axially along spindle rod.On transition interstage sleeve, on the end face of axle sleeve, be also provided with annular protrusion, and the external diameter of this annular protrusion is less than the external diameter of the inner ring of bearing.On spindle rod, between axle sleeve and positive stop, be arranged with back-moving spring 69.Back-moving spring is between transition interstage sleeve and positive stop, and annular protrusion is resisted against on the inner ring of bearing.

Between self adaptation regulating sleeve and axle sleeve, by the second connecting rod 64, be connected.Self adaptation regulating sleeve medial surface is provided with some circumferentially uniform wind-force plates 66.The inner of self adaptation regulating sleeve is the one end near cloth bellows inner chamber, and the outer end of self adaptation regulating sleeve is the one end away from cloth bellows inner chamber.The axis of each wind-force plate and self adaptation regulating sleeve is perpendicular, and each wind-force plate is between self adaptation regulating sleeve the inner and impeller.The outer end of self adaptation regulating sleeve can move to outward along spindle rod the outside of flow guide sleeve.Self adaptation regulating sleeve lateral surface is provided with the drag ring 65 around self adaptation regulating sleeve.The lateral surface of this drag ring contacts with flow guide sleeve medial surface.The coefficient of friction of flow guide sleeve medial surface is increased toward outer end gradually from the inner of flow guide sleeve.

The specific works process of the curing chamber of accumulator plate cloth wind screen device of the present embodiment is with reference to embodiment 1, and its difference is:

As shown in Figure 3, Figure 4, the air stream being blown out by each air outlet will, through flow guide sleeve and self adaptation regulating sleeve, then be blown in curing room outward.When air-flow in mobile process rotates impeller in flow guide sleeve and self adaptation regulating sleeve, thus drive self adaptation regulating sleeve and on drag ring together rotate; Blow and beat simultaneously air-flow on impeller and each wind-force plate also by drive self adaptation regulating sleeve and on drag ring along spindle rod, axially move outward, and the larger self adaptation regulating sleeve of air-flow velocity and on drag ring along the axial mobile distance also larger (thrust of the larger piping and druming of air-flow velocity on impeller and each wind-force plate is also larger) outward of spindle rod;

Thereby the flowing velocity in flowing through flow guide sleeve and self adaptation regulating sleeve is when increase, self adaptation regulating sleeve and on drag ring along spindle rod, axially move outward, with this, increase air-flow mobile stroke in flow guide sleeve and self adaptation regulating sleeve, increase the length of gas channel, thereby increase on-way resistance reduction, be blown into the wind speed in curing room; Simultaneously, because the coefficient of friction of flow guide sleeve medial surface the inner from flow guide sleeve increases gradually toward outer end, after drag ring axially moves outward along spindle rod, frictional resistance between drag ring and flow guide sleeve medial surface increases, vane rotary resistance is increased, thereby increase the windage of air-flow in self adaptation regulating sleeve, further reduce and be blown into the wind speed in curing room; And the wind speed increase more strength of adjustment of multiple self adaption wind regulating device is also larger, the air-out speed of each air outlet of active balance, further improves the air-out velocity uniformity of each air outlet.

When the flowing velocity in flowing through flow guide sleeve and self adaptation regulating sleeve reduces, self adaptation regulating sleeve and on drag ring along spindle rod axially toward interior movement, with this, shorten air-flow mobile stroke in flow guide sleeve and self adaptation regulating sleeve, shortened the length of gas channel, thereby reduce on-way resistance, increase and be blown into the wind speed in curing room; Simultaneously, because the coefficient of friction of flow guide sleeve medial surface the inner from flow guide sleeve increases gradually toward outer end, when drag ring along spindle rod axially after interior movement, frictional resistance between drag ring and flow guide sleeve medial surface reduces, vane rotary resistance is reduced, thereby reduce the windage of air-flow in self adaptation regulating sleeve, further increase and be blown into the wind speed in curing room; And then the air-out speed of each air outlet of active balance, further improve the air-out velocity uniformity of each air outlet.

The present embodiment further regulates the air-out speed of each air outlet by self adaptation wind regulating device, when the air-out speed of air outlet changes (become greatly/diminish), self adaptation wind regulating device can automatically regulate the air-out speed of air outlet is maintained in the scope of a constant, and the strength of adjustment that wind speed changes self adaptation wind regulating device greatly also greatly, the air-out speed of each air outlet of active balance, further improves the air-out velocity uniformity of each air outlet.

Claims (9)

1. a polar plate solidification chamber cloth wind screen device, is characterized in that, comprises that inside is provided with the cloth bellows (1) of airtight cavity, is arranged on cloth bellows end face middle part the air inlet (14) communicating with the inner chamber of cloth bellows and the air supply duct (2) being connected with air inlet; The variable section runner (13) that described cloth bellows inner chamber reduces gradually for the sectional area from air inlet toward the left and right sides; Described cloth bellows inner chamber top, be positioned under air inlet and be provided with and can make the part air-flow of air supply duct toward the conducting element (4) of the left and right sides water conservancy diversion of cloth bellows inner chamber, the leading flank of described cloth bellows is provided with some air outlets (3).

2. a kind of polar plate solidification according to claim 1 chamber cloth wind screen device, is characterized in that, described conducting element consists of the symmetrically arranged baffler in two of left and right, and two bafflers are splayed distribution.

3. a kind of polar plate solidification according to claim 2 chamber cloth wind screen device, it is characterized in that, the top of described two bafflers up extends in air supply duct, and air inlet is separated into three parts, and the air inlet sectional area between two bafflers is less than the air inlet sectional area in two baffler outsides.

4. according to a kind of polar plate solidification chamber cloth wind screen device described in claim 2 or 3, it is characterized in that, described baffler is arc deflector or plate baffler.

5. according to a kind of polar plate solidification chamber cloth wind screen device described in claim 1 or 2 or 3, it is characterized in that, described cloth bellows are by front, after, left, right, on, lower six air distribution plates surround, before described, after, left, right four air distribution plates vertically distribute, and front, rear two air distribution plates are parallel to each other, left, right two air distribution plates are parallel to each other, described lower air distribution plate is horizontally disposed with, described upper piece fabric swatch consists of the upper left piece fabric swatch and the upper right piece fabric swatch that are positioned at the air inlet left and right sides, upper left piece fabric swatch is turned left gradually toward downward-extension from air inlet, upper right piece fabric swatch is turned right gradually toward downward-extension from air inlet, and upper left piece fabric swatch and upper right piece fabric swatch are symmetrical arranged, described air outlet is arranged on front air distribution plate.

6. according to a kind of polar plate solidification chamber cloth wind screen device described in claim 1 or 2 or 3, it is characterized in that, described each air outlet is two rows and distributes, and each air outlet of upper row is uniformly distributed, each air outlet of lower row is uniformly distributed, and each air outlet of upper row and lower each air outlet of row are in staggered distribution.

7. a kind of polar plate solidification according to claim 6 chamber cloth wind screen device, it is characterized in that, described cloth bellows leading flank base length is 5950 millimeters, and the quantity of air outlet is 23, the quantity of wherein descending dispatch air port is 12, and the quantity in upper dispatch air port is 11; Each air outlet is rectangular, and air outlet length be 250 millimeters, wide be 60 millimeters.

8. a kind of polar plate solidification according to claim 1 chamber cloth wind screen device, it is characterized in that, described each air outlet is rounded, and each air outlet edge is respectively equipped with the flow guide sleeve (5) toward extension, the cross section of flow guide sleeve is rounded, and is respectively equipped with self adaptation wind regulating device in each flow guide sleeve; Described self adaptation wind regulating device comprises the self adaptation regulating sleeve (63) being coaxially arranged in flow guide sleeve, spindle rod (61) and the impeller (67) on spindle rod is rotatably set, and this impeller is positioned at self adaptation regulating sleeve; Described spindle rod is fixed on flow guide sleeve inwall by head rod (62), and head rod is between cloth bellows inner chamber and self adaptation regulating sleeve; Described impeller comprises the rotating axle sleeve being set on spindle rod, and this axle sleeve also can move axially along spindle rod, described spindle rod outer end is provided with positive stop (610), and is arranged with back-moving spring (69) on spindle rod, between axle sleeve and positive stop; Between described self adaptation regulating sleeve and axle sleeve, by the second connecting rod (64), be connected, self adaptation regulating sleeve medial surface is provided with some circumferentially uniform wind-force plates (66), the axis of each wind-force plate and self adaptation regulating sleeve is perpendicular, and each wind-force plate is between self adaptation regulating sleeve the inner and impeller, and the outer end of described self adaptation regulating sleeve can move to outward along spindle rod the outside of flow guide sleeve; Self adaptation regulating sleeve lateral surface is provided with the drag ring (65) around self adaptation regulating sleeve, and the lateral surface of this drag ring contacts with flow guide sleeve medial surface, and the coefficient of friction of described flow guide sleeve medial surface is increased toward outer end gradually from the inner of flow guide sleeve.

9. a kind of polar plate solidification according to claim 8 chamber cloth wind screen device, it is characterized in that, between described axle sleeve and spindle rod, by bearing, be connected, and the outer ring of this bearing is fixed on axle sleeve, rotating being set on spindle rod of inner ring of bearing, and the inner ring of bearing also can move axially along spindle rod; On described spindle rod, between positive stop and axle sleeve, be also arranged with transition interstage sleeve (68), on transition interstage sleeve, on the end face of axle sleeve, be also provided with annular protrusion, and the external diameter of this annular protrusion be less than the external diameter of the inner ring of bearing; Described back-moving spring is between transition interstage sleeve and positive stop, and annular protrusion is resisted against on the inner ring of bearing.