CN109248576A - A kind of circulation water flowing one agitating paddle - Google Patents

Abstract

A kind of circulation water flowing one agitating paddle, containing stirring system and cooling system, stirring system main shaft containing blade (6), blade (1), blade is fixed on blade main shaft, contain blade water channel (8) in blade, independent water inlet line and water outlet water channel are equipped in blade main shaft；Cooling system contains central inlet distributor (4), distributor diversion pipe (7), the inlet channel and water outlet water channel of blade main shaft, blade water channel (8) and return flume (10), the water outlet III of distributor diversion pipe is embedded on the water inlet line inner wall of blade main shaft, the water inlet III of distributor diversion pipe is connect with the water outlet II of central inlet distributor, it is connect on the outside of the water inlet line of blade main shaft with blade water channel water inlet I, it is discharged on the outside of water channel is connected with blade water channel water outlet I, inside is connected to return flume, when work, cooling water constantly circulates in blade and cools down blade, blade is set not to be stained with material, the solidification for preventing material, ensure that temperature of charge uniformly mixes.

Description

A kind of circulation water flowing one agitating paddle

Technical field

The present invention relates to the mixing for needing water flowing cooling when a kind of a kind of circulation water flowing one agitating paddle, especially high speed rotation Machine water flowing agitating paddle, the blade of this agitating paddle include water channel, by central inlet, are evenly distributed to each blade.When work, stir While mixing paddle high speed rotation, it is continuously passed through cooling water, can be good at as blade cooling.It is primarily adapted for use in the high-speed stirring of material Mix mixing.

Background technique

Material is stirred by running at high speed for agitating paddle in a reservoir, according to agitating paddle and the mutual high speed of material The effect of friction, agitating paddle fever, makes material uneven heating, causes the rotten or solidification of material that processing is caused to fail.Such as: The industries such as material coating, plastics, food, medicine.

Agitating paddle in various mixing machines disclosed in the prior art, is unable to water flowing when rotating at high speed, so as to cause object In the whipping process of material, agitating paddle is easy to generate heat because of friction, easily causes the material uneven heating in stirring container

To guarantee the temperature uniformity of stirring material and preventing the rotten of material, exploitation cooling performance is excellent, high speed rotation situation Down can the cooling integrated agitating paddle of water flowing have become the inevitable research direction of Novel blending machine.

Currently, disclosed mixing machine agitating paddle is as shown in figure 14 in the market, it mainly include stirrer paddle 14, blade set 11, end cap 12, fastening screw 13.Wherein stirrer paddle 14 is linked together with blade set 11, is consolidated by end cap 12, fastening screw 13 It is scheduled on external equipment.Stirrer paddle 14 is generally divided into upper, middle and lower-ranking, blade not water flowing, and blade is layered but is not integration 's.

It can thus be seen that there are following two defects for existing mixing machine agitating paddle:

1. three layers of agitating paddle point is separately dismantled, it is not one, will lead between stirrer paddle and axis and have the gap in this way, dynamic balancing Test failure causes mixing machine agitating paddle to be also easy to produce vibration when working, machinery can also occur between stirring main shaft and blade and rub Heat is wiped, so that material uneven heating.

2. being unable to water flowing in stirrer paddle, causes stirrer paddle to heat up in agitation hot, easily cause material deterioration or solid Change, it is unqualified so as to cause mixed material.

Summary of the invention

The purpose of the present invention is overcoming various defects existing in the prior art, a kind of circulation water flowing integrally stirring is provided Cooling water is passed into each stirring rapidly in the high-speed stirred course of work, through central inlet distributor by paddle, the agitating paddle Blade, water flowing is cooling, and takes away the heat of agitating paddle, so that stirrer paddle be made to be heated evenly, makes all materials in container Temperature keeps uniform.

Technical scheme used to achieve the aforesaid purposes of the present invention is:

A kind of circulation water flowing one agitating paddle, is structurally characterized in that containing stirring system and cooling system, the stirring system Containing blade main shaft, blade, blade is fixed on blade main shaft, and blade water channel, each blade water channel are all contained in each blade It is all equipped with water inlet I and water outlet I, independent water inlet line and water outlet water channel, water inlet line and water outlet are equipped in blade main shaft Water channel is correspondingly connected with the water inlet I of blade water channel and water outlet I respectively；The cooling system contains central inlet distribution Device, distributor diversion pipe, the inlet channel of blade main shaft and water outlet water channel, blade water channel and return flume, central inlet distributor Containing water inlet II and water outlet II, distributor diversion pipe contains water inlet III and water outlet III, the water outlet of distributor diversion pipe Mouth III is embedded on the water inlet line inner wall of blade main shaft, the water inlet III of distributor diversion pipe and going out for central inlet distributor The mouth of a river II connects, the common shape of II three of water outlet of the water inlet line of blade main shaft, distributor diversion pipe, central inlet distributor At the inlet channel of blade main shaft, it is connect on the outside of the water inlet line of blade main shaft with the water inlet I of blade water channel, blade main shaft It is fixed together on the outside of water outlet water channel with the water outlet I of blade water channel, inside is connected to return flume.

To increase sealing effect, under one water flowing sealing cover of the top of central inlet distributor setting, water flowing sealing cover End face and the upper surface of central inlet distributor weld together；An also settable main shaft end socket above blade main shaft, It seals.

The blade quantity can be≤2 even number, and generally 2-12 are in Multi-layers distributing from top to bottom in blade main shaft On.Two blades of preferably every layer setting divide the distribution of four layers of upper, middle and lower, and totally 8 blades, are installed on each on blade main shaft 180 ° of two blade intervals of layer, the vertical interval of adjacent two layers blade are 32-200mm, and adjacent two layers blade is in 90 ° of cloth that interlock Office.

Material is stirred in order to good large area, top blade from blade centre or is preferably biased to terminal position It is folded upward at the angle a, the angle a generally can be 0 ° -90 °, preferably 18 ° -32 °.

To prevent scratching for bottom blade and casing wall, the end of bottom blade is preferably bent upwards in circular arc, circular arc Radius is generally 1-50mm, and center of arc angle b is generally 20 ° -90 °, preferably 45 ° -90 °.

Preferably inclination is installed on blade main shaft bottom blade at an angle, and common tilt angle c is 0-70 °, Preferably 10 ° -32 °, to prevent blade stress in whipping process from sinking, bottom paddle blde pitch cannot be too small from the spacing of cylinder bottom, leads to Normal spacing is 1-32mm, preferably 3-12mm.

When work, blade main shaft drives blade high speed rotation, and cooling water enters from the water inlet II of central inlet distributor, It flows through distributor diversion pipe and reaches blade water channel, when return water, water flow flows out to the water outlet water channel of blade main shaft from blade water channel, so After flow into return flume, finally flow out to external equipment, by cooling after can be again introduced into cooling system, completed in cyclic process Refrigerating function.

Advantages of the present invention is as follows:

In agitating paddle high-speed rotation, cooling water can uninterruptedly circulate inside blade, cool down blade always, make it It will not generate heat, therefore, material will not be stained on blade, to effectively prevent the solidification of material, ensure that temperature of charge is uniform Mixed effect.

Detailed description of the invention

Fig. 1 is the main view of the embodiment of the present invention.

Fig. 2 is the installation condition side view of blade 1 in Fig. 1.

Fig. 3 is the top view of the embodiment of the present invention.

Fig. 4 is the structural schematic diagram of blade 1 in Fig. 1.

Fig. 5 is 6 structural schematic diagram of blade main shaft in Fig. 1.

Fig. 6 is the A-A sectional view in Fig. 5.

Fig. 7 is the connection relationship top view of blade 1 and blade main shaft 6 in Fig. 1.

Fig. 8 is the annexation figure of part main component in Fig. 1.

Fig. 9 is the structural schematic diagram of central inlet distributor 4 in Fig. 1.

Figure 10 is the B-B sectional view of Fig. 9.

Figure 11 is the structural schematic diagram of distributor diversion pipe 7 in Fig. 1.

Figure 12 is the annexation figure of distributor diversion pipe 7 in Fig. 1.

Figure 13 is the partial enlarged view of D in Figure 12.

Figure 14 is the structural schematic diagram of the prior art.

Figure 15 is optimal use mode structural schematic diagram of the present invention.

Figure 16 is optimal use mode main component annexation figure of the present invention.

Figure 17 is the structural schematic diagram of Figure 15 bottom bracket 18.

Figure 18 is Figure 15 bottom bracket 18 and associated components annexation figure.

Specific embodiment

The present invention will be further described with the example of specific implementation with reference to the accompanying drawing, however the embodiment described is not It should be construed in a limiting sense.

The present embodiment contains 8 blades it can be seen from Fig. 1-Fig. 3, and circulation water flowing one agitating paddle contains stirring system System and cooling system.

The stirring system contains blade 1 and blade main shaft 6, and blade 1 is fixed on blade main shaft 6.

Any even number of Wei≤2 quantity Ke of blade 1, it is generally 2-12, preferably 8, equal in multilayer from top to bottom Even distributing installation is on blade main shaft 6, and two blades of preferably every layer setting, the present embodiment is 8 blades, such as Fig. 1 and Fig. 2 institute It is as follows to show that layering is staggered: two every layer, totally four layers, be first layer (top) blade 1-1, the second layer respectively from top to bottom Blade 1-2, third layer blade 1-3, the 4th layer of (bottom) blade 1-4, these blades are fixed on blade master by welded seal On axis 6, each layer of 180 ° of two blade intervals are correspondingly arranged, and adjacent two layers blade is staggered in 90 °, adjacent two layers blade Vertical interval be 32-200mm.

Due to the above-mentioned positional relationship of 8 blades, so can only see the blade 1-1 and of first layer in Fig. 3, Fig. 7 Two layers of blade 1-2, and the blade 1-3 of third layer is in the underface corresponding position of first layer blade 1-1, the 4th layer of blade 1- 4 second layer blade 1-2 underface corresponding position.

As bottom blade the 4th layer of blade 1-4 it is to be noted that

To prevent cylinder bottom from accumulating, material is excessive, and the 4th layer of blade 1-4 can be tilted at an angle is installed on blade main shaft 6, Common tilt angle is c, as shown in figure 5, tilt angle c generally can be 0-70 °, preferably 10 ° -32 °.

Scratched to prevent in whipping process the 4th layer of blade 1-4 stress to sink to generating with cylinder bottom, the 4th layer of blade 1-4 away from Cannot be too small from the spacing of cylinder bottom, usual spacing is 1-32mm, preferably 3-12mm.

To prevent scratching for the 4th layer of blade 1-4 and casing wall, the end of the 4th layer of blade 1-4 is bent up in circular arc Song, as shown in Figure 1, arc radius is generally 1-50mm, center of arc angle b is generally 20 ° -90 °, preferably 45 ° -90 °.

The requirement of first layer blade 1-1 as top layer blade: stirring material to can be good at large area, can be by first Layer blade 1-1 is among blade or deviation terminal position is folded upward at the angle a, as shown in Fig. 2, the angle a generally can be 0 ° -70 °, preferably It is 18 ° -32 °.

It, can also be with according to different stirring demands as the second layer blade 1-2 and third layer blade 1-3 of intermediate blade Bending or inclination processing are done, specific value is referring to related data in first layer blade 1-1 and the 4th layer of blade 1-4.

The structure of blade 1 is as shown in figure 4, contain the blade water channel 8 for leading to cooling water, each blade in each blade Water channel 8 has I 1-I and I 1-Q of water outlet of a water inlet.Since every layer there are two blade, in conjunction with Fig. 7 it can be seen that the I 1-1-Q of water outlet of one layer of I 1-1-I and two blade water channel 8 of water inlet for having two blade water channels 8, the second layer have two paddles I 1-2-Q of water outlet of I 1-2-I and two blade water channel 8 of water inlet of leaf water channel 8, third layer have two blade water channels 8 into Water outlet I 1-3-Q of I 1-3-I and two, mouth of a river blade water channel 8, the 4th layer of I 1-4-I of water inlet for having two blade water channels 8 and I 1-4-Q of water outlet of two blade water channels 8.Due to the positional relationship of 8 blades, so, two blade water channels 8 of third layer I 1-3-Q of water outlet of I 1-3-I and two blade water channel 8 of water inlet be located at I 1- of water inlet of two blade water channels 8 of first layer The underface of I 1-1-Q of water outlet of 1-I and two blade water channel 8, I 1-4-I of water inlet of the 4th layer of two blade water channel 8 and I 1-4-Q of water outlet of two blade water channels 8 is located at I 1-2-I and two blade water of water inlet of two blade water channels 8 of the second layer The underface of I 1-2-Q of water outlet in road 8.

The structure of blade main shaft 6 is as shown in Figure 5, Figure 6, and independent water inlet line and water outlet water channel are equipped in blade main shaft 6, It is correspondingly connected with respectively with I 1-I of water inlet of blade water channel 8 and I 1-Q of water outlet.As previously mentioned, 8 blades 1 interlock in layering It arranges (every layer has two paddles), is welded in the outside of blade main shaft 6.Corresponding to each blade water channel 8 I 1-I of water inlet and I 1-Q of water outlet has a water inlet line and a water outlet water channel to be corresponding to it weld together respectively on blade main shaft 6, has Body corresponds to welding relationship can be as seen from Figure 7: two water inlets, I 1-1-I and two I 1- of water outlet of first layer blade water channel 8 1-Q respectively corresponds the two water inlet line 6-1-I and two water outlet water channel 6-1-OUT of blade main shaft first layer；Similarly, the second layer Two water inlets, I 1-2-I and two I 1-2-Q of water outlet of blade water channel 8 respectively corresponds two water inlets of the blade main shaft second layer Pipeline 6-2-I and two water outlet water channel 6-2-OUT；Two water inlets, I 1-3-I and two water outlet I of third layer blade water channel 8 1-3-Q respectively corresponds the two water inlet line 6-3-I and two water outlet water channel 6-3-OUT of blade main shaft third layer；4th layer of paddle Two water inlets, I 1-4-I and two I 1-4-Q of water outlet of leaf water channel 8 respectively corresponds the 4th layer of blade main shaft of two water inlet pipes Road 6-4-I and two water outlet water channel 6-4-OUT.Described two water inlets I 1-3-I and two with third layer blade water channel 8 Two water inlet line 6-3-I of the corresponding third layer blade main shaft of I 1-3-Q of water outlet and two water outlet water channel 6-3-OUT, point Not Wei Yu first layer two water inlet line 6-1-I and two water outlet water channel 6-1-OUT underface, and with the 4th layer of blade water Two water inlet line 6- of the corresponding 4th layer of blade main shaft of two water inlets, I 1-4-I and two I 1-4-Q of water outlet in road 8 4-I and two water outlet water channel 6-4-OUT is located at the two water inlet line 6-2-I and two water outlet water channel 6-2- of the second layer The underface of OUT.

Blade main shaft 6 is equipped with connecting hole 9 it can be seen from Fig. 5,6, and as can be seen from Figure 8, fastening screw 5 passes through The connecting hole 9 of blade main shaft 6.Water flowing agitating paddle is fixedly connected with external equipment, water flowing agitating paddle is driven by external equipment Rotation.

The cooling system contain central inlet distributor 4, distributor diversion pipe 7, blade main shaft 6 inlet channel and It is discharged water channel, blade water channel 8 and return flume 10.

As shown in Figures 9 and 10, central inlet distributor 4 contains 1 water inlet, II 4-I and 8 water outlet II, from top to bottom Respectively two II 4-1-Q of water outlet of first layer, two II 4-2-Q of water outlet of the second layer, two II 4- of water outlet of third layer 3-Q, the 4th layer of two II 4-4-Q of water outlet.Two II 4-3-Q of water outlet of the third layer are located at first layer two and go out The underface of II 4-1-Q of the mouth of a river, the 4th layer of two II 4-4-Q of water outlet are then located at two II 4-2-Q's of water outlet of the second layer Underface.

The structure of distributor diversion pipe 7 is as shown in figure 11, which is provided with III 7-I and III 7- of water outlet of a water inlet Q.In conjunction with Figure 12,13 as can be seen that III 7-Q of water outlet of distributor diversion pipe 7 is embedded in the water inlet line inner wall of blade main shaft 6 On, III 7-I of water inlet is connected on the water outlet II of central inlet distributor 4 by pipe screw thread, i.e. the water inlet pipe of blade main shaft 6 The water outlet II of road and central inlet distributor 4 is correspondingly connected with by distributor diversion pipe 7, and the water inlet line of blade main shaft 6 divides Inlet channel is collectively formed in II three of water outlet of orchestration diversion pipe 7 and central inlet distributor 4.Specific corresponding relationship is as follows: Corresponding with two blades 1 that every layer is equipped with, in each layer, blade main shaft 6 all contains two water inlet lines, central inlet point Orchestration 4 is also corresponding containing two water outlets II, meanwhile, each layer also contains two distributor diversion pipes 7.One blade main shaft 6 Water inlet line and the water outlet II of a central inlet distributor 4 be correspondingly connected with by a distributor diversion pipe 7, form one A inlet channel, layer each in this way form two inlet channels altogether.Detailed corresponding relationship are as follows: two of 6 first layer of blade main shaft Two II 4-1-Q of water outlet of water inlet line 6-1-I and the first layer of central inlet distributor 4 pass through a distributor respectively to be led Flow tube 7 is correspondingly connected with, and forms two inlet channel 6-1-IN of first layer；Two water inlet line 6- of 6 second layer of blade main shaft It is corresponding that 2-I with two II 4-2-Q of water outlet of the second layer of central inlet distributor 4 passes through a distributor diversion pipe 7 respectively Connection, forms two inlet channel 6-2-IN of the second layer；Two water inlet line 6-3-I of 6 third layer of blade main shaft and center Two II 4-3-Q of water outlet of the third layer of water inlet distributor 4 pass through a distributor diversion pipe 7 respectively and are correspondingly connected with, and are formed Two inlet channel 6-3-IN of third layer；The 4th layer of blade main shaft 6 of two water inlet line 6-4-I and central inlet distributor Two II 4-4-Q of water outlet of the 4th layer of 4 pass through a distributor diversion pipe 7 respectively and are correspondingly connected with, and form the two of the 4th layer A inlet channel 6-4-IN.Two water inlet line 6-3-I of 6 third layer of blade main shaft, 4 third of central inlet distributor Two II 4-3-Q of water outlet of layer and two distributor diversion pipes 7 of third layer, are located at the two of 6 first layer of blade main shaft A water inlet line 6-1-I, two II 4-1-Q of water outlet of 4 first layer of central inlet distributor and two distributors of first layer The underface of diversion pipe 7；The 4th layer of blade main shaft 6 of two water inlet line 6-4-I, the 4th layer of central inlet distributor 4 Two II 4-4-Q of water outlet and the 4th layer of two distributor diversion pipes 7, be located at two of 6 second layer of blade main shaft into Waterpipe 6-2-I, two II 4-2-Q of water outlet of the second layer of central inlet distributor 4 and two distributors of the second layer are led The underface of flow tube 7.

In conjunction with Fig. 3 as can be seen that the inside of 8 water outlet water channels of blade main shaft 6 is connected to return flume 10.By Fig. 1 and Fig. 8 As can be seen that the top of central inlet distributor 4 is equipped with water flowing sealing cover 3, the lower end surface of water flowing sealing cover 3 and central inlet point 4 upper surface of orchestration welds together, and seals, and periphery is fixedly welded on the medial surface upper end of blade main shaft 6, also rises Sealing function.An also settable main shaft end socket 2, also seals above blade main shaft 6.

When work, cooling water enters from the water inlet 4-I of central inlet distributor 4, reaches paddle by distributor diversion pipe 7 The water inlet I of leaf water channel 8, when return water, water flow flows out to the water outlet water channel of blade main shaft 6 from the water outlet I of blade water channel 8, so Return flume 10 is flowed into afterwards, finally flows out to external equipment, can be again introduced into cooling system after cooling, it is complete in cyclic process At refrigerating function.

The present invention in use, can external transmission system, meanwhile, by the external center of water inlet II of central inlet distributor 4 Water inlet pipe 15, by the external water flowing of blade main shaft 6 connect main shaft 17, optimal use mode structural schematic diagram as shown in figures 15-18, institute The transmission system stated contains bearing block 18, water flowing connection main shaft 17, belt pulley 19, rotary joint 16, and it is solid that water flowing connects main shaft 17 Due on bearing block 18, belt pulley 19 is fixed on the lower end of water flowing connection main shaft 17.The upper end of central inlet pipe 15 and center into II 4-I of water inlet of water dispenser 4 is connected, and the lower end of central inlet pipe 15 and the water inlet 24 of rotary joint 16 are fixed on one It rises, water flowing connection 17 upper end of main shaft is connected with blade main shaft 6, and lower end is then connected with the outer tube 23 of rotary joint 16.Rotation Connector 16 is the standard component directly bought, external to contain 23, water inlets 24 of outer tube and a water outlet 25.

The threaded hole 20 of water flowing connection main shaft 17 is correspondingly connected with the connecting hole 9 on blade main shaft 6, and fastening screw 5 runs through Main shaft end socket 2 and blade main shaft 6, meanwhile, connection water flowing connects main shaft 17, and water flowing connects lower end and the rotary joint 16 of main shaft 17 Outer tube 23 be connected and fixed by pipe screw thread.The II 4-I phase of water inlet of the upper end of central inlet pipe 15 and central inlet distributor 4 Connection, junction are equipped with sealing ring 26, and the lower end of central inlet pipe 15 is fixed on the water inlet of rotary joint 16 by pipe screw thread The water outlet 25 of 24 inside, rotary joint is connected with external water reservoir.

The structure of bearing block 18 is as shown in figure 17, it contains bearing block upper end cover 27, outside framework oil seal 28, radial ball bearing 29, bearing block support frame 30, bearing block lower cover 31, outside framework oil seal 32 and tapered roller bearing 33.Wherein, radial ball bearing 29 Positioned at 30 internal upper part of bearing block support frame, outer ring and 30 inner wall of bearing block support frame are fitted close, by bearing block upper end cover 27 It is fixed, tapered roller bearing 33 is located at lower part in bearing block support frame 30, and outer ring and 30 inner wall of bearing block support frame are tight Close fit is supported by bearing block lower cover 31 and is fixed.Outside framework oil seal 28, bearing block lower end are inlaid with inside bearing block upper end cover 27 It is inlaid with outside framework oil seal 32 inside lid 31, seals, prevents bearing oil excessive.

As can be seen from Figure 18, water flowing connection main shaft 17 is mounted in 18 centre bore of bearing block, with radial ball bearing 29 Inner ring and 33 inner ring of tapered roller bearing are fitted close, and are supported by tapered roller bearing 33, are realized radial direction by radial ball bearing 29 It is fixed.Belt pulley 19 is connected by key in the lower end of water flowing connection main shaft 17, passes through round nut A34, stop washer 21 and circle spiral shell The fixed position female B22.

As seen from Figure 15, when work, belt pulley 19 drives water flowing connection main shaft 17 to rotate (100-1500 revs/min), Water flowing connects main shaft 17 and blade main shaft 6, blade 1, central inlet distributor 4 and distributor diversion pipe 7 is driven to rotate, in conjunction with Figure 16 It can be seen that the outer tube 23 that water flowing connection main shaft 17 will drive rotary joint 16 rotates, and central inlet pipe 15 is connected to rotation On the inner inlet mouth 24 of connector 16, it will not rotate with it.

The present invention in use, just can no longer be described here with other external transmission systems and corresponding other component.

Claims (7)

1. a kind of circulation water flowing one agitating paddle, it is characterized in that containing stirring system and cooling system, the stirring system contains There are blade main shaft (6), blade (1), blade (1) is fixed on blade main shaft (6), and blade water channel is all contained in each blade (1) (8), each blade water channel (8) is all equipped with water inlet I (1-I) and water outlet I (1-Q), be equipped in blade main shaft (6) it is independent into Waterpipe and water outlet water channel, water inlet line and be discharged water channel respectively with the water inlet I (1-I) of blade water channel (8) and water outlet I (1-Q) is correspondingly connected with；The cooling system contains central inlet distributor (4), distributor diversion pipe (7), blade main shaft (6) Inlet channel and water outlet water channel, blade water channel (8) and return flume (10), central inlet distributor (4) contain II He of water inlet Water outlet II, distributor diversion pipe (7) contain water inlet III (7-I) and water outlet III (7-Q), and distributor diversion pipe (7) goes out (7-Q) is embedded on the water inlet line inner wall of blade main shaft at the mouth of a river III, the water inlet III (7-I) of distributor diversion pipe and center into The water outlet II of water dispenser (4) connects, the water inlet line of blade main shaft (6), distributor diversion pipe (7), central inlet distribution The inlet channel of blade main shaft, the water inlet line outside of blade main shaft (6) and blade is collectively formed in II three of water outlet of device (4) The water inlet I (1-I) of water channel (8) connects, the I (1- of water outlet on the outside of the water outlet water channel of blade main shaft (6) with blade water channel (8) Q it) is fixed together, inside is connected to return flume (10), the even number of quantity Wei≤2 of the blade (1), from top to bottom in more Layer is distributed on blade main shaft (6).

2. circulation water flowing one agitating paddle described in accordance with the claim 1, it is characterized in that in the top of central inlet distributor (4) One water flowing sealing cover (3) is set, and the lower end surface of water flowing sealing cover (3) and the upper surface of central inlet distributor (4) are welded on one It rises.

3. circulation water flowing one agitating paddle described in accordance with the claim 1, it is characterized in that described is in Multi-layers distributing from top to bottom It is every layer in the blade (1) on blade main shaft (6) and is arranged two, each layer of 180 ° of two blade intervals.

4. circulation water flowing one agitating paddle described in accordance with the claim 3, it is characterized in that adjacent two layers blade is in 90 ° of cloth that interlock Office.

5. according to circulation water flowing one agitating paddle described in claim 1,3, it is characterized in that top blade among blade or It is biased to terminal position and is folded upward at the angle a, the angle a is 0 ° -90 °.

6. according to circulation water flowing one agitating paddle described in claim 1,3, it is characterized in that the end of bottom blade is in circular arc It is bent upwards, arc radius 1-50mm, center of arc angle b is 20 ° -90 °.

7. water flowing one agitating paddle is recycled according to claim 6, it is characterized in that bottom blade tilts at an angle It is installed on blade main shaft (6), tilt angle c is 0-70 °.