CN207995894U - A kind of Enteromorpha conveying cleaning equipment - Google Patents

Abstract

The utility model provides a kind of Enteromorpha conveying cleaning equipment, including service sink, one end of the service sink is feed end, the other end is discharge end, self-cleaning pond feed end to service sink discharge end is sequentially connected the first conveyer belt of setting and the second conveyer belt in the service sink, first conveyer belt and the second conveyer belt are driven by power delivery unit jointly, first conveyer belt and the second transmission belt are sieve conveyer belt, first conveyer belt includes two first rotating shafts, two chains, several supporting rods, second conveyer belt includes two second shafts, two chains, several supporting rods, first conveyer belt and the second conveyer belt share a foraminous conveyer, the foraminous conveyer is tensioned between the shaft of the close service sink feed end of the first conveyer belt and the shaft of the close service sink discharge end of the second conveyer belt.It realizes and is seamlessly connected between the first conveyer belt and the second conveyer belt in the utility model.

Description

A kind of Enteromorpha conveying cleaning equipment

Technical field

The present invention relates to a kind of Enteromorphas to convey cleaning equipment.

Background technology

Marine green algae(Scientific name:Sea lettuce, sliver sea lettuce, U. pertusa, Enteromorpha)It is a kind of algae of large-scale doctor's food homology. The usual lace curtaining of Enteromorpha is kept hanging on the sea level in marine site beach or coastal waters.In China, Enteromorpha is distributed mainly on the coastal region in east China (Such as Shandong)The southeastern coastal areas and(Such as Jiangsu, Zhejiang, Fujian, Taiwan, Guangdong).

Enteromorpha be China enrich plant resources an important component, with develop and use Enteromorpha resource upsurge it is emerging It rises, the research in relation to Enteromorpha pharmacological effects and bioactive ingredients constantly expands and gos deep into.Domestic and international studies have shown that Enteromorpha is more Sugar has extensive bioactivity and medicinal function, has good reducing blood lipid, antitumor, antiviral, antibacterial, adjusting immune The various biologicals such as power, anti-oxidant, antifatigue, hypoglycemic and radioresistance activity.

In order to carry out research or development utilization to Enteromorpha, need to be acquired Enteromorpha, cleaning treatment.Currently, existing skill Art mostly cleans Enteromorpha by way of manually cleaning, and this mode is time-consuming and laborious.Also some people can use waterpower to rush Brush mechanical transmission band model or existing fruits and vegetables cleaning equipment clean Enteromorpha.Authorization Notice No. is 104351922 B of CN Chinese patent disclose a kind of micro-nano ozone bubbles fruits and vegetables cleaning device, which includes the first service sink; In first service sink, air blower connects the first aeration tube, and the first aeration tube is connect with the first aeration head;First aeration head is pacified Mounted in the first service sink bottom;Discharge end in first service sink from the feed end of the first service sink to the first service sink connects successively It connects and is provided with the first conveyer belt and the second conveyer belt;First spray equipment is installed on the second transmission belt, the first spray equipment with First spray header connects, and the first spray header connects the first running water pipe.But due to the first conveyer belt in above-mentioned patent Being independent belt mechanism with the second transmission belt, i.e. conveyer belt is individually arranged in the first conveyer belt and the second conveyer belt, So that the junction of the conveyer belt of the conveyer belt of the first conveyer belt and the second conveyer belt is there are gap, and marine green algae adhesiveness Greatly, it accumulates agglomerating, is not easily cleaned in the gap.In addition, since marine green algae adhesiveness is big, existing sluicing mechanical transmission Band model and above-mentioned fruits and vegetables cleaning device are not arranged agitating device, all can not be by silt in marine green algae and fishes and shrimps, small The aquatic livestocks corpse such as shellfish cleans up completely.

Invention content

The utility model is intended to provide a kind of Enteromorpha conveying cleaning equipment, which can realize the first conveyer belt The foraminous conveyer of foraminous conveyer and the second conveyer belt is seamlessly connected.

A kind of Enteromorpha conveying cleaning equipment, including service sink, one end of the service sink is feed end, the other end is discharging It holds, self-cleaning pond feed end to service sink discharge end is sequentially connected the first conveyer belt of setting and the second transmission in the service sink Band, the first conveyer belt and the second conveyer belt are driven by power delivery unit jointly, and the first conveyer belt and the second transmission belt are sieve Net conveyor, the first conveyer belt include two first rotating shafts, two chains, several supporting rods, the second conveyer belt include two second shafts, Two chains, several supporting rods, the first conveyer belt and the second conveyer belt share a foraminous conveyer, which is tensioned to the first biography It send between the shaft of the close service sink feed end of band and the shaft of the close service sink discharge end of the second conveyer belt.

During the work time, it discharges water into service sink;And start power delivery unit.By marine green algae to be cleaned from clear Wash pool feed end is put on the first conveyer belt in service sink, and marine green algae is fed forward with foraminous conveyer, passes through first successively Conveyer belt, the second conveyer belt, are finally unloaded from the end of the second conveyer belt automatically.Marine green algae is fed forward with foraminous conveyer In the process, the heavier sundries such as the silt in marine green algae and aquatic livestock corpse leaks down from the first conveyer belt and the second conveyer belt, It is deposited on the bottom of pond of service sink;Light weight sundries in marine green algae move up, and float on the water surface of service sink.

Since first conveyer belt of the utility model and the second conveyer belt are driven by power delivery unit jointly so that first Conveyer belt and the second conveyer belt can be run simultaneously, in addition, the first conveyer belt and the second conveyer belt share a foraminous conveyer, this is defeated Guipure is sent to be tensioned to the shaft of the close service sink feed end of the first conveyer belt and the close service sink discharge end of the second conveyer belt Shaft between so that the junction of the first conveyer belt and the second conveyer belt be not present gap, avoid Enteromorpha in the first conveyer belt It is accumulated with the second conveyer belt junction.

Second conveyer is horizontally disposed, and the second conveyer belt inclines from service sink charging extreme direction to service sink direction of discharge It is arranged obliquely, such design is the most reasonable, is conducive to clean Enteromorpha and is sent service sink.

Several agitating shafts are provided with along its conveying direction horizontal interval above first conveyer belt, every agitating shaft is along cleaning The width direction in pond is arranged, and each agitating shaft is sequentially connected and is driven by same stirring power device and is driven, every agitating shaft upper edge Its axially spaced-apart is arranged several mixing components, each mixing component by least 2 in spoke radial distribution in outside agitating shaft Arc stirring rod forms.The utility model is used by the way that agitating device is arranged above the first conveyer belt " on every agitating shaft Along its axially spaced-apart, several mixing components are set, each mixing component by least 2 in radiation profiles in the stirring outside agitating shaft The special agitating device structure of stick composition ", the agitating device can break up marine green algae, be conducive to in marine green algae Sundries carries out effective cleaning removal;Meanwhile the marine green algae for being also beneficial to clean pushes forward.

First conveyer belt includes upper foraminous conveyer and lower foraminous conveyer, the lower horizontal of the upper foraminous conveyer of the first conveyer belt Several aeration tubes are provided with, all aeration tubes are connected to high pressure gas generation device, on every aeration tube along its length It is uniformly provided with several stomatas.The bubble that the high pressure gas generation device of the utility model generates is quick upwards " play ", from sea When being passed through in the gap of foreign green alga, the alternate run of air-flow and flow makes flow wash away marine green algae, promotes ocean The separation of green alga and sundries, meanwhile, tiny frond can be made to floating, silt sinks.

The direction of rotation of the agitating shaft is consistent with the conveying direction of the first conveyer belt, the freedom of mixing component on agitating shaft The arc extending direction at end is opposite with the direction of rotation of agitating shaft.Just because of " free end of mixing component prolongs on agitating shaft It is opposite with the direction of rotation of agitating shaft to stretch direction " design so that enter stirring rod on water direction in mixing component and can play to break up Marine green algae, auxiliary remove the effect of the impurity such as silt, and the upward stirring rod of mixing component water side can be easily from ocean green Extract out, marine green algae will not be taken up in algae, after avoiding marine green algae from being taken up again with the lightweights such as the foam that is floated on the water surface Impurity mixes.

One end of the service sink is feed end, the other end is discharge end, and one end of the first conveyer belt is against service sink Feed end setting, the other end are connected with the second conveyer belt, and the second conveyer belt is also driven by power delivery unit, the second transmission Band tilts upward setting from service sink charging extreme direction to service sink direction of discharge, and the rear end of the second conveyer belt extends to cleaning Outside the discharge end in pond, the second conveyer belt is sieve conveyer belt, and the marine green algae cleaned up can be sent to clearly through the second conveyer belt Outside wash pool.In specific implementation process, it is fixedly installed charging guide plate on the inside of service sink feed end, charging guide plate is from clear Wash pool charging extreme direction to service sink direction of discharge is arranged diagonally downward, can be oriented to, avoid to the marine green algae of input Marine green algae falls into the gap between the first conveyer belt and service sink feed end madial wall.

Blow-off pipe is offered on the side wall of the service sink, upper blow-off pipe is located above the first conveyer belt.In service sink More clean water for cleaning close to upper layer can be flowed out by upper blow-off pipe, facilitate recycling;Meanwhile on the service sink water surface The sundries of floating can also have upper blow-off pipe to flow out, and be handled convenient for classification.During Concrete facts, the setting of upper blow-off pipe by On the service sink side wall of nearly service sink feed end.The marine green algae of service sink feed end is most dirty, and water herein is also most dirty, need and When be discharged.

Down blow pipe is offered on the side wall of the service sink, down blow pipe is located at below the first conveyer belt, convenient for heavy Product is drained in sundries such as the silts of bottom of pond.The bottom wall inner surface of the service sink is tilted along service sink length direction and is set upwards It sets, down blow mouth is positioned close on the service sink side wall of service sink feed end.Such design is the most reasonable, is conducive to deposit In the smooth outflow of the sundries such as the silt of bottom of pond.

It is provided with water inlet pipe above the service sink of service sink discharge end.When needing to be mended into service sink by water inlet pipe When water, the clean water filled into from water inlet pipe is flowed from service sink discharge end to service sink feed end, improves the utilization rate of clean water.

Several flush ports are provided on the side wall of service sink discharge end, flush port connect with high pressure water generation device, is convenient for The bottom of pond of service sink is washed away.

Spray equipment is provided with above second conveyer belt, spray equipment can carry out secondary flushing to marine green algae.

The Enteromorpha conveying cleaning equipment of the utility model further includes electric control system, power delivery unit, stirring power Device and high pressure gas generation device are connect with electric control system circuit, it can be achieved that entire marine green algae cleaning device Automation control.

All aeration tubes are arranged along service sink width direction uniform intervals, and every aeration tube is along the length side of service sink To laying, layout is the most reasonable.

All aeration tubes are laid between the upper foraminous conveyer of the first conveyer belt and lower foraminous conveyer.At this point, from exposure The bubble being discharged in the stomata of tracheae needs not move through the lower foraminous conveyer of the first conveyer belt, and resistance is small, the cleaning to marine green algae Effect is good, also, shortening bubble process makes the bubble bigger of flushing, promotion bubble carry the ability of sundries, and cleaning performance is more preferable.

It is provided with receiving hopper immediately below the end of second conveyer belt.The marine green algae cleaned up is fallen into receiving hopper.

Directly rotation is inserted on the service sink side wall of homonymy at the both ends of every agitating shaft.It is not necessary that agitating shaft support is arranged Frame, structure are simpler.

It is sequentially connected between the adjacent agitating shaft shaft end of the either side of the service sink, the agitating shaft of front end or rearmost end It is driven by stirring power device.

Description of the drawings

Fig. 1 is the perspective view of the utility model;

Fig. 2 is perspective view when the utility model removes transmission net;

Fig. 3 is the side perspective view of the utility model, wherein arrow A is the conveying direction of the first conveyer belt, and arrow B is The arc extending direction of the free end of mixing component on agitating shaft, arrow C are the direction of rotation of agitating shaft.

Specific implementation mode

The embodiment of the utility model is illustrated in conjunction with attached drawing:

A kind of Enteromorpha conveys cleaning equipment, including service sink 10 combined with Figure 1 and Figure 2, one end of the service sink 10 be into Expect that end, the other end are discharge end, self-cleaning pond feed end to service sink discharge end is sequentially connected setting the in the service sink 10 One conveyer belt 11 and the second conveyer belt 18, the first conveyer belt 11 and the second conveyer belt 18 are driven by power delivery unit 12 jointly, First conveyer belt 11 and the second transmission belt 18 are sieve conveyer belt, and the first conveyer belt 11 includes two first rotating shafts 111, two chains 112, several supporting rods 113, the second conveyer belt 18 include two second shafts 181, two chains 182, several supporting rods 183, first Conveyer belt 11 and the second conveyer belt 18 share a foraminous conveyer 100, which is tensioned to the close of the first conveyer belt 11 Between the shaft 181 of 10 discharge end of close service sink of the shaft 111 of 10 feed end of service sink and the second conveyer belt 18, second passes The rear end of band 18 is sent to extend to outside the discharge end of service sink 10.

During the work time, it discharges water into service sink 10;And start power delivery unit 12.By marine green algae to be cleaned On the first conveyer belt 11 out of service sink feed end input service sink 10, marine green algae is fed forward with foraminous conveyer, successively By the first conveyer belt 11, the second conveyer belt, finally unloaded automatically from the end of the second conveyer belt 18.Marine green algae is with transmission net During band 100 is fed forward, the heavier sundries such as silt and aquatic livestock corpse in marine green algae is from the first conveyer belt 11 Leak down with the second conveyer belt 18, is deposited on the bottom of pond of service sink 10;Light weight sundries in marine green algae move up, and float on clear On the water surface of wash pool 10.

Since first conveyer belt 11 of the utility model and the second conveyer belt 18 are driven by power delivery unit 12 jointly, make Obtaining the first conveyer belt 11 and the second conveyer belt 18 can run simultaneously, in addition, the first conveyer belt 11 and the second conveyer belt 18 share One foraminous conveyer 100, the foraminous conveyer 100 be tensioned to the shaft 111 of 10 feed end of close service sink of the first conveyer belt 11 with Between the shaft 181 of 10 discharge end of close service sink of second conveyer belt 18 so that the first conveyer belt 11 and the second conveyer belt 18 Junction be not present gap, avoid Enteromorpha the first conveyer belt 11 and 18 junction of the second conveyer belt accumulation.

Second conveyer 11 is horizontally disposed, and the second conveyer belt 18 feeds extreme direction to service sink 10 from service sink 10 and discharges Extreme direction tilts upward setting, and such design is the most reasonable, is conducive to clean Enteromorpha and is sent service sink 10.

First conveyer belt, 11 top is provided with several agitating shafts 13, every agitating shaft 13 along its conveying direction horizontal interval Width direction along service sink 10 is arranged, and each agitating shaft 13 is sequentially connected and is driven by same stirring power device 14 and is driven, often Several mixing components 15 are arranged in its axially spaced-apart of 13 upper edge of root agitating shaft, and each mixing component 15 is radiated by least 2 in spoke Shape is distributed in the composition of the arc stirring rod 151 outside agitating shaft 13.The utility model is stirred by being arranged above the first conveyer belt 11 Device is mixed, and using " the every several mixing components 15 of 13 upper edge of agitating shaft its axially spaced-apart setting, each mixing component 15 is by extremely Few 2 form in radiation profiles in the stirring rod 151 outside agitating shaft 13 " special agitating device structure, which can be right Marine green algae is broken up, and is conducive to carry out effective cleaning removal to the sundries in marine green algae;Meanwhile it being also beneficial to clean The marine green algae crossed pushes forward.

First conveyer belt 11 includes upper foraminous conveyer 114 and lower foraminous conveyer 115, the upper foraminous conveyer of the first conveyer belt 11 114 lower horizontal is provided with several aeration tubes 16, and all aeration tubes 16 are connected to high pressure gas generation device 17, every exposure Several stomatas 161 are uniformly provided on tracheae 16 along its length.The high pressure gas generation device 17 of the utility model generates Bubble quickly upwards " play ", from the gap of marine green algae pass through when, the alternate run of air-flow and flow makes flow pair Marine green algae is washed away, and the separation of marine green algae and sundries is promoted, meanwhile, tiny frond can be made to floating, silt sinks.

Certainly, the quantity of agitating shaft is not limited to 3 in attached drawing in service sink of the invention, and the quantity of agitating shaft can As needed and the length of service sink makes rational adjustment;The quantity of mixing component 15 also limits on the every agitating shaft of the present invention It 3 in attached drawing, can be adjusted as needed;The number of stirring rod 151 contained by each mixing component 15 of the present invention Amount is also not necessarily limited to 2 in attached drawing;The shape of the stirring rod 151 of the present invention is not limited to the arc in attached drawing;The exposure of the present invention The quantity of tracheae is also not necessarily limited to 3 in attached drawing, can be adjusted as needed;In addition, 13 axis of adjacent agitating shaft of the present invention Drive connection mode between end is not limited to the worm gear drive in attached drawing, and gear drive, key transmission etc. can also be used common The kind of drive.

The utility model can also do following improvement:

(1)As shown in figure 3, the direction of rotation of the agitating shaft 13 is consistent with the conveying direction of the first conveyer belt 11, stirring The arc extending direction of the free end of mixing component 15 is opposite with the direction of rotation of agitating shaft 13 on axis 13.Just because of " stirring The direction of rotation of extending direction with agitating shaft 13 of the free end of mixing component 15 is opposite on axis 13 " design so that stirring Component 15, which enters stirring rod 151 on water direction, can play the role of breaing up marine green algae, and auxiliary removes the impurity such as silt, and is stirring The upward stirring rod of 15 water side of component 151 can be extracted out easily from marine green algae, will not be taken up marine green algae, be avoided ocean green Algae mixes with light impurities such as the foams that is floated on the water surface again after being taken up;

(2)As shown in Figure 1, Figure 2, Figure 3 shows, one end of the service sink 10 is feed end, the other end is discharge end, and first passes One end of band 11 is sent to be connected with the second conveyer belt 18, the second conveyer belt against the feed end setting of service sink 10, the other end 18 are also driven by power delivery unit 12, and the second conveyer belt 18 feeds extreme direction to 10 direction of discharge of service sink from service sink 10 Setting is tilted upward, the rear end of the second conveyer belt 18 extends to outside the discharge end of service sink 10, and the second conveyer belt 18 passes for sieve Band is sent, the marine green algae cleaned up can be sent to through the second conveyer belt 18 outside service sink 10.Certainly, the utility model can also Be not provided with the second conveyer belt 18, at this point, be delivered to the clean marine green algae of 12 discharge end of the first transmission belt through manually take out into Enter next process.In specific implementation process, as shown in Figure 1 and Figure 2, be fixedly installed on the inside of 10 feed end of service sink into Expect that guide plate 20, charging guide plate 20 feed extreme direction to 10 direction of discharge of service sink from service sink 10 and be arranged diagonally downward, The marine green algae of input can be oriented to, marine green algae is avoided to fall into the first conveyer belt 11 and 10 feed end madial wall of service sink Between gap.Certainly, charging guide plate 20 can not also be arranged in the utility model(As shown in Figure 3).When same in service sink 10 When being laid with the first conveyer belt 11 and the second conveyer belt 18, in order to avoid marine green algae is deposited in the first conveyer belt 11 and second In the gap of 18 junction of conveyer belt, the first conveyer belt 11 and the second transmission belt 18 can be used such as lower structure:Combined with Figure 1 and Figure 2, First conveyer belt 11 of the utility model includes two first rotating shafts 111, two chains 112, several supporting rods 113;Second conveyer belt 18 include two second shafts 181, two chains 182, several supporting rods 183;First conveyer belt 11 and the second conveyer belt 18 share one Foraminous conveyer 100, the foraminous conveyer 100 are tensioned to the shaft 111 and of 10 feed end of close service sink of the first conveyer belt 11 Between the shaft 181 of 10 discharge end of close service sink of two conveyer belts 18(As shown in Figure 3).Certainly, the first conveyer belt 11 and Transmission net 100 can also be individually arranged in two conveyer belts 18.Two first rotating shafts 111, two chains, 112 and in first conveyer belt 11 Connection structure between several supporting rods 113 is the prior art, two second shafts 181, two chains 182 in the second conveyer belt 18 Connection structure between several supporting rods 183 is also the prior art;

(3)As shown in Figure 1, Figure 2, Figure 3 shows, blow-off pipe 21, upper blow-off pipe 21 are offered on the side wall of the service sink 10 Above the first conveyer belt 11.More clean water for cleaning in service sink 10 close to upper layer can be flowed by upper blow-off pipe 21 Go out, facilitates recycling;Meanwhile the sundries floated on 10 water surface of service sink can also have the outflow of upper blow-off pipe 21, convenient for classification Processing.During Concrete facts, as shown in Figure 1, Figure 2, Figure 3 shows, upper blow-off pipe 21 is positioned close to 10 feed end of service sink On 10 side wall of service sink.The marine green algae of 10 feed end of service sink is most dirty, and water herein is also most dirty, needs to be discharged in time;

(4)As shown in Figure 1, Figure 2, Figure 3 shows, down blow pipe 22, down blow pipe 22 are offered on the side wall of the service sink 10 Positioned at the lower section of the first conveyer belt 11, drained convenient for sundries such as silts to being deposited on bottom of pond.The bottom wall of the service sink 10 20 inner surfaces are obliquely installed upwards along 10 length direction of service sink, and down blow mouth 22 is positioned close to the clear of 10 feed end of service sink On 10 side wall of wash pool.Such design is the most reasonable, is conducive to the smooth outflow of the sundries such as the silt for being deposited on bottom of pond;

(5)As shown in Figure 1 and Figure 2, it is provided with water inlet pipe 23 close to 10 top of the service sink of 10 discharge end of service sink.When need It will be by water inlet pipe 23 into service sink 10 when moisturizing, from the clean water that water inlet pipe 23 fills into from 10 discharge end of service sink to cleaning Pond 10 feed end flowing, improves the utilization rate of clean water;

(6)As shown in Figure 1, Figure 2, Figure 3 shows, several flush ports 24, flush port are provided on the side wall of 10 discharge end of service sink 24 connect with high pressure water generation device 25, are washed away convenient for the bottom of pond to service sink 10;

(7)As shown in Figure 1, Figure 2, Figure 3 shows, 18 top of the second conveyer belt is provided with spray equipment 25, and spray equipment 25 can be right Marine green algae carries out secondary flushing;

(8)As shown in Figure 1, Figure 2, Figure 3 shows, the Enteromorpha conveying cleaning equipment of the utility model further includes electric control system 26, power delivery unit 12, stirring power device 14 and high pressure gas generation device 17 connect with 26 circuit of electric control system Connect the automation control, it can be achieved that entire marine green algae cleaning device;

(9)As shown in Fig. 2, all aeration tubes 16 are arranged along 10 width direction uniform intervals of service sink, and every aeration tube 16 lay along the length direction of service sink 10, and layout is the most reasonable;

(10)As shown in Figure 1, the upper foraminous conveyer 114 that all aeration tubes 16 are laid in the first conveyer belt 11 is defeated under It send between guipure 115.At this point, being needed not move through from the bubble being discharged in the stomata 161 of aeration tube 16 defeated under first conveyer belt 11 Guipure 115 is sent, resistance is small, good to the cleaning performance of marine green algae, also, shortening bubble process makes the bubble bigger of flushing, promotees The ability of sundries is carried into bubble, cleaning performance is more preferable.Certainly, all aeration tubes 16 can also be laid in the first transmission belt 11 The lower section of lower foraminous conveyer 115;

(11)As shown in FIG. 1 to 3, it is provided with receiving hopper 27 immediately below the end of the second conveyer belt 18.It cleans up Marine green algae fall into receiving hopper 27;

(12)As shown in FIG. 1 to 3, the both ends of every agitating shaft 13 directly rotate 10 side of service sink for being inserted in homonymy On wall.Shaft supporting frame is stirred without being arranged, structure is simpler.Certainly, agitating shaft 13 can also be set up in positioned at agitating shaft both ends Stirring shaft supporting frame on;

(13)It is sequentially connected between 13 shaft end of adjacent agitating shaft of the either side of the service sink 10, front end or rearmost end Agitating shaft 13 driven by stirring power device 14.

Claims (10)

1. a kind of Enteromorpha conveys cleaning equipment, including service sink, one end of the service sink is feed end, the other end is discharging It holds, self-cleaning pond feed end to service sink discharge end is sequentially connected the first conveyer belt of setting and the second transmission in the service sink Band, it is characterised in that:First conveyer belt and the second conveyer belt are driven by power delivery unit jointly, and the first conveyer belt and second passes Dynamic band is sieve conveyer belt, and the first conveyer belt includes two first rotating shafts, two chains, several supporting rods, and the second conveyer belt includes Two second shafts, two chains, several supporting rods, the first conveyer belt and the second conveyer belt share a foraminous conveyer, the foraminous conveyer It is tensioned to the shaft of the shaft of the close service sink feed end of the first conveyer belt and the close service sink discharge end of the second conveyer belt Between.

2. a kind of Enteromorpha according to claim 1 conveys cleaning equipment, it is characterised in that:It is defeated along its above first conveyer belt Direction horizontal interval is sent to be provided with several agitating shafts, every agitating shaft is arranged along the width direction of service sink, and each agitating shaft passes Dynamic connection is simultaneously driven by the driving of same stirring power device, the every several mixing components of agitating shaft upper edge its axially spaced-apart setting, Each mixing component is formed in spoke radial distribution in the arc stirring rod outside agitating shaft by least 2.

3. a kind of Enteromorpha according to claim 1 conveys cleaning equipment, it is characterised in that:It is opened on the side wall of the service sink Equipped with upper blow-off pipe, upper blow-off pipe is located above the first conveyer belt.

4. a kind of Enteromorpha according to claim 2 conveys cleaning equipment, it is characterised in that:Upper blow-off pipe is positioned close to clearly On the service sink side wall of wash pool feed end.

5. a kind of Enteromorpha according to claim 1 conveys cleaning equipment, it is characterised in that:It is opened on the side wall of the service sink Equipped with down blow pipe, down blow pipe is located at below the first conveyer belt.

6. a kind of Enteromorpha according to claim 4 conveys cleaning equipment, it is characterised in that:Table in the bottom wall of the service sink Face is obliquely installed upwards along service sink length direction, and down blow mouth is positioned close on the service sink side wall of service sink feed end.

7. a kind of Enteromorpha according to claim 1 conveys cleaning equipment, it is characterised in that:It is provided with above second conveyer belt Spray equipment.

8. a kind of Enteromorpha according to claim 1 conveys cleaning equipment, it is characterised in that:The end of second conveyer belt is just Lower section is provided with receiving hopper.

9. a kind of Enteromorpha according to claim 2 conveys cleaning equipment, it is characterised in that:The both ends of every agitating shaft are straight Switch through dynamic be inserted on the service sink side wall of homonymy.

10. a kind of Enteromorpha according to claim 2 conveys cleaning equipment, it is characterised in that:The either side of the service sink Adjacent agitating shaft shaft end between be sequentially connected, the agitating shaft of front end or rearmost end is driven by stirring power device.