CN109531241B - Comprehensive device for processing and recycling sheet material for building power plant - Google Patents

Abstract

The utility model provides a processing and recovery integrated device of sheet material for power plant's construction, includes cutting unit, falls miscellaneous net and send the board unit, the discharge gate that sends the board unit communicates with each other with cutting unit's feed inlet, cutting unit includes a plurality of rectangular supporting seats that the structure is unanimous, is provided with the interholder clamp space between the adjacent rectangular supporting seat, and rectangular supporting seat, interholder clamp space are just right to setting up with falling miscellaneous net under, and the both ends that fall miscellaneous net are connected with a reciprocating sliding sleeve respectively, are provided with the reciprocal slide bar of relative slip in the reciprocating sliding sleeve, are provided with the top lug roller under the miscellaneous net that falls, and the cross section of top lug roller includes big arc head end, little arc head end and well changeover portion, and the inner of big arc head end is connected through the inner of well changeover portion with little arc head end, and the diameter of big arc head end is greater than the diameter of little arc head end, and the middle part of. This design not only the adjustability is stronger, maintenance cost is lower, and the piece is collected the effect better moreover, recycle is higher.

Description

Comprehensive device for processing and recycling sheet material for building power plant

Technical Field

The invention relates to a production device of a sheet material for power plant construction, belongs to the field of power equipment, and particularly relates to a comprehensive device for processing and recovering the sheet material for power plant construction.

Background

The existing thermal power plant needs to use a large amount of steel structural members, such as a tower crane shell, a power generation boiler support, a pipe truss and the like, wherein girders with H-shaped structures and field-shaped structures are most common, and the original plates need to be subjected to technological operations such as blanking, plate shearing, small plate punching, welding, correcting, grinding or paint spraying in the process of manufacturing the girders, wherein the plates need to be cut when blanking and plate shearing are carried out.

In the prior art, when a plate is cut, cutting operation is required, and the cutting mode generally comprises four modes of numerical control plasma cutting, numerical control flame cutting, numerical control water pressure cutting and numerical control aurora cutting. When cutting, the metal sheet to be processed needs to be laid on a certain platform, and a recovery device is arranged at the bottom of the platform to collect the broken pieces or scraps generated during cutting so as to prevent the broken pieces or scraps from obstructing the normal operation of the cutting operation.

However, in the prior art, the whole metal plate with holes (as a cutting platform) and the whole backing plate (as a scrap recycling device) are mostly adopted, and the defects are as follows:

firstly, the cutting platform is heavy in structure, large in mass, high in manufacturing and maintenance cost, and difficult to adjust the position according to the field requirements of application due to no adjustability;

secondly, the effect is collected to piece recovery unit's piece is relatively poor, easily leads to the piece to produce the hindrance to the processing operation, and does not possess the recycle effect.

The information disclosed in this background section is only for enhancement of understanding of the general background of the patent application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to overcome the defects and problems of poor adjustability, high maintenance cost and poor scrap collecting effect in the prior art, and provides a comprehensive device for processing and recovering plates for power plant construction, which has the advantages of high adjustability, low maintenance cost and good scrap collecting effect.

In order to achieve the above purpose, the technical solution of the invention is as follows: a comprehensive device for processing and recovering plates for building a power plant comprises a cutting unit, a impurity dropping net and a plate conveying unit, wherein a discharge hole of the plate conveying unit is communicated with a feed hole of the cutting unit, a metal plate is arranged on the top surface of the cutting unit, and the impurity dropping net is arranged right below the cutting unit;

the cutting unit comprises a plurality of strip-shaped supporting seats with the same structure, the adjacent strip-shaped supporting seats are parallel to each other, an inter-seat clearance is arranged between the adjacent strip-shaped supporting seats, and the positions right below the inter-seat clearance and the top surface of the impurity falling net are arranged oppositely; the strip supporting seat comprises a strip base body, a first lifting device, a second lifting device and a plurality of supporting monomers, the supporting monomers comprise a metal ball and a plastic ball seat, the top end of the plastic ball seat is connected with the bottom end of the metal ball, the bottom end of the plastic ball seat is connected with the top of the strip base body, and two ends of the strip base body are respectively connected with the top output ends of the first lifting device and the second lifting device;

two ends of the impurity dropping net are respectively connected with a reciprocating sliding sleeve, a reciprocating sliding rod in sliding fit with the reciprocating sliding sleeve is arranged inside the reciprocating sliding sleeve, an upper top lug roller is arranged right below the bottom surface of the impurity dropping net, an impurity conveying device is arranged right below the upper top lug roller, and a discharge hole of the impurity conveying device is communicated with a feed inlet of the recovery unit; the cross section of the upper top lug roller comprises a large arc head end, a small arc head end and a middle transition section, the inner end of the large arc head end is connected with the inner end of the small arc head end through the middle transition section, the diameter of the large arc head end is larger than that of the small arc head end, and a roller rotating rod is arranged in the middle of the large arc head end.

The top end of the plastic ball seat is provided with an inwards concave ball socket, and the inner wall of the ball socket is connected with the bottom end of a metal ball inside the ball socket.

The strip-shaped substrate is of a hollow structure, a coaxial strip-shaped cavity is formed in the strip-shaped substrate, one end of the strip-shaped cavity is flush with the end face of the strip-shaped substrate, and the other end of the strip-shaped cavity is connected with the air inlet pipe head; the plastics ball seat includes spherical surface portion and fixed part, spherical surface portion's side wall is the spherical surface structure, has seted up a plurality of bleeder vents on spherical surface portion's the side wall, and spherical surface portion's top is connected with the bottom of metal ball, and spherical surface portion's bottom is connected with the top of fixed part, and the bottom of fixed part is worn to contact with rectangular cavity behind the top surface of rectangular base member, spherical surface portion's inside seted up with the communicating spherical cavity of bleeder vent, fixed cavity has been seted up to the inside of fixed part, and the spherical cavity is linked together with rectangular cavity behind the fixed cavity.

The spherical cavity comprises a hemispherical cavity and a frustum cavity, the bottom end of the hemispherical cavity is communicated with the top end of the fixed cavity after passing through the frustum cavity, the top end of the frustum cavity is wider than the bottom end of the frustum cavity, and the air holes are formed along the joint line of the hemispherical cavity and the frustum cavity.

The two ends of the long strip base body are respectively connected with the interiors of a first driving bearing and a second driving bearing, the exterior of the first driving bearing is connected with the top output end of a first lifting device, the exterior of the second driving bearing is connected with the top output end of a second lifting device, the bottom ends of the first lifting device and the second lifting device are vertically connected with the top surface of a horizontal sliding block, and the two side parts of the horizontal sliding block are in sliding fit along a horizontal sliding chute; the bottom of horizontal spout is connected with sliding bottom's top surface, and sliding bottom's inside recess and the lateral part that is located its inside horizontal slider of horizontal spout carry out sliding fit, and horizontal slider, inside recess all are higher than sliding bottom and set up, and sliding bottom's centre position evenly is provided with a plurality of bottom plate holes along its axial, runs through on the horizontal slider and sets up the slider hole corresponding with the bottom plate hole.

The impurity transporting device comprises an impurity transporting crawler belt, a left impurity transporting roller and a right impurity transporting roller, wherein two ends of the impurity transporting crawler belt are respectively wrapped on the roller surfaces of the left impurity transporting roller and the right impurity transporting roller, a plurality of impurity transporting partition strips are uniformly arranged on the outer side surface of the impurity transporting crawler belt, the bottoms of the impurity transporting partition strips are vertically connected with the outer side surface of the impurity transporting crawler belt, adjacent impurity transporting partition strips are parallel to each other, and the adjacent impurity transporting partition strips and the impurity transporting crawler belt positioned between the adjacent impurity transporting partition strips form an impurity transporting box.

The recovery unit comprises a recovery upper baffle, a recovery outer side baffle, a recovery left lower inclined baffle and a recovery right lower inclined baffle, the recovery left lower inclined baffle and the recovery right lower inclined baffle are both arc-shaped plate structures, and arc-shaped bulges of the recovery left lower inclined baffle and the recovery right lower inclined baffle are arranged oppositely; retrieve the top of oblique baffle under the left side and articulate with tail scavenging pipe's bottom, the bottom surface setting of the outer end of the nearly right miscellaneous roller of fortune of tail scavenging pipe's top gas outlet, the inner setting of the nearly recovery overhead gage of top surface of the outer end of the miscellaneous roller of right side fortune, the outer end of retrieving the overhead gage is connected with the top of retrieving the outside baffle perpendicularly, the bottom of retrieving the outside baffle is connected with the top of retrieving oblique baffle under the right side, the bottom of retrieving oblique baffle under the right side is connected with the bottom of retrieving oblique baffle under the left side through retrieving the ring, and retrieve oblique baffle under the left side, retrieve the ring, it encloses into a recovery bottom chamber to retrieve oblique baffle under the right side.

An inclined scavenging pipe which is obliquely arranged is arranged on the recovery upper baffle, and an air outlet of the inclined scavenging pipe is arranged towards the outer end of the right impurity conveying roller; the middle part of retrieving the overhead gage is provided with the pipe and rotates the seat, the scavenging pipe is located the miscellaneous roller of right fortune to one side, the pipe rotates between the seat, the middle part of pipe rotation seat is run through and has been crossed and have a section of thick bamboo, the top of this section of thick bamboo of rotating is higher than retrieving the overhead gage setting, coaxial intraductal lumen in the section of thick bamboo is seted up to the inside of a section of thick bamboo that rotates, the bottom of a section of thick bamboo then downwardly extending to retrieve the overhead gage under, the bottom of a section of thick bamboo is connected with the top surface that rotates the gas seat, the gas seat chamber has been seted up to the inside of rotating the gas seat, the bottom surface that rotates the gas seat is the arc structure of indent, evenly be provided with a plurality of rotation trachea on the bottom surface of rotating the gas seat, this bottom that rotates tracheal bottom and is located.

Retrieve outside baffle and include upper segment curb plate, middle section air film and hypomere curb plate, the top of upper segment curb plate is connected with the outer end of retrieving the overhead gage, and the bottom of upper segment curb plate is connected with the top of middle section air film through last air film seat, and the bottom of middle section air film is connected with the top of hypomere curb plate through lower air film seat, and the bottom of hypomere curb plate is connected with the top of retrieving the oblique baffle under the right side.

The bottom of the ring surface of the recovery ring is connected with the top surface of the metal mesh frame, the bottom surface of the metal mesh frame is arranged right opposite to the top end of the recovery insulating strip positioned right below the metal mesh frame, the number of the recovery insulating strips is at least three, every two adjacent recovery insulating strips are parallel to each other, the bottom ends of the recovery insulating strips are arranged right opposite to the top surface of the metal bottom plate, the metal bottom plate is parallel to the metal mesh frame, and the metal bottom plate and the metal mesh frame are respectively connected with two poles of the static generator.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention relates to a processing and recycling comprehensive device of a plate material for building a power plant, wherein a cutting unit used as a cutting platform comprises a plurality of strip supporting seats with consistent structures, each strip supporting seat comprises a lifting device and a plurality of supporting monomers, each strip supporting seat can do transverse motion and vertical motion when in use, the distribution density of the cutting unit on the whole can be adjusted, and the device is also suitable for processing a metal plate with a curved surface or a cambered surface, meanwhile, each strip supporting seat comprises a plurality of supporting monomers, once the strip supporting seat is damaged, the corresponding supporting monomers can be directly maintained or replaced, the maintenance cost is greatly reduced, in addition, relative sliding of a reciprocating sliding sleeve and a reciprocating sliding rod can enable a impurity falling net to do front-and-back motion, and the rotation of an upper top lug roller which does reciprocating motion along the horizontal direction can continuously lift and lower the impurity falling net to make the upper impurity net do vertical motion, and then make the miscellaneous net utensil that falls possess the reciprocating motion of level, vertical two directions, the reinforcing is to falling into the clastic vibration effect in the miscellaneous net that falls, does benefit to it and falls into fortune miscellaneous device, improves the piece and collects efficiency. Therefore, the invention not only has stronger adjustability and lower maintenance cost, but also has better debris collecting effect and higher recovery utilization rate.

2. The invention relates to a processing and recycling integrated device for a sheet material for building a power plant, wherein a supporting single body comprises a metal ball and a plastic ball seat, the top end of the plastic ball seat is connected with the bottom end of the metal ball, and the bottom end of the plastic ball seat is connected with the top of a long-strip base body, and the integrated device has the advantages that: firstly, the metal balls are in direct contact with the metal plate, and even if the metal balls are damaged, only one metal ball needs to be replaced, the whole supporting monomer does not need to be replaced, so that the maintenance is easy, and the cost is low; secondly, even if the plastic ball seat is damaged and needs to be replaced, the manufacturing material is plastic, and the cost is lower than that of metal; thirdly, the material of plastics ball seat makes it compare with the metal material, possesses stronger elasticity, can cushion the cutting operation and to whole support free impact, reduces impaired probability, especially when the ball socket of indent is seted up on the top of plastics ball seat, and the effect is better, on this basis, if set up the buffering body again, then the effect is better, not only does benefit to the protection plastics ball seat, also does benefit to the protection metal ball. Therefore, the invention has the advantages of lower manufacturing and maintenance cost, higher safety and lower breakage rate.

3. In the processing and recycling integrated device for the sheet material for building the power plant, the strip-shaped substrate is internally provided with the strip-shaped ventilating cavity, the spherical surface part and the fixed part of the plastic ball seat are respectively provided with the spherical cavity and the fixed cavity, and the ventilating holes arranged on the side periphery of the spherical surface part are communicated with the strip-shaped cavity after sequentially passing through the spherical cavity and the fixed cavity, so that the processing and recycling integrated device has the advantages that: firstly, the gas can be sprayed out of the air holes, so that the cutting part can be cooled, the deformation of the metal plate can be reduced, the temperature of chips in cutting can be reduced, and the long-strip supporting seat can be prevented from being damaged; secondly, the gas can blow away the scraps generated during cutting in time, so that the normal cutting is prevented from being hindered, the scraps are favorably conveyed into a impurity falling net at the lowest part and are convenient to recover, and particularly, when the air holes are arranged along the joint line of the hemispherical cavity and the frustum cavity, the effect is better; thirdly, the outside of metal ball is enclosed and is the sphere, and the outside of sphere portion is enclosed and also is the sphere, and the diameter of sphere portion is greater than the metal ball, and the design of two spheres not only does benefit to clastic scattering and whereabouts and retrieves, enables moreover that the probability that the piece falls on the metal ball is less than the probability that falls on sphere portion, realizes the priority of protection metal ball, and sphere portion is because the volume is bigger than the metal ball, possesses stronger endurance loss, simultaneously, its plastics material also is convenient for maintain, and the cost is also low. Therefore, the invention is not only beneficial to improving the cutting quality and recovering the scraps, but also has higher safety and lower maintenance cost.

4. The invention relates to a processing and recycling comprehensive device for sheet materials for building a power plant, wherein the bottom ends of a first lifting device and a second lifting device are vertically connected with the top surface of a horizontal sliding block, and two side parts of the horizontal sliding block are in sliding fit along a horizontal sliding chute respectively. Therefore, the invention not only has stronger adjustability, but also has higher precision.

5. The invention relates to a processing and recycling comprehensive device for plates for building a power plant, wherein two ends of an impurity conveying crawler in an impurity conveying device are respectively wrapped on the surfaces of a left impurity conveying roller and a right impurity conveying roller, a plurality of impurity conveying partition strips are uniformly arranged on the outer side surface of the impurity conveying crawler, and adjacent impurity conveying partition strips and the impurity conveying crawler positioned between the two impurity conveying partition strips form an impurity conveying box. Therefore, the invention not only can avoid the secondary scattering of the fragments, but also is beneficial to the fragments to enter the recovery unit.

6. The invention relates to a processing and recovering integrated device for a sheet material for building a power plant, wherein a recovering unit comprises a recovering upper baffle, a recovering outer side baffle, a recovering left lower inclined baffle and a recovering right lower inclined baffle, the top end of the recovering left lower inclined baffle is hinged with the bottom end of a tail scavenging pipe, the top end air outlet of the tail scavenging pipe is arranged near the bottom surface of the outer end of a right transporting miscellaneous roller, the top surface of the outer end of the right transporting miscellaneous roller is arranged near the inner end of the recovering upper baffle, and the recovering left lower inclined baffle, a recovering ring and the recovering right lower inclined baffle enclose a recovering bottom cavity together, and the device has the advantages that: firstly, the scraps in the impurity transporting box fall into the recovery unit under the action of gravity, and the airflow ejected by the tail scavenging pipe can perform airflow cleaning on the impurity transporting box near the right impurity transporting roller, so that the efficiency of the scraps falling into the recovery unit is improved; secondly, the tail scavenging pipe can rotate around the joint of the tail scavenging pipe and the recovery left lower inclined baffle plate so as to improve the scavenging efficiency; and thirdly, the left lower inclined baffle and the right lower inclined baffle are recovered to form a right arc-shaped plate, so that the scraps falling onto the left lower inclined baffle can slide down to the recovery bottom cavity. Therefore, the cleaning device has better cleaning effect and is beneficial to improving the recovery effect of the scraps.

7. In the processing and recovery integrated device for the sheet material for building the power plant, the recovery upper baffle is provided with the inclined scavenging pipes which are obliquely arranged, and when the device is applied, the inclined scavenging pipes and the tail scavenging pipes are cooperated with each other, so that the device has the advantages that: firstly, the double air pipes can further enhance the cleaning effect, and are beneficial to the scraps in the impurity conveying box to enter the recovery bottom cavity; secondly, the angle of adjustment tail scavenging pipe, the reflection takes place for the outer terminal surface of the miscellaneous roller of right fortune for the air current that makes its jetted out, the bottom chamber is retrieved for the orientation to the direction of reflection, and simultaneously, oblique scavenging pipe just sets up for the slope originally, the reflection also can take place for the outer terminal surface of the miscellaneous roller of right fortune for the air current that it jetted out, the bottom chamber is also retrieved to the orientation of reflection, and at this moment, not only clean the effect and obtained the promotion, and under the effect of two strands of reflection air currents, the piece that is cleared away also changes in the motion to retrieving the bottom chamber, the reinforcing effect of retrieving. Therefore, the invention can improve the recovery effect by double reflection airflow.

8. The invention relates to a processing and recycling integrated device for a plate material for building a power plant, wherein the middle part of a pipe rotating seat arranged in the middle part of a recycling upper baffle plate penetrates through a rotating cylinder, a plurality of rotating air pipes are arranged on the bottom surface of an inwards concave arc line of a rotating air seat connected with the bottom end of the rotating cylinder, and the top ends of the rotating air pipes are communicated with the bottom end of an inner pipe cavity of the cylinder through an air seat cavity. Therefore, the invention not only has stronger recovery effect, but also has higher uniformity of the recovered scraps.

9. According to the processing and recovery integrated device for the sheet material for building the power plant, the recovery outer side baffle comprises the upper section side plate, the middle section gas film and the lower section side plate, when the device is applied, the middle section gas film is pulled inside and outside, airflow in a new direction can be generated in the recovery unit, the airflow can not only enhance the cleaning effect of the gas in the recovery unit, but also avoid dead corners, and the maximum recovery effect of scraps is ensured. Therefore, the invention has stronger recovery effect and no recovery dead angle.

10. The invention relates to a processing and recovery integrated device for plates for building a power plant, wherein the bottom of the ring surface of a recovery ring is connected with the top surface of a metal mesh frame, the bottom surface of the metal mesh frame is arranged opposite to the top end of a recovery insulating strip positioned right below the metal mesh frame, the bottom end of the recovery insulating strip is arranged opposite to the top surface of a metal bottom plate, when the device is applied, the metal bottom plate and the metal mesh frame are respectively connected with two poles of an electrostatic generator, an electric field is generated between the metal bottom plate and the metal mesh frame, under the action of the electric field, the scraps falling on the metal mesh frame move to the metal bottom plate, with the bits are planted to the static that realizes being similar to the static flocking on metal soleplate, the piece of implanting generates the composite sheet that contains metal with retrieving insulated strip, metal soleplate in the lump, is convenient for reuse, and the concrete structure of composite sheet can be adjusted according to the different overall arrangements of retrieving the insulated strip on metal soleplate. Therefore, the invention not only has stronger recycling effect, but also can generate metal composite plates with various structures.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a plan view of the cutting unit and the plate feeding unit in fig. 1.

Fig. 3 is a schematic structural view of the cutting unit of fig. 2.

Fig. 4 is a side view of the elongate support base of fig. 3.

Fig. 5 is a top view of the horizontal slider and its corresponding horizontal runner of fig. 4.

Fig. 6 is a bottom view of fig. 5.

Fig. 7 is a bottom view of the litter box of fig. 1.

Fig. 8 is a schematic structural view of the upper top bump roller of fig. 1.

Fig. 9 is a schematic structural view of the impurity transporting device in fig. 1.

Fig. 10 is a top view of the impurity carrying baffle of fig. 9.

Fig. 11 is a schematic view of the structure of the recovery unit of fig. 1.

Fig. 12 is a top view of the metal sole plate of fig. 11.

In the figure: the device comprises a metal plate 1, a cutting unit 2, an elongated support base 21, an inter-base space 211, an elongated base 22, an elongated cavity 221, an air inlet pipe head 222, a fixing groove 223, a support single body 23, a first lifting device 24, a first drive bearing 241, a horizontal sliding block 242, a horizontal sliding chute 243, a sliding bottom plate 244, a bottom plate hole 245, a sliding block hole 246, an internal groove 247, a second lifting device 25, a second drive bearing 251, a metal ball 26, a buffer body 261, a plastic ball seat 27, a ball socket 271, an air vent 272, a spherical surface portion 28, a spherical surface cavity 281, a hemispherical cavity 282, a conical frustum cavity, a fixing portion 29, a fixing cavity 291, a sundry falling net 3, a reciprocating sliding sleeve 31, a reciprocating sliding rod 311, an upper top bump roller 32, a large arc head end 321, a small arc head end 322, a middle transition section 323, a roller rotating rod 283, a sundry conveying device 33, a longitudinal net strip 34, a longitudinal net 35, a first inclined rib 351, a, The device comprises a sundry conveying partition strip 361, a sundry conveying box 362, a sundry conveying baffle 363, a left sundry conveying roller 37, a right sundry conveying roller 38, a recovery unit 4, a recovery upper baffle 41, an inclined scavenging pipe 411, an inclined tail included angle 412, a recovery outer baffle 42, an upper section side plate 421, a middle section air film 422, a lower section side plate 423, an upper air film seat 424, a lower air film seat 425, a recovery left lower inclined baffle 43, a tail scavenging pipe 431, a recovery right lower inclined baffle 44, a recovery bottom cavity 441, a recovery ring 45, a ring surface 451, a pipe rotating seat 46, a rotating cylinder 461, a cylinder inner cavity 462, a rotating air seat 463, an air seat cavity 464, a rotating air pipe 465, a metal net frame 47, a recovery insulating strip 48, a metal bottom plate 49, a plate conveying unit 5, a plate conveying empty groove 51 and a conveying plate pushing hand 52.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 12, the comprehensive device for processing and recovering the sheet material for building the power plant comprises a cutting unit 2, a impurity dropping net 3 and a plate conveying unit 5, wherein a discharge hole of the plate conveying unit 5 is communicated with a feed hole of the cutting unit 2, a metal sheet material 1 is arranged on the top surface of the cutting unit 2, and the impurity dropping net 3 is arranged right below the cutting unit 2;

the cutting unit 2 comprises a plurality of strip supporting seats 21 with the same structure, the adjacent strip supporting seats 21 are parallel to each other, an inter-seat clearance 211 is arranged between the adjacent strip supporting seats 21, and the positions right below the strip supporting seats 21 and the inter-seat clearance 211 are opposite to the top surface of the impurity falling net 3; the long strip supporting seat 21 comprises a long strip base body 22, a first lifting device 24, a second lifting device 25 and a plurality of supporting single bodies 23, each supporting single body 23 comprises a metal ball 26 and a plastic ball seat 27, the top end of each plastic ball seat 27 is connected with the bottom end of the metal ball 26, the bottom end of each plastic ball seat 27 is connected with the top of the long strip base body 22, and the two ends of the long strip base body 22 are respectively connected with the top output ends of the first lifting device 24 and the second lifting device 25;

the two ends of the impurity falling net 3 are respectively connected with a reciprocating sliding sleeve 31, a reciprocating sliding rod 311 which is in sliding fit with the reciprocating sliding sleeve 31 is arranged inside the reciprocating sliding sleeve 31, an upper top bump roller 32 is arranged right below the bottom surface of the impurity falling net 3, an impurity conveying device 33 is arranged right below the upper top bump roller 32, and a discharge hole of the impurity conveying device 33 is communicated with a feed hole of the recovery unit 4; the cross section of the upper top bump roller 32 comprises a large arc head end 321, a small arc head end 322 and a middle transition section 323, the inner end of the large arc head end 321 is connected with the inner end of the small arc head end 322 through the middle transition section 323, the diameter of the large arc head end 321 is larger than that of the small arc head end 322, and a roller rotating rod 324 is arranged in the middle of the large arc head end 321.

The top end of the plastic ball seat 27 is provided with a concave ball socket 271, and the inner wall of the ball socket 271 is connected with the bottom end of the metal ball 26 inside the ball socket 271.

The strip-shaped substrate 22 is of a hollow structure, a coaxial strip-shaped cavity 221 is formed in the strip-shaped substrate 22, one end of the strip-shaped cavity 221 is flush with the end face of the strip-shaped substrate 22, and the other end of the strip-shaped cavity 221 is connected with the air inlet pipe head 222; the plastic ball seat 27 comprises a spherical surface portion 28 and a fixing portion 29, the side wall of the spherical surface portion 28 is of a spherical structure, a plurality of air holes 272 are formed in the side wall of the spherical surface portion 28, the top end of the spherical surface portion 28 is connected with the bottom end of the metal ball 26, the bottom end of the spherical surface portion 28 is connected with the top end of the fixing portion 29, the bottom end of the fixing portion 29 penetrates through the top surface of the strip base body 22 and then contacts with the strip-shaped cavity 221, a spherical cavity 281 communicated with the air holes 272 is formed in the spherical surface portion 28, a fixing cavity 291 is formed in the fixing portion 29, and the spherical cavity 281 is communicated with the strip-shaped cavity 221.

The spherical cavity 281 comprises a hemispherical cavity 282 and a conical platform cavity 283, the bottom end of the hemispherical cavity 282 is communicated with the top end of the fixed cavity 291 through the conical platform cavity 283, the top end of the conical platform cavity 283 is wider than the bottom end of the conical platform cavity 283, and the air holes 272 are arranged along the joint line of the hemispherical cavity 282 and the conical platform cavity 283.

The two ends of the long strip base body 22 are respectively connected with the interiors of a first driving bearing 241 and a second driving bearing 251, the exterior of the first driving bearing 241 is connected with the top output end of a first lifting device 24, the exterior of the second driving bearing 251 is connected with the top output end of a second lifting device 25, the bottom ends of the first lifting device 24 and the second lifting device 25 are vertically connected with the top surface of a horizontal sliding block 242, and the two side parts of the horizontal sliding block 242 are in sliding fit along a horizontal sliding groove 243; the bottom of the horizontal sliding chute 243 is connected with the top surface of the sliding bottom plate 244, the inner groove 247 of the horizontal sliding chute 243 is in sliding fit with the side part of the horizontal sliding block 242 located inside the horizontal sliding chute 243, the horizontal sliding block 242 and the inner groove 247 are both arranged higher than the sliding bottom plate 244, a plurality of bottom plate holes 245 are uniformly arranged in the middle of the sliding bottom plate 244 along the axial direction of the sliding bottom plate, and sliding block holes 246 corresponding to the bottom plate holes 245 are formed in the horizontal sliding block 242 in a penetrating mode.

The impurity transporting device 33 comprises an impurity transporting crawler 36, a left impurity transporting roller 37 and a right impurity transporting roller 38, two ends of the impurity transporting crawler 36 are respectively wrapped on the roller surfaces of the left impurity transporting roller 37 and the right impurity transporting roller 38, a plurality of impurity transporting partition strips 361 are uniformly arranged on the outer side surface of the impurity transporting crawler 36, the bottoms of the impurity transporting partition strips 361 are vertically connected with the outer side surface of the impurity transporting crawler 36, the adjacent impurity transporting partition strips 361 are parallel to each other, and the adjacent impurity transporting partition strips 361 and the impurity transporting crawler 36 positioned between the adjacent impurity transporting partition strips 361 and the impurity transporting crawler 36 form an impurity transporting box 362.

The recovery unit 4 comprises a recovery upper baffle 41, a recovery outer side baffle 42, a recovery left lower inclined baffle 43 and a recovery right lower inclined baffle 44, the recovery left lower inclined baffle 43 and the recovery right lower inclined baffle 44 are both arc-shaped plate structures, and arc-shaped bulges of the recovery left lower inclined baffle 43 and the recovery right lower inclined baffle 44 are arranged oppositely; the top end of the left lower inclined recovery baffle 43 is hinged to the bottom end of the tail gas scavenging pipe 431, the top end gas outlet of the tail gas scavenging pipe 431 is close to the bottom surface of the outer end of the right impurity conveying roller 38, the top surface of the outer end of the right impurity conveying roller 38 is close to the inner end of the upper recovery baffle 41, the outer end of the upper recovery baffle 41 is vertically connected with the top end of the outer recovery baffle 42, the bottom end of the outer recovery baffle 42 is connected with the top end of the right lower inclined recovery baffle 44, the bottom end of the right lower inclined recovery baffle 44 is connected with the bottom end of the left lower inclined recovery baffle 43 through a recovery ring 45, and the left lower inclined recovery baffle 43, the recovery ring 45 and the right lower inclined recovery baffle 44 enclose a recovery bottom cavity 441.

An inclined scavenging pipe 411 which is obliquely arranged is arranged on the recovery upper baffle plate 41, and an air outlet of the inclined scavenging pipe 411 is arranged towards the outer end of the right impurity conveying roller 38; the middle part of the recycling upper baffle 41 is provided with a tube rotating seat 46, the inclined scavenging tube 411 is positioned between the right impurity transporting roller 38 and the tube rotating seat 46, the middle part of the tube rotating seat 46 penetrates through a rotating cylinder 461, the top end of the rotating cylinder 461 is higher than the recycling upper baffle 41, a coaxial cylinder inner tube cavity 462 is arranged inside the rotating cylinder 461, the bottom end of the rotating cylinder 461 extends downwards to the position right below the recycling upper baffle 41, the bottom end of the rotating cylinder 461 is connected with the top surface of a rotating air seat 463, an air seat cavity 464 is arranged inside the rotating air seat 463, the bottom surface of the rotating air seat 463 is of an inwards concave arc structure, a plurality of rotating air tubes 465 are uniformly arranged on the bottom surface of the rotating air seat 463, the bottom ends of the rotating air tubes 465 are opposite to the recycling bottom cavity 441 positioned right below the rotating air tubes 465, and the top ends of the rotating air tubes 465 are communicated with the bottom end of the cylinder inner tube cavity.

Retrieve outside baffle 42 and include upper segment curb plate 421, middle section air film 422 and lower section curb plate 423, the top of upper segment curb plate 421 is connected with the outer end of retrieving overhead gage 41, and the bottom of upper segment curb plate 421 is connected with the top of middle section air film 422 through last air film seat 424, and the bottom of middle section air film 422 is connected with the top of lower section curb plate 423 through lower air film seat 425, and the bottom of lower section curb plate 423 is connected with the top of retrieving oblique baffle 44 under the right side.

The bottom of the ring surface 451 of the recovery ring 45 is connected with the top surface of the metal mesh frame 47, the bottom surface of the metal mesh frame 47 is arranged opposite to the top end of the recovery insulating strip 48 positioned right below the metal mesh frame 47, the number of the recovery insulating strips 48 is at least three, every two adjacent recovery insulating strips 48 are parallel to each other, the bottom end of each recovery insulating strip 48 is arranged opposite to the top surface of the metal bottom plate 49, the metal bottom plate 49 is parallel to the metal mesh frame 47, and the metal bottom plate 49 and the metal mesh frame 47 are respectively connected with two poles of the electrostatic generator.

The principle of the invention is illustrated as follows:

in the invention, a metal plate 1 to be processed placed on a cutting unit 2 is fed by a plate feeding unit 5, a plate feeding empty groove 51 is formed in the plate feeding unit 5, a plate feeding pushing hand 52 is arranged in the plate feeding empty groove 51, when the device is applied, the plate feeding pushing hand 52 slides along the plate feeding empty groove 51, so that the metal plate 1 is pushed onto the cutting unit 2 to be cut by a cutting machine to be suspended above the cutting unit 2, waste materials or metal cuttings generated during processing firstly fall onto a impurity dropping net 3, then fall onto an impurity conveying device 33 after being subjected to vibration screening by the impurity dropping net 3, and then are conveyed to a recovery unit 4 by an impurity conveying device 33 for recycling.

Example 1:

referring to fig. 1 to 12, the comprehensive device for processing and recovering the sheet material for building the power plant comprises a cutting unit 2, a impurity dropping net 3 and a plate conveying unit 5, wherein a discharge hole of the plate conveying unit 5 is communicated with a feed hole of the cutting unit 2, a metal sheet material 1 is arranged on the top surface of the cutting unit 2, and the impurity dropping net 3 is arranged right below the cutting unit 2; the cutting unit 2 comprises a plurality of strip supporting seats 21 with the same structure, the adjacent strip supporting seats 21 are parallel to each other, an inter-seat clearance 211 is arranged between the adjacent strip supporting seats 21, and the positions right below the strip supporting seats 21 and the inter-seat clearance 211 are opposite to the top surface of the impurity falling net 3; the long strip supporting seat 21 comprises a long strip base body 22, a first lifting device 24, a second lifting device 25 and a plurality of supporting single bodies 23, each supporting single body 23 comprises a metal ball 26 and a plastic ball seat 27, the top end of each plastic ball seat 27 is connected with the bottom end of the metal ball 26, the bottom end of each plastic ball seat 27 is connected with the top of the long strip base body 22, and the two ends of the long strip base body 22 are respectively connected with the top output ends of the first lifting device 24 and the second lifting device 25; the two ends of the impurity falling net 3 are respectively connected with a reciprocating sliding sleeve 31, a reciprocating sliding rod 311 which is in sliding fit with the reciprocating sliding sleeve 31 is arranged inside the reciprocating sliding sleeve 31, an upper top bump roller 32 is arranged right below the bottom surface of the impurity falling net 3, an impurity conveying device 33 is arranged right below the upper top bump roller 32, and a discharge hole of the impurity conveying device 33 is communicated with a feed hole of the recovery unit 4; the cross section of the upper top bump roller 32 comprises a large arc head end 321, a small arc head end 322 and a middle transition section 323, the inner end of the large arc head end 321 is connected with the inner end of the small arc head end 322 through the middle transition section 323, the diameter of the large arc head end 321 is larger than that of the small arc head end 322, and a roller rotating rod 324 is arranged in the middle of the large arc head end 321.

Example 2:

the basic contents are the same as example 1, except that:

the strip-shaped substrate 22 is of a hollow structure, a coaxial strip-shaped cavity 221 is formed in the strip-shaped substrate 22, one end of the strip-shaped cavity 221 is flush with the end face of the strip-shaped substrate 22, and the other end of the strip-shaped cavity 221 is connected with the air inlet pipe head 222; the plastic ball seat 27 comprises a spherical surface portion 28 and a fixing portion 29, the side wall of the spherical surface portion 28 is of a spherical structure, a plurality of air holes 272 are formed in the side wall of the spherical surface portion 28, the top end of the spherical surface portion 28 is connected with the bottom end of the metal ball 26, the bottom end of the spherical surface portion 28 is connected with the top end of the fixing portion 29, the bottom end of the fixing portion 29 penetrates through the top surface of the strip base body 22 and then contacts with the strip-shaped cavity 221, a spherical cavity 281 communicated with the air holes 272 is formed in the spherical surface portion 28, a fixing cavity 291 is formed in the fixing portion 29, and the spherical cavity 281 is communicated with the strip-shaped cavity 221. Preferably, the spherical cavity 281 comprises a hemispherical cavity 282 and a conical cavity 283, the bottom end of the hemispherical cavity 282 is communicated with the top end of the fixed cavity 291 through the conical cavity 283, the conical cavity 283 is wider than the bottom end thereof, and the air holes 272 are arranged along the intersection line of the hemispherical cavity 282 and the conical cavity 283.

Example 3:

the basic contents are the same as example 1, except that:

the impurity transporting device 33 comprises an impurity transporting crawler 36, a left impurity transporting roller 37 and a right impurity transporting roller 38, two ends of the impurity transporting crawler 36 are respectively wrapped on the roller surfaces of the left impurity transporting roller 37 and the right impurity transporting roller 38, a plurality of impurity transporting partition strips 361 are uniformly arranged on the outer side surface of the impurity transporting crawler 36, the bottoms of the impurity transporting partition strips 361 are vertically connected with the outer side surface of the impurity transporting crawler 36, the adjacent impurity transporting partition strips 361 are parallel to each other, and the adjacent impurity transporting partition strips 361 and the impurity transporting crawler 36 positioned between the adjacent impurity transporting partition strips 361 and the impurity transporting crawler 36 form an impurity transporting box 362.

Example 4:

the basic contents are the same as example 3, except that:

the recovery unit 4 comprises a recovery upper baffle 41, a recovery outer side baffle 42, a recovery left lower inclined baffle 43 and a recovery right lower inclined baffle 44, the recovery left lower inclined baffle 43 and the recovery right lower inclined baffle 44 are both arc-shaped plate structures, and arc-shaped bulges of the recovery left lower inclined baffle 43 and the recovery right lower inclined baffle 44 are arranged oppositely; the top end of the left lower inclined recovery baffle 43 is hinged to the bottom end of the tail gas scavenging pipe 431, the top end gas outlet of the tail gas scavenging pipe 431 is close to the bottom surface of the outer end of the right impurity conveying roller 38, the top surface of the outer end of the right impurity conveying roller 38 is close to the inner end of the upper recovery baffle 41, the outer end of the upper recovery baffle 41 is vertically connected with the top end of the outer recovery baffle 42, the bottom end of the outer recovery baffle 42 is connected with the top end of the right lower inclined recovery baffle 44, the bottom end of the right lower inclined recovery baffle 44 is connected with the bottom end of the left lower inclined recovery baffle 43 through a recovery ring 45, and the left lower inclined recovery baffle 43, the recovery ring 45 and the right lower inclined recovery baffle 44 enclose a recovery bottom cavity 441.

Example 5:

the basic contents are the same as example 4, except that:

an inclined scavenging pipe 411 which is obliquely arranged is arranged on the recovery upper baffle plate 41, and an air outlet of the inclined scavenging pipe 411 is arranged towards the outer end of the right impurity conveying roller 38; the middle part of the recycling upper baffle 41 is provided with a tube rotating seat 46, the inclined scavenging tube 411 is positioned between the right impurity transporting roller 38 and the tube rotating seat 46, the middle part of the tube rotating seat 46 penetrates through a rotating cylinder 461, the top end of the rotating cylinder 461 is higher than the recycling upper baffle 41, a coaxial cylinder inner tube cavity 462 is arranged inside the rotating cylinder 461, the bottom end of the rotating cylinder 461 extends downwards to the position right below the recycling upper baffle 41, the bottom end of the rotating cylinder 461 is connected with the top surface of a rotating air seat 463, an air seat cavity 464 is arranged inside the rotating air seat 463, the bottom surface of the rotating air seat 463 is of an inwards concave arc structure, a plurality of rotating air tubes 465 are uniformly arranged on the bottom surface of the rotating air seat 463, the bottom ends of the rotating air tubes 465 are opposite to the recycling bottom cavity 441 positioned right below the rotating air tubes 465, and the top ends of the rotating air tubes 465 are communicated with the bottom end of the cylinder inner tube cavity.

Example 6:

the basic contents are the same as example 4, except that:

the bottom of the ring surface 451 of the recovery ring 45 is connected with the top surface of the metal mesh frame 47, the bottom surface of the metal mesh frame 47 is arranged opposite to the top end of the recovery insulating strip 48 positioned right below the metal mesh frame 47, the number of the recovery insulating strips 48 is at least three, every two adjacent recovery insulating strips 48 are parallel to each other, the bottom end of each recovery insulating strip 48 is arranged opposite to the top surface of the metal bottom plate 49, the metal bottom plate 49 is parallel to the metal mesh frame 47, and the metal bottom plate 49 and the metal mesh frame 47 are respectively connected with two poles of the electrostatic generator.

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiment, but equivalent modifications or changes made by those skilled in the art according to the present disclosure should be included in the scope of the present invention as set forth in the appended claims.

Claims (9)

1. The utility model provides a processing and recovery integrated device of sheet material for power plant's construction, includes cutting unit (2), falls miscellaneous net (3) and send board unit (5), the discharge gate that sends board unit (5) communicates with each other with the feed inlet of cutting unit (2), is provided with sheet metal (1) on the top surface of cutting unit (2), is provided with miscellaneous net (3), its characterized in that of falling under cutting unit (2):

the cutting unit (2) comprises a plurality of strip supporting seats (21) with the same structure, the adjacent strip supporting seats (21) are parallel to each other, an inter-seat clamping space (211) is arranged between the adjacent strip supporting seats (21), and the positions under the strip supporting seats (21) and the inter-seat clamping space (211) are opposite to the top surface of the impurity falling net (3); the long strip supporting seat (21) comprises a long strip base body (22), a first lifting device (24), a second lifting device (25) and a plurality of supporting single bodies (23), each supporting single body (23) comprises a metal ball (26) and a plastic ball seat (27), the top end of each plastic ball seat (27) is connected with the bottom end of the metal ball (26), the bottom end of each plastic ball seat (27) is connected with the top of the long strip base body (22), and the two ends of each long strip base body (22) are respectively connected with the top output ends of the first lifting device (24) and the second lifting device (25);

the two ends of the impurity falling net (3) are respectively connected with a reciprocating sliding sleeve (31), a reciprocating sliding rod (311) in sliding fit with the reciprocating sliding sleeve (31) is arranged inside the reciprocating sliding sleeve (31), an upper top bump roller (32) is arranged right below the bottom surface of the impurity falling net (3), an impurity conveying device (33) is arranged right below the upper top bump roller (32), and a discharge hole of the impurity conveying device (33) is communicated with a feed hole of the recovery unit (4); the cross section of the upper top bump roller (32) comprises a large arc head end (321), a small arc head end (322) and a middle transition section (323), the inner end of the large arc head end (321) is connected with the inner end of the small arc head end (322) through the middle transition section (323), the diameter of the large arc head end (321) is larger than that of the small arc head end (322), and a roller rotating rod (324) is arranged in the middle of the large arc head end (321);

the strip-shaped base body (22) is of a hollow structure, a coaxial strip-shaped cavity (221) is formed in the strip-shaped base body (22), one end of the strip-shaped cavity (221) is flush with the end face of the strip-shaped base body (22), and the other end of the strip-shaped cavity (221) is connected with the air inlet pipe head (222); plastics ball seat (27) are including face of sphere (28) and fixed part (29), the side wall of face of sphere (28) is spherical structure, has seted up a plurality of bleeder vents (272) on the side wall of face of sphere (28), and the top of face of sphere (28) is connected with the bottom of metal ball (26), and the bottom of face of sphere (28) is connected with the top of fixed part (29), and the bottom of fixed part (29) is worn to contact with rectangular cavity (221) behind the top surface of rectangular base member (22), communicating spherical cavity (281) with bleeder vent (272) have been seted up to the inside of face of sphere (28), fixed cavity (291) have been seted up to the inside of fixed part (29), and spherical cavity (281) are linked together with rectangular cavity (221) behind fixed cavity (291).

2. The integrated device for processing and recycling the sheets for building the power plant according to claim 1, characterized in that: the top end of the plastic ball seat (27) is provided with an inwards concave ball socket (271), and the inner wall of the ball socket (271) is connected with the bottom end of the metal ball (26) positioned in the ball socket (271).

3. The integrated processing and recycling device for plates for power plant construction according to claim 1 or 2, characterized in that: spherical cavity (281) include hemisphere body chamber (282) and circular cone platform chamber (283), the bottom of hemisphere body chamber (282) is linked together with the top of fixed cavity (291) behind circular cone platform chamber (283), and the top of circular cone platform chamber (283) is wider than its bottom setting, and bleeder vent (272) set up along hemisphere body chamber (282), circular cone platform chamber (283) handing-over line.

4. The integrated processing and recycling device for plates for power plant construction according to claim 1 or 2, characterized in that: the two ends of the long-strip base body (22) are respectively connected with the interiors of a first driving bearing (241) and a second driving bearing (251), the exterior of the first driving bearing (241) is connected with the top output end of a first lifting device (24), the exterior of the second driving bearing (251) is connected with the top output end of a second lifting device (25), the bottom ends of the first lifting device (24) and the second lifting device (25) are vertically connected with the top surface of a horizontal sliding block (242), and the two side parts of the horizontal sliding block (242) are in sliding fit along a horizontal sliding chute (243); the bottom of the horizontal sliding chute (243) is connected with the top surface of the sliding bottom plate (244), an internal groove (247) of the horizontal sliding chute (243) is in sliding fit with the side portion of a horizontal sliding block (242) located inside the horizontal sliding chute, the horizontal sliding block (242) and the internal groove (247) are both higher than the sliding bottom plate (244), a plurality of bottom plate holes (245) are uniformly formed in the middle of the sliding bottom plate (244) along the axial direction of the sliding bottom plate, and sliding block holes (246) corresponding to the bottom plate holes (245) are formed in the horizontal sliding block (242) in a penetrating mode.

5. The integrated processing and recycling device for plates for power plant construction according to claim 1 or 2, characterized in that: the impurity transporting device (33) comprises an impurity transporting crawler belt (36), a left impurity transporting roller (37) and a right impurity transporting roller (38), two ends of the impurity transporting crawler belt (36) are respectively wrapped on the roller surfaces of the left impurity transporting roller (37) and the right impurity transporting roller (38), a plurality of impurity transporting partition strips (361) are uniformly arranged on the outer side surface of the impurity transporting crawler belt (36), the bottoms of the impurity transporting partition strips (361) are vertically connected with the outer side surface of the impurity transporting crawler belt (36), adjacent impurity transporting partition strips (361) are parallel to each other, and the adjacent impurity transporting partition strips (361) and the impurity transporting crawler belt (36) between the adjacent impurity transporting partition strips (361) form an impurity transporting box (362).

6. The integrated processing and recycling device for plates for power plant construction according to claim 1 or 2, characterized in that: the recovery unit (4) comprises a recovery upper baffle (41), a recovery outer side baffle (42), a recovery left lower inclined baffle (43) and a recovery right lower inclined baffle (44), the recovery left lower inclined baffle (43) and the recovery right lower inclined baffle (44) are both arc-shaped plate structures, and arc-shaped bulges of the recovery left lower inclined baffle (43) and the recovery right lower inclined baffle (44) are arranged in a right-facing manner; the top of retrieving left oblique baffle (43) down articulates with the bottom of tail scavenging pipe (431), the bottom surface setting of the outer end of the miscellaneous roller of near right fortune (38) of top gas outlet of tail scavenging pipe (431), the inner setting of the top surface of the outer end of the miscellaneous roller of right fortune (38) nearly retrieval overhead gage (41), the outer end of retrieving overhead gage (41) is connected with the top of retrieving outside baffle (42) perpendicularly, the bottom of retrieving outside baffle (42) is connected with the top of retrieving right oblique baffle (44) down, the bottom of retrieving right oblique baffle (44) down is connected with the bottom of retrieving left oblique baffle (43) down through retrieving ring (45), and retrieve left oblique baffle (43) down, retrieve ring (45), retrieve right oblique baffle (44) down and enclose into one and retrieve bottom chamber (441).

7. The integrated device for processing and recycling the sheets for building the power plant according to claim 6, wherein: an inclined scavenging pipe (411) which is obliquely arranged is arranged on the recovery upper baffle (41), and an air outlet of the inclined scavenging pipe (411) is arranged towards the outer end of the right impurity conveying roller (38); the middle part of the recycling upper baffle (41) is provided with a pipe rotating seat (46), an inclined scavenging pipe (411) is positioned between the right impurity conveying roller (38) and the pipe rotating seat (46), the middle part of the pipe rotating seat (46) penetrates through a rotating cylinder (461), the top end of the rotating cylinder (461) is higher than the recycling upper baffle (41) and is arranged, the rotating cylinder (461) is internally provided with a coaxial cylinder inner pipe cavity (462), the bottom end of the rotating cylinder (461) extends downwards to the position right below the recycling upper baffle (41), the bottom end of the rotating cylinder (461) is connected with the top surface of a rotating air seat (463), an air seat cavity (464) is arranged inside the rotating air seat (463), the bottom surface of the rotating air seat (463) is of an inward concave arc-shaped structure, a plurality of rotating air pipes (465) are uniformly arranged on the bottom surface of the rotating air seat (463), and the bottom end of each rotating air pipe (465) is just opposite to the recycling bottom cavity (441) positioned right below the rotating air, the top end of the rotary air pipe (465) is communicated with the bottom end of the tube cavity (462) in the cylinder through the air seat cavity (464).

8. The integrated device for processing and recycling the sheets for building the power plant according to claim 6, wherein: retrieve outside baffle (42) and include upper segment curb plate (421), middle section air film (422) and hypomere curb plate (423), the top of upper segment curb plate (421) is connected with the outer end of retrieving overhead gage (41), and the bottom of upper segment curb plate (421) is connected with the top of middle section air film (422) through last air film seat (424), and the bottom of middle section air film (422) is connected with the top of hypomere curb plate (423) through lower air film seat (425), and the bottom of hypomere curb plate (423) is connected with the top of retrieving oblique baffle (44) down.

9. The integrated device for processing and recycling the sheets for building the power plant according to claim 6, wherein: the bottom of the ring surface (451) of the recovery ring (45) is connected with the top surface of the metal mesh frame (47), the bottom surface of the metal mesh frame (47) is opposite to the top end of the recovery insulating strip (48) positioned right below the metal mesh frame, the number of the recovery insulating strips (48) is at least three, every two adjacent recovery insulating strips (48) are parallel to each other, the bottom end of the recovery insulating strip (48) is opposite to the top surface of the metal bottom plate (49), the metal bottom plate (49) is parallel to the metal mesh frame (47), and the metal bottom plate (49) and the metal mesh frame (47) are respectively connected with the two poles of the static generator.

Images