CN107442256A

CN107442256A - A kind of renewable and clean energy resource processing unit (plant)

Info

Publication number: CN107442256A
Application number: CN201710736979.2A
Authority: CN
Inventors: 徐萍
Original assignee: Huangshan City Yalong Technology Co Ltd
Current assignee: ANHUI MINGGUANG HONGYUAN BIOMASS CO., LTD.
Priority date: 2017-08-24
Filing date: 2017-08-24
Publication date: 2017-12-08
Anticipated expiration: 2037-08-24
Also published as: CN107442256B

Abstract

The invention discloses a kind of renewable and clean energy resource processing unit (plant),Including pedestal and installed in the fragmentation case of top surface on the left of pedestal and the guide cone bucket of right side top surface,The first cavity volume that left and right stretching, extension is set is provided with pedestal,The second cavity volume set in fragmentation case provided with bottom with intercommunication at the top of the first cavity volume below fragmentation case,The first cavity volume inner top break-through below guide cone bucket is provided with the port that top is set with the intercommunication of guide cone bucket bottom,Sliding is connected with sliding rack in first cavity volume,Sliding rack bottom is provided with to move and taken turns,The 3rd cavity volume is provided with sliding rack,Sliding is connected with stalk frame in 3rd cavity volume,The first take-off and landing device is provided with 3rd cavity volume of stalk frame bottom,Sliding rack inner spiral line below 3rd cavity volume is connected with the first spiral shell shape bar that left and right stretching, extension is set,Stretching, extension afterbody and the first motor are connected on the right side of first spiral shell shape bar；The present invention is simple in construction, easy to operate, improves the uniformity and quality of fragmentation.

Description

A kind of renewable and clean energy resource processing unit (plant)

Technical field

The present invention relates to renewable and clean energy resource field, a kind of renewable and clean energy resource processing unit (plant).

Background technology

Stalk is often referred to cotton, wheat, corn, rice and other crops remaining cauline leaf part after fruit of receiving, In traditional production operation, these stalks are burned, and serious pollution is not only caused on environment, influences air quality, and Potential safety hazard be present.Nowadays stalk can be turned waste into wealth by pyrolysis liquefaction and reprocessing is converted into bio oil, as fuel It can directly burn and use in oil burning boiler and cellar for storing things stove., it is necessary to which stalk, which is processed, makes its broken before bio oil is produced Change, the more dust of traditional process equipment, noise are big, influence environmental quality, and complicated, and automaticity is low.

The content of the invention

The technical problems to be solved by the invention are to provide a kind of renewable and clean energy resource processing unit (plant), and it can solve the problem that The problem of stating now in the art.

The present invention is achieved through the following technical solutions：A kind of renewable and clean energy resource processing unit (plant) of the present invention, Set including pedestal and in the fragmentation case of top surface on the left of the pedestal and the guide cone bucket of right side top surface, the pedestal There is the first cavity volume that left and right stretching, extension is set, bottom and the first cavity volume top below the fragmentation case are provided with the fragmentation case The second cavity volume that portion intercommunication is set, the first cavity volume inner top break-through below the guide cone bucket are led provided with top with described Expect the port that the intercommunication of cone bucket bottom is set, to slide in first cavity volume and be connected with sliding rack, the sliding rack bottom is set There is shifting to take turns, the 3rd cavity volume is provided with the sliding rack, is slid in the 3rd cavity volume and is connected with stalk frame, the stalk frame Be provided with the first take-off and landing device in the 3rd cavity volume of bottom, the sliding rack inner spiral line cooperation below the 3rd cavity volume The first spiral shell shape bar that left and right stretching, extension is set is connected with, the first spiral shell shape bar right side stretching, extension afterbody and the first motor, which coordinate, to be connected Connect, the first slid chamber is provided with the stalk frame, sieve is fixedly installed in first slid chamber, net is provided with the sieve Hole, the 3rd cavity volume inner roof wall are provided with groove, are slid in second cavity volume and be connected with drop piece, described drop piece top Is provided with the second take-off and landing device in second cavity volume in portion, is provided with described drop piece bottom surface and leads shifting groove, it is described lead shifting groove it is interior before Stretching, extension is provided with the second spiral shell shape bar afterwards, and stretching, extension afterbody is connected with the second motor on rear side of the second spiral shell shape bar, described to lead shifting Whorl is connected with the smashing device that stretching, extension is set downwards, the smashing device bottom on the second spiral shell shape bar in groove Stretching, extension afterbody is stretched out outside described drop piece bottom surface, and the base bottom is provided with the axle that the base bottom wall body is traversed in left and right Bar, base internal wall rotatable engagement described in the axostylus axostyle connect, and termination is fixedly installed road wheel respectively at left and right sides of the axostylus axostyle.

Preferably technical scheme, the first spiral shell shape bar left side stretching, extension afterbody revolve with the first cavity volume inner left wall Turn to be connected, the first motor outer surface is arranged on the right side of first cavity volume in inwall and is fixedly connected；Described Stretching, extension afterbody is connected with the shifting groove front inner wall rotatable engagement of leading on front side of two spiral shell shape bars, and the second motor outer surface is set Move in groove rear side inwall and be fixedly connected in described lead.

Preferably technical scheme, it is defeated provided with first row in outer surface on front side of the pedestal below the fragmentation case Mouthful, the second row outlet to be connected with the first row outlet intercommunication, institute are provided with the 3rd cavity volume front inner wall State bottom position break-through in the first slid chamber front inner wall is provided with to be connected with the second row outlet intercommunication the Three row's outlets.

Preferably technical scheme, the smashing device bottom surface are provided with fragmentation tooth, the institute between each fragmentation tooth State sliding in smashing device bottom surface and be connected with the fragmentation plug that stretching, extension is set up and down, being provided with second in the smashing device slides Chamber is moved, is slid in second slid chamber and is connected with piece under pressure, at the top of the fragmentation plug second described in stretch section break-through Slid chamber inner bottom wall and probe into second slid chamber, stretching, extension afterbody is consolidated with the piece under pressure bottom surface at the top of the fragmentation plug Fixed connection, in the second slid chamber inner roof wall intercommunication be provided with conversion tank, the conversion tank internal rotation is connected with male rotor, Rotating device, the conversion tank of the male rotor front and rear sides are fixedly installed in the conversion tank on the left of the male rotor Interior equity is provided with elastic component, and afterbody is fixedly connected with the conversion tank inner roof wall at the top of each elastic component, each described Elastic component bottom afterbody is fixedly connected with the piece under pressure top surface.

The beneficial effects of the invention are as follows：

1. the first spiral shell shape bar of the left and right stretching, extension setting that is connected by the sliding rack inner spiral line below the 3rd cavity volume, the first spiral shell Stretching, extension afterbody and the first motor are connected on the right side of shape bar, and the first slid chamber is set in stalk frame, fixes and sets in the first slid chamber Sieve is put, mesh is set in sieve, the 3rd cavity volume inner roof wall sets groove, slides the drop piece that has been connected in the second cavity volume, play drop piece The second take-off and landing device is set in second cavity volume at top, rises to set in drop piece bottom surface and leads shifting groove, front and rear stretching, extension in shifting groove is led and sets the second spiral shell Shape bar, the second spiral shell shape bar rear side stretching, extension afterbody the second motor of mating connection, leads whorl on the second spiral shell shape bar moved in groove and matches somebody with somebody The connection smashing device that stretching, extension is set downwards is closed, smashing device bottom stretching, extension afterbody has been stretched out outside drop piece bottom surface, so as to realize Automatically control and add stalk and fragmentation work, improve operating efficiency, reduce the labor intensity and the amount of labour of worker.

2. setting fragmentation tooth by smashing device bottom surface, slide and be connected in the smashing device bottom surface between each fragmentation tooth The fragmentation plug set is stretched up and down, and the second slid chamber is set in smashing device, mating connection piece under pressure is slid in the second slid chamber, Stretch section break-through the second slid chamber inner bottom wall and probe into the second slid chamber, stretching, extension afterbody at the top of fragmentation plug at the top of fragmentation plug Be fixedly connected with piece under pressure bottom surface, in the second slid chamber inner roof wall intercommunication set conversion tank, conversion tank internal rotation mating connection convex To take turns, fixed setting rotating device in the conversion tank on the left of male rotor, equity sets elastic component in the conversion tank of male rotor front and rear sides, Afterbody is fixedly connected with conversion tank inner roof wall at the top of each elastic component, and each elastic component bottom afterbody is consolidated with piece under pressure top surface Fixed connection, so as to realize that the abundant fragmentation of stalk works, improve the uniformity and fragmentation quality of fragmentation.

3. the present invention it is simple in construction, it is easy to operate, be moved easily and carry, can realize automatically control control add stalk and Fragmentation works, and improves operating efficiency, reduces the labor intensity and the amount of labour of worker, can realize the secondary abundant fragmentation of stalk Work, improve the uniformity and fragmentation quality of fragmentation.

Brief description of the drawings

For ease of explanation, the present invention is described in detail by following specific embodiment and accompanying drawing.

Fig. 1 is a kind of renewable and clean energy resource processing unit (plant) external structure schematic diagram of the present invention；

Fig. 2 is the sectional view of " A-A " in Fig. 1 of the invention；

Fig. 3 is the sectional view of " B-B " in Fig. 2 of the invention；

Internal structure schematic diagram when Fig. 4 is a kind of renewable and clean energy resource processing unit (plant) original state of the present invention；

Fig. 5 probes into structural representation when in the 3rd cavity volume for the smashing device of the present invention；

Internal structure schematic diagram when Fig. 6 is the fragmentation tooth fragmentation work of the present invention；

Internal structure schematic diagram when Fig. 7 is the fragmentation plug fragmentation work of the present invention；

Fig. 8 is a kind of renewable and clean energy resource processing unit (plant) top view of the present invention.

Embodiment

As Figure 1-Figure 8, a kind of renewable and clean energy resource processing unit (plant) of the invention, including pedestal 5 and be arranged on The fragmentation case 6 of the left side top surface of pedestal 5 and the guide cone bucket 7 of right side top surface, the pedestal 5 is interior to be provided with left and right stretching, extension setting The first cavity volume 51, set provided with bottom and the top intercommunication of first cavity volume 51 below the fragmentation case 6 in the fragmentation case 6 The second cavity volume 61 put, the inner top break-through of first cavity volume 51 of the lower section of guide cone bucket 7 are provided with top and the guide The port 55 that the bottom intercommunication of cone bucket 7 is set, the interior sliding of first cavity volume 51 are connected with sliding rack 52, the sliding rack 52 Bottom, which is provided with, moves wheel 524, and the 3rd cavity volume 521 is provided with the sliding rack 52, and the interior sliding of the 3rd cavity volume 521 is connected with Stalk frame 53, the 3rd cavity volume 521 of the bottom of stalk frame 53 is interior to be provided with the first take-off and landing device 532, the 3rd cavity volume The inner spiral line of the sliding rack 52 of 521 lower sections is connected with the first spiral shell shape bar 522 that left and right stretching, extension is set, first spiral shell Stretching, extension afterbody in the right side of shape bar 522 is connected with the first motor 523, and the first slid chamber 531, institute are provided with the stalk frame 53 State and sieve 533 is fixedly installed in the first slid chamber 531, mesh 5331, the 3rd cavity volume 521 are provided with the sieve 533 Inner roof wall is provided with groove 526, is slid in second cavity volume 61 and has been connected with drop piece 62, the institute at the described top of drop piece 62 State and the second take-off and landing device 611 is provided with the second cavity volume 61, be provided with to lead in the described bottom surface of drop piece 62 and move groove 621, it is described to lead shifting groove Front and rear stretching, extension is provided with the second spiral shell shape bar 6211 in 621, and the rear side of the second spiral shell shape bar 6211 stretching, extension afterbody is connected with second Motor 6212, it is described lead move groove 621 in the second spiral shell shape bar 6211 on whorl be connected with downwards stretching, extension set Smashing device 63, the bottom of smashing device 63 stretching, extension afterbody stretch out it is described rise outside the bottom surface of drop piece 62, the bottom of pedestal 5 The axostylus axostyle 41 that the bottom wall body of pedestal 5 is traversed in left and right is provided with, the inwall rotatable engagement of pedestal 5 connects described in the axostylus axostyle 41, The left and right sides termination of axostylus axostyle 41 is fixedly installed road wheel 42 respectively.

Valuably, the left side of the first spiral shell shape bar 522 stretching, extension afterbody and the inner left wall rotatable engagement of the first cavity volume 51 Connection, the outer surface of the first motor 523 is arranged in the right side inwall of the first cavity volume 51 and is fixedly connected, so as to realize Sliding rack 52 is automatically controlled along the work that moves left and right in the first cavity volume 51, improves operating efficiency；The second spiral shell shape bar 6211 Front side is stretched afterbody and is connected with the shifting front inner wall rotatable engagement of groove 621 of leading, and the outer surface of the second motor 6212 is set In it is described lead move the rear side inwall of groove 621 in and be fixedly connected, so as to realize automatically control smashing device 63 along lead move groove 621 in Fore-and-aft direction slides, and improves fragmentation scope.

Valuably, it is provided with first row outlet 54 in the front side outer surface of the pedestal 5 of the lower section of the fragmentation case 6, described the The second row outlet 525 to be connected with the intercommunication of first row outlet 54 is provided with the front inner wall of three cavity volume 521, it is described Bottom position break-through in the front inner wall of first slid chamber 531 is provided with to be connected with the intercommunication of second row outlet 525 The 3rd row's outlet 534, so as to realize automatic lower row's work after stalk fragmentation.

Valuably, the bottom surface of smashing device 63 is provided with fragmentation tooth 634, described broken between each fragmentation tooth 634 Makeup puts sliding 63 the bottom surface in and is connected with the fragmentation plug 635 that stretching, extension is set up and down, provided with the in the smashing device 63 Two slid chambers 631, the interior sliding of second slid chamber 631 are connected with piece under pressure 632, and the top of fragmentation plug 635 is stretched Open up the inner bottom wall of the second slid chamber 631 described in section break-through and probe into second slid chamber 631, the top of fragmentation plug 635 Stretching, extension afterbody be fixedly connected with the bottom surface of piece under pressure 632, in the inner roof wall of the second slid chamber 631 intercommunication be provided with conversion tank 633, the internal rotation of conversion tank 633 is connected with male rotor 6331, the conversion tank 633 in the left side of male rotor 6331 Rotating device is inside fixedly installed, equity is provided with elastic component in the conversion tank 633 of the front and rear sides of male rotor 6331 6332, each top afterbody of elastic component 6332 is fixedly connected with the inner roof wall of conversion tank 633, each elastic component 6332 bottom afterbodys are fixedly connected with the top surface of piece under pressure 632, so as to realize that the abundant fragmentation of stalk works, improve fragmentation Uniformity and fragmentation quality.

During original state, drop piece 62 is driven by the second take-off and landing device 611, drop piece 62 drives smashing device 63 complete by Entirely in the second cavity volume 61, now, make the bottom surface of smashing device 63 at utmost away from the first cavity volume 51, meanwhile, male rotor Protuberance side on 6331 is at utmost away from the top surface side of piece under pressure 632, and now, piece under pressure 632 is by elastic component 6332 Tensile force, the top position for making piece under pressure 632 be located in the second slid chamber 631, meanwhile, fragmentation is driven by piece under pressure 632 The top section of plug 635 is at utmost probeed into the second slid chamber 631, now, the bottom afterbody of fragmentation plug 635 and fragmentation tooth 634 Bottom is in same level, meanwhile, sliding rack 52 is located at the right-most position in the first cavity volume 51, now, makes sliding rack Groove 526 in 52 tops be located at the position directly below of the bottom of port 55 and is to be connected state, meanwhile, risen and fallen dress by first The bottom position that the maximum of 532 drive stalk frame 53 is probeed into the 3rd cavity volume 521 is put, now, makes the top of stalk frame 53 maximum Degree is as shown in Figure 4 away from the bottom side of groove 526.

When needing fragmentation stalk, stalk is poured into guide cone bucket 7, stalk is fallen into end after the guiding of guide cone bucket 7 In mouth 55, then fallen into through port 55 in the groove 526 of the lower section of port 55, the first of the lower section of groove 526 is fallen into after groove 526 In slid chamber 531, until stalk is fallen completely within first slid chamber 531 at the top of sieve 533, now, the first motor is controlled 523 the first spiral shell shape bars 522 of drive rotate, and drive sliding rack 52 gradually along the left side in the first cavity volume 51 by the first spiral shell shape bar 522 Direction slides, until when sliding rack 52 is moved to the left-most position in the first cavity volume 51, makes in the left end face of sliding rack 52 The left-hand end of second row outlet 525 is in intercommunication state with the right-hand end of first row outlet 54, and now, the first motor 523 of control stops Spin-ended turn, meanwhile, the first take-off and landing device 532 of control is opened, and makes the first take-off and landing device 532 drive stalk frame 53 gradually to hold along the 3rd The inner roof wall direction of chamber 521 slides, until when the top surface of stalk frame 53 and the inner roof wall of the 3rd cavity volume 521 abut against, makes stalk frame 53 left The left-hand end of the 3rd row's outlet 534 in side end face is in intercommunication state with the right-hand end of second row outlet 525, now controls the first Dropping control device 532 is closed, meanwhile, control the second take-off and landing device 611 open, by the second take-off and landing device 611 driven drop piece 62 and The smashing device 63 for playing the bottom of drop piece 62 is gradually slid as shown in figure 5, now, gradually making along the bottom direction in the second cavity volume 61 The bottom afterbody of smashing device 63 is gradually probeed into groove 526, until playing the bottom surface of drop piece 62 and the top surface phase of sliding rack 52 as shown in Figure 6 During abutting, the bottom afterbody of smashing device 63 is set at utmost to probe into the first slid chamber 531 in stalk frame 53, and to sieve The stalk of 533 top surfaces carries out initial fragmentation work, then, controls male rotor 6331 to rotate by rotating device, by male rotor Protuberance reciprocating rotary top pressure piece under pressure 632 on 6331, piece under pressure 632 is set to overcome and the tensile force by elastic component 6332 Drive piece under pressure 632 to continue toward the sliding up and down in the second slid chamber of complex edge 631, now, fragmentation plug is driven by piece under pressure 632 635 continue reciprocal sliding work flexible up and down, and the second slid chamber is probeed into when the protuberance on male rotor 6331 at utmost rotates When being abutted against in 631 with the top surface of piece under pressure 632, now, piece under pressure 632 drives the bottom afterbody of fragmentation plug 635 at utmost to stretch Put on display outside the bottom surface of smashing device 63 as shown in fig. 7, then driving the positive and reverse return of the second spiral shell shape bar 6211 by the second motor 6212 Turn, drive smashing device 63 to be moved back and forth along the fore-and-aft direction moved in groove 621 is led by the second spiral shell shape bar 6211, realize to sieve Stalk in 533 the first slid chambers 531 of top carries out abundant fragmentation work, and now, the stalk through fragmentation is through the net in sieve 533 Hole 5331 is fallen into the first slid chamber 531 of the lower section of sieve 533, then leads shifting by the bottom bevel of the bottom of the first slid chamber 531 Enter the 3rd row's outlet 534, then successively through second row outlet 525 and the row's pedestals 5 of first row outlet 54 times outside.

The beneficial effects of the invention are as follows：

The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any The change or replacement expected without creative work, it should all be included within the scope of the present invention.Therefore, it is of the invention Protection domain should be determined by the scope of protection defined in the claims.

Claims

1. a kind of renewable and clean energy resource processing unit (plant), including pedestal and the fragmentation case installed in top surface on the left of pedestal and the right side The guide cone bucket of side top surface, it is characterised in that：The first cavity volume that left and right stretching, extension is set is provided with pedestal, bottom is provided with fragmentation case The second cavity volume set with intercommunication at the top of the first cavity volume below fragmentation case, the first cavity volume inner top break-through below guide cone bucket The port set provided with top and the intercommunication of guide cone bucket bottom, the interior sliding of the first cavity volume are connected with sliding rack, sliding rack bottom Portion is provided with to move and taken turns, and the 3rd cavity volume is provided with sliding rack, is slid in the 3rd cavity volume and is connected with stalk frame, and the of stalk frame bottom Be provided with the first take-off and landing device in three cavity volumes, the sliding rack inner spiral line below the 3rd cavity volume is connected with left and right stretching, extension setting First spiral shell shape bar, the first spiral shell shape bar right side stretching, extension afterbody and the first motor are connected, and the first slid chamber is provided with stalk frame, Sieve is fixedly installed in first slid chamber, mesh is provided with sieve, the 3rd cavity volume inner roof wall is provided with groove, slided in the second cavity volume Shifting has been connected with drop piece, rises in the second cavity volume at the top of drop piece and is provided with the second take-off and landing device, rises to be provided with drop piece bottom surface and leads Groove is moved, front and rear stretching, extension in shifting groove is led and is provided with the second spiral shell shape bar, it is electronic that the second spiral shell shape bar rear side stretching, extension afterbody is connected with second Machine, lead whorl on the second spiral shell shape bar moved in groove and be connected with the smashing device that stretching, extension is set downwards, smashing device bottom Stretching, extension afterbody has been stretched out outside drop piece bottom surface, and base bottom is provided with the axostylus axostyle that base bottom wall body is traversed in left and right, axostylus axostyle pedestal Inwall rotatable engagement connects, and termination is fixedly installed road wheel respectively at left and right sides of axostylus axostyle.

A kind of 2. renewable and clean energy resource processing unit (plant) according to claim 1, it is characterised in that：The first spiral shell shape bar Left side stretching, extension afterbody is connected with the first cavity volume inner left wall rotatable engagement, and the first motor outer surface is arranged at described Inwall is interior on the right side of first cavity volume and is fixedly connected；Stretching, extension afterbody moves the rotation of groove front inner wall with described lead on front side of the second spiral shell shape bar Turn to be connected, the second motor outer surface is arranged at described lead and moves in groove rear side inwall and be fixedly connected.

A kind of 3. renewable and clean energy resource processing unit (plant) according to claim 1, it is characterised in that：Below the fragmentation case The pedestal on front side of be provided with first row outlet in outer surface, the 3rd cavity volume front inner wall is interior provided with to described first Arrange the second row outlet that outlet intercommunication is connected, the bottom position break-through in the first slid chamber front inner wall be provided with to The 3rd row's outlet being connected with the second row outlet intercommunication.

A kind of 4. renewable and clean energy resource processing unit (plant) according to claim 1, it is characterised in that：The smashing device bottom Face is provided with fragmentation tooth, and sliding is connected with the smashing device bottom surface between each fragmentation tooth stretches setting up and down Fragmentation plug, the second slid chamber is provided with the smashing device, is slid in second slid chamber and is connected with piece under pressure, The second slid chamber inner bottom wall described in stretch section break-through and probeed at the top of the fragmentation plug in second slid chamber, the fragmentation Stretching, extension afterbody is fixedly connected with the piece under pressure bottom surface at the top of plug, and intercommunication, which is provided with, in the second slid chamber inner roof wall converts Groove, the conversion tank internal rotation are connected with male rotor, and rotation is fixedly installed in the conversion tank on the left of the male rotor Rotary device, equity is provided with elastic component in the conversion tank of the male rotor front and rear sides, each elastic component top afterbody It is fixedly connected with the conversion tank inner roof wall, each elastic component bottom afterbody is fixed with the piece under pressure top surface to be connected Connect.