Device for preparing reclaimed sand stone from building garbage particles
阅读说明:本技术 一种建筑垃圾颗粒物制取再生砂石料装置 (Device for preparing reclaimed sand stone from building garbage particles ) 是由 肖占和 于 2020-08-03 设计创作,主要内容包括:本发明涉及建筑技术领域,更具体的说是一种建筑垃圾颗粒物制取再生砂石料装置,解决了建筑垃圾不能有效的得到循环再利用,不只是资源的浪费,也破坏生态环境,特别是粉刷墙壁时会废弃的混凝土的问题,本发明包括放料装置;放料装置与第一加工装置固定连接,第一加工装置与筛分装置连通,筛分装置与第二加工装置连通,筛分装置与搅拌装置相连通;通过设置第一加工装置和第二加工装置,第一加工装置能够把容易搅碎的建筑垃圾进行搅碎,且第一加工装置具有双重搅碎,不容易搅碎的建筑垃圾通过第二加工装置进行进一步加工,再通过第一加工装置搅碎为小颗粒,合格的颗粒通过搅拌装置搅拌,再通过出料管出料,垃圾再利用,保护环境的同时,节约资源。(The invention relates to the technical field of buildings, in particular to a device for preparing reclaimed sand stone from building garbage particles, which solves the problems that the building garbage cannot be effectively recycled, not only is the resource waste, but also the ecological environment is damaged, and particularly, the concrete which is discarded when a wall is painted is wasted; the feeding device is fixedly connected with the first processing device, the first processing device is communicated with the screening device, the screening device is communicated with the second processing device, and the screening device is communicated with the stirring device; through setting up first processingequipment and second processingequipment, first processingequipment can stir garrulous building rubbish easily, and first processingequipment has dual garrulous, is difficult to stir garrulous building rubbish and carries out further processing through second processingequipment, and the first processingequipment of rethread is stirred garrulous for the tiny particle, and qualified granule passes through the agitating unit stirring, and the ejection of compact of rethread discharging pipe, rubbish is recycled, when the environmental protection, resources are saved.)
1. A device for preparing reclaimed sand and stone materials from building garbage particles comprises a discharging device (1), a first processing device (2), a screening device (3), a second processing device (4), a spiral lifting machine (5) and a stirring device (6); the method is characterized in that: the material discharging device is characterized in that the material discharging device (1) is fixedly connected with the first processing device (2), the first processing device (2) is communicated with the screening device (3), the screening device (3) is communicated with the second processing device (4), the second processing device (4) is communicated with the spiral lifting machine (5), the spiral lifting machine (5) is communicated with the first processing device (2), the screening device (3) is communicated with the stirring device (6), and the stirring device (6) is connected with the material discharging device (1) through a hose (7).
2. The device for preparing the reclaimed sand stone from the construction waste particles as claimed in claim 1, wherein: the discharging device (1) comprises a positioning plate (1-1), a charging hopper (1-2), a first connecting rod (1-3), a second connecting rod (1-4), a discharging shell (1-5), a first discharging belt wheel (1-6), a second discharging belt wheel (1-7), a third discharging belt wheel (1-8), a fourth discharging belt wheel (1-9), a second discharging shaft (1-10), a second discharging turbine (1-11), a discharging motor (1-12), a first discharging spiral screw (1-13), a discharging screw nut (1-14), a discharging worm (1-15), a first discharging helical gear (1-16), a first turning shaft (1-17), a second turning shaft (1-18), a first turning helical gear (1-19), a second turning helical gear (1-20), A turning shaft IV (1-21), a turning bevel gear III (1-22), a turning bevel gear IV (1-24), a transmission bevel gear I (1-25), a transmission bevel gear II (1-26), a connecting shaft I (1-27), a connecting shaft II (1-28), a connecting belt wheel (1-29), a connecting transmission belt (1-30), a connecting shaft III (2-4) and a connecting motor (1-32); the positioning plate (1-1) is fixedly connected with the first processing device (2), the positioning plate (1-1) is connected with the charging hopper (1-2) through two groups of cross rods, each group of cross rods is formed by hinging two groups of connecting rods (1-3), the two groups of cross rods are respectively connected through connecting rods (1-4), one group of connecting rods (1-4) penetrates through the charging shell (1-5) to be connected with the charging belt wheels (1-6) and the charging belt wheels (1-7) in a key-connecting mode, the charging belt wheels (1-6) are connected with the charging belt wheels (1-8) through charging transmission belts (1-33), the charging belt wheels (1-8) are connected with the charging shafts (1-34) in a key-connecting mode, and the charging shafts (1-34) are provided with charging turbines (1-35), the discharging belt wheel II (1-7) is connected with the discharging belt wheel II (1-9) through a discharging driving belt II (1-36), the discharging belt wheel IV (1-9) is connected with the discharging shaft II (1-10) in a key mode, a discharging turbine II (1-11) is arranged on the discharging shaft II (1-10), a discharging motor (1-12) is connected with a discharging spiral screw rod (1-13) through a coupler, the discharging spiral screw rod (1-13) is in threaded connection with a discharging screw rod nut (1-14), the discharging screw rod nut (1-14) is movably connected with a discharging worm gear (1-15), the discharging worm gear (1-15) is in key connection with a discharging shaft (1-16), a turning shaft I (1-17) and a turning shaft II (1-18) are further arranged in a discharging shell (1-5), the device is characterized in that a first turning helical gear (1-19) is arranged on the first turning shaft (1-17), the first turning helical gear (1-19) is meshed with a second turning helical gear (1-20), the second turning helical gear (1-20) is in key connection with a third turning shaft (1-21), the second turning helical gear (1-20) is meshed with a third turning helical gear (1-22), the third turning helical gear (1-22) is in key connection with a fourth turning shaft (1-23), a fourth turning helical gear (1-24) is arranged on the second turning shaft (1-18), the fourth turning helical gear (1-24) is meshed with the third turning helical gear (1-22), the third turning helical gear (1-22) is in key connection with the fourth turning shaft (1-21), and an intermediate gear is arranged on the fourth turning shaft (1-21), the middle gear is connected with a four turning bevel gear (1-24) in a key mode, the four turning bevel gear (1-24) is connected with a second turning shaft (1-18) in a key mode, a first transmission bevel gear (1-25) is further arranged on the fourth turning shaft (1-21), the first transmission bevel gear (1-25) is connected with a second transmission bevel gear (1-26) in a key mode, the second transmission bevel gear (1-26) is connected with a first connecting shaft (1-27) in a key mode, the first connecting shaft (1-27) and the second connecting shaft (1-28) are respectively provided with a connecting belt wheel (1-29), two groups of connecting belt wheels (1-29) are provided with a connecting transmission belt (1-30), two groups of connecting belt wheels (1-29) are connected through the connecting transmission belt (1-30), and the second connecting shaft (1-28) is connected with a third connecting shaft (2-4), and the connecting shaft III (2-4) is connected with the connecting motor (1-32) through a coupler.
3. The device for preparing the reclaimed sand stone from the construction waste particles as claimed in claim 2, wherein: the first processing device (2) comprises a first processing shaft (2-1), a first connecting bevel gear (2-2), a second connecting bevel gear (2-3), a first processing and crushing gear set (2-8), a first processing belt wheel (2-9), a second processing belt wheel (2-10), a processing transmission belt (2-11), a second processing shaft (2-12), a second processing and crushing gear set (2-13), a rack transmission belt (2-14), a processing transmission gear (2-15) and a processing transmission shaft (2-16); the connecting motor (1-32) is in key connection with the connecting helical gear I (2-2), the connecting helical gear I (2-2) is meshed with the connecting helical gear II (2-3), the connecting helical gear II (2-3) is in key connection with the connecting shaft III (2-4), the connecting shaft III (2-4) is in key connection with the incomplete gear (2-5), the incomplete gear (2-5) is arranged in the rack frame (2-6), the incomplete gear (2-5) is meshed with the rack frame (2-6), the rack frame (2-6) is meshed with the connecting gear (2-7), the connecting gear (2-7) is in key connection with the processing shaft I (2-1), and the processing shaft I (2-1) penetrates through the first processing shell to be in key connection with the processing crushing gear set I (2-8), the processing shaft I (2-1) is provided with a processing belt wheel I (2-9) key connection, the processing belt wheel I (2-9) is connected with a processing belt wheel II (2-10) through a processing transmission belt (2-11), the second processing belt wheel (2-10) is in key connection with the second processing shaft (2-12), the second processing shaft (2-12) is in key connection with the second processing and crushing gear set (2-13), the first processing and crushing gear set (2-8) and the second processing and crushing gear set (2-13) are respectively meshed with the rack transmission belt (2-14), the rack transmission belt (2-14) is meshed with the two groups of processing transmission gears (2-15), and each group of processing transmission gears (2-15) is connected with the processing transmission shaft (2-16) in a key mode.
4. The device for preparing the reclaimed sand stone from the construction waste particles as claimed in claim 1, wherein: the screening device (3) comprises a screen body (3-1), a first hinged rod (3-2), a second hinged rod (3-3), a third hinged rod (3-4), a screening screw nut (3-5), a transmission screw (3-6), a first transmission gear (3-7), a first transmission helical gear (3-8), a second transmission helical gear (3-9), a first steering shaft (3-10), a steering wheel (3-11), a half gear (3-12), a second steering shaft (3-13), a steering transmission rod (3-14), a rotating rod (3-15), a third steering shaft (3-16) and a first steering transmission belt wheel (3-17); the screen body (3-1) is communicated with a second processing device (4), a first hinged rod (3-2), a second hinged rod (3-3) and a third hinged rod (3-4) are sequentially arranged at two ends of the screen body (3-1), two ends of the first hinged rod (3-2), the second hinged rod (3-3) and the third hinged rod (3-4) are respectively hinged with the screen body (3-1) and a screening shell, the second hinged rod (3-3) is hinged with a screening spiral lead screw nut (3-5), the spiral lead screw nut is in threaded connection with a transmission lead screw (3-6), the transmission lead screw (3-6) is in key connection with a first transmission gear (3-7) stirring device (6), and a first transmission bevel gear (3-8) is arranged on the transmission lead screw (3-6), the first transmission helical gear (3-8) is meshed with the second transmission helical gear (3-9), the second transmission helical gear (3-9) is in key connection with a first steering shaft (3-10), a first steering shaft (3-10) is provided with a steering wheel (3-11), the steering wheel (3-11) is meshed with a half gear (3-12), the half gear (3-12) is in key connection with a second steering shaft (3-13), the half gear (3-12) is hinged with a steering transmission rod (3-14), the steering transmission rod (3-14) is further hinged with a rotating rod (3-15), the rotating rod (3-15) is sleeved with a third steering shaft (3-16), the third steering shaft (3-16) is further provided with a first steering transmission belt wheel (3-17), the first steering transmission belt wheel (3-17) is connected with the second processing device (4).
5. The device for preparing the reclaimed sand stone from the construction waste particles as claimed in claim 1, wherein: the second processing device (4) comprises a second processing shell (4-1), a processing rotating shaft (4-2), a processing connecting belt wheel I (4-3), a processing connecting belt I (4-4), a processing motor (4-5), a hammer crushing device (4-6) and a processing connecting belt II (4-7); two groups of processing rotating shafts (4-2) are arranged in the second processing shell, a first processing connecting belt wheel (4-3) is arranged on each group of processing rotating shafts (4-2), the two groups of processing connecting belt wheels (4-3) are connected through a first processing connecting belt (4-4), one group of processing rotating shafts (4-2) are connected with a processing motor (4-5) through a coupler, a second processing connecting belt wheel (4-8) is arranged on each group of processing rotating shafts (4-2), and a plurality of groups of hammer crushing devices (4-6) are arranged in the second processing shell;
the hammer smashing device (4-6) comprises a hammer smashing shaft I (4-6-1), an irregular hammer smashing wheel (4-6-2), a hammer smashing wheel (4-6-3), a hammer smashing rod (4-6-4), a hammer smashing shaft II (4-6-5) and a hammer smashing block (4-6-6); the hammer crusher is characterized in that irregular hammer crushing wheels (4-6-2) are arranged on the hammer crushing shaft I (4-6-1), the irregular hammer crushing wheels (4-6-2) and the hammer crushing wheels (4-6-3) are in contact with the hammer crushing rods (4-6-4), the hammer crushing wheels (4-6-3) are in key connection with the hammer crushing shaft II (4-6-5), the hammer crushing rods (4-6-4) are fixedly connected with the hammer crushing blocks (4-6-6), hammer crushing connecting gears (4-6-7) are arranged on the hammer crushing shaft I (4-6-1) and the hammer crushing shaft II (4-6-2), and the two sets of hammer crushing connecting gears (4-6-7) are meshed.
6. The device for preparing the reclaimed sand stone from the construction waste particles as claimed in claim 1, wherein: the stirring device (6) comprises a stirring shell (6-1), a stirring shaft (6-2), a stirring blade (6-3), a stirring belt wheel I (6-4), a stirring belt wheel II (6-5), a stirring transmission belt (6-6), a stirring transmission shaft I (6-7), a stirring bevel gear I (6-8), a stirring transmission bevel gear II (6-9), a stirring transmission shaft II (6-10) and a second transmission gear (6-11); the stirring shell (6-1) is communicated with the discharge pipe, the stirring shell (6-1) is communicated with the hose (7), a stirring shaft (6-2) is arranged in the stirring shell (6-1), a stirring blade (6-3) is arranged on the stirring shaft (6-2), the stirring shaft (6-2) is in key connection with a first stirring belt wheel (6-4), the first stirring belt wheel (6-4) is connected with a second stirring belt wheel (6-5) through a stirring transmission belt (6-6), the second stirring belt wheel (6-5) is in key connection with a first stirring transmission shaft (6-7), the first stirring transmission shaft (6-7) is in key connection with a first stirring helical gear (6-8), and the first stirring helical gear (6-8) is meshed with a second stirring transmission helical gear (6-9), the second stirring transmission bevel gear (6-9) is in key connection with the second stirring transmission shaft (6-10), a second transmission gear (6-11) is arranged on the second stirring transmission shaft (6-10), and the second transmission gear (6-11) is meshed with the first transmission gear (3-7).
Technical Field
The invention relates to the technical field of buildings, in particular to a device for preparing reclaimed sand stone from building garbage particles.
Background
The building material comprises concrete, mortar, cement bricks and the like which are widely used, and the basic production materials are cement, sand and stone.
The exploitation and supply of sand, stone and cement raw materials required by the building can continuously cause irreversible influence on the environment, the building garbage cannot be effectively recycled, not only is the resource waste, but also the ecological environment is damaged, and particularly, the waste concrete is used for plastering walls.
Disclosure of Invention
The invention relates to the technical field of buildings, in particular to a device for preparing reclaimed sand stone from building garbage particles.
In order to solve the technical problems, the invention relates to the technical field of buildings, in particular to a device for preparing reclaimed sand and stone materials from building garbage particles, which comprises a discharging device, a first processing device, a screening device, a second processing device, a spiral lifting machine and a stirring device, wherein the discharging device is arranged on the top of the discharging device; the feeding device is fixedly connected with the first processing device, the first processing device is communicated with the screening device, the screening device is communicated with the second processing device, the second processing device is communicated with the spiral lifting machine, the spiral lifting machine is communicated with the first processing device, the screening device is communicated with the stirring device, and the stirring device is connected with the feeding device through a hose.
As a further optimization of the technical scheme, the device for preparing the reclaimed sand stone from the building garbage particles comprises a positioning plate, a charging hopper, a first connecting rod, a second connecting rod, a charging shell, a first charging belt wheel, a second charging belt wheel, a third charging belt wheel, a fourth charging belt wheel, a second charging shaft, a second charging turbine, a charging motor, a charging spiral screw, a charging screw nut, a charging worm, a charging helical gear, a first turning shaft, a second turning shaft, a first turning helical gear, a second turning helical gear, a third turning shaft, a third turning helical gear, a fourth turning shaft, a fourth turning helical gear, a first transmission helical gear, a second transmission helical gear, a first connecting shaft, a second connecting shaft, a connecting belt wheel, a connecting belt, a third connecting shaft and a connecting motor; the positioning plate is fixedly connected with the first processing device, the positioning plate is connected with the charging hopper through two groups of cross rods, each group of cross rods is formed by hinging two groups of connecting rods, the two groups of cross rods are respectively connected through a connecting rod II, one group of connecting rods II penetrates through the charging shell to be connected with a charging belt wheel I and a charging belt wheel II in an equal key mode, the charging belt wheel I is connected with a charging belt wheel III through a charging transmission belt I, the charging belt wheel III is connected with a charging shaft I through a key, the charging shaft I is provided with a charging turbine I, the charging belt wheel II is connected with a charging belt wheel IV through a charging transmission belt II, the charging belt wheel IV is connected with a charging shaft II through a key, the charging shaft II is provided with a charging turbine II, the charging motor is connected with a charging screw through a coupler, the charging screw is in threaded connection with a charging screw nut, and the charging, the discharging worm is connected with the discharging helical gear key, a first turning shaft and a second turning shaft are further arranged in the discharging shell, a first turning helical gear is arranged on the first turning shaft and meshed with a second turning helical gear, a second turning helical gear is connected with a third turning shaft and meshed with a third turning helical gear, a third turning helical gear is connected with a fourth turning shaft and provided with an intermediate gear, the intermediate gear is connected with a fourth turning helical gear in a four-key mode, a fourth turning helical gear is connected with a second turning shaft in a two-key mode, a first transmission helical gear is further arranged on the fourth turning shaft and connected with a second transmission helical gear in a two-key mode, a second transmission helical gear is connected with a first connecting shaft in a one-key mode, the first connecting shaft and the second connecting shaft are both provided with connecting belt wheels, and connecting belts are arranged on the two groups of connecting, the two groups of connecting belt wheels are connected through a connecting driving belt, the second connecting shaft is connected with the third connecting shaft through a coupler, and the third connecting shaft is connected with a connecting motor through a coupler.
As a further optimization of the technical scheme, the device for preparing the reclaimed sand stone from the building garbage particles comprises a first processing device, a second processing device, a third processing device and a fourth processing device, wherein the first processing device comprises a first processing shaft, a first connecting bevel gear, a second connecting bevel gear, a first processing crushing gear set, a first processing belt wheel, a second processing driving belt, a second processing shaft, a second processing crushing gear set, a rack driving belt, a transmission gear and a transmission shaft; the connecting motor is connected with a first connecting bevel gear, the first connecting bevel gear is meshed with a second connecting bevel gear, the second connecting bevel gear is connected with a third connecting shaft, the third connecting shaft is connected with an incomplete gear, the incomplete gear is arranged in a rack frame, the incomplete gear is meshed with the rack frame, the rack frame is meshed with the connecting gear, the connecting gear is connected with a first processing shaft in a key mode, the first processing shaft penetrates through a first processing shell to be connected with a first processing crushing gear set in a key mode, a first processing belt wheel is arranged on the first processing shaft in a key mode, the first processing belt wheel is connected with a second processing belt wheel in a processing transmission belt mode, the second processing belt wheel is connected with a second processing shaft in a key mode, the second processing shaft is connected with a second processing crushing gear set in a key mode, the first processing crushing gear set and the second processing crushing gear set are respectively meshed with, the rack transmission belt is meshed with the two groups of processing transmission gears, and each group of processing transmission gears is in key connection with the processing transmission shaft.
As further optimization of the technical scheme, the device for preparing the reclaimed sand stone from the building garbage particles comprises a screen body, a first hinge rod, a second hinge rod, a third hinge rod, a screening spiral screw nut, a transmission screw, a first transmission gear, a first transmission helical gear, a second transmission helical gear, a first steering shaft, a steering wheel, a half gear, a second steering shaft, a steering transmission rod, a rotating rod, a third steering shaft and a first steering transmission belt wheel; the screen body is communicated with a second processing device, a first hinge rod, a second hinge rod and a third hinge rod are sequentially arranged at two ends of the screen body, two ends of the first hinge rod, the second hinge rod and the third hinge rod are respectively hinged with the screen body and the screening shell, the second hinge rod is hinged with a screening spiral lead screw nut, the spiral lead screw nut is in threaded connection with a transmission lead screw, the transmission lead screw is in key connection with a first transmission gear stirring device, a first transmission helical gear is arranged on the transmission lead screw, the first transmission helical gear is meshed with a second transmission helical gear, the second transmission helical gear is in key connection with a steering shaft, a steering wheel is arranged on the steering shaft, the steering wheel is meshed with a half gear, the half gear is in key connection with the steering shaft, the half gear is hinged with a steering transmission rod, the steering transmission rod is further hinged with the rotating rod, the rotating rod is sleeved with a third steering shaft, a first steering transmission belt wheel is further arranged on the third steering shaft, and the first steering transmission belt wheel is connected with a second processing device.
As a further optimization of the technical scheme, the device for preparing the reclaimed sand stone from the building garbage particles comprises a second processing shell, a processing rotating shaft, a processing connecting belt wheel I, a processing connecting belt I, a processing motor, a hammer crushing device and a processing connecting belt II, wherein the second processing shell is provided with a first processing connecting belt wheel; two groups of processing rotating shafts are arranged in the second processing shell, a first processing connecting belt wheel is arranged on each group of processing rotating shafts, the two groups of processing connecting belt wheels are connected through a first processing connecting belt, one group of processing rotating shafts are connected with a processing motor through a coupler, a second processing connecting belt wheel is arranged on each group of processing rotating shafts, and a plurality of groups of hammer crushing devices are arranged in the second processing shell;
the hammer crushing device comprises a hammer crushing shaft I, an irregular hammer crushing wheel, a hammer crushing rod, a hammer crushing shaft II and a hammer crushing block; the hammer crusher is characterized in that an irregular hammer wheel is arranged on the hammer crushing shaft, the irregular hammer wheel and the hammer crushing wheel are in contact with the hammer crushing rod, the hammer crushing wheel is in two-key connection with the hammer crushing shaft, the hammer crushing rod is fixedly connected with the hammer crushing block, a hammer crushing connecting gear is arranged on the hammer crushing shaft and the hammer crushing shaft, and the hammer crushing shaft are in two-gear engagement.
As a further optimization of the technical scheme, the device for preparing the reclaimed sand stone from the building garbage particles comprises a stirring shell, a stirring shaft, a stirring blade, a first stirring belt wheel, a second stirring belt wheel, a stirring transmission belt, a first stirring transmission shaft, a first stirring helical gear, a second stirring transmission shaft and a second transmission gear; stirring casing and discharging pipe intercommunication, stirring casing is linked together with the hose, be provided with the (mixing) shaft in the stirring casing, be provided with stirring vane on the (mixing) shaft, the (mixing) shaft is connected with stirring band pulley key-type, stirring band pulley one is connected through stirring drive belt with stirring band pulley two, stirring band pulley two is connected with stirring transmission shaft key-type, stirring transmission shaft one is connected with stirring helical gear key-type, stirring helical gear one meshes with stirring transmission helical gear two-phase, stirring transmission helical gear two is connected with stirring transmission shaft two-phase key-type, be provided with second drive gear on the stirring transmission shaft two, second drive gear meshes with first drive gear mutually.
The device for preparing the reclaimed sand stone from the building garbage particles has the beneficial effects that:
the invention relates to the technical field of buildings, in particular to a device for preparing regenerated aggregate from building garbage particles, which comprises a first processing device and a second processing device, wherein the first processing device can stir and crush building garbage which is easy to stir and crush, the first processing device is provided with double stirring and crushing functions and is used for informing the first processing device of forward and reverse rotation, the device is prevented from being stuck and broken down, the building garbage which is difficult to stir and crush is further processed through the second processing device and then crushed into small particles through the first processing device, qualified particles screened out by a screening device are stirred through the stirring device, the screening device can move up and down, the screening efficiency is higher, the screen mesh can be prevented from being blocked by the garbage particles, the building particles are discharged through a discharge pipe, the garbage is recycled, and the environment is protected while the resources are saved.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a first structural schematic diagram of the discharging device of the present invention.
Fig. 3 is a second structural schematic diagram of the discharging device of the present invention.
Fig. 4 is a third schematic structural diagram of the discharging device of the present invention.
Fig. 5 is a fourth schematic structural view of the discharging device of the present invention.
Fig. 6 is a first schematic structural diagram of a first processing device according to the present invention.
Fig. 7 is a second schematic structural view of the first processing device of the present invention.
Fig. 8 is a third schematic structural view of the first processing device of the present invention.
Fig. 9 is a first structural schematic diagram of the screening device of the present invention.
Fig. 10 is a schematic structural view of a screening device of the present invention.
Fig. 11 is a first schematic structural diagram of a second processing device according to the present invention.
Fig. 12 is a second schematic structural view of a second processing apparatus according to the present invention.
Fig. 13 is a schematic structural view of the stirring device of the present invention.
In the figure: a
Detailed Description