CN117840180A - Greening garbage treatment process - Google Patents

Abstract

The invention discloses a greening garbage treatment process, which comprises a containing groove and a crusher, wherein the containing groove is arranged on a transport vehicle, the top of the containing groove is open, the crusher is arranged at the rear end of the containing groove, a discharge hole of the crusher is communicated with the inside of the containing groove, a feed inlet of the crusher faces upwards, and the greening garbage treatment process further comprises a conveyor belt assembly, a supporting cylinder and a traveling driving device, wherein the traveling driving device is used for controlling the conveyor belt assembly and the supporting cylinder to travel back and forth on the containing groove; the upper end and the lower end of the supporting cylinder are respectively in running fit with the conveyor belt assembly and the lower trundle, and the supporting cylinder is in rolling fit with the side wall of the accommodating groove through the lower trundle. The conveyor belt assembly can move to the top of the accommodating groove to cover the top of the accommodating groove; in addition, through the cooperation of walking drive arrangement and prop up top hydro-cylinder, can remove the conveyer belt assembly to between the feed inlet of breaker and the ground to make things convenient for the branch to import the feed inlet gradually and carry out the breakage.

Description

Greening garbage treatment process

Technical Field

The invention relates to a greening garbage treatment process.

Background

The Chinese patent No. CN201921645599.9 discloses an environmental sanitation greening garbage compression vehicle in 7 months and 3 days in 2020, and the environmental sanitation greening garbage compression vehicle comprises a vehicle body, a garbage compression box, a garbage collection bucket assembly and a lifting bucket driving oil cylinder for controlling the motion of the garbage collection bucket assembly, wherein a push plate is arranged in the garbage compression box, and a material pressing oil cylinder is arranged between the back surface of the push plate and the garbage compression box; the garbage collection bucket assembly comprises a bracket, a baffle, a sliding plate, a material lifting oil cylinder, a scraping plate, a scraping oil cylinder and a hopper; still include branch breaker, branch breaker includes broken case, break roller and broken actuating mechanism, broken case and broken actuating mechanism set up on the hopper, are equipped with the break roller in the broken case, and the break roller is connected with broken actuating mechanism transmission, and broken case is equipped with feed inlet and discharge gate, and the discharge gate communicates with the inside of hopper. The branch crushing device with the structure can crush branches, the branches are crushed and then collected and compressed in the garbage compression box, and the branches do not need to be transported to a crushing point to be crushed, so that the time is saved and the space utilization rate of the garbage compression box is improved; however, because the garbage collection hopper is higher in position, greening maintenance personnel are inconvenient to move the branches into the garbage collection hopper, and the garbage collection hopper can only pour all the loaded branches at one time, so that the feed inlet of the branch crushing device is easy to block.

In addition, in the broken in-process of branch, raise dust problem appears, therefore rubbish compression case top need be closed, and in order to be convenient for clean, rubbish compression case top needs to attach the function that can open again.

In addition, the garbage compression box has a complex structure and high cost.

Disclosure of Invention

The invention aims to provide a greening garbage treatment carriage which has reasonable structure and can convey garbage into a crusher through a conveyor belt assembly, wherein the top of a containing groove is covered by the conveyor belt assembly in the transportation process.

The purpose of the invention is realized in the following way:

the greening garbage disposal carriage comprises a containing groove and a crusher, wherein the containing groove is arranged on a transport vehicle, the top of the containing groove is open, the crusher is arranged at the rear end of the containing groove, a discharge hole of the crusher is communicated with the inside of the containing groove, a feed inlet of the crusher faces upwards, and the greening garbage disposal carriage further comprises a conveyor belt assembly, a supporting cylinder and a traveling driving device, wherein the traveling driving device is used for controlling the conveyor belt assembly and the supporting cylinder to travel back and forth on the containing groove; the upper end and the lower end of the supporting cylinder are respectively in running fit with the conveyor belt assembly and the lower trundle, and the supporting cylinder is in rolling fit with the side wall of the accommodating groove through the lower trundle.

The aim of the invention can be also solved by adopting the following technical measures:

as a more specific scheme, a spray header is further arranged at the top of the accommodating groove, the spray header is connected with a water tank through a water pump pipeline, and the water tank is arranged on the accommodating groove; the conveyor belt assembly is located above the spray header. Through spraying broken branches, on the one hand, the dust fall effect can be achieved, and on the other hand, broken objects sprayed are agglomerated and deposited, so that the occupation of space is reduced. In addition, because the branches are rubbed with the sawing wheel at a high speed in the breaking process, a certain temperature rise exists, the spontaneous combustion risk exists, and the phenomenon of spontaneous combustion of scraps can be avoided through spraying.

As a further scheme, the conveyor belt assembly comprises a conveyor belt, a power roller, a driven roller and a bracket, wherein the power roller and the driven roller are rotatably arranged on the bracket, and the conveyor belt is wound outside the power roller and the driven roller; the support is a parallel rod distributed on two sides of the conveyor belt, the front end of the parallel rod extends out of the front end of the conveyor belt and is provided with a front upper caster, the rear end of the parallel rod extends to the side of the rear end of the conveyor belt and is provided with a rear upper caster, a yielding port is formed between the front end of the conveyor belt and the front end of the support, and the upper end of the supporting cylinder is hinged with the support; the walking driving device is a walking driving motor and is in transmission connection with the front upper caster; the upper guide rails are arranged on two sides of the top of the accommodating groove, the rear ends of the upper guide rails are open, and the front upper casters and the rear upper casters are placed on the upper guide rails in a rolling mode.

As a further scheme, the lateral wall of holding groove is equipped with the lower guide rail, lower truckle roll and hold and put on the lower guide rail, the rear end of lower guide rail is sealed.

As a further scheme, the rear end of the accommodating groove is a movable tail plate, the upper end of the movable tail plate is hinged with the side wall of the accommodating groove, and a lock rod is arranged between the upper end of the movable tail plate and the accommodating groove.

As a further scheme, the crusher is arranged on the rear outer side of the movable tail plate in an up-down overturning manner, and a through hole is formed in the movable tail plate corresponding to the discharge hole of the crusher.

As a further scheme, the bottom of the accommodating groove is connected with the frame of the transport vehicle through a jacking oil cylinder, and two ends of the jacking oil cylinder are respectively hinged with the accommodating groove and the frame.

As a further scheme, a heating device is arranged in the water tank. As the broken branches can be used as fertilizer and sprayed with hot water, the broken branches are favorable for absorbing water and shortening the decomposition process.

The invention aims to provide a greening garbage treatment carriage which has reasonable structure and can convey garbage into a crusher through a conveyor belt assembly, wherein the top of a containing groove is covered by the conveyor belt assembly in the transportation process.

The purpose of the invention is realized in the following way:

a greening garbage treatment process, which comprises the following steps: spraying branch scraps output after the branches are crushed, or steaming the branch scraps;

step two: heating and controlling water content of the wet branch scraps, drying until the water content is 4-15%, and scattering the wet branch scraps to a loose state;

step three: filling the dried branch scraps into the mold cavity;

step four: extruding the branch scraps into a groove-shaped fiber scraps container by adopting a heating hot-pressing die head, and maintaining pressure and heat for a certain time at the same time;

step five: after waiting for a moment, the fiber chip container is ejected.

The aim of the invention can be also solved by adopting the following technical measures:

as a more specific scheme, the bottom and the side wall of the fiber chip container are provided with water permeable holes. The permeable holes are beneficial to water inflow in the material of the fiber chip container and accelerate the decomposition of the fiber chip container.

The beneficial effects of the invention are as follows:

(1) The conveyor belt assembly can move to the top of the accommodating groove, so that the top of the accommodating groove in the transportation process is covered, the risk of falling down of transported objects is reduced, and dust emission is reduced; in addition, through the cooperation of walking drive arrangement and prop up top hydro-cylinder, can remove the conveyer belt assembly to the transport vechicle rear end to one end extends to ground, and the other end extends to the feed inlet of breaker to make things convenient for the branch to input the feed inlet gradually and carry out the breakage.

(2) The invention also has the spray header, reduces dust emission and the agglomeration of broken objects by spraying, reduces the occupation of space and improves the utilization rate of the accommodating groove.

(3) The invention heats the crushed objects after wetting (namely the crushed objects in the greening garbage disposal carriage can be directly used for heating) or cooks and heats, which is beneficial for heat to penetrate into the crushed objects and plays roles of sterilization and disinsection; the water is further controlled by heating, so that the water has a certain expansion degree and a certain compression space, and can be pressed to a certain shape by self through compression of a die; and further drying and shaping are realized by adopting heating compression molding.

(4) The fiber chip container produced in the greening garbage treatment process can be used as a disposable loading vessel for placing environmental greening, and the vessel is automatically decomposed and forms organic fertilizer in the use process, so that the environment is not polluted, and the growth of plants is facilitated.

Drawings

Fig. 1 is a schematic structural view of an embodiment of a garbage disposal carriage for greening in the present invention.

Fig. 2 is a schematic view of the conveyor belt assembly of fig. 1 after extending horizontally.

Fig. 3 is a schematic view of the conveyor belt assembly of fig. 2 after being turned down.

Fig. 4 is a schematic structural view of an automatic dumping state of a green garbage disposal carriage in the invention.

FIG. 5 is a schematic top view of a conveyor belt assembly according to the present invention.

FIG. 6 is a flow chart of the greening garbage treatment process according to the invention.

FIG. 7 is a schematic diagram of the mold structure in the present invention.

FIG. 8 is a schematic view of the structure of the mold after press-fitting in the present invention.

Fig. 9 is a schematic view of the structure of the mold after press-fitting in fig. 8.

Fig. 10 is a schematic view of the fibrous debris receptacle of fig. 9 after ejection.

Detailed Description

The invention is further described below with reference to the accompanying drawings and examples:

referring to fig. 1 and 5, a greening garbage disposal carriage comprises a containing groove 20 and a crusher 6, wherein the containing groove 20 is arranged on a transport vehicle 10, the top of the containing groove 20 is open, the crusher 6 is arranged at the rear end of the containing groove 20, a discharge port 64 of the crusher 6 is communicated with the inside of the containing groove 20, a feed port 61 of the crusher 6 faces upwards, the greening garbage disposal carriage further comprises a conveyor belt assembly 5, a supporting cylinder 3 and a traveling driving device 1, and the traveling driving device 1 is used for controlling the conveyor belt assembly 5 and the supporting cylinder 3 to travel back and forth on the containing groove 20; the upper end and the lower end of the supporting cylinder 3 are respectively in running fit with the conveyor belt assembly 5 and the lower trundle 31, and the supporting cylinder 3 is in rolling fit with the side wall of the accommodating groove 20 through the lower trundle 31.

The top of the accommodating groove 20 is also provided with a spray header 4, the spray header 4 is connected with the water tank 2 through a water pump pipeline, and the water tank 2 is arranged on the accommodating groove 20; the conveyor belt assembly 5 is located above the shower head 4.

The conveyor belt assembly 5 comprises a conveyor belt 55, a power roller 53 (not shown in a dynamic diagram of the power roller), a driven roller 54 and a bracket 51, wherein the power roller 53 and the driven roller 54 are rotatably arranged on the bracket 51, and the conveyor belt 55 is wound outside the power roller 53 and the driven roller 54; the support 51 is a parallel rod distributed on two sides of the conveyor belt 55, the front end of the parallel rod extends out of the front end of the conveyor belt 55 and is provided with a front upper caster 11, the rear end of the parallel rod extends to the side of the rear end of the conveyor belt 55 and is provided with a rear upper caster 52, a yielding port 56 is formed between the front end of the conveyor belt 55 and the front end of the support 51, and the upper end of the supporting cylinder 3 is hinged with the support 51; the walking driving device 1 is a walking driving motor and is in transmission connection with the front upper caster 11; the upper guide rails 7 are arranged on two sides of the top of the accommodating groove 20, the rear ends of the upper guide rails 7 are open, and the front upper caster wheels 11 and the rear upper caster wheels 52 are in rolling bearing on the upper guide rails 7.

The side wall of the accommodating groove 20 is provided with a lower guide rail 8, the lower castor 31 is rollingly supported on the lower guide rail 8, and the rear end of the lower guide rail 8 is closed.

The rear end of the accommodating groove 20 is a movable tail plate 21, the upper end of the movable tail plate 21 is hinged with the side wall of the accommodating groove 20, and a lock rod is arranged between the upper end of the movable tail plate 21 and the accommodating groove 20.

The crusher 6 is vertically turned over and arranged on the rear outer side of the movable tail plate 21, and the movable tail plate 21 is provided with a through hole 211 corresponding to the discharge hole 64 of the crusher 6.

The bottom of the accommodating groove 20 is connected with the frame of the transport vehicle 10 through a jacking oil cylinder 9, and two ends of the jacking oil cylinder 9 are respectively hinged with the accommodating groove 20 and the frame. After the lock rod of the movable tail plate 21 is opened, the movable tail plate 21 can swing along with the swing of the accommodating groove 20, so that the movable tail plate 21 can be automatically opened during material pouring.

The crusher 6 comprises a casing 63, a plurality of sawing wheels 62 and a high-speed motor (not shown in the figure), wherein each sawing wheel 62 is concentrically arranged along the axial direction and is simultaneously connected with the high-speed motor in a transmission way, the sawing wheels 62 are positioned in the casing 63, and the casing 63 is provided with the feed inlet 61 and the discharge outlet 64.

The crusher 6 and the movable end plate 21 may be driven to swing up and down by cylinders (not shown), respectively.

The working principle is as follows: in the state of fig. 1, the conveyor belt assembly 5 and the supporting cylinder 3 (the piston rod of the supporting cylinder 3 stretches out in the state of fig. 1) are controlled to move backwards to the state shown in fig. 2, the piston rod of the supporting cylinder 3 is controlled to retract until the rear end of the conveyor belt assembly 5 descends to the state shown in fig. 3 (i.e. the front upper caster wheel 52 lands), the branches 30 are placed on the conveyor belt 55, the branches 30 can enter a feed inlet 61 of the crusher 6 along the arrow direction and then contact with the sawing wheel 62 rotating at high speed to realize crushing, and meanwhile, the spray header 4 implements spray dust fall.

As shown in connection with figure 6 of the drawings,

a greening garbage treatment process, which comprises the following steps: spraying the branch scraps output after the branch is crushed (the branch scraps poured out of the accommodating box 20 in the embodiment are sprayed, and spraying can be omitted), or steaming the branch scraps;

step two: heating and controlling water content of the wet branch scraps (such as putting the wet branch scraps into a heating furnace for heating and stirring), drying until the water content is 4-15%, and scattering the wet branch scraps into a loose state;

step three: as shown in connection with fig. 7-8, the dried branch chips 205 are filled into the mold cavity 203 of the mold; the mold in this embodiment includes a plurality of lower molds 202 connected by a conveyor chain 200, the plurality of lower molds 202 and the conveyor chain 200 together enclose a loop and control movement by a transmission mechanism. A hot press die 201 is provided corresponding to the lower die 202 on the upper side.

Step four: as shown in fig. 9, a heated hot-pressing die 201 is used to press the branch chips 205 into a die cavity 203 filled with the branch chips, and the pressure and heat are maintained for a certain time (the lower die 202 is controlled to stop moving) so as to press the branch chips into a groove-shaped fiber chip container 206;

step five: after waiting for a moment (this waiting process may be when the lower die 202 on the upper side moves to the lower side and the die cavity is down), the lower die 202 stops moving, ejecting the fiber-chip container 206. Wherein, be equipped with roof 207 in the die cavity 203 bottom of lower mould 202, roof 207 is connected with ejector pin 209, and ejector pin 209 stretches out to the bottom of lower mould 202 outside, and ejector pin 209 outer end still is equipped with top contact 204, is equipped with reset spring 208 between top contact 204 and the bottom of lower mould 202. Also included is a ejector cylinder 300 for ejecting the ejector contact 204, the ejector contact 204 being pushed by the ejector cylinder 300 to control the ejector plate 207 to eject the fiber scrap receptacle 206 within the mold cavity 203.

The foregoing is a preferred embodiment of the invention showing and describing the general principles, features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing embodiments, which have been described in the foregoing embodiments and description merely illustrates the principles of the invention, and that various changes and modifications may be effected therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents.

Claims (1)

1. A greening garbage treatment process is characterized in that:

step one: spraying branch scraps output after the branches are crushed, or steaming the branch scraps;

the process of spraying branch scraps is completed by a greening garbage disposal carriage, the greening garbage disposal carriage comprises a containing groove and a crusher, wherein the containing groove is arranged on a transport vehicle, the top of the containing groove is open, the crusher is arranged at the rear end of the containing groove, a discharge hole of the crusher is communicated with the inside of the containing groove, a feed inlet of the crusher faces upwards, and the greening garbage disposal carriage further comprises a conveyor belt assembly, a supporting cylinder and a traveling driving device, wherein the traveling driving device is used for controlling the conveyor belt assembly and the supporting cylinder to travel back and forth on the containing groove; the upper end and the lower end of the supporting cylinder are respectively in running fit with the conveyor belt assembly and the lower trundle, and the supporting cylinder is in rolling fit with the side wall of the accommodating groove through the lower trundle; the top of the accommodating groove is also provided with a spray header, the spray header is connected with a water tank through a water pump pipeline, and the water tank is arranged on the accommodating groove; the conveyor belt assembly is positioned above the spray header; the conveyor belt assembly comprises a conveyor belt, a power roller, a driven roller and a bracket, wherein the power roller and the driven roller are rotatably arranged on the bracket, and the conveyor belt is wound outside the power roller and the driven roller; the support is a parallel rod distributed on two sides of the conveyor belt, the front end of the parallel rod extends out of the front end of the conveyor belt and is provided with a front upper caster, the rear end of the parallel rod extends to the side of the rear end of the conveyor belt and is provided with a rear upper caster, a yielding port is formed between the front end of the conveyor belt and the front end of the support, and the upper end of the supporting cylinder is hinged with the support; the walking driving device is a walking driving motor and is in transmission connection with the front upper caster; the upper guide rails are arranged on two sides of the top of the accommodating groove, the rear ends of the upper guide rails are open, and the front upper casters and the rear upper casters are placed on the upper guide rails in a rolling manner; a heating device is arranged in the water tank, hot water is sprayed, and the broken objects can absorb water conveniently;

controlling the conveyor belt assembly and the supporting cylinder to move backwards, controlling the piston rod of the supporting cylinder to retract until the rear end of the conveyor belt assembly descends to the front upper caster wheel to land, placing branches on the conveyor belt, enabling the branches to enter a feed inlet of a crusher, then contacting with a sawing wheel rotating at a high speed to realize crushing, and simultaneously, implementing spraying and dust falling by a spray header;

step two: heating and controlling water content of the wet branch scraps, drying until the water content is 4-15%, and scattering the wet branch scraps to a loose state;

step three: filling the dried branch scraps into the mold cavity;

step four: extruding the branch scraps into a groove-shaped fiber scraps container by adopting a heating hot-pressing die head, and maintaining pressure and heat for a certain time at the same time;

step five: after waiting for a moment, ejecting the fiber chip container; the bottom and the side wall of the fiber chip container are provided with water permeable holes, and the fiber chip container is used as a disposable loading vessel for placing environmental greening articles, and the vessel is automatically decomposed and forms organic fertilizer in the use process.