CN111649575B - Ventilation drying device for conveying garbage of high-rise building - Google Patents

Abstract

The invention discloses a ventilation drying device for conveying garbage in a high-rise building, which comprises conveying pipelines penetrating through all floors, ventilation assemblies and drying assemblies, wherein the ventilation assemblies and the drying assemblies are arranged on all the floors; the dry subassembly includes install bin, columniform dry pipeline, columniform heating electricity core, rubbish calandria and drainage pipe, dry pipeline is located the install bin, rubbish pouring opening has been seted up to the upper surface of install bin, the rubbish import has been seted up to the upper end of dry pipeline, rubbish pouring opening and rubbish import intercommunication, be provided with the regulation pipeline around the rubbish import, the top of adjusting the pipeline is provided with the pipe cap, the pipe cap uses with the cooperation of regulation pipeline, the top of pipe cap is provided with drive assembly.

Description

Ventilation drying device for conveying garbage of high-rise building

Technical Field

The invention relates to the field of garbage treatment, in particular to a ventilation drying device for conveying garbage in high-rise buildings.

Background

With the continuous development of society, the living standard of people is also improving continuously, and the living environment of people also changes continuously, and most of the urban residents live in high-rise buildings at present. Residents living in high-rise buildings often have to frequently shuttle in the elevator to dump garbage, and in order to facilitate the residents living in the high-rise buildings to dump garbage, therefore, a device for conveying garbage is produced, but the existing high-rise building garbage conveying device is not high in cleanliness and short in service life.

Disclosure of Invention

The invention aims to provide a ventilation drying device for conveying high-rise building garbage, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a high-rise building rubbish is carried and is used ventilation drying device, ventilation drying device is including running through the pipeline of each floor and setting up ventilation assembly and the dry subassembly at each floor, ventilation assembly is used for the ventilation in the pipeline, dry subassembly is used for dry rubbish to with in the rubbish transmission path pipeline.

According to the technical scheme, the garbage is firstly dried, so that the humidity of the garbage is reduced, juice in the garbage is prevented from splashing on the inner wall of the conveying pipeline in the conveying process of the garbage, the conveying pipeline is prevented from being corroded by the juice which comes down for a long time, the service life of the conveying pipeline is shortened, the bad smell of the ventilation drying device caused by the conveyed garbage is reduced, and the tidiness of the ventilation drying device is ensured; the ventilation assembly is used for further ventilating the conveying pipeline, so that the ventilation performance in the conveying pipeline is guaranteed, the breeding of bacteria in the conveying pipeline is reduced, and the service life of the conveying pipeline is prolonged.

Preferably, the drying assembly comprises an installation box, a cylindrical drying pipeline, a cylindrical heating electric core, a garbage discharging pipe and a drainage pipeline, the drying pipeline is located in the installation box, a garbage dumping port is formed in the upper surface of the installation box, a garbage inlet is formed in the upper end of the drying pipeline, the garbage dumping port is communicated with the garbage inlet, an adjusting pipeline is arranged around the garbage inlet, a pipeline cover is arranged above the adjusting pipeline, the inner diameter of the pipeline cover is reduced along the direction from the drying pipeline to the pipeline cover, the pipeline cover is matched with the adjusting pipeline for use, a driving assembly is arranged above the pipeline cover and used for driving the pipeline cover to move up and down, the heating electric core is located in the drying pipeline, the heating electric core and the drying pipeline are coaxially arranged, an aluminum protective frame provided with a plurality of first through holes is arranged outside the heating electric core, a plurality of second through holes are formed in the drying pipeline, a garbage discharging port is formed below the drying pipeline, a garbage baffle controlled by an electromagnetic valve is arranged at the garbage discharging port, a bent buffer section is arranged on the garbage discharging pipe, one end of the discharging pipe penetrates through the installation box and is connected with the drainage hole, and the drainage pipe, and the drainage hole is communicated with the lower surface of the installation box; the utility model discloses a ventilation drying device, including the conveying pipeline, be provided with the flitch in the conveying pipeline, the flitch is arranged including row material section and speed reduction section, the upper surface of arranging the material section is for following the direction downward sloping of conveying pipeline toward the speed reduction section, the upper surface of speed reduction section is the horizontal plane, the length of speed reduction section is less than the length of arranging the material section, be provided with the space between speed reduction section and the conveying pipeline, the one end that the row material section was kept away from to the speed reduction section is provided with wire rope, wire rope and conveying pipeline fixed connection, ventilation drying device still includes the buffering subassembly, the buffering subassembly is located the conveying pipeline, the buffering subassembly is used for restricting the direction of motion of the rubbish of last floor in the conveying pipeline and alleviates rubbish and to the impact force of conveying pipeline.

In the technical scheme, when the ventilation drying device is used for conveying garbage, the driving component is controlled to drive the pipeline cover to move upwards, the pipeline cover is moved out of the garbage dumping opening, so that the upper surface of the installation box is exposed out of the garbage inlet, the garbage is dumped into the drying pipeline from the garbage inlet, the driving component is controlled to drive the pipeline cover to move downwards, the pipeline cover enters the garbage dumping opening to cover the garbage inlet, juice in the garbage flows to the installation box from the second through hole and then flows into the drainage pipeline from the drainage hole, and the drainage pipeline is connected with an external sewer pipeline, so that the juice in the garbage flows into the sewer and is discharged from the sewer; the heating electric core heats the air, so that the garbage in the drying pipeline is heated through air heat exchange, moisture in the garbage is evaporated, and moisture contained in the garbage is further reduced; the cylindrical drying pipeline and the cylindrical heating electric core increase the contact area with garbage and air, and improve the garbage drying speed; the protective frame is used for keeping the cleanliness of the heating battery cell, preventing garbage from being stuck on the surface of the heating battery cell and reducing the heating efficiency of the heating battery cell; the protection frame is made of aluminum, and the first through holes in the protection frame are convenient for rapidly transmitting heat to the garbage in the drying pipeline; the inner diameter of the pipeline cover is reduced along the direction from the drying pipeline to the pipeline cover, so that heat can be gathered conveniently, and the heated air can dry the garbage intensively and uniformly; when the garbage in the drying pipeline is dried, the baffle is opened, the garbage enters the conveying pipeline from the garbage discharge pipe to reach the discharge plate, and then sequentially passes through the buffer assembly of the next floor and the discharge plate of the next floor from the gap between the speed reduction section and the conveying pipeline until the garbage is discharged from the conveying pipeline; the buffering section is used for reducing the speed of the garbage discharged onto the discharging plate, and the speed of the garbage separated from the discharging plate is further reduced due to the arrangement of the speed reducing section, so that the potential energy of the garbage in the descending process of the conveying pipeline is reduced, the pressure of the garbage on the buffering assembly of the next floor and the discharging plate of the next floor is reduced, and the buffering assembly and the discharging plate are prevented from being damaged; the setting of buffering subassembly is used for providing the holding power for the rubbish of decline in-process to reduce the potential energy of rubbish decline in-process, reduce the pressure that the row of the floor material board of rubbish below the face caused, the buffering subassembly makes rubbish can accurately get into the row of the next floor material board simultaneously, prevents that rubbish from directly arriving pipeline's lower extreme from the space, and the potential energy of rubbish is great this moment, when contacting with pipeline, leads to pipeline to damage easily.

Preferably, dry subassembly is located one side of pipeline, ventilation subassembly, buffering subassembly are located pipeline and keep away from dry subassembly's opposite side, the distance between buffering subassembly and the last floor is the height of half floor, the ventilation subassembly includes air inlet ventilator, air inlet pipeline, the intake duct that has the air inlet drill way, exhaust ventilator, exhaust pipe and the exhaust passage that has the exhaust drill way, air inlet ventilator passes through air inlet pipeline and intake duct intercommunication, exhaust ventilator passes through exhaust pipe and exhaust passage intercommunication, air inlet ventilator, exhaust ventilator install on pipeline's outer wall, intake duct and exhaust passage are installed on pipeline's inner wall, the intake duct is located the top of exhaust passage.

In the technical scheme, dry air outside the device is sucked into an air inlet pipeline by an air inlet ventilator so as to reach an air inlet channel and is exhausted into a conveying pipeline from an air inlet hole, so that the humidity in the conveying pipeline is reduced, wet air in the conveying pipeline enters an exhaust channel from an exhaust hole by the air blowing ventilator and then enters the exhaust pipeline and is exhausted out of the conveying pipeline by the exhaust ventilator, so that the air circulation is forced, the humidity in the conveying pipeline is reduced, and the breeding of bacteria in the conveying pipeline is reduced; in the process that the garbage descends in the conveying pipeline, when the garbage contacts with the discharge plate and the buffering assembly, a small amount of moisture can be extruded, so that the humidity in the conveying pipeline is increased, and a certain amount of broken particle garbage can be generated; the air inlet channel is positioned above the air outlet channel, so that the sunk wet air is convenient to discharge.

Preferably, the buffering assembly comprises a buffering table, the upper surface of the buffering table inclines downwards towards the center of the conveying pipeline along the pipeline wall of the conveying pipeline, the upper surface of the buffering table is in a wave shape, the upper surface of the buffering table comprises a gentle section and a descending section, the gentle end and the descending section are arranged at intervals, and the width of the gentle section is larger than that of the descending section.

In the technical scheme, the upper surface of the buffer table is downwards inclined towards the center of the conveying pipeline along the pipeline wall of the conveying pipeline, and the gentle end and the descending section are arranged at intervals, so that garbage falling from the gap can accurately enter a lower discharging plate through the guide of the buffer table, and the garbage is prevented from directly reaching the lower end of the conveying pipeline from the gap to damage the conveying pipeline; the friction force is utilized, so that the speed of the garbage can be obviously reduced by the gentle section, and the potential energy in the descending process of the garbage is reduced.

Preferably, the diameter of the adjusting pipeline is increased along the direction from the drying pipeline to the pipeline cover, the adjusting pipeline comprises an outer pipeline, an inner pipeline and a spring, the outer pipeline is connected with the inner pipeline in a sliding mode, a connecting opening is formed in the upper end of the outer pipeline, the spring is located at the bottom end of the connecting opening, the inner pipeline is located above the spring, the spring is fixedly connected with the outer pipeline and the inner pipeline, limiting sliding grooves are formed in two ends of the connecting opening, limiting protrusions are arranged on the inner pipeline, and the limiting sliding grooves and the limiting protrusions are matched for use.

In the above technical scheme, when drive assembly drive pipeline lid pressed on adjusting the pipeline, the upper end contact of pipeline lid and interior pipeline, utilize the nature that the spring can compress, press interior pipeline into outer pipeline, when drive assembly drive pipeline lid left from adjusting the pipeline, because the elasticity of spring, interior pipeline shifts out from outer pipeline, thereby make the capacity of adjusting the pipeline adjustable, consequently, the setting of adjusting the pipeline makes the rubbish capacity that drying assembly bore adjustable, when the rubbish spills over to adjusting the pipeline toward in the drying pipeline, drive assembly drive pipeline lid pushes down interior pipeline and just no longer compresses to certain position, thereby prevent that rubbish from transferring into the install bin, influence the transport of rubbish.

Optimally, the driving assembly comprises a motor, a coupler, a fixed plate, a first lead screw, a lead screw nut, a lifting plate and a guide rod, the motor is connected with the first lead screw through the coupler, the fixed plate is fixed on the outer wall of the conveying pipeline, the motor is fixed on the fixed plate through a motor frame, the lead screw nut is sleeved on the first lead screw, the lifting plate is connected with the lead screw nut, the upper end of the guide rod is fixedly connected with the lifting plate, the lower end of the guide rod is fixedly connected with the pipeline cover

In above-mentioned technical scheme, the motor passes through the shaft coupling and drives first lead screw rotation, and first lead screw passes through screw-nut and drives the lifter plate and reciprocate to the guide bar reciprocates following the lifter plate, and the pipe cap follows the rebound.

Preferably, pipeline's below is provided with rubbish delivery bend, rubbish delivery bend's diameter is less than pipeline, be provided with spacing pipeline between rubbish delivery bend and the pipeline, spacing pipeline includes half pipe of first slope and the half pipe of second slope, the half pipe of second slope is in same one side with the space, the degree of inclination of the half pipe of first slope is greater than the degree of inclination of the half pipe of second slope.

In the technical scheme, the arrangement of the garbage conveying curve further limits the potential energy of the garbage, and prevents the garbage from moving too far after coming out of the garbage conveying curve due to overlarge speed, so that the subsequent loading and cleaning of the garbage are inconvenient; rubbish gets into the half pipe of second slope from the space, gets into rubbish from the half pipe of second slope again and carries the bend, and the degree of inclination of the half pipe of first slope is greater than the degree of inclination of the half pipe of second slope, prevents that rubbish from piling up in half pipe of first slope department, and rubbish is difficult to discharge, is difficult to clear up.

Preferably, the cross section of the conveying pipeline is rectangular, the length of the discharge plate and the length of the buffer table are both smaller than the length between the inner walls of the conveying pipeline, and the width of the discharge plate and the width of the buffer table are both equal to the width between the inner walls of the conveying pipeline.

Among the above-mentioned technical scheme for rubbish can only get into the cushion table from the space, gets into from the cushion table again and arranges the material pipe, prevents to carry the rubbish in-process, and rubbish splashes everywhere, makes pipeline difficult to clear up.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the drying component is arranged to firstly dry the garbage, so that the humidity of the garbage is reduced, juice in the garbage is prevented from splashing on the inner wall of the conveying pipeline in the conveying process of the garbage in the conveying pipeline, the conveying pipeline is prevented from being corroded by the juice for a long time, the service life of the conveying pipeline is shortened, the unpleasant smell of the ventilation drying device caused by the conveyed garbage is reduced, and the tidiness of the ventilation drying device is ensured; further ventilate for pipeline through the setting of ventilation assembly, guarantee the ventilation performance in the pipeline, reduce breeding of bacterium in the pipeline, extension pipeline's life.

Drawings

FIG. 1 is a schematic structural view of a ventilation drying device for conveying garbage from a high-rise building according to the present invention;

FIG. 2 is a schematic structural diagram of a drying assembly of the ventilation drying device for conveying the garbage from the high-rise building;

FIG. 3 is a schematic structural diagram of a drying duct of the ventilation drying device for conveying garbage from a high-rise building according to the present invention;

FIG. 4 is a top view of a discharge plate of the ventilating and drying device for conveying garbage from a high-rise building according to the present invention;

FIG. 5 is a schematic structural view of an adjusting pipeline of the ventilation drying device for conveying garbage from a high-rise building of the present invention;

fig. 6 is a schematic structural view of a buffer table of the ventilation drying device for conveying the garbage in the high-rise building.

In the figure: the garbage drying device comprises a conveying pipeline 1, a drying component 2, an air inlet ventilator 3, an air inlet channel 4, an air inlet pipeline 5, an air outlet ventilator 6, an exhaust pipeline 7, an exhaust channel 8, an exhaust channel 9, a steel wire rope 10, a buffering table 11, a first inclined half pipe 11, a second inclined half pipe 12, a garbage conveying curve 13, a motor 14, a motor frame 15, a coupler 16, a fixing plate 17, a screw nut 18, a first screw rod 19, a lifting plate 20, a guide rod 21, a pipeline cover 22, a heating battery cell 23, a regulating pipeline 24, a protective frame 25, a mounting box 26, a drying pipeline 27, a baffle 28, a drainage pipeline 29, a garbage discharge pipe 30, a buffering section 31, a discharging section 32, a decelerating section 33, an inner pipeline 34, an outer pipeline 35, a limiting sliding groove 36, a limiting protrusion 37, a spring 38, a second through hole 39, a gap 40, a descending section 41 and a gentle section 42.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 6, in an embodiment of the present invention, a ventilation drying device for conveying garbage from a high-rise building includes a conveying pipeline 1 penetrating through each floor, and a ventilation assembly and a drying assembly 2 disposed on each floor, where the ventilation assembly is used for ventilation in the conveying pipeline 1, and the drying assembly 2 is used for drying garbage and conveying the garbage into the conveying pipeline 1.

The garbage is firstly dried, so that the humidity of the garbage is reduced, juice in the garbage is prevented from splashing on the inner wall of the conveying pipeline 1 in the conveying process of the garbage in the conveying pipeline 1, the conveying pipeline 1 is prevented from being corroded by the juice for a long time, the service life of the conveying pipeline 1 is shortened, the bad smell of the ventilation drying device caused by the conveyed garbage is reduced, and the tidiness of the ventilation drying device is ensured; the ventilation assembly is used for further ventilating the conveying pipeline 1, so that the ventilation performance in the conveying pipeline 1 is guaranteed, the breeding of bacteria in the conveying pipeline 1 is reduced, and the service life of the conveying pipeline 1 is prolonged.

The drying component 2 comprises an installation box 26, a cylindrical drying pipeline 27, a cylindrical heating electric core 23, a garbage discharging pipe 30 and a drainage pipeline 29, the drying pipeline 27 is located in the installation box 26, a garbage dumping port is formed in the upper surface of the installation box 26, a garbage inlet is formed in the upper end of the drying pipeline 27 and is communicated with the garbage inlet, an adjusting pipeline 24 is arranged around the garbage inlet, a pipeline cover 22 is arranged above the adjusting pipeline 24, the inner diameter of the pipeline cover 22 is reduced along the direction from the drying pipeline 27 to the pipeline cover 22, the pipeline cover 22 is matched with the adjusting pipeline 24 for use, a driving component is arranged above the pipeline cover 22 and is used for driving the pipeline cover 22 to move up and down, the heating electric core 23 is located in the drying pipeline 27, the heating electric core 23 and the drying pipeline 27 are coaxially arranged, an aluminum protection frame 25 provided with a plurality of first through holes is arranged outside the heating electric core 23, a plurality of second through holes 39 are formed in the drying pipeline 27, a garbage discharging port is formed below the drying pipeline 27, a garbage discharging port is formed in the garbage discharging pipe, a garbage baffle 28 controlled by an electromagnetic valve, a bent buffer section 31 is arranged on the garbage discharging pipe 30, one end of the garbage discharging pipe passes through a drainage hole of the installation box, and is communicated with the lower surface of the drainage pipeline 26, and is communicated with the lower surface of the installation box 26, and is communicated with the lower surface of the drainage pipeline 29, and is communicated with the installation box 1; be provided with the flitch of arranging in pipeline 1, the flitch includes row material section 32 and deceleration section 33, row material section 32's upper surface be along pipeline 1 toward the direction downward sloping of deceleration section 33, the upper surface of deceleration section 33 is the horizontal plane, the length of deceleration section 33 is less than row material section 32's length, be provided with space 40 between deceleration section 33 and the pipeline 1, that one end that row material section 32 was kept away from to deceleration section 33 is provided with wire rope 9, wire rope 9 and pipeline 1 fixed connection, the ventilation drying device still includes the buffering subassembly, the buffering subassembly is located pipeline 1, the buffering subassembly is used for limiting the motion direction of the rubbish of last floor in pipeline 1 and alleviates the impact force of rubbish to pipeline 1.

When the ventilation drying device is used for conveying garbage, the control driving assembly drives the pipeline cover 22 to move upwards, the pipeline cover 22 is moved out of the garbage dumping opening, so that the upper surface of the installation box 26 is exposed out of the garbage inlet, then the garbage is dumped into the drying pipeline 27 from the garbage inlet, the control driving assembly drives the pipeline cover 22 to move downwards, the pipeline cover 22 enters the garbage dumping opening to cover the garbage inlet, juice in the garbage flows to the installation box 26 from the second through hole 39 in the process of entering the drying pipeline 27 and then flows into the drainage pipeline 29 from the drainage hole, and the drainage pipeline 29 is connected with an external sewer pipeline, so that the juice in the garbage flows into a sewer and is discharged from the sewer; the heating battery cell 23 heats the air, so that the garbage in the drying pipeline 27 is heated through air heat exchange, moisture in the garbage is evaporated, and moisture contained in the garbage is further reduced, during the heating process of the heating battery cell 23, the air in the drying pipeline 27 exchanges heat with the air in the installation box 26 through the second through hole 39, so that the temperature of the air in the installation box 26 is raised, the juice remained in the installation box 26 is evaporated, bacteria generated in the installation box 26 by the juice are prevented, a bad smell is generated, and the installation box 26 is prevented from being corroded; the cylindrical drying pipeline 27 and the cylindrical heating electric core 23 increase the contact area with garbage and air, and improve the garbage drying speed; the protection frame 25 is used for keeping the cleanliness of the heating battery cell 23, preventing garbage from being adhered to the surface of the heating battery cell 23, and reducing the heating efficiency of the heating battery cell 23; the protection frame 25 is made of aluminum and the first through holes on the protection frame 25 are convenient for rapidly transmitting heat to the garbage in the drying pipeline 27; the inner diameter of the duct cap 22 is reduced in the direction from the drying duct 27 to the duct cap 22 for collecting heat, so that the heated air can intensively and uniformly dry the garbage; when the drying of the garbage in the drying pipeline 27 is completed, the baffle 28 is opened, the garbage enters the conveying pipeline 1 from the garbage discharge pipe 30 to reach the discharge plate, and then sequentially passes through the buffer assembly of the next floor and the discharge plate of the next floor from the gap 40 between the deceleration section 33 and the conveying pipeline 1 until the garbage is discharged from the conveying pipeline 1; the buffering section 31 is used for reducing the speed of the garbage discharged onto the discharging plate, and the speed reduction section 33 is arranged to further reduce the speed of the garbage when the garbage leaves from the discharging plate, so that the potential energy of the garbage in the descending process of the conveying pipeline 1 is reduced, the pressure of the garbage on the buffering assembly of the next floor and the discharging plate of the next floor is reduced, and the buffering assembly and the discharging plate are prevented from being damaged; the setting of buffering subassembly is used for providing the holding power for the rubbish of decline in-process to reduce the potential energy of rubbish decline in-process, reduce the pressure that the row of the floor material board of rubbish below the face caused, buffering subassembly makes rubbish can accurately get into the row of the floor material board of next floor simultaneously, prevents that rubbish from directly reaching pipeline 1's lower extreme from space 40, and the potential energy of rubbish is great this moment, when contacting with pipeline 1, leads to pipeline 1 to damage easily.

The drying component 2 is located on one side of the conveying pipeline 1, the ventilation component and the buffer component are located on the other side, far away from the drying component 2, of the conveying pipeline 1, the distance between the buffer component and the previous floor is half of the height of the floor, the ventilation component comprises an air inlet ventilator 3, an air inlet pipeline 5, an air inlet channel 4 with an air inlet hole, an exhaust ventilator 6, an exhaust pipeline 7 and an exhaust channel 8 with an exhaust hole, the air inlet ventilator 3 is communicated with the air inlet channel 4 through the air inlet pipeline 5, the exhaust ventilator 6 is communicated with the exhaust channel 8 through the exhaust pipeline 7, the air inlet ventilator 3 and the exhaust ventilator 6 are installed on the outer wall of the conveying pipeline 1, the air inlet channel 4 and the exhaust channel 8 are installed on the inner wall of the conveying pipeline 1

The air inlet ventilator 3 sucks dry air outside the device into the air inlet pipeline 5 to reach the air inlet channel 4, the dry air is discharged into the conveying pipeline 1 from an air inlet hole, the humidity in the conveying pipeline 1 is reduced, wet air in the conveying pipeline 1 enters the air exhaust channel 8 from an air exhaust hole by the air blowing ventilator, then enters the air exhaust pipeline 7 and is discharged out of the conveying pipeline 1 by the air exhaust ventilator 6, so that air circulation is forced, the humidity in the conveying pipeline 1 is reduced, and the breeding of bacteria in the conveying pipeline 1 is reduced; rubbish descends in pipeline 1, except can extruding a small amount of moisture when rubbish contacts with row material board, buffering subassembly, leads to pipeline 1 in the humidity to increase, also can produce some garrulous granule rubbish, the setting up of ventilation subassembly also can reduce garrulous granule rubbish and remain the probability of arranging material board, buffering subassembly to guarantee the clean and tidy nature in pipeline 1, do not need too much extra to manage cleanly.

The buffering assembly comprises a buffering table 10, the upper surface of the buffering table 10 inclines downwards towards the center of the conveying pipeline 1 along the pipeline wall of the conveying pipeline 1, the upper surface of the buffering table 10 is in a wave shape, the upper surface of the buffering table 10 comprises a gentle section 42 and a descending section 41, the gentle end and the descending section 41 are arranged at intervals, and the width of the gentle section 42 is larger than that of the descending section 41.

The upper surface of the buffer table 10 is inclined downwards along the pipeline wall of the conveying pipeline 1 to the center of the conveying pipeline 1, and the gentle end and the descending section 41 are arranged at intervals, so that the garbage falling from the gap 40 can accurately enter a lower discharging plate through the guiding of the buffer table 10, and the garbage is prevented from directly reaching the lower end of the conveying pipeline 1 from the gap 40 to damage the conveying pipeline 1; the flat sections 42 are enabled to significantly reduce the velocity of the waste by friction, thereby reducing the potential energy during the descent of the waste.

The diameter of the adjusting pipeline 24 is increased along the direction from the drying pipeline 27 to the pipeline cover 22, the adjusting pipeline 24 comprises an outer pipeline 35, an inner pipeline 34 and a spring 38, the outer pipeline 35 is connected with the inner pipeline 34 in a sliding manner, a connecting opening is formed in the upper end of the outer pipeline 35, the spring 38 is located at the bottom end of the connecting opening, the inner pipeline 34 is located above the spring 38, the spring 38 is connected with the outer pipeline 35, the inner pipeline 34 is fixedly connected, two ends of the connecting opening are provided with limiting sliding grooves 36, limiting bulges 37 are arranged on the inner pipeline 34, and the limiting sliding grooves 36 and the limiting bulges 37 are matched for use.

When the driving assembly drives the pipeline cover 22 to press on the adjusting pipeline 24, the pipeline cover 22 is in contact with the upper end of the inner pipeline 34, the inner pipeline 34 is pressed into the outer pipeline 35 by utilizing the compressible property of the spring 38, when the driving assembly drives the pipeline cover 22 to separate from the adjusting pipeline 24, the inner pipeline 34 is moved out of the outer pipeline 35 due to the elastic force of the spring 38, so that the capacity of the adjusting pipeline 24 is adjustable, the arrangement of the adjusting pipeline 24 enables the garbage capacity borne by the drying assembly 2 to be adjustable, and when garbage in the drying pipeline 27 overflows to the adjusting pipeline 24, the driving assembly drives the pipeline cover 22 to press the inner pipeline 34 to a certain position to be not compressed any more, so that the garbage is prevented from being transferred into the installation box 26 to influence the garbage conveying.

The driving assembly comprises a motor 14, a coupler 16, a fixing plate 17, a first lead screw 19, a lead screw nut 18, a lifting plate 20 and a guide rod 21, the motor 14 is connected with the first lead screw 19 through the coupler 16, the fixing plate 17 is fixed on the outer wall of the conveying pipeline 1, the motor 14 is fixed on the fixing plate 17 through a motor frame 15, the lead screw nut 18 is sleeved on the first lead screw 19, the lifting plate 20 is connected with the lead screw nut 18, the upper end of the guide rod 21 is fixedly connected with the lifting plate 20, and the lower end of the guide rod 21 is fixedly connected with a pipeline cover 22

The motor 14 drives the first screw rod 19 to rotate through the coupler 16, the first screw rod 19 drives the lifting plate 20 to move up and down through the screw nut 18, so that the guide rod 21 moves up and down along with the lifting plate 20, and the pipeline cover 22 moves up and down along with the guide rod.

The garbage conveying bend 13 is arranged below the conveying pipeline 1, the diameter of the garbage conveying bend 13 is smaller than that of the conveying pipeline 1, a limiting pipeline is arranged between the garbage conveying bend 13 and the conveying pipeline 1 and comprises a first inclined half pipe 11 and a second inclined half pipe 12, the second inclined half pipe 12 and the gap 40 are located on the same side, and the inclination degree of the first inclined half pipe 11 is larger than that of the second inclined half pipe 12.

The arrangement of the garbage conveying curved channel 13 further limits the potential energy of the garbage, and prevents the garbage from moving too far after coming out of the garbage conveying curved channel 13 due to overlarge speed, so that the subsequent loading and cleaning of the garbage are inconvenient; the garbage enters the second inclined half pipe 12 from the gap 40 and then enters the garbage conveying bend 13 from the second inclined half pipe 12, the inclination degree of the first inclined half pipe 11 is larger than that of the second inclined half pipe 12, so that the garbage is prevented from being accumulated at the first inclined half pipe 11, and the garbage is difficult to discharge and clean.

The cross section of the conveying pipeline 1 is rectangular, the length of the discharge plate and the length of the buffer table 10 are both smaller than the length between the inner walls of the conveying pipeline 1, and the width of the discharge plate and the width of the buffer table 10 are both equal to the width between the inner walls of the conveying pipeline 1.

The garbage can only enter the buffering table 10 from the gap 40 and then enter the discharging pipe from the buffering table 10, and the garbage is prevented from splashing around in the garbage conveying process, so that the conveying pipeline 1 is difficult to clean.

The working principle of the invention is as follows: when the ventilation drying device is used for conveying garbage, the control driving assembly drives the pipeline cover 22 to move upwards, the pipeline cover 22 is moved out of the garbage dumping opening, so that the upper surface of the installation box 26 is exposed out of the garbage inlet, then the garbage is dumped into the drying pipeline 27 from the garbage inlet, the control driving assembly drives the pipeline cover 22 to move downwards, the pipeline cover 22 enters the garbage dumping opening to cover the garbage inlet, juice in the garbage flows to the installation box 26 from the second through hole 39 in the process of entering the drying pipeline 27 and then flows into the drainage pipeline 29 from the drainage hole, and the drainage pipeline 29 is connected with an external sewer pipeline, so that the juice in the garbage flows into a sewer and is discharged from the sewer; the heating electric core 23 heats the air, so that the garbage in the drying pipeline 27 is heated through air heat exchange, the moisture in the garbage is evaporated, and the moisture in the garbage is further reduced; when the drying of the garbage in the drying pipeline 27 is completed, the baffle 28 is opened, the garbage enters the conveying pipeline 1 from the garbage discharge pipe 30 to reach the discharge plate, and then sequentially passes through the buffer table 10 of the next floor and the discharge plate of the next floor from the gap 40 between the deceleration section 33 and the conveying pipeline 1 until the garbage enters the limiting pipeline from the conveying pipeline 1, and finally is discharged from the garbage conveying curve 13.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (1)

1. The utility model provides a high-rise building rubbish is carried and is used ventilation drying device which characterized in that: the ventilation drying device comprises a conveying pipeline (1) penetrating through each floor, and a ventilation assembly and a drying assembly (2) which are arranged on each floor, wherein the ventilation assembly is used for ventilation in the conveying pipeline (1), and the drying assembly (2) is used for drying garbage and conveying the garbage into the conveying pipeline (1); the drying component (2) comprises an installation box (26), a cylindrical drying pipeline (27), a cylindrical heating electric core (23), a garbage discharge pipe (30) and a drainage pipeline (29), the drying pipeline (27) is located in the installation box (26), a garbage dumping opening is formed in the upper surface of the installation box (26), a garbage inlet is formed in the upper end of the drying pipeline (27) and communicated with the garbage inlet, an adjusting pipeline (24) is arranged around the garbage inlet, a pipeline cover (22) is arranged above the adjusting pipeline (24), the inner diameter of the pipeline cover (22) is reduced along the direction from the drying pipeline (27) to the pipeline cover (22), the pipeline cover (22) is matched with the adjusting pipeline (24) for use, a driving component is arranged above the pipeline cover (22) and used for driving the pipeline cover (22) to move up and down, the heating electric core (23) is located in the drying pipeline (27), the heating electric core (23) and the drying pipeline (27) are arranged in a concentric mode, a plurality of first through holes are formed in the outside the heating electric core (23), a plurality of protection holes (25) are formed in the protection holes formed in the upper portion of the aluminum protection pipe frame (25), a plurality of the protection valve control hole (27) is formed in the lower portion of the drying pipeline cover (27), and a plurality of the drying pipeline cover (27), a plurality of the drying pipeline cover (27) is arranged at the lower portion of the drying pipeline cover valve, and a coaxial of the drying pipeline cover (27), and a plurality of the drying pipeline cover valve control valve of the drying pipeline cover (27), and a plurality of the drying pipeline cover (27) are arranged at the drying pipeline cover valve control baffle plate (39), and a plurality of the drying pipeline cover (27) are arranged at the same coaxial baffle plate (27), the garbage discharging pipe (30) is provided with a bent buffer section (31), one end of the garbage discharging pipe (30) penetrates through the lower surface of the installation box (26) to be connected with a garbage discharging port, the other end of the garbage discharging pipe (30) is communicated with the conveying pipeline (1), the lower surface of the installation box (26) is provided with a water discharging hole, and the water discharging hole is communicated with a water discharging pipeline (29); the ventilating and drying device is characterized in that a discharging plate is arranged in the conveying pipeline (1), the discharging plate comprises a discharging section (32) and a decelerating section (33), the upper surface of the discharging section (32) is inclined downwards along the conveying pipeline (1) to the decelerating section (33), the upper surface of the decelerating section (33) is a horizontal plane, the length of the decelerating section (33) is smaller than that of the discharging section (32), a gap (40) is formed between the decelerating section (33) and the conveying pipeline (1), a steel wire rope (9) is arranged at one end, far away from the discharging section (32), of the decelerating section (33), the steel wire rope (9) is fixedly connected with the conveying pipeline (1), the ventilating and drying device further comprises a buffer assembly, the buffer assembly is located in the conveying pipeline (1), and the buffer assembly is used for limiting the movement direction of the garbage of the previous floor in the conveying pipeline (1) and relieving the impact force of the garbage on the conveying pipeline (1);

the diameter of the adjusting pipeline (24) is increased along the direction from the drying pipeline (27) to the pipeline cover (22), the adjusting pipeline (24) comprises an outer pipeline (35), an inner pipeline (34) and a spring (38), the outer pipeline (35) is in sliding connection with the inner pipeline (34), a connecting opening is formed in the upper end of the outer pipeline (35), the spring (38) is located at the bottom end of the connecting opening, the inner pipeline (34) is located above the spring (38), the spring (38) is fixedly connected with the outer pipeline (35) and the inner pipeline (34), limiting sliding grooves (36) are formed in two ends of the connecting opening, limiting protrusions (37) are arranged on the inner pipeline (34), and the limiting sliding grooves (36) and the limiting protrusions (37) are matched for use;

the driving assembly comprises a motor (14), a coupler (16), a first lead screw (19) of a fixing plate (17), a lead screw nut (18), a lifting plate (20) and a guide rod (21), the motor (14) is connected with the first lead screw (19) through the coupler (16), the fixing plate (17) is fixed on the outer wall of the conveying pipeline (1), the motor (14) is fixed on the fixing plate (17) through a motor frame (15), the lead screw nut (18) is sleeved on the first lead screw (19), the lifting plate (20) is connected with the lead screw nut (18), the upper end of the guide rod (21) is fixedly connected with the lifting plate (20), and the lower end of the guide rod (21) is fixedly connected with a pipeline cover (22);

the buffer assembly comprises a buffer table (10), the upper surface of the buffer table (10) inclines downwards towards the center of the conveying pipeline (1) along the pipeline wall of the conveying pipeline (1), the upper surface of the buffer table (10) is in a wave shape, the upper surface of the buffer table (10) comprises a gentle section (42) and a descending section (41), the gentle section (42) and the descending section (41) are arranged at intervals, and the width of the gentle section (42) is larger than that of the descending section (41);

the below of pipeline (1) is provided with rubbish delivery bend (13), the diameter of rubbish delivery bend (13) is less than pipeline (1), be provided with spacing pipeline between rubbish delivery bend (13) and pipeline (1), spacing pipeline includes half pipe (11) of first slope and half pipe (12) of second slope, half pipe (12) of second slope are in same one side with space (40), the degree of slope of half pipe (11) of first slope is greater than the degree of slope of half pipe (12) of second slope.

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