CN112298855A

CN112298855A - Rectilinear rubbish compression transfer system

Info

Publication number: CN112298855A
Application number: CN202011096755.8A
Authority: CN
Inventors: 徐刚翠
Original assignee: Yangzhou Songlin Environmental Protection Equipment Co ltd
Current assignee: Shandong Delong Bder Environmental Protection Equipment & Development Co ltd
Priority date: 2020-10-14
Filing date: 2020-10-14
Publication date: 2021-02-02
Anticipated expiration: 2040-10-14
Also published as: CN112298855B

Abstract

The application discloses rectilinear rubbish compression transfer system, including storage device, compressor arrangement and discharging device, storage device includes the fixed bolster, is fixed in the bottom plate of fixed bolster, bottom plate department is connected with the rotor plate through the pivot, rotor plate department has the ring gear, bottom plate department installs driving motor, driving motor drive have with ring gear meshing's gear, bottom plate department has the installation breach, installation breach department installs first hydraulic cylinder, finger cylinder is installed to first hydraulic cylinder's expansion end, rotor plate department is fixed with a plurality of storage barrels that are the open long cubic in top that circle equidistant distribution, and compressor arrangement is used for compaction rubbish, and discharging device is used for releasing rubbish to the transfer car. The system of this application, it is big to take up an area of for a short time and rubbish memory space.

Description

Rectilinear rubbish compression transfer system

Technical Field

The application relates to the field of garbage compression, in particular to a vertical garbage compression transfer system.

Background

With the continuous improvement of living standard of people and the increasing requirements on environmental conditions, the garbage station with the traditional significance in cities and countryside can not meet the requirements of people on new concepts of high efficiency, environmental protection, energy conservation, low consumption and the like, so the popularization of the compression type garbage station is imperative. The compression type garbage transfer station has the advantages of small occupied area, good concealment, reasonable space structure and the like, and leads the development of the garbage transfer station industry. Because the occupation area of the garbage transfer station is limited, and a large amount of garbage can be transferred, higher requirements are provided for the garbage compression efficiency and the space utilization efficiency.

Disclosure of Invention

The purpose of the invention is as follows: the application aims at overcoming the defects of the prior art and provides the vertical garbage compression transfer system.

The technical scheme is as follows: a vertical garbage compression transfer system comprises a storage device, a compression device and a discharge device, wherein the storage device comprises a fixed support and a lower fixing plate fixed on the fixed support, the lower fixing plate is connected with a rotating plate through a rotating shaft, the rotating plate is provided with a gear ring, a driving motor is installed at the lower fixing plate, the driving motor drives a gear meshed with the gear ring, an installation notch is formed in the lower fixing plate, a first lifting hydraulic cylinder is installed at the installation notch, a finger cylinder is installed at the movable end of the first lifting hydraulic cylinder, a plurality of storage cylinders which are in a shape of a circular ring and are distributed at equal intervals and provided with open tops are fixed at the rotating plate, a first through hole is formed in the bottom end of each storage cylinder, a second through hole communicated with the first through hole and located at the rotating plate is formed in the lower part of each storage cylinder, and a movable bottom plate is arranged at the position of the first through hole, the movable bottom plate is positioned in the first through hole and is borne by the rotating plate, the lower surface of the movable bottom plate is fixedly provided with a grabbing block which can be clamped by a finger cylinder, and the movable end of the first lifting hydraulic cylinder can penetrate through the first through hole and the second through hole; the compression device comprises an upper fixing plate positioned above a plurality of storage barrels, a feeding notch and a discharging notch are formed in the upper fixing plate, a rotary cylinder and a second lifting hydraulic cylinder are installed at the upper fixing plate, the movable end of the second lifting hydraulic cylinder is connected with a buffer barrel through a first support, the bottom end of the buffer barrel can be abutted to the top end of the storage barrel, a third lifting hydraulic cylinder is installed on the rotary cylinder through a second support, a pressing plate is installed at the movable end of the third lifting hydraulic cylinder and can be inserted into the buffer barrel and the storage barrel, a translation hydraulic cylinder is further installed on the upper fixing plate through a third support, and a pushing plate is installed at the movable end of the translation hydraulic cylinder; the discharging device comprises a fixed base plate and a discharging barrel, a driving hydraulic cylinder and a supporting frame are connected between the discharging barrel and the fixed base plate, one end of the driving hydraulic cylinder is hinged with the discharging barrel, the other end of the driving hydraulic cylinder is hinged with the fixed substrate, one end of the supporting frame is fixedly connected with the discharging barrel, the other end of the supporting frame is hinged with the fixed substrate, two ends of the discharge barrel are open, an L-shaped support frame is fixed at one end of the discharge barrel close to the compression device, a driving cylinder is arranged at the L-shaped supporting frame, a U-shaped baffle plate is arranged at the movable end of the driving cylinder, the top end of the storage barrel is provided with two grooves, the driving hydraulic cylinder can drive the discharge barrel to be in a horizontal state or a vertical state, when the discharging barrel is in a vertical state, the bottom end of the discharging barrel is abutted against the top end of the storage barrel, and the driving cylinder can drive the U-shaped baffle plate to enable two arms of the U-shaped baffle plate to be respectively inserted into the two grooves of the material storage barrel.

Furthermore, the cross sections of the material storage barrel, the buffer barrel and the material discharge barrel are all rectangular, and the cross sections are completely the same in shape, size and thickness.

Furthermore, the outer side of each storage barrel is provided with a plurality of limiting plates fixedly connected with the rotating plate, and the limiting plates are fixedly connected with the storage barrels.

Furthermore, the upper fixing plate and the lower fixing plate are fixedly connected through a connecting bracket.

Furthermore, the storage barrels have 6, and 6 storage barrels are in annular equidistant distribution.

Further, the rotary cylinder can rotate 90 degrees, so that the third lifting hydraulic cylinder is located above the feeding notch or far away from the feeding notch.

Furthermore, the first lifting hydraulic cylinder, the translation hydraulic cylinder and the driving hydraulic cylinder are all multi-stage hydraulic cylinders.

Further, the first through hole is a rectangular through hole, and the second through hole is a circular through hole.

Has the advantages that: the garbage transfer system can compress garbage in a large proportion, is partially buried underground, efficiently utilizes the space, increases the attractive effect, has large storage capacity of garbage, and is also favorable for transporting the compressed garbage by vehicles after the garbage is compressed into blocks.

Drawings

FIG. 1 is a schematic view of a waste transit system;

FIG. 2 is a schematic view of a waste transfer system with a discharge chute erected in alignment with a storage chute to be discharged;

FIG. 3 is a schematic view of the waste transfer system with the movable floor raised and the baffle inserted into the storage canister;

FIG. 4 is a schematic view of a garbage transfer system, with the discharge barrel returned to a horizontal state;

FIG. 5 is a schematic view of a garbage transfer system, wherein a push plate pushes garbage in a discharge barrel into a transfer trolley;

FIG. 6 is a schematic view of a first perspective of a compression device and a storage device;

FIG. 7 is a schematic view of the compression device and the storage device from a second perspective when waste is dumped into the storage canister;

figure 8 is a third perspective view of the compacting apparatus and storage apparatus with the platens ready to compact the waste.

Detailed Description

Reference numerals: 1 fixing a substrate; 1.1 driving a hydraulic cylinder; 1.2 supporting frames; 2, discharging the material cylinder; 2.1L-shaped brackets; 2.2 driving the cylinder; 2.3U-shaped baffles; 3.1 lower fixing plate; 3.2 fixing the bracket; 3.3 rotating the plate; 3.4 a first hydraulic lifting cylinder; 3.4.1 finger cylinder; 3.6 gear ring; 3.7 a storage cylinder; 3.7.1 grooves; 3.8, a movable bottom plate; 3.8.1 grasping the block; 4.1, fixing the plate; 4.2 rotating the cylinder; 4.3 a second bracket; 4.4 third hydraulic cylinder; 4.5 pressing plate; 4.6 buffer cylinder; 4.7 a first hydraulic lifting cylinder; 4.8 a translation hydraulic cylinder; 4.9 push plate.

The following detailed description is made with reference to the accompanying drawings: a vertical garbage compression transfer system comprises a storage device, a compression device and a discharging device, wherein the storage device comprises a fixed support 3.2 and a lower fixing plate 3.1 fixed on the fixed support 3.2, the lower fixing plate 3.1 is connected with a rotating plate 3.3 through a rotating shaft, the rotating plate 3.3 is provided with a gear ring 3.6, the lower fixing plate 3.1 is provided with a driving motor, the driving motor drives a gear meshed with the gear ring 3.6, the lower fixing plate 3.1 is provided with an installation notch, the installation notch is provided with a first lifting hydraulic cylinder 3.4, a finger cylinder 3.4.1 is installed at the movable end of the first lifting hydraulic cylinder 3.4, the rotating plate 3.3 is fixed with a plurality of storage cylinders 3.7 which are in the shape of a rectangular opening at the top end and distributed in an equal interval and are in a circular shape, the bottom end of each storage cylinder 3.7 is provided with a first through hole, and a second through hole communicated with the first through hole and positioned at the storage plate is arranged below each storage cylinder, a movable bottom plate 3.8 is arranged at the first through hole, the movable bottom plate 3.8 is positioned in the first through hole and is borne by a rotating plate 3.3, a grabbing block 3.8.1 which can be clamped by a finger cylinder 3.4.1 is fixed on the lower surface of the movable bottom plate 3.8, and the movable end of the first lifting hydraulic cylinder 3.4 can penetrate through the first through hole and the second through hole; the compression device comprises an upper fixing plate 4.1 positioned above a plurality of storage barrels 3.7, a feeding notch and a discharging notch are formed in the position of the upper fixing plate 4.1, a rotary cylinder 4.2 and a second lifting hydraulic cylinder 4.7 are installed in the position of the upper fixing plate 4.1, the movable end of the second lifting hydraulic cylinder 4.4 is connected with a buffer barrel 4.6 through a first support, the bottom end of the buffer barrel 4.6 can be abutted against the top end of the storage barrel 3.7, a third lifting hydraulic cylinder 4.4 is installed on the rotary cylinder 4.2 through a second support, a pressing plate 4.5 is installed at the movable end of the third lifting hydraulic cylinder 4.4, the pressing plate 4.5 can be inserted into the buffer barrel 4.6 and the storage barrel 3.7, a translation hydraulic cylinder 4.8 is further installed on the upper fixing plate 4.1 through a third support, and a pushing plate 4.9 is installed at the movable end of the translation hydraulic cylinder 4.8; the discharging device comprises a fixed base plate 1 and a discharging barrel 2, a driving hydraulic cylinder 1.1 and a supporting frame 1.2 are connected between the discharging barrel 2 and the fixed base plate 1, one end of the driving hydraulic cylinder 1.1 is hinged with the discharging barrel 2, the other end of the driving hydraulic cylinder is hinged with the fixed base plate 1, one end of the supporting frame 1.2 is fixedly connected with the discharging barrel 2, the other end of the supporting frame is hinged with the fixed base plate 1, two ends of the discharging barrel 2 are open, one end of the discharging barrel 2, which is close to a compression device, is fixed with an L-shaped supporting frame 2.1, a driving cylinder 2.2 is installed at the L-shaped supporting frame 2.1, a U-shaped baffle 2.3 is installed at the movable end of the driving cylinder 2.2, two grooves are formed in the top end of a storage barrel 3.7, the driving hydraulic cylinder 1.1 can drive the discharging barrel 2 to be in a horizontal state or a vertical state, when the discharging barrel 2 is in a vertical state, and the driving cylinder 2.2 can drive the U-shaped baffle 2.3 so that the two arms of the U-shaped baffle 2.3 are inserted into the two grooves of the storage barrel 3.7 respectively.

The material storage barrel 3.7, the buffer barrel 4.6 and the discharging barrel 2 are all rectangular in cross section, and the cross section is completely the same in shape, size and thickness. The outer side of each storage barrel 3.7 is provided with a plurality of limiting plates fixedly connected with the rotating plate, and the limiting plates are fixedly connected with the storage barrels. The upper fixing plate 4.1 and the lower fixing plate 3.1 are fixedly connected through a connecting bracket. The material storage cylinders 3.7 are 6, and the 6 material storage cylinders 3.7 are distributed in a circular ring shape at equal intervals. The rotary cylinder 4.2 can rotate 90 degrees, so that the third hydraulic lifting cylinder 4.4 is positioned above the feeding gap or far away from the feeding gap. The first lifting hydraulic cylinder 3.4, the translation hydraulic cylinder 4.8 and the driving hydraulic cylinder 1.1 are all multi-stage hydraulic cylinders. The first through hole is a rectangular through hole, and the second through hole is a circular through hole.

As shown in fig. 6-8, when the buffer cylinder is lowered to abut against the storage cylinder, garbage can be poured into the storage cylinder through the upper part of the buffer cylinder (at this time, the pressing plate is not positioned above the buffer cylinder, so that the garbage can be poured conveniently, and the buffer cylinder can increase the storage capacity of the garbage in the vertical direction, so that more garbage can be poured conveniently); then the buffer cylinder rises, and the next material storage cylinder can be used after the pressure plate rotates and moves away;

in the discharging link, as shown in fig. 1-5, the discharging barrel is in a vertical state and is positioned above the storage barrel, then the movable bottom plate moves upwards (the area of the movable bottom plate is smaller than the section of the discharging barrel), the blocky garbage is completely pushed into the discharging barrel, then the driving cylinder drives the U-shaped baffle to be inserted into the groove of the storage barrel, so that after the movable bottom plate descends, the U-shaped baffle can drag the whole blocky garbage (the blocky garbage cannot be easily loosened because the blocky garbage is compressed very firmly), then the driving cylinder falls down the discharging barrel to be in a horizontal state, and then the driving cylinder shortens to reset the U-shaped baffle; then, the push plate can stretch into the discharge barrel to push out the blocky garbage, the other end of the discharge barrel is provided with a transfer car, and the garbage is transported away by the transfer car after being pushed into the transfer car. The rotating plate can rotate, so that the feeding operation, the compressing operation and the discharging operation can be performed on all the storage cylinders.

While the invention has been shown and described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the following claims.

Claims

1. A vertical garbage compression transfer system is characterized by comprising a storage device, a compression device and a discharging device, wherein the storage device comprises a fixed support and a lower fixing plate fixed on the fixed support, the lower fixing plate is connected with a rotating plate through a rotating shaft, the rotating plate is provided with a gear ring, the lower fixing plate is provided with a driving motor, the driving motor drives a gear meshed with the gear ring, the lower fixing plate is provided with an installation notch, a first lifting hydraulic cylinder is installed at the installation notch, a finger cylinder is installed at the movable end of the first lifting hydraulic cylinder, the rotating plate is fixed with a plurality of storage cylinders which are in a shape of a circular rectangle with an open top end and are distributed at equal intervals, a first through hole is formed in the bottom end of each storage cylinder, a second through hole communicated with the first through hole and located at the rotating plate is formed below each storage cylinder, the movable bottom plate is positioned in the first through hole and is borne by the rotating plate, the lower surface of the movable bottom plate is fixedly provided with a grabbing block which can be clamped by a finger cylinder, and the movable end of the first lifting hydraulic cylinder can penetrate through the first through hole and the second through hole; the compression device comprises an upper fixing plate positioned above a plurality of storage barrels, a feeding notch and a discharging notch are formed in the upper fixing plate, a rotary cylinder and a second lifting hydraulic cylinder are installed at the upper fixing plate, the movable end of the second lifting hydraulic cylinder is connected with a buffer barrel through a first support, the bottom end of the buffer barrel can be abutted to the top end of the storage barrel, a third lifting hydraulic cylinder is installed on the rotary cylinder through a second support, a pressing plate is installed at the movable end of the third lifting hydraulic cylinder and can be inserted into the buffer barrel and the storage barrel, a translation hydraulic cylinder is further installed on the upper fixing plate through a third support, and a pushing plate is installed at the movable end of the translation hydraulic cylinder; the discharging device comprises a fixed base plate and a discharging barrel, a driving hydraulic cylinder and a supporting frame are connected between the discharging barrel and the fixed base plate, one end of the driving hydraulic cylinder is hinged with the discharging barrel, the other end of the driving hydraulic cylinder is hinged with the fixed substrate, one end of the supporting frame is fixedly connected with the discharging barrel, the other end of the supporting frame is hinged with the fixed substrate, two ends of the discharge barrel are open, an L-shaped support frame is fixed at one end of the discharge barrel close to the compression device, a driving cylinder is arranged at the L-shaped supporting frame, a U-shaped baffle plate is arranged at the movable end of the driving cylinder, the top end of the storage barrel is provided with two grooves, the driving hydraulic cylinder can drive the discharge barrel to be in a horizontal state or a vertical state, when the discharging barrel is in a vertical state, the bottom end of the discharging barrel is abutted against the top end of the storage barrel, and the driving cylinder can drive the U-shaped baffle plate to enable two arms of the U-shaped baffle plate to be respectively inserted into the two grooves of the material storage barrel.

2. The vertical garbage compressing and transferring system of claim 1, wherein the storage bin, the buffer bin and the discharge bin are all rectangular in cross section, and the cross section has the same shape, size and thickness.

3. The vertical refuse compression transfer system according to claim 1, wherein the outside of each storage bin is provided with a plurality of limiting plates fixedly connected with the rotating plate, and the limiting plates are fixedly connected with the storage bins.

4. The vertical trash compressing and transferring system of claim 1, wherein the upper fixing plate and the lower fixing plate are fixedly connected with each other by a connecting bracket.

5. The vertical refuse compression transfer system of claim 1, wherein the number of the storage cylinders is 6, and the 6 storage cylinders are distributed in a circular ring shape at equal intervals.

6. The vertical refuse compression transfer system according to claim 1, wherein the rotating cylinder is capable of rotating 90 degrees so that the third hydraulic cylinder is located above the feeding gap or away from the feeding gap.

7. The vertical refuse compression transfer system of claim 1, wherein the first lifting hydraulic cylinder, the translation hydraulic cylinder and the driving hydraulic cylinder are all multistage hydraulic cylinders.

8. The vertical garbage compressing and transferring system of claim 1, wherein the first through hole is a rectangular through hole, and the second through hole is a circular through hole.