CN222311603U - Garbage compression station - Google Patents

Abstract

The utility model discloses a garbage compression station. The long-arm collecting boat comprises a garbage bin, a compression device and a lifting device. The compression device comprises a fence frame, a slide plate mechanism and a scraper mechanism. The fence frame is arranged on the upper side of a pit. The slide plate mechanism can be turned upside down and arranged on the fence frame. The scraper mechanism can be turned upside down and arranged on the slide plate mechanism, and can be extended into the garbage bin in the pit under the drive of the slide plate mechanism. The lifting device comprises a scissor arm, a telescopic driving member and a supporting platform for placing the garbage bin. The lower end of the scissor arm is arranged on the foundation of the pit, and the supporting platform is installed on the upper end. The scissor arm can be driven by the telescopic driving member to perform lifting movement. On the basis of compression and capacity increase and eliminating manual operation steps, the purpose of improving work efficiency and reducing labor intensity is achieved.

Description

Garbage compression station

Technical Field

The utility model belongs to the technical field of garbage stations, and particularly relates to a garbage compression station.

Background

The garbage station built in living areas such as a community and a factory is mainly used for temporarily stacking garbage, and because of the limitation of places and spaces, the existing garbage station adopts a bulk garbage can with a pit type cover, and after the garbage in the garbage can is fully stacked, the garbage can be lifted out of the pit through a swing arm on a crane or a transfer truck and transferred to the transfer truck, and is transferred to a large garbage disposal station or a garbage landfill by the transfer truck. But the capacity of dustbin is limited, causes rubbish to pile up the cycle weak point to at every turn the operating personnel of transfer car (buggy) all need manual operation hang the dustbin out or hang the pit, lead to work efficiency low, intensity of labour is big.

Disclosure of utility model

Aiming at the defects or shortcomings, the utility model provides a garbage compression station, which aims to solve the technical problems of low working efficiency and high labor intensity caused by the arrangement of the existing garbage station.

The utility model provides a garbage compression station, which comprises a garbage bin, a compression device and a lifting device, wherein the compression device comprises a surrounding frame, a sliding plate mechanism and a scraping plate mechanism, the surrounding frame is arranged on the upper side of a pit, the sliding plate mechanism can be arranged on the surrounding frame in a vertically turnable manner, the scraping plate mechanism can be arranged on the sliding plate mechanism in a vertically turnable manner and can extend into the garbage bin in the pit under the driving of the sliding plate mechanism, the lifting device comprises a shearing fork arm, a telescopic driving piece and a supporting platform for placing the garbage bin, the lower end of the shearing fork arm is arranged on the foundation of the pit, the upper end of the shearing fork arm is provided with the supporting platform, and the shearing fork arm can move up and down under the driving of the telescopic driving piece.

In the embodiment of the utility model, a first slideway is formed on the enclosure frame, the first slideway is obliquely downwards arranged along the length direction of the enclosure frame, the sliding plate mechanism comprises a sliding plate cylinder, a sliding plate frame and a first sliding block, the first sliding block is slidably arranged on the first slideway, the lifting end of the sliding plate frame is vertically and rotatably arranged on the first sliding block, the sliding plate mechanism is vertically and rotatably arranged at the compression end of the sliding plate frame, the first end of the sliding plate cylinder is rotatably arranged on the enclosure frame, the second end of the sliding plate cylinder is obliquely upwards arranged and movably hinged with the sliding plate frame, and the sliding plate cylinder is used for driving the sliding plate frame to drive the first sliding block to slide to the upper end of the first slideway and upwards overturn under the condition of extending driving and driving the sliding plate frame to downwards and drive the first sliding block to slide to the lower end of the first slideway under the condition of retracting driving.

In the embodiment of the utility model, a first alignment sliding structure is arranged at the position, far away from the lifting end, of the sliding plate frame, a second alignment sliding structure which is arranged parallel to the first slideway is arranged on the enclosure frame, and the first alignment sliding structure is used for sliding into the second alignment sliding structure under the condition that the first sliding block moves downwards along the first slideway and can slide along the second alignment sliding structure.

In the embodiment of the utility model, the sliding plate frame comprises a first connecting beam, a second connecting beam and two mounting longitudinal beams, wherein the two mounting longitudinal beams are sequentially provided with a first longitudinal beam section and a second longitudinal beam section along the direction of a lifting end towards a compression end, the lower side surface of the second longitudinal beam section is lower than the lower side surface of the first longitudinal beam section, the first connecting beam is connected with the first longitudinal beam sections of the two mounting longitudinal beams, the second connecting beam is connected with the second longitudinal beam sections of the two mounting longitudinal beams, the second connecting beam is connected to the part of the second longitudinal beam section lower than the first longitudinal beam section, the second longitudinal beam section is used for extending into a dustbin in a pit, and the scraping plate mechanism is arranged on the second connecting beam.

In the embodiment of the utility model, the scraping plate mechanism comprises a scraping plate cylinder, a scraping plate frame which is arranged on the second connecting cross beam in a vertically turnable manner, a third connecting cross beam which is arranged between the first connecting cross beam and the second connecting cross beam, the third connecting cross beam is connected with the first longitudinal beam sections of the two mounting longitudinal beams, one end of the scraping plate cylinder is arranged on the upper side of the second connecting cross beam and is respectively connected with the second connecting cross beam and the third connecting cross beam, and the other end of the scraping plate cylinder is in driving connection with the scraping plate frame.

In the embodiment of the utility model, the periphery of the upper end of the dustbin is bent downwards to extend to form a first limiting part, the inner side of the enclosure frame is extended to form a hooking plate for stopping the periphery of the upper end of the dustbin, one end of the hooking plate, which is far away from the enclosure frame, is bent upwards to extend to form a second limiting part, and the second limiting part can extend into the inner side of the first limiting part.

In the embodiment of the utility model, the supporting platform comprises a platform body for placing the dustbin and a fixed side frame arranged on the platform body, the fixed side frame is positioned on the side of the dustbin, the scissor arm comprises an outer section arm and an inner section arm which are hinged in a cross manner, the outer section arm is positioned on the outer side of the inner section arm, the upper end and the lower end of the outer section arm are respectively provided with a first hinging arm section and a first sliding arm section, the upper end and the lower end of the inner section arm are respectively provided with a second hinging arm section and a second hinging arm section, the first hinging arm section and the second hinging arm section are respectively hinged on the platform body and the pit foundation in a one-to-one correspondence manner, the first sliding arm section and the second sliding arm section are respectively arranged on the pit foundation and the platform body in a one-to-one correspondence manner, the lower end of the telescopic driving piece is hinged on the first sliding arm section, and the upper end of the telescopic driving piece is obliquely arranged in a direction far away from the scissor arm and is hinged on the fixed side frame.

In the embodiment of the utility model, the inner joint arm is arranged at the lower side of the platform body in a lodging and accommodating way, the outer joint arm is arranged at the side of the platform body in a lodging and accommodating way, and the telescopic driving piece is arranged at the side of the platform body.

In the embodiment of the utility model, the platform body comprises a platform body for placing the dustbin, a first bottom stay bar and a second bottom stay bar, wherein the first bottom stay bar and the second bottom stay bar are arranged on the lower side of the platform body at intervals, the inner section arm is arranged on the lower side of the platform body and can be lodged and accommodated between the first bottom stay bar and the second bottom stay bar, two ends of the first bottom stay bar and two ends of the second bottom stay bar extend out of the platform body, and the outer section arm is arranged on the side of the platform body and can be lodged and accommodated between the first bottom stay bar and the second bottom stay bar.

In the embodiment of the utility model, the first bottom stay bar is arranged on the same side as the first sliding arm section, the second bottom stay bar is arranged on the same side as the first hinging arm section, the fixed side frame comprises a fixed straight bar and a fixed inclined bar, the fixed straight bar is vertically arranged at the end part of the first bottom stay bar extending out of the platform body, the fixed inclined bar is obliquely arranged and connected with the upper end of the fixed straight bar and the platform body, and the upper end of the telescopic driving piece is hinged at the connecting corner of the fixed straight bar and the fixed inclined bar.

In the embodiment of the utility model, the number of the shearing arms is two, the two shearing arms are arranged at intervals in parallel along the width direction of the platform body, the number of the telescopic driving pieces and the fixed side frames is two, and the two fixed side frames and the two telescopic driving pieces are respectively arranged in one-to-one correspondence with the two shearing arms;

And/or the scissor arm further comprises a pulley piece arranged at the bottom of the first sliding arm section and a sliding rail piece arranged on the pit foundation and provided with a first sliding groove, wherein the pulley piece is movably arranged in the first sliding groove and can move towards the second hinging arm section or away from the first sliding groove, and one end of the first sliding groove, which is arranged at the same side of the second hinging arm section, is arranged in an open manner;

And/or, the supporting platform further comprises a chute seat, the chute seat comprises two chute plates which are arranged at the lower side of the platform body at opposite intervals, a second sliding groove is formed between the two chute plates, sliding holes which extend in the same direction as the second sliding groove are formed in the two chute plates, and the second sliding arm section stretches into the second sliding groove and can be penetrated by a connecting shaft part which penetrates through the sliding holes, so that the second sliding arm section can move towards or away from the first hinge arm section.

Through the technical scheme, the garbage compression station provided by the embodiment of the utility model has the following beneficial effects:

When the garbage compression station is used, due to the fact that the garbage compression station comprises the garbage bin, the compression device and the lifting device, when garbage is poured into the garbage bin, the sliding plate mechanism can be controlled to overturn downwards, the sliding plate mechanism is controlled to drive the sliding plate mechanism to extend into the garbage bin in the pit after overturning in place, the sliding plate mechanism is controlled to overturn up and down on the sliding plate mechanism, the garbage in the garbage bin can be compressed, therefore, the single clean load of the garbage bin can be improved, the garbage accumulation period of the garbage bin is prolonged, the number of times of transferring the garbage bin is reduced, meanwhile, when the empty garbage bin is required to be placed in the pit, the telescopic driving piece in the lifting device can be controlled to drive the scissor arm to conduct lifting movement, so that the supporting platform is enabled to rise to at least the height flush with the ground, the hook arm vehicle can discharge the empty garbage bin onto the supporting platform, then the telescopic driving piece is controlled to drive the scissor arm to conduct descending movement, the lifting platform and the empty garbage bin can be enabled to fall into the pit, in addition, the lifting device can be controlled to control the fork arm in advance to conduct lifting movement of the garbage bin, the lifting device can be controlled to conduct lifting movement of the lifting arm to be saved, the lifting platform is required to be manually moved to the pit, the lifting platform is saved, the lifting stage is required to be manually moved to be lifted up, and the garbage bin is manually to be lifted up to be manually, the ground, and the garbage bin is required to be lifted to be manually and the ground.

Additional features and advantages of the utility model will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain, without limitation, the embodiments of the utility model. Other figures may be made from the structures shown in these figures without inventive effort for a person of ordinary skill in the art. In the drawings:

FIG. 1 is a schematic view of a garbage compression station according to an embodiment of the utility model;

FIG. 2 is a schematic view of a compression device according to an embodiment of the present utility model;

FIG. 3 is a schematic illustration of a skateboard deck in an upturned state in accordance with an embodiment of the present utility model;

FIG. 4 is a schematic view showing a structure in which a skateboard deck is turned down according to an embodiment of the present utility model;

FIG. 5 is a schematic view showing a structure in which a blade frame is in a turned down state according to an embodiment of the present utility model;

FIG. 6 is a schematic view of a squeegee mechanism according to one embodiment of the utility model;

FIG. 7 is a schematic view of a portion of a longitudinal section of a dustbin and a compression device according to one embodiment of the present utility model;

FIG. 8 is an enlarged schematic view of the structure of FIG. 7A;

FIG. 9 is a schematic view of a lifting device in a folded state according to an embodiment of the present utility model;

FIG. 10 is a schematic view showing a structure in which a lifting device is in an opened state according to an embodiment of the present utility model;

FIG. 11 is a schematic view of a scissor arm according to an embodiment of the utility model;

FIG. 12 is a schematic view of a lifting device in a folded state according to another embodiment of the present utility model;

fig. 13 is a schematic view showing another structure in which the lifting device is in an opened state according to an embodiment of the present utility model.

Description of the reference numerals

100. First slideway of enclosure frame 101

102. Second slideway 103 supporting surface

104. Second limit part of hooking plate 105

200. Slide plate mechanism 210 slide plate cylinder

220. First connecting beam of slide plate rack 221

222. Second connecting cross member 223 mounting longitudinal beam

224. First stringer section 225 second stringer section

226. Third connecting beam 227 turning shaft

230. First slider 240 second slider

300. Scraper mechanism 310 scraper cylinder

320. Dustbin with scraper frame 400

401. First limit part 500 supporting platform

510. Platform body 511 platform body

512. First bottom stay 513 second bottom stay

520. Fixed straight rod of fixed side frame 521

522. First connecting seat of fixed diagonal 523

524. Middle connecting rod 530 sliding groove seat

531. Sliding hole of sliding groove plate 532

540. Second hinge base 541 second hinge side plate

600. Outer knuckle arm of scissor arm 610

611. First articulated arm segment 612 first sliding arm segment

613. Inner knuckle arm of second connecting seat 620

621. Second sliding arm segment 622 second articulating arm segment

630. Pulley 640 rail

650. First hinge seat 651 fixed bottom plate

652. First hinged side plate 700 telescopic driving piece

Detailed Description

Specific embodiments of the present utility model will be described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration and explanation only and are not intended to limit the present utility model.

The garbage compression station of the present utility model is described below with reference to the accompanying drawings.

As shown in fig. 1, the present utility model provides a garbage compression station, wherein the garbage compression station comprises:

A dustbin 400;

The compression device comprises a surrounding frame 100, a slide plate mechanism 200 and a scraper plate mechanism 300, wherein the surrounding frame 100 is arranged on the upper side of a pit in a surrounding manner, the slide plate mechanism 200 can be arranged on the surrounding frame 100 in an up-down overturning manner, the scraper plate mechanism 300 can be arranged on the slide plate mechanism 200 in an up-down overturning manner, and the scraper plate mechanism 300 can extend into a dustbin 400 in the pit to compress garbage under the driving of the slide plate mechanism 200;

The lifting device comprises a scissor arm 600, a telescopic driving piece 700 and a supporting platform 500 for placing the dustbin 400, wherein the lower end of the scissor arm 600 is arranged on a pit foundation, the upper end of the scissor arm is arranged on the supporting platform 500, and the scissor arm 600 can lift under the driving of the telescopic driving piece 700.

When the garbage compression station is used, as the garbage compression station comprises the garbage bin 400, the compression device and the lifting device, when garbage is poured into the garbage bin 400, the sliding plate mechanism 200 can be controlled to overturn downwards, the sliding plate mechanism 200 is controlled to drive the sliding plate mechanism 300 to extend into the garbage bin 400 in the pit after overturning in place, then the sliding plate mechanism 300 is controlled to overturn upwards and downwards on the sliding plate mechanism 200, the garbage in the garbage bin 400 can be compressed, so that the single clean load of the garbage bin 400 can be lifted, the garbage accumulation period of the garbage bin 400 is prolonged, the number of times of transportation of the garbage bin is reduced, meanwhile, when the empty garbage bin 400 is required to be placed in the pit, the telescopic driving piece 700 in the lifting device is controlled to drive the fork arm 600 to ascend, so that the supporting platform 500 is lifted to at least flush with the ground, the hook arm trolley is used for unloading the empty garbage bin 400 onto the supporting platform 500, then the telescopic driving piece 700 is controlled to drive the fork arm 600 to descend, the supporting platform 500 and the empty garbage bin 400 is fallen into the pit, the single clean load of the garbage bin 400 can be lifted, the garbage bin 400 is saved, the manual lifting step is needed to be achieved, the lifting device is lifted up or the garbage bin 400 is lifted up to be lifted up, and the garbage bin is manually, the garbage bin is lifted up to be lifted up to the pit, and the garbage bin is moved to be lifted up to the garbage bin is manually, and the garbage bin is moved to be lifted to the garbage bin is manually or the garbage bin is lifted.

As shown in fig. 1 and 2, in the embodiment of the present utility model, a first slide way 101 is formed on a fence frame 100, the first slide way 101 is obliquely downward arranged along the length direction of the fence frame 100, a slide plate mechanism 200 includes a slide plate cylinder 210, a slide plate frame 220 and a first slide block 230, the first slide block 230 is slidably arranged on the first slide way 101, a lifting end of the slide plate frame 220 is vertically and rotatably arranged on the first slide block 230, a scraper mechanism 300 is vertically and rotatably arranged at a compression end of the slide plate frame 220, a first end of the slide plate cylinder 210 is rotatably arranged on the fence frame 100, a second end of the slide plate cylinder 210 is obliquely upward arranged and movably hinged with the slide plate frame 220, and the slide plate cylinder 210 is used for driving the slide plate frame 220 to drive the first slide block 230 to slide to the upper end of the first slide way 101 and upwards to drive the slide plate frame 220 to downwards and drive the first slide block 230 to slide to the lower end of the first slide way 101 under the condition of retraction driving;

When the compression device is used in the garbage station, since the compression device comprises the enclosure frame 100, the slide plate mechanism 200 and the scraper mechanism 300, the enclosure frame 100 arranged on the upper side of the pit is provided with the first slide rail 101, the lifting end of the slide plate frame 220 of the slide plate mechanism 200 is provided with the first slide block 230, and the first slide block 230 can be slidably arranged on the first slide rail 101, so that the slide plate cylinder 210 can drive the first slide block 230 to slide from the lower end of the first slide rail 101 to the upper end of the first slide rail 101 under the condition of stretching driving, and after the first slide block 230 reaches the upper end of the first slide rail 101, the first slide block 230 cannot slide continuously, and the slide plate cylinder 210 can drive the slide plate frame 220 to turn upwards on the first slide block 230 until the slide plate frame 220 turns to the right; and under the condition of retraction driving, the slide plate cylinder 210 can drive the slide plate frame 220 to turn downwards on the first slide block 230 (as shown in fig. 3 to 4), and then drive the slide plate frame 220 to drive the first slide block 230 to slide from the upper end of the first slide way 101 to the lower end of the first slide way 101, so that the scraper mechanism 300 on the slide plate frame 220 can extend into the dustbin 400 of the pit to compress garbage (as shown in fig. 4 to 5).

The end of the slide frame 220 connected to the enclosure frame 100 is a lifting end, and the end of the slide frame 220 connected to the squeegee mechanism 300 is a compression end.

Specifically, the pit extends along the length direction and two opposite sides of the pit are provided with the enclosure frame 100, two opposite sides of the lifting end of the slide plate frame 220 are provided with the first sliding blocks 230, the first sliding blocks 230 on two opposite sides of the slide plate frame 220 are arranged on the first sliding ways 101 of the enclosure frame 100 on two opposite sides of the pit in a one-to-one correspondence manner, the first sliding ways 101 include, but are not limited to, the inner sides of the enclosure frame 100, the first sliding ways 101 can be formed by arranging sliding way plates on the inner sides of the enclosure frame 100, the sliding way plates at least include two side plate parts arranged at opposite intervals in the up-down direction, the first sliding blocks 230 are arranged in the first sliding ways 101 formed between the two side plate parts, and in addition, the upper end and the lower end of the first sliding ways 101 can be provided with end plate parts for stopping the first sliding blocks 230. Of course, the present utility model is not limited thereto, and the first slide way 101 may be formed by concave inner side of the enclosure frame 100, or the first slide way 101 may be directly opened into a through hole shape on the enclosure frame 100, the first slider 230 may be slidably inserted into the through hole-shaped first slide way 101, and hole walls at the upper and lower ends may directly become stops of the first slider 230.

In the embodiment of the present utility model, the sliding plate frame 220 is provided with a first alignment sliding structure far away from the lifting end, the enclosure frame 100 is provided with a second alignment sliding structure parallel to the first sliding way 101, and the first alignment sliding structure is used for sliding into the second alignment sliding structure under the condition that the first sliding block 230 moves down along the first sliding way 101, and can slide along the second alignment sliding structure. That is, when the slide cylinder 210 is retracted to start to drive the slide frame 220 to drive the first slide block 230 to move down on the first slide way 101, the first alignment sliding structure located on the slide frame 220 can align and slide into the second alignment sliding structure on the enclosure frame 100, before the first slide block 230 moves down to the lower end of the first slide way 101, the first alignment sliding structure slides along the second alignment sliding structure all the time, and because the second alignment sliding structure is parallel to the first slide way 101, the sliding directions of the first slide block 230 and the first alignment sliding structure are consistent, and when the scraping mechanism 300 compresses garbage, the slide frame 220 is limited by the first slide way 101, and the second alignment sliding structure is additionally arranged, so that the stability of the slide frame 220 in the compression process is ensured, and the quick butt joint of the slide frame 220 and the enclosure frame 100 is facilitated. In addition, when the slide cylinder 210 extends out to drive the slide frame 220 to drive the first slider 230 to move up on the first slide way 101, the first alignment sliding structure located on the slide frame 220 also moves up along the second alignment sliding structure until the first alignment sliding mechanism exits the second alignment sliding structure and the first slider 230 slides to the upper end of the first slide way 101, the slide cylinder 210 starts to drive the slide frame 220 to turn up, so that the quick separation of the slide frame 220 and the enclosure frame 100 can be further facilitated.

In an embodiment of the present utility model, one of the first alignment sliding structure and the second alignment sliding structure may be set as the second slide 102, and the other may be set as the second slider 240. The slide way and the slide block matched alignment sliding structure have the advantages of simple structure and low cost. Specifically, the first alignment sliding structure on the slider frame 220 is preferably set as the second slider 240, the second alignment sliding structure on the enclosure frame 100 is preferably set as the second slide 102, and the second slide 102 is disposed parallel to the first slide 101 so that the sliding direction of the second slider 240 coincides with the sliding direction of the first slider 230. More specifically, the structure of the second slide 102 may be set to be identical to that of the first slide 101.

In the embodiment of the present utility model, the slider frame 220 includes a first connecting beam 221, a second connecting beam 222, and two mounting stringers 223, the two mounting stringers 223 are each provided with a first stringer segment 224 and a second stringer segment 225 in sequence along the direction from the lifting end toward the compression end, the lower side of the second stringer segment 225 is lower than the lower side of the first stringer segment 224, the first connecting beam 221 connects the first stringer segments 224 of the two mounting stringers 223, the second connecting beam 222 connects the second stringer segments 225 of the two mounting stringers 223, and the second connecting beam 222 connects to the portion of the second stringer segment 225 that is lower than the first stringer segment 224, the second stringer segment 225 is used for the dustbin 400 that extends into the pit, and the scraper mechanism 300 is provided on the second connecting beam 222. The mounting stringers 223 of the skateboard frame 220 are configured as the first stringer section 224 and the second stringer section 225 with different sizes, and the lower side surface of the second stringer section 225 which is arranged close to the compression end is lower than the lower side surface of the first stringer end, so that the side surface area of the second stringer section 225 can be increased, on one hand, space can be provided for mounting the skateboard mechanism 300, and on the other hand, when the skateboard frame 220 moves down obliquely, more parts of the second stringer section 225 can extend into the dustbin 400 of the pit, so that the skateboard frame 220 can be limited in butt joint with the dustbin 400 through the self structure.

Referring to fig. 2 and 6, in the embodiment of the present utility model, the squeegee mechanism 300 includes a squeegee cylinder 310 and a squeegee frame 320 provided on the second connection beam 222 to be turnable up and down, the squeegee frame 220 further includes a third connection beam 226 provided between the first connection beam 221 and the second connection beam 222, and the third connection beam 226 is connected to the first beam sections 224 of the two mounting beams 223, one end of the squeegee cylinder 310 is disposed on the upper side of the second connection beam 222 and is connected to the second connection beam 222 and the third connection beam 226, respectively, and the other end of the squeegee cylinder 310 is in driving connection with the squeegee frame 320. The addition of the third connecting beam 226 not only enhances the stability of the skid plate rack 220, but also facilitates the reliable installation of the scraper cylinder 310. Specifically, the lower side of the third connecting beam 226 and the upper side of the second connecting beam 222 are provided with cylinder mounts, so as to be connected with one end of the squeegee cylinder 310 through the cylinder mounts, respectively.

In the embodiment of the utility model, one end of the first longitudinal beam section 224, which is far away from the second longitudinal beam section 225, extends out of the first connecting cross beam 221, and a first sliding block 230 is connected to the part of the first longitudinal beam section 224, which extends out of the first longitudinal beam section 224, and the part of the first connecting cross beam 221, which extends out of the first longitudinal beam section 224, is movably hinged with the second end of the slide cylinder 210. Therefore, the first sliding block 230 is arranged on the lifting end in a staggered manner with the connection between the sliding plate cylinder 210 and the sliding plate frame 220, and the structure is simple and the layout is reasonable. Of course, the present utility model is not limited thereto, and the first slider 230 may be disposed at a position between the first connecting beam 221 and the second connecting beam 222 of the first longitudinal beam section 224, and a mounting structure of the sliding cylinder 210 movably hinged to the outer side of the first longitudinal beam section 224 may be provided.

Referring to fig. 2 again, in the embodiment of the present utility model, a supporting surface 103 disposed upward is formed on the inner side of the enclosure frame 100, and the supporting surface 103 is used for carrying the first end of the slide cylinder 210. The support surface 103 is added to ensure the stability of the sliding driving of the sliding plate frame 220. Specifically, during the process of driving the slide frame 220 to turn up or down by the slide cylinder 210, the first end of the slide cylinder 210 cannot be laid flat on the supporting surface 103 in its entirety, but due to the turning of the slide frame 220 to be supported, the whole cylinder stands on the supporting surface 103, and only during the process of driving the slide frame 220 to move up or down by the slide cylinder 210, the first end of the slide cylinder 210 is laid flat on the supporting surface 103 in its entirety, and the second end of the slide cylinder 210 is moved in a telescopic manner.

Referring to fig. 6, in the embodiment of the present utility model, a turnover shaft 227 extends from the side of the lifting end of the sliding plate rack 220, and a turnover hole for the turnover shaft 227 to pass through is formed on the first sliding plate 230, so that the sliding plate rack 220 can be turned up and down on the first sliding plate 230, and the purpose of convenient installation can be achieved by selectively arranging the turnover hole on the first sliding plate 230. Specifically, the turning shaft 227 is provided on the side of the first side member. Of course, the present utility model is not limited thereto, and the turning shaft 227 may be provided on the first slider 230 and the turning hole may be provided on the slider frame 220, as long as the slider frame 220 can be turned up and down on the first slider 230.

Referring to fig. 7 and 8, in the embodiment of the present utility model, a first limiting portion 401 is bent and extended downward from the upper end periphery of the dustbin 400, a hooking plate 104 for stopping the upper end periphery of the dustbin 400 is extended from the inner side of the enclosure frame 100, a second limiting portion 105 is bent and extended upward from one end of the hooking plate 104 away from the enclosure frame 100, and the second limiting portion 105 can extend into the inner side of the first limiting portion 401. The docking limit of the enclosure frame 100 and the dustbin 400 can be realized by adding the first limit part 401 and the hooking plate 104. Specifically, the empty dustbin 400 may be lifted into the pit by using the lifting device, and in the process of placing the dustbin 400, the upper end periphery of the dustbin 400 falls down toward the hooking plate 104 until the lower end of the first limiting portion 401 abuts against the hooking plate 104, and the upper end of the second limiting portion 105 abuts against the upper end periphery of the dustbin 400.

Referring to fig. 9 to 11, in the embodiment of the present utility model, the supporting platform 500 includes a platform body 510 and a fixed side frame 520, the platform body 510 is used for placing a dustbin, the fixed side frame 520 is arranged on the platform body 510 and located at the side of the dustbin, the scissor arm 600 includes an outer joint arm 610 and an inner joint arm 620 which are hinged in a crossing manner, the outer joint arm 610 is located at the outer side of the inner joint arm 620, the upper and lower ends of the outer joint arm 610 are respectively provided with a first hinge arm segment 611 and a first sliding arm segment 612, the upper and lower ends of the inner joint arm 620 are respectively provided with a second hinge arm segment 621 and a second hinge arm segment 622, the first hinge arm segment 611 and the second hinge arm segment 622 are respectively hinged on the platform body 510 and the pit foundation in a one-to-one correspondence manner, the first sliding arm segment 612 and the second sliding arm segment 621 are respectively slidably arranged on the pit foundation and the platform body 510, the lower end of the telescopic driving member 700 is hinged on the first sliding arm segment 612, and the upper end of the telescopic driving member 700 is arranged in a direction away from the scissor arm 600 and hinged on the fixed frame.

When the garbage station uses the lifting device, as the platform body 510 is provided with the fixed side frame 520, the upper end and the lower end of the outer joint arm 610 of the scissor arm 600 are respectively arranged into the first articulated arm segment 611 and the first articulated arm segment 612, the upper end and the lower end of the inner joint arm 620 are respectively arranged into the second articulated arm segment 621 and the second articulated arm segment 622, the first articulated arm segment 611 and the second articulated arm segment 622 are respectively hinged and installed on the platform body 510 and the pit foundation in a one-to-one correspondence manner, the first articulated arm segment 612 and the second articulated arm segment 621 are respectively arranged on the pit foundation and the platform body 510 in a one-to-one correspondence manner, the lower end of the telescopic driving piece 700 is hinged and installed on the first articulated arm segment 612, the upper end of the telescopic driving piece 700 (oil cylinder) is obliquely arranged in a direction far away from the scissor arm 600 and is hinged and installed on the fixed side frame 520, so that when the upper end of the telescopic driving piece 700 is extended and driven, the platform body 510 can be pushed up, the scissor arm 600 can be further extended, and when the lower end of the telescopic driving piece 700 is retracted, the lower end of the telescopic driving piece 700 is respectively arranged on the pit foundation and the pit foundation, the lower end of the telescopic driving piece 700 can be required to be more in a lower than the required angle between the two end of the telescopic driving piece 700 and the upper end of the scissor arm 700, and the lower end of the telescopic driving piece 700 can be simultaneously required to be more reduced, compared with the upper end of the telescopic driving piece 700, and the upper end of the telescopic driving piece is required to be more in a required to be arranged on the horizontal direction, and the lower end of the telescopic driving piece 700, and the upper end of the telescopic driving piece is required to be more required to be simultaneously, and compared with the upper and lower and compared with the upper end, and compared with the upper end of the driving piece, and lower end, and the driving piece, and compared with, and the driving piece, and compared. In addition, the existence of the telescopic driving piece 700 does not affect the folding and storage of the scissor arm 600, and after the platform body 510 descends, the scissor arm 600 can be completely folded, so that the purpose of reducing the occupied space is achieved. It should be specifically noted that the telescopic driving member 700 provided by the present utility model includes, but is not limited to, an oil cylinder, an electric cylinder and a pneumatic cylinder.

In the embodiment of the present utility model, the inner arm 620 is disposed at the lower side of the platform 510 in a lodging and accommodating manner, the outer arm 610 is disposed at the side of the platform 510 in a lodging and accommodating manner, and the telescopic driving member 700 is disposed at the side of the platform 510. The outer joint arm 610 is lodgably disposed at the side of the platform body 510, so that the telescopic driving piece 700 connected with the first sliding arm section 612 of the outer joint arm 610 can be disposed at the side of the platform body 510, and further the telescopic driving piece 700 can be conveniently disassembled and assembled. Although the present utility model is not limited thereto, the outer joint arm 610 may be disposed under the platform body 510 in a lodgable manner, like the inner joint arm 620, but in order to connect the upper and lower ends of the telescopic driving member 700 with the fixed side frame 520 and the first sliding arm 612, the platform body 510 needs to be provided with a through hole through which the telescopic driving member 700 passes and swings.

As shown in fig. 12 and 13, in the embodiment of the present utility model, the platform body 510 includes a platform body 511 for placing the dustbin, and a first bottom stay 512 and a second bottom stay 513 provided at the lower side of the platform body 511 by a spacing scissor arm 600, the inner joint arm 620 is provided at the lower side of the platform body 511 and is lodgably provided between the first bottom stay 512 and the second bottom stay 513, that is, a receiving space of the inner joint arm 620 is formed by enclosing between the portions of the first bottom stay 512 and the second bottom stay 513 provided at the lower side of the platform body 511, and in order to enable the inner joint arm 620 to be lodgably received between the first bottom stay 512 and the second bottom stay 513 at the lower side of the platform body 511, the second sliding arm section 621 of the inner joint arm 620 may be slidably provided at the lower side position of the platform body 511 between the first bottom stay 512 and the second bottom stay 513. In addition, both ends of the first bottom stay 512 and the second bottom stay 513 extend out of the platform body 511, the outer joint arm 610 is located at an edge side of the platform body 511 and is lodgably disposed between the first bottom stay 512 and the second bottom stay 513, that is, the first bottom stay 512 and the second bottom stay 513 are further enclosed to form an accommodating space for the outer joint arm 610 to lodge at the edge side of the platform body 511, so that the bottom of the lifting device is more suitable for the square shape of the pit, and plays a role in protecting the scissor arm 600, and in order to enable the outer joint arm 610 to lodgably locate between the first bottom stay 512 and the second bottom stay 513 at the edge side of the platform body 511, the first hinge arm segment 611 of the outer joint arm 610 can be hinge-mounted on the portion of the corresponding bottom stay extending.

In the embodiment of the present utility model, the first bottom stay 512 is disposed on the same side as the first sliding arm segment 612, the second bottom stay 513 is disposed on the same side as the first hinge arm segment 611, the fixed side frame 520 includes a fixed straight rod 521 and a fixed inclined rod 522, the fixed straight rod 521 is vertically disposed at an end portion of the first bottom stay 512 extending out of the platform body 511, the fixed inclined rod 522 is obliquely disposed and connected with an upper end of the fixed straight rod 521 and the platform body 511, and an upper end of the telescopic driving member 700 is hinged at a connecting corner of the fixed straight rod 521 and the fixed inclined rod 522. That is, the fixed frame 520 may be formed in a right triangle shape on the platform body 511 to enhance stability, and the upper end of the telescopic driving part 700 is hinged to the tip of the entire right triangle shape, thereby maximizing the adjustable height range. Of course, the present utility model is not limited thereto, and the fixed frame 520 may be formed in other suitable shapes, and the hinge mounting height of the upper end of the telescopic driving member 700 on the fixed frame 520 may be set according to the requirement, and is not limited to the upper end of the fixed frame 520.

In the embodiment of the present utility model, the connecting corners of the fixed straight rod 521 and the fixed inclined rod 522 are provided with a first connecting seat 523, and the upper end of the telescopic driving member 700 extends to the inner side of the first connecting seat 523 and is hinged on the first connecting seat 523. The first connecting seat 523 is additionally provided, so that the purpose of convenient disassembly and assembly can be achieved, and the upper end of the telescopic driving piece 700 extends to the inner side of the first connecting seat 523 for installation, and the protection effect can be achieved. The inner side of the first connecting seat 523 refers to a side of the first connecting seat 523 facing the dustbin 400. Specifically, the upper end of the first sliding arm section 612 is provided with a second connecting seat 613, the lower end of the telescopic driving member 700 is hinged on the second connecting seat 613, and the second connecting seat 613 may be disposed near the pulley 630 at the bottom of the first sliding arm section 612. In addition, the telescopic driving tool 700 may be mounted in a normal or reverse manner.

Referring to fig. 13, in the embodiment of the present utility model, the number of the scissor arms 600 may be two, the two scissor arms 600 are arranged at intervals in parallel along the width direction of the platform body 510, the number of the telescopic driving pieces 700 and the fixed side frames 520 are two, and the two fixed side frames 520 and the two telescopic driving pieces 700 are respectively arranged in one-to-one correspondence with the two scissor arms 600, so that stability of two sides of the platform in the lifting process can be ensured. Specifically, an intermediate connecting rod 524 may be further provided to connect the two fixed frames 520 to enhance the stability of the two fixed frames 520. Of course, the present utility model is not limited thereto, and the two scissor arms 600 may be disposed at intervals in parallel along the length direction of the platform.

Referring to fig. 10 and 13, in the embodiment of the present utility model, the scissor arm 600 further includes a pulley member 630 disposed at the bottom of the first sliding arm segment 612, and a sliding rail member 640 disposed on the pit foundation and formed with a first sliding groove, wherein the pulley member 630 is movably disposed in the first sliding groove and is movable toward and away from the second hinge arm segment 622, and one end of the first sliding groove disposed at the same side as the second hinge arm segment 622 is disposed to be open. By adding the pulley member 630 and the sliding rail member 640, the stability of sliding of the first sliding arm segment 612 on the pit foundation can be ensured, and the first sliding groove is set to be open towards one end of the second hinge arm segment 622, so that the outer joint arm 610 can be completely lodged. In addition, the first sliding groove can be directly formed on the pit foundation through pouring of cement concrete materials.

Referring to fig. 10 and 13 again, in the embodiment of the present utility model, the supporting platform 500 further includes a chute base 530, the chute base 530 includes two chute boards 531 disposed at opposite intervals on the lower side of the platform body 510, a second sliding slot is formed between the two chute boards 531, sliding holes 532 extending in the same direction as the second sliding slot are formed on the two chute boards 531, and the second sliding arm segment 621 extends into the second sliding slot and is configured to be penetrated by a connecting shaft member passing through the sliding holes 532, so that the second sliding arm segment 621 can move towards or away from the first hinge arm segment 611. The upper end of the inner arm 620 can be easily assembled and disassembled on the support platform 500 by adding the chute base 530. Specifically, the chute seat 530 is disposed on the lower side of the platform body 511 between the first bottom stay 512 and the second bottom stay 513, and the chute seat 530 is disposed near the first bottom stay 512, the connecting shaft may be a bolt, the head of the bolt is limited on the outer side of one of the chute plates 531, and the rod portion of the bolt extends out of the other chute plate 531 and may be limited by screwing a nut.

In the embodiment of the present utility model, the scissor arm 600 further includes a first hinge base 650, where the first hinge base 650 includes a fixed bottom plate 651 and two first hinge side plates 652, the fixed bottom plate 651 is fixedly disposed on the pit foundation, the two first hinge side plates 652 are relatively spaced on the fixed bottom plate 651, and a first clamping space for the second hinge arm segment 622 to lodge is formed between the two first hinge side plates 652, and the second hinge arm segment 622 is disposed in the first clamping space and connected in series with the two first hinge side plates 652 through first hinge shafts, respectively. The first hinge base 650 may be added to facilitate the assembly and disassembly of the lower end of the inner arm 620 on the pit foundation. In addition, the lower end of the inner joint arm 620 may be inserted into a reinforcement member embedded in cement concrete.

Referring to fig. 10 and 12, in the embodiment of the present utility model, the support platform 500 further includes a second hinge base 540, where the second hinge base 540 includes two second hinge side plates 541, and the two second hinge side plates 541 are disposed opposite to each other at intervals on the inner side of the portion of the second bottom stay 513 extending out of the platform body 511, and the upper end of the outer joint arm 610, that is, the first hinge arm segment 611 extends between the two second hinge side plates 541, and is connected in series with the two second hinge side plates 541 through second hinge shafts, respectively.

In the description of the present utility model, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed, mechanically connected, electrically connected, or communicable with each other, directly connected, indirectly connected through an intervening medium, or in communication between two elements or in an interactive relationship between two elements, unless otherwise explicitly specified. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the utility model.

Claims (10)

1. A waste compression station, the waste compression station comprising:

A dustbin (400);

The compression device comprises a surrounding frame (100), a sliding plate mechanism (200) and a scraping plate mechanism (300), wherein the surrounding frame (100) is arranged on the upper side of a pit in a surrounding mode, the sliding plate mechanism (200) can be arranged on the surrounding frame (100) in an up-down overturning mode, and the scraping plate mechanism (300) can be arranged on the sliding plate mechanism (200) in an up-down overturning mode and can extend into a dustbin (400) in the pit under the driving of the sliding plate mechanism (200);

The lifting device comprises a shearing arm (600), a telescopic driving piece (700) and a supporting platform (500) for placing the dustbin (400), wherein the lower end of the shearing arm (600) is arranged on a pit foundation, the supporting platform (500) is arranged at the upper end of the shearing arm, and the shearing arm (600) can move in a lifting mode under the driving of the telescopic driving piece (700).

2. The garbage compression station according to claim 1, wherein a first slide way (101) is formed on the enclosure frame (100), the first slide way (101) is arranged obliquely downwards along the length direction of the enclosure frame (100), the slide plate mechanism (200) comprises a slide plate cylinder (210), a slide plate frame (220) and a first slide block (230), the first slide block (230) is slidably arranged on the first slide way (101), the lifting end of the slide plate frame (220) is vertically and rotatably arranged on the first slide block (230), the scraper mechanism (300) is vertically and rotatably arranged on the compression end of the slide plate frame (220), the first end of the slide plate cylinder (210) is rotatably arranged on the enclosure frame (100), the second end of the slide plate cylinder (210) is obliquely arranged upwards and movably hinged with the slide plate frame (220), the slide plate cylinder (210) is used for driving the slide plate frame (220) to slide upwards under the condition of extending driving, and driving the first slide block (230) to slide upwards and driving the slide plate frame (230) to slide downwards and retract under the condition of driving the first slide plate frame (220).

3. The garbage compression station according to claim 2, characterized in that the slide plate frame (220) is provided with a first alignment sliding structure away from the lifting end, the enclosure frame (100) is provided with a second alignment sliding structure parallel to the first slide way (101), and the first alignment sliding structure is used for sliding into the second alignment sliding structure under the condition that the first slide block (230) moves downwards along the first slide way (101) and can slide along the second alignment sliding structure.

4. The refuse compression station according to claim 2, characterized in that the skid plate frame (220) comprises a first connecting beam (221), a second connecting beam (222) and two mounting stringers (223), both mounting stringers (223) being provided with a first stringer section (224) and a second stringer section (225) in succession in the direction along the lifting end towards the compression end, the lower side of the second stringer section (225) being arranged lower than the lower side of the first stringer section (224), the first connecting beam (221) connecting the first stringer section (224) of two mounting stringers (223), the second connecting beam (222) connecting the second stringer section (225) of two mounting stringers (223), and the second connecting beam (222) being connected to the part of the second stringer section (225) arranged lower than the first stringer section (224), the second stringer section (225) being intended for a refuse bin (400) extending into a pit, the second connecting beam (300) being arranged on the second beam (300).

5. The garbage compression station according to claim 2, characterized in that a first limiting part (401) is arranged at the upper end periphery of the garbage can (400) in a downward bending and extending manner, a hooking plate (104) for stopping the upper end periphery of the garbage can (400) is arranged at the inner side of the enclosure frame (100) in an extending manner, a second limiting part (105) is arranged at the end, away from the enclosure frame (100), of the hooking plate (104) in an upward bending and extending manner, and the second limiting part (105) can extend into the inner side of the first limiting part (401).

6. The garbage compression station according to any one of claims 1 to 5, wherein the supporting platform (500) comprises a platform body (510) for placing the garbage can (400) and a fixed side frame (520) arranged on the platform body (510), the fixed side frame (520) is positioned at the side of the garbage can (400), the scissor arms (600) comprise an outer section arm (610) and an inner section arm (620) which are hinged in a crossed manner, the outer section arm (610) is positioned at the outer side of the inner section arm (620), the upper end and the lower end of the outer section arm (610) are respectively provided with a first hinge arm section (611) and a first sliding arm section (612), the upper end and the lower end of the inner section arm (620) are respectively provided with a second sliding arm section (621) and a second hinge arm section (622), the first hinge arm section (611) and the second hinge arm section (622) are respectively hinged on the platform body (510) and the ground, the upper end of the first hinge arm (612) is arranged in a direction away from the upper end of the platform body (600) and the upper end of the first hinge arm (612) is provided with a sliding arm section (612).

7. The garbage compression station of claim 6, wherein the inner knuckle arm (620) is lodgably received on the underside of the platform body (510), the outer knuckle arm (610) is lodgably received on the side of the platform body (510), and the telescopic drive (700) is provided on the side of the platform body (510).

8. The garbage compression station of claim 6, wherein the platform body (510) comprises a platform body (511) for placing the garbage bin (400) and a first bottom support rod (512) and a second bottom support rod (513) which are arranged at the lower side of the platform body (511) at intervals by the shearing fork arms (600), the inner section arm (620) is arranged at the lower side of the platform body (511) and is arranged between the first bottom support rod (512) and the second bottom support rod (513) in a lodgable accommodating manner, both ends of the first bottom support rod (512) and the second bottom support rod (513) extend out of the platform body (511) to be arranged, and the outer section arm (610) is arranged at the side of the platform body (511) and is arranged between the first bottom support rod (512) and the second bottom support rod (513) in a lodgable accommodating manner.

9. The garbage compression station of claim 8, wherein the first bottom stay (512) is arranged on the same side as the first sliding arm section (612), the second bottom stay (513) is arranged on the same side as the first hinge arm section (611), the fixed side frame (520) comprises a fixed straight rod (521) and a fixed inclined rod (522), the fixed straight rod (521) is vertically arranged at the end part of the first bottom stay (512) extending out of the platform body (511), the fixed inclined rod (522) is obliquely arranged and connected with the upper end of the fixed straight rod (521) and the platform body (511), and the upper end of the telescopic driving piece (700) is hinged at the connecting corner of the fixed straight rod (521) and the fixed inclined rod (522).

10. The garbage compression station according to claim 6, wherein the number of the shearing arms (600) is two, the two shearing arms (600) are arranged at intervals in parallel along the width direction of the platform body (510), the number of the telescopic driving pieces (700) and the number of the fixed side frames (520) are two, and the two fixed side frames (520) and the two telescopic driving pieces (700) are respectively arranged in one-to-one correspondence with the two shearing arms (600);

And/or, the scissor arm (600) further comprises a pulley member (630) arranged at the bottom of the first sliding arm section (612) and a sliding rail member (640) arranged on the pit foundation and provided with a first sliding groove, wherein the pulley member (630) is movably arranged in the first sliding groove and can move towards or away from the second hinging arm section (622), and one end of the first sliding groove, which is arranged on the same side as the second hinging arm section (622), is arranged in an open way;

And/or, supporting platform (500) still includes spout seat (530), spout seat (530) are including relative interval locates two draw runner plates (531) of platform body (510) downside, two be formed with the second between draw runner plate (531) and draw runner plate (531) are last all offered with second draw runner groove syntropy extension slide hole (532), second slip arm section (621) stretch into in the second draw runner and can supply to pass the connecting axle spare of slide hole (532) wears to establish, so that second slip arm section (621) can be close to or keep away from first articulated arm section (611) removal.