CN111731706B - Self-elevating platform with high bearing capacity and easy rising and storage system - Google Patents

Abstract

The invention discloses a self-elevating platform with high bearing capacity and easy rising and a storage system, comprising: the lifting unit is positioned between the bearing plate and the conversion plate, the lifting unit comprises two groups of bearing units which are distributed in an X-shaped staggered manner, a connecting unit connected between the two groups of bearing units and a lifting unit driving the connecting unit to lift, the bearing units are telescopic, two ends of each bearing unit are provided with first telescopic ends, the middle part of each bearing unit is a first fixed end, the first telescopic ends at two ends of each bearing unit are movably hinged with the conversion plate and the bearing plate respectively, the connecting units are telescopic, two ends of each connecting unit are provided with second telescopic ends, the middle part of each connecting unit is a second fixed end, the second telescopic ends at two ends of each connecting unit are movably hinged with the two groups of first fixed ends respectively, and the connecting units are parallel to the bearing plate, so that two ends of each bearing unit of each lifting unit are always kept at two sides of the conversion plate when the lifting unit lifts, the uniform bearing capacity is ensured, and the bearing capacity of the conversion plate is improved.

Description

Self-elevating platform with high bearing capacity and easy rising and storage system

Technical Field

The invention relates to the technical field of buried garbage cans, in particular to a self-lifting platform with high bearing capacity and easy rising and a storage system.

Background

The size of the buried trash can is similar to that of a common outdoor trash can, but the buried trash can is made of metal instead of traditional plastic materials, and a handle lock is further arranged on the buried trash can. Buried dustbin buries the dustbin underground, and only the case lid is subaerial, only need step on the other footboard of dustbin gently when citizen throws away rubbish, and the lid of dustbin can be opened automatically, and citizen can throw away rubbish into.

Among the prior art, bury formula garbage bin in order to throw and store up rubbish, its surface still has protruding structure, and aesthetic property and ground utilization ratio are lower, and bury the bearing system of formula garbage bin and bear the unstability, owing to need to lift out the transportation of accomplishing rubbish with burying formula garbage bin, the arm of force of bearing often can not evenly distributed bury formula garbage bin bottom, lead to the bearing capacity inhomogeneous, lead to burying the bearing capacity of formula garbage bin lower, be if patent publication number: CN207645097U, in a patent that is used for burying the box hoisting device of collecting box with rubbish, when promoting the elevating platform, first support column and second support column are the gliding toward the right side of elevating platform, lead to bearing capacity to distribute inhomogeneously, lead to the bearing capacity of elevating platform to reduce, cause the part wearing and tearing for a long time easily, install phenomenon such as unstability, for this we provide a high bearing capacity and easily rise from elevating platform and collection and storage system and solve above-mentioned problem.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a self-elevating platform and a storage system with high bearing capacity and easy rising, wherein the self-elevating platform and the storage system are arranged between a bearing plate and a conversion plate, and the two ends of the bearing unit of the elevating unit are always kept at the two sides of the conversion plate when the elevating unit is lifted, so that the uniform bearing capacity is ensured, and the bearing capacity of the conversion plate is improved.

In order to achieve the above object, the present invention provides a self-elevating platform with high bearing capacity and easy to ascend, comprising:

a lifting unit for supporting the storage tank to lift up and down;

a conversion plate arranged at the upper end of the lifting unit and used for bearing the in-storage tank;

the bearing plate is arranged at the lower end of the lifting unit and is used for supporting the lifting unit;

the conversion plate and the bearing plate are vertically parallel, and the lifting unit is positioned between the bearing plate and the conversion plate;

the lifting unit comprises two groups of bearing units which are distributed in an X-shaped staggered mode, a connecting unit connected between the two groups of bearing units and a lifting unit driving the connecting unit to lift, the bearing units are telescopic, the two ends of each bearing unit are provided with first telescopic ends, the middle parts of the bearing units are first fixed ends, the first telescopic ends at the two ends of each bearing unit are movably hinged with the conversion plate and the bearing plate respectively, the connecting unit is telescopic, the two ends of each connecting unit are provided with second telescopic ends, the middle parts of the connecting units are second fixed ends, the second telescopic ends at the two ends of each connecting unit are movably hinged with the two groups of first fixed ends respectively, the connecting units are parallel to the bearing plates, the upper ends of the lifting unit are supported at the bottom of the connecting units, the bearing units and the connecting units can use common telescopic rods or air springs and the like, the two ends of the lifting unit can use telescopic parts, and the lifting unit can use electric push rods or air cylinders and the like.

As a further optimization of the above scheme, the lifting unit includes a lifting state and a contracting state, when in the lifting state, the lifting unit extends and simultaneously pushes the connecting unit to vertically rise, the first telescopic ends at the two ends of the bearing unit extend and abut against the conversion plate to rise relative to the bearing plate, at this time, the connecting position between the end of the bearing unit and the conversion plate is unchanged, when in the contracting state, the lifting unit shortens and simultaneously drives the connecting unit to vertically fall, the first telescopic ends at the two ends of the bearing unit contract and abut against and drive the conversion plate to fall relative to the bearing plate, the second telescopic ends at the two ends of the connecting unit can correspondingly stretch and contract when the connecting unit rises and falls, so as to adapt to the telescopic deformation of the first telescopic ends of the bearing unit, and the structure of the lifting unit ensures that when the conversion plate rises and falls, the connecting position of the end of the bearing unit at the bottom of the conversion plate and the conversion plate is unchanged, the bearing unit always maintains a stable state of the conversion plate in a balanced support, and weights on the conversion plate can be uniformly distributed, so that the bearing capacity of the conversion plate is improved, and stable lifting of the conversion plate can be completed.

As a further optimization of the above scheme, the size and thickness of the force bearing plate and the conversion plate are respectively consistent, the bearing capacity of the force bearing plate is consistent with that of the conversion plate, the conversion plate mainly achieves the purpose of transferring a heavy object borne above the conversion plate to the force bearing plate, and the conversion plate can lift relative to the force bearing plate.

The invention also discloses a storage system, which comprises the self-elevating platform with high bearing capacity and easy lifting, and also comprises:

the inside storage box is arranged above the conversion plate and used for storing garbage, an openable inside storage box cover is arranged above the inside storage box, a conversion unit for controlling the inside storage box to ascend and descend is arranged on the side face of the inside storage box, the inside storage box has a vertical state and an inclined state, the conversion unit keeps a contraction state and the inside storage box keeps vertical, the inside storage box cover at the upper end of the inside storage box is closed, the conversion unit keeps an extension state and the inside storage box keeps inclined, the inside storage box cover at the upper end of the inside storage box is opened, and the conversion unit can use an electric push rod or an air cylinder and the like;

the outer storage box is used for containing the bearing plate, the conversion plate, the lifting unit and the inner storage box, and the surface of the outer storage box is flush with the surface of the cover of the inner storage box.

As a further optimization of the scheme, the conversion unit keeps inclined, the lower end of the conversion unit is fixed on the surface of the conversion plate, and the upper end of the conversion unit is movably hinged to the side face of the inner storage tank through a first rotating shaft, so that when the conversion unit extends, the inner storage tank can rotate and incline by using the gravity of the inner storage tank as the shaft, and the garbage can be poured conveniently.

As a further optimization of the above scheme, the side surface of the inside storage tank is movably provided with a baffle plate blocking the side surface of the conversion unit, the bottom of the baffle plate is fixed with the conversion plate, the side surface of the inside storage tank is also provided with a stop block blocking the side surface of the baffle plate, the baffle plate is provided with a stop block between the conversion unit and the stop block, so that when the conversion unit is shortened, the inside storage tank can be in a vertical state and is convenient to be stored in the outside storage tank, the stop block is in a semi-annular structure, and the opening of the semi-annular structure faces upwards.

As the further optimization of above-mentioned scheme, the fixed vertical gag lever post that is equipped with in conversion unit's upper end, one side of interior storage tank lid is equipped with the atress pole that stops in the gag lever post side, and the gag lever post has the effect that stops the atress pole, and the atress pole is L font shaft-like structure, and the gag lever post is vertical shaft-like structure, when conversion unit drives interior storage tank and rises toward its upper right end, the atress pole is stopped by the gag lever post, and the atress pole can drive interior storage tank lid and open, and convenient interior storage tank lid is automatic opens and emptys rubbish when controlling the slope of interior storage tank, convenient to use, one side of interior storage tank is equipped with the inclined plane for the whole trapezoidal cell body structure that is of interior storage tank, like this when the slope of interior storage tank, rubbish can be smooth fall down from the inclined plane, and rubbish falls comparatively totally.

As the further optimization of above-mentioned scheme, the fixed reset plate that is equipped with in bottom one side of interior storage case lid and fixing the reset spring between reset plate and interior storage case inner wall, the surface of interior storage case lid is equipped with the throwing mouth that has the throwing flap, the one end of throwing flap articulates in throwing the mouth through third pivot activity, when including the vertical state of storage case, the atress pole laminating is in one side of gag lever post, the atress pole does not have the atress, including the storage case lid can close including receiving the storage case top, when receiving the storage case slope state, the gag lever post contradicts the atress pole, receive the storage case lid and open in the atress pole pulling, make reset spring compression, when including receiving the storage case and resetting to vertical state, reset spring's restoring force can drive interior storage case lid and close at interior storage case surface and accomplish to interior storage case top open-ended sealed, the throwing flap can conveniently rotate and open, throw the mouth through after opening to interior storage case rubbish.

As a further optimization of the above scheme, a delivery mechanism capable of controlling the opening or closing of the throwing port cover is arranged on one side of the inner storage box cover, the delivery mechanism comprises a force transmission frame which can be lifted and abutted against the throwing port cover and can be opened or closed in a rotating manner by taking a third rotating shaft as a shaft, and a force bearing plate for applying force to the force transmission frame, the force bearing plate is movably arranged in a lifting groove on the surface of the inner storage box cover, a plate body with a compression spring is arranged at the bottom of the inner storage box cover, the compression spring is supported at the bottom of the force bearing plate, a guide plate with tooth grooves on the side surface is arranged at the bottom of the force bearing plate, a guide port for the guide plate to pass through is arranged on the surface of the plate body, a fixed shaft gear capable of being meshed with the tooth grooves on the surface of the guide plate is integrally arranged at the end part of the force transmission frame, the middle part of the fixed shaft gear is movably hinged in the inner wall of the inner storage box through a second rotating shaft, when force is applied to the force bearing plate, such as a foot stepping on the force bearing plate, the stressed plate compresses the compression spring, the stressed plate drives the guide plate to descend, the gear groove on the guide plate is meshed with the dead axle gear, the dead axle gear can be driven to rotate by taking the second rotating shaft as an axis, so that the force transmission frame also synchronously rotates, the force transmission frame is abutted against the throwing port cover to rotate by taking the third rotating shaft as an axis when rotating to ascend, the throwing port is opened, the use is convenient, when the stressed plate loses force application, the compressed compression spring recovers deformation and drives the stressed plate to reset, so that the guide plate ascends, further, the dead axle gear meshed with the gear groove on the side surface of the guide plate resets, the force transmission frame can rotate and descend by taking the second rotating shaft as an axis until the throwing port cover is sealed and clamped at an opening position above the throwing port, the throwing port is covered, namely, when the throwing port is opened, only force is needed to be applied to the stressed plate, when the throwing port is closed, only the force applied to the stressed plate is needed to be removed, the rubbish throwing is simple and convenient, the plate body plays a role of supporting the compression spring, the guide port on the plate body plays the purpose of guiding the guide plate to vertically lift, the guide plate is guaranteed to vertically lift and drives the force transmission frame to rotate through the gear groove on the surface of the guide plate and the meshing transmission of the dead axle gear, wherein, the force transmission frame is preferably of an L-shaped structure, the lifting groove plays the purpose of guiding the force bearing plate to vertically lift, the surface of the inner storage box cover is kept parallel and level, the whole equipment can be completely buried at the bottom of the ground, the surface parallel and level of the whole equipment is guaranteed, and the utilization rate and the attractiveness of the ground space are not influenced.

As a further optimization of the above scheme, the carrying units are provided with four groups, the four groups of carrying units are uniformly distributed at four corners of the conversion plate, the two groups of opposite carrying units are connected through the connecting units, the two groups of connecting units are distributed in an X-shaped staggered manner, and contact positions between the two groups of connecting units are fixedly connected.

The self-elevating platform and the storage system with high bearing capacity and easy rising provided by the invention have the following beneficial effects:

1. the invention relates to a self-elevating platform and a storage system with high bearing capacity and easy rising, which comprises a lifting unit positioned between a bearing plate and a conversion plate, wherein the lifting unit comprises two groups of bearing units which are distributed in an X-shaped staggered manner, a connecting unit connected between the two groups of bearing units and a lifting unit driving the connecting unit to rise and fall, the bearing units are telescopic, two ends of each bearing unit are provided with first telescopic ends, the middle parts of the bearing units are first fixed ends, the first telescopic ends at the two ends of each bearing unit are respectively movably hinged with the conversion plate and the bearing plate, the connecting unit is telescopic, two ends of each connecting unit are provided with second telescopic ends, the middle parts of the connecting units are second fixed ends, the second telescopic ends at the two ends of each connecting unit are respectively movably hinged with the two groups of first fixed ends, the connecting units are parallel to the bearing plate, and the upper ends of the lifting unit are supported at the bottom of the connecting unit, so that the two ends of the bearing units of each lifting unit are always kept at two sides of the conversion plate when the lifting unit is lifted, the lifting unit ensures the uniform bearing capacity of the conversion plate, improves the bearing capacity of the conversion plate, and replaces the prior art that the supporting members at the bottom of the conversion plate can not change positions when the conversion plate needs to fall, and the bearing capacity is not distributed integrally;

2. according to the self-elevating platform and the storage system with high bearing capacity and easy rising, the inside storage box is controlled by the conversion unit to be converted between the vertical state and the inclined state, when the vertical state is converted to the inclined state, the conversion unit is only needed to push the inside storage box to rise, the limit effect of the baffle plate of the inside storage box in the vertical state can be switched to the inclined state through the rotation of the gravity of the inside storage box by taking the first rotating shaft as a shaft, the mode that the inside storage box is directly controlled to be switched to the inclined state by using the power mechanism is replaced, the power application is reduced, corresponding electric energy is saved, the environment is protected, and when the inside storage box is switched to the inclined state, the cover of the inside storage box can be automatically opened, so that the control and use are convenient.

There have been disclosed in detail certain embodiments of the invention with reference to the following description and drawings, and it is to be understood that the embodiments of the invention are not limited thereby, but are intended to cover within the spirit and scope of the appended claims, many changes, modifications, and equivalents.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the extended inside storage tank of the present invention;

FIG. 3 is a schematic view of the inside storage tank of the present invention when tilted;

FIG. 4 is a schematic view of the outer storage box of the present invention;

FIG. 5 is a schematic view of the inside storage tank of the present invention;

FIG. 6 is a schematic view of the construction of the inside hopper surface of the invention with the delivery flap open;

FIG. 7 is an enlarged view of the structure at A in FIG. 5 according to the present invention;

FIG. 8 is an enlarged view of the structure at B in FIG. 6 according to the present invention;

FIG. 9 is a schematic diagram illustrating a connection structure between a carrying unit and a connection unit according to a first embodiment of the present invention;

fig. 10 is a schematic view of a connection structure between a carrying unit and a connection unit according to a second embodiment of the present invention.

In the figure: the device comprises an outer storage box 1, an inner storage box 2, a force bearing plate 3, a conversion plate 4, a bearing unit 5, a lifting unit 6, a connecting unit 7, a stop block 8, a conversion unit 9, a baffle plate 10, a stress rod 11, a limiting rod 12, an inner storage box cover 13, an inclined surface 14, a reset plate 15, a reset spring 16, a throwing opening 17, a throwing opening cover 18, a first rotating shaft 19, a stress plate 20, a lifting groove 21, a compression spring 22, a plate body 23, a guide opening 24, a guide plate 25, a second rotating shaft 26, a fixed shaft gear 27, a force transmission frame 28 and a third rotating shaft 29.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood, however, that the description herein of specific embodiments is only intended to illustrate the invention and not to limit the scope of the invention.

It should be noted that when an element is referred to as being "disposed on," or provided with "another element, it can be directly on the other element or intervening elements may also be present, when an element is referred to as being" connected, "or coupled to another element, it can be directly on the other element or intervening elements may be present, and" fixedly coupled "means that the element is fixedly coupled in many ways, which are not intended to be within the scope of the present disclosure, the terms" vertical, "" horizontal, "" left, "" right, "and the like are used herein for illustrative purposes only and are not intended to be a single embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification are for the purpose of describing particular embodiments only and are not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items;

please refer to fig. 1-10 of the specification

Example one

The invention provides a technical scheme that: a high capacity, easy-to-rise, self-elevating platform comprising:

a lifting unit for supporting the storage tank 2 to lift up and down;

a conversion plate 4 arranged at the upper end of the lifting unit and used for bearing the in-storage tank 2;

a bearing plate 3 arranged at the lower end of the lifting unit and used for supporting the lifting unit;

the conversion plate 4 and the bearing plate 3 are vertically parallel, and the lifting unit is positioned between the bearing plate 3 and the conversion plate 4;

the lifting unit comprises two groups of bearing units 5 which are distributed in an X-shaped staggered manner, a connecting unit 7 connected between the two groups of bearing units 5 and a lifting unit 6 driving the connecting unit 7 to lift, the bearing units 5 are telescopic, the two ends of each bearing unit 5 are provided with first telescopic ends, the middle part of each bearing unit 5 is a first fixed end, the first telescopic ends of the two ends of each bearing unit 5 are respectively movably hinged with the conversion plate 4 and the bearing plate 3, the connecting unit 7 is telescopic, the two ends of each connecting unit 7 are provided with second telescopic ends, the middle part of each connecting unit 7 is a second fixed end, the second telescopic ends of the two ends of each connecting unit 7 are respectively movably hinged with the two groups of first fixed ends, the connecting unit 7 is parallel to the bearing plate 3, and the upper end of each lifting unit 6 is supported at the bottom of the connecting unit 7;

in this embodiment, the carrying unit 5 and the connecting unit 7 may use common telescopic rods or air springs, both ends of the carrying unit 5 and the connecting unit 7 may be telescopic parts, the lifting unit 6 may use electric push rods or air cylinders, the carrying unit 5 has four groups, the four groups of carrying units 5 are uniformly distributed at four corners of the conversion plate 4, two adjacent groups of carrying units 5 are connected by the connecting unit 7, the two groups of connecting units 7 are distributed in parallel, and the two groups of lifting units 6 are controlled to lift synchronously.

It should be noted that the lifting unit includes a lifting state and a contracting state, when in the lifting state, the lifting unit 6 extends out and simultaneously pushes the connecting unit 7 to vertically rise, the first telescopic ends at the two ends of the bearing unit 5 extend out and abut against the conversion plate 4 to rise relative to the bearing plate 3, at this time, the connecting position between the end of the bearing unit 5 and the conversion plate 4 is unchanged, when in the contracting state, the lifting unit 6 shortens and simultaneously drives the connecting unit 7 to vertically fall, and the first telescopic ends at the two ends of the bearing unit 5 contract and abut against and drive the conversion plate 4 to fall relative to the bearing plate 3;

specifically, the flexible end of second at linkage unit 7 both ends can be correspondingly flexible when linkage unit 7 goes up and down, adapt to the flexible deformation of the first flexible end of load-bearing unit 5, and this kind of lifting unit's structure has guaranteed that conversion board 4 is when going up and down, the hookup location of the 5 tip of load-bearing unit and conversion board 4 of its bottom is unchangeable, load-bearing unit 5 remains the steady state of balanced support conversion board 4 all the time, can be with the heavy object distribution on conversion board 4 even, make conversion board 4 bearing capacity promote to some extent, and can accomplish the steady lift of conversion board 4.

The size and the thickness of the bearing plate 3 and the conversion plate 4 are respectively consistent;

the bearing capacity of the bearing plate 3 is the same as that of the conversion plate 4, the conversion plate 4 mainly plays a role in transferring a heavy object borne above the conversion plate to the bearing plate 3, and the conversion plate 4 can lift relative to the bearing plate 3.

The invention also discloses a storage system, which comprises any self-elevating platform with high bearing capacity and easy to ascend, and also comprises:

the inside storage box 2 is arranged above the conversion plate 4 and used for storing garbage, an openable inside storage box cover 13 is arranged above the inside storage box 2, a conversion unit 9 for controlling the inside storage box 2 to ascend and descend is arranged on the side face of the inside storage box 2, the inside storage box 2 has a vertical state and an inclined state, in the vertical state, the conversion unit 9 keeps a contraction state, the inside storage box 2 keeps vertical, the inside storage box cover 13 at the upper end of the inside storage box is closed, in the inclined state, the conversion unit 9 keeps an extension state, the inside storage box 2 keeps inclined, and the inside storage box cover 13 at the upper end of the inside storage box is opened;

in this embodiment, the conversion unit 9 may use an electric push rod or an air cylinder;

the outer storage box 1 is used for containing the bearing plate 3, the conversion plate 4, the lifting unit and the inner storage box 2, and the surface of the outer storage box 1 is flush with the surface of the inner storage box cover 13.

Wherein, the conversion unit 9 keeps inclining, the lower end of the conversion unit 9 is fixed on the surface of the conversion plate 4, and the upper end of the conversion unit 9 is movably hinged on the side surface of the inside storage tank 2 through a first rotating shaft 19;

thus, when the conversion unit 9 is extended, the inside storage tank 2 can be rotated and tilted about the first rotation axis 19 by its own weight, and the garbage can be easily dumped.

A baffle plate 10 blocking the side surface of the conversion unit 9 is movably arranged on the side surface of the inside storage tank 2, the bottom of the baffle plate 10 is fixed with the conversion plate 4, and a stop block 8 blocking the side surface of the baffle plate 10 is also arranged on the side surface of the inside storage tank 2;

the baffle 10 is blocked between the switching unit 9 and the stopper 8, so that when the switching unit 9 is shortened, the inside storage tank 2 is in a vertical state and is convenient to be stored in the outside storage tank 1, and the stopper 8 is in a semi-annular structure, and the opening of the semi-annular structure faces upwards.

In this embodiment, a vertical limiting rod 12 is fixedly disposed at the upper end of the conversion unit 9, and a stress rod 11 blocking the side surface of the limiting rod 12 is disposed at one side of the storage tank cover 13;

gag lever post 12 has the effect that blocks atress pole 11, and atress pole 11 is L font rod-like structure, and gag lever post 12 is vertical rod-like structure, and when conversion unit 9 drove interior storage tank 2 and ascended toward its upper right end, atress pole 11 was blockked by gag lever post 12, and atress pole 11 can drive interior storage tank lid 13 and open, and convenient to use is fallen rubbish to convenient interior storage tank lid 13 automatic opening when controlling the slope of interior storage tank 2.

It should be noted that one side of the inside storage tank 2 is provided with an inclined plane 14, so that the inside storage tank 2 is integrally in a trapezoidal groove structure, and when the inside storage tank 2 is inclined, garbage can smoothly slide off the inclined plane 14 and be poured out, and the garbage falls cleanly.

A reset plate 15 and a reset spring 16 fixed between the reset plate 15 and the inner wall of the inside storage box 2 are fixedly arranged on one side of the bottom of the inside storage box cover 13, a throwing port 17 with a throwing port cover 18 is arranged on the surface of the inside storage box cover 13, and one end of the throwing port cover 18 is movably hinged in the throwing port 17 through a third rotating shaft 29;

when 2 vertical states of storage tank in the storage, the laminating of atress pole 11 is in one side of gag lever post 12, atress pole 11 is atress, 2 tops of storage tank are received to the storage in 13 can the lid, when 2 inclined state of storage tank are received to the storage in including, gag lever post 12 conflict atress pole 11, receive storage tank lid 13 in the atress pole 11 pulling and open, make reset spring 16 compression, when storage tank 2 resets to vertical state including, receive storage tank lid 13 lid to close in storage tank 2 surface is accomplished to 2 top open-ended sealings in the storage tank in can driving of reset spring 16's restoring force, throw flap 18 can conveniently rotate and open, throw rubbish through throw opening 17 after opening to 2 interior storage tank that receive.

In this embodiment, a delivery mechanism capable of controlling the opening or closing of the throwing port cover 18 is arranged on one side of the internal storage box cover 13, the delivery mechanism comprises a force transmission frame 28 capable of lifting and abutting against the throwing port cover 18 and rotating to open or close by taking a third rotating shaft 29 as a shaft and a stress plate 20 for applying force to the force transmission frame 28, the stress plate 20 is movably arranged in a lifting groove 21 on the surface of the internal storage box cover 13, a plate body 23 with a compression spring 22 is arranged at the bottom of the internal storage box cover 13, the compression spring 22 is supported at the bottom of the stress plate 20, a guide plate 25 with a tooth socket on the side surface is arranged at the bottom of the stress plate 20, a guide port 24 for the guide plate 25 to move through is arranged on the surface of the plate body 23, a fixed shaft gear 27 capable of being meshed and driven on the tooth socket on the surface of the guide plate 25 is integrally arranged at the end of the force transmission frame 28, and the middle part of the fixed shaft gear 27 is movably hinged in the inner wall of the internal storage box 2 through a second rotating shaft 26;

when a force is applied to the stress plate 20, if the stress plate 20 is stepped on by a foot, the stress plate 20 compresses the compression spring 22, the stress plate 20 drives the guide plate 25 to descend, the gear groove on the guide plate 25 is meshed with the dead axle gear 27, the dead axle gear 27 is driven to rotate by taking the second rotating shaft 26 as a shaft, so that the force transfer frame 28 also synchronously rotates, the force transfer frame 28 pushes the throwing opening cover 18 to rotate by taking the third rotating shaft 29 as a shaft when rotating to ascend, and the throwing opening 17 is opened, so that the use is convenient;

when the force application plate 20 loses force application, the compressed compression spring 22 recovers deformation to drive the force application plate 20 to reset, so that the guide plate 25 rises, the fixed shaft gear 27 meshed with the gear groove on the side surface of the guide plate 25 resets, the force transmission frame 28 rotates and descends by taking the second rotating shaft 26 as a shaft until the throwing port cover 18 is in sealed clamping at the opening position above the throwing port 17, and the covering of the throwing port 17 is completed;

namely, when the throwing opening 17 is opened, only the force is applied to the stress plate 20, and when the throwing opening 17 is closed, only the force applied to the stress plate 20 is removed, so that the garbage is thrown simply and conveniently;

in the above device, the plate body 23 is used for supporting the compression spring 22, the guide port 24 on the plate body 23 is used for guiding the guide plate 25 to vertically lift, the guide plate 25 is ensured to vertically lift so as to drive the force transmission frame 28 to rotate through the meshing transmission of the gear groove on the surface of the guide plate and the dead axle gear 27, wherein the force transmission frame 28 is preferably in an L-shaped structure, the lifting groove 21 is used for guiding the stressed plate 20 to vertically lift, the surface of the inner storage tank cover 13 is kept level, the whole device can be completely buried at the ground bottom, the surface level of the whole device is ensured, and the utilization rate and the attractiveness of the ground space are not influenced.

The self-elevating platform and the storage system with high bearing capacity and easy rising provided by the embodiment have the following working processes:

as shown in fig. 1, when the inner storage box 2 is located inside the outer storage box 1, both are buried in the ground, the upper side of the inner storage box 2 is flush with the ground, when the stress plate 20 is stepped on by feet, the guide plate 25 descends along with the inner storage box, the gear groove on the guide plate 25 is in meshing transmission with the fixed shaft gear 27, the fixed shaft gear 27 rotates around the second rotating shaft 26 as a shaft, the force transmission frame 28 on the fixed shaft gear 27 is abutted against the throwing port cover 18 to be opened, and the garbage can be thrown through the throwing port 17;

when transporting garbage, for example, when transporting the inside storage tank 2 to an external large garbage truck, the inside storage tank 2 may be controlled to rise by the lifting unit 6, when the lifting unit 6 rises, the corresponding connecting unit 7 and the end of the carrying unit 5 extend to adapt, so that the bottom of the conversion plate 4 and the supporting point of the carrying unit 5 are always kept unchanged, thereby ensuring stable carrying capacity, when the inside storage tank 2 rises out of the external storage tank 1, the conversion unit 9 is controlled to drive the inside storage tank 2 to move upwards, when the stopper 8 rises above the baffle 10, the stopper 8 loses the blocking effect of the baffle 10, the inside storage tank 2 rotates around the first rotating shaft 19 by its own gravity, the inside storage tank 2 is switched to an inclined state, as shown in fig. 3, when the inside storage tank 2 is switched to the inclined state, the force receiving rod 11 is blocked by the stopper rod 12 and moves to one side of the inside storage tank 2, so that the lid 13 of the inside storage tank is opened, at this time, the inside storage tank 2 is opened, and the inside storage tank 2 can be transported to the external large garbage truck through the opening thereof.

When the inside storage tank 2 is taken into the outside storage tank 1 again, the lifting unit 6 is reset at first, the right side surface of the inside storage tank 2 is blocked by the side edge of the outside storage tank 1 at first, the inside storage tank 2 is gradually switched to a vertical state, and then the switching unit 9 is reset again, so that the inside storage tank 2 can be switched to a state as shown in fig. 1, and the use is convenient and simple.

Example two

The invention provides a technical scheme that: a high capacity, easy-to-rise, self-elevating platform comprising:

a lifting unit for supporting the storage tank 2 to lift up and down;

a conversion plate 4 arranged at the upper end of the lifting unit and used for bearing the in-storage tank 2;

a bearing plate 3 arranged at the lower end of the lifting unit and used for supporting the lifting unit;

the conversion plate 4 and the bearing plate 3 are vertically parallel, and the lifting unit is positioned between the bearing plate 3 and the conversion plate 4;

the lifting unit comprises two groups of bearing units 5 which are distributed in an X-shaped staggered manner, a connecting unit 7 connected between the two groups of bearing units 5 and a lifting unit 6 driving the connecting unit 7 to lift, the bearing units 5 are telescopic, the two ends of each bearing unit 5 are provided with first telescopic ends, the middle part of each bearing unit 5 is a first fixed end, the first telescopic ends of the two ends of each bearing unit 5 are respectively movably hinged with the conversion plate 4 and the bearing plate 3, the connecting unit 7 is telescopic, the two ends of each connecting unit 7 are provided with second telescopic ends, the middle part of each connecting unit 7 is a second fixed end, the second telescopic ends of the two ends of each connecting unit 7 are respectively movably hinged with the two groups of first fixed ends, the connecting unit 7 is parallel to the bearing plate 3, and the upper end of each lifting unit 6 is supported at the bottom of the connecting unit 7;

in this embodiment, the carrying unit 5 and the connecting unit 7 may use a common telescopic rod or a gas spring, both ends of the carrying unit 5 and the connecting unit 7 may be telescopic parts, the lifting unit 6 may use an electric push rod or a cylinder, the carrying unit 5 has four groups, the four groups of carrying units 5 are uniformly distributed at four corners of the conversion plate 4, the two groups of opposite carrying units 5 are connected through the connecting unit 7, the two groups of connecting units 7 are distributed in an X-shape in a staggered manner, and the contact positions between the two groups of connecting units 7 are fixedly connected, at this time, a group of lifting unit 6 is provided, and the conversion plate 4 is controlled to lift.

It should be noted that the lifting unit includes a lifting state and a contracting state, when in the lifting state, the lifting unit 6 extends out and simultaneously pushes the connecting unit 7 to vertically rise, the first telescopic ends at the two ends of the bearing unit 5 extend out and abut against the conversion plate 4 to rise relative to the bearing plate 3, at this time, the connecting position between the end of the bearing unit 5 and the conversion plate 4 is unchanged, when in the contracting state, the lifting unit 6 shortens and simultaneously drives the connecting unit 7 to vertically fall, and the first telescopic ends at the two ends of the bearing unit 5 contract and abut against and drive the conversion plate 4 to fall relative to the bearing plate 3;

specifically, the flexible end of second at linkage unit 7 both ends can be correspondingly flexible when linkage unit 7 goes up and down, adapt to the flexible deformation of the first flexible end of load-bearing unit 5, and this kind of lifting unit's structure has guaranteed that conversion board 4 is when going up and down, the hookup location of the 5 tip of load-bearing unit and conversion board 4 of its bottom is unchangeable, load-bearing unit 5 remains the steady state of balanced support conversion board 4 all the time, can be with the heavy object distribution on conversion board 4 even, make conversion board 4 bearing capacity promote to some extent, and can accomplish the steady lift of conversion board 4.

The size and the thickness of the bearing plate 3 and the conversion plate 4 are respectively consistent;

the bearing capacity of the bearing plate 3 is the same as that of the conversion plate 4, the conversion plate 4 mainly plays a role in transferring a heavy object borne above the conversion plate to the bearing plate 3, and the conversion plate 4 can lift relative to the bearing plate 3.

The invention also discloses a storage system, which comprises any self-elevating platform with high bearing capacity and easy to ascend, and also comprises:

the inside storage box 2 is arranged above the conversion plate 4 and used for storing garbage, an openable inside storage box cover 13 is arranged above the inside storage box 2, a conversion unit 9 for controlling the inside storage box 2 to ascend and descend is arranged on the side face of the inside storage box 2, the inside storage box 2 has a vertical state and an inclined state, in the vertical state, the conversion unit 9 keeps a contraction state, the inside storage box 2 keeps vertical, the inside storage box cover 13 at the upper end of the inside storage box is closed, in the inclined state, the conversion unit 9 keeps an extension state, the inside storage box 2 keeps inclined, and the inside storage box cover 13 at the upper end of the inside storage box is opened;

in this embodiment, the conversion unit 9 may use an electric push rod or an air cylinder;

the outer storage box 1 is used for containing the bearing plate 3, the conversion plate 4, the lifting unit and the inner storage box 2, and the surface of the outer storage box 1 is flush with the surface of the inner storage box cover 13.

Wherein, the conversion unit 9 keeps inclining, the lower end of the conversion unit 9 is fixed on the surface of the conversion plate 4, and the upper end of the conversion unit 9 is movably hinged on the side surface of the inside storage tank 2 through a first rotating shaft 19;

thus, when the conversion unit 9 is extended, the inside storage tank 2 can be rotated and tilted about the first rotation axis 19 by its own weight, and the garbage can be easily dumped.

A baffle plate 10 which blocks the side surface of the conversion unit 9 is movably arranged on the side surface of the inner storage tank 2, the bottom of the baffle plate 10 is fixed with the conversion plate 4, and a stop block 8 which blocks the side surface of the baffle plate 10 is also arranged on the side surface of the inner storage tank 2;

the baffle 10 is blocked between the switching unit 9 and the stopper 8, so that when the switching unit 9 is shortened, the inside storage tank 2 is in a vertical state and is convenient to be stored in the outside storage tank 1, and the stopper 8 is in a semi-annular structure, and the opening of the semi-annular structure faces upwards.

In this embodiment, a vertical limit rod 12 is fixedly arranged at the upper end of the conversion unit 9, and a stress rod 11 blocking the side surface of the limit rod 12 is arranged at one side of the storage tank cover 13;

gag lever post 12 has the effect that blocks atress pole 11, and atress pole 11 is L font rod-like structure, and gag lever post 12 is vertical rod-like structure, and when conversion unit 9 drove interior storage tank 2 and ascended toward its upper right end, atress pole 11 was blockked by gag lever post 12, and atress pole 11 can drive interior storage tank lid 13 and open, and convenient to use is fallen rubbish to convenient interior storage tank lid 13 automatic opening when controlling the slope of interior storage tank 2.

It should be noted that one side of the inside storage tank 2 is provided with an inclined plane 14, so that the inside storage tank 2 is integrally in a trapezoidal groove structure, and when the inside storage tank 2 is inclined, garbage can smoothly slide off the inclined plane 14 and be poured out, and the garbage falls cleanly.

A reset plate 15 and a reset spring 16 fixed between the reset plate 15 and the inner wall of the inside storage box 2 are fixedly arranged on one side of the bottom of the inside storage box cover 13, a throwing port 17 with a throwing port cover 18 is arranged on the surface of the inside storage box cover 13, and one end of the throwing port cover 18 is movably hinged in the throwing port 17 through a third rotating shaft 29;

when 2 vertical states of storage tank in adduction, the laminating of atress pole 11 is in one side of gag lever post 12, atress pole 11 does not have the atress, adduction storage tank lid 13 can be covered and close in 2 tops of storage tank in adduction, when 2 inclined state of storage tank in including receiving, gag lever post 12 contradicts atress pole 11, storage tank lid 13 is opened in the atress pole 11 pulling, make reset spring 16 compress, when storage tank 2 resets to vertical state including, reset spring 16's restoring force can drive in the storage tank lid 13 lid and close in 2 surfaces of storage tank in the completion of 2 top open-ended sealings of storage tank in adduction, throw flap 18 can conveniently rotate and open, throw rubbish through throw mouth 17 after opening to 2 internal storage tanks of receiving.

In this embodiment, a delivery mechanism capable of controlling the opening or closing of the throwing port cover 18 is arranged on one side of the internal storage box cover 13, the delivery mechanism comprises a force transmission frame 28 capable of lifting and abutting against the throwing port cover 18 and rotating to open or close by taking a third rotating shaft 29 as a shaft and a stress plate 20 for applying force to the force transmission frame 28, the stress plate 20 is movably arranged in a lifting groove 21 on the surface of the internal storage box cover 13, a plate body 23 with a compression spring 22 is arranged at the bottom of the internal storage box cover 13, the compression spring 22 is supported at the bottom of the stress plate 20, a guide plate 25 with a tooth socket on the side surface is arranged at the bottom of the stress plate 20, a guide port 24 for the guide plate 25 to move through is arranged on the surface of the plate body 23, a fixed shaft gear 27 capable of being meshed and driven on the tooth socket on the surface of the guide plate 25 is integrally arranged at the end of the force transmission frame 28, and the middle part of the fixed shaft gear 27 is movably hinged in the inner wall of the internal storage box 2 through a second rotating shaft 26;

when a force is applied to the stress plate 20, if the stress plate 20 is stepped by a foot, the stress plate 20 compresses the compression spring 22, the stress plate 20 drives the guide plate 25 to descend, the gear groove on the guide plate 25 is meshed with the dead axle gear 27, the dead axle gear 27 can be driven to rotate by taking the second rotating shaft 26 as a shaft, so that the force transmission frame 28 also synchronously rotates, the force transmission frame 28 pushes the throwing port cover 18 to rotate by taking the third rotating shaft 29 as a shaft when rotating to ascend, and the throwing port 17 is opened, so that the use is convenient;

when the force application plate 20 loses force application, the compressed compression spring 22 recovers deformation to drive the force application plate 20 to reset, so that the guide plate 25 rises, the fixed shaft gear 27 meshed with the gear groove on the side surface of the guide plate 25 resets, the force transmission frame 28 rotates and descends by taking the second rotating shaft 26 as a shaft until the throwing port cover 18 is in sealed clamping at the opening position above the throwing port 17, and the covering of the throwing port 17 is completed;

namely, when the throwing opening 17 is opened, only the force is applied to the stress plate 20, and when the throwing opening 17 is closed, only the force applied to the stress plate 20 is removed, so that the garbage is thrown simply and conveniently;

in the above device, the plate body 23 plays a role of supporting the compression spring 22, the guide port 24 on the plate body 23 plays a role of guiding the guide plate 25 to vertically lift, and the guide plate 25 is ensured to vertically lift so as to drive the force transmission frame 28 to rotate by meshing transmission with the dead axle gear 27 through the gear groove on the surface of the guide plate 25, wherein the force transmission frame 28 is preferably of an L-shaped structure, the lifting groove 21 plays a role of guiding the stressed plate 20 to vertically lift, the surface of the inner storage box cover 13 is kept flush, the whole device can be completely buried at the bottom of the ground, the surface flush is ensured, and the utilization rate and the attractiveness of the ground space are not affected.

The self-elevating platform and the storage system with high bearing capacity and easy rising provided by the embodiment have the following working processes:

as shown in fig. 1, when the inner storage box 2 is located inside the outer storage box 1, both are buried in the ground, the upper side of the inner storage box 2 is flush with the ground, when the stress plate 20 is stepped on by feet, the guide plate 25 descends along with the inner storage box, the gear groove on the guide plate 25 is in meshing transmission with the fixed shaft gear 27, the fixed shaft gear 27 rotates around the second rotating shaft 26 as a shaft, the force transmission frame 28 on the fixed shaft gear 27 is abutted against the throwing port cover 18 to be opened, and the garbage can be thrown through the throwing port 17;

when transporting garbage, for example, when transporting the inside storage tank 2 to an external large garbage truck, the inside storage tank 2 may be controlled to rise by the lifting unit 6, when the lifting unit 6 rises, the corresponding connecting unit 7 and the end of the carrying unit 5 extend to adapt, so that the bottom of the conversion plate 4 and the supporting point of the carrying unit 5 are always kept unchanged, thereby ensuring stable carrying capacity, when the inside storage tank 2 rises out of the external storage tank 1, the conversion unit 9 is controlled to drive the inside storage tank 2 to move upwards, when the stopper 8 rises above the baffle 10, the stopper 8 loses the blocking effect of the baffle 10, the inside storage tank 2 rotates around the first rotating shaft 19 by its own gravity, the inside storage tank 2 is switched to an inclined state, as shown in fig. 3, when the inside storage tank 2 is switched to the inclined state, the force receiving rod 11 is blocked by the stopper rod 12 and moves to one side of the inside storage tank 2, so that the lid 13 of the inside storage tank is opened, at this time, the inside storage tank 2 is opened, and the inside storage tank 2 can be transported to the external large garbage truck through the opening thereof.

When the inside storage tank 2 is taken into the outside storage tank 1 again, the lifting unit 6 is reset at first, the right side surface of the inside storage tank 2 is blocked by the side edge of the outside storage tank 1 at first, the inside storage tank 2 is gradually switched to a vertical state, and then the switching unit 9 is reset again, so that the inside storage tank 2 can be switched to a state as shown in fig. 1, and the use is convenient and simple.

It should be understood that the present invention is not limited to the particular embodiments described herein, but is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (3)

1. A storage system, characterized by: the self-elevating platform with high bearing capacity and easy ascending comprises an elevating unit for supporting the inside storage tank to ascend and descend;

a conversion plate arranged at the upper end of the lifting unit and used for bearing the in-storage tank;

the bearing plate is arranged at the lower end of the lifting unit and used for supporting the lifting unit;

the conversion plate and the bearing plate are vertically parallel, and the lifting unit is positioned between the bearing plate and the conversion plate;

the lifting unit comprises two groups of bearing units which are distributed in an X-shaped staggered manner, a connecting unit connected between the two groups of bearing units and a lifting unit driving the connecting unit to lift, the bearing units are telescopic, the two ends of each bearing unit are provided with first telescopic ends, the middle part of each bearing unit is provided with a first fixed end, the first telescopic ends at the two ends of each bearing unit are movably hinged with the conversion plate and the bearing plate respectively, the connecting units are telescopic, the two ends of each connecting unit are provided with second telescopic ends, the middle part of each connecting unit is provided with a second fixed end, the second telescopic ends at the two ends of each connecting unit are movably hinged with the two groups of first fixed ends respectively, the connecting units are parallel to the bearing plates, and the upper ends of the lifting unit are supported at the bottom of the connecting units;

the lifting unit comprises a lifting state and a contraction state, when in the lifting state, the lifting unit extends out and simultaneously pushes the connecting unit to vertically rise, the first telescopic ends at the two ends of the bearing unit extend out and abut against the conversion plate to rise relative to the bearing plate, at the moment, the connecting position between the end part of the bearing unit and the conversion plate is unchanged, when in the contraction state, the lifting unit shortens and simultaneously drives the connecting unit to vertically fall, and the first telescopic ends at the two ends of the bearing unit contract and abut against and drive the conversion plate to fall relative to the bearing plate;

the size and the thickness of the bearing plate and the conversion plate are respectively consistent;

the storage system further comprises:

the inside storage box is arranged above the conversion plate and used for storing garbage, an openable inside storage box cover is arranged above the inside storage box, a conversion unit for controlling the inside storage box to lift is arranged on the side face of the inside storage box, the inside storage box has a vertical state and an inclined state, the conversion unit keeps a contraction state in the vertical state, the inside storage box keeps vertical, the inside storage box cover at the upper end of the inside storage box is closed, the conversion unit keeps an extension state in the inclined state, the inside storage box keeps inclined, and the inside storage box cover at the upper end of the inside storage box is opened;

the outer storage box is used for containing the bearing plate, the conversion plate, the lifting unit and the inner storage box, and the surface of the outer storage box is flush with the surface of the inner storage box cover;

a vertical limiting rod is fixedly arranged at the upper end of the conversion unit, a stress rod blocking the side surface of the limiting rod is arranged on one side of the inner storage box cover, and an inclined surface is arranged on one side of the inner storage box;

a delivery mechanism capable of controlling the throwing port cover to be opened or closed is arranged on one side of the inner storage box cover, the delivery mechanism comprises a force transmission frame capable of lifting and abutting against the throwing port cover and rotating to be opened or closed by taking a third rotating shaft as a shaft and a stress plate for applying force to the force transmission frame, the stress plate is movably arranged in a lifting groove in the surface of the inner storage box cover, a plate body with a compression spring is arranged at the bottom of the inner storage box cover, the compression spring is supported at the bottom of the stress plate, a guide plate with tooth sockets on the side surface is arranged at the bottom of the stress plate, a guide port for the guide plate to move through is arranged on the surface of the plate body, a fixed shaft gear capable of being meshed with the tooth sockets on the surface of the guide plate is integrally arranged at the end part of the force transmission frame, and the middle part of the fixed shaft gear is movably hinged in the inner wall of the inner storage box through a second rotating shaft;

the conversion unit keeps inclining, the lower end of the conversion unit is fixed on the surface of the conversion plate, and the upper end of the conversion unit is movably hinged to the side surface of the inside storage box through a first rotating shaft;

the side surface of the inside storage tank is movably provided with a baffle plate for blocking the side surface of the conversion unit, the bottom of the baffle plate is fixed with the conversion plate, and the side surface of the inside storage tank is also provided with a stop block for blocking the side surface of the baffle plate.

2. A storage system according to claim 1, wherein: the bottom one side of interior storage case lid is fixed to be equipped with the board that resets and fixes the reset spring between board and the interior storage case inner wall that resets, and the surface of interior storage case lid is equipped with the throwing mouth that has the throwing flap, and the one end of throwing flap articulates in throwing the mouth through third pivot activity.

3. A storage system according to claim 2, wherein: the bearing units are provided with four groups, the four groups of bearing units are uniformly distributed at four corners of the conversion plate, the two groups of opposite bearing units are connected through the connecting units, the two groups of connecting units are distributed in an X-shaped staggered manner, and contact positions between the two groups of connecting units are fixedly connected.

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