CN216402612U - Lifting mechanism for buried garbage collection device - Google Patents

Abstract

The utility model is suitable for the technical field of buried garbage cans, and provides a lifting mechanism for a buried garbage collecting device, which comprises an outer framework arranged in a pit, wherein an inner framework for placing a garbage can is arranged in the outer framework, a plurality of lifting parts for driving the inner framework to lift are arranged around the outer framework, the lifting parts comprise a hydraulic part and a pulling part, the pulling part is arranged at the upper end of the hydraulic part, and the pulling part is fixedly connected with the bottom of the inner framework through an iron chain; hydraulic pressure spare and pulling piece through lift portion divide and do twice, follow the inside lifting of outer skeleton to subaerial to can not expose under the external circumstances in whole lift portion, with inner frame lifting to subaerial, avoid the dangerous condition that lift portion may produce, reduce the danger coefficient, make whole more safety of burying formula garbage bin all the time.

Description

Lifting mechanism for buried garbage collection device

Technical Field

The utility model belongs to the technical field of buried garbage cans, and particularly relates to a lifting mechanism for a buried garbage collection device.

Background

The garbage bin is the important component equipment of garbage collection, and its quality and structure directly influence the practicality of garbage collection and the travelling comfort of living environment. The buried trash can is buried underground, does not occupy ground space, is convenient to put in garbage, does not affect the attractiveness of the environment, and is widely applied.

The existing underground garbage can ejects a frame body with the garbage can arranged inside out of the ground through a hydraulic device, and a hydraulic rod of the existing underground garbage can is exposed on the ground, so that the existing underground garbage can is very unsafe,

SUMMERY OF THE UTILITY MODEL

The utility model provides a lifting mechanism for a buried garbage collecting device, and aims to solve the problems in the background technology.

The lifting mechanism comprises an outer framework arranged in a pit, an inner framework used for placing a garbage can is arranged in the outer framework, a plurality of lifting parts used for driving the inner framework to lift are arranged on the periphery of the outer framework, the lifting parts comprise a hydraulic part and a pulling part, the pulling part is arranged at the upper end of the hydraulic part, and the pulling part is fixedly connected with the bottom of the inner framework through an iron chain.

Preferably, iron sheet wrapping is arranged on the periphery of the outermost side of the outer framework, and the inner framework is arranged to be in a frame shape and can lift along the frame of the outer framework in a limiting mode.

Preferably, the lifting part is provided with four corners which are respectively positioned at the outer side of the inner framework.

Preferably, the hydraulic parts of the lifting part are arranged in a hydraulic telescopic rod mode, and the hydraulic parts of the four lifting parts are controlled by the same oil supply pump.

Preferably, the top end of the hydraulic part is provided with a movable pulley of the pulling part, and the movable pulley drives the inner frame to lift through rolling the iron chain.

Preferably, a fixed gear is arranged on the side surface of the movable pulley and is in transmission connection with a power part at the bottom of the outer framework through a self-adaptive transmission part.

Preferably, the transmission member comprises a transfer gear controlled by a spring and capable of automatically adjusting the horizontal distance, and the transfer gear is in transmission connection with the fixed gear and the output gear of the power member through the chain.

Preferably, the power part comprises two parallel transmission rods, one output gear is sleeved on each transmission rod close to two ends, a belt wheel is arranged at one end of each transmission rod, and the transmission rods are in transmission connection with a motor located in the middle through the belt wheels and used for unified control of the motors.

Compared with the prior art, the utility model has the beneficial effects that: the lifting mechanism for the buried garbage collecting device provided by the utility model has the advantages that the hydraulic part and the pulling part of the lifting part are divided into two times to lift the inner framework from the inner part of the outer framework to the ground, so that the inner framework can be lifted to the ground under the condition that the whole lifting part is not exposed to the outside, the dangerous condition possibly generated by the lifting part is avoided, the danger coefficient is reduced, the whole buried garbage can is always safer, meanwhile, the hydraulic part and the pulling part are arranged at four corners, the lifting part is prevented from being arranged at the bottom of the inner framework, the contact area between the inner framework and the ground is reduced, the inner framework is supported by the hydraulic part or the other lifting devices all the time, the hydraulic part or the other lifting devices are easy to keep in use state all the time, the service life of the lifting mechanism is shortened, and more spaces need to be dug downwards in a pit, the construction time in the earlier stage is longer, and the problem of rapid arrangement of the buried trash can is not facilitated.

Drawings

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

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic top view of the interior of the exoskeleton of the present invention;

FIG. 5 is a schematic top view of the inner frame of the present invention;

in the figure: 1. an outer skeleton;

2. an inner skeleton;

3. a hydraulic part;

4. a pulling member; 41. a movable pulley; 42. an iron chain;

5. a transmission member; 51. fixing a gear; 52. a chain; 53. a transfer gear; 54. a spring;

6. a power member; 61. a motor; 62. a pulley; 63. a transmission rod; 64. an output gear.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a elevating system for bury formula garbage collection device, is including setting up exoskeleton 1 in the pit, and the inside of exoskeleton 1 sets up inner frame 2 that is used for placing the garbage bin, and exoskeleton 1 is provided with a plurality of lift portions that are used for driving inner frame 2 and go up and down all around, and wherein, lift portion includes hydraulic part 3 and draws 4, draws 4 settings in the upper end of hydraulic part 3, draws 4 bottoms through iron chain 42 fixed connection and inner frame 2 of moving.

After the installation of the hydraulic lifting device, when the hydraulic lifting device is lifted, firstly, oil is supplied to the hydraulic parts 3 at four corners by a uniform oil supply pump, so that the hydraulic parts 3 extend to push the pulling parts 4 to lift, the pulling parts 4 drive the inner framework 2 to lift along the outer framework 1 through the iron chain 42 until the top ends of the hydraulic parts 3 are flush with the ground, namely, the movable pulley 41 is flush with the ground and the upper half part of the inner framework 2 is exposed on the ground, wherein when the hydraulic parts 3 drive the movable pulley 41 to lift, the fixed gear 51 on the movable pulley 41 also pulls the chain 52 to change along with the lifting, so that the transfer gear 53 extrudes the spring 54, and the chain 52 slowly changes into a vertical shape;

then the motor 61 is started, the motor 61 drives the transmission rods 63 at two ends to synchronously rotate through a belt, the rotation of the transmission rods 63 drives the four output gears 64 to rotate, the rotation of the output gears 64 drives the transfer gear 53 and the fixed gear 51 to rotate through the chain 52, the rotation of the fixed gear 51 drives the movable pulley 41 to wind the iron chain 42, so that four corners of the inner framework 2 are synchronously lifted, the inner framework 2 is lifted upwards along the outer framework 1, the bottom surface of the inner framework 2 is as high as the movable pulley 41, namely, the inner framework 2 is completely exposed on the ground, and then the garbage can in the inner framework 2 can be taken out to intensively dump garbage.

When descending, firstly, the motor 61 rotates reversely through the motor 61, the motor 61 drives the transmission rod 63 to rotate reversely through the belt, the transmission rod 63 drives the output gear 64, the output gear 64 drives the fixed gear 51 through the chain 52, the fixed gear 51 drives the movable pulley 41 to rotate reversely, the iron chain 42 is slowly put down, the inner framework 2 slowly descends to a half height, the hydraulic part 3 is synchronously contracted through the oil supply pump, the inner framework 2 is completely received inside the outer framework 1, and the contraction return of the inner framework 2 is completed.

Hydraulic pressure piece 3 and the part of pulling 4 through lift portion do twice, with inner frame 2 from 1 inside lifting to subaerial of outer skeleton to can not expose under the circumstances in the external world in whole lift portion, with 2 lifting to subaerial of inner frame, avoid the dangerous condition that lift portion may produce, reduced the danger coefficient, make whole more safety of burying formula garbage bin all the time.

The outermost side of the outer framework 1 is wrapped by an iron sheet, and the inner framework 2 is in a frame shape and is limited to lift along the frame of the outer framework 1.

Set up the iron sheet parcel all around of exoskeleton 1, guarantee to be located its inside inner frame 2 and all the other lifting portions that are used for controlling 2 lifts of inner frame and do not contact with the soil in the external world on every side, guarantee the normal operating of inside lifting portions, and the smooth lift of inner frame 2, form the interference of the isolated external environment of a box body, thereby also need not to carry out the reinforcement of concrete to soil all around, can be direct subaerial dig individual hole, put into wherein exoskeleton 1 again, then put into lifting portions and inner frame 2 and realize the equipment to whole formula garbage bin of burying, make the garbage bin installation procedure of formula of burying reduce, optimized still need carry out concrete placement's time to the pit, the efficiency and the speed of installation have been promoted.

The lift portion is provided with four, is located four corners in the 2 outsides of inner frame respectively. The hydraulic part 3 of the lifting part is set to be in a hydraulic telescopic rod form, and the hydraulic parts 3 of the four lifting parts are controlled by the same oil supply pump.

The hydraulic part 3 of lift portion is provided with four, is located four corners of inner frame 2 respectively, and under the effect of same oil feed pump, realizes going up and down to the synchronization of four lift portions, when four lift portions go up and down in step, can lift in step four turnings of inner frame 2 inside outer skeleton 1, realizes the synchronous rising to inner frame 2, and then can be with 2 lifting half height of inner frame, accomplish the lifting that remains half height by pulling piece 4 again.

The top end of the hydraulic part 3 is provided with a movable pulley 41 of the pulling part 4, and the movable pulley 41 drives the inner frame 2 to lift through rolling the iron chain 42. The side of the movable pulley 41 is provided with a fixed gear 51, and the fixed gear 51 is in transmission connection with the power member 6 at the bottom of the outer framework 1 through a self-adaptive transmission member.

The chain 52 is triangular, wherein the top point at the upper end is provided with a fixed gear 51, the top point at the middle is provided with a transfer gear 53 moving transversely, and the top point at the lower end is provided with a fixed output gear 64, so that when the height of the fixed gear 51 at the top point at the upper end of the chain 52 is changed, the transfer gear 53 which is positioned at the middle top point and can change in a self-adaptive manner is changed, the moment that the chain 52 is in a tightened state is ensured, and the normal use of the chain 52 is ensured.

The flexible operation of hydraulic pressure piece 3 drives movable pulley 41 of pulling 4 upper end and goes up and down the operation, movable pulley 41 goes up and down to drive fixed gear 51 fixed with it also along with going up and down, and then drive the fixed gear 51 of the upper end summit department of chain 52 and carry out the change of position, when the upper end summit position of chain 52 changes, pulling chain 52 warp, make chain 52 automatic pulling lie in the middle of chain 52 in the transfer gear 53 of summit department also along with changing, the realization is taut constantly to chain 52, guarantee to pull 4 and can use constantly, and then can carry out synchronous pulling and lift up to inner frame 2.

The transmission member comprises a transfer gear 53 with self-adjustable horizontal spacing controlled by a spring 54, and the transfer gear 53 is in transmission connection with a fixed gear 51 and an output gear 64 of the power member 6 through a chain 52.

The transfer gear 53 and the spring 54 are both arranged in a transverse plate groove of the outer framework, the transfer gear slides along the transverse plate groove, the position of the transfer gear 53 is automatically adjusted by extrusion of the spring 54 and pulling of the outer chain 52, and then the chain 52 is tightened constantly.

When the hydraulic part 3 controls the inner framework 2 to ascend, the movable pulley 41 at the upper end is driven to ascend, the movable pulley 41 ascends to drive the fixed gear 51 fixed with the movable pulley 41 to ascend, the fixed gear 51 ascends to pull the chain 52 which is integrally triangular, so that the transfer gear 53 at one vertex of the triangle is pulled to perform self-adaptive adjustment of the position, and the spring 54 is extruded; on the contrary, when the hydraulic part 3 drives the inner frame 2 to descend, the movable pulley 41 at the upper end of the hydraulic part 3 descends, and the fixed gear 51 on the movable pulley 41 also descends, so that the triangular chain 52 deforms, the transfer gear 53 at one fixed point moves under the action of the spring 54, the chain 52 is tensioned again, the use of the chain 52 is ensured, the normal operation of each pulling part 4 is also ensured, and the synchronous pulling and lifting of the inner frame 2 are realized.

The power part 6 comprises two parallel transmission rods 63, each transmission rod 63 is sleeved with an output gear 64 near each end, one end of each transmission rod 63 is provided with a belt wheel 62, and the transmission rods are in transmission connection with the motor 61 located in the middle through the belt wheels 62 and used for the unified control of the motor 61.

The motor 61 sets up in the exoskeleton 1 left and right sides any side, two transfer lines 63 are located exoskeleton 1 front and back both sides respectively, thereby motor 61 that is located any side in the left and right sides drives two transfer lines 63 through the belt around two band pulleys 62 that are located this end department and rotate, and then this band pulley 62 drives this transfer line 63 and rotates, the rotation of transfer line 63 drives two output gear 64 of fixing separately and rotates, output gear 64's rotation drives fixed gear 51, fixed gear 51 drives movable pulley 41 and rotates, the realization is to the rolling effect of iron chain 42, the realization is rolled up whole device.

A belt, two transfer lines 63, and the both ends of every transfer line 63 all are provided with an output gear 64 to movable pulley 41 rotates on four hydraulic pressure parts 3 through motor 61 synchronous control, realizes that four turnings of inner frame 2 carry out synchronous promotion, and then carries out synchronous promotion with whole inner frame 2.

The working principle and the using process of the utility model are as follows: after the installation of the hydraulic lifting device, when the hydraulic lifting device is lifted, firstly, oil is supplied to the hydraulic parts 3 at four corners by a uniform oil supply pump, so that the hydraulic parts 3 extend to push the pulling parts 4 to lift, the pulling parts 4 drive the inner framework 2 to lift along the outer framework 1 through the iron chain 42 until the top ends of the hydraulic parts 3 are flush with the ground, namely, the movable pulley 41 is flush with the ground and the upper half part of the inner framework 2 is exposed on the ground, wherein when the hydraulic parts 3 drive the movable pulley 41 to lift, the fixed gear 51 on the movable pulley 41 also pulls the chain 52 to change along with the lifting, so that the transfer gear 53 extrudes the spring 54, and the chain 52 slowly changes into a vertical shape;

then the motor 61 is started, the motor 61 drives the transmission rods 63 at two ends to synchronously rotate through a belt, the rotation of the transmission rods 63 drives the four output gears 64 to rotate, the rotation of the output gears 64 drives the transfer gear 53 and the fixed gear 51 to rotate through the chain 52, the rotation of the fixed gear 51 drives the movable pulley 41 to wind the iron chain 42, so that four corners of the inner framework 2 are synchronously lifted, the inner framework 2 is lifted upwards along the outer framework 1, the bottom surface of the inner framework 2 is as high as the movable pulley 41, namely, the inner framework 2 is completely exposed on the ground, and then the garbage can in the inner framework 2 can be taken out to intensively dump garbage.

When descending, firstly, the motor 61 rotates reversely through the motor 61, the motor 61 drives the transmission rod 63 to rotate reversely through the belt, the transmission rod 63 drives the output gear 64, the output gear 64 drives the fixed gear 51 through the chain 52, the fixed gear 51 drives the movable pulley 41 to rotate reversely, the iron chain 42 is slowly put down, the inner framework 2 slowly descends to a half height, the hydraulic part 3 is synchronously contracted through the oil supply pump, the inner framework 2 is completely received inside the outer framework 1, and the contraction return of the inner framework 2 is completed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a elevating system for bury formula garbage collection device which characterized in that: including setting up exoskeleton (1) in the pit, the inside setting of exoskeleton (1) is used for placing inner frame (2) of garbage bin, exoskeleton (1) is provided with a plurality of being used for driving all around the lift portion that inner frame (2) go up and down, wherein, lift portion includes hydraulic part (3) and draws and move piece (4), draw and move piece (4) and set up the upper end of hydraulic part (3), draw move piece (4) through iron chain (42) fixed connection with the bottom of inner frame (2).

2. A lifting mechanism for an underground refuse collection unit according to claim 1, further comprising: the outer side of the outer framework (1) is provided with iron sheet packages all around, and the inner framework (2) is arranged to be in a frame shape and is limited to lift along the frame of the outer framework (1).

3. A lifting mechanism for an underground refuse collection unit according to claim 1, further comprising: the lifting part is provided with four parts which are respectively positioned at four corners of the outer side of the inner framework (2).

4. A lifting mechanism for an underground refuse collection unit according to claim 1, further comprising: the hydraulic part (3) of the lifting part is arranged in a hydraulic telescopic rod mode, and four hydraulic parts (3) of the lifting part are controlled by the same oil supply pump.

5. A lifting mechanism for an underground refuse collection unit according to claim 1, further comprising: the top end of the hydraulic part (3) is provided with a movable pulley (41) of the pulling part (4), and the movable pulley (41) drives the inner framework (2) to lift through rolling of the iron chain (42).

6. A lifting mechanism for an underground refuse collection unit according to claim 5, further comprising: the side surface of the movable pulley (41) is provided with a fixed gear (51), and the fixed gear (51) is in transmission connection with a power part (6) at the bottom of the outer framework (1) through a self-adaptive transmission part (5).

7. A lifting mechanism for an underground refuse collection unit according to claim 6, further comprising: the transmission piece (5) comprises a transfer gear (53) which is controlled by a spring (54) and can automatically adjust the horizontal distance, and the transfer gear (53) is in transmission connection with the fixed gear (51) and an output gear (64) of the power piece (6) through a chain (52).

8. A lifting mechanism for an underground refuse collection unit according to claim 7, further comprising: the power part (6) comprises two parallel transmission rods (63), each transmission rod (63) is provided with one output gear (64) close to each of two ends, and each transmission rod (63) is provided with a belt wheel (62), and the belt wheels (62) are in transmission connection with the motor (61) located in the middle and used for unified control of the motor (61).

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