CN109230110B - Garbage transfer station - Google Patents

Abstract

The invention discloses a garbage transfer station, which comprises: the station body is divided into a garbage dumping layer positioned above and a garbage compression layer positioned below through a middle pavement; the upper end opening of the discharge hopper is positioned in the garbage dumping layer, and the lower end opening of the discharge hopper is positioned in the garbage compression layer; and the movable garbage compression box is arranged in the garbage compression layer, and a feed inlet of a compression cavity of the movable garbage compression box is aligned with the lower end of the discharge hopper. The invention can simplify the operation process of the garbage transfer station, improve the efficiency of transferring garbage, realize large-tonnage garbage transfer and reduce secondary pollution to the environment when transporting garbage.

Description

Garbage transfer station

Technical Field

The invention relates to the field of garbage disposal, in particular to a garbage transfer station.

Background

The garbage transfer station is a garbage transfer station arranged between garbage collection places and garbage disposal plants in order to reduce the transportation efficiency and sanitation in the garbage transportation process. The garbage transfer station is provided with a garbage compression box, after the garbage with loose garbage handle is conveyed to the garbage transfer station, the garbage is dumped into a compression cavity of the garbage compression box through a discharge hopper, the garbage is compressed by a push head of the garbage compression box, and the compressed garbage is conveyed to a treatment plant through a vehicle for relevant treatment. The operation process of the existing garbage transfer station is complex, and the efficiency of transferring garbage is low.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

The invention aims to provide a garbage transfer station, so that the defects that the operation process of the conventional garbage transfer station is complicated and the efficiency of transferring garbage is low are overcome.

To achieve the above object, the present invention provides a refuse transfer station, comprising: the station body is divided into a garbage dumping layer positioned above and a garbage compression layer positioned below through a middle pavement; the upper end opening of the discharge hopper is positioned in the garbage dumping layer, and the lower end opening of the discharge hopper is positioned in the garbage compression layer; and the movable garbage compression box is arranged in the garbage compression layer, and a feed inlet of a compression cavity of the movable garbage compression box is aligned with the lower end of the discharge hopper.

Preferably, in the above technical solution, wheels are provided on the rear side of the bottom of the mobile garbage compression box, and hydraulic support legs are provided on the front side of the bottom of the mobile garbage compression box.

Preferably, in the above technical solution, the ground of the garbage compression layer is provided with a weighing device, and when the feeding port of the compression cavity of the movable garbage compression box is aligned with the lower end of the discharge hopper, the movable garbage compression box is located on the weighing device, so that the weight of garbage in the movable garbage compression box is monitored by the weighing device.

Preferably, in the above technical solution, the discharge hopper includes: the upper end and the lower end of the fixed hopper are provided with openings; the fixed hopper is fixedly arranged on the middle pavement, and the lower end of the fixed hopper is higher than a feeding port of a compression cavity of the movable garbage compression box; the movable hopper is sleeved in the fixed hopper in a lifting manner, and the movable hopper is driven to lift by a lifting mechanism; the movable hopper can be lowered to the lower end of the movable hopper lower than the lower end of the fixed hopper so as to extend into the feeding port of the compression cavity of the movable garbage compression box.

Preferably, in the above technical solution, a hopper saw tooth is provided at the lower end of the movable hopper.

Preferably, in the above technical solution, the pushing head of the mobile garbage compression box includes: the front end of the push head body is concavely provided with a crushing cavity; the garbage crushing cutter is arranged in the crushing cavity; the pushing head door is arranged at the front end of the pushing head body and is used for controlling the opening and closing of the crushing cavity; when the pushing head door closes the crushing cavity, the front end of the pushing head body is used for compressing garbage; when the crushing cavity is opened by the pushing head door, the garbage can be crushed by the pushing head body through the garbage crushing knife.

Preferably, in the above technical solution, the garbage crushing cutter includes a crushing shaft, crushing blades and a hydraulic motor, where two crushing shafts are disposed in the crushing cavity in parallel up and down, and each crushing shaft is provided with a plurality of crushing blades along an axial direction; one of the crushing shafts is connected with the hydraulic motor, and the two crushing shafts are driven through gears.

Preferably, in the above technical solution, the push head door includes two door panels, the left and right sides of the front end of the push head body are respectively hinged with one side of one door panel, and the two door panels are respectively driven by a door panel driving mechanism to swing back and forth; when the two door plates swing backwards to be attached to the front end face of the pushing head, the two door plates close the crushing cavity, and when the two door plates swing forwards to be perpendicular to the front end face of the pushing head, the two door plates open the crushing cavity.

Preferably, in the above technical solution, a door plate saw tooth is provided on the other side of each door plate opposite to the side hinged on the push head.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention can simplify the operation process of the garbage transfer station, improve the efficiency of transferring garbage, realize large-tonnage garbage transfer and reduce secondary pollution to the environment when transporting garbage.

2. The invention is provided with the weighing device for monitoring the garbage weight in the movable garbage compression box, thereby accurately realizing the box body full reporting function, avoiding excessive or insufficient garbage amount in the movable garbage compression box and ensuring the safety and the transfer efficiency when the movable garbage compression box is transferred.

3. According to the invention, after the discharge hopper is divided into the fixed hopper and the movable hopper, the gap between the lower end of the fixed hopper and the feed inlet of the compression cavity can be blocked by lowering the movable hopper, so that the leakage of garbage and sewage is effectively prevented; and can repeatedly reciprocate through the movable hopper and dredge the stifled rubbish of card automatically to guarantee the efficiency that compresses rubbish, thereby further guarantee the efficiency of transporting rubbish.

4. When the pushing head door of the movable garbage compression box is closed, the pushing head body can perform normal garbage compression work in the compression cavity, and when garbage blockage occurs in the compression cavity, the pushing head door can be opened to crush large or hard garbage through the garbage crushing knife, so that the blockage can be effectively prevented in the garbage compression process, the garbage compression effect can be ensured, and the garbage transferring efficiency is further ensured.

Drawings

Fig. 1 is a schematic view of a refuse transfer station according to the present invention.

Fig. 2 is a schematic structural view of a discharge hopper according to the present invention.

Fig. 3 is a schematic structural view of a pusher of the mobile garbage compression box according to the present invention.

The main reference numerals illustrate:

the garbage truck comprises a 1-station body, a 2-middle road surface, a 3-garbage dumping room, a 4-garbage compression layer, a 5-discharge hopper, a 6-movable garbage compression box, 7-wheels, 8-hydraulic support legs, a 9-weighing device, a 10-garbage collection truck, an 11-semitrailer, a 12-fixed hopper, a 13-movable hopper, a 14-lifting hydraulic cylinder, 15-hopper sawteeth, a 16-push head body, 17-crushing cavities, 18-crushing shafts, 19-crushing blades, 20-door plates and 21-door plate sawteeth.

Detailed Description

The following detailed description of embodiments of the invention is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or components.

Fig. 1 to 3 show a schematic construction of a refuse transfer station according to a preferred embodiment of the present invention, which includes a station body 1, a discharge hopper 5, and a moving refuse compression bin 6. Referring to fig. 1, the station body 1 may be a room body, and the station body 1 is divided into a garbage dumping layer 3 located above and a garbage compressing layer 4 located below by an intermediate road surface 2, the garbage dumping layer 3 being located on the intermediate road surface 2, and the garbage compressing layer 4 being located on the ground. After the garbage collection truck 10 transports the collected garbage into the station body 1, the garbage can be driven into the garbage dumping layer 3 through the intermediate road surface 2. The semitrailer 11 for transporting the compressed refuse can then be driven directly from the ground into the refuse compression layer 4.

With continued reference to fig. 1, the upper and lower ends of the discharge hopper 5 are opened, the upper end opening of the discharge hopper 5 is located in the garbage dumping layer 3, and the lower end opening of the discharge hopper 5 is located in the garbage compressing layer 4, the movable garbage compressing bin 6 is placed in the garbage compressing layer 4, and the feed inlet of the compressing cavity of the movable garbage compressing bin 6 is aligned with the lower end of the discharge hopper 5. After the garbage collection truck 10 dumps garbage to the upper end opening of the discharge hopper 5, loose garbage enters the compression cavity of the movable garbage compression box 6 through the guide of the discharge hopper 5, so that the pushing head of the movable garbage compression box 6 extrudes the garbage in the compression cavity.

In the process of guiding loose garbage by the discharge hopper 5, when large garbage or garbage winding and other conditions occur, the discharge hopper 5 is easy to block, and then the dredging is needed manually. To solve this problem, the present invention preferably, referring to fig. 2, the discharge hopper 5 includes a fixed hopper 12 and a movable hopper 13. The upper and lower ends of the fixed hopper 12 are provided with openings, the fixed hopper 12 is fixedly arranged on the middle road surface 2, and the lower end of the fixed hopper 12 is higher than the feeding port of the compression cavity of the movable garbage compression box 6, so that the movement of the movable garbage compression box 6 is not influenced. When the movable garbage compression box 6 moves into the garbage compression layer 4 to compress garbage, the feed inlet of the compression cavity of the movable garbage compression box 6 is aligned with the lower end of the fixed hopper 12, and a gap is formed between the lower end of the fixed hopper 12 and the feed inlet of the compression cavity. The movable hopper 13 is provided with openings at the upper and lower ends, the movable hopper 13 is sleeved in the fixed hopper 12 in a lifting manner, and the movable hopper 13 is driven to lift by a lifting mechanism. The lower end of the movable hopper 13 corresponds to the shape and the size of the feeding port of the compression cavity of the movable garbage compression box 6, and the movable hopper 13 can be lowered to the lower end of the movable hopper 13 lower than the lower end of the fixed hopper 12 so as to extend into the feeding port of the compression cavity of the movable garbage compression box 6. When the transported loose garbage is compressed, the garbage collection truck 10 dumps the garbage into the movable hopper 13, the garbage falls into the compression cavity through the guiding of the inner hole of the movable hopper 13, and then the pushing head of the movable garbage compression box 6 compresses the garbage. Preferably, when the lower end of the movable hopper 13 is protruded into the inlet of the compression chamber of the movable garbage compression box, the upper end of the movable hopper 13 is still higher than the upper end of the fixed hopper 12, so that when garbage is dumped into the discharge hopper, the garbage directly enters the movable hopper 13 without passing through the fixed hopper 12 to prevent the garbage or sewage from entering between the movable hopper 13 and the fixed hopper 12. Further preferably, the lifting mechanism is a lifting hydraulic cylinder 14, one end of the lifting hydraulic cylinder 14 is fixed on the fixed hopper 12, and the other end of the lifting hydraulic cylinder 14 is fixed on the movable hopper 13. The number of the lifting hydraulic cylinders 14 may be two and distributed symmetrically.

According to the invention, after the discharge hopper is divided into the fixed hopper 12 and the movable hopper 13, when the movable garbage compression box 6 is transferred, the movable hopper 13 is lifted to be higher than the lower end of the fixed hopper 12 so as to be far away from the feeding hole of the compression cavity, and the movement of the movable garbage compression box 6 is not influenced; when the movable garbage compression box 6 is moved to the position where the feeding hole is aligned with the lower end of the fixed hopper 12 to receive garbage for compression, the lower end of the movable hopper 13 can be extended into the feeding hole of the compression cavity of the movable garbage compression box 6 by lowering the movable hopper 13 so as to block a gap between the lower end of the fixed hopper 12 and the feeding hole of the compression cavity by the movable hopper 13, thereby effectively preventing garbage and sewage from leaking and improving the butting precision. In addition, when the discharging hopper is blocked, the movable hopper 13 can be repeatedly moved up and down to automatically dredge, and the blocked garbage can be rocked and extruded after the movable hopper 13 is moved up and down, so that the blocked garbage can fall into the compression cavity again, and the efficiency of compressing the garbage is ensured. With continued reference to fig. 2, the lower end of the movable hopper 13 is further preferably provided with a hopper saw tooth 15, so that in the dredging process, the jammed garbage is torn and sheared through the hopper saw tooth 15, and the dredging efficiency is improved, and the garbage transferring efficiency of the garbage transferring station is ensured. When the movable hopper 13 is lifted away from the feeding port of the compression cavity when the garbage is fully compressed and needs to be transferred, the movable garbage compression box 6 is free from garbage entrainment, so that garbage is prevented from being entrained in the process that the movable garbage compression box 6 leaves the station body 1, the environment is prevented from being polluted, and the urban appearance is prevented from being influenced.

When the pushing head of the movable garbage compression box 6 compresses loose garbage in the compression cavity, if the garbage entering the compression cavity has larger garbage or hard objects such as wood heads and the like, the compression effect on the garbage can be affected if the garbage is not crushed, and the blocking of the pushing head can be possibly caused, so that the garbage needs to be dredged manually. To solve this problem, the present invention preferably refers to fig. 3, in which the pusher of the movable waste bin 6 comprises a pusher body 6, a waste crushing blade and a pusher door. The front end of the pusher body 16 is concavely provided with a crushing cavity 7, and the crushing cavity 17 is concaved backward relative to the front end surface of the pusher body 16. Preferably, the crushing cavity 17 is a longitudinally distributed arc-shaped cavity, so that the crushing cavity 17 gradually extends forwards from the middle part towards the upper end and the lower end, and crushed garbage is conveniently and automatically discharged forwards from the crushing cavity 17. The garbage crushing knife is arranged in the crushing cavity 17, and when garbage enters the front of the crushing cavity 17, the garbage can be crushed rapidly through the garbage crushing knife.

With continued reference to fig. 3, the garbage crushing cutter preferably comprises crushing shafts 18, crushing blades 19 and a hydraulic motor, wherein the two crushing shafts 18 are arranged in the crushing cavity 17 in a vertically parallel distribution manner, a plurality of crushing blades 19 are axially arranged on each crushing shaft 18, and the plurality of crushing blades 19 are distributed at equal intervals. The crushing blade 19 may be configured such that at least one tooth is protruded on the circumference of one cutter disc, thereby crushing the garbage by the tooth. One of the crushing shafts 18 is connected to a hydraulic motor, which may be arranged in the crushing chamber 17 or on the pusher body 16. The two crushing shafts 18 are geared such that the two crushing shafts 18 can be driven to rotate simultaneously by one hydraulic motor. The hydraulic motor drives the two crushing shafts 18 to rotate, so that the garbage entering the front of the crushing cavity 17 can be crushed by the crushing blades 19.

With continued reference to fig. 3, a pusher door is provided at the front end of the pusher body 16, the pusher door being for controlling opening and closing of the crushing chamber 17. When the crushing cavity 17 is closed by the push head door, garbage cannot enter the crushing cavity 17, so that the garbage cannot contact with the garbage crushing knife, and the front end of the push head body 16 can be used for normally compressing the garbage. When the crushing cavity 17 is opened by the pushing head door, the pushing head body 16 moves back and forth, garbage can enter the front of the crushing cavity 17, and the pushing head body 16 can crush the garbage through the garbage crushing knife. Preferably, the push head door comprises two door plates 20, wherein the left side and the right side of the front end of the push head body 16 are respectively hinged with one side of one door plate 20, and the two door plates 20 are respectively driven to swing back and forth by a door plate driving mechanism; preferably, the door plate driving mechanism is a door plate hydraulic cylinder, one end of the door plate hydraulic cylinder is hinged with the door plate 20, and the other end of the door plate hydraulic cylinder is hinged with the side wall of the crushing cavity 17. A single plate cylinder may be provided at each of the upper and lower portions of each plate 20. The door panel driving mechanism may be a hinge shaft driven by a hydraulic motor, and the door panel 20 may be hinged to the pusher body 16 via the hinge shaft. When the two door panels 20 swing backward to be attached to the front end face of the pushing head body 16, the crushing cavity 17 is closed by the two door panels 20, and the two door panels 20 serve as the front end face of the pushing head body 16 for extruding the garbage. When the two door panels 20 are swung forward to be perpendicular to the front end face of the pusher body 16, the two door panels 20 open the crushing chamber 17. Preferably, the other side of each door plate 20 opposite to the side hinged on the pusher body 16 is provided with door plate saw teeth 21, namely, when the door plates 20 swing forward to open the crushing cavity 17, the door plate saw teeth 21 are positioned on the front sides of the door plates 20, so that when garbage is crushed, garbage in front of the two door plates 20 can be torn and cut through the door plate saw teeth 21 to be led into the crushing cavity 20 for crushing, and the garbage is prevented from blocking the two door plates 20 when the pusher body 16 moves forward.

When the push head door is closed, the push head body 6 can perform normal garbage compression work, and when the garbage blockage is met, the push head body 16 is firstly retracted to leave a space, the push head door can be opened, the push head body 16 is then moved forwards again, so that large or hard garbage can be crushed by the garbage crushing knife, and the push head body 16 can be moved back and forth in the crushing process to prevent the garbage crushing knife from being damaged. The pushing head of the movable garbage compression box 6 is good in use flexibility, can effectively prevent blockage in the garbage compression process, and can ensure the compression effect on garbage, so that the garbage transfer efficiency of a garbage transfer station is ensured.

After the garbage compressed in the movable garbage compression box 6 reaches a certain amount, the movable garbage compression box 6 is transferred from the station body 1 to a garbage disposal plant through the semitrailer 11, and the garbage disposal plant further processes the compressed garbage. With continued reference to fig. 1, preferably the rear side of the bottom of the mobile waste compression tank 6 is provided with wheels 7 and the front side of the bottom of the mobile waste compression tank 6 is provided with hydraulic feet 8. After the semitrailer 11 places the movable garbage compression box 6 in the garbage compression layer 4, the hydraulic support legs 8 are lowered, and after the movable garbage compression box 6 is supported by the hydraulic support legs 8 and the wheels 7 together, the semitrailer 11 is separated from the movable garbage compression box 6 so as to perform compression work by the movable garbage compression box 6. When it is necessary to transfer the mobile waste bin 6, the semitrailer 11 is again brought into engagement with the mobile waste bin 6 and the hydraulic foot 8 is lifted, the mobile waste bin 6 is driven with the semitrailer 11 via the wheels 7.

In addition, in order to accurately control the weight of the garbage in the movable garbage compression box 6, it is preferable that the ground of the garbage compression layer 4 is provided with a weighing device 9 with continued reference to fig. 1, and when the inlet of the compression chamber of the movable garbage compression box 6 is aligned with the lower end of the discharge hopper 5, the movable garbage compression box 6 is located on the weighing device 9 to monitor the weight of the garbage in the movable garbage compression box 6 by the weighing device 9. The weighing device 9 may be a truck scale. The invention is provided with the weighing device 9 to monitor the garbage weight in the movable garbage compression box 6, thereby realizing the box body full reporting function accurately, avoiding excessive or insufficient garbage amount in the movable garbage compression box 6 and ensuring the safety and the transfer efficiency when the movable garbage compression box is transferred.

According to the garbage collection vehicle 10, garbage is dumped on the garbage dumping layer 3 to the movable garbage compression box 6, and the compressed garbage is compressed in the closed space, so that water in the garbage can be well separated from the garbage, sewage is intensively treated in the station body 1, and pollution is reduced. The movable garbage compression box 6 compresses garbage in the garbage compression layer 4, and after the garbage amount reaches the requirement, the movable garbage compression box 6 can be directly transferred by the semitrailer 11, so that large-tonnage garbage transportation can be realized, resources and cost are saved, labor cost is reduced, and secondary pollution caused to the environment due to leakage is avoided in the transportation process. The garbage collection truck 10 and the semitrailer 11 separately travel, and the movable garbage compression box 6 can directly transport garbage, so that the operation process of the garbage transfer station can be simplified, and the efficiency of transferring garbage is improved.

The foregoing descriptions of specific exemplary embodiments of the present invention are presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the invention and its practical application to thereby enable one skilled in the art to make and utilize the invention in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (5)

1. A refuse transfer station, comprising:

the station body is divided into a garbage dumping layer positioned above and a garbage compression layer positioned below through a middle pavement;

the upper end opening of the discharge hopper is positioned in the garbage dumping layer, and the lower end opening of the discharge hopper is positioned in the garbage compression layer; and

the movable garbage compression box is arranged in the garbage compression layer, and a feed inlet of a compression cavity of the movable garbage compression box is aligned with the lower end of the discharge hopper;

the ground of the garbage compression layer is provided with a weighing device, and when a feeding hole of a compression cavity of the movable garbage compression box is aligned with the lower end of the discharge hopper, the movable garbage compression box is positioned on the weighing device so as to monitor the weight of garbage in the movable garbage compression box through the weighing device;

wherein, the upper and lower ends of the fixed hopper are provided with openings; the fixed hopper is fixedly arranged on the middle pavement, and the lower end of the fixed hopper is higher than a feeding port of a compression cavity of the movable garbage compression box; and

the movable hopper is sleeved in the fixed hopper in a lifting manner, and is driven to lift by a lifting mechanism; the movable hopper can be lowered to the lower end of the movable hopper lower than the lower end of the fixed hopper so as to extend into a feed inlet of a compression cavity of the movable garbage compression box;

wherein, the lower end of the movable hopper is provided with hopper saw teeth;

wherein, the push head of portable rubbish compression case includes:

the front end of the push head body is concavely provided with a crushing cavity;

the garbage crushing cutter is arranged in the crushing cavity; and

the pushing head door is arranged at the front end of the pushing head body and is used for controlling the opening and closing of the crushing cavity; when the pushing head door closes the crushing cavity, the front end of the pushing head body is used for compressing garbage; when the crushing cavity is opened by the pushing head door, the garbage can be crushed by the pushing head body through the garbage crushing knife.

2. The waste transfer station of claim 1, wherein the rear side of the bottom of the mobile waste compression bin is provided with wheels and the front side of the bottom of the mobile waste compression bin is provided with hydraulic feet.

3. The garbage transfer station of claim 1, wherein the garbage crushing cutter comprises a crushing shaft, crushing blades and a hydraulic motor, wherein two crushing shafts are arranged in the crushing cavity in parallel up and down, and a plurality of crushing blades are axially arranged on each crushing shaft; one of the crushing shafts is connected with the hydraulic motor, and the two crushing shafts are driven through gears.

4. The refuse transfer station according to claim 1, characterized in that the pusher door comprises two door plates, the left and right sides of the front end of the pusher body are hinged to one side of one door plate, and the two door plates are driven to swing back and forth by a door plate driving mechanism; when the two door plates swing backwards to be attached to the front end face of the push head body, the two door plates close the crushing cavity, and when the two door plates swing forwards to be perpendicular to the front end face of the push head body, the two door plates open the crushing cavity.

5. The refuse transfer station according to claim 4, characterized in that each door panel is provided with door panel serrations on the opposite side to the side hinged to the pusher body.