CN111498346A

CN111498346A - Urban solid garbage carrying device

Info

Publication number: CN111498346A
Application number: CN202010347039.6A
Authority: CN
Inventors: 朱彪
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-28
Filing date: 2020-04-28
Publication date: 2020-08-07

Abstract

The invention discloses an urban solid garbage carrying device which structurally comprises a garbage inlet, a gas collecting and releasing control box, a transport carrier, trundles, a fixing device, an output end and a carrying box, wherein the garbage inlet is arranged at the top of the carrying box and communicated with the carrying box, the carrying box is arranged on the transport carrier, the trundles are arranged at the bottom of the transport carrier, and the trundles are matched with the transport carrier, so that the urban solid garbage carrying device has the beneficial effects that: through after filling the gasbag, thereby the gasbag inflation makes the outside extension of bag outer wall layer, make the bearing board on the linkage layer laminate with supplementary bearing board and solid rubbish mutually, the home range of solid rubbish has been injectd, and under the combined action of shock attenuation head and spring, make the stress layer receive external force, have great reverse action force and impel to place intracavity solid rubbish and keep at the normal position as far as possible, prevent when receiving external force, the solid rubbish of placing the intracavity is because inertia can strike on placing the intracavity wall, when the realization is fixed with solid rubbish, the inner wall of protection box.

Description

Urban solid garbage carrying device

Technical Field

The invention relates to the field of garbage treatment, in particular to an urban solid garbage carrying device.

Background

Municipal solid waste needs to be collected and uniformly conveyed to a refuse dump for treatment, wherein solid waste needs to be conveyed by a specific conveying device due to different sizes and shapes, and the current municipal solid waste conveying device has the following defects:

the size of a dimension of current municipal solid waste is diverse, and solid waste need be in the same place its stack at the in-process of transport, and because the difference of size, has certain space between the solid waste, and the in-process of transport, the road surface is uneven or when suffering other external forces, and solid waste can take place relative displacement because inertia in the transport case, and the big solid inertia of size is big more, and the impact force to the inside production of transport case is big more when sideslipping for the box inner wall damages.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a municipal solid waste carrying device structurally comprises a waste inlet, a gas receiving and releasing control box, a transport carrier, trundles, a fixing device, an output end and a carrying box, wherein the waste inlet is formed in the top of the carrying box and communicated with the carrying box;

fixing device comprises the wall layer, places the chamber, anti-seismic head, buffering end, the outer frame layer rectangle form on wall layer, inside casing are the ellipse circular, the cavity that the wall layer encloses is for placing the chamber, it communicates with each other with the rubbish import to place the chamber, anti-seismic head and buffering end are installed on the perpendicular, anti-seismic head and buffering end mutually support.

As a further optimization of the invention, the shockproof head comprises two air bag cavities, connecting pipelines and air bags, wherein the two air bag cavities are arranged and are arranged in a symmetrical structure, the air bag cavities are positioned at two ends of a long axis of an elliptic wall layer of the inner frame, the connecting pipelines penetrate through the air bag cavities, the connecting pipelines are fixedly communicated with the air bags, the ductility of one end, far away from the connecting pipelines, of each air bag is larger than that of one end, far away from the air bags, of each air bag, and one end, far away from the air bags, of each connecting pipeline is connected with the air-releasing control box.

As a further optimization of the invention, the buffer end is composed of a shock absorption head, a connecting rod, an extension plate, an arc-shaped cavity and a spring, the shock absorption head is fixedly connected with the connecting rod, the connecting rod and the shock absorption head are distributed alternately, the extension plate and the connecting rod are arranged on the same horizontal plane, the extension plate is connected with the connecting rod, the extension plate is mechanically welded with the spring, one end of the spring, far away from the extension plate, is fixed on the inner wall of the arc-shaped cavity, and the arc-shaped cavity is a cavity enclosed by a wall layer, the shock absorption head and the connecting rod.

As a further optimization of the invention, the air bag consists of an installation opening, a bag cavity, a bag inner wall layer and a bag outer wall layer, the caliber of the installation opening is matched with the outer diameter of a connecting pipeline, the installation opening is communicated with the bag cavity, the bag cavity is provided with the bag inner wall layer and the bag outer wall layer, and the bag inner wall layer and the bag outer wall layer are attached.

As a further optimization of the invention, the shock absorption head is provided with a stress layer, and the thickness of the side of the shock absorption head where the stress layer is located is larger than that of the side corresponding to the stress layer.

As a further optimization of the invention, the shock absorption head is spherical, and the side where the stress layer is located and the side corresponding to the stress layer are planar, so that the shock absorption head is convenient to mount and bear force.

As a further optimization of the invention, the output end is composed of a port and a movable plate, the port penetrates through the wall layer of the transport box, the movable plate is matched with the port, the movable plate is provided with a fixed shaft, a connecting column and a plate body, the connecting column penetrates through the fixed shaft and is fixed on two sides of the top of the port, the plate body is mechanically welded with the connecting column, and the inner side of the plate body is provided with a damping head.

The outer wall layer of the bag is composed of fixing blocks, a connecting layer, force bearing plates, force bearing plate positioning grooves and auxiliary force bearing plates, the fixing blocks are connected with the connecting layer, the fixing blocks are arranged in an isosceles trapezoid shape, the connecting layer is arranged on one side of the upper bottom of the fixing blocks, the connecting layer is fixedly connected with the force bearing plate positioning grooves, the force bearing plate positioning grooves are three and distributed at equal intervals, the force bearing plates are arranged in the force bearing plate positioning grooves, the auxiliary force bearing plates are arranged on two sides of each force bearing plate, and the auxiliary force bearing plates are fixedly connected with the force bearing plates.

Advantageous effects

The invention relates to an urban solid garbage carrying device, which is characterized in that solid garbage is thrown from a garbage inlet and enters a placing cavity, gas is conveyed to a connecting pipeline through a gas collecting and discharging control box, so that an air bag is filled, the air bag is expanded, because the ductility of one end of the air bag far away from the connecting pipeline is larger than that of one end connected with the connecting pipeline, when the air bag is expanded, one end connected with the connecting pipeline enters the placing cavity and is contacted with the solid garbage in the placing cavity, the solid garbage is prevented from generating relative displacement when being subjected to external force, the solid garbage is contacted with a shock absorption head after entering the placing cavity, under the combined action of the shock absorption head and a spring, the solid garbage in the placing cavity is enabled to have larger reverse acting force to be kept in place as much as possible, and after the air bag is expanded, an inner wall layer and an outer wall layer of the bag extend outwards, thereby linking layer on the outer wall layer of bag contacts with solid rubbish to bearing plate and solid rubbish in the bearing plate constant head tank on the linking layer laminate mutually, and the both sides of bearing plate all are equipped with supplementary bearing plate, and bearing plate and supplementary bearing plate constitute and be similar to isosceles trapezoid structure, make adjacent solid rubbish also can the atress with it, and bearing plate and supplementary bearing plate coact are down to its realization place intracavity solid rubbish fixed.

Compared with the prior art, the invention has the following advantages:

according to the invention, after the air bag is filled, the air bag expands to extend the outer wall layer of the air bag outwards, so that the bearing plate and the auxiliary bearing plate on the connecting layer are attached to the solid garbage, the moving range of the solid garbage is limited, and under the combined action of the damping head and the spring, when the stress layer is subjected to an external force, the stress layer has a large reverse acting force to enable the solid garbage in the placing cavity to be kept in place as much as possible, so that the solid garbage in the placing cavity is prevented from impacting on the inner wall of the placing cavity due to inertia when the external force is received, the solid garbage is fixed, and meanwhile, the inner wall of the box body is protected.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a municipal solid waste handling device according to the invention.

FIG. 2 is a top view of a municipal solid waste handling device according to the invention.

FIG. 3 is a view showing the structure of the output end of the municipal solid waste conveyance device according to the invention.

FIG. 4 is a top view of the working state of the fastening device of the municipal solid waste carrying device according to the invention.

FIG. 5 is a view showing the construction of an air bag of the municipal solid waste conveyance device according to the invention.

Fig. 6 is an operation state diagram of fig. 5.

Fig. 7 is a movable plate structure of the municipal solid waste conveying device according to the invention.

In the figure, a garbage inlet-1, a gas collecting and releasing control box-2, a transportation carrier-3, a caster-4, a fixing device-5, an output end-6, a carrying box-7, a wall layer-a, a placing cavity-b, a shockproof head-c, a buffering end-d, an air bag cavity-c 1, a connecting pipeline-c 2, an air bag-c 3, a shock absorption head-d 1, a connecting rod-d 2, an extension plate-d 3, an arc cavity-d 4, a spring-d 5, an installation port-c 31, a bag cavity-c 32, a bag inner wall layer-c 33, a bag outer wall layer-c 34, a stress layer-d 11, a port-61, a movable plate-62, a fixed shaft-621, a connecting column-622, a plate body-623, a fixed block-c 341, a fixed block-c 342, a bearing plate-c 343, a bearing plate, A bearing plate positioning groove-c 344 and an auxiliary bearing plate-c 345.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example 1

Referring to fig. 1-7, the invention provides an urban solid waste carrying device, which structurally comprises a waste inlet 1, a gas receiving and releasing control box 2, a transport carrier 3, casters 4, a fixing device 5, an output end 6 and a carrying box 7, wherein the waste inlet 1 is arranged at the top of the carrying box 7 and communicated with the carrying box 7, the carrying box 7 is arranged on the transport carrier 3, the casters 4 are arranged at the bottom of the transport carrier 3, the casters 4 are matched with the transport carrier 3, the gas receiving and releasing control box 2 is fixedly arranged on the side wall of the carrying box 7, the gas receiving and releasing control box 2 is connected with the fixing device 5, and the output end 6 is arranged on a panel which is perpendicular to the plane of the waste inlet 1 on the carrying box 7;

fixing device 5 comprises wall layer a, place chamber b, shockproof head c, buffering end d, the outer frame layer rectangle form of wall layer a, the inside casing is the ellipse circular, the cavity that wall layer a encloses is for placing chamber b, it communicates with each other with rubbish import 1 to place chamber b, shockproof head c and buffering end d are installed on the perpendicular, shockproof head c and buffering end d cooperate.

Anti-seismic head c comprises gasbag chamber c1, connecting tube c2, gasbag c3, gasbag chamber c1 is equipped with two to be symmetrical structure and establish, gasbag chamber c1 is located the inside casing and is on the both ends of oval-shaped wall layer a major axis, connecting tube c2 runs through gasbag chamber c1, connecting tube c2 and gasbag c3 fixed UNICOM, gasbag c3 is kept away from the one end ductility of connecting tube c2 and is greater than the one end that is connected with connecting tube c2, the connecting tube c2 is kept away from the one end of gasbag c3 and is connected with receive and release gas control case 2, realizes the business turn over control of the internal gas of gasbag c 3.

The buffer end d is composed of a damping head d1, a joint rod d2, an extension plate d3, an arc-shaped cavity d4 and a spring d5, the damping head d1 is fixedly connected with the joint rod d2, the joint rod d2 and the damping head d1 are distributed at intervals, the extension plate d3 and the joint rod d2 are arranged on the same horizontal plane, the extension plate d3 is connected with the joint rod d2, the extension plate d3 is mechanically welded with the spring d5, one end, far away from the extension plate d3, of the spring d5 is fixed on the inner wall of the arc-shaped cavity d4, the arc-shaped cavity d4 is a cavity defined by a wall layer a and the damping head d1 and the joint rod d2, the spring d5 is provided with more than two springs and is distributed on the extension plate d3 at equal intervals, so that when the damping head d1 is subjected to external force, the solid garbage in the placing cavity b is caused to be kept in place.

The air bag c3 is composed of an installation port c31, a bag cavity c32, a bag inner wall layer c33 and a bag outer wall layer c34, the caliber of the installation port c31 is matched with the outer diameter of a connecting pipeline c2, the installation port c31 is communicated with the bag cavity c32, the bag cavity c32 is provided with the bag inner wall layer c33 and the bag outer wall layer c34, the bag inner wall layer c33 and the bag outer wall layer c34 are attached, and the installation port c31 is arranged so that the installation position of the connecting pipeline c2 is limited.

The shock absorption head d1 is provided with a stress layer d11, and the thickness of the side of the shock absorption head d1 where the stress layer d11 is located is larger than that of the corresponding side.

The shock absorption head d1 is spherical, and the side where the stress layer d11 is located and the side corresponding to the stress layer d are planar, so that the installation stress is facilitated.

Output 6 comprises port 61, fly leaf 62, port 61 runs through the wall layer of tote box 7, fly leaf 62 cooperatees with port 61, be equipped with fixed axle 621, spliced pole 622, plate body 623 on the fly leaf 62, fixed axle 621 runs through spliced pole 622 and fixes in port 61 top both sides, plate body 623 and spliced pole 622 mechanical welding, be equipped with damping head d1 on the inboard of plate body 623.

The outer wall layer c34 of the bag is composed of a fixed block c341, a linking layer c342, a force bearing plate c343, a force bearing plate positioning slot c344 and an auxiliary force bearing plate c345, the fixed block c341 is connected with the linking layer c342, the fixed block c341 is set in an isosceles trapezoid shape, the linking layer c342 is arranged on one side of the upper bottom of the fixed block c341, the linking layer c342 is fixedly connected with the force bearing plate positioning slot c344, the three force bearing plate positioning slots c344 are arranged and distributed at equal intervals, the force bearing plate c343 is installed in the force bearing plate positioning slot c344, the auxiliary force bearing plates c345 are arranged on two sides of the force bearing plate c343, the auxiliary force bearing plates c345 are fixedly connected with the force bearing plates c343, and the auxiliary force bearing plates c345 and the force bearing plates c343 are both in direct contact with the solid waste and act on the solid.

Solid garbage is put into the placing cavity b from the garbage inlet 1, gas is conveyed to the connecting pipeline c2 through the gas receiving and releasing control box 2, the air bag c3 is filled, the air bag c3 is expanded, the ductility of one end, far away from the connecting pipeline c2, of the air bag c3 is larger than that of one end, connected with the connecting pipeline c2, when the air bag c3 is expanded, one end, connected with the connecting pipeline c2, of the air bag enters the placing cavity b and is in contact with the solid garbage in the placing cavity b, relative displacement among the solid garbage is prevented when external force is applied, the solid garbage can be in contact with the shock absorption head d1 after entering the placing cavity b, and under the combined action of the shock absorption head d1 and the spring d5, large reverse acting force is achieved when the stress layer d11 is applied with the external force, and the solid garbage in the placing cavity b is kept in place as far as possible.

Example 2

Referring to fig. 1-2 and 4-5, the invention provides an urban solid waste carrying device, which structurally comprises a waste inlet 1, an air-receiving and releasing control box 2, a transport carrier 3, casters 4, a fixing device 5, an output end 6 and a carrying box 7, wherein the waste inlet 1 is arranged at the top of the carrying box 7 and communicated with the carrying box 7, the carrying box 7 is arranged on the transport carrier 3, the casters 4 are arranged at the bottom of the transport carrier 3, the casters 4 are matched with the transport carrier 3, an air-receiving and-releasing control box 2 is fixedly arranged on the side wall of the carrying box 7, the air-receiving and-releasing control box 2 is connected with the fixing device 5, and the output end 6 is arranged on a panel which is perpendicular to the plane of the waste inlet 1 on the carrying box 7; the fixing device 5 is composed of a wall layer a, a placing cavity b, a shockproof head c and a buffering end d, wherein the outer frame layer of the wall layer a is rectangular, the inner frame of the wall layer a is elliptical, a cavity defined by the wall layer a is the placing cavity b, the placing cavity b is communicated with the garbage inlet 1, the shockproof head c and the buffering end d are arranged on a vertical plane, and the shockproof head c is matched with the buffering end d; the anti-seismic head c consists of an air bag cavity c1, a connecting pipeline c2 and an air bag c 3; the air bag c3 is composed of an installation port c31, a bag cavity c32, a bag inner wall layer c33 and a bag outer wall layer c34, the caliber of the installation port c31 is matched with the outer diameter of a connecting pipeline c2, the installation port c31 is communicated with the bag cavity c32, the bag cavity c32 is provided with the bag inner wall layer c33 and the bag outer wall layer c34, and the bag inner wall layer c33 and the bag outer wall layer c34 are attached; the outer wall layer c34 of the bag is composed of a fixed block c341, a linking layer c342, a bearing plate c343, a bearing plate positioning slot c344 and an auxiliary bearing plate c345, the fixed block c341 is connected with the linking layer c342, the fixed block c341 is set in an isosceles trapezoid shape, the linking layer c342 is arranged on one side of the upper bottom of the fixed block c341, the linking layer c342 is fixedly connected with the bearing plate positioning slot c344, the bearing plate positioning slots c344 are three and equidistantly distributed, the bearing plate c343 is installed in the bearing plate positioning slot c344, the auxiliary bearing plates c345 are arranged on two sides of the bearing plate c343, and the auxiliary bearing plates c345 are fixedly connected with the bearing plates c 343.

On the basis of the first embodiment, after the air bag c3 expands, the bag inner wall layer c33 and the bag outer wall layer c34 both extend outward, so that the connecting layer c342 on the bag outer wall layer c34 contacts with the solid waste, so that the bearing plate c343 in the bearing plate positioning groove c344 on the connecting layer c342 is attached to the solid waste, the auxiliary bearing plates c345 are arranged on both sides of the bearing plate c343, and the bearing plate c343 and the auxiliary bearing plates c345 form an approximate isosceles trapezoid structure, so that the solid waste adjacent to the bearing plate c343 is stressed, and the bearing plate c343 and the auxiliary bearing plates c345 jointly fix the solid waste in the placing cavity b.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a municipal solid waste handling device which characterized in that: the garbage collection and release device structurally comprises a garbage inlet (1), a collection and release air control box (2), a transport carrier (3), casters (4), a fixing device (5), an output end (6) and a carrying box (7), wherein the garbage inlet (1) is arranged at the top of the carrying box (7) and communicated with the carrying box (7), the carrying box (7) is installed on the transport carrier (3), the casters (4) are arranged at the bottom of the transport carrier (3), the casters (4) are matched with the transport carrier (3), a collection and release air control box (2) is fixedly arranged on the side wall of the carrying box (7), the collection and release air control box (2) is connected with the fixing device (5), and the output end (6) is installed on a panel which is perpendicular to the plane where the garbage inlet (1) is located on the carrying box (7);

fixing device (5) by wall layer (a), place chamber (b), shockproof head (c), buffering end (d) and constitute, the outer frame layer rectangle form of wall layer (a), the inside casing is the ellipse circular, the cavity that wall layer (a) encloses is for placing chamber (b), it communicates with each other with rubbish import (1) to place chamber (b), it installs on the perpendicular with buffering end (d) to prevent earthquake head (c), it cooperatees with buffering end (d) to prevent earthquake head (c).

2. The municipal solid waste handling device of claim 1, wherein: anti-seismic head (c) comprises gasbag chamber (c1), connecting tube (c2), gasbag (c3), gasbag chamber (c1) are located the inside casing and are on the both ends of oval-shaped wall layer (a) major axis, gasbag chamber (c1) is run through in connecting tube (c2), connecting tube (c2) and the fixed UNICOM of gasbag (c3), the one end that gasbag (c3) is kept away from in connecting tube (c2) is connected with receive and release gas control case (2).

3. The municipal solid waste handling device of claim 1, wherein: buffer end (d) by shock attenuation head (d1), join pole (d2), extension board (d3), arc chamber (d4), spring (d5) constitute, shock attenuation head (d1) and join pole (d2) fixed connection, extension board (d3) are connected with joining pole (d2), extension board (d3) and spring (d5) mechanical weld, the one end that extension board (d3) was kept away from in spring (d5) is fixed on arc chamber (d4) inner wall.

4. The municipal solid waste handling device of claim 2, wherein: the gasbag (c3) comprises installing port (c31), bag chamber (c32), bag interior wall layer (c33), bag outer wall layer (c34), installing port (c31) and bag chamber (c32) communicate with each other, be equipped with bag interior wall layer (c33), bag outer wall layer (c34) on bag chamber (c32), bag interior wall layer (c33), bag outer wall layer (c34) are laminated mutually.

5. The municipal solid waste handling device of claim 3, wherein: the shock absorption head (d1) is provided with a stress layer (d11), and the thickness of the side, where the stress layer (d11) is located, on the shock absorption head (d1) is larger than that of the side corresponding to the stress layer.

6. The municipal solid waste handling device of claim 3, wherein: the shock absorption head (d1) is spherical, and the stress layer (d11) side and the corresponding side are planar.

7. The municipal solid waste handling device of claim 1, wherein: output (6) comprise port (61), fly leaf (62), port (61) run through the wall layer of tote box (7), fly leaf (62) cooperate with port (61), be equipped with fixed axle (621), spliced pole (622), plate body (623) on fly leaf (62), fixed axle (621) run through spliced pole (622) and fix in port (61) top both sides, plate body (623) and spliced pole (622) mechanical welding, be equipped with damping head (d1) on the inboard of plate body (623).

8. The municipal solid waste handling device of claim 4, wherein: the outer wall layer (c34) of the bag is composed of a fixed block (c341), a linking layer (c342), a force bearing plate (c343), a force bearing plate positioning groove (c344) and an auxiliary force bearing plate (c345), the fixed block (c341) is connected with the linking layer (c342), the linking layer (c342) is fixedly connected with the force bearing plate positioning groove (c344), the force bearing plate (c343) is arranged in the force bearing plate positioning groove (c344), the auxiliary force bearing plates (c345) are arranged on two sides of the force bearing plate (c343), and the auxiliary force bearing plate (c345) is fixedly connected with the force bearing plate (c 343).