CN220883488U - Receiving device of garbage compressor and garbage compressor - Google Patents

Abstract

The utility model discloses a receiving device of a garbage compressor and the garbage compressor, and relates to the technical field of garbage treatment, wherein the receiving device of the garbage compressor comprises: the receiving bin is internally provided with an arc-shaped concave surface facing the direction of a main machine feed inlet of the garbage compressor, so that a receiving area is formed in the arc-shaped concave surface; the pushing piece is arranged in the receiving bin, rotates along the path of the arc-shaped concave surface, is attached to the arc-shaped concave surface and is used for pushing garbage in the receiving area into a main machine feeding hole of the garbage compressor. According to the receiving device of the garbage compressor, the arc-shaped concave surface facing the direction of the main machine feed inlet of the garbage compressor is arranged in the receiving bin, so that a receiving area is formed in the arc-shaped concave surface, and meanwhile, the pushing piece is matched to push garbage in the receiving area into the main machine feed inlet of the garbage compressor, so that overload and dead space states of the main machine of the garbage compressor are avoided, and further the garbage compression operation efficiency is improved.

Description

Receiving device of garbage compressor and garbage compressor

Technical Field

The utility model relates to the technical field of garbage disposal, in particular to a receiving device of a garbage compressor and the garbage compressor.

Background

Currently, compression garbage stations are mainly divided into a direct compression process and a pre-compression process according to the process route and the mechanical action program. The device of the pre-compression process mainly adopts a main machine compression bin arranged below the ground, and a discharging vehicle directly discharges materials into the compression bin on the ground. Another direct compression process generally adopts a horizontal compression type, the horizontal compression type equipment is arranged in a building with a two-layer building structure, a host machine works on a lower floor, a discharging car discharges materials on a higher floor to a host machine compression bin, a compression bin feed inlet of the host machine is connected with a high floor discharge outlet through a receiving hopper, the caliber above the receiving hopper is larger and matched with a building discharge outlet, and the caliber below the receiving hopper is smaller and matched with the host machine compression bin feed inlet.

In the prior art, when the garbage in the main machine compression bin is fully compressed, the capacity of the garbage which can be received in the main machine compression bin is limited, and the unloading amount of the unloading vehicle cannot be accurately controlled, so that the working state of the main machine is always in the overload or dead space condition after the unloading vehicle is used for unloading for the last time, the service life of the main machine of the compressor is reduced, and the garbage compression operation efficiency is reduced.

In addition, when the pre-compression process is adopted, the caliber of a feeding hole is insufficient, the unloading width of a unloading vehicle cannot be met, part of garbage cannot enter the feeding hole and is scattered on the surrounding ground, and the garbage can be shoveled and swept into a compression bin of equipment manually, so that the garbage compression operation efficiency is lower. When the direct compression process is adopted, the slope of the inclined plate of the receiving hopper is slower, so that garbage is easily accumulated on the inclined plate, and the receiving hopper is blocked.

Therefore, how to improve the garbage compression operation efficiency is a technical problem to be solved by the person skilled in the art.

Disclosure of utility model

Accordingly, the present utility model is directed to a receiving device of a garbage compressor, so as to improve the garbage compression efficiency.

Another object of the present utility model is to provide a garbage compressor having the receiving device of the garbage compressor.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a receiving device of a trash compactor, comprising:

The garbage compressor comprises a receiving bin, wherein an arc-shaped concave surface facing the direction of a main machine feeding hole of the garbage compressor is arranged in the receiving bin, so that a receiving area is formed in the arc-shaped concave surface;

The pushing piece is arranged in the receiving bin, the pushing piece rotates along the path of the arc-shaped concave surface, and the pushing piece is attached to the arc-shaped concave surface and used for pushing garbage in the receiving area into a main machine feeding hole of the garbage compressor.

Optionally, in the material receiving device of the garbage compressor, two arc concave surfaces are provided, and a guide part for guiding garbage to the material receiving area is arranged at a connecting position of the two arc concave surfaces.

Optionally, in the material receiving device of the garbage compressor, the material receiving bin is provided with a material receiving baffle at a position close to a discharge opening of the discharge vehicle, a vertex of the guiding portion is connected with the material receiving baffle, the guiding portion is respectively overlapped with an upper edge of the arc concave surface to form a bottom intersection point of the guiding portion, a cutting edge is formed between the vertex of the guiding portion and the bottom intersection point of the guiding portion, and the cutting edge is used for scattering the clustered garbage.

Optionally, in the material receiving device of the garbage compressor, the material receiving bin includes a bottom plate and an arc coaming, the arc coaming has the arc concave surface, the bottom plate and the arc coaming enclose to form the material receiving area, and the material pushing piece is arranged on the bottom plate.

Optionally, in the above-mentioned garbage compressor's receiving device, the pushing piece includes rotatory push head and is used for driving rotatory drive arrangement that pushes away the head and rotate, rotatory push head hinge in on the bottom plate, just drive arrangement with rotatory push head is connected, is used for driving rotatory push head is followed the path rotation of arc concave surface.

Optionally, in the material receiving device of the garbage compressor, the driving device is a hydraulic telescopic rod, a first end of the hydraulic telescopic rod is hinged to a side wall of the material receiving bin, and a second end of the hydraulic telescopic rod is hinged to the rotary pushing head.

Optionally, in the material receiving device of a garbage compressor, the rotary pushing head has a fan-shaped structure, and the rotary pushing head includes a pushing block part, and the pushing block part is used for pushing garbage in the material receiving area into the feeding port of the host machine.

Optionally, in the material receiving device of the garbage compressor, the height of the pushing block part is equal to the height of the arc-shaped coaming.

Optionally, in the material receiving device of the garbage compressor, a size of the material receiving bin in the first direction is not smaller than a size of the discharge opening of the discharge vehicle in the first direction, so as to prevent garbage from being scattered to an outer side of the material receiving bin.

The garbage compressor comprises a garbage compressor host and a receiving device, and is characterized in that the garbage compressor host is provided with a host feed inlet, the receiving device is located above the host feed inlet, and the receiving device is the receiving device of the garbage compressor.

According to the receiving device of the garbage compressor, the arc-shaped concave surface facing the direction of the main machine feed inlet of the garbage compressor is arranged in the receiving bin, so that a receiving area is formed in the arc-shaped concave surface, meanwhile, the pushing piece is arranged in the receiving bin, is attached to the arc-shaped concave surface and can rotate along the path of the arc-shaped concave surface, and garbage in the receiving area is pushed into the main machine feed inlet of the garbage compressor. When unloading to the host computer feed inlet, rubbish falls to the receiving area earlier, and part rubbish can directly fall into in the host computer feed inlet, rotate to the other end along the one end of arc concave surface through pushing away the material spare, push away rubbish to the host computer feed inlet of rubbish compressor, if the operating condition of finding rubbish compressor host computer is about to be fully loaded, can stop pushing away the material spare and push away the material or reduce the rotation angle of pushing away the material spare, treat that the operating condition of rubbish compressor host computer is normal back, can continue to push away the material or increase the rotation angle of pushing away the material spare, simultaneously owing to the pushing away the material effect of pushing away the material spare, rubbish pile up in the swash plate in having avoided traditional direct compression technology for receiving hopper card is stifled, thereby leads to the condition that dead space appears in the operating condition of rubbish compressor host computer.

Compared with the prior art, the material receiving device of the garbage compressor has the advantages that the arc-shaped concave surface facing the direction of the main machine feed inlet of the garbage compressor is arranged in the material receiving bin, so that the material receiving area is formed in the arc-shaped concave surface, and meanwhile, the material pushing piece is matched to push garbage in the material receiving area into the main machine feed inlet of the garbage compressor, so that the main machine of the garbage compressor is prevented from being overloaded and dead space, the service life of the main machine of the garbage compressor is prolonged, the power consumption of the main machine of the garbage compressor is reduced, and the garbage compression operation efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only embodiments of the present application, and other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic material receiving diagram of a material receiving device according to an embodiment of the present utility model;

Fig. 2 is a schematic operation diagram of a material receiving device according to an embodiment of the present utility model;

Fig. 3 is a schematic structural diagram of a guide portion according to an embodiment of the present utility model.

Wherein 100 is a receiving bin, 101 is an arc concave surface, 102 is a receiving area, 103 is a receiving baffle, 104 is a guide part, 1041 is a vertex, 1042 is a bottom intersection point, 1043 is a cutting edge, 105 is a bottom plate, 106 is a side wall, and 107 is a cover plate;

200 is a pushing piece, 201 is a rotary pushing head, 2011 is a pushing block part, and 202 is a driving device;

300 is a main machine of the garbage compressor, 301 is a main machine feed inlet;

400 is a discharge car and 401 is a discharge opening.

Detailed Description

The utility model aims at providing a receiving device of a garbage compressor so as to improve the garbage compression operation efficiency.

The utility model further provides a garbage compressor with the receiving device of the garbage compressor.

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

As shown in fig. 1 and 2, an embodiment of the present utility model discloses a receiving device of a garbage compressor, which includes a receiving bin 100 and a pushing member 200. It should be noted that, in the prior art, when the garbage in the compression bin of the main machine is fully compressed, the capacity of the garbage which can be received in the compression bin of the main machine is limited, and the unloading amount of the unloading vehicle 400 cannot be precisely controlled, so that after the unloading vehicle 400 is unloaded for the last time, the working state of the main machine is always in the overload or dead space condition, which leads to the reduction of the service life of the main machine of the compressor and reduces the garbage compression operation efficiency. In addition, when the pre-compression process is adopted, the caliber of the feeding hole is insufficient, the unloading width of the unloading vehicle 400 cannot be met, so that part of garbage cannot enter the feeding hole and is scattered on the surrounding ground, and the garbage needs to be manually shoveled and swept into the equipment compression bin, so that the garbage compression operation efficiency is lower. When the direct compression process is adopted, the slope of the inclined plate of the receiving hopper is slower, so that garbage is easily accumulated on the inclined plate, and the receiving hopper is blocked. According to the receiving device of the garbage compressor disclosed by the embodiment of the utility model, the arc-shaped concave surface 101 facing the direction of the main machine feed inlet 301 of the garbage compressor is arranged in the receiving bin 100, so that the receiving area 102 is formed in the arc-shaped concave surface 101, and meanwhile, the pushing piece 200 is matched to push garbage in the receiving area 102 into the main machine feed inlet 301 of the garbage compressor, so that the main machine of the garbage compressor is prevented from being overloaded and dead space, the service life of the main machine of the garbage compressor is prolonged, the power consumption of the main machine of the garbage compressor is reduced, and the garbage compression operation efficiency is improved. In addition, through the size of increase receiving bin 100 to avoid partial rubbish can't enter into in the host computer feed inlet 301 and scatter to the subaerial all around, simultaneously through setting up guide 104, and set up blade 1043 on guide 104, in order to break up the garbage of agglomeration, avoid the garbage accumulation of agglomeration to receiving bin 100 in, influence rubbish compression operating efficiency.

As shown in fig. 1, an arc-shaped concave surface 101 facing the main machine feeding port 301 of the garbage compressor is disposed in the receiving bin 100, so that a receiving area 102 is formed in the arc-shaped concave surface 101. Meanwhile, as shown in fig. 2, the pushing member 200 is disposed in the receiving bin 100, the pushing member 200 can rotate along the path of the arc concave 101, and the pushing member 200 is attached to the arc concave 101, so as to push the garbage in the receiving area 102 into the main machine feeding port 301 of the garbage compressor. When the discharge opening 401 of the discharge truck 400 discharges to the main machine feed opening 301, the garbage falls to the receiving area 102, part of the garbage can directly fall into the main machine feed opening 301, the garbage is pushed into the main machine feed opening 301 of the garbage compressor by rotating the pushing member 200 along the first end to the second end of the arc concave surface 101, if the working state of the main machine 300 of the garbage compressor is about to be fully loaded, the pushing member 200 can be stopped to push or reduce the rotation angle of the pushing member 200, after the working state of the main machine 300 of the garbage compressor is normal, the rotation angle of the pushing member 200 can be continuously pushed or increased, and meanwhile, due to the pushing effect of the pushing member 200, the garbage is prevented from being accumulated on the inclined plate in the traditional direct compression process, so that the receiving hopper is blocked, and the working state of the main machine 300 of the garbage compressor is dead space. It should be noted that, in the present embodiment, the number of the arc-shaped concave surfaces 101 is one, and the pushing member 200 pushes the garbage from the first end of the arc-shaped concave surface 101 to the second end of the arc-shaped concave surface 101 so as to push the garbage into the main machine feeding hole 301 of the garbage compressor, and of course, there may be two arc-shaped concave surfaces 101.

According to the receiving device of the garbage compressor, the arc-shaped concave surface 101 facing the direction of the main machine feed inlet 301 of the garbage compressor is arranged in the receiving bin 100, so that the receiving area 102 is formed in the arc-shaped concave surface 101, meanwhile, the pushing piece 200 is arranged in the receiving bin 100, the pushing piece 200 is attached to the arc-shaped concave surface 101 and can rotate along the path of the arc-shaped concave surface 101, and garbage in the receiving area 102 is pushed into the main machine feed inlet 301 of the garbage compressor. When unloading is carried out to the main machine feeding port 301, garbage falls into the receiving area 102 firstly, part of garbage can directly fall into the main machine feeding port 301, the garbage is pushed into the main machine feeding port 301 of the garbage compressor by rotating the pushing piece 200 to the other end along one end of the arc-shaped concave surface 101, if the working state of the main machine 300 of the garbage compressor is about to be fully loaded, the pushing piece 200 can be stopped to push or the rotation angle of the pushing piece 200 can be reduced, after the working state of the main machine 300 of the garbage compressor is normal, the rotation angle of the pushing piece 200 can be continuously pushed or increased, meanwhile, due to the pushing effect of the pushing piece 200, garbage is prevented from being accumulated on the inclined plate in the traditional direct compression process, the receiving hopper is blocked, and the working state of the main machine 300 of the garbage compressor is dead space.

Compared with the prior art, the receiving device of the garbage compressor disclosed by the utility model has the advantages that the arc-shaped concave surface 101 facing the direction of the main machine feed inlet 301 of the garbage compressor is arranged in the receiving bin 100, so that the receiving area 102 is formed in the arc-shaped concave surface 101, meanwhile, the pushing piece 200 is matched, garbage in the receiving area 102 is pushed into the main machine feed inlet 301 of the garbage compressor, the main machine 300 of the garbage compressor is prevented from being overloaded and dead space, the service life of the main machine 300 of the garbage compressor is prolonged, the power consumption of the main machine 300 of the garbage compressor is reduced, and the garbage compression operation efficiency is improved.

As shown in fig. 1 and fig. 3, in a specific embodiment, two arc concave surfaces 101 are provided, a guiding portion 104 for guiding the garbage to the receiving area 102 is disposed at a connection position of the two arc concave surfaces 101, a receiving baffle 103 is disposed at a position, close to a discharge opening 401 of the discharging vehicle 400, on the receiving bin 100, a vertex 1041 of the guiding portion 104 is connected with the receiving baffle 103, the guiding portion 104 is respectively overlapped with an upper edge of the arc concave surfaces 101 to form a bottom intersection point 1042 of the guiding portion 104, a cutting edge 1043 is formed between the vertex 1041 of the guiding portion 104 and the bottom intersection point 1042 of the guiding portion 104, and the cutting edge 1043 can break up the clustered garbage to avoid stacking the clustered garbage, so as to affect the garbage compression operation efficiency, as shown in fig. 3. Specifically, as shown in fig. 1, the receiving bin 100 includes a bottom plate 105 and an arc-shaped enclosing plate, the arc-shaped enclosing plate has an arc-shaped concave surface 101, and the bottom plate 105 and the arc-shaped enclosing plate enclose a receiving area 102, and the pushing member 200 is disposed on the bottom plate 105. Meanwhile, the receiving baffle 103 is disposed on the bottom plate 105, and the receiving volume of the receiving bin 100 is increased by increasing the height of the receiving baffle 103. In addition, the size of the receiving bin 100 in the first direction is not less than the size of the discharge opening 401 of the discharging car 400 in the first direction, so that garbage is prevented from being scattered to the outer side of the receiving bin 100, the width of the receiving bin 100 is increased to be not less than the width of the discharge opening 401 of the discharging car 400, and accordingly the situation that garbage is scattered to the outer side of the receiving bin 100 when the discharge opening 401 of the discharging car 400 discharges is avoided, the work of manually shoveling the garbage into a compression bin of equipment is reduced, and the garbage compression operation efficiency is improved.

Further, as shown in fig. 2, in an embodiment, the pushing member 200 includes a rotary pushing head 201 and a driving device 202 for driving the rotary pushing head 201 to rotate, where the rotary pushing head 201 is hinged on the base plate 105, and the driving device 202 is connected to the rotary pushing head 201 to drive the rotary pushing head 201 to rotate along the path of the arc concave 101. The rotary pushing head 201 is in a fan-shaped structure, the rotary pushing head 201 includes a pushing block portion 2011, the pushing block portion 2011 pushes the garbage in the receiving area 102 into the main machine feeding port 301, and the height of the pushing block portion 2011 is equal to the height of the arc-shaped coaming, i.e. the height of the arc-shaped concave surface 101, so as to avoid the residual garbage from being accumulated in the receiving bin 100. Specifically, the driving device 202 is a hydraulic telescopic rod, a first end of which is hinged to the side wall 106 of the receiving bin 100, and a second end of which is hinged to the rotary push head 201. When the pushing piece 200 performs pushing operation, the hydraulic telescopic rod stretches out to drive the rotary pushing head 201 to rotate along the path of the arc concave 101, meanwhile, the rotary pushing head 201 pushes garbage into the main machine feeding port 301 of the garbage compressor, and the rotary angle of the rotary pushing head 201 is controlled through the hydraulic telescopic rod to control the volume of the garbage, so that the purposes of controlling and homogenizing the garbage are achieved, as shown in the pushing piece 200 on the left side in fig. 2; when the pushing member 200 does not perform the pushing operation, the hydraulic telescopic rod is retracted, and at this time, the rotary pushing head 201 is positioned at the starting end of the arc-shaped concave surface 101, and the pushing operation is not performed, as shown on the right side in fig. 2. The number of pushing members 200 may be two, and of course, the number of pushing members 200 may be one. When there are two pushing members 200, they can be used at the positions of the two arc concave surfaces 101, as shown in fig. 2, so that the control of the amount of garbage entering the main machine feed inlet 301 of the garbage compressor is more accurate and flexible, and the two pushing members 200 can be controlled to perform the pushing operation at the same time, and any one of the pushing members 200 can be controlled to perform the pushing operation. When the pushing member 200 is one, it can be used at a position having only one arcuate concave surface 101, so that the rotary pushing head 201 rotates from the first end of the arcuate concave surface 101 to the second end of the arcuate concave surface 101, thereby performing the pushing operation. It should be noted that, in the present embodiment, the hydraulic telescopic rod may provide power through the main machine 300 of the garbage compressor, and of course, the driving device 202 may also use other devices to drive the rotary pushing head 201 to rotate, and meanwhile, in order to protect the pushing member 200, a cover plate 107 is disposed above the pushing member 200 to prevent other impurities from falling into the driving device 202 and affecting the action of the driving device 202, as shown in fig. 1.

The material receiving device of the garbage compressor disclosed by the embodiment of the utility model not only can be applied to the field of garbage compression, but also can be applied to other fields, such as a material sorting area, the material sorting speed and the sorting efficiency can be controlled through the material pushing piece 200, and the material receiving device is simple in structure and low in cost.

The embodiment of the utility model also discloses a garbage compressor, which comprises a garbage compressor main machine 300 and a receiving device, wherein the garbage compressor main machine 300 is provided with a main machine feeding hole 301, and the receiving device is positioned above the main machine feeding hole 301, and is the receiving device of the garbage compressor disclosed in the embodiment above, so that all technical effects of the receiving device of the garbage compressor are achieved, and the description is omitted herein.

The terms first and second and the like in the description and in the claims and in the above-described figures are used for distinguishing between different objects and not necessarily for describing a sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to the listed steps or elements but may include steps or elements not expressly listed.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A receiving device for a trash compactor, comprising:

A receiving bin (100), wherein an arc-shaped concave surface (101) facing to the direction of a main machine feeding hole (301) of the garbage compressor is arranged in the receiving bin (100), so that a receiving area (102) is formed in the arc-shaped concave surface (101);

The pushing piece (200) is arranged in the receiving bin (100), the pushing piece (200) rotates along the path of the arc-shaped concave surface (101), and the pushing piece (200) is attached to the arc-shaped concave surface (101) and used for pushing garbage in the receiving area (102) into a main machine feeding hole (301) of the garbage compressor.

2. The material receiving device of the garbage compressor according to claim 1, wherein two arc-shaped concave surfaces (101) are provided, and a guide part (104) for guiding garbage to the material receiving area (102) is arranged at the connecting position of the two arc-shaped concave surfaces (101).

3. The material receiving device of the garbage compressor according to claim 2, wherein the material receiving bin (100) is provided with a material receiving baffle (103) at a position close to a discharge opening (401) of a discharge vehicle (400), a vertex (1041) of the guide part (104) is connected with the material receiving baffle (103), the guide part (104) is respectively overlapped with an upper edge of the arc concave surface (101) to form a bottom intersection point (1042) of the guide part (104), a cutting edge (1043) is formed between the vertex (1041) of the guide part (104) and the bottom intersection point (1042) of the guide part (104), and the cutting edge (1043) is used for scattering the clustered garbage.

4. The material receiving device of a garbage compressor according to claim 1, wherein the material receiving bin (100) comprises a bottom plate (105) and an arc-shaped coaming, the arc-shaped coaming is provided with the arc-shaped concave surface (101), the bottom plate (105) and the arc-shaped coaming are surrounded to form the material receiving area (102), and the material pushing piece (200) is arranged on the bottom plate (105).

5. The material receiving device of a garbage compressor according to claim 4, wherein the material pushing piece (200) comprises a rotary pushing head (201) and a driving device (202) for driving the rotary pushing head (201) to rotate, the rotary pushing head (201) is hinged on the bottom plate (105), and the driving device (202) is connected with the rotary pushing head (201) and is used for driving the rotary pushing head (201) to rotate along the path of the arc-shaped concave surface (101).

6. The material receiving device of a garbage compressor according to claim 5, characterized in that the driving device (202) is a hydraulic telescopic rod, a first end of which is hinged to a side wall (106) of the material receiving bin (100), and a second end of which is hinged to the rotary pushing head (201).

7. The material receiving device of a garbage compressor according to claim 5, wherein the rotary pushing head (201) has a fan-shaped structure, the rotary pushing head (201) comprises a pushing block part (2011), and the pushing block part (2011) is used for pushing garbage in the material receiving area (102) into the main machine feeding hole (301).

8. The material receiving device of a trash compactor according to claim 7, characterized in that the height of the push stop (2011) is equal to the height of the arc-shaped coaming.

9. The receiving device of a garbage compressor according to any one of claims 1-8, wherein the size of the receiving bin (100) in the first direction is not smaller than the size of the discharge opening (401) of the discharge car (400) in the first direction, so as to prevent garbage from being scattered to the outside of the receiving bin (100).

10. A garbage compressor comprising a garbage compressor main unit (300) and a receiving device, wherein the garbage compressor main unit (300) is provided with a main unit feed inlet (301), the receiving device is located above the main unit feed inlet (301), and the receiving device is a receiving device of the garbage compressor according to any one of claims 1-9.