CN220638997U - Double-pressure-head garbage dewatering system based on uniform-speed feeding mechanism - Google Patents

Abstract

The utility model relates to a double-pressure-head garbage dewatering system based on a uniform-speed feeding mechanism, which is characterized in that: the device comprises a feeding mechanism, a main extrusion dehydration mechanism, a side extrusion draining mechanism, a gate mechanism, a tightening draining mechanism and a water collecting structure; the garbage in the bin is pushed into the feed inlet by the pushing cylinder of the feeding mechanism and falls into the storage squeezing cavity; the main pushing oil cylinder is used for driving the main pushing movable beam to push and squeeze water, meanwhile, materials are pushed between the side pushing oil cylinder and the gate of the material storage squeezing water cavity, the side pushing oil cylinder is used for driving the side pushing movable beam to squeeze and dewater the primary squeezed materials sent by the main pushing movable Liang Tuiji towards the direction of the gate, and meanwhile, the separated garbage water is collected and directionally discharged by the water collecting tank; opening a gate panel after pressure maintaining and draining are completed, enabling the dewatered garbage bags to pass through a tightening box body, driving the side edges of the tightening box body by using a tightening oil cylinder to increase lateral pressure, reducing the cross section of the tightening box body, and further draining residual water; realizing full-automatic garbage dehydration treatment.

Description

Double-pressure-head garbage dewatering system based on uniform-speed feeding mechanism

Technical Field

The utility model relates to the technical field of garbage dehydration, in particular to a double-pressure-head garbage dehydration system based on a uniform-speed feeding mechanism.

Background

In daily recycled garbage, the household garbage is high in water content, so that the garbage is unfavorable for incineration, and the garbage needs to be dehydrated before being fed into an incinerator for incineration; at present, pretreatment before garbage incineration is mainly divided into stacking airing and compression dewatering, if stacking airing is adopted, a large amount of urban household garbage is obviously needed, a large amount of land resources are occupied, and in the stacking process, pungent odor such as malodor and the like can be generated, so that people are averted and the atmosphere is polluted; therefore, at present, special equipment is generally adopted to carry out dehydration treatment on the garbage, and compression dehydration is the main method.

The garbage is compressed and dehydrated by adopting a mechanical method, and the water in the garbage is extruded in the extrusion process, so that the volume is reduced, the garbage is convenient to load, unload and transport, and the garbage is dried and is convenient to burn.

For example, the continuous garbage compression dehydration device with the Chinese patent publication number of CN105538766A adopts two dehydration procedures of prepressing and main pressing, and a side pressing plate is arranged on the side surface of a main pressing bin, so that garbage can be better extruded through the acting forces of the main pressing bin in different directions, and dehydration is realized. However, many existing garbage additives are manually added, garbage compression is limited on the surfaces of garbage blocks, water generated in the middle is difficult to flow out, and the middle dehydration rate of the garbage is insufficient.

Therefore, the existing garbage compression dehydration device is required to be further improved, the dehydration efficiency is improved, and the dryness of garbage is improved, so that the garbage compression dehydration device is more beneficial to incineration.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a double-pressure-head garbage dehydration system based on a uniform-speed feeding mechanism, which can solve the problems that the manual feeding is time-consuming and labor-consuming in general garbage dehydration feeding and the dehydration effect is poor due to the fact that one-way extrusion dehydration is adopted in extrusion dehydration.

In order to solve the technical problems, the technical scheme of the utility model is as follows: a double-pressure-head garbage dewatering system based on a uniform-speed feeding mechanism is characterized in that: the device comprises a feeding mechanism, a main extrusion dehydration mechanism, a side extrusion draining mechanism, a gate mechanism, a tightening draining mechanism and a water collecting structure;

the feeding mechanism comprises a bracket, a pushing platform, a pushing plate, a bin and a pushing oil cylinder; the support is of a cuboid frame structure, and one end of the upper surface of the support in the length direction is provided with a pushing oil cylinder hinging seat; the pushing platform is arranged at the other end of the upper surface of the bracket in the length direction; a plurality of push plate rail wheels are arranged between the pushing oil cylinder hinging seat and the pushing platform on the upper surface of the bracket; the two sides of the bracket, which are positioned in the width direction, are provided with bin supports;

the pushing plate is of a rectangular plate-shaped structure, and the lower surface of the pushing plate close to one end is tightly attached to the upper surface of the pushing platform; a track unit matched with a push plate track wheel on the upper surface of the bracket is arranged on the side of the lower surface of the pushing plate, which is positioned at the pushing platform area;

the bin comprises an inclined side plate and an inclined end plate; the inclined side plates are provided with a pair of bin supports which are respectively arranged on two sides of the bracket in the width direction in an inclined manner; one end, close to the pushing platform, of the inclined side plate is a vertical edge, and one end, close to the hinging seat of the pushing oil cylinder, of the inclined side plate is an inclined edge; the inclined end plate is connected to the end face of the inclined side plate, where the inclined edge of the inclined side plate is located, and forms a bin with the pushing plate in a four-side closed manner; a plurality of triangular reinforcing rib plates are arranged between the outer wall of the inclined side plate and the bin support along the extending direction;

the pushing oil cylinder is arranged on a pushing oil cylinder hinging seat on the bracket, the output end of the pushing oil cylinder is connected to one end of the pushing plate, the pushing plate is driven to reciprocate in the horizontal direction by the pushing oil cylinder, the pushing plate is matched with the storage bin, the extruded material on the pushing plate is pushed onto the pushing platform, and the extruded material on the pushing platform is pushed and output by the end face of the pushing plate;

the main extrusion dehydration mechanism comprises a feed inlet, a storage extrusion water cavity, a main movable pushing beam and a main pushing oil cylinder; the feeding port is arranged on the output end of the feeding mechanism along the vertical direction, and the material storage squeezing cavity is of a cuboid shell-shaped structure; the top of the storage squeezing cavity is open and connected below the feeding hole; a reciprocating main pushing movable beam is arranged below a feed inlet of the storage extrusion cavity, and the output end of the main pushing oil cylinder is connected to the main pushing movable beam to push and extrude garbage which enters the storage extrusion cavity by pushing the feeding mechanism; the two sides of the front end of the material storage squeezing water cavity are respectively provided with openings and are respectively connected with the side squeezing draining mechanism and the tightening draining mechanism to form a T-shaped structure;

the side extrusion draining mechanism comprises a side pushing frame, a side pushing movable beam and a side pushing oil cylinder; the side pushing frame is of a cuboid shell structure and is connected to an opening at one side of the storage squeezing cavity, the side pushing movable beam is arranged in the side pushing frame, and the output end of the side pushing oil cylinder is connected to the side pushing movable beam, so that pushing and squeezing of the inner garbage of the storage squeezing cavity to the direction of the tightening and draining mechanism from the side direction is realized;

the gate mechanism is arranged at the joint of the main extrusion dewatering mechanism and the tightening draining mechanism; the gate mechanism comprises a lifting cylinder and a gate panel; the lifting cylinder is provided with a pair of outer sides which are respectively arranged at the joint of the main extrusion dewatering mechanism and the tightening draining mechanism; the gate panel is arranged in a cavity where the main extrusion dehydration mechanism is connected with the tightening and draining mechanism, and the lifting cylinder drives the gate panel to lift;

the tightening and draining mechanism comprises a tightening box body and a tightening oil cylinder, wherein movable plates are arranged at two side edges of the tightening box body, a top plate and a bottom plate of the tightening box body are fixed plates, and the movable plates at two sides of the tightening box body are hinged to two side plates of a gate outlet of the tightening box body through a rotating shaft pin; the tightening cylinder is arranged on the side edge of the tightening box body, the output end of the tightening cylinder is tightly propped against the movable plate of the tightening box body, the movable plate of the tightening box body is driven to tighten the inner side of the tightening box body, the lateral pressure is increased, the cross section of the tightening box body is reduced, and the garbage is tightened and drained;

the water collecting structure comprises a water baffle and a water collecting tank; the water baffle is arranged on the outer side of the storage squeezing cavity and the outer side of the tightening box body, and drainage array holes are formed in the side wall of the storage squeezing cavity, the side wall of the tightening box body and the bottoms of the side wall and the tightening box body; the water collecting tank is arranged below the storage squeezing cavity, the side squeezing draining mechanism and the water baffle, so that water squeezed by the storage squeezing cavity and the tightening box body is collected.

Further, the pushing plate comprises a pushing plate framework, a pushing plate panel and a pushing sealing friction plate; the pushing plate surface plate is coated on the pushing plate framework to form a cuboid shell-shaped structure; the pushing sealing friction plate is arranged on the lower surface of the pushing plate and is connected with the pushing platform.

Further, a pushing upper friction plate is arranged between the edge position of the upper surface of the pushing plate in the width direction and the bottom end joint of the inclined side plate and between the bottom end of the inclined end plate and the upper surface of the pushing plate; and a pushing side friction plate is arranged at the side edge position of the pushing plate and the inner wall of the bin support.

The utility model has the advantages that:

1) According to the utility model, the pushing plate driven by the pushing oil cylinder is matched with the stock bin and the pushing platform; the pushing plate pushes the material to be extruded on the pushing plate to the pushing platform under the driving of the pushing oil cylinder, and then the extrusion material on the pushing platform is pushed and output through the end face of the pushing plate; the device has avoided directly adopting the grab bucket to put into the easy condition that blocks up the feed inlet that appears in the extruder with rubbish, in addition, adopts this pusher to guarantee the rubbish of waiting of even stable transport, and the rubbish distribution when guaranteeing the extrusion is even, promotes extrusion effect.

2) According to the utility model, compression water squeezing of garbage is simultaneously carried out by adopting the double pressure heads distributed in an L shape, and meanwhile, the water in the garbage is fully squeezed out by utilizing a pressure-maintaining draining mode; meanwhile, a water collecting structure is adopted in the compressed water squeezing area, so that the scattered spraying of the garbage water is prevented, and the secondary pollution is avoided; in addition, the side pressure is increased by adopting a tightening draining mechanism, the sectional area of the garbage after extrusion is reduced when the dehydration package is discharged, and residual moisture is further drained through gradually increasing the side pressure and reducing the sectional area; the overall water squeezing effect is improved.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

Fig. 1 is a schematic perspective view of a dual-pressure-head garbage dewatering system based on a uniform-speed feeding mechanism.

Fig. 2-6 are schematic structural diagrams of a feeding mechanism of a double-pressure-head garbage dewatering system based on a uniform-speed feeding mechanism.

Fig. 7 is a schematic diagram of a partial perspective structure of a dual-pressure head garbage dewatering system based on a uniform feeding mechanism.

Fig. 8 is a structural schematic diagram of the installation state of the water collecting structure of the double-pressure-head garbage dewatering system based on the uniform-speed feeding mechanism.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present utility model and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal," "vertical," and the like do not denote a requirement that the component be absolutely horizontal or overhang, but rather may be slightly inclined. As "horizontal" merely means that its direction is more horizontal than "vertical", and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The double-pressure-head garbage dewatering system based on the uniform-speed feeding mechanism shown in fig. 1 to 3 comprises a feeding mechanism 1, a main extrusion dewatering mechanism 2, a side extrusion draining mechanism 3, a gate mechanism 4, a tightening draining mechanism 5 and a water collecting structure 6.

The feeding mechanism 1 comprises a bracket 11, a pushing platform 12, a pushing plate 13, a storage bin 14 and a pushing oil cylinder 15; the bracket 11 is of a cuboid frame structure, and one end of the upper surface of the bracket 11 in the length direction is provided with a pushing oil cylinder hinging seat; the pushing platform 12 is arranged at the other end of the upper surface of the bracket in the length direction; a plurality of push plate track wheels 16 are arranged between the pushing oil cylinder hinging seat and the pushing platform on the surface of the bracket 11; the stock bin supports 17 are arranged on the two sides of the bracket 11 in the width direction.

The pushing plate 13 is of a rectangular plate-shaped structure, and the lower surface of the pushing plate 13 close to one end is tightly attached to the upper surface of the pushing platform 12; the lower surface of the pushing plate 13 is positioned beside the pushing platform area and is provided with a rail unit 18 matched with the pushing plate rail wheel on the upper surface of the bracket 11.

The bin 14 includes an inclined side plate 141 and an inclined end plate 142; the inclined side plates 141 are provided with a pair of bin holders 17 which are respectively arranged on two sides of the bracket 11 in the width direction in an inclined manner; one end of the inclined side plate 141, which is close to the pushing platform 12, is a vertical edge, and one end of the inclined side plate 141, which is close to the hinging seat of the pushing oil cylinder, is an inclined edge; the inclined end plate 142 is connected to the end face of the inclined side plate 141 where the inclined edge is located and forms a four-side closed bin with the pushing plate 13; a plurality of triangular reinforcing rib plates 143 are arranged between the outer wall of the inclined side plate 141 and the bin support 17 along the extending direction.

The pushing oil cylinder 15 is arranged on a pushing oil cylinder hinging seat on the bracket 11, the output end of the pushing oil cylinder 15 is connected to one end of the pushing plate 13, the pushing plate 13 is matched with the storage bin 14 through the reciprocating displacement of the pushing plate in the horizontal direction driven by the pushing oil cylinder, the extrusion material on the pushing plate 13 is pushed onto the pushing platform 12, and the extrusion material on the pushing platform is pushed and output through the end face of the pushing plate 13.

The main extrusion dehydration mechanism 2 comprises a feed inlet 21, a storage extrusion water cavity 22, a main movable pushing beam 23 and a main pushing oil cylinder 24; the feeding hole 21 is arranged on the output end of the feeding mechanism 1 along the vertical direction, and the material storage and extrusion cavity 22 is of a cuboid shell-shaped structure; the top end of the storage squeezing cavity 22 is opened and connected below the feeding hole 21; one end opening of the storage extrusion cavity 22 is provided with a reciprocating main pushing movable beam 23, and the output end of the main pushing oil cylinder 24 is connected to the main pushing movable beam 23 to push and extrude the garbage pushed into the storage extrusion cavity 22 by the feeding mechanism 1; both sides of the storage squeezing cavity 22 are provided with openings and are respectively connected with the side squeezing draining mechanism 3 and the tightening draining mechanism 5 to form a T-shaped structure.

The side extrusion draining mechanism 3 comprises a side pushing frame 31, a side pushing movable beam 32 and a side pushing oil cylinder 33; the side pushing frame 31 is of a cuboid shell structure and is connected to an opening of one side edge of the storage squeezing cavity 22, the side pushing movable beam 32 is arranged in the side pushing frame 31, and the output end of the side pushing oil cylinder 33 is connected to the side pushing movable beam 32, so that pushing and squeezing of inner garbage of the storage squeezing cavity 22 from the side edge direction is realized.

The gate mechanism 4 is arranged at the joint of the main extrusion dewatering mechanism 2 and the tightening draining mechanism 5; the shutter mechanism 4 includes a lift cylinder 41 and a shutter panel 42; the lifting cylinder 41 is provided with a pair of outer sides which are respectively arranged at the joint of the main extrusion dewatering mechanism 2 and the tightening draining mechanism 5; the gate panel 42 is arranged in a cavity where the main extrusion dewatering mechanism 2 is connected with the tightening and draining mechanism 5, and the lifting cylinder 41 drives the gate panel 42 to lift.

The tightening and draining mechanism 5 comprises a tightening box body 51 and a tightening oil cylinder 52, wherein movable plates are arranged at two side edges of the tightening box body 51, a top plate and a bottom plate of the tightening box body 51 are fixed plates, and the movable plates at two sides of the tightening box body 51 are hinged to the two side plates at the outlet of the gate mechanism 4 through rotating shaft pins; the tightening cylinder 52 is arranged on the side edge of the tightening box body, and the output end of the tightening cylinder 52 is tightly propped against the movable plate of the tightening box body 51, so that the movable plate of the tightening box body 51 is driven to tighten the inner side of the tightening box body, the lateral pressure is increased, the section of the tightening box body 51 is reduced, and the garbage can be tightened and drained.

The water collecting structure 6 comprises a water baffle 61 and a water collecting tank 62; the water baffle 61 is arranged on the outer side of the storage squeezing cavity 22 and the outer side of the tightening box body 51, and drainage array holes are formed in the side wall of the storage squeezing cavity 22, the side wall of the tightening box body 51 and the bottoms of the side wall and the tightening box body; the water collecting tank 62 is arranged below the water baffle 61, the storage squeezing water cavity 2 and the side squeezing draining mechanism 5, so that water squeezed out of the storage squeezing water cavity 22 and the tightening box body 51 is collected.

The pushing plate 13 comprises a pushing plate framework 131, a pushing plate panel 132 and a pushing sealing friction plate 133; the pushing plate panel 132 is wrapped on the pushing plate framework 131 to form a rectangular shell structure; a pushing seal friction plate 133 is disposed on the lower surface 13 of the pushing plate at the junction with the pushing platform 12.

A pushing upper friction plate is arranged between the edge position of the upper surface of the pushing plate 13 in the width direction and the bottom end joint of the inclined side plate 141 and between the bottom end of the inclined end plate 142 and the upper surface of the pushing plate 13; the side edge of the pushing plate 13 and the inner wall of the bin support 17 are respectively provided with a pushing side friction plate.

The working principle of the utility model is as follows: pushing garbage in the bin into a feed port through a pushing oil cylinder of the feeding mechanism, and falling into a storage squeezing cavity through the feed port; the main pushing oil cylinder and the driving main pushing movable beam are used for pushing and squeezing water, meanwhile, materials are pushed between the side pushing oil cylinder and the gate of the storage squeezing water cavity, the side pushing oil cylinder drives the side pushing movable beam to squeeze and dewater the primary squeezing materials sent by the main pushing movable Liang Tuiji towards the direction of the gate, and meanwhile, the separated garbage water is collected and directionally discharged by the water collecting tank; after the pressure maintaining and draining are finished, the gate panel is opened, the dewatered garbage bags pass through the tightening box body by utilizing the side pushing oil cylinder, the side edge of the tightening box body is driven by the tightening oil cylinder to increase the lateral pressure, the section of the tightening box body is reduced, and the residual water is further drained.

It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (3)

1. A two pressure head rubbish dewatering system based on at uniform velocity feed mechanism, its characterized in that: the device comprises a feeding mechanism, a main extrusion dehydration mechanism, a side extrusion draining mechanism, a gate mechanism, a tightening draining mechanism and a water collecting structure;

the feeding mechanism comprises a bracket, a pushing platform, a pushing plate, a bin and a pushing oil cylinder; the support is of a cuboid frame structure, and one end of the upper surface of the support in the length direction is provided with a pushing oil cylinder hinging seat; the pushing platform is arranged at the other end of the upper surface of the bracket in the length direction; a plurality of push plate rail wheels are arranged between the pushing oil cylinder hinging seat and the pushing platform on the upper surface of the bracket; the two sides of the bracket, which are positioned in the width direction, are provided with bin supports;

the pushing plate is of a rectangular plate-shaped structure, and the lower surface of the pushing plate close to one end is tightly attached to the upper surface of the pushing platform; a track unit matched with a push plate track wheel on the upper surface of the bracket is arranged on the side of the lower surface of the pushing plate, which is positioned at the pushing platform area;

the bin comprises an inclined side plate and an inclined end plate; the inclined side plates are provided with a pair of bin supports which are respectively arranged on two sides of the bracket in the width direction in an inclined manner; one end, close to the pushing platform, of the inclined side plate is a vertical edge, and one end, close to the hinging seat of the pushing oil cylinder, of the inclined side plate is an inclined edge; the inclined end plate is connected to the end face of the inclined side plate, where the inclined edge of the inclined side plate is located, and forms a bin with the pushing plate in a four-side closed manner; a plurality of triangular reinforcing rib plates are arranged between the outer wall of the inclined side plate and the bin support along the extending direction;

the pushing oil cylinder is arranged on a pushing oil cylinder hinging seat on the bracket, the output end of the pushing oil cylinder is connected to one end of the pushing plate, the pushing plate is driven to reciprocate in the horizontal direction by the pushing oil cylinder, the pushing plate is matched with the storage bin, the extruded material on the pushing plate is pushed onto the pushing platform, and the extruded material on the pushing platform is pushed and output by the end face of the pushing plate;

the main extrusion dehydration mechanism comprises a feed inlet, a storage extrusion water cavity, a main movable pushing beam and a main pushing oil cylinder; the feeding port is arranged on the output end of the feeding mechanism along the vertical direction, and the material storage squeezing cavity is of a cuboid shell-shaped structure; the top of the storage squeezing cavity is open and connected below the feeding hole; a reciprocating main pushing movable beam is arranged below a feed inlet of the storage extrusion cavity, and the output end of the main pushing oil cylinder is connected to the main pushing movable beam to push and extrude garbage which enters the storage extrusion cavity by pushing the feeding mechanism; the two sides of the front end of the material storage squeezing water cavity are respectively provided with openings and are respectively connected with the side squeezing draining mechanism and the tightening draining mechanism to form a T-shaped structure;

the side extrusion draining mechanism comprises a side pushing frame, a side pushing movable beam and a side pushing oil cylinder; the side pushing frame is of a cuboid shell structure and is connected to an opening at one side of the storage squeezing cavity, the side pushing movable beam is arranged in the side pushing frame, and the output end of the side pushing oil cylinder is connected to the side pushing movable beam, so that pushing and squeezing of the inner garbage of the storage squeezing cavity to the direction of the tightening and draining mechanism from the side direction is realized;

the gate mechanism is arranged at the joint of the main extrusion dewatering mechanism and the tightening draining mechanism; the gate mechanism comprises a lifting cylinder and a gate panel; the lifting cylinder is provided with a pair of outer sides which are respectively arranged at the joint of the main extrusion dewatering mechanism and the tightening draining mechanism; the gate panel is arranged in a cavity where the main extrusion dehydration mechanism is connected with the tightening and draining mechanism, and the lifting cylinder drives the gate panel to lift;

the tightening and draining mechanism comprises a tightening box body and a tightening oil cylinder, wherein movable plates are arranged at two side edges of the tightening box body, a top plate and a bottom plate of the tightening box body are fixed plates, and the movable plates at two sides of the tightening box body are hinged to two side plates of a gate outlet of the tightening box body through a rotating shaft pin; the tightening cylinder is arranged on the side edge of the tightening box body, the output end of the tightening cylinder is tightly propped against the movable plate of the tightening box body, the movable plate of the tightening box body is driven to tighten the inner side of the tightening box body, the lateral pressure is increased, the cross section of the tightening box body is reduced, and the garbage is tightened and drained;

the water collecting structure comprises a water baffle and a water collecting tank; the water baffle is arranged on the outer side of the storage squeezing cavity and the outer side of the tightening box body, and drainage array holes are formed in the side wall of the storage squeezing cavity, the side wall of the tightening box body and the bottoms of the side wall and the tightening box body; the water collecting tank is arranged below the storage squeezing cavity, the side squeezing draining mechanism and the water baffle, so that water squeezed by the storage squeezing cavity and the tightening box body is collected.

2. The double-pressure-head garbage dewatering system based on uniform-speed feeding mechanism as claimed in claim 1, wherein: the pushing plate comprises a pushing plate framework, a pushing plate panel and a pushing sealing friction plate; the pushing plate surface plate is coated on the pushing plate framework to form a cuboid shell-shaped structure; the pushing sealing friction plate is arranged on the lower surface of the pushing plate and is connected with the pushing platform.

3. The double-pressure-head garbage dewatering system based on uniform-speed feeding mechanism as claimed in claim 1, wherein: the edge position of the upper surface of the pushing plate in the width direction is connected with the bottom end of the inclined side plate, and a pushing upper friction plate is arranged between the bottom end of the inclined end plate and the upper surface of the pushing plate; and a pushing side friction plate is arranged at the side edge position of the pushing plate and the inner wall of the bin support.