CN115367343B - High-level obstacle crossing transposition type vertical garbage compression station - Google Patents

Abstract

The invention relates to the technical field of environmental protection, in particular to a high-level obstacle crossing transposition type vertical garbage compression station which comprises two or more than two arranging stations which are arranged side by side on the supporting ground and used for arranging a garbage transfer box; the arrangement station is provided with a longitudinal guide rail structure and is used for being matched with the garbage transfer box so that the garbage transfer box can longitudinally move to the outside; a mounting frame is horizontally arranged above one end of the placement station, a garbage compressor is arranged on the mounting frame, a turnover hopper is arranged on the front side of the garbage compressor, and a hopper turnover driving mechanism is arranged between the garbage compressor and the turnover hopper and used for driving the hopper to turn upwards and be connected with a garbage inlet at the upper end of the garbage compressor; the invention has the advantages of more reasonable structural design, capability of reducing equipment input cost and better improving working efficiency.

Description

High-level obstacle crossing transposition type vertical garbage compression station

Technical Field

The invention relates to the technical field of environmental protection, in particular to a high-level obstacle crossing transposition type vertical garbage compression station.

Background

A waste station refers to a place where waste is stored or recovered. The garbage collection vehicle collects garbage generated in living areas such as surrounding areas, and conveys the collected garbage to a garbage station (garbage transfer box) for storage. And then the garbage transfer vehicle transfers the garbage of the garbage station to a garbage disposal plant or a garbage landfill for disposal.

The existing garbage station is generally provided with two or more placement stations and is used for placing a garbage transfer box, a garbage compressor and a turnover hopper are installed at one of the placement stations, the garbage collection vehicle can dump collected garbage into the turnover hopper, the turnover hopper is driven to convey the garbage to the garbage transfer box, and meanwhile, a garbage compression end of the garbage compressor can be operated to extend into the garbage transfer box from a garbage placement opening in the garbage transfer box and compress the garbage. In the existing structure, when the garbage transfer box is full, the arm-pulling hook vehicle is required to pull out, load and transfer the garbage transfer box filled with garbage out of the field; and then the arm-pulling hook vehicle pulls out the empty garbage transfer box and sends the empty garbage transfer box to the corresponding placement station. Such a construction requires the provision of a pull arm hook vehicle at the waste station, which results in an increase in equipment cost, which is not in compliance with the current "two carbon economy" policy requirements. Secondly, the pull arm hook vehicle pulls out and places the garbage transfer box, so that time waste is caused, and the working efficiency is reduced.

Therefore, how to provide a high-position obstacle crossing transposition type vertical garbage compression station which is more reasonable in structural design, can reduce equipment input cost and can better improve working efficiency becomes a technical problem to be solved by technicians in the field.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention aims to provide a high-level obstacle-surmounting transposition type vertical garbage compression station which has a more reasonable structural design, can reduce equipment investment cost, and can better improve working efficiency.

In order to achieve the above purpose, the invention provides a high-level obstacle-surmounting transposition type vertical garbage compression station, which comprises two or more than two arranging stations which are arranged side by side on the supporting ground and used for arranging a garbage transfer box; the arrangement station is provided with a longitudinal guide rail structure and is used for being matched with the garbage transfer box so that the garbage transfer box can longitudinally move to the outside; the garbage disposal device is characterized in that a mounting frame is horizontally arranged above one end of the placement station, a garbage compressor is arranged on the mounting frame, a turnover hopper is arranged on the front side of the garbage compressor, and a hopper turnover driving mechanism is arranged between the garbage compressor and the turnover hopper and used for driving the hopper to turn upwards and be connected with a garbage inlet at the upper end of the garbage compressor; a vertical motion control mechanism is arranged between the mounting frame and the supporting ground and can drive the mounting frame to move vertically; be equipped with lateral shifting control mechanism and can control rubbish compressor transverse position between rubbish compressor and the mounting bracket, and make rubbish export of rubbish compressor lower extreme can link up with the rubbish of placing on the rubbish transfer box on the station in proper order and put into the mouth.

Therefore, when the high-level obstacle crossing transposition type vertical garbage compression station works, the empty garbage transfer boxes are placed at the placement stations in a one-to-one correspondence manner, so that the garbage transfer boxes placed on the placement stations are arranged side by side. The garbage compressor horizontally arranged on the mounting frame above the garbage transfer boxes can transversely move under the control of the transverse movement control mechanism, and the garbage outlet at the lower end of the garbage compressor is connected with the garbage inlet on one of the garbage transfer boxes; the overturning hopper moves along with the garbage compressor. At this moment, the upset hopper is downwards overturned and is contacted with supporting ground, the garbage collection truck is dumped rubbish into the upset hopper, the upset hopper upwards overturns, and empty rubbish into corresponding rubbish transfer box, after the rubbish transfer box is dumped to the rubbish of a certain amount, vertical motion control mechanism drives the vertical downwardly moving of mounting bracket, and make the work end of rubbish compressor can follow the rubbish on the rubbish transfer box and put into the mouth and compress rubbish, accomplish the compression back, the whole upwardly moving of the rethread mounting bracket. When the garbage transfer box is filled with garbage, the transverse movement control mechanism controls the garbage compressor to transversely move to the position above the other garbage transfer box on the mounting frame, and the garbage transfer box is used as a working box to finish garbage collection. The high-level obstacle crossing transposition type vertical garbage compression station does not need to be specially provided with a pull arm hook vehicle when working, and can better save equipment cost. After the use of the arm-pulling hook vehicle is reduced, the carbon emission can be better reduced, and the policy requirement of 'double carbon economy' at present can be better met. And when the box is replaced, the waiting time is reduced, the time can be saved better, and the working efficiency is improved.

Preferably, the placement stations are two in a side-by-side arrangement.

Like this, with settling the station setting to two, two rubbish transfer boxes can be placed side by side to the correspondence, design layout is more reasonable.

As optimization, the vertical motion control mechanism comprises brackets which are arranged at two outer sides of the placement station in pairs, a bracket plate is arranged on the brackets in a vertical sliding way, a vertical driving mechanism is arranged on the brackets, and a vertical driving end of the vertical driving mechanism is connected with the bracket plate and can control the vertical position of the bracket plate; the mounting frame is provided with two mounting ends and is respectively mounted and fixed on two support plates arranged in pairs.

Like this, vertical motion control mechanism design is simple reasonable more, through design support, mounting panel and vertical actuating mechanism, the vertical removal of drive mounting bracket that can be better.

Further, the support comprises a horizontal support plate with a rectangular structural design at the lower end, the horizontal support plate is arranged along the longitudinal direction of the placement station, the two ends of the horizontal support plate are respectively connected with support rods which are vertically upwards arranged, and the lower ends, the middle parts and the upper ends of the two support rods in pairs are respectively correspondingly connected with a lower connecting rod, a middle connecting rod and an upper connecting rod; the support plates are vertically and slidably matched on the two support rods in pairs and positioned between the middle connecting rod and the upper connecting rod; the vertical driving mechanism comprises a driving oil cylinder which is vertically arranged, the cylinder body end of the driving oil cylinder is fixedly connected to the lower connecting rod, and the piston rod end of the driving oil cylinder upwards passes through the abdicating hole on the middle connecting rod and then is connected with the supporting plate.

Furthermore, a plurality of fixing rods in J-shaped structural design are arranged on the lower surface of the horizontal supporting plate and are used for being inserted and arranged below the supporting ground.

Further, vertical guide holes are formed in the support plate in pairs and are respectively matched with the two support rods in pairs in a sliding mode.

As an optimization, the mounting frame comprises two mounting rods which are transversely arranged and longitudinally arranged at intervals along the positioning station; the garbage compressor is arranged between the two mounting rods in a transversely sliding manner; the transverse movement control mechanism comprises driving modules arranged on the two mounting rods, and driving ends of the driving modules are connected with the garbage compressor and can drive the garbage compressor to transversely move on the mounting rods.

Like this, the structural design of mounting bracket is simpler, can make things convenient for rubbish compressor lateral shifting between two bracing pieces more, and the drive is accomplished to rethread drive module, the lateral position of control rubbish compressor that can be better.

Further, a travelling device is arranged on the garbage compressor and is in rolling and sliding fit with the two mounting rods; and then the driving end of the driving module is hinged with the compressor.

Further, a first wiring groove is hinged to one side of the driving module, a second wiring groove is hinged to the far end of the first wiring groove, the far end of the second wiring groove is hinged to the end of one of the installation sections, a first wiring space and a second wiring space are formed in the first wiring groove and the second wiring groove respectively, the first wiring space and the second wiring space are connected, and wires connected to the driving module sequentially penetrate through the first wiring space and the second wiring space.

Preferably, one of the brackets is spaced outside the placement station such that the distance between the bracket and the placement station is greater than or equal to the lateral dimension of the drive module.

Like this, structural design is more reasonable, can reserve space for drive module.

As optimization, the longitudinal guide rail structure comprises two carriage rail plates which are arranged on the placement station and are transversely arranged at intervals along the placement station, and the length direction of the carriage rail plates is arranged along the longitudinal direction of the placement station; the lower sides of the two ends of the garbage transfer box are transversely provided with guide rollers in pairs, and the two groups of guide rollers longitudinally in pairs can be respectively correspondingly matched with the two carriage track plates in a rolling way; and the edges of the two sides of the railway carriage track plate are respectively bent upwards to form limit flanges.

Therefore, the longitudinal guide rail structure is simpler in design, on one hand, the garbage transfer box can be supported and arranged in a box shape, and on the other hand, the garbage transfer box can be conveniently guided.

As optimization, guide round bars are respectively arranged on the inner side surfaces of the limit flanges on the two inner sides of the two carriage track plates along the length direction of the limit flanges.

Like this, through the design direction round bar for the rubbish transfer box is settled behind two railway carriage track boards, and the position is more accurate.

Further, two limit flanging outer ends on one end of the railway carriage track plate adjacent to the garbage placement opening of the garbage transfer box are respectively arranged obliquely outwards so as to form a guide opening in a horn-shaped structural design.

In conclusion, the high-level obstacle crossing transposition type vertical garbage compression station has the advantages of being reasonable in structural design, capable of reducing equipment input cost and capable of improving working efficiency better. In addition, in the equipment structure, in order to simplify the hydraulic pipeline as much as possible, the hydraulic pipeline is as compact as possible, the hydraulic pipeline pressure loss value is as lowest as possible, and the three functions of translation of the garbage compressor, compression of the garbage compressor and overturning of the overturning hopper are corresponding to the hydraulic system, are integrated on the garbage compressor, and can move along with the press.

Drawings

Fig. 1 is a schematic perspective view of a high-level obstacle-surmounting transposition type vertical garbage compression station in an embodiment of the invention.

Fig. 2 is a partially enlarged schematic view of the a position in fig. 1.

Fig. 3 is a front view of fig. 1.

Fig. 4 is a left side view of fig. 1.

Fig. 5 is a top view of fig. 1.

Fig. 6 is a partially enlarged schematic view of the B position in fig. 5.

Detailed Description

The present invention will be further described with reference to the drawings and examples, and it should be noted that in the description of the present invention, the terms "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific manner, and thus should not be construed as limiting the present invention. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 6, the high-level obstacle crossing transposition type vertical garbage compression station comprises two or more than two arranging stations 1 which are arranged side by side on the supporting ground and used for arranging a garbage transfer box 2; the arrangement station is provided with a longitudinal guide rail structure and is used for being matched with the garbage transfer box so that the garbage transfer box can longitudinally move to the outside; a mounting frame 3 is horizontally arranged above one end of the placement station, a garbage compressor 4 is arranged on the mounting frame, a turnover hopper 5 is arranged on the front side of the garbage compressor, and a hopper turnover driving mechanism 6 is arranged between the garbage compressor and the turnover hopper and is used for driving the hopper to turn upwards and be connected with a garbage inlet at the upper end of the garbage compressor; a vertical motion control mechanism is arranged between the mounting frame and the supporting ground and can drive the mounting frame to move vertically; be equipped with lateral shifting control mechanism and can control rubbish compressor transverse position between rubbish compressor and the mounting bracket, and make rubbish export of rubbish compressor lower extreme can link up with the rubbish of placing on the rubbish transfer box on the station in proper order and put into the mouth.

Therefore, when the high-level obstacle crossing transposition type vertical garbage compression station works, the empty garbage transfer boxes are placed at the placement stations in a one-to-one correspondence manner, so that the garbage transfer boxes placed on the placement stations are arranged side by side. The garbage compressor horizontally arranged on the mounting frame above the garbage transfer boxes can transversely move under the control of the transverse movement control mechanism, and the garbage outlet at the lower end of the garbage compressor is connected with the garbage inlet on one of the garbage transfer boxes; the overturning hopper moves along with the garbage compressor. At this moment, the upset hopper is downwards overturned and is contacted with supporting ground, the garbage collection truck is dumped rubbish into the upset hopper, the upset hopper upwards overturns, and empty rubbish into corresponding rubbish transfer box, after the rubbish transfer box is dumped to the rubbish of a certain amount, vertical motion control mechanism drives the vertical downwardly moving of mounting bracket, and make the work end of rubbish compressor can follow the rubbish on the rubbish transfer box and put into the mouth and compress rubbish, accomplish the compression back, the whole upwardly moving of the rethread mounting bracket. When the garbage transfer box is filled with garbage, the transverse movement control mechanism controls the garbage compressor to transversely move to the position above the other garbage transfer box on the mounting frame, and the garbage transfer box is used as a working box to finish garbage collection. The high-level obstacle crossing transposition type vertical garbage compression station does not need to be specially provided with a pull arm hook vehicle when working, and can better save equipment cost. After the use of the arm-pulling hook vehicle is reduced, the carbon emission can be better reduced, and the policy requirement of 'double carbon economy' at present can be better met. And when the box is replaced, the waiting time is reduced, the time can be saved better, and the working efficiency is improved.

In this embodiment, the placement stations 1 are two in a side-by-side arrangement.

Like this, with settling the station setting to two, two rubbish transfer boxes can be placed side by side to the correspondence, design layout is more reasonable.

In this embodiment, the vertical motion control mechanism includes a bracket 7 disposed at two outer sides of the positioning station in pairs, a bracket plate 8 is disposed on the bracket in a vertically sliding manner, and a vertical driving mechanism is disposed on the bracket, so that a vertical driving end of the vertical driving mechanism is connected with the bracket plate and can control a vertical position of the bracket plate; the mounting frame is provided with two mounting ends and is respectively mounted and fixed on two support plates arranged in pairs.

Like this, vertical motion control mechanism design is simple reasonable more, through design support, mounting panel and vertical actuating mechanism, the vertical removal of drive mounting bracket that can be better.

Specifically, the bracket comprises a horizontal supporting plate 9 with a rectangular structural design at the lower end, the horizontal supporting plate is arranged along the longitudinal direction of the placement station, two ends of the horizontal supporting plate are respectively connected with a supporting rod 10 which is vertically upwards arranged, and a lower connecting rod 11, a middle connecting rod 12 and an upper connecting rod 13 are respectively correspondingly connected between the lower ends, the middle parts and the upper ends of the two supporting rods in pairs; the support plates are vertically and slidably matched on the two support rods in pairs and positioned between the middle connecting rod and the upper connecting rod; the vertical driving mechanism comprises a driving oil cylinder 14 which is vertically arranged, the cylinder body end of the driving oil cylinder is fixedly connected to the lower connecting rod, and the piston rod end of the driving oil cylinder upwards passes through the abdicating hole on the middle connecting rod and then is connected with the support plate.

Specifically, a plurality of fixing rods 15 with J-shaped structural design are arranged on the lower surface of the horizontal supporting plate and are used for being inserted and arranged below the supporting ground.

Specifically, the support plates are provided with vertical guide holes in pairs and are respectively in sliding fit with the two support rods in pairs.

Specifically, a longitudinal rod 16 which is arranged longitudinally and backwards is fixedly connected to the upper end position of the rear side of one bracket, a transverse rod 17 is fixedly connected to the rear end of the longitudinal rod, position sensors 18 are respectively arranged at two ends of the transverse rod, the position sensor at the far end of the transverse rod is positioned between two positioning stations, and the other position sensor is positioned at the transverse outer side of one positioning station.

In this embodiment, the mounting frame comprises two mounting bars 19 arranged transversely and longitudinally at intervals along the positioning station; the garbage compressor is arranged between the two mounting rods in a transversely sliding manner; the transverse movement control mechanism comprises a driving module 20 arranged on the two mounting rods, and the driving end of the driving module is connected with the garbage compressor and can drive the garbage compressor to transversely move on the mounting rods.

Like this, the structural design of mounting bracket is simpler, can make things convenient for rubbish compressor lateral shifting between two bracing pieces more, and the drive is accomplished to rethread drive module, the lateral position of control rubbish compressor that can be better.

Specifically, a travelling device is arranged on the garbage compressor and is in rolling and sliding fit with the two mounting rods; and then the driving end of the driving module is hinged with the compressor.

Specifically, a first wiring groove 21 is hinged to one side of the driving module, a second wiring groove 22 is hinged to the far end of the first wiring groove, the far end of the second wiring groove is hinged to the end of one of the installation sections, a first wiring space and a second wiring space are formed in the first wiring groove and the second wiring groove respectively, the first wiring space and the second wiring space are connected, and wires connected to the driving module sequentially penetrate through the first wiring space and the second wiring space.

In this embodiment, one of the brackets is spaced outside the placement station, and the spacing distance between the bracket and the placement station is greater than or equal to the lateral dimension of the driving module.

Like this, structural design is more reasonable, can reserve space for drive module.

In this embodiment, the longitudinal rail structure includes two carriage rail plates 23 disposed on the placement station and disposed at intervals in a lateral direction of the placement station, and a longitudinal direction of the carriage rail plates is disposed along a longitudinal direction of the placement station; the lower sides of the two ends of the garbage transfer box are transversely provided with guide rollers 24 in pairs, and the two groups of guide rollers longitudinally in pairs can be respectively correspondingly matched with the two carriage track plates in a rolling way; and the two side edges of the railway carriage track plate are respectively bent upwards to extend to form limit flanges 25.

Therefore, the longitudinal guide rail structure is simpler in design, on one hand, the garbage transfer box can be supported and arranged in a box shape, and on the other hand, the garbage transfer box can be conveniently guided.

In this embodiment, guide circular bars 26 are respectively arranged on the inner side surfaces of the limit flanges on the two inner sides of the two carriage track plates along the length direction.

Like this, through the design direction round bar for the rubbish transfer box is settled behind two railway carriage track boards, and the position is more accurate.

Specifically, two limit flanges on the end of the railway carriage track plate adjacent to the garbage inlet of the garbage transfer box are respectively arranged obliquely outwards to form a guide opening 27 in a horn-shaped structural design.

In conclusion, the high-level obstacle crossing transposition type vertical garbage compression station has the advantages of being reasonable in structural design, capable of reducing equipment input cost and capable of improving working efficiency better.

In addition, in the equipment structure, in order to simplify the hydraulic pipeline as much as possible, the hydraulic pipeline is as compact as possible, the hydraulic pipeline pressure loss value is as lowest as possible, and the three functions of translation of the garbage compressor, compression of the garbage compressor and overturning of the overturning hopper are corresponding to the hydraulic system, are integrated on the garbage compressor, and can move along with the press.

The foregoing describes in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the invention by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (5)

1. The high-level obstacle crossing transposition type vertical garbage compression station comprises two or more than two arranging stations which are arranged side by side on the supporting ground and used for arranging a garbage transfer box; the arrangement station is provided with a longitudinal guide rail structure and is used for being matched with the garbage transfer box so that the garbage transfer box can longitudinally move to the outside; the garbage disposal device is characterized in that a mounting frame is horizontally arranged above one end of the placement station, a garbage compressor is arranged on the mounting frame, a turnover hopper is arranged on the front side of the garbage compressor, and a hopper turnover driving mechanism is arranged between the garbage compressor and the turnover hopper and used for driving the hopper to turn upwards and be connected with a garbage inlet at the upper end of the garbage compressor; a vertical motion control mechanism is arranged between the mounting frame and the supporting ground and can drive the mounting frame to move vertically; a transverse movement control mechanism is arranged between the garbage compressor and the mounting frame, the transverse position of the garbage compressor can be controlled, and a garbage outlet at the lower end of the garbage compressor can be sequentially connected with a garbage placement opening on a garbage transfer box on the placement station;

the vertical motion control mechanism comprises brackets which are arranged at two outer sides of the placement station in pairs, a bracket plate is arranged on the brackets in a vertically sliding manner, a vertical driving mechanism is arranged on the brackets, and a vertical driving end of the vertical driving mechanism is connected with the bracket plate and can control the vertical position of the bracket plate; the mounting frame is provided with two mounting ends and is respectively mounted and fixed on two support plates arranged in pairs;

the support comprises a horizontal support plate with a rectangular structural design at the lower end, the horizontal support plate is arranged along the longitudinal direction of the placement station, the two ends of the horizontal support plate are respectively connected with support rods which are vertically upwards arranged, and the lower ends, the middle parts and the upper ends of the two support rods in pairs are respectively correspondingly connected with a lower connecting rod, a middle connecting rod and an upper connecting rod; the support plates are vertically and slidably matched on the two support rods in pairs and positioned between the middle connecting rod and the upper connecting rod; the vertical driving mechanism comprises a driving oil cylinder which is vertically arranged, the cylinder body end of the driving oil cylinder is fixedly connected to the lower connecting rod, and the piston rod end of the driving oil cylinder upwards passes through the abdication hole on the middle connecting rod and is connected with the support plate;

the lower surface of the horizontal supporting plate is provided with a plurality of fixing rods which are in J-shaped structural design and are used for being inserted and arranged below the supporting ground;

the support plates are provided with vertical guide holes in pairs and are respectively in sliding fit with the two support rods in pairs;

the mounting frame comprises two mounting rods which are transversely arranged and longitudinally arranged at intervals along the positioning station; the garbage compressor is arranged between the two mounting rods in a transversely sliding manner; the transverse movement control mechanism comprises driving modules arranged on the two mounting rods, and driving ends of the driving modules are connected with the garbage compressor and can drive the garbage compressor to transversely move on the mounting rods;

the garbage compressor is provided with a traveling device which is in rolling and sliding fit with the two mounting rods; the driving end of the driving module is hinged with the compressor;

one side of the driving module is hinged with a first wiring groove, the far end of the first wiring groove is hinged with a second wiring groove, the far end of the second wiring groove is hinged with one end of the installation section, the first wiring groove and the second wiring groove are respectively provided with a first wiring space and a second wiring space, the first wiring space and the second wiring space are connected, and a wire connected with the driving module penetrates through the first wiring space and the second wiring space in sequence.

2. The high-level obstacle-surmounting transposition type vertical garbage compression station according to claim 1, wherein: the arrangement stations are two arranged side by side.

3. The high-level obstacle-surmounting transposition type vertical garbage compression station according to claim 1, wherein: one of the brackets is arranged outside the placement station at intervals, and the interval distance between the bracket and the placement station is larger than or equal to the transverse dimension of the driving module.

4. The high-level obstacle-surmounting transposition type vertical garbage compression station according to claim 1, wherein: the longitudinal guide rail structure comprises two carriage rail plates which are arranged on the placement station and are transversely arranged at intervals along the placement station, and the length direction of the carriage rail plates is arranged along the longitudinal direction of the placement station; the lower sides of the two ends of the garbage transfer box are transversely provided with guide rollers in pairs, and the two groups of guide rollers longitudinally in pairs can be respectively correspondingly matched with the two carriage track plates in a rolling way; and the edges of the two sides of the railway carriage track plate are respectively bent upwards to form limit flanges.

5. The high-level obstacle-surmounting transposition type vertical garbage compression station according to claim 4, wherein: guide round bars are respectively arranged on the inner side surfaces of the limit flanges on the two inner sides of the two carriage track plates along the length direction of the limit flanges.