CN112593620A - Garbage collection and treatment device for drainage channel - Google Patents

Abstract

The invention relates to the technical field of municipal drainage, in particular to a garbage collection and treatment device for a drainage channel, which comprises: the arc-shaped grid plate and the arc-shaped leakage plate are arranged at the top end of the inner part of the drainage channel side by side and are adjacent to each other in the same axial direction along the water flow direction, grid bars in the same axial direction with the arc-shaped leakage plate are uniformly distributed on the arc-shaped grid plate, the inner arch of the arc-shaped grid plate is vertically downward, and the inner arch of the arc-shaped leakage plate is vertically upward; the device comprises a synchronous driving assembly and a multi-channel collecting assembly, wherein the synchronous driving assembly and the multi-channel collecting assembly are horizontally arranged at two ends of an arc-shaped grid plate and an arc-shaped drain plate respectively; the feeding roller is coaxially and rotatably arranged on the arc-shaped bushing plate, one end of the feeding roller is synchronously connected with the output end of the synchronous driving assembly in a transmission manner, the other end of the feeding roller is communicated with the multi-channel collecting assembly, and the outer circumferential surface of the feeding roller is coaxially provided with a one-way thread sheet; the collecting well, the opening is buried underground in drainage canal one side upwards, just subassembly discharge end and collecting well intercommunication are collected to the multichannel, and the device cost is low, and the installation is simple.

Description

Garbage collection and treatment device for drainage channel

Technical Field

The invention relates to the technical field of municipal drainage, in particular to a garbage collection and treatment device for a drainage channel.

Background

Can set up the drainage channel in order to prevent weather such as torrential rain in the road both sides, the existence of drainage channel can effectively must prevent road ponding, can prevent promptly that the road from because ponding causes pedestrian's the inconvenient problem that causes the damage of going on a journey and car by water soaking in the rainy season.

The drainage channel in road both sides can generally cover the lid that the one deck prevented that the people from dropping, but these lids can't be with the less rubbish separation of some volumes to in these rubbish entered into the drainage channel, can cause the problem that the drainage channel blockked up in the long term, thereby lead to unable timely drainage, and caused road ponding, in addition when clearing up drainage channel rubbish, need take up these lids one by one, clear up again, very loaded down with trivial details, and consuming time power moreover.

Chinese patent CN201920918685.6 discloses a drainage canal, including drainage canal and cover drainage canal upper end open-ended filter screen, be provided with the garbage collection box that slides along its length direction in the drainage canal, garbage collection box's bottom surface with the filter screen is laminated mutually, garbage collection box follows drainage canal length direction both sides are provided with the feed inlet, be provided with the drive in the drainage canal garbage collection box reciprocating motion's drive arrangement.

This drainage canal motor sets up in the ditch, blocks easily under the great condition of rainfall and influences drainage effect, and rubbish forms the jam easily between transfer gear and conveyer belt.

Disclosure of Invention

In order to solve the technical problem, the garbage collection and treatment device for the drainage channel is provided, and the problem of garbage collection and treatment of the drainage channel is solved by the technical scheme.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

a refuse collection and disposal device for a drain, comprising: the drainage channel comprises an arc-shaped grid plate and an arc-shaped leakage plate, wherein the arc-shaped grid plate and the arc-shaped leakage plate are arranged side by side and are adjacent to each other in the same axial direction and are arranged at the top end of the inner part of the drainage channel along the water flow direction, grid bars which are in the same axial direction as the arc-shaped leakage plate are uniformly distributed on the arc-shaped grid plate, the gap between the adjacent grid bars is smaller than the water inlet gap of the drainage grate, the inner arch of the arc-shaped grid plate is vertically downward, the inner arch of the arc-shaped leakage; the device comprises a synchronous driving assembly and a multi-channel collecting assembly, wherein the synchronous driving assembly and the multi-channel collecting assembly are horizontally arranged at two ends of an arc-shaped grid plate and an arc-shaped drain plate respectively; the feeding roller is coaxially and rotatably arranged on the arc-shaped bushing plate, one end of the feeding roller is synchronously connected with the output end of the synchronous driving assembly in a transmission manner, the other end of the feeding roller is communicated with the multi-channel collecting assembly, a one-way thread sheet is coaxially arranged on the outer circumferential surface of the feeding roller, and the outer side of the one-way thread sheet is in sliding fit with the inner circumference of the arc-shaped bushing plate; the collecting well is buried in one side of the drainage channel with the opening of the collecting well facing upwards, and the discharge end of the multi-channel collecting assembly is communicated with the collecting well.

Preferably, also include the coupling assembling, the coupling assembling includes: the arc-shaped grid plate and the two sides of the arc-shaped bushing plate are respectively provided with a first dovetail groove and a second dovetail groove along the axial direction, and the first dovetail grooves are fixedly connected with each other in the same axial direction through the embedded rods; the embedded rods are placed on two sides of the top end of the drainage channel, and a third dovetail groove fixedly connected with the second dovetail groove through the embedded rods is arranged at the bottom end of the embedded plate; the support rod is coaxially arranged at the inner arch of the arc-shaped grid plate, and the support is fixedly connected with the support rod and suspended between the butt straps on the two sides.

Preferably, the synchronous drive assembly comprises: the first sealing box is arranged at one end of the arc-shaped grid plate and one end of the arc-shaped leakage plate, and the axis of one end of the feeding roller horizontally penetrates through the first sealing box and is arranged in the first sealing box; one end of each adjacent feeding roller is in synchronous transmission connection through the synchronous belt transmission mechanism; the servo motor is arranged in the first sealing box, and an output shaft of the servo motor is coaxially and fixedly connected with one end of a feeding roller.

Preferably, the multi-channel collection assembly comprises: the second sealing box is arranged at the other end of the arc-shaped bushing plate and the other end of the synchronous driving assembly, the axis of one end of the feeding roller horizontally penetrates through one side of the second sealing box and is in rotating fit with the other side of the second sealing box, and the penetrating side of the second sealing box is provided with a first feeding hole which is coaxial with the feeding roller and is larger than the outer diameter of the one-way thread piece; the collecting channel is arranged at the bottom end of the second sealing box and communicated with the inside of the second sealing box, a first inclined plane inclining towards one side is arranged at the bottom end of the inside of the collecting channel, and a discharging barrel communicated with the collecting well is arranged on the inclined side of the first inclined plane.

Preferably, the collecting well comprises: the collecting barrel is provided with a second feeding hole communicated with the output end of the multi-channel collecting assembly, an opening of the collecting barrel is upwards and slidably arranged in the collecting well, and one side of the collecting barrel is provided with a second feeding hole; the top cover is horizontally placed at the top end of the collecting barrel.

Preferably, the top end of the first sealing box is provided with a second inclined plane for guiding rainwater and garbage to fall into the arc-shaped grid plate and the arc-shaped leakage plate.

Preferably, the top end of the second sealing box is also provided with a third inclined plane for guiding rainwater and garbage to fall into the arc-shaped grid plate and the arc-shaped leakage plate.

Preferably, the first inclined plane is further uniformly provided with pore channels which are vertically communicated with the bottom end in the drainage channel.

Preferably, the top end of the collecting bucket is also provided with a lifting handle which is convenient to lift the collecting bucket from the collecting well.

Preferably, the manual brake comprises: the limiting rails are vertically arranged inside the collecting barrel and are positioned on two sides of the second feed port; the gate plate is vertically and slidably arranged on the limiting track and is positioned outside the second feed port, and an internal thread fixing lug with a vertical axis is arranged outside the gate plate; the threaded rod is vertically and rotatably arranged on the inner side of the collecting barrel through the axis of the rotating seat and is screwed with the internal thread fixing lug in a coaxial thread manner; the rotary table is coaxially and fixedly arranged at the top end of the threaded rod.

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

the device can effectively separate rainwater and garbage through the arc-shaped grid plate and the arc-shaped leakage plate, and garbage collection is guided into the collection well through the feeding roller, so that garbage can be conveniently and intensively treated, the garbage can be prevented from blocking a drainage channel, specifically, in rainy days, rainwater scours the ground to flow to the drainage channel, so that larger garbage is blocked at the top of the drainage channel by the drainage grate, smaller garbage passes through the drainage grate and falls on the arc-shaped grid plate and the arc-shaped leakage plate, the inner arch of the arc-shaped leakage plate is vertically upward due to the fact that the inner arch of the arc-shaped grid plate is vertically downward, grid bars in the same axial direction with the arc-shaped leakage plate are uniformly distributed on the arc-shaped grid plate, gaps between the adjacent grid bars are smaller than a water inlet gap of the drainage grate, so that rainwater passes through the arc-shaped grid plate and the arc-shaped leakage plate and falls into the drainage; starting a servo motor, so that an output shaft of the servo motor drives a feeding roller to coaxially rotate in the arc-shaped leakage plate through a synchronous belt transmission mechanism, and the one-way thread pieces coaxially rotate and push smaller garbage in the arc-shaped leakage plate to the other end, so that the garbage falls into a second sealing box; the garbage falls into the collecting barrel under the action of gravity and the guiding action of the third inclined surface, and the residual rainwater falls into the drainage channel again through the pore channel; when the garbage in the collecting barrel needs to be treated and the second feeding hole needs to be opened and closed, the rotating disc is coaxially rotated, thereby driving the threaded rod to coaxially rotate on the rotating seat, the internal thread fixing lug is screwed with the coaxial thread of the threaded rod, the flashboard is arranged on the limiting track in a sliding way, thereby the flashboard is lifted along the vertical direction relative to the collecting barrel, the second feed port is convenient to open and close, thereby being convenient for guiding the garbage to be discharged into the collecting bucket and preventing the garbage inside the collecting bucket from overflowing after the collecting bucket is lifted, and then the collecting bucket is lifted relative to the collecting well by the lifting handle, thereby the garbage in the collecting barrel is taken out and treated by manpower, thereby avoiding the need of lifting the drainage grates one by one for retreatment when cleaning the drainage channel, thereby improved work efficiency, compared with the prior art, this device installation is convenient, need not carry out the large tracts of land change to former drainage canal, and can adapt to the drainage canal of installing different width and length.

Drawings

FIGS. 1 and 2 are perspective views of the present invention from two different perspectives, respectively;

FIG. 3 is a top view of the present invention;

FIG. 4 is a cross-sectional view at section A-A of FIG. 3;

FIG. 5 is a cross-sectional view at section B-B of FIG. 3;

FIG. 6 is a perspective cross-sectional view at section A-A of FIG. 3;

FIG. 7 is an enlarged view of a portion of FIG. 5 at C;

FIG. 8 is a cross-sectional view at section D-D of FIG. 4;

FIG. 9 is an elevation view of a collection well of the present invention;

fig. 10 is a sectional view at section E-E of fig. 9.

The reference numbers in the figures are:

1-an arc grid plate; 1 a-grid; 1 b-a first dovetail slot;

2-arc-shaped bushing plates; 2 a-a second dovetail groove;

3-a synchronous drive assembly; 3 a-a first sealed cartridge; 3a1 — second slope; 3 b-a synchronous belt transmission mechanism; 3 c-a servo motor;

4-a multichannel collection assembly; 4 a-a second sealed box; 4a1 — first feed port; 4a 2-third ramp; 4 b-a collection channel; 4b1 — first ramp; 4b 2-discharge cylinder; 4b 3-tunnel;

5-a feeding roller; 5 a-unidirectional thread sheet;

6-collecting well; 6 a-a collection bucket; 6a 1-second feed inlet; 6a 2-carrying handle; 6 b-a manual brake; 6b 1-limit track; 6b2 — shutter; 6b 3-internal screw thread fixing lug; 6b 4-threaded rod; 6b 5-rotating seat; 6b 6-rotating disk; 6 c-a top cover;

7-a connecting assembly; 7 a-a slug; 7 b-a butt strap; 7b 1-third dovetail groove; 7 c-a support bar; 7 d-scaffold.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 6, a refuse collection and disposal device for a drain includes:

the drainage channel comprises an arc-shaped grid plate 1 and an arc-shaped leakage plate 2, wherein the arc-shaped grid plate 1 and the arc-shaped leakage plate 2 are arranged side by side and are adjacent to each other in the same axial direction and are arranged at the top end of the inner part of the drainage channel along the water flow direction, grid bars 1a which are coaxial with the arc-shaped leakage plate 2 are uniformly distributed on the arc-shaped grid plate 1, the gap between the adjacent grid bars 1a is smaller than the water inlet gap of the drainage grate, the inner arch of the arc-shaped grid plate 1 is vertically downward, the inner arch of the arc-shaped leakage plate 2 is vertically upward, and;

the device comprises a synchronous driving component 3 and a multi-channel collecting component 4, wherein the synchronous driving component 3 and the multi-channel collecting component 4 are respectively horizontally arranged at two ends of an arc-shaped grid plate 1 and an arc-shaped leakage plate 2;

the feeding roller 5 is coaxially and rotatably arranged on the arc-shaped bushing 2, one end of the feeding roller 5 is synchronously connected with the output end of the synchronous driving component 3 in a transmission manner, the other end of the feeding roller is communicated with the multi-channel collecting component 4, a one-way thread piece 5a is coaxially arranged on the outer circumferential surface of the feeding roller 5, and the outer side of the one-way thread piece 5a is in sliding fit with the inner circumference of the arc-shaped bushing 2;

the collecting well 6, the opening of the collecting well 6 is buried in one side of the drainage channel upwards, and the discharge end of the multi-channel collecting component 4 is communicated with the collecting well 6.

In rainy days, rainwater scours the ground and flows to the drainage channel, so that larger garbage is blocked at the top of the drainage channel by the drainage grate, smaller garbage passes through the drainage grate and falls on the arc-shaped grid plate 1 and the arc-shaped leakage plate 2, the arc-shaped leakage plate 2 is arched vertically upwards because the inner arch of the arc-shaped grid plate 1 is arched vertically downwards, grid bars 1a which are coaxial with the arc-shaped leakage plate 2 are uniformly distributed on the arc-shaped grid plate 1, the gap between the adjacent grid bars 1a is smaller than the water inlet gap of the drainage grate, so that rainwater passes through the arc-shaped grid plate 1 and the arc-shaped leakage plate 2 and falls into the drainage channel, smaller garbage is concentrated at the top end of the grid bars 1a and falls into the arc-shaped leakage plate 2, the synchronous driving assembly 3 is started, the output end of the synchronous driving assembly drives the feeding roller 5 to coaxially rotate in the arc-shaped leakage plate 2, the one-way thread piece 5a coaxially rotates and pushes the smaller garbage in the arc-, even gather subassembly 4 with many passageways and concentrate rubbish and collect and guide and fall into collecting well 6 to take out rubbish from collecting well 6 by the manual work and handle, thereby need artifically one by one when having avoided clearing up the drainage canal to lift the retreatment with the drainage comb, thereby improved work efficiency, and it is convenient to install, need not change by a large scale to former drainage canal.

As shown in fig. 5 and 7, the device further includes a connecting assembly 7, where the connecting assembly 7 includes:

the embedded rod 7a, the arc-shaped grid plate 1 and the arc-shaped bushing plate 2 are respectively provided with a first dovetail groove 1b and a second dovetail groove 2a along the axial direction at two sides, and the first dovetail grooves 1b and 1c0 are coaxially and fixedly connected through the embedded rod 7 a;

the embedded rods 7a are placed on two sides of the top end of the drainage channel, and the bottom end of the embedded rod 7b is provided with a third dovetail groove 7b1 fixedly connected with the second dovetail groove 2a through the embedded rod 7 a;

the support rod 7c and the support 7d, the support rod 7c is arranged at the inner arch of the arc-shaped grid plate 1 in the same axial direction, and the support 7d is fixedly connected with the support rod 7c and is suspended between the butt straps 7b on the two sides.

The arc-shaped grid plates 1 and the arc-shaped drain plates 2 can be arranged in the drainage channel through the connecting assemblies 7, the first dovetail grooves 1b and 1c0 are fixedly connected through the embedded rods 7a, thereby facilitating the adjustment and installation of different numbers of arc grid plates 1 and arc drain plates 2 according to the width of the canal, the strap 7b is fixedly connected with the second dovetail groove 2a through a third dovetail groove 7b1 and an embedded rod 7a, so that the inner side of the opposite butt strap 7b is not easy to accumulate garbage, thereby being convenient for installing and disassembling the arc-shaped grid plate 1 and the arc-shaped leakage plate 2, the supporting rod 7c is abutted against the inner arch of the arc-shaped grid plate 1 and is fixedly connected with the butt strap 7b through the supporting rod 7c, thereby make arc grid tray 1 and arc bushing 2 interconnect back more stable to be convenient for can bear certain pressure, prevent that water pressure too big from leading to the loose of arc grid tray 1 and arc bushing 2 to drop.

As shown in fig. 8, the synchronous drive unit 3 includes:

the first sealing box 3a is arranged at one end of the arc-shaped grid plate 1 and one end of the arc-shaped leakage plate 2, and the axis of one end of the feed roller 5 horizontally penetrates through the first sealing box 3a and is arranged in the first sealing box 3 a;

one end of each of the adjacent feeding rollers 5 is in synchronous transmission connection through the synchronous belt transmission mechanism 3 b;

the servo motor 3c is arranged in the first sealing box 3a, and an output shaft of the servo motor 3c is coaxially and fixedly connected with one end of a feeding roller 5.

First seal box 3a is used for seal installation synchronous belt drive mechanism 3b and servo motor 3c, starts synchronous belt drive mechanism 3b, makes its output shaft drive 5 coaxial rotations of a feed roll, and connects through synchronous belt drive mechanism 3b synchronous drive between the adjacent feed roll 5, thereby makes 5 synchronous rotations of a plurality of feed rolls, thereby be convenient for push rubbish on the arc bushing 2 to the other end, thereby be convenient for collect rubbish, prevent rubbish jam drainage canal.

As shown in fig. 4 and 8, the multi-channel collection assembly 4 includes:

the second sealing box 4a is arranged at the other end of the arc-shaped bushing 2 and the synchronous driving assembly 3, the axis of one end of the feeding roller 5 horizontally penetrates through one side of the second sealing box 4a and is in rotating fit with the other side of the second sealing box 4a, and a first feeding hole 4a1 which is coaxial with the feeding roller 5 and is larger than the outer diameter of the one-way thread piece 5a is arranged at the penetrating side of the second sealing box 4 a;

and the collecting channel 4b is arranged at the bottom end of the second sealing box 4a and is communicated with the inside of the second sealing box, the bottom end of the inside of the collecting channel 4b is provided with a first inclined surface 4b1 inclined towards one side, and the inclined side of the first inclined surface is provided with a discharging barrel 4b2 communicated with the collecting well 6.

The second sealing box 4a is used for rotatably mounting the feeding roller 5 and fixedly mounting the collecting channel 4b, when the garbage is pushed into the second sealing box 4a through the first feeding hole 4a1 by the rotating feeding roller 5, the garbage falls into the collecting channel 4b under the action of gravity, and the first inclined surface 4b1 is relatively inclined, so that the garbage falls into the collecting well 6 through the discharging barrel 4b2, thereby being convenient for collecting and processing.

As shown in fig. 10, the collecting well 6 includes:

the collecting barrel 6a is arranged in the collecting well 6 in a sliding mode with the opening facing upwards, and a second feeding hole 6a1 communicated with the output end of the multi-channel collecting assembly 4 is formed in one side of the collecting barrel 6 a;

the manual brake 6b is vertically and slidably arranged in the collecting barrel 6a and is positioned at the top of the second feeding hole 6a1;

a top cover 6c, wherein the top cover 6c is horizontally placed at the top end of the collecting barrel 6 a.

So that the manual gate 6b relatively opens the second feeding hole 6a1, the collecting bin 6a is slidably disposed in the collecting well 6, so that the multi-channel collecting assembly 4 collects the garbage and drops the garbage into the collecting bin 6a through the second feeding hole 6a1, the top cover 6c is disposed at the top end of the collecting bin 6a for preventing rainwater from directly entering the collecting bin 6a, and when the garbage needs to be treated, the collecting bin 6a is lifted relative to the collecting well 6, thereby facilitating the treatment.

As shown in fig. 8, the top end of the first seal box 3a is provided with a second slope 3a1 for guiding rainwater and garbage to fall into the arc-shaped grid plate 1 and the arc-shaped drain plate 2.

Make first seal box 3a top set up second inclined plane 3a1 to rainwater and rubbish that are located synchronous drive assembly 3 top guide effect whereabouts in second inclined plane 3a1 in arc grid plate 1 and arc bushing 2, thereby prevent that rubbish from piling up on synchronous drive assembly 3 top, and can not influence the drainage effect of drainage canal.

As shown in fig. 8, the top end of the second sealing box 4a is further provided with a third inclined surface 4a2 for guiding rainwater and garbage to fall into the arc-shaped grid plate 1 and the arc-shaped leakage plate 2.

Make second seal box 4a top set up third inclined plane 4a2 to rainwater and rubbish that are located multichannel collection assembly 4 top fall in arc grid tray 1 and arc bushing 2 under the guide effect of third inclined plane 4a2, from preventing that rubbish from piling up on multichannel collection assembly 4 top, and can not influence the drainage effect of drain.

As shown in FIG. 8, the first inclined surface 4b1 is further provided with a plurality of openings 4b3 which are vertically communicated with the bottom end of the interior of the drainage channel.

So that the garbage collected in the second sealing box 4a is once more drained through the passage 4b3 while being guided by the first slope 4b1, thereby preventing rainwater from flowing into the collecting well 6.

As shown in fig. 10, the top end of the collection barrel 6a is also provided with a lifting handle 6a2 for facilitating its lifting from the collection well 6.

The lifting of the bin 6a from the shaft 6 by the operator is facilitated by the handle 6a2, thereby facilitating disposal of the waste in the bin 6 a.

As shown in fig. 10, the manual brake 6b includes:

the limiting rails 6b1 are vertically arranged inside the collecting barrel 6a and positioned at two sides of the second feeding hole 6a1;

the gate plate 6b2 is vertically and slidably arranged on the limiting rail 6b1 and located outside the second feeding hole 6a1, and an internal thread fixing lug 6b3 with a vertical axis is arranged outside the gate plate 6b 2;

the threaded rod 6b4 and the rotating seat 6b5, the threaded rod 6b4 is vertically and rotatably arranged on the inner side of the collecting barrel 6a through the axis of the rotating seat 6b5, and the threaded rod 6b4 is coaxially screwed with the internal thread fixing lug 6b 3;

a rotating disk 6b6, wherein the rotating disk 6b6 is coaxially and fixedly arranged at the top end of the threaded rod 6b 4.

When the second feeding hole 6a1 needs to be opened and closed, the rotary disc 6b6 is coaxially rotated, so that the rotary disc drives the threaded rod 6b4 to coaxially rotate on the rotary seat 6b5, the internal thread fixing lug 6b3 is coaxially screwed with the threaded rod 6b4, and the shutter 6b2 is slidably arranged on the limiting track 6b1, so that the shutter 6b2 is lifted and lowered along the vertical direction relative to the collecting barrel 6a, so that the second feeding hole 6a1 is conveniently opened and closed, garbage is conveniently guided to be discharged into the collecting barrel 6a, and the garbage in the collecting barrel 6a can be prevented from overflowing after the collecting barrel 6a is lifted.

The working principle of the invention is as follows:

the device realizes the functions of the invention through the following steps, thereby solving the technical problems provided by the invention:

in a rainy day, rainwater scours the ground and flows to a drainage channel, so that larger garbage is blocked at the top of the drainage channel by a drainage grate, smaller garbage passes through the drainage grate and falls on an arc-shaped grid plate 1 and an arc-shaped leakage plate 2, the arc-shaped leakage plate 2 is arched vertically upwards because the inner arch of the arc-shaped grid plate 1 is arched vertically downwards, grid bars 1a which are coaxial with the arc-shaped leakage plate 2 are uniformly distributed on the arc-shaped grid plate 1, and the gap between the adjacent grid bars 1a is smaller than the water inlet gap of the drainage grate, so that the rainwater passes through the arc-shaped grid plate 1 and the arc-shaped leakage plate 2 and falls into the drainage channel, and the smaller garbage is concentrated at the top ends of the grid bars 1a and falls into the arc;

step two, starting a servo motor 3c, enabling an output shaft of the servo motor to drive a feeding roller 5 to coaxially rotate in the arc-shaped bushing plate 2 through a synchronous belt transmission mechanism 3b, so that a one-way thread piece 5a coaxially rotates, smaller garbage in the arc-shaped bushing plate 2 is pushed to the other end, and the garbage falls into a second sealing box 4 a;

thirdly, the garbage falls into the collecting barrel 6a under the action of gravity and the guiding action of the third inclined surface 4a2, and the residual rainwater falls into the drainage channel again through the pore passage 4b 3;

step four, when the garbage in the collecting barrel 6a needs to be treated, when the second feeding hole 6a1 needs to be opened and closed, the rotary disc 6b6 is coaxially rotated, so that the threaded rod 6b4 is driven to coaxially rotate on the rotary seat 6b5, the internal thread fixing lug 6b3 is coaxially screwed with the threaded rod 6b4, and the flashboard 6b2 is slidably arranged on the limiting track 6b1, so that the flashboard 6b2 is lifted in the vertical direction relative to the collecting barrel 6a, so that the second feeding hole 6a1 is conveniently opened and closed, the garbage is conveniently guided into the collecting barrel 6a, the garbage in the collecting barrel 6a can be conveniently prevented from overflowing after the collecting barrel 6a is lifted, the collecting barrel 6a is lifted relative to the collecting well 6 by the lifting handle 6a2, the garbage in the collecting barrel 6a is manually taken out for treatment, the situation that the drainage channel needs to be lifted one by one to be treated is avoided, and the work efficiency is improved, and the installation is convenient, and the original drainage channel is not required to be changed in a large area.

The foregoing has described the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a refuse collection processing apparatus for drainage channel which characterized in that, including:

the drainage channel comprises an arc-shaped grid plate (1) and an arc-shaped leakage plate (2), wherein the arc-shaped grid plate (1) and the arc-shaped leakage plate (2) are arranged side by side and are adjacent to each other in the same axial direction and are arranged at the top end of the inner part of the drainage channel along the water flow direction, grid bars (1 a) which are coaxial with the arc-shaped leakage plate (2) are uniformly distributed on the arc-shaped grid plate (1), the gap between the adjacent grid bars (1 a) is smaller than the water inlet gap of the drainage grate, the inner arch of the arc-shaped grid plate (1) is vertically downward, the inner arch of the arc-shaped leakage plate (2) is vertically upward, and the adjacent sides of the arc;

the device comprises a synchronous driving assembly (3) and a multi-channel collecting assembly (4), wherein the synchronous driving assembly (3) and the multi-channel collecting assembly (4) are respectively horizontally arranged at two ends of an arc-shaped grid plate (1) and an arc-shaped drain plate (2);

the feeding roller (5) is coaxially and rotatably arranged on the arc-shaped leakage plate (2), one end of the feeding roller (5) is synchronously connected with the output end of the synchronous driving component (3) in a transmission manner, the other end of the feeding roller is communicated with the multi-channel collecting component (4), a one-way thread piece (5 a) is coaxially arranged on the outer circumferential surface of the feeding roller (5), and the outer side of the one-way thread piece (5 a) is in sliding fit with the inner circumference of the arc-shaped leakage plate (2);

the collecting well (6), the opening of collecting well (6) is buried underground at one side of the drainage channel upwards, and the discharge end of the multi-channel collecting assembly (4) is communicated with the collecting well (6).

2. A refuse collection and disposal device for drain canals according to claim 1, further comprising a connection assembly (7), wherein said connection assembly (7) comprises:

the arc-shaped grid plate (1) and the arc-shaped bushing plate (2) are respectively provided with a first dovetail groove (1 b) and a second dovetail groove (2 a) along the axial direction at two sides of the embedded rod (7 a), and the first dovetail grooves (1 b) and 1c0 are fixedly connected with each other in the same axial direction through the embedded rod (7 a);

the embedded rods (7 a) are placed on two sides of the top end of the drainage channel, and the bottom end of the embedded rod (7 b) is provided with a third dovetail groove (7 b 1) fixedly connected with the second dovetail groove (2 a) through the embedded rod (7 a);

the supporting rod (7 c) and the support (7 d) are coaxially arranged at the inner arch of the arc-shaped grid plate (1), and the support (7 d) is fixedly connected with the supporting rod (7 c) and is suspended between the butt straps (7 b) on the two sides.

3. A refuse collection and disposal device for drains according to claim 1, wherein the synchronous drive assembly (3) comprises:

the first sealing box (3 a) is arranged at one end of the arc-shaped grid plate (1) and one end of the arc-shaped leakage plate (2), and the axis of one end of the feeding roller (5) horizontally penetrates through the first sealing box (3 a) and is arranged in the first sealing box;

one end of each adjacent feeding roller (5) is in synchronous transmission connection through the synchronous belt transmission mechanism (3 b);

the servo motor (3 c) is arranged in the first sealing box (3 a), and an output shaft of the servo motor (3 c) is coaxially and fixedly connected with one end of a feeding roller (5).

4. A refuse collection and disposal device for drains according to claim 1, wherein the multi-channel collection module (4) comprises:

the second sealing box (4 a) is arranged at the other end of the arc-shaped bushing plate (2) and the synchronous driving assembly (3), the axis of one end of the feeding roller (5) horizontally penetrates through one side of the second sealing box (4 a) and is in rotating fit with the other side of the second sealing box, and a first feeding hole (4 a 1) which is coaxial with the feeding roller (5) and is larger than the outer diameter of the one-way thread piece (5 a) is formed in the penetrating side of the second sealing box (4 a);

the collecting channel (4 b) is arranged at the bottom end of the second sealing box (4 a) and is communicated with the inside of the second sealing box, a first inclined plane (4 b 1) inclining towards one side is arranged at the bottom end of the inside of the collecting channel (4 b), and a discharge barrel (4 b 2) communicated with the collecting well (6) is arranged on the inclined side of the first inclined plane.

5. A refuse collection and disposal device for drains according to claim 1, characterized in that the collection well (6) comprises:

the collecting barrel (6 a) is provided with an opening upwards and is arranged in the collecting well (6) in a sliding manner, and one side of the collecting barrel (6 a) is provided with a second feeding hole (6 a 1) communicated with the output end of the multi-channel collecting assembly (4);

the manual brake (6 b) is vertically and slidably arranged in the collecting barrel (6 a) and is positioned at the top of the second feeding hole (6 a 1);

a top cover (6 c), wherein the top cover (6 c) is horizontally placed at the top end of the collecting barrel (6 a).

6. A refuse collecting and disposing device for a drain according to claim 3, wherein the top end of the first sealing box (3 a) is provided with a second slope (3 a 1) for guiding rainwater and refuse to fall into the arc-shaped grid plate (1) and the arc-shaped nozzle plate (2).

7. A refuse collection and disposal device for drainage canals according to claim 4, wherein the top end of the second seal box (4 a) is further provided with a third slope (4 a 2) for guiding rainwater and refuse to fall into the arc-shaped grid plate (1) and the arc-shaped drain plate (2).

8. A refuse collection and disposal device for water drainage canals according to claim 4, wherein the first inclined surface (4 b 1) is further provided with a plurality of openings (4 b 3) which are vertically communicated with the bottom end of the interior of the water drainage canal.

9. A refuse collection and disposal device for drain canals according to claim 5, wherein the top end of the collection vessel (6 a) is further provided with a lifting handle (6 a 2) for facilitating its lifting from the collection well (6).

10. A refuse collection and disposal device for drain canals according to claim 5, characterized in that the hand brake (6 b) comprises:

the limiting rail (6 b 1), the limiting rail (6 b 1) is vertically arranged inside the collecting barrel (6 a) and is positioned at two sides of the second feeding hole (6 a 1);

the gate plate (6 b 2), the gate plate (6 b 2) is vertically arranged on the limiting rail (6 b 1) in a sliding mode and located on the outer side of the second feeding hole (6 a 1), and an internal thread fixing lug (6 b 3) with a vertical axis is arranged on the outer side of the gate plate (6 b 2);

the collecting barrel is characterized by comprising a threaded rod (6 b 4) and a rotating seat (6 b 5), wherein the threaded rod (6 b 4) is vertically and rotatably arranged on the inner side of the collecting barrel (6 a) through the axis of the rotating seat (6 b 5), and the threaded rod (6 b 4) is coaxially screwed with the internal thread fixing lug (6 b 3);

a rotating disc (6 b 6), and the rotating disc (6 b 6) is coaxially and fixedly arranged at the top end of the threaded rod (6 b 4).

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