CN110172956B

CN110172956B - Farmland ditch is with energy-conserving automatic edulcoration device

Info

Publication number: CN110172956B
Application number: CN201910458662.6A
Authority: CN
Inventors: 仲凯
Original assignee: Zhejiang Joy Health Management Consulting Co Ltd
Current assignee: Jiaxing Lianxin Food Co.,Ltd.
Priority date: 2019-05-29
Filing date: 2019-05-29
Publication date: 2020-12-15
Anticipated expiration: 2039-05-29
Also published as: CN110172956A

Abstract

The invention provides an energy-saving automatic impurity removing device for a farmland ditch, which comprises a drainage mechanism, a splicing mechanism, a trash blocking mechanism and a fixing mechanism, wherein the splicing mechanism is fixedly connected to the bottom of the drainage mechanism, the catching mechanism is positioned in the middle of the drainage mechanism, the fixing mechanism is fixedly connected to two sides of the drainage mechanism, the drainage mechanism comprises a ditch fixing plate, a limiting plate and an inclined supporting and protecting plate, the ditch fixing plate is fixedly connected to the side surface of the inclined supporting and protecting plate, the limiting plate is fixedly arranged at the inclined surface of the inclined supporting and protecting plate, and the splicing mechanism comprises a ditch splicing plate and a sliding limiting block. Can shunt the interception to both sides through filter screen, the backward flow board that is provided with to the rubbish that contacts the filter screen, make floated rubbish get into and collect the screen frame and pile up to continuously collect rubbish through collecting the conveyer belt and lead to the garbage collection case, improved rubbish in the past and piled up the technical problem who piles up easy jam, be applicable to the field of cleaing away of farmland ditch to rubbish.

Description

Farmland ditch is with energy-conserving automatic edulcoration device

Technical Field

The invention relates to the technical field of farmland canals, in particular to a farmland canal device capable of automatically removing impurities.

Background

Irrigation between farmland ditch mainly used farmland and the nourishment of ditch both sides crops, middle-size and small-size pump station and small-size power station are the common water conservancy of rural area and water and electricity facility, it all disposes longer ditch, plant twig and domestic waste in ditch both sides are piled up in part rural area agricultural ditch agriculture, form the deposit easily for a long time and cause the jam to the ditch, lead to the ditch overflow, cause serious influence to low reaches and ditch both sides crops, and the current processing interception of piling up debris to the ditch is untimely, the emergence of time regularity is blockked up, cause rubbish along attaching beside the ditch both sides, salvage the difficulty that causes to the clearance in later stage, the ditch is all built by laying bricks or stones by the concrete simultaneously and is formed, consuming time and consuming power consumptive material.

Therefore, the invention provides an energy-saving automatic impurity removing device for a farmland ditch to solve the technical problems.

Disclosure of Invention

The invention mainly aims to provide an energy-saving automatic impurity removing device for a farmland ditch, which can divide and intercept garbage contacting with a filter screen towards two sides through the filter screen and a backflow plate, so that the floating garbage enters a collecting screen frame to be stacked, and the garbage is continuously collected and guided to a garbage recycling box through a collecting conveyor belt, thereby improving the technical problem that the conventional garbage is easy to block due to stacking.

In order to achieve the aim, the invention provides an energy-saving automatic impurity removing device for a farmland ditch, which comprises a drainage mechanism, a splicing mechanism, a trash holding mechanism and a fixing mechanism, wherein the splicing mechanism is fixedly connected to the bottom of the drainage mechanism, the trash holding mechanism is arranged in the middle of the drainage mechanism, the fixing mechanism is fixedly connected to two sides of the drainage mechanism,

the drainage mechanism comprises a water channel fixing plate, a limiting plate and an inclined supporting and protecting plate, the water channel fixing plate is fixedly connected to the side surface of the inclined supporting and protecting plate, and the limiting plate is fixedly arranged at the inclined surface of the inclined supporting and protecting plate;

the splicing mechanism comprises a water channel splicing plate and a sliding limiting block, and the sliding limiting block is fixedly connected to the side surface of the water channel splicing plate;

the trash blocking mechanism comprises a filter screen, a collecting conveyor belt and a collecting screen frame, wherein return plates are fixedly connected to the two tail ends of the filter screen, a rotating shaft and a sundry hook claw are mounted in the middle of the filter screen, a crawler belt is wound on the surface of the rotating shaft, the collecting screen frame is mounted at one side of the tail end of the filter screen, the collecting conveyor belt is arranged right in front of the collecting screen frame, a water facing belt is mounted below the collecting conveyor belt, and rotating blades are uniformly and fixedly connected to the outer surface of the water facing belt;

the fixing mechanism comprises a rotating button, a propelling plate, a reinforcing rivet and a shell, wherein the inner wall of the rotating button is fixedly connected with thread teeth, the upper end surface of the shell is fixedly connected with the thread teeth, the shell is positioned below the rotating button, the propelling plate is movably arranged in the shell, the lower side surface of the propelling plate is fixedly connected with the reinforcing rivet, and the tail end of the reinforcing rivet is fixedly connected with an anti-reverse sliding tooth;

the side-mounting of limiting plate is provided with the siphon, the siphon is including inlet, leading water pipe and outlet pipe, the leading water pipe link up the setting with the outlet pipe, the end of leading water pipe is provided with the thread groove, outlet pipe hickey has been seted up to the top of outlet pipe, outlet pipe and leading water pipe threaded connection.

Preferably, the canal splice plates are provided with a plurality of layers, the canal splice plates are isolated by sliding limiting blocks, and the canal splice plates are mutually inserted and connected by the sliding limiting blocks.

Preferably, the inclined supporting and protecting plates are inserted and connected with the water channel splicing plates, and the inclined supporting and protecting plates are symmetrically arranged and spliced with the water channel splicing plates to form an inverted trapezoid.

Preferably, the filter screen is arranged in an inverted V shape, and the filter screen is of a metal filter screen structure.

Preferably, the backflow plate is arranged in a semi-arc shape, the backflow plate is symmetrically arranged at the tail ends of the two sides of the collecting screen frame, and the arc shape of the backflow plate is arranged towards the collecting screen frame.

Preferably, the collection screen frame is provided with two, just the collection screen frame is the trapezoidal setting of falling.

Preferably, the conveying mechanism formed by the rotating shaft and the surface crawler is obliquely arranged, the sundries hook claws are uniformly arranged on the surface of the conveying mechanism, and the tail ends of the sundries hook claws are in a pointed cone shape and are integrally bent and inclined.

Preferably, the rotating blades are uniformly fixed on the surface of the water facing belt, the rotating blades are bent and inclined rightwards, and the bent inclined surfaces of the rotating blades are the water facing surface.

Preferably, the knob passes through thread tooth threaded connection with the casing to rotate, consolidate the rivet and be provided with threely, middle vertical setting, both sides for leaning out the setting, just consolidate the terminal anti-backsliding tooth of rivet and be acute angle triangle-shaped setting.

Preferably, the water diversion port is higher than the water outlet pipe, the water outlet pipe is provided with two water outlet pipes which are symmetrically arranged, and the water outlet pipe is positioned below the symmetrical middle of the water diversion pipe.

The invention provides an energy-saving automatic impurity removing device for a farmland ditch, which has the following beneficial effects:

1. according to the invention, the water-facing belt is provided with the filtering mechanism, the filtering net, the sundries hook claw and the water-facing belt, the water-facing belt can rotate water energy into mechanical energy to be supplied to the rotating shaft so as to drive the caterpillar belt on the surface, the sundries hook claw is driven to rotate after the caterpillar belt rotates, the garbage in the water body is collected and salvaged, the automatic impurity removal is realized, and meanwhile, the effects of energy conservation and environmental protection are realized.

2. Can shunt the interception to both sides through filter screen, the backward flow board that is provided with to the rubbish that contacts the filter screen, make floated rubbish get into and collect the screen frame and pile up to collect constantly rubbish through collecting the conveyer belt and lead to the garbage collection box, improved rubbish in the past and piled up the technical problem who piles up easy jam.

3. Through the backward flow board that is provided with, counterattack area and counterattack arc piece, water can carry out the water conservancy diversion when flowing through the backward flow board behind the filter screen, makes water form rivers swirl at the backward flow board, and rivers swirl can drive the counterattack arc piece and rotate simultaneously, and the counterattack arc piece is counterattack water to the back of filter screen simultaneously, and the debris that can further clearly attach to on the filter screen.

4. Through siphon, outlet pipe and the outlet pipe hickey that is provided with, can place the siphon in the ditch submarine in the aspect of placing the siphon, then carry out spacing fixed through the limiting plate of cascaded setting, adjust the siphon and be located different heights, applicable in the height of different ditch water levels, the siphon can need external electric drive with the water in the ditch simultaneously and can pour into to the farmland crop on both sides with the water in the ditch on.

5. Through the ditch splice plate that is provided with and the stopper that slides can alternate the concatenation through the stopper that slides between the ditch splice plate, reduced the ditch construction installation consuming time and consuming effort, improved work efficiency.

6. Can will consolidate rivet screw thread downstream through setting up strengthening mechanism, make and consolidate the rivet and will consolidate the rivet and impel downwards, make and consolidate the downstream that the rivet can be further to form the trident and scatter and fix in soil, can further consolidate strengthening mechanism through preventing that it is provided with to slide the tooth simultaneously, improved the stability and the security of ditch in the installation.

Drawings

FIG. 1 is a schematic view of the overall structure of an energy-saving automatic impurity removal device for a farmland ditch.

FIG. 2 is a schematic diagram of a channel splicing plate structure of the energy-saving automatic impurity removing device for a farmland channel.

FIG. 3 is a schematic view of the overall side structure of an energy-saving automatic impurity removal device for a farmland ditch.

FIG. 4 is a schematic view of a top view of a recovery mechanism of the energy-saving automatic trash removal device for a farmland ditch.

FIG. 5 is a schematic side view of a recovery mechanism of the energy-saving automatic impurity removal device for a farmland ditch.

FIG. 6 is a schematic view of a reinforced rivet structure of the energy-saving automatic impurity removal device for a farmland ditch.

FIG. 7 is a schematic view of a siphon structure of an energy-saving automatic impurity removal device for a farmland ditch.

FIG. 8 is a schematic view of a counterattack belt structure of an energy-saving automatic impurity removal device for a farmland ditch.

In FIGS. 1-8: 1-a canal fixing plate, 2-a canal splice plate, 201-a sliding limiting block, 3-a limiting plate, 4-a siphon pipe, 401-a water diversion port, 402-a water diversion pipe, 403-a water outlet pipe, 404-a water outlet pipe threaded interface, 5-an inclined supporting plate, 6-a fixing mechanism, 601-a thread tooth, 602-a rotating button, 603-a pushing plate, 604-a reinforced rivet, 605-an anti-reverse sliding tooth, 606-a shell, 7-a collecting conveyor belt, 8-a filter screen, 10-a collecting screen frame, 11-a rotating shaft, 12-a sundry hanging claw, 13-a garbage recycling box, 14-a water receiving belt, 15-a rotating blade, 16-a reverse impact belt and 1601-a reverse impact arc block.

Detailed Description

Fig. 1 to 8 are schematic exploded and perspective views of an energy-saving automatic trash remover for a farmland ditch according to an embodiment of the present invention.

The invention provides an energy-saving automatic impurity removing device for a farmland ditch, which comprises a drainage mechanism, a splicing mechanism, a trash holding mechanism and a fixing mechanism, wherein the splicing mechanism is fixedly connected to the bottom of the drainage mechanism, the trash holding mechanism is arranged in the middle of the drainage mechanism, the fixing mechanism is fixedly connected to two sides of the drainage mechanism,

the drainage mechanism comprises a canal fixing plate 1, a limiting plate 3 and an inclined supporting and protecting plate 5, wherein the canal fixing plate 1 is fixedly connected to the side surface of the inclined supporting and protecting plate 5, and the limiting plate 3 is fixedly arranged at the inclined surface of the inclined supporting and protecting plate 5;

the splicing mechanism comprises a water channel splicing plate 2 and a sliding limiting block 201, and the sliding limiting block 201 is fixedly connected to the side surface of the water channel splicing plate 2;

the trash blocking mechanism comprises a filter screen 8, a collecting conveyor belt 7 and a collecting screen frame 10, wherein return plates are fixedly connected to the two tail ends of the filter screen 8, a rotating shaft 11 and a sundries hook claw 12 are installed in the middle of the filter screen 8, a crawler belt is wound on the surface of the rotating shaft 11, the collecting screen frame 10 is installed at one side of the tail end of the filter screen 8, the collecting conveyor belt 7 is arranged right in front of the collecting screen frame 10, a water facing belt 14 is installed below the collecting conveyor belt 7, and rotating blades 15 are uniformly and fixedly connected to the outer surface of the water facing belt 14;

the fixing mechanism comprises a rotating button 602, a pushing plate 603, a reinforcing rivet 604 and a shell 606, wherein the inner wall of the rotating button 602 is fixedly connected with a thread tooth 601, the upper end surface of the shell 606 is fixedly connected with the thread tooth 601, the shell 606 is positioned below the rotating button 602, the pushing plate 603 is movably arranged inside the shell 606, the lower side surface of the pushing plate 603 is fixedly connected with the reinforcing rivet 604, and the tail end of the reinforcing rivet 604 is fixedly connected with an anti-reverse sliding tooth 605;

the siphon 4 is arranged on the side face of the limiting plate 3, the siphon 4 comprises a water inlet 401, a water conduit 402 and a water outlet pipe 403, the water conduit 402 is communicated with the water outlet pipe 403, a thread groove is formed in the tail end of the water conduit 402, a water outlet pipe thread connector 404 is formed above the water outlet pipe 403, and the water outlet pipe 403 is in thread connection with the water conduit 402.

Preferably, the ditch splice plate 2 is provided with the multilayer, keeps apart through slip stopper 201 between the ditch splice plate 2, and accessible slip stopper 201 interlude each other between the ditch splice plate 2 and connect, can realize the quick installation of ditch and lay through splicing each other between the ditch splice plate 2, has shortened in the past and has utilized the consuming time and the power consumption problem of concrete construction, has improved work efficiency.

Preferably, the slope is propped up backplate 5 and is alternated with ditch splice plate 2 and be connected, and the slope is propped up backplate 5 and is symmetrical setting and form down trapezoidally after splicing with ditch splice plate 2, and the ditch of trapezium structure can increase the stability of ditch.

Preferably, the filter screen 8 is arranged in an inverted V shape, and the filter screen 8 is a metal filter screen structure. The garbage can be divided into two parts, so that the garbage can be conveniently dredged, and the blockage of a water channel caused by the fact that all the garbage is stocked together is prevented.

Preferably, the backward flow board is the setting of half arc, and the backward flow board is the symmetry and sets up in the both sides terminal department of collecting screen frame 10, and the arc of backward flow board sets up towards collecting screen frame 10, can be with rivers formation backward flow swirl on the backward flow board when continuing to flow to the backward flow board through the rivers that pass filter screen 8, drive counterattack area 16 and counterattack arc 1601 further rotate on counterattack water to filter screen 8 through the backward flow swirl, wash away the rubbish according to on the filter screen 8, prevent that rubbish from depending on filter screen 8 and blockking up.

Preferably, the number of the collecting screen frames 10 is two, and the collecting screen frames 10 are arranged in an inverted trapezoid, so that the contact surface of the filtering screen frame 10 to the garbage can be increased.

Preferably, the rotating shaft 11 and the conveying mechanism formed by the surface crawler are obliquely arranged, the sundries hooking claws 12 are uniformly arranged on the surface of the conveying mechanism, the tail ends of the sundries hooking claws 12 are in a taper shape, and the whole body is in a bent and oblique shape, so that the garbage on the collecting screen frame 10 can be recovered.

Preferably, the rotating blades 15 are uniformly fixed on the surface of the water-facing band 14, the rotating blades 15 are bent and inclined to the right, the bent inclined plane is a water-facing surface, the water-facing surface of the rotating blades 15 is in facing connection with the water flow, and then the kinetic energy of the water flow is converted into mechanical energy to drive the rotating shaft 11 to rotate.

Preferably, rotating button 602 and casing 606 and passing through thread tooth 601 threaded connection, consolidating rivet 604 and being provided with threely, middle vertical setting, the setting that leans out of both sides, and consolidating the terminal anti-falling smooth tooth of rivet 604 and being acute triangle-shaped sets up, can carry out quick fixed to ditch fixed plate 1, can improve the stability of ditch fixed plate 1 simultaneously.

Preferably, the water inlet 401 is higher than the water outlet pipe 403, the two water outlet pipes 403 are symmetrically arranged, the water outlet pipe 403 is located below the middle of the symmetry of the water conduit 402, water in an external water pool can be sucked into the water channel for supplying, external power driving equipment is not needed to input water into the water channel, and the energy-saving effect is achieved.

The working principle and the practical method of the energy-saving automatic impurity removing device for the farmland ditch are as follows:

firstly, a canal fixing plate 1 and an inclined supporting protection plate 5 are placed in a canal, then canal splicing plates 2 are connected in an inserting mode, the canal splicing plates 2 can be reinforced and have the function of preventing water leakage through a set sliding limiting block 201, then a reinforcing rivet 604 is inserted into the middle of the side face of the canal fixing plate 1 to reinforce the canal splicing plates, the screw pushes a rotating button 602 to enable screw teeth 601 on the rotating button 602 to be in threaded connection with screw threads on a shell 606, the rotating button 602 pushes a pushing plate 603 to move downwards, the reinforcing rivet 604 is inserted into soil in a three-fork mode, meanwhile, the anti-backward sliding prevention function can be further achieved through a set anti-backward sliding prevention tooth 605, then, a siphon 4 is placed on a limiting plate 3 on the inclined supporting protection plate 5, the height of the siphon 4 is adjusted through the limiting plate 3, and then the siphon 4 is connected into a water guide pipe 402 through a threaded connector 404 on a water outlet pipe 403, the water inlet 401 is placed in an external water pool, water in the external water pool is sucked into a water channel with lower liquid level through the pressure difference of a water column and enters the water guide pipe 402 through the water inlet 401, and finally siphoned water is rushed out of the water outlet pipe 403; the water in the canal is faced to the bending direction of the rotating blades 15 on the water facing belt 14 after the filtering mechanism is placed, kinetic energy is converted into mechanical energy by utilizing the impact force of water flow to enable the water facing belt 14 to rotate, then the rotating shaft 11 is driven to rotate, the sundries hanging claw 12 is driven to rotate after the rotating shaft 11 rotates, garbage in the collecting net frame 10 can be continuously sent into the garbage recycling box 13, the garbage in the canal can be divided into two parts by the arranged filtering net 8, the garbage can not be completely accumulated together, the separated garbage enters the collecting net frame 10, the water flow passes through the filtering net 8 and then flows on the backflow plate, the water flow is refluxed by the backflow plate to form a vortex, then the backstroke belt 16 is further driven by the rotating vortex, so that the backstroke arc 1601 on the backstroke belt 16 is driven to rotate and scour the garbage attached on the filtering net 8, preventing the garbage from being accumulated.

Claims

1. The utility model provides a farmland ditch is with energy-conserving automatic edulcoration device, includes drainage mechanism, concatenation mechanism, trash holding mechanism and fixed establishment, concatenation mechanism fixed connection is in drainage mechanism's bottom, drainage mechanism's intermediate position is equipped with trash holding mechanism, fixed establishment fixed connection is in drainage mechanism's both sides, its characterized in that:

the drainage mechanism comprises a canal fixing plate (1), a limiting plate (3) and an inclined supporting and protecting plate (5), the canal fixing plate (1) is fixedly connected to the side surface of the inclined supporting and protecting plate (5), and the limiting plate (3) is fixedly arranged on the inclined surface of the inclined supporting and protecting plate (5);

the splicing mechanism comprises a water channel splicing plate (2) and a sliding limiting block (201), and the sliding limiting block (201) is fixedly connected to the side face of the water channel splicing plate (2);

the trash blocking mechanism comprises a filter screen (8), a collecting conveyor belt (7) and a collecting screen frame (10), wherein return plates are fixedly connected to the two tail end positions of the filter screen (8), a rotating shaft (11) and a sundries hook claw (12) are installed in the middle of the filter screen (8), a crawler belt is wound on the surface of the rotating shaft (11), the collecting screen frame (10) is installed at one side of the tail end of the filter screen (8), the collecting conveyor belt (7) is arranged right in front of the collecting screen frame (10), a water facing belt (14) is installed below the collecting conveyor belt (7), and rotating blades (15) are uniformly and fixedly connected to the outer surface of the water facing belt (14);

the fixing mechanism comprises a rotating button (602), a pushing plate (603), a reinforcing rivet (604) and a shell (606), wherein the inner wall of the rotating button (602) is fixedly connected with thread teeth (601), the upper end surface of the shell (606) is fixedly connected with the thread teeth (601), the shell (606) is positioned below the rotating button (602), the pushing plate (603) is movably arranged inside the shell (606), the lower side surface of the pushing plate (603) is fixedly connected with the reinforcing rivet (604), and the tail end of the reinforcing rivet (604) is fixedly connected with an anti-reverse-sliding tooth (605);

the side-mounting of limiting plate (3) is provided with siphon (4), siphon (4) are including inlet (401), leading water pipe (402) and outlet pipe (403), leading water pipe (402) link up the setting with outlet pipe (403), the end of leading water pipe (402) is provided with the thread groove, outlet pipe hickey (404) have been seted up to the top of outlet pipe (403), outlet pipe (403) and leading water pipe (402) threaded connection.

2. The energy-saving automatic impurity removing device for the farmland water channels as claimed in claim 1, wherein the water channel splice plates (2) are provided with a plurality of layers, the water channel splice plates (2) are separated by sliding limit blocks (201), and the water channel splice plates (2) are mutually connected in an inserting manner through the sliding limit blocks (201).

3. The automatic energy-saving impurity removing device for the farmland ditch according to claim 1, wherein the inclined supporting and protecting plates (5) are inserted and connected with the ditch splicing plates (2), and the inclined supporting and protecting plates (5) are symmetrically arranged and form an inverted trapezoid after being spliced with the ditch splicing plates (2).

4. The energy-saving automatic impurity removing device for the farmland ditch according to claim 1, wherein the filter screen (8) is arranged in an inverted V shape, and the filter screen (8) is of a metal filter screen structure.

5. The energy-saving automatic impurity removing device for the farmland ditch according to claim 1, wherein the reflux plate is arranged in a semi-arc shape, the reflux plate is symmetrically arranged at the two side ends of the collecting net frame (10), and the arc shape of the reflux plate is arranged towards the collecting net frame (10).

6. The automatic energy-saving impurity removing device for the farmland ditch according to claim 1, wherein the number of the collecting net frames (10) is two, and the collecting net frames (10) are arranged in an inverted trapezoid shape.

7. The energy-saving automatic impurity removing device for the farmland ditch according to claim 1, wherein the conveying mechanism formed by the rotating shaft (11) and the surface crawler belt is obliquely arranged, the sundries hook claw (12) is uniformly arranged on the surface of the conveying mechanism, and the tail end of the sundries hook claw (12) is in a taper shape and is integrally in a bent oblique shape.

8. The automatic energy-saving impurity removing device for the farmland ditch according to claim 1, wherein the rotating blades (15) are uniformly fixed on the surface of the water facing belt (14), and the rotating blades (15) are bent and inclined to the right, and the bent and inclined surface is the water facing surface.

9. The automatic energy-saving impurity removing device for the farmland ditch as claimed in claim 1, wherein the rotating button (602) is in threaded connection with the shell (606) through a thread tooth (601), the number of the reinforcing rivets (604) is three, the middle of the reinforcing rivets (604) is vertically arranged, the two sides of the reinforcing rivets (604) are obliquely arranged outwards, and the anti-backward-sliding teeth at the tail ends of the reinforcing rivets (604) are arranged in an acute triangle.

10. The energy-saving automatic impurity removing device for the farmland ditch according to claim 1, wherein the water inlet (401) is higher than the water outlet pipe (403), two water outlet pipes (403) are symmetrically arranged, and the water outlet pipes (403) are positioned at the lower position in the middle of the symmetry of the water inlet pipe (402).