CN112663570A

CN112663570A - Automatic flow control and water conservancy dual gate capable of filtering water surface garbage

Info

Publication number: CN112663570A
Application number: CN202110078036.1A
Authority: CN
Inventors: 范南想
Original assignee: Guangzhou Tianhe Duiwukuo Trading Co ltd
Current assignee: Guangzhou Tianhe Duiwukuo Trading Co ltd
Priority date: 2021-01-20
Filing date: 2021-01-20
Publication date: 2021-04-16

Abstract

The invention discloses an automatic flow control and water conservancy double gate capable of filtering water surface garbage, which comprises a base, wherein the base is provided with an inner cavity which is communicated from front to back and has a downward opening, a main gate which slides up and down is arranged in the lower side of the inner cavity, the left and right walls of the front side of the inner cavity are respectively communicated with a cavity, one side of the cavity far away from the main gate is provided with a positioning block which slides up and down, one end of the positioning block at the left side and the right side, which are close to the main gate, is respectively fixedly connected with the left and the right ends of the main gate, and a flow control cavity which is communicated from front to back and has a downward opening is arranged in the lower side of the main gate. And save a large amount of manpower and materials.

Description

Automatic flow control and water conservancy dual gate capable of filtering water surface garbage

Technical Field

The invention relates to the related field of water conservancy gates, in particular to an automatic flow control water conservancy double gate capable of filtering water surface garbage.

Background

In order to bring convenience to domestic and production water, the water flow and the water level of a river channel need to be controlled, so that the water level adjustment and the water flow control need to be carried out on a water conservancy gate trimmed in the river channel, the trimmed water conservancy gate is a single gate, the gate needs to be lifted integrally no matter how large the water level difference exists, the lifting operation is carried out for a long time, a lifting device is easy to damage, the service life of the lifting device is shortened, meanwhile, the gate generally needs to be lifted manually according to the height of the water level, the workload of workers is increased, and a large amount of manpower and material resources are wasted.

Disclosure of Invention

In order to solve the problems, the embodiment designs an automatic flow control and water conservancy double gate capable of filtering water surface garbage, which comprises a base, an inner cavity which is communicated with the front and the back of the base and has a downward opening, a main gate which slides up and down is arranged in the lower side of the inner cavity, the left and the right walls at the front side of the inner cavity are respectively communicated with a cavity, a positioning block which slides up and down is arranged at one side of the cavity far away from the main gate, one end of the positioning block at the left and the right sides, which is close to the main gate, is respectively fixedly connected with the left and the right ends of the main gate, a flow control cavity which is communicated with the front and the back and has a downward opening is arranged in the lower side of the main gate, a sliding cavity is communicated with the upper wall of the flow control cavity, an auxiliary gate which slides up and down is arranged in the flow control cavity, the left and the right walls of the flow control cavity, the connecting block slides up and down in the limiting spring cavity, a limiting spring is connected between the upper end of the connecting block and the upper wall of the limiting spring cavity, the limiting spring plays a limiting role, the upper end of the auxiliary gate extends into the sliding cavity, the lower walls of the left side and the right side of the sliding cavity are respectively and rotatably connected with a threaded shaft, an internal threaded block which slides up and down is arranged on the threaded shaft, the internal threaded block is in threaded connection with the threaded shaft, one end of the internal threaded block on the left side and the right side, which is close to the auxiliary gate, is respectively and fixedly connected with the left end and the right end of the upper side of the auxiliary gate, the upper end of the threaded shaft is rotatably connected with the upper wall of the sliding cavity, the upper side of the threaded shaft is fixedly connected with a rotating bevel gear, the left wall and the right wall of the upper side of the sliding cavity are respectively communicated with a connecting cavity, the side, far away from the secondary gate, of the connecting port is communicated with the cavity, a guide block which slides up and down is arranged in the guide cavity, an electromagnetic spring is connected between the lower end of the guide block and the lower wall of the guide cavity, a conductive block is fixedly arranged in the lower wall of the guide cavity, the conductive block is electrically connected with the electromagnetic spring, a bevel gear shaft is rotatably connected in the guide block, one end, close to the secondary gate, of the bevel gear shaft extends into the slide cavity, one end, close to the secondary gate, of the bevel gear shaft is fixedly connected with a transmission bevel gear, the transmission bevel gear is positioned on the lower side of the transmission bevel gear and is not meshed with the transmission bevel gear, one end, far away from the secondary gate, of the bevel gear shaft extends into the cavity, one end, far away from the secondary gate, of the flow control cavity is rotatably connected with a sliding block, one end, far away from the secondary, the front end of the lower side of the main gate is fixedly connected with two water level detectors which can extend into water and detect the water level and the water pressure at the front side of the whole device, a garbage filter tank is fixedly arranged between the left wall and the right wall at the rear side of the inner cavity, a garbage filter cavity which is communicated with the front and the back is arranged in the garbage filter tank, a filter screen is fixedly connected between the upper wall and the lower wall at the rear side of the garbage filter cavity, the upper wall of the garbage filter cavity is communicated with a sliding hole with an upward opening, the upper wall at the rear side of the inner cavity is communicated with an upward opening, a sliding rack which can slide up and down is arranged in the opening, the lower end of the sliding rack is fixedly connected with a temporary storage box, the lower end of the temporary storage box passes through the sliding hole, the lower end of the temporary storage box is abutted against the lower wall of the garbage filter cavity, a temporary storage cavity with a forward opening is arranged in the temporary, the lower end of the baffle extends into the sliding hole, the front end of the upper side of the temporary storage box slides up and down at the rear end of the baffle, the rear end of the upper side of the main gate is fixedly connected with a connecting plate, the lower end of the connecting plate is fixedly connected with a sliding plate, the upper wall of the front side of the garbage filtering cavity is communicated with a connecting port with an upward opening, the sliding plate slides up and down in the connecting port, a sliding plate sleeve sliding up and down is arranged on the sliding plate, the lower end of the sliding plate sleeve abuts against the lower wall of the garbage filtering cavity, a connecting spring is connected between the upper wall of the garbage filtering cavity and the upper end of the sliding plate sleeve, the connecting spring is electrically connected with the conductive block, and when the water level detector detects that the water level at the front side of the device is higher than a first set value, the water level detector controls the conductive block to be electrified to drive the electromagnetic spring to extend upwards so, simultaneously driving the bevel gear shaft and the sliding block to slide upwards to further drive the transmission bevel gear to move upwards so as to further drive the transmission bevel gear to be meshed with the rotating bevel gear, then the bevel gear shaft rotates to drive the transmission bevel gear to rotate so as to further drive the rotating bevel gear to rotate, simultaneously the threaded shaft rotates so as to further drive the internal threaded block to slide upwards, simultaneously the auxiliary gate is driven to move upwards so as to further drive the connecting block to move upwards so as to further drive the limiting spring to compress upwards, simultaneously the flow control cavity is opened, and further the water on the front side of the auxiliary gate flows to the rear side of the auxiliary gate, so that the water level and the water flow are regulated, simultaneously the conductive block controls the connecting spring to compress upwards, further drives the sliding plate sleeve to slide upwards, and further opens the front wall of the garbage filtering cavity, at the moment, water flow enters the garbage filtering cavity and flows out to the rear side of the device through the filtering of the filter screen, and meanwhile, garbage in water is blocked in the temporary storage cavity in the garbage filtering cavity and is temporarily stored.

Beneficially, the inner cavity upper wall is communicated with a connecting belt wheel shaft cavity, a connecting belt wheel shaft is rotatably connected between the front wall and the rear wall of the connecting belt wheel shaft cavity, two linkage shaft cavities with upward openings are arranged in the upper end of the main gate, linkage shafts are rotatably connected between the front wall and the rear wall of the linkage shaft cavity, the linkage shafts and the connecting belt wheel shaft are fixedly connected with connecting belt wheels respectively, two connecting belt wheels are vertically symmetrical, connecting belts are connected between the connecting belt wheels, three reset springs are connected between the inner cavity front side upper wall and the upper end of the main gate, the reset springs play a reset role, the connecting belt wheel shaft rotates to drive the linkage shafts to rotate, and then the connecting belts are upward wound on the connecting belt wheels to drive the main gate to move upwards.

Beneficially, a motor is fixedly arranged in the rear wall of the upper side of the shaft cavity of the connecting belt wheel, the front wall of the motor is in power connection with a motor shaft, the motor shaft and the shaft of the connecting belt wheel on the left side are fixedly connected with connecting plates respectively, a connecting port is connected between the two connecting plates, synchronous belt wheels are fixedly connected on the two shaft of the connecting belt wheel respectively, a synchronous belt is connected between the two synchronous belt wheels, the upper wall of the cavity is communicated with a transmission shaft cavity, the left end and the right end of the motor are in power connection with a transmission shaft respectively, one end of the transmission shaft, far away from the motor, is rotatably connected to one side, far away from the motor, of the transmission shaft cavity, the transmission shaft and the bevel gear shaft are respectively and fixedly connected with a transmission belt, a transmission belt is connected between the two transmission belt wheels, the, at the moment, the motor is started to drive the motor shaft to rotate, so that the left side of the connecting belt wheel shaft rotates, the right side of the connecting belt wheel shaft is driven to rotate, and meanwhile, the motor drives the transmission shaft to rotate, so that the bevel gear shaft is driven to rotate.

Beneficially, a worm cavity is arranged in the upper side of the base, a worm is in power connection with the rear end of the motor, the rear end of the worm is rotatably connected to the rear wall of the worm cavity, the left wall of the worm cavity is rotatably connected with a worm wheel shaft, a worm wheel is fixedly connected to the worm wheel shaft, the upper end of the worm wheel is meshed with the lower end of the worm, and the motor is started to drive the worm to rotate, further drive the worm wheel to rotate, and further drive the worm wheel shaft to rotate.

Beneficially, the right wall of the worm cavity is communicated with a connecting belt cavity, the left wall of the rear side of the connecting belt cavity is communicated with the right wall of the opening, the right wall of the worm wheel shaft is rotatably connected to the right wall of the connecting belt cavity, the right wall of the rear side of the connecting belt cavity is rotatably connected with a rolling gear shaft, the rolling gear shaft and the worm wheel shaft are fixedly connected with connecting belt wheels respectively, a connecting belt is connected between the two connecting belt wheels, the left end of the rolling gear shaft is rotatably connected to the left wall of the rear side of the opening, the rolling gear shaft is fixedly connected with a rolling gear, the front end of the rolling gear is meshed with the rear end of the sliding rack, and at the moment, the worm wheel shaft rotates to drive the rolling gear shaft to rotate to drive the rolling gear to rotate to drive the sliding rack to move upwards or downwards.

The invention has the beneficial effects that: the invention has simple structure and convenient operation, utilizes the main and auxiliary gates to automatically adjust the water level within different set value ranges and control the water flow, does not need workers to constantly observe the change of the water level, reduces the workload of the workers, and can automatically remove garbage in water or on the water surface, thereby protecting the water resource environment and saving a large amount of manpower and material resources.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the structure in the direction A-A in FIG. 1;

FIG. 3 is a schematic view of the directional structure of B-B in FIG. 1;

FIG. 4 is an enlarged schematic view of C in FIG. 1;

FIG. 5 is an enlarged schematic view of D of FIG. 2;

fig. 6 is an enlarged schematic view of E in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an automatic flow control and water conservancy double gate capable of filtering water surface garbage, which comprises a base 11, an inner cavity 23 which is through from front to back and has a downward opening is arranged on the base 11, a main gate 25 which slides up and down is arranged in the lower side of the inner cavity 23, the left and right walls of the front side of the inner cavity 23 are respectively communicated with a cavity 12, a positioning block 45 which slides up and down is arranged on one side of the cavity 12 far away from the main gate 25, one end of the left and right positioning block 45 which is close to the main gate 25 is respectively fixedly connected with the left and right ends of the main gate 25, a flow control cavity 28 which is through from front to back and has a downward opening is arranged in the lower side of the main gate 25, the upper wall of the flow control cavity 28 is communicated with a sliding cavity 24, an auxiliary gate 33 which slides up and down is arranged in the flow control cavity 28, the left and right walls of the flow control cavity, the connecting block 29 slides up and down in the limiting spring cavity 32, the upper end of the connecting block 29 and the upper wall of the limiting spring cavity 32 are connected with a limiting spring 31, the limiting spring 31 has a limiting effect, the upper end of the auxiliary gate 33 extends into the sliding cavity 24, the lower wall of the left side and the right side of the sliding cavity 24 is respectively connected with a threaded shaft 26 in a rotating manner, an internal threaded block 27 which slides up and down is arranged on the threaded shaft 26, the internal threaded block 27 is in threaded connection with the threaded shaft 26, the left side and the right side of the internal threaded block 27 are close to one end of the auxiliary gate 33 and are respectively fixedly connected with the left end and the right end of the upper side of the auxiliary gate 33, the upper end of the threaded shaft 26 is rotatably connected with the upper wall of the sliding cavity 24, the upper side of the threaded shaft 26 is fixedly connected with a rotating bevel gear 36, the left wall and the right wall of the upper side of the sliding cavity 24 are respectively communicated with a connecting cavity 39, a connecting port 44 with a rightward opening is communicated with one side of the guide cavity 43, which is far away from the auxiliary gate 33, one side of the connecting port 44, which is far away from the auxiliary gate 33, is communicated with the cavity 12, a guide block 40 which slides up and down is arranged in the guide cavity 43, an electromagnetic spring 41 is connected between the lower end of the guide block 40 and the lower wall of the guide cavity 43, a conductive block 42 is fixedly arranged in the lower wall of the guide cavity 43, the conductive block 42 is electrically connected with the electromagnetic spring 41, a bevel gear shaft 38 is rotatably connected in the guide block 40, one end of the bevel gear shaft 38, which is close to the auxiliary gate 33, extends into the sliding cavity 24, one end of the bevel gear shaft 38, which is close to the auxiliary gate 33, is fixedly connected with a transmission bevel gear 37, the transmission bevel gear 37 is positioned at the lower side of the rotation bevel gear 36, the bevel gear shaft 38 is extended into the cavity 12 from the end far away from the secondary gate 33, the flow control chamber 28 is rotatably connected with a sliding block 48 from the end far away from the secondary gate 33, the sliding block 48 is slid up and down from the end far away from the secondary gate 33 in the cavity 12, two water level detectors 30 are fixedly connected with the front end of the lower side of the main gate 25, the water level detectors 30 can be extended into the water and detect the water level and the water pressure at the front side of the whole device, a garbage filter box 61 is fixedly arranged between the left and right walls at the rear side of the inner chamber 23, a garbage filter chamber 60 which is through from front to back is arranged in the garbage filter box 61, a filter screen 59 is fixedly connected between the upper and lower walls at the rear side of the garbage filter chamber 60, the upper wall of the garbage filter chamber 60 is communicated with a sliding hole 63 with an upward opening, and the upper wall at the rear side of the inner chamber 23 is communicated, a sliding rack 49 which slides up and down is arranged in the through hole 52, the lower end of the sliding rack 49 is fixedly connected with a temporary storage box 58, the lower end of the temporary storage box 58 passes through the sliding hole 63, the lower end of the temporary storage box 58 is abutted against the lower wall of the garbage filtering cavity 60, a temporary storage cavity 62 with a forward opening is arranged in the temporary storage box 58, the temporary storage cavity 62 is used for storing filtered garbage, the upper wall of the inner cavity 23 is fixedly connected with a baffle 57, the lower end of the baffle 57 extends into the sliding hole 63, the front end of the upper side of the temporary storage box 58 slides up and down at the rear end of the baffle 57, the rear end of the upper side of the main gate 25 is fixedly connected with a connecting plate 67, the lower end of the connecting plate 67 is fixedly connected with a sliding plate 66, the upper wall of the front side of the garbage filtering cavity 60 is communicated with a connecting port 68 with an upward opening, the sliding plate 66 slides up and down in, the lower end of the sliding plate sleeve 64 abuts against the lower wall of the garbage filtering cavity 60, a connecting spring 65 is connected between the upper wall of the garbage filtering cavity 60 and the upper end of the sliding plate sleeve 64, the connecting spring 65 is electrically connected with the conductive block 42, at this time, when the water level detector 30 detects that the water level at the front side of the device is higher than a first set value, the water level detector 30 controls the conductive block 42 to be electrified to drive the electromagnetic spring 41 to extend upwards, further drive the guide block 40 to slide upwards along the guide cavity 43, simultaneously drive the bevel gear shaft 38 and the sliding block 48 to slide upwards, further drive the transmission bevel gear 37 to move upwards, further drive the transmission bevel gear 37 to be meshed with the rotation bevel gear 36, at this time, the bevel gear shaft 38 rotates to drive the transmission bevel gear shaft 37 to rotate, further drive the rotation bevel gear 36 to rotate, simultaneously, the threaded shaft 26 is driven to rotate, the inner thread block 27 is driven to slide upwards, the auxiliary gate 33 is driven to move upwards, the connecting block 29 is driven to move upwards, the limiting spring 31 is driven to compress upwards, the current control cavity 28 is opened simultaneously, water on the front side of the auxiliary gate 33 flows to the rear side of the auxiliary gate 33, so that the water level and the water flow are adjusted, meanwhile, the conducting block 42 controls the connecting spring 65 to compress upwards, the sliding plate sleeve 64 is driven to slide upwards, the front wall of the garbage filtering cavity 60 is opened, the water flows into the garbage filtering cavity 60 and flows out of the rear side of the device through the filtering of the filtering net 59, and meanwhile, garbage in the water is blocked in the temporary storage cavity 62 in the garbage filtering cavity 60 and is stored temporarily.

Beneficially, the upper wall of the inner cavity 23 is communicated with a connecting belt wheel shaft cavity 20, a connecting belt wheel shaft 16 is rotatably connected between the front wall and the rear wall of the connecting belt wheel shaft cavity 20, two linkage shaft cavities 35 with upward openings are arranged in the upper end of the main gate 25, a linkage shaft 34 is rotatably connected between the front wall and the rear wall of each linkage shaft cavity 35, the linkage shaft 34 and the connecting belt wheel shaft 16 are fixedly connected with connecting belt wheels 15 respectively, connecting belts 22 are connected between the two vertically symmetrical connecting belt wheels 15, three return springs 13 are connected between the upper wall of the front side of the inner cavity 23 and the upper end of the main gate 25, the return springs 13 have a return effect, at the moment, the connecting belt wheel shaft 16 rotates to drive the linkage shaft 34 to rotate, and then the connecting belts 22 are wound on the connecting belt wheels 15 to the upper side to drive the main gate 25 to move upwards.

Beneficially, a motor 19 is fixedly arranged in the rear wall of the upper side of the connecting pulley shaft cavity 20, a motor shaft 69 is dynamically connected to the front wall of the motor 19, the motor shaft 69 and the left connecting pulley shaft 16 are fixedly connected with a connecting plate 67 respectively, a connecting port 68 is connected between the two connecting plate 67, a synchronous pulley 71 is fixedly connected to the two connecting pulley shafts 16 respectively, a synchronous belt 70 is connected between the two synchronous pulleys 71, a transmission shaft cavity 17 is communicated with the upper wall of the cavity 12, a transmission shaft 18 is dynamically connected to the left end and the right end of the motor 19 respectively, one end of the transmission shaft 18 far away from the motor 19 is rotatably connected to one side of the transmission shaft cavity 17 far away from the motor 19, transmission pulleys 47 are fixedly connected to the transmission shaft 18 and the bevel gear shaft 38 respectively, a transmission belt 14 is connected between the two transmission pulleys 47, and the transmission belt 14 has elasticity, the positioning block 45 is provided with an engagement hole 46 which is through up and down, the transmission belt 14 penetrates through the engagement hole 46, the motor 19 is started at this time, the motor shaft 69 is driven to rotate, the left side of the transmission belt wheel shaft 16 rotates, the right side of the transmission belt wheel shaft 16 rotates, and meanwhile the motor 19 drives the transmission shaft 18 to rotate, so that the bevel gear shaft 38 is driven to rotate.

Beneficially, a worm cavity 53 is formed in the upper side of the base 11, a worm 56 is dynamically connected to the rear end of the motor 19, the rear end of the worm 56 is rotatably connected to the rear wall of the worm cavity 53, a worm wheel shaft 55 is rotatably connected to the left wall of the worm cavity 53, a worm wheel 54 is fixedly connected to the worm wheel shaft 55, the upper end of the worm wheel 54 is meshed with the lower end of the worm 56, and at this time, the motor 19 is started to drive the worm 56 to rotate, and further, the worm wheel 54 is driven to rotate, and further, the worm wheel shaft 55 is driven to rotate.

Advantageously, the right wall of the worm cavity 53 is communicated with the connecting belt cavity 73, the left wall of the rear side of the connecting belt cavity 73 is communicated with the right wall of the through opening 52, the right wall of the worm wheel shaft 55 is rotatably connected with the right wall of the connecting belt cavity 73, the right wall of the rear side of the connecting belt cavity 73 is rotatably connected with the rolling gear shaft 51, the rolling gear shaft 51 and the worm gear shaft 55 are fixedly connected with engaging belt wheels 74 respectively, an engaging belt 72 is connected between the two engaging belt wheels 74, the left end of the rolling gear shaft 51 is rotatably connected with the left wall of the rear side of the through hole 52, the rolling gear shaft 51 is fixedly connected with a rolling gear 50, the front end of the rolling gear 50 is meshed with the rear end of the sliding rack 49, at the moment, the worm wheel shaft 55 rotates to drive the rolling gear shaft 51 to rotate, thereby driving the rolling gear 50 to rotate, and further driving the sliding rack 49 to move upward or downward.

The following will describe in detail the use steps of an automatic flow control and water conservancy double gate capable of filtering water surface garbage with reference to fig. 1 to 6:

initially, the coupling spring 65 and the electromagnetic spring 41 are in a natural state, the rotary bevel gear 36 is not engaged with the transmission bevel gear 37, the sub-gate 33 and the slide plate cover 64 are located at the lower limit position, while the main gate 25 and the temporary storage tank 58 are located at the lower limit position, and two water level set values are manually inputted into the water level detector 30 in advance, and the second set value is higher than the first set value.

When the water level detector 30 detects that the water level at the front side of the device is higher than the first set value and lower than the second set value, the water level detector 30 controls the conductive block 42 to be energized to drive the electromagnetic spring 41 to extend upwards, further drive the guide block 40 to slide upwards along the guide cavity 43, further drive the bevel gear shaft 38 and the slide block 48 to slide upwards, further drive the transmission bevel gear 37 to move upwards, further drive the transmission bevel gear 37 to be meshed with the rotating bevel gear 36, at this time, the starting motor 19 drives the transmission shaft 18 to rotate, further drive the bevel gear shaft 38 to rotate, further drive the transmission bevel gear 37 to rotate, further drive the rotating bevel gear 36 to rotate, further drive the threaded shaft 26 to rotate, further drive the inner threaded block 27 to slide upwards, further drive the auxiliary gate 33 to move upwards, further drive the connecting block 29 to move upwards, further drive the limiting spring 31 to compress upwards, and simultaneously open the, then the water flow in front of the sub-gate 33 flows to the back of the sub-gate 33 to adjust the water level and water flow, at the same time, the conductive block 42 controls the connection spring 65 to compress upward to drive the sliding plate sleeve 64 to slide upward to open the front wall of the garbage filter chamber 60, at this time, the water flow enters the garbage filter chamber 60 and flows out to the back of the device through the filtration of the filter screen 59, meanwhile, the garbage in the water is blocked in the temporary storage chamber 62 in the garbage filter chamber 60 and is temporarily stored, if the water level detector 30 detects that the water level in front of the device is higher than the second set value, at this time, the motor 19 drives the motor shaft 69 to rotate, and then the left side connection belt wheel shaft 16 rotates, and then drives the right side connection belt wheel shaft 16 to rotate, and simultaneously drives the linkage shaft 34 to rotate, and then the connection belt 22 winds on the upper side connection belt wheel 15, and simultaneously drives, the water level at the front side of the device is adjusted by controlling the lifting of the main gate 25 and the auxiliary gate 33, the auxiliary gate 33 is driven to move upwards, the sliding block 48 is driven to slide upwards, the positioning block 45 is driven to slide upwards and downwards, the reset spring 13 is driven to compress upwards, the connecting plate 67 is driven to move upwards, the sliding plate 66 is driven to move upwards, the sliding plate sleeve 64 is driven to move upwards, the front wall of the garbage filtering cavity 60 is opened, water flow is filtered, and garbage left after filtering is temporarily stored in the temporary storage cavity 62;

when the amount of garbage stored in the temporary storage cavity 62 reaches a certain amount, the motor 19 drives the worm 56 to rotate, further drives the worm wheel 54 to rotate, further drives the worm wheel shaft 55 to rotate, and simultaneously drives the rolling gear shaft 51 to rotate, further drives the rolling gear 50 to rotate, further drives the sliding rack 49 to move upwards, further reaches the temporary storage box 58 to move upwards, further drives the garbage in the temporary storage cavity 62 to move upwards, and simultaneously the front end of the temporary storage box 58 slides upwards along the rear end of the baffle 57, so that the temporary storage cavity 62 is prevented from falling into the inner cavity 23 in the upward movement process, and secondary pollution is avoided.

The above-mentioned embodiments are merely illustrative of the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the scope of the present invention.

Claims

1. The utility model provides a dual gate of water conservancy is flowed in automatic accuse that can filter surface of water rubbish, includes the base, its characterized in that: the base is provided with an inner cavity which is communicated from front to back and has a downward opening, a main gate which slides up and down is arranged in the lower side of the inner cavity, the left and right walls at the front side of the inner cavity are respectively communicated with a cavity, one side of the cavity, which is far away from the main gate, is provided with a positioning block which slides up and down, one end, which is close to the main gate, of the positioning block at the left and right sides is respectively and fixedly connected with the left and right ends of the main gate, the lower side of the main gate is provided with a flow control cavity which is communicated with a sliding cavity, the flow control cavity is internally provided with an auxiliary gate which slides up and down, the left and right walls of the flow control cavity are respectively communicated with a limiting spring cavity, the left and right ends at the lower side of the auxiliary gate are respectively and fixedly connected with a linking block, the linking block slides up and down in the limiting spring cavity, a, the upper end of the auxiliary gate extends into the sliding cavity, the lower walls of the left side and the right side of the sliding cavity are respectively and rotatably connected with a threaded shaft, an internal thread block which can slide up and down is arranged on the threaded shaft, the internal thread block is in threaded connection with the threaded shaft, one end of the internal thread block at the left side and the right side, which is close to the auxiliary gate, is respectively and fixedly connected with the left end and the right end of the upper side of the auxiliary gate, the upper end of the threaded shaft is rotatably connected with the upper wall of the sliding cavity, the upper side of the threaded shaft is fixedly connected with a rotary bevel gear, the left wall and the right wall of the upper side of the sliding cavity are respectively and communicated with a connecting cavity, one side of the connecting cavity, which is far away from the auxiliary gate, is communicated with a connecting port with a right opening, one side of the connecting port, which is far away from the auxiliary, a conductive block is fixedly arranged in the lower wall of the guide cavity, the conductive block is electrically connected with the electromagnetic spring, a bevel gear shaft is rotatably connected in the guide block, one end of the bevel gear shaft, which is close to the secondary gate, extends into the sliding cavity, one end of the bevel gear shaft, which is close to the secondary gate, is fixedly connected with a transmission bevel gear, the transmission bevel gear is positioned at the lower side of the rotation bevel gear, the transmission bevel gear is not meshed with the rotation bevel gear, one end of the bevel gear shaft, which is far away from the secondary gate, extends into the cavity, one end of the flow control cavity, which is far away from the secondary gate, is rotatably connected with a sliding block, one end of the sliding block, which is far away from the secondary gate, vertically slides on one side of the cavity, which is far away from the secondary gate, two water level detectors are fixedly connected at the front end of the lower side of, a garbage filter box is fixedly arranged between the left wall and the right wall of the rear side of the inner cavity, a garbage filter cavity which is through from front to back is arranged in the garbage filter box, a filter screen is fixedly connected between the upper wall and the lower wall of the rear side of the garbage filter cavity, the upper wall of the garbage filter cavity is communicated with a sliding hole with an upward opening, the upper wall of the rear side of the inner cavity is communicated with a through hole with an upward opening, a sliding rack which slides up and down is arranged in the through hole, the lower end of the sliding rack is fixedly connected with a temporary storage box, the lower end of the temporary storage box penetrates through the sliding hole, the lower end of the temporary storage box is abutted against the lower wall of the garbage filter cavity, a cavity with a forward opening is arranged in the temporary storage box, the temporary storage cavity is used for temporarily storing filtered garbage, a baffle is fixedly connected to the upper wall of the inner cavity, the lower end of the baffle extends into the sliding hole, the front end of the, the garbage filter comprises a garbage filter cavity, a connecting plate, a connecting spring, a connecting block and a garbage filter cavity, wherein the garbage filter cavity is provided with a garbage filter cavity bottom wall, the garbage filter cavity bottom wall is provided with a garbage filter cavity bottom wall, the garbage filter.

2. The automatic flow control and water conservancy double gate capable of filtering the water surface garbage as claimed in claim 1, wherein: the upper wall of the inner cavity is communicated with a connecting belt wheel shaft cavity, a connecting belt wheel shaft is rotatably connected between the front wall and the rear wall of the connecting belt wheel shaft cavity, two linkage shaft cavities with upward openings are arranged in the upper end of the main gate, linkage shafts are rotatably connected between the front wall and the rear wall of the linkage shaft cavity, the linkage shafts and the connecting belt wheel shaft are respectively and fixedly connected with a connecting belt wheel, the two linkage shafts are vertically symmetrical, a connecting belt is connected between the connecting belt wheels, three reset springs are connected between the upper wall of the front side of the inner cavity and the upper end of the main gate, and the reset springs play a reset role.

3. An automatic flow control and water conservancy double gate capable of filtering water surface garbage according to claim 2, characterized in that: a motor is fixedly arranged in the rear wall of the upper side of the shaft cavity of the connecting belt wheel, the front wall of the motor is in power connection with a motor shaft, the motor shaft and the left connecting pulley shaft are respectively fixedly connected with a connecting plate, a connecting port is connected between the two connecting plates, synchronous pulleys are respectively fixedly connected on the two connecting pulley shafts, a synchronous belt is connected between the two synchronous pulleys, the upper wall of the cavity is communicated with a transmission shaft cavity, the left end and the right end of the motor are respectively in power connection with a transmission shaft, one end of the transmission shaft, which is far away from the motor, is rotatably connected with one side of the transmission shaft cavity, which is far away from the motor, the transmission shaft and the bevel gear shaft are respectively fixedly connected with a transmission belt wheel, a transmission belt is connected between the two transmission belt wheels, the transmission belt is telescopic, the positioning block is provided with an engagement hole which is communicated up and down, and the transmission belt penetrates through the engagement hole.

4. An automatic flow control and water conservancy double gate capable of filtering water surface garbage according to claim 3, characterized in that: the worm gear type motor is characterized in that a worm cavity is formed in the upper side of the base, a worm is dynamically connected to the rear end of the motor, the rear end of the worm is rotatably connected to the rear wall of the worm cavity, the left wall of the worm cavity is rotatably connected with a worm gear shaft, a worm gear is fixedly connected to the worm gear shaft, and the upper end of the worm gear is meshed with the lower end of the worm.

5. An automatic flow control and water conservancy double gate capable of filtering water surface garbage according to claim 4, characterized in that: the worm cavity right wall is communicated with a linking belt cavity, the linking belt cavity rear side left wall is communicated with the opening right wall, the worm wheel shaft right wall is rotatably connected to the linking belt cavity right wall, the linking belt cavity rear side right wall is rotatably connected with a rolling gear shaft, the rolling gear shaft and the worm wheel shaft are respectively and fixedly connected with a linking belt wheel, a linking belt is connected between the two linking belt wheels, the rolling gear shaft left end is rotatably connected to the opening rear side left wall, a rolling gear is fixedly connected to the rolling gear shaft, and the rolling gear front end is meshed with the sliding rack rear end.