Municipal administration pipeline pressure linkage monomer intelligence accuse discharge system
Technical Field
The invention belongs to the field of pollution discharge, and particularly relates to a municipal pipeline pressure linkage monomer intelligent control pollution discharge system.
Background
The large waste collection station is arranged behind the mobile toilet, and one waste collection station is managed by a plurality of mobile toilets, and the waste collection station has large occupied area and poor controllability, so that the applicant hopes to apply the pump station with a single-body structure on the mobile toilet. This electrically controlled structure has the following problems: 1. the toilet bowl is filled with media such as toilet paper, paper scraps and the like, which can influence the toilet bowl probe; 2. when the medium in the closestool foams, the medium can be attached to the inner wall of the closestool, so that the work of the probe is influenced; 3. the electronic components are easily desensitized when the device is in a humid environment for a long time.
Disclosure of Invention
In order to make up the defects of the prior art, the invention provides a technical scheme of a municipal pipeline pressure linkage monomer intelligent control sewage system.
The municipal pipeline pressure linkage single intelligent control sewage discharge system is characterized by comprising a first shell with openings at the front end and the rear end, a nozzle valve, a sliding block and a guide block are sequentially arranged in the first shell from front to back, the nozzle valve is fixedly matched with the first shell, the sliding block is matched with the first shell in a sliding way, the guide block is fixedly matched with the first shell, a guide post which is in sliding insertion fit with the guide block is arranged at the rear end of the sliding block, a first flow passage which is communicated with the front and the rear is formed in the sliding block, the front end of the first flow passage can block the nozzle valve, a tension spring is arranged between the sliding block and the guide block, an inner cavity of the first shell is sequentially divided into a first cavity, a second cavity, a third cavity and a fourth cavity by the nozzle valve, the sliding block and the guide block, a second flow passage, a third flow passage, a fourth flow passage, a fifth flow passage and a sixth flow passage are formed in the first shell, the second flow passage and the third flow passage correspond to the second cavity, the flow passage is larger than the flow passage opening of the second flow passage, the fourth flow channel is used for communicating the first cavity and the second cavity, the slide block can block a rear end opening of the fourth flow channel, the fifth flow channel is positioned at the rear end of the fourth flow channel, a seventh flow channel for communicating the fourth flow channel and the fifth flow channel is arranged on the slide block, and the sixth flow channel corresponds to the third cavity; the second flow passage is connected with a gas storage device through a pipeline, the gas storage device is respectively connected with a second shell and a sewage storage container through pipelines, a first valve port, a first valve core, a first diaphragm and a first spring are sequentially arranged in the second shell from front to back, the first valve core is used for plugging the first valve port, the first valve core is fixedly matched with the first diaphragm, the first spring is arranged between the first diaphragm and the inner wall of the rear end of the second shell, the first valve port and the first diaphragm divide the inner cavity of the second shell into a fifth cavity, a sixth cavity and a seventh cavity from front to back, the fifth cavity is connected with a gas storage device which is provided with compressed air by an air compressor through a pipeline, the sixth cavity is connected with the sixth flow passage through a pipeline, and the seventh cavity is connected with the gas storage device through a pipeline; the third flow passage and the fifth flow passage are respectively connected with a sewage storage container through pipelines; the first cavity is connected with the gas storage device through a pipeline; the sewage storage container is provided with a liquid level port connected with the gas storage device and a first sewage discharge port for discharging sewage, and the first sewage discharge port of the sewage storage container is connected with the check valve through a pipeline; the air storage device is connected with a first valve through a pipeline, the first valve is respectively connected with a water outlet device controlled by a delay switch, a water inlet of the closestool and a pneumatic valve through pipelines, and the pneumatic valve is respectively connected with a second sewage outlet of the closestool and a sewage inlet of the sewage storage container through pipelines.
The municipal pipeline pressure linkage single intelligent control sewage system is characterized in that a first valve comprises a third shell, the third shell is sequentially provided with a first opening, a second diaphragm, a sliding matching port, a second valve port and a second opening from top to bottom, an inner cavity of the third shell is sequentially divided into an eighth cavity, a ninth cavity, a tenth cavity and an eleventh cavity by the second diaphragm, the sliding matching port and the second valve port from top to bottom, the third shell is provided with a third opening and a fourth opening, the third opening corresponds to the eighth cavity, the third opening is connected with a water inlet of a closestool through a pipeline, the fourth opening corresponds to the tenth cavity, the fourth opening is connected with a gas storage device through a pipeline, the second diaphragm is fixedly connected with a valve rod, the valve rod is in sliding fit with the sliding matching port, the lower end of the valve rod is provided with a second valve core for blocking the second valve port, the second valve core is positioned in the eleventh cavity, an eighth flow channel for communicating the ninth cavity and the tenth cavity is arranged on the third shell.
A sewage disposal system is controlled to municipal administration pipeline pressure linkage monomer intelligence, set up the pipe on its characterized in that third casing, the eighth runner is formed by the pipe.
A sewage disposal system is controlled to municipal administration pipeline pressure linkage monomer intelligence, fixed coordination baffle on its characterized in that valve rod, the baffle is located the ninth cavity for keep off with the sliding fit mouth and connect, the second spring is established to the cover on the valve rod, the both ends of second spring are connected with baffle and second diaphragm respectively.
A sewage disposal system is controlled to municipal administration pipeline pressure linkage monomer intelligence, including the fixed part around its characterized in that nozzle valve, first pipe portion and second pipe portion, the fixed part is the cyclic annular flange structure of fixed joint in first casing, first pipe portion and second pipe portion are flexible structure, first pipe portion and second pipe portion have the first passageway and the second passageway of intercommunication respectively, two passageways are the wedge structure, and the minimum department of the circulation mouth of two passageways links together, the shutoff mouth that corresponds with first pipe portion and second pipe portion shape is seted up to the front end of first runner, when the slider slides forward to the maximum position, first pipe portion and second pipe portion embedding shutoff mouth, the shutoff mouth makes first pipe portion and second pipe portion shape deformation, and then make the second passageway close.
A sewage disposal system is controlled to municipal administration pipeline pressure linkage monomer intelligence, its characterized in that shutoff mouth include with the wedge portion that first pipe portion shape corresponds and with the leveling portion that second pipe portion shape corresponds.
A sewage disposal system is controlled to municipal administration pipeline pressure linkage monomer intelligence, set up the first exhaust hole that corresponds with seventh cavity on its characterized in that second casing.
A sewage disposal system is controlled to municipal administration pipeline pressure linkage monomer intelligence, set up the second exhaust hole that corresponds with the third cavity on its characterized in that first casing.
The municipal pipeline pressure linkage monomer intelligent control sewage discharge system is characterized in that a pneumatic valve is a pneumatic diaphragm valve.
Compared with the prior art, the invention controls the discharge of the sewage storage container through the mechanical structure without the aid of an electronic probe, solves the problem that the electronic probe in the prior art is easy to lose efficacy, and has better quality and longer service life.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is an enlarged view of FIG. 1 at A;
FIG. 3 is a schematic view of the nozzle valve of the present invention in an open state;
FIG. 4 is a schematic view of the nozzle valve of the present invention in a closed configuration;
FIG. 5 is an enlarged view of FIG. 1 at B;
fig. 6 is an enlarged view of fig. 5 at C.
In the figure: the device comprises a first shell 1, a nozzle valve 2, a fixing part 200, a first pipe part 201, a second pipe part 202, a first channel 203, a second channel 204, a slide block 3, a guide block 4, a guide column 5, a first flow passage 6, a tension spring 7, a first cavity 8, a second cavity 9, a third cavity 10, a fourth cavity 11, a second flow passage 12, a third flow passage 13, a fourth flow passage 14, a fifth flow passage 15, a sixth flow passage 16, a seventh flow passage 17, an air storage device 18, a second shell 19, a sewage storage container 20, a first valve port 21, a first valve core 22, a first diaphragm 23, a first spring 24, a fifth cavity 25, a sixth cavity 26, a seventh cavity 27, an air storage device 28, a liquid level port 29, a first sewage discharge port 30, a check valve 31, a water outlet device 32, a toilet 33, a water inlet 34, an air operated valves 35, a second sewage discharge port 36, a sewage inlet 37, a third shell 38, a first opening 39, a second opening 40, a second diaphragm 40, The valve comprises a sliding fit port 41, a second valve port 42, a second opening 43, an eighth cavity 44, a ninth cavity 45, a tenth cavity 46, an eleventh cavity 47, a third opening 48, a fourth opening 49, a valve rod 50, a second valve core 51, a conduit 52, a baffle 53, a second spring 54, a blocking port 55, a first exhaust hole 56 and a second exhaust hole 57.
Detailed Description
The invention will be further explained with reference to the drawings.
As shown in the figure, the municipal pipeline pressure linkage single intelligent control sewage system comprises a first shell 1 with openings at the front end and the rear end, a nozzle valve 2, a sliding block 3 and a guide block 4 are sequentially arranged in the first shell 1 from front to back, the nozzle valve 2 is fixedly matched with the first shell 1, the sliding block 3 is in sliding fit with the first shell 1, the guide block 4 is fixedly matched with the first shell 1, a sliding hole is formed in the guide block 4, a guide post 5 in sliding fit with the sliding hole of the guide block 4 is arranged at the rear end of the sliding block 3, a first flow channel 6 which is through from front to back is formed in the sliding block 3, the nozzle valve 2 can be plugged at the front end of the first flow channel 6, a tension spring 7 is connected and arranged between the sliding block 3 and the guide block 4, the inner cavity of the first shell 1 is sequentially divided into a first cavity 8, a second cavity 9, a third cavity 10 and a fourth cavity 11 by the nozzle valve 2, the sliding block 3 and the guide block 4, a second flow channel 12, a third cavity 12 and a fourth cavity 11 are formed in the first shell 1, The second flow channel 12 and the third flow channel 13 are communicated with the second cavity 9, a flow channel opening of the third flow channel 13 is larger than a flow channel opening of the second flow channel 12, the fourth flow channel 14 is used for communicating the first cavity 8 with the second cavity 9, the slider 3 can block a rear end opening of the fourth flow channel 14, the fifth flow channel 15 is located at the rear end of the fourth flow channel 14, a seventh flow channel 17 used for communicating the fourth flow channel 14 with the fifth flow channel 15 is arranged on the slider 3, the sixth flow channel 16 is communicated with the third cavity 10, and the sixth flow channel 16 is formed by a cannula fixed on the wall of the first shell 1; the second flow channel 12 is connected with an air storage device 18 through a pipeline, the air storage device 18 is a known technology, and is specifically an elastic air bag, the air storage device 18 is respectively connected with a second shell 19 and a dirt storage container 20 through a pipeline, a first valve port 21, a first valve core 22, a first diaphragm 23 and a first spring 24 are sequentially arranged in the second shell 19 from front to back, the first valve core 22 is used for blocking the first valve port 21, the first valve core 22 is fixedly matched with the first diaphragm 23, the first spring 24 is arranged between the first diaphragm 23 and the rear end inner wall of the second shell 19, the first valve port 21 and the first diaphragm 23 divide an inner cavity of the second shell 19 into a fifth cavity 25, a sixth cavity 26 and a seventh cavity 27 from front to back, the fifth cavity 25 is connected with an air storage device 28 for providing compressed air by an air compressor through a pipeline, wherein the air storage device 28 is specifically an air storage tank, and when the pressure of the air storage tank is lower than a set value, the air compressor provides compressed air for the air storage tank, the sixth cavity 26 is connected with the sixth flow channel 16 through a pipeline, and the seventh cavity 27 is connected with the air storage device 18 through a pipeline; the third flow passage 13 and the fifth flow passage 15 are respectively connected with the upper end of the sewage storage container 20 through pipelines; the first cavity 8 is connected with a gas storage device 28 through a pipeline; the sewage storage container 20 is provided with a liquid level port 29 used for being connected with the gas storage device 18 and a first sewage discharge port 30 used for discharging sewage, the liquid level port 29 is positioned at the middle upper part of the sewage storage container 20, the first sewage discharge port 30 is positioned at the bottom of the sewage storage container 20, the first sewage discharge port 30 of the sewage storage container 20 is connected with a check valve 31 through a pipeline, and the check valve 31 and the first flow channel 6 are externally connected with a sewage discharge pipeline; the air storage device 28 is connected with a first valve through a pipeline, the first valve is respectively connected with a water outlet device 32 controlled by a delay switch, a water inlet 34 of the closestool 33 and a pneumatic valve 35 through pipelines, and the pneumatic valve 35 is respectively connected with a second sewage outlet 36 of the closestool 33 and a sewage inlet 37 of the sewage storage container 20 through pipelines.
As the optimized structure of the invention: the first valve comprises a third shell 38, the third shell 38 is provided with a first opening 39, a second diaphragm 40, a sliding matching opening 41, a second valve port 42 and a second opening 43 in sequence from top to bottom, the inner cavity of the third shell 38 is divided into an eighth cavity 44, a ninth cavity 45, a tenth cavity 46 and an eleventh cavity 47 by the second diaphragm 40, the sliding matching opening 41 and the second valve port 42 in sequence from top to bottom, the third shell 38 is provided with a third opening 48 and a fourth opening 49, the third opening 48 corresponds to the eighth cavity 44, the third opening 48 is connected with the water inlet 34 of the closestool 33 through a pipeline, the fourth opening 49 is communicated with the tenth cavity 46, the fourth opening 49 is connected with the air storage device 28 through a pipeline, the second diaphragm 40 is fixedly connected with a valve rod 50, the valve rod 50 is in sliding matching with the sliding matching opening 41, the lower end of the valve rod 50 is provided with a second valve core 51 for blocking the second valve port 42, and the second valve core 51 is positioned in the eleventh cavity 47, an eighth flow passage for communicating the ninth chamber 45 and the tenth chamber 46 is provided in the third housing 38.
As the optimized structure of the invention: a conduit 52 is provided in the third housing 38 and an eighth flow passage is defined by the conduit 52.
As the optimized structure of the invention: the valve rod 50 is fixedly matched with a baffle plate 53, the baffle plate 53 is positioned in the ninth cavity 45 and is used for being blocked and connected with the sliding matching port 41, the valve rod 50 is sleeved with a second spring 54, and two ends of the second spring 54 are respectively connected with the baffle plate 53 and the second diaphragm 40.
As the optimized structure of the invention: the nozzle valve 2 comprises a fixing portion 200, a first pipe portion 201 and a second pipe portion 202 in the front and back, the fixing portion 200 is of an annular flange structure fixedly clamped in the first shell 1, the first pipe portion 201 and the second pipe portion 202 are of flexible structures, the first pipe portion 201 and the second pipe portion 202 are respectively provided with a first channel 203 and a second channel 204 which are communicated, the two channels are of wedge-shaped structures, the minimum positions of flow openings of the two channels are connected together, the front end of the first flow channel 6 is provided with a blocking opening 55 corresponding to the shapes of the first pipe portion 201 and the second pipe portion 202, when the sliding block 3 slides forwards to the maximum position, the first pipe portion 201 and the second pipe portion 202 are embedded into the blocking opening 55, and the blocking opening 55 enables the shapes of the first pipe portion 201 and the second pipe portion 202 to be deformed, so that the second channel 204 is closed. The nozzle valve 2 is a well-known technique.
As the optimized structure of the invention: the block 55 comprises a wedge shaped portion corresponding to the shape of the first pipe section 201 and a flat portion corresponding to the shape of the second pipe section 202.
As the optimized structure of the invention: the second casing 19 is provided with a first exhaust hole 56 corresponding to the seventh cavity 27.
As the optimized structure of the invention: the first casing 1 is provided with a second exhaust hole 57 corresponding to the third cavity 10.
As the optimized structure of the invention: the pneumatic valve 35 is a pneumatic diaphragm valve.
The working process is as follows: when the time delay switch is pressed, water is discharged from the water outlet device 32, the water enters the eighth cavity 44 of the third shell 38 through the first opening 39, then enters the toilet 33 through the third opening 48 and the water inlet 34, the water entering the eighth cavity 44 simultaneously presses the second diaphragm 40, the second diaphragm 40 drives the valve rod 50 and the second valve core 51 to move downwards, the second valve core 51 no longer blocks the second valve port 42, the air storage device 28 outputs compressed air, the compressed air enters the air-operated valve 35 through the fourth opening 49, the tenth cavity 46, the second valve port 42, the eleventh cavity 47 and the second opening 43 in sequence, the air-operated valve 35 is opened, meanwhile, the air storage device 28 inputs compressed air into the inner cavity of the first shell 1, the compressed air forms negative pressure in the second cavity 9, the air is sucked from the sewage storage container 20 through the second flow passage 12, the third flow passage 13 and corresponding pipelines, and the waste water in the toilet 33 is sucked into the sewage storage container 20, wherein the radial flow of the third flow channel 13 is much greater than that of the second flow channel 12, so that mainly when the third flow channel 13 plays a role of suction, when the waste in the waste storage container 20 approaches the liquid level port 29, the second flow channel 12 can no longer suck air from the waste storage container 20, the second flow channel 12 transfers to suck air from the seventh cavity 27 of the second housing 19, so as to cause the first diaphragm 23 to move backwards, the first diaphragm 23 drives the first valve core 22 to move backwards, so as not to block the first valve port 21, the compressed air output by the air storage device 28 can enter the sixth cavity 26 of the second housing 19, the compressed air enters the sixth flow channel 16 of the first housing 1 from the sixth cavity 26, so that the air pressure of the third housing 10 is increased, the slider 3 moves forwards and blocks the third flow channel 13, and simultaneously the blocking port 55 of the slider 3 blocks the nozzle valve 2, so that the seventh flow channel 17 is respectively communicated with the fourth flow channel 14 and the fifth flow channel 15, the compressed air output by the air storage device 28 enters the dirt storage container 20 through the first cavity 8, the fourth flow channel 14, the seventh flow channel 17 and the fifth flow channel 15, so that the waste in the dirt storage container 20 is discharged from the first drain outlet 30.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.