CN114797274A - Domestic sewage purification device - Google Patents

Abstract

The invention relates to a purification device, in particular to a domestic sewage purification device. The invention provides a domestic sewage purification device with a filtering mechanism convenient to replace. The utility model provides a domestic sewage purification device, is connected with on the first mount and just imitates the filtration jar etc. including first mount and just imitate filtration jar. Through pulling first fixture block left, first fixture block no longer blocks first sloping block, under the effect that torque spring resets for the baffle drives filtering mechanism through first spacing ring and rotates forward, and the staff can take off filtering mechanism at this moment and change the operation to the inside part of filtering mechanism, can let the staff change different filtering component according to the condition of difference with this, makes this purifier's suitability strong.

Description

Domestic sewage purification device

Technical Field

The invention relates to a purification device, in particular to a domestic sewage purification device.

Background

Water is the source of life, can produce a large amount of sewage in people's daily life, and for resources are saved, people can carry out purification treatment to sewage to people carry out recycle to sewage, and when purifying sewage at present, people will use purifier to carry out purification treatment to sewage usually.

According to patent grant publication No. CN 214270518U's a domestic sewage purification device, which comprises a bracket, support and work box fixed connection, the top intercommunication of work box has the water inlet, the bottom and the delivery port intercommunication of work box, the bottom and the outlet pipe intercommunication of delivery port, the right flank of work box is provided with the motor board, be provided with the motor on the motor board, the output and the first supporting shaft fixed connection of motor, the right flank intercommunication of work box has the liquid medicine pipe, the other end and the stirring roller fixed connection of first supporting shaft.

Although above-mentioned patent can be come to filter sewage with the filter screen, filters the solid impurity of aquatic, plays the effect of purifying sewage, but above-mentioned patent can not change the filter screen for above-mentioned patent can not be with the solid impurity clean up on the filter screen, thereby the filter screen uses the back for a long time, can be blockked up by solid impurity on the filter screen, makes the filter effect of filter screen descend, can seriously influence the normal clear of purification work like this.

In order to solve the problems in the prior art, a domestic sewage purification device with a filtering mechanism convenient to replace is needed, so that the filtering mechanism can be conveniently replaced.

Disclosure of Invention

In order to overcome the inconvenient shortcoming of changing filtering mechanism of present purifier, the technical problem that solves: provides a domestic sewage purification device which is convenient for replacing a filtering mechanism.

The technical scheme is as follows: a domestic sewage purification device comprises:

the first fixing frame is connected with a primary filter tank;

the high-efficiency filter tank is connected to the first fixing frame;

the water inlet pipe is connected to the bottom of the primary filter tank;

the water outlet pipe is connected between the right side of the water inlet pipe and the bottom of the high-efficiency filter tank;

the exhaust pipe is connected to the right side of the top of the primary filter tank and is used for exhausting gas in the primary filter tank;

a discharge pipe connected to a right side of the exhaust pipe;

the liquid outlet pipe is connected between the right upper side of the discharge pipe and the high-efficiency filter tank;

it is characterized by also comprising:

the electric valves are arranged on the water inlet pipe and the liquid outlet pipe, the upper side and the lower side of the discharge pipe and the left side and the right side of the drain pipe, and the electric valves are convenient for workers to control the circulation of water;

an exhaust valve installed on the exhaust pipe for controlling the circulation of gas;

the replacing mechanism is arranged on the primary filter tank and the high-efficiency filter tank;

the filter mechanism is arranged on the replacing mechanism, and the filter mechanism on the replacing mechanism is taken out and replaced by opening the replacing mechanism, so that the filter mechanism is replaced;

the backflushing mechanism is arranged on the left side of the first fixing frame and can flush the filtered dirt.

Further, the replacement mechanism includes:

the connecting shaft seat is connected to the front side of the primary filter tank and the right front side of the efficient filter tank;

the baffle plate is rotatably connected to the two connecting shaft seats and is used for covering the primary filter tank and the high-efficiency filter tank;

the torsion springs are connected between the two partition plates and the adjacent connecting shaft seats and are used for driving the partition plates to rotate forwards and reset;

a first swash block, left sides of the two partition plates;

the two first clamping blocks are respectively connected with the adjacent first inclined blocks in a clamping manner and used for clamping the first inclined blocks;

the first connecting springs are connected between the left first clamping block and the primary filter tank and between the right first clamping block and the efficient filter tank;

the first limiting ring is connected to the rear sides of the two partition plates;

the second spacing ring, it connects in just imitating the inside upside that filters jar and high efficiency filter jar, and the second spacing ring is located the upside of first spacing ring.

Further, the filtering mechanism comprises:

the magnet rings are arranged on one side, close to each other, of the left first limiting ring and the left second limiting ring and on one side, close to each other, of the right first limiting ring and the right second limiting ring;

the first filter screen is connected to one side, far away from each other, of the two adjacent magnet rings;

the filter cotton is arranged on one side, close to each other, of the two adjacent first filter screens;

the PP cotton is placed on one side, close to each other, of the two adjacent filter cottons;

and the activated carbon is placed between two adjacent PP cottons.

Further, the recoil mechanism includes:

the supporting blocks are connected to the left side of the first fixing frame in a front-back symmetrical mode;

a gas tank connected between the two support blocks;

the gas pipe is connected between the top of the gas tank and the top of the primary filter tank;

the air inlet valve is arranged on the right side of the air delivery pipe;

the second fixing frame is connected to the left side of the first fixing frame;

the air compressor is arranged on the second fixing frame;

and a connection pipe connected between the front side of the air compressor and the bottom of the air tank.

Further, the device also comprises a deslagging mechanism, wherein the deslagging mechanism comprises;

the first connecting cylinder is connected to the right side of the drain pipe;

the second inclined blocks are uniformly arranged at the right side of the first connecting cylinder at intervals;

a connection frame connected to the right side of the second swash block;

the second filter screen is connected to the right side inside the connecting frame and used for filtering dirt in water;

the inclined plate is connected to the left side inside the connecting frame and used for preventing sundries from flowing back into the drain pipe;

the second fixture blocks are evenly and alternately connected to the right side of the first connecting cylinder in a sliding mode, and the second fixture blocks are connected with the second inclined blocks in a clamping mode and used for clamping the second inclined blocks;

the second connecting spring is connected between the second clamping block and the first connecting cylinder;

a connection ring rotatably connected to an outer right portion of the first connection cylinder;

and the second pull rope is connected between the second clamping block and the connecting ring, is in sliding connection with the first connecting cylinder and is used for pulling the second clamping block.

Further, still including adding medicine mechanism, add medicine mechanism including:

a first fixing block connected to a right front side of the first fixing frame;

the medicine charging tank is connected to the first fixing block and used for storing medicine liquid;

the second fixed block is connected to the rear lower side of the medicine charging tank;

the water suction pump is connected to the second fixed block, a water suction port of the water suction pump is communicated with the medicine charging tank, and a water outlet of the water suction pump is communicated with the discharge pipe and used for pumping the medicine liquid in the medicine charging tank;

and the medicine inlet pipe is connected to the top of the medicine filling tank.

Further, still including separating mechanism, separating mechanism is including:

the second connecting cylinder is connected to the left side of the water inlet pipe;

a filter ring placed inside the second connector barrel;

a first connection frame connected to a front side of the filter ring for pulling the filter ring;

a second connecting bracket connected to a right front side of the second connecting cylinder;

a third connection spring connected to a left side of the second connection frame;

the third clamping block is connected to the left side of the third connecting spring and used for clamping the first connecting frame;

a first guide frame connected to the left front side of the water inlet pipe;

a second guide frame connected to a right front side of the first connecting cylinder;

and the first pull rope is connected between the right side of the third clamping block and the front side of the connecting ring, and the first pull rope penetrates through the first guide frame and the second guide frame in a sliding manner.

Further, it is characterized in that the method also comprises the following steps:

the handle is connected with the front side of the first connecting frame.

The invention has the following beneficial effects: 1. through pulling first fixture block left, first fixture block no longer blocks first sloping block, under the effect that torque spring resets for the baffle drives filtering mechanism through first spacing ring and rotates forward, and the staff can take off filtering mechanism at this moment and change the operation to the inside part of filtering mechanism, can let the staff change different filtering component according to the condition of difference with this, makes this purifier's suitability strong.

2. Through starting the air compressor machine, make the gas in the jar drive water and go up the interception foul with filtering mechanism downwards and wash away to this can carry out the recoil work, avoid filtering mechanism to block up rubbish, guaranteed filtering mechanism's normal work, avoid this device because filth deposit and concretion in filtering mechanism during the use, cause quality of water not good.

3. Through using the suction pump as drive power, can make the liquid medicine send into respectively through delivery pipe and drain pipe in just imitating filtering tank and the high efficiency filter jar, under the effect of liquid medicine, the liquid medicine can carry out liquid medicine cleanness and disinfection to just imitating filtering tank and high efficiency filter jar and filtering mechanism, lets subsequent purification operation of carrying on that this device can be better.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a schematic perspective view of the replacing mechanism of the present invention.

Fig. 4 is a first partial cross-sectional view of the exchange mechanism of the present invention.

Fig. 5 is a second partial cross-sectional view of the exchange mechanism of the present invention.

Fig. 6 is a first partial cross-sectional view of the filter mechanism of the present invention.

FIG. 7 is a second partial cross-sectional view of the filter mechanism of the present invention.

Fig. 8 is a schematic perspective view of the recoil mechanism of the present invention.

Fig. 9 is a schematic perspective view of the deslagging mechanism of the invention.

Fig. 10 is a partial perspective view of the deslagging mechanism of the invention.

FIG. 11 is a first partial cross-sectional view of the dross removal mechanism of the invention.

FIG. 12 is a second partial cross-sectional view of the dross removal mechanism of the invention.

FIG. 13 is a schematic view of a first three-dimensional structure of the drug adding mechanism of the present invention.

FIG. 14 is a schematic diagram of a second three-dimensional structure of the drug adding mechanism of the present invention.

Fig. 15 is a perspective view of the separating mechanism of the present invention.

Fig. 16 is a schematic view of a first partial body configuration of the separation mechanism of the present invention.

Fig. 17 is a partial cross-sectional view of the detachment mechanism of the present invention.

Fig. 18 is a schematic view of a second partial body structure of the separation mechanism of the present invention.

Part names and serial numbers in the figure: 1_ first fixing frame, 2_ primary filter tank, 3_ high efficiency filter tank, 4_ water inlet pipe, 5_ water outlet pipe, 6_ air outlet pipe, 7_ air outlet pipe, 8_ liquid outlet pipe, 9_ electric valve, 10_ air outlet valve, 11_ replacement mechanism, 111_ connecting shaft seat, 113_ partition plate, 114_ torsion spring, 115_ first inclined block, 116_ first clamping block, 117_ first connecting spring, 118_ first limiting ring, 119_ second limiting ring, 12_ filter mechanism, 121_ magnet ring, 122_ first filter screen, 123_ filter cotton, 124_ PP cotton, 125_ active carbon, 13_ recoil mechanism, 131_ supporting block, 132_ air tank, 133_ air pipe, 134_ air inlet valve, 135_ second fixing frame, 136_ air compressor, 137_ connecting pipe, 14_ filter mechanism, 141_ first connecting cylinder, 144_ second inclined block, 145_ connecting frame, 1451_ second filter screen, 1452_ inclined plate, 146_ second latch, 147_ second connection spring, 148_ connection ring, 149_ second pull rope, 15_ dosing mechanism, 151_ first fixed block, 152_ dosing canister, 153_ second fixed block, 154_ water pump, 155_ drug inlet tube, 16_ separation mechanism, 161_ second connection barrel, 1611_ handle, 162_ filter ring, 163_ first connection frame, 164_ second connection frame, 165_ third latch, 166_ third connection spring, 167_ first guide frame, 168_ second guide frame, 169_ first pull rope.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

Example 1

A domestic sewage purification device, please look at fig. 1-8, comprising a first fixing frame 1, a primary filter tank 2, a high-efficiency filter tank 3, a water inlet pipe 4, a water discharge pipe 5, a gas discharge pipe 6, a discharge pipe 7, a liquid discharge pipe 8, an electric valve 9, a gas discharge valve 10, a replacing mechanism 11, a filtering mechanism 12 and a backflushing mechanism 13, wherein the primary filter tank 2 is welded on the first fixing frame 1, the high-efficiency filter tank 3 is positioned at the right side of the primary filter tank 2, the bottom of the primary filter tank 2 is communicated with the water inlet pipe 4, the water discharge pipe 5 is communicated between the right side of the water inlet pipe 4 and the bottom of the high-efficiency filter tank 3, the right side of the top of the primary filter tank 2 is communicated with the gas discharge pipe 6, the gas discharge valve 10 is arranged on the gas discharge pipe 6, the right side of the gas discharge pipe 6 is communicated with the discharge pipe 7, the water discharge pipe 5 is connected with the discharge pipe 7, the liquid discharge pipe 8 is communicated between the upper right side of the high-efficiency filter tank 3, all install motorised valve 9 on inlet tube 4 and the drain pipe 8 to motorised valve 9 is also all installed to the upper and lower both sides of delivery pipe 7 and the left and right sides of drain pipe 5, just imitates to be equipped with change mechanism 11 on filtering jar 2 and the high efficiency filtering jar 3, is equipped with filtering mechanism 12 on the change mechanism 11, and the left side of first mount 1 is equipped with recoil mechanism 13.

Referring to fig. 1, 3, 4 and 5, the replacing mechanism 11 includes a connecting shaft seat 111, a partition plate 113, a torsion spring 114, a first inclined block 115, a first fixture block 116, a first connecting spring 117, a first limit ring 118 and a second limit ring 119, the connecting shaft seats 111 are welded on the front side of the primary filter tank 2 and the right front side of the high-efficiency filter tank 3, the partition plate 113 is rotatably connected on the two connecting shaft seats 111, the two partition plates 113 are respectively contacted with the primary filter tank 2 and the high-efficiency filter tank 3, the torsion spring 114 is connected between the two partition plates 113 and the adjacent connecting shaft seat 111, the first inclined block 115 is welded on the left side of the two partition plates 113, the first fixture blocks 116 are slidably connected on the left sides of the primary filter tank 2 and the high-efficiency filter tank 3, the two first fixture blocks 116 are respectively connected with the adjacent first inclined blocks 115 in a clamping manner, the first connecting springs 117 are connected between the first fixture block 116 on the left side and the primary filter tank 2 and between the first fixture blocks 116 on the right side and the high-efficiency filter tank 3, the rear sides of the two partition plates 113 are welded with first limit rings 118, the inner upper sides of the primary filter tank 2 and the efficient filter tank 3 are welded with second limit rings 119, and the second limit rings 119 are located on the upper sides of the first limit rings 118.

Please look at fig. 1, fig. 6 and fig. 7, the filtering mechanism 12 includes a magnet ring 121, a first filter screen 122, filter cotton 123, PP cotton 124 and activated carbon 125, the magnet ring 121 is placed on one side of the adjacent first spacing ring 118 and the second spacing ring 119 close to each other, one side of the adjacent two magnet rings 121 far away from each other is connected with the first filter screen 122, the filter cotton 123 is placed on one side of the adjacent two first filter screens 122 close to each other, the PP cotton 124 is placed on one side of the adjacent two filter cotton 123 close to each other, and the activated carbon 125 is placed between the adjacent two PP cotton 124.

Please look at fig. 1 and 8, the recoil mechanism 13 includes support blocks 131, a gas tank 132, gas pipes 133, an air inlet valve 134, a second fixing frame 135, an air compressor 136 and a connecting pipe 137, the left side of the first fixing frame 1 is welded with the second fixing frame 135, the second fixing frame 135 is provided with the air compressor 136, the left side of the first fixing frame 1 is welded with the support blocks 131 in a front-back symmetrical manner, the gas tank 132 is welded between the two support blocks 131, the gas pipes 133 are communicated between the top of the gas tank 132 and the top of the primary filter tank 2, the right side of the gas pipes 133 is provided with the air inlet valve 134, and the connecting pipe 137 is communicated between the front side of the air compressor 136 and the bottom of the gas tank 132.

Firstly, the first block 116 supports the first inclined block 115 to deform the torsion spring 114, when sewage needs to be purified, the collecting container is firstly placed at the lower right side of the drain pipe 5, then the electric valve 9 on the water inlet pipe 4 and the liquid outlet pipe 8 is opened, the electric valve 9 at the right side of the drain pipe 5 and the exhaust valve 10 on the exhaust pipe 6 are opened, then the water feeding pump is communicated with the water inlet pipe 4, sewage is injected into the water inlet pipe 4 through the water feeding pump, the sewage enters the primary filter tank 2 through the water inlet pipe 4, then the sewage continuously enters the primary filter tank 2, gas in the primary filter tank 2 is discharged through the exhaust pipe 6, then the sewage in the primary filter tank 2 is continuously increased, so that the sewage in the primary filter tank 2 upwards passes through the filter mechanism 12 in the primary filter tank 2, and impurities and large particles in the sewage are filtered by the first filter screen 122 and the filter cotton 123 in the primary filter tank 2, the PP cotton 124 and the activated carbon 125 can filter and purify fine impurities, sundries and peculiar smell in the sewage, the sewage after preliminary filtration can enter the discharge pipe 7 through the exhaust pipe 6, the sewage in the discharge pipe 7 enters the high-efficiency filter tank 3 through the drain pipe 8, the sewage entering the high-efficiency filter tank 3 can downwards pass through the filter mechanism 12 in the high-efficiency filter tank 3, the first filter screen 122, the filter cotton 123, the PP cotton 124 and the activated carbon 125 in the high-efficiency filter tank 3 can further filter the sewage, so that the residual small impurities, sundries and odor in the sewage are filtered and purified completely, the filtered sewage can downwards be discharged rightwards through the drain pipe 5 and flows into the collection container, the sewage can be purified through the operation, after the sewage is purified, the water pump is closed, the electric valve 9 opened on the water inlet pipe 4, the drain pipe 8 and the drain pipe 5 is closed, then closing the exhaust valve 10 on the exhaust pipe 6, detaching the water feeding pump from the water inlet pipe 4, taking the collecting container away, performing backflushing work, opening the two electric valves 9 on the exhaust pipe 7 and the electric valve 9 of the liquid outlet pipe 8 by a worker, connecting the water feeding pump with the lower right side of the exhaust pipe 7, filling water into the exhaust pipe 7 through the water feeding pump, enabling the water to enter the exhaust pipe 6 and the liquid outlet pipe 8 through the exhaust pipe 7, enabling the water in the exhaust pipe 6 and the liquid outlet pipe 8 to respectively enter the primary filter tank 2 and the high-efficiency filter tank 3, closing the water feeding pump after the primary filter tank 2 and the high-efficiency filter tank 3 are filled with water, then closing the two electric valves 9 on the exhaust pipe 7, starting the air compressor 136, enabling the air compressor 136 to pressurize the air in the air tank 132 through the connecting pipe 137, enabling the air in the air tank 132 to enter the primary filter tank 2 through the air conveying pipe 133, and part of the gas entering the primary filter tank 2 enters the high-efficiency filter tank 3 through the exhaust pipe 6, the discharge pipe 7 and the liquid outlet pipe 8, meanwhile, the staff opens the two electric valves 9 on the water outlet pipe 5, and then the water in the primary filter tank 2 is continuously discharged through the water inlet pipe 4 and the water outlet pipe 5 under the action of gravity, and the water in the high-efficiency filter tank 3 is continuously discharged through the water outlet pipe 5, and then under the action of the gas pressure in the gas tank 132, the downward discharge speed of the water in the primary filter tank 2 and the high-efficiency filter tank 3 is increased, so that under the action of downward pushing of the water, the dirt intercepted by the filtering mechanisms 12 in the primary filter tank 2 and the high-efficiency filter tank 3 is washed away downwards, the dirt in the water in the primary filter tank 2 and the dirt in the water are discharged through the water inlet pipe 4 and the water outlet pipe 5, and the dirt in the water in the high-efficiency filter tank 3 and the dirt in the water are discharged through the water outlet pipe 5, after the water in the primary filter tank 2 and the high-efficiency filter tank 3 is discharged, the air compressor 136 is closed, the two electric valves 9 on the drain pipe 5 are closed, the operation is repeated to perform the backflushing work on the filter mechanism 12, after the backflushing work is finished, the water pump is detached from the discharge pipe 7, so that the filter mechanism 12 can be prevented from blocking dirt through the backflushing work, the normal work of the filter mechanism 12 can be ensured, the problem that the water quality is poor due to the dirt depositing and solidifying in the filter mechanism 12 during the use of the device is avoided, when parts in the filter mechanism 12 need to be replaced later, the mechanism in the primary filter tank 2 is replaced firstly, a worker pulls the first clamping block 116 on the left side to the left, stretches the first connecting spring 117, and when the first clamping block 116 on the left side moves to the left and does not clamp the adjacent first inclined block 115 any more, the torsion spring 114 resets and drives the left side partition plate 113 and the left side first inclined block 115 to rotate forward and open, when the left side partition plate 113 rotates, the left side filter mechanism 12 is driven to rotate forward by the first limit ring 118 on the left side partition plate, then a worker takes the left side filter mechanism 12 off the left side first limit ring 118, then the first fixture block 116 is loosened, the first connecting spring 117 resets and drives the first fixture block 116 to move rightward and reset, then the upper magnet ring 121 in the left side filter mechanism 12 is pulled upward, the upper magnet ring 121 is separated from the lower magnet ring 121 by magnetic attraction, then the worker replaces the filter cotton 123, the PP cotton 124 and the activated carbon 125 in the left side filter mechanism 12, after replacement is completed, the worker puts the upper magnet ring 121 back on the lower magnet ring 121, the upper magnet ring 121 and the lower magnet ring 121 are mutually magnetically attracted, and then pulls the left side first fixture block 116 leftward, the first connecting spring 117 is stretched, then the left side filtering mechanism 12 is placed back on the first left side limiting ring 118, the left side partition plate 113 is pushed reversely to be closed, the torsion spring 114 deforms, the partition plate 113 drives the first inclined block 115, the first limiting ring 118 and the filtering mechanism 12 to move together, after the left side partition plate 113 is closed, the first left side clamping block 116 is loosened, the first connecting spring 117 resets and drives the first left side clamping block 116 to move rightwards to reset, the first left side clamping block 116 clamps the left side partition plate 113 through the first left side inclined block 115, and then a worker repeats the operation to replace the components in the filtering mechanism 12 inside the high-efficiency filter tank 3.

Example 2

On the basis of embodiment 1, please see fig. 1, 9, 10, 11 and 12, the slag removing device 14 is further included, the slag removing device 14 includes a connecting frame 145, a second filter screen 1451, a sloping plate 1452, a second sloping block 144, a first connecting cylinder 141, a second block 146, a second connecting spring 147, a connecting ring 148 and a second pull rope 149, the right side of the water discharging pipe 5 is communicated with the first connecting cylinder 141, four second sloping blocks 144 are uniformly and intermittently disposed on the right side of the first connecting cylinder 141, the connecting frame 145 is connected between the right sides of the four second sloping blocks 144, the connecting ring 148 is rotatably connected to the right part of the outer side of the first connecting cylinder 141, the four second block 146 is slidably connected to the right side of the first connecting cylinder 141 at uniform intervals, the four second block 146 is connected to the adjacent second sloping block 144 in a clamping manner, the second pull ropes 149 are connected between the four second block 146 and the connecting ring 148, the second pull rope 149 is slidably connected with the first connection cylinder 141, the second connection springs 147 are connected between the four second fixture blocks 146 and the first connection cylinder 141, the four second connection springs 147 are respectively sleeved on the adjacent second pull ropes 149, the inclined plate 1452 is welded on the left side inside the connection frame 145, and the second filter screen 1451 is welded on the right side inside the connection frame 145.

When water and dirt in the water flushed from the filter mechanism 12 are discharged to the right through the drain pipe 5, the water enters the connection frame 145 through the drain pipe 5, and then the water entering the connection frame 145 moves to the right along the inclined plate 1452 and is discharged from the connection frame 145 through the second filter 1451, at this time, the inclined plate 1452 can block the water moving to the right side of the inclined plate 1452 under the action of the inclined plate 1452, so that the water can be prevented from flowing back into the drain pipe 5 through the connection frame 145, and at the same time, after the water in the connection frame 145 passes through the second filter 1451, the dirt in the water is filtered by the second filter 1451, so that a worker can conveniently perform a subsequent recycling operation on the discharged water, when the parts in the connection frame 145 and the second filter 1451 need to be cleaned, the worker rotates the connection ring 148, the connection ring 148 pulls the second fixture 146 up in a direction close to the connection ring 148 through the second pull rope 149, the second connecting spring 147 is compressed, and the second inclined block 144 is not clamped any more after the second latch 146 moves upwards, at this time, the worker pulls the connecting frame 145 rightwards, the connecting frame 145 drives the second inclined block 144, the inclined plate 1452 and the second filter screen 1451 rightwards, after the second inclined block 144 is moved out of the drain pipe 5, the connecting ring 148 is loosened, the second connecting spring 147 resets and drives the second latch 146 to move and reset in a direction away from the connecting ring 148, the second latch 146 moves and pulls the connecting ring 148 reversely through the second pull rope 149 to reset, the connecting ring 148 rotates reversely, the worker cleans the second filter screen 1451 and the inclined plate 1452 in the connecting frame 145, after the cleaning is completed, the worker inserts the second inclined block 144 leftwards into the drain pipe 5 through the connecting frame 145, the connecting frame 145 drives the inclined plate 1452 and the second filter screen 1451 leftwards during the leftward movement of the connecting frame 145, next, after the second inclined block 144 moves leftwards, the second latch 146 is pushed towards the direction close to the connection ring 148, the second connection spring 147 is compressed, and then, after the second inclined block 144 moves leftwards to reset, the second inclined block 144 does not push the second latch 146 any more, so that the second connection spring 147 resets and drives the second latch 146 to move and reset towards the direction away from the connection ring 148, and after the second latch 146 moves and resets, the connection frame 145 is fixed by the second inclined block 144, so that the connection frame 145 can be installed back to the drain pipe 5.

Example 3

On the basis of embodiment 2, please look at fig. 1, 13 and 14, the chemical adding device 15 is further included, the chemical adding device 15 includes a first fixing block 151, a chemical charging tank 152, a second fixing block 153, a water pump 154 and a chemical inlet pipe 155, the first fixing block 151 is welded on the front right side of the first fixing frame 1, the chemical charging tank 152 is connected to the first fixing block 151, the second fixing block 153 is connected to the lower rear side of the chemical charging tank 152, the water pump 154 is installed on the second fixing block 153, a water pumping port of the water pump 154 is communicated with the chemical charging tank 152, a water outlet of the water pump 154 is communicated with the discharge pipe 7, and the chemical inlet pipe 155 is communicated with the top of the chemical charging tank 152.

When the primary filter tank 2 and the high-efficiency filter tank 3 need to be soaked with chemicals, a worker opens the two electric valves 9 on the discharge pipe 7 and the electric valve 9 on the liquid outlet pipe 8, then liquid medicine is injected into the interior of the powder charging tank 152 through the powder inlet pipe 155, and simultaneously the water suction pump 154 is started, the water suction pump 154 can respectively send the liquid medicine in the water suction pump 154 into the primary filter tank 2 and the high-efficiency filter tank 3 through the discharge pipe 7 and the liquid outlet pipe 8, after the liquid medicine in the primary filter tank 2 and the high-efficiency filter tank 3 is enough, the water suction pump 154 is closed, then the liquid medicine injection into the interior of the powder charging tank 152 is stopped, then the worker closes the two electric valves 9 on the discharge pipe 7 and the electric valves 9 on the liquid outlet pipe 8, waits for the liquid medicine to soak the primary filter tank 2 and the high-efficiency filter tank 3, and under the action of the liquid medicine, the primary filter tank 2, the high-efficiency filter tank 3 and the filter mechanism 12 can be disinfected by the liquid medicine, make just imitate filter jar 2 and high efficiency filter jar 3 and filtering mechanism 12 can be cleaner, after soaking the operation completion, open two motorised valves 9 on the drain pipe 5, just imitate the liquid medicine in filter jar 2 and the high efficiency filter jar 3 and discharge through drain pipe 5 thereupon, treat just imitate filter jar 2 and the high efficiency filter jar 3 in the liquid medicine all discharge the back, close two motorised valves 9 on the drain pipe 5 can to this can add medicine through above-mentioned operation and soak the operation.

Example 4

On the basis of embodiment 3, please look at fig. 1, 15, 16, 17 and 18, further comprising a separating mechanism 16, wherein the separating mechanism 16 comprises a second connecting cylinder 161, a filter ring 162, a first connecting frame 163, a second connecting frame 164, a third clamping block 166, a third connecting spring 165, a first guide frame 167, a second guide frame 168 and a first pull rope 169, the left side of the water inlet pipe 4 is communicated with the second connecting cylinder 161, the filter ring 162 is placed inside the second connecting cylinder 161, the front side of the filter ring 162 is welded with the first connecting frame 163, the right front side of the second connecting cylinder 161 is welded with the second connecting frame 164, the left side of the second connecting frame 164 is connected with the third connecting spring 165, the left side of the third connecting spring 165 is connected with the third clamping block 166, the left front side of the water inlet pipe 4 is welded with the first guide frame 167, the right front side of the first connecting cylinder 141 is welded with the second guide frame 168, and the second guide frame 168 is located at the left side of the connecting ring 148, a first pulling rope 169 is connected between the right side of the third block 166 and the front side of the connection ring 148, the first pulling rope 169 slidably penetrates through the first guide frame 167 and the second guide frame 168, and the third connection spring 165 is sleeved on the first pulling rope 169.

Please see fig. 16, further including a handle 1611, wherein the handle 1611 is welded to the front side of the first connecting frame 163, so that the worker can pull the first connecting frame 163 conveniently.

Firstly, the third block 166 supports the first connecting frame 163, when sewage needs to be added into the primary filter tank 2, the worker connects the water feeding pump with the second connecting cylinder 161, and starts the water feeding pump, the water feeding pump feeds the sewage into the water inlet pipe 4 through the second connecting cylinder 161, after the sewage enters the second connecting cylinder 161, the filtering ring 162 in the second connecting cylinder 161 primarily filters dirt in the sewage, so that the primarily filtered sewage enters the primary filter tank 2 through the water inlet pipe 4 to perform subsequent filtering operation, under the action of the filtering ring 162, the filtering ring 162 can filter part of dirt in the sewage, so that the dirt in the sewage entering the primary filter tank 2 is reduced, thereby facilitating the filtering mechanism 12 to perform subsequent filtering operation on the sewage, and when the worker rotates the connecting ring 148, the sewage purification work is finished, and no more sewage enters the second connector barrel 161, while the connection ring 148 is rotated, the connection ring 148 pulls the third latch 166 to the right by the first pull rope 169, the third connection spring 165 is compressed, the third latch 166 does not catch the first connection bracket 163 after moving to the right, so that the worker pulls the first connection frame 163 and the filter ring 162 forward by using the handle 1611, cleans up dirt caught on the filter ring 162, puts the first connection frame 163 and the filter ring 162 backward into the second connection cylinder 161 by using the handle 1611 after the dirt is cleaned up, thereafter, when the attachment ring 148 is rotated in the reverse direction, the attachment ring 148 no longer pulls the first pull cord 169, therefore, the third connecting spring 165 resets and drives the third latch 166 to move leftwards and reset, and the third latch 166 moves leftwards and then locks the first connecting frame 163 and the filter ring 162, so that the filter ring 162 can be detached and cleaned through the above operation.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (8)

1. A domestic sewage purification device comprises:

the first fixing frame (1), the first fixing frame (1) is connected with a primary filter tank (2);

the high-efficiency filter tank (3) is connected to the first fixing frame (1);

the water inlet pipe (4) is connected to the bottom of the primary filter tank (2);

the drain pipe (5) is connected between the right side of the water inlet pipe (4) and the bottom of the high-efficiency filter tank (3);

the exhaust pipe (6) is connected to the right side of the top of the primary filter tank (2) and is used for exhausting the gas in the primary filter tank (2);

a discharge pipe (7) connected to the right side of the discharge pipe (6);

the liquid outlet pipe (8) is connected between the right upper side of the discharge pipe (7) and the high-efficiency filter tank (3);

it is characterized by also comprising:

the electric valves (9) are arranged on the water inlet pipe (4) and the water outlet pipe (8), the upper side and the lower side of the water outlet pipe (7) and the left side and the right side of the water outlet pipe (5), and the electric valves (9) are convenient for workers to control the circulation of water;

an exhaust valve (10) mounted on the exhaust pipe (6) for controlling the circulation of gas;

the replacing mechanism (11) is arranged on the primary filtering tank (2) and the high-efficiency filtering tank (3);

a filter mechanism (12) which is arranged on the replacing mechanism (11), and the filter mechanism (12) on the replacing mechanism (11) is taken out and replaced by opening the replacing mechanism (11) so as to realize replacement of the filter mechanism (12);

the sewage in the primary filter tank (2) can be continuously increased, so that the sewage in the primary filter tank (2) can upwards penetrate through a filter mechanism (12) in the primary filter tank (2), the filter mechanism (12) can filter large-particle impurities and sundries in the sewage, fine impurities, sundries and peculiar smell in the sewage can be filtered and purified, the sewage can be further filtered, the residual small impurities, sundries and odor in the sewage can be filtered and purified completely, and the filtered sewage can be downwards discharged rightwards through a drain pipe (5) and flows into a collection container;

the backflushing mechanism (13) is arranged on the left side of the first fixing frame (1), and the backflushing mechanism (13) can flush the filtered dirt.

2. The domestic sewage purification apparatus according to claim 1, wherein the replacing mechanism (11) comprises:

a connecting shaft seat (111) which is connected with the front side of the primary filter tank (2) and the right front side of the high-efficiency filter tank (3);

the partition plate (113) is rotatably connected to the two connecting shaft seats (111), and the partition plate (113) is used for covering the primary filter tank (2) and the high-efficiency filter tank (3);

the two partition plates (113) and the adjacent connecting shaft seats (111) are connected with the torsion springs (114) respectively, and the torsion springs (114) are used for driving the partition plates (113) to rotate forwards and reset;

a first swash block (115) on the left side of the two spacers (113);

the two first fixture blocks (116) are respectively connected with the adjacent first inclined blocks (115) in a clamping manner and used for clamping the first inclined blocks (115);

the first connecting springs (117) are connected between the first left clamping block (116) and the primary filter tank (2) and between the first right clamping block (116) and the efficient filter tank (3);

a first stopper ring (118) connected to the rear sides of the two partition plates (113);

the second limiting ring (119) is connected to the inner upper sides of the primary filtering tank (2) and the efficient filtering tank (3), and the second limiting ring (119) is located on the upper side of the first limiting ring (118).

3. The domestic sewage purification apparatus according to claim 2, wherein the filtering means (12) comprises:

a magnet ring (121) which is placed on one side where the left first limiting ring (118) and the left second limiting ring (119) are close to each other and on one side where the right first limiting ring (118) and the right second limiting ring (119) are close to each other;

a first filter (122) connected to the side where the two adjacent magnet rings (121) are away from each other;

the filter cotton (123) is arranged on one side where the two adjacent first filter screens (122) are close to each other;

PP cotton (124) which is arranged on one side of two adjacent filter cotton (123) close to each other;

and the activated carbon (125) is placed between two adjacent PP cottons (124).

4. A domestic sewage purification apparatus according to claim 3, wherein the back flushing mechanism (13) comprises:

the supporting blocks (131) are connected to the left side of the first fixing frame (1) in a front-back symmetrical mode;

a gas tank (132) connected between the two support blocks (131);

the gas pipe (133) is connected between the top of the gas tank (132) and the top of the primary filter tank (2);

an air inlet valve (134) mounted on the right side of the air pipe (133);

a second fixing frame (135) connected to the left side of the first fixing frame (1);

an air compressor (136) mounted on the second fixing frame (135);

and a connection pipe (137) connected between the front side of the air compressor (136) and the bottom of the air tank (132).

5. The domestic sewage purification apparatus according to claim 4, further comprising a slag removal mechanism (14), wherein the slag removal mechanism (14) comprises;

a first connecting cylinder (141) connected to the right side of the drain pipe (5);

second swash blocks (144) disposed at the right side of the first connecting cylinder (141) at regular intervals;

a connection frame (145) connected to the right side of the second swash block (144);

a second filter net (1451) connected to the right side of the inside of the coupling frame (145) for filtering dirt in water;

a sloping plate (1452) connected to the left side of the inside of the connection frame (145) for preventing the debris from flowing back into the drain pipe (5);

the second clamping blocks (146) are connected to the right side of the first connecting cylinder (141) in a sliding mode at uniform intervals, and the second clamping blocks (146) are connected with the second inclined blocks (144) in a clamping mode and used for clamping the second inclined blocks (144);

a second connection spring (147) connected between the second latch (146) and the first connection cylinder (141);

a connection ring (148) rotatably connected to the outer right portion of the first connection cylinder (141);

and a second draw string (149) connected between the second latch (146) and the connection ring (148), and the second draw string (149) is slidably connected with the first connection cylinder (141) for drawing the second latch (146).

6. The domestic sewage purification device according to claim 5, further comprising a dosing mechanism (15), wherein the dosing mechanism (15) comprises:

a first fixed block (151) connected to the right front side of the first fixed frame (1);

a medicine-charging pot (152) connected to the first fixing block (151) for storing medicine liquid;

a second fixing block (153) connected to the rear lower side of the medicine-charging pot (152);

the water suction pump (154) is connected to the second fixing block (153), a water suction port of the water suction pump (154) is communicated with the medicine charging tank (152), and a water outlet of the water suction pump (154) is communicated with the discharge pipe (7) and is used for pumping liquid medicine in the medicine charging tank (152);

a medicine inlet pipe (155) connected to the top of the medicine filling tank (152).

7. The domestic sewage purification apparatus according to claim 6, further comprising a separation mechanism (16), wherein the separation mechanism (16) comprises:

a second connecting cylinder (161) connected to the left side of the water inlet pipe (4);

a filter ring (162) placed inside the second connector barrel (161);

a first connection bracket (163) connected to a front side of the filter ring (162) for pulling the filter ring (162);

a second connecting bracket (164) connected to the right front side of the second connecting cylinder (161);

a third connection spring (165) connected to the left side of the second connection frame (164);

a third catching block (166) connected to a left side of the third connecting spring (165) for catching the first connecting bracket (163);

a first guide frame (167) connected to the left front side of the water inlet pipe (4);

a second guide frame (168) connected to the right front side of the first connecting cylinder (141);

and a first pull rope (169) connected between the right side of the third latch (166) and the front side of the connecting ring (148), wherein the first pull rope (169) penetrates through the first guide frame (167) and the second guide frame (168) in a sliding manner.

8. The domestic sewage purification apparatus according to claim 7, further comprising:

the handle (1611) is connected to the front side of the first connecting frame (163).

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