CN113804502A - Water sampling equipment for sewage treatment - Google Patents

Abstract

The invention relates to sampling equipment, in particular to water quality sampling equipment for sewage treatment. The technical problem to be solved is as follows: provides a water quality sampling device for sewage treatment, which is convenient to collect and simple and convenient to operate. The technical scheme of the invention is as follows: a water sampling device for sewage treatment comprises: a housing; the handle is symmetrically rotated at the upper part of the shell; the device comprises a placing frame, wherein three placing frames are rotationally arranged on two sides of a shell at even intervals; the storage pipes are respectively arranged on the inner sides of the placing racks; the two sides of the shell are uniformly and rotatably provided with three covers at intervals; the upper side in the shell is provided with a water pumping component. People promote first push rod to the inboard, and deformation takes place for first spring, and first push rod can drive the second water pipe and remove to the inboard, when second water pipe and baffle contact, can drive the baffle upset, and the torsional spring takes place deformation, and the water in the first water pipe can flow to the storage through the second water pipe this moment in to collect the sampling.

Description

Water sampling equipment for sewage treatment

Technical Field

The invention relates to sampling equipment, in particular to water quality sampling equipment for sewage treatment.

Background

In the sewage treatment process, water samples are generally required to be collected in polluted water areas, and the polluted water areas are convenient to analyze and formulate a treatment scheme. General sampling device all can only gather a water sample at every turn, need constantly put in to reach the purpose of sampling many times, the sewage collection equipment volume of most automatic samplings is great simultaneously, carries very inconveniently, can only accomplish the sample to sewage through manual, consumes staff's physical power and work efficiency low, has brought certain inconvenience for sewage collection sample.

The invention aims to provide a water quality sampling device for sewage treatment, which is convenient to collect and simple and convenient to operate.

Disclosure of Invention

In order to overcome the defects that the sewage is manually sampled, the physical strength of workers is consumed, and the working efficiency is low, the technical problem to be solved is as follows: provides a water quality sampling device for sewage treatment, which is convenient to collect and simple and convenient to operate.

The technical scheme of the invention is as follows: a water sampling device for sewage treatment comprises: a housing; the handle is symmetrically rotated at the upper part of the shell; the device comprises a placing frame, wherein three placing frames are rotationally arranged on two sides of a shell at even intervals; the storage pipes are respectively arranged on the inner sides of the placing racks; the two sides of the shell are uniformly and rotatably provided with three covers at intervals; the upper side in the shell is provided with a water pumping component; the water pumping assembly is provided with a water discharging assembly; dustproof subassembly is equipped with dustproof subassembly on the housing.

In one embodiment, the water pumping assembly comprises: a water tank is arranged on one side inside the shell; the middle side of the bottom of the water tank is provided with a drain pipe; the middle part of the drain pipe is rotatably provided with a ball valve; the water pump is arranged at the top of the water tank; the corrugated pipe is arranged on the water pump; dust cover, shell top rotary type are equipped with the dust cover.

In one embodiment, the water discharging assembly comprises: six first water pipes are arranged on one side of the water tank; the baffles are rotationally arranged in the first water pipe; the torsional springs are symmetrically connected between the baffle plate and the first water pipe and are respectively sleeved on the baffle plate; the middle parts of the cover covers are provided with second water pipes in a sliding manner, the second water pipes are respectively matched with the first water pipes in a sliding manner, and the second water pipes are respectively matched with the baffles; the outer sides of the first push rod and the second water pipe are respectively provided with a first push rod; first spring, all be connected with first spring between first push rod and the housing, first spring suit is on first push rod respectively.

In one embodiment, the dust-proof assembly comprises: three dust-proof plates are arranged on two sides of the shell in a sliding manner at uniform intervals; the second springs are symmetrically connected between the dust guard and the shell; the second push rod, the housing both sides all are equipped with the second push rod, and the second push rod is mutually supported between respectively and the dust guard.

In one embodiment, the locking device further comprises a locking assembly, wherein the locking assembly comprises: the first guide rods are arranged on the cover; the clamping rods are arranged on the first guide rods in a sliding mode, clamping grooves are formed in the outer sides of the placing racks, and the clamping rods on the same side are matched with the clamping grooves in a sliding mode; and a third spring is connected between the clamping rod and the cover, and the third spring is sleeved on the first guide rod respectively.

In one embodiment, the device further comprises a clamping component, wherein the clamping component comprises: the top of each first water pipe is provided with a first connecting rod; the top of the first push rod is provided with a first guide rod; the wedge blocks are arranged on the second guide rods in a sliding mode, and the wedge blocks on the same side are matched with the first connecting rods respectively; and a fourth spring is connected between the wedge block and the first push rod and sleeved on the second guide rod respectively.

In one embodiment, the device further comprises an unlocking component, wherein the unlocking component comprises: third guide rods are symmetrically arranged on the placing rack; the supporting plates are arranged between the third guide rods on the same side in a sliding mode and are respectively contacted with the bottom of the material storage pipe; fifth springs are symmetrically connected between the support plates and the placing rack respectively and are sleeved on the third guide rods respectively; the two sides of the supporting plate are rotatably provided with second connecting rods; the outer sides of the second connecting rods are respectively rotatably provided with a third connecting rod, and the third connecting rods are in sliding fit with the placing rack; the inner part of the shell is symmetrically and uniformly provided with three pairs of fourth guide rods at intervals; a fourth connecting rod is arranged between each pair of fourth guide rods in a sliding manner, the lower side of the fourth connecting rod is matched with the third connecting rod, and the upper side of the fourth connecting rod is matched with the wedge block; sixth springs are symmetrically connected between the fourth connecting rod and the shell, and the sixth springs are respectively sleeved on the third guide rods.

In one embodiment, the anti-leakage device further comprises an anti-leakage assembly, wherein the anti-leakage assembly comprises: three fifth guide rods are uniformly arranged on two sides in the shell at intervals; wedge-shaped rods are arranged on the fifth guide rods in a sliding mode, and the wedge-shaped rods are matched with the supporting plate; seventh springs are connected between the wedge-shaped rods and the shell and are respectively sleeved on the fifth guide rods; the cover plates are rotatably arranged on the upper sides of the placing racks and are matched with the wedge-shaped rods; the clockwork spring, all be connected with the clockwork spring between apron and the rack symmetrically.

In one embodiment, the device further comprises a clamping assembly, wherein the clamping assembly comprises: the clamping blocks are arranged on the two sides of the placing rack in a sliding mode, and the clamping blocks are matched with the material storage pipe; eighth springs are connected between the clamping blocks and the placing rack and are respectively sleeved on the clamping blocks; three pairs of push plates are arranged on two sides in the shell at even intervals in a sliding mode and are respectively matched with the clamping blocks; ninth springs are connected between the push plate and the shell and are respectively sleeved on the push plate; the outer sides of the push plates are provided with fifth connecting rods, and the fifth connecting rods are matched with the shell in a sliding manner; and the sixth connecting rod is arranged at the bottom of the first push rod and is matched with the fifth connecting rod respectively.

Has the advantages that: according to the invention, sewage can be pumped into the water tank through the corrugated pipe by the water pump, the baffle can be driven to turn over when the first push rod is pushed to drive the second water pipe to move inwards to be contacted with the baffle, and at the moment, water in the water tank flows into the material storage pipe, so that the sewage can be conveniently collected and sampled.

When housing and rack outwards overturn, the second push rod can drive the dust guard and remove to the inboard and block storage pipe upper portion, prevents that external dust can drop in the storage pipe, influences subsequent detection.

When the storage pipe is internally provided with a proper amount of sewage, the supporting plate moves downwards to drive the wedge-shaped rod to move downwards to separate from the cover plate, the cover plate covers the storage pipe under the action of the clockwork spring, and the clamping block clamps the storage pipe, so that the storage pipe cannot deviate in the transportation process, and a sample in the storage pipe is prevented from leaking.

Drawings

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

FIG. 2 is a schematic diagram of a first partial structure according to the present invention.

FIG. 3 is a second partial structure diagram of the present invention.

FIG. 4 is a third partial structural diagram of the present invention.

FIG. 5 is a schematic diagram of a fourth partial structure of the present invention.

Fig. 6 is an enlarged schematic view of the structure of the present invention a.

FIG. 7 is a schematic diagram of a fifth partial structure according to the present invention.

FIG. 8 is a schematic diagram of a sixth partial structure according to the present invention.

FIG. 9 is an enlarged schematic view of the present invention B.

FIG. 10 is a schematic diagram of a seventh partial structure according to the present invention.

FIG. 11 is an enlarged schematic view of the present invention C.

Fig. 12 is a schematic diagram of an eighth partial structure of the present invention.

FIG. 13 is an enlarged schematic view of the present invention D.

FIG. 14 is an enlarged schematic view of the invention E.

FIG. 15 is a schematic view of a ninth partial structure according to the present invention.

Fig. 16 is an enlarged schematic view of the structure of the present invention F.

Fig. 17 is a schematic structural diagram of the tenth part of the present invention.

Wherein the figures include the following reference numerals: 1. a housing, 2, a handle, 3, a placing frame, 4, a storage pipe, 5, a cover, 6, a water pumping assembly, 61, a water tank, 62, a water discharging pipe, 63, a ball valve, 64, a water pump, 65, a bellows, 66, a dust cover, 7, a water discharging assembly, 71, a first water pipe, 72, a baffle, 73, a torsion spring, 74, a second water pipe, 75, a first push rod, 76, a first spring, 8, a dust preventing assembly, 81, a dust preventing plate, 82, a second spring, 83, a second push rod, 9, a locking assembly, 91, a first guide rod, 92, a clamping rod, 93, a third spring, 10, a clamping assembly, 101, a first connecting rod, 102, a second guide rod, 103, a wedge block, 104, a fourth spring, 11, a releasing assembly, 111, a third guide rod, 112, a supporting plate, 113, a fifth spring, 114, a second connecting rod, 115, a third connecting rod, 116, a fourth guide rod, 117, a fourth connecting rod, 118. the sixth spring, 12, the leakage-proof assembly, 121, the fifth guide rod, 122, the wedge rod, 123, the seventh spring, 124, the cover plate, 125, the spring, 13, the clamping assembly, 131, the clamping block, 132, the eighth spring, 133, the push plate, 134, the ninth spring, 135, the fifth connecting rod, 136, and the sixth connecting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The utility model provides a sewage treatment water quality sampling equipment, as shown in fig. 1-7, including shell 1, the hand (hold) 2, rack 3, storage pipe 4, housing 5, pumping component 6, subassembly 7 and dustproof subassembly 8 drain, symmetrical rotary type hand (hold) 2 around shell 1 upper portion, the even interval rotary type in both sides is equipped with three rack 3 around shell 1, storage pipe 4 has been placed respectively to rack 3 inboard, the even interval rotary type in both sides is equipped with three housing 5 around shell 1, the inside upside of shell 1 is equipped with pumping component 6, be equipped with subassembly 7 drain on the pumping component 6, be equipped with dustproof subassembly 8 on housing 5.

The water pumping assembly 6 comprises a water tank 61, a water drainage pipe 62, a ball valve 63, a water pump 64, a corrugated pipe 65 and a dust cover 66, the water tank 61 is arranged on the right side inside the shell 1, the water drainage pipe 62 is arranged on the middle side of the bottom of the water tank 61, the ball valve 63 is arranged in the middle of the water drainage pipe 62 in a rotating mode, the water pump 64 is arranged at the top of the water tank 61, the corrugated pipe 65 is arranged on the water pump 64, and the dust cover 66 is arranged on the top of the shell 1 in a rotating mode.

The water discharging assembly 7 comprises a first water pipe 71, a baffle plate 72, a torsion spring 73, a second water pipe 74, a first push rod 75 and a first spring 76, six first water pipes 71 are arranged on the left side of the water tank 61, the baffle plate 72 is arranged in the first water pipe 71 in an equal rotating mode, the torsion springs 73 are symmetrically connected between the baffle plate 72 and the first water pipe 71, the torsion springs 73 are respectively sleeved on the baffle plate 72, the second water pipe 74 is arranged in the middle of the cover 5 in a sliding mode, the second water pipe 74 is respectively matched with the first water pipe 71 in a sliding mode, the second water pipe 74 is respectively matched with the baffle plate 72 in a mutual mode, the first push rod 75 is arranged on the outer side of the second water pipe 74, the first spring 76 is connected between the first push rod 75 and the cover 5, and the first spring 76 is respectively sleeved on the first push rod 75.

Dustproof assembly 8 is including dust guard 81, second spring 82 and second push rod 83, and the even interval slidingtype in both sides is equipped with three dust guard 81 around shell 1, and equal symmetric connection has second spring 82 between dust guard 81 and the shell 1, and both sides all are equipped with second push rod 83 about housing 5, and second push rod 83 mutually supports between respectively and the dust guard 81.

People turn over the dust cover 66 upwards, then the water pump 64 is started, the bellows 65 is aligned with the water source of the sewage, then the sewage is pumped into the water tank 61 through the bellows 65 by the water pump 64, the sewage in the water tank 61 flows to the first water pipe 71, in an initial state, the baffle 72 blocks the first water pipe 71, people push the first push rod 75 inwards, the first spring 76 deforms, the first push rod 75 drives the second water pipe 74 to move inwards, when the second water pipe 74 contacts with the baffle 72, the baffle 72 is driven to turn over, the torsion spring 73 deforms, at the moment, the water in the first water pipe 71 flows into the storage pipe 4 through the second water pipe 74, so as to collect and sample, when the sampling is finished, people loosen the first push rod 75, under the reset action of the first spring 76, the first push rod 75 and the second water pipe 74 are driven to move outwards to reset, when the second water pipe 74 is separated from the baffle 72, under the reset action of the torsion spring 73, the second baffle 72 is driven to overturn to reset, so that the first water pipe 71 is continuously blocked by the second baffle 72, then, one turns off the water pump 64 and rotates the ball valve 63, at which time the sewage in the water tank 61 is discharged through the drain pipe 62, one can move the sample to a proper position by lifting the handle 2, when a sample needs to be taken, the cover 5 and the placing frame 3 are turned outwards, the storage pipe 4 is taken out, when the cover 5 is turned over, the second pushing rod 83 is driven to move, when the second pushing rod 83 contacts with the dust-proof plate 81, the dust-proof plate 81 is driven to move inwards, the second spring 82 deforms, the dust-proof plate 81 can prevent dust of the shell 1, the integrity of the sample is improved, when the cover 5 is reset, due to the reset action of the second spring 82, the dust-proof plate 81 is driven to move outwards to reset.

Example 2

On the basis of embodiment 1, as shown in fig. 8 to 17, the portable electronic device further includes a locking assembly 9, the locking assembly 9 includes a first guide rod 91, a clamping rod 92 and a third spring 93, the cover 5 is provided with the first guide rod 91, the first guide rod 91 is provided with the clamping rod 92 in a sliding manner, the outer side of the rack 3 is provided with a clamping groove, the clamping rod 92 and the clamping groove on the same side are in sliding fit, the clamping rod 92 and the cover 5 are connected with the third spring 93, and the third spring 93 is respectively sleeved on the first guide rod 91.

Under the initial condition, kelly 92 can block rack 3, thereby make apron 124 and rack 3 can not squint at the in-process of transportation or transport, thereby improved people's work efficiency, when people rebound kelly 92, deformation takes place for third spring 93, when kelly 92 breaks away from with rack 3, people can take out the sample, then people loosen kelly 92, thereby because under the reset action of third spring 93, can drive kelly 92 downstream and continue to block rack 3.

Still including blocking subassembly 10, it is including first connecting rod 101 to block subassembly 10, second guide bar 102, wedge 103 and fourth spring 104, first water pipe 71 top all is equipped with first connecting rod 101, first push rod 75 top all is equipped with second guide bar 102, all slidingtype is equipped with wedge 103 on the second guide bar 102, homonymy wedge 103 respectively with first connecting rod 101 between mutually support, all be connected with fourth spring 104 between wedge 103 and the first push rod 75, fourth spring 104 is the suit respectively on second guide bar 102.

When first push rod 75 moves to the inboard, can drive wedge 103 and move to the inboard, when wedge 103 and first connecting rod 101 contact, can drive wedge 103 and move down, fourth spring 104 takes place deformation, when wedge 103 continues to move to the inboard and breaks away from with first connecting rod 101, because under the reset action of fourth spring 104, thereby can drive wedge 103 and move up and block first connecting rod 101, make people need not promote first push rod 75 always, thereby people's convenient operation has been improved, after people need not collect sewage, people move wedge 103 down, when wedge 103 breaks away from with first connecting rod 101, thereby first push rod 75 drives wedge 103 and moves to reseing to the outside.

The unwinding assembly 11 is further included, the unwinding assembly 11 includes a third guide rod 111, a support plate 112, a fifth spring 113, a second connecting rod 114, a third connecting rod 115, a fourth guide rod 116, a fourth connecting rod 117 and a sixth spring 118, the third guide rod 111 is symmetrically arranged on the rack 3, the support plate 112 is slidably arranged between the third guide rods 111 on the same side, the support plate 112 is respectively contacted with the bottom of the storage tube 4, the fifth spring 113 is symmetrically connected between the support plate 112 and the rack 3, the fifth spring 113 is respectively sleeved on the third guide rod 111, the second connecting rod 114 is rotatably arranged on the left side and the right side of the support plate 112, the third connecting rod 115 is rotatably arranged on the outer side of the second connecting rod 114, the third connecting rod 115 is slidably matched with the rack 3, three pairs of fourth guide rods 116 are symmetrically and uniformly arranged in the front and back of the shell 1 at intervals, and a fourth connecting rod 117 is slidably arranged between each pair of the fourth guide rods 116, the lower side of the fourth connecting rod 117 is matched with the third connecting rod 115, the upper side of the fourth connecting rod 117 is matched with the wedge block 103, sixth springs 118 are symmetrically connected between the fourth connecting rod 117 and the shell 1, and the sixth springs 118 are respectively sleeved on the third guide rods 111.

When the storage tube 4 is filled with samples, the storage tube 4 can drive the support plate 112 to move downwards, the fifth spring 113 deforms, the support plate 112 can drive the second connecting rod 114 to turn inwards, the second connecting rod 114 can drive the third connecting rod 115 to move inwards, when the third connecting rod 115 is in contact with the fourth connecting rod 117, the fourth connecting rod 117 can be driven to move downwards, the sixth spring 118 deforms, when the fourth connecting rod 117 moves downwards and is in contact with the wedge-shaped block 103, the wedge-shaped block 103 can be driven to move downwards, so that the unlocking can be performed automatically, the operation convenience of people is effectively improved, when the storage tube 4 is taken out, due to the reset effect of the fifth spring 113, the support plate 112 can be driven to move upwards to reset, the support plate 112 can drive the second connecting rod 114 and the third connecting rod 115 to reset, when the third connecting rod 115 is separated from the fourth connecting rod 117, due to the reset effect of the sixth spring 118, the fourth link 117 is moved downward to the reset position.

Still including leak protection subassembly 12, leak protection subassembly 12 is including fifth guide bar 121, wedge rod 122, seventh spring 123, apron 124 and clockwork spring 125, the even interval in both sides is equipped with three fifth guide bar 121 around shell 1 is inside, equal slidingtype is equipped with wedge rod 122 on the fifth guide bar 121, mutually support between wedge rod 122 and the backup pad 112, all be connected with seventh spring 123 between wedge rod 122 and the shell 1, seventh spring 123 suits respectively on fifth guide bar 121, the equal rotary type of rack 3 upside is equipped with apron 124, mutually support between apron 124 and the wedge rod 122, equal symmetric connection has clockwork spring 125 between apron 124 and the rack 3.

In the initial state, the wedge rod 122 contacts the cover plate 124, the clockwork spring 125 is in a deformation state, when the support plate 112 moves downwards to contact the wedge rod 122, the wedge rod 122 is driven to move downwards, the seventh spring 123 deforms, when the wedge rod 122 moves downwards to separate from the cover plate 124, the cover plate 124 is driven to turn over under the reset action of the clockwork spring 125, so that the storage pipe 4 is covered, the storage efficiency is improved, when people need to take out the storage pipe 4, the cover plate 124 is opened manually, the clockwork spring 125 deforms, people can take out the storage pipe 4 at the moment, collect sewage in the storage pipe 4, place the storage pipe 4 back to the support plate 112, because the weight of the storage pipe 4 cannot push the support plate 112 downwards any more, when the support plate 112 moves upwards to separate from the wedge rod 122, the wedge rod 122 is driven to move upwards to reset under the reset action of the seventh spring 123, the wedge rod 122 moves upward to contact the cover 124, thereby blocking the cover 124 from closing.

Also comprises a clamping component 13, the clamping component 13 comprises a clamping block 131, an eighth spring 132 and a push plate 133, ninth spring 134, fifth connecting rod 135 and sixth connecting rod 136, the holder 3 left and right sides all is slidingly equipped with clamp splice 131, cooperate each other between clamp splice 131 and the storage tube 4, all be connected with eighth spring 132 between clamp splice 131 and the holder 3, eighth spring 132 suits respectively on clamp splice 131, shell 1 inside front and back both sides are even the interval slidingly to be equipped with three pairs of push pedal 133, push pedal 133 cooperates each other respectively with between clamp splice 131, all be connected with ninth spring 134 between push pedal 133 and the shell 1, ninth spring 134 suits respectively on push pedal 133, the push pedal 133 outside all is equipped with fifth connecting rod 135, slidingly cooperate between fifth connecting rod 135 and the shell 1, first push rod 75 bottom is equipped with sixth connecting rod 136, sixth connecting rod 136 cooperates each other respectively with between the fifth connecting rod 135.

In the initial state, the clamping block 131 contacts with the push plate 133, because the elastic coefficient of the ninth spring 134 is greater than that of the eighth spring 132, the eighth spring 132 is in a deformation state, the clamping block 131 can clamp the storage tube 4, so that the storage tube 4 cannot be deviated in the transportation process, when the rack 3 is turned over outwards, the clamping block 131 can be driven to move outwards, when the clamping block 131 is separated from the push plate 133, the clamping block 131 can be driven to move outwards due to the reset action of the eighth spring 132, when the first push rod 75 moves inwards, the sixth connecting rod 136 can be driven to move inwards, when the sixth connecting rod 136 contacts with the fifth connecting rod 135, the fifth connecting rod 135 can be driven to move outwards, the fifth connecting rod 135 can drive the push plate 133 to move outwards, the ninth spring 134 deforms, at this time, people can replace the storage tube 4, and after replacement is completed, the rack 3 can drive the clamping block 131 to turn over to reset inwards, when the first push rod 75 moves to the outside, the sixth connecting rod 136 is driven to move to the outside, when the sixth connecting rod 136 is separated from the fifth connecting rod 135, the ninth spring 134 is reset, the push plate 133 is driven to move to the inside, the push plate 133 drives the clamping block 131 to move to the inside, the eighth spring 132 deforms, and the clamping block 131 continues to clamp the material storage pipe 4.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (9)

1. The utility model provides a water quality sampling equipment for sewage treatment which characterized in that, including:

a housing (1);

a handle (2), a symmetrically rotating handle (2) at the upper part of the shell (1);

the device comprises a placing frame (3), wherein three placing frames (3) are uniformly and rotatably arranged on two sides of a shell (1) at intervals;

the storage pipes (4) are respectively placed on the inner sides of the placing racks (3);

the two sides of the shell (1) are uniformly and rotatably provided with three covers (5) at intervals;

a water pumping component (6), wherein the upper side in the shell (1) is provided with the water pumping component (6);

the water discharging component (7) is arranged on the water pumping component (6);

the dustproof assembly (8) is arranged on the cover (5).

2. The water sampling apparatus for sewage treatment according to claim 1, wherein the pumping unit (6) comprises:

a water tank (61), wherein one side inside the shell (1) is provided with the water tank (61);

a drain pipe (62), wherein the bottom inside of the water tank (61) is provided with the drain pipe (62);

the ball valve (63) is rotatably arranged in the middle of the drain pipe (62);

the water pump (64) is arranged at the top of the water tank (61);

the corrugated pipe (65) is arranged on the water pump (64);

the dust cover (66), the shell (1) top rotary type is equipped with dust cover (66).

3. The water quality sampling apparatus for sewage treatment according to claim 2, wherein the water discharging unit (7) comprises:

six first water pipes (71) are arranged on one side of the water tank (61);

the baffle plates (72) are rotatably arranged in the first water pipe (71);

the torsion springs (73) are symmetrically connected between the baffle (72) and the first water pipe (71), and the torsion springs (73) are respectively sleeved on the baffle (72);

the middle parts of the cover covers (5) are provided with second water pipes (74) in a sliding manner, the second water pipes (74) are respectively matched with the first water pipes (71) in a sliding manner, and the second water pipes (74) are respectively matched with the baffle plates (72) in a sliding manner;

the outer sides of the first push rod (75) and the second water pipe (74) are provided with the first push rod (75);

first spring (76) are connected with between first push rod (75) and housing (5), first spring (76), and first spring (76) suit is on first push rod (75) respectively.

4. A water sampling apparatus for sewage treatment according to claim 3, wherein the dust-proof assembly (8) comprises:

the dustproof plates (81) are arranged on two sides of the shell (1) at equal intervals in a sliding mode, and the dustproof plates (81) are arranged on the two sides of the shell at equal intervals in a sliding mode;

the second springs (82) are symmetrically connected between the dustproof plate (81) and the shell (1);

the second push rods (83) are arranged on two sides of the cover (5), and the second push rods (83) are respectively matched with the dust guard (81).

5. The water sampling apparatus for sewage treatment according to claim 4, further comprising a locking assembly (9), wherein the locking assembly (9) comprises:

the first guide rods (91) are arranged on the cover (5);

the clamping rods (92) are arranged on the first guide rods (91) in a sliding mode, clamping grooves are formed in the outer side of the placing rack (3), and the clamping rods (92) on the same side are matched with the clamping grooves in a sliding mode;

third spring (93), all be connected with third spring (93) between kelly (92) and housing (5), third spring (93) suit respectively is on first guide bar (91).

6. The water quality sampling device for sewage treatment according to claim 5, further comprising a blocking assembly (10), wherein the blocking assembly (10) comprises:

the top of each first water pipe (71) is provided with a first connecting rod (101);

the top of each first push rod (75) is provided with a second guide rod (102);

the wedge block (103) is arranged on the second guide rod (102) in a sliding mode, and the wedge block (103) on the same side is matched with the first connecting rod (101) respectively;

and a fourth spring (104) is connected between the wedge block (103) and the first push rod (75), and the fourth spring (104) is respectively sleeved on the second guide rod (102).

7. A water sampling apparatus for sewage treatment according to claim 6 further comprising an unlocking assembly (11), the unlocking assembly (11) comprising:

third guide rods (111) are symmetrically arranged on the placing rack (3);

the supporting plates (112) are arranged between the third guide rods (111) on the same side in a sliding mode, and the supporting plates (112) are respectively contacted with the bottoms of the storage pipes (4);

fifth springs (113) are symmetrically connected between the support plates (112) and the placing rack (3), and the fifth springs (113) are sleeved on the third guide rods (111) respectively;

the two sides of the supporting plate (112) are rotatably provided with the second connecting rods (114);

the outer sides of the second connecting rods (114) are respectively and rotatably provided with a third connecting rod (115), and the third connecting rods (115) are in sliding fit with the placing rack (3);

the inner part of the shell (1) is symmetrically and uniformly provided with three pairs of fourth guide rods (116) at intervals;

a fourth connecting rod (117) is arranged between each pair of fourth guide rods (116) in a sliding mode, the lower side of the fourth connecting rod (117) is matched with the third connecting rod (115), and the upper side of the fourth connecting rod (117) is matched with the wedge-shaped block (103);

sixth springs (118) are symmetrically connected between the fourth connecting rod (117) and the shell (1), and the sixth springs (118) are respectively sleeved on the third guide rod (111).

8. The water sampling apparatus for wastewater treatment according to claim 7, further comprising a leakage prevention assembly (12), wherein the leakage prevention assembly (12) comprises:

three fifth guide rods (121) are uniformly arranged on two sides of the interior of the shell (1) at intervals;

the wedge-shaped rods (122) are arranged on the fifth guide rod (121) in a sliding mode, and the wedge-shaped rods (122) are matched with the support plate (112) mutually;

seventh springs (123) are connected between the wedge-shaped rods (122) and the shell (1), and the seventh springs (123) are respectively sleeved on the fifth guide rods (121);

the cover plates (124) are rotatably arranged on the upper sides of the placing racks (3), and the cover plates (124) are matched with the wedge-shaped rods (122) mutually;

the clockwork spring (125), the cover plate (124) and the placing rack (3) are symmetrically connected with the clockwork spring (125).

9. The water sampling apparatus for sewage treatment according to claim 8, further comprising a clamping assembly (13), wherein the clamping assembly (13) comprises:

the clamping blocks (131) are arranged on the two sides of the placing frame (3) in a sliding mode, and the clamping blocks (131) are matched with the storage pipe (4) mutually;

eighth springs (132) are connected between the clamping blocks (131) and the placing rack (3), and the eighth springs (132) are respectively sleeved on the clamping blocks (131);

the push plates (133), three pairs of push plates (133) are arranged on two sides in the shell (1) at even intervals in a sliding manner, and the push plates (133) are respectively matched with the clamping blocks (131);

ninth springs (134) are connected between the push plate (133) and the shell (1), and the ninth springs (134) are respectively sleeved on the push plate (133);

the fifth connecting rods (135) are arranged on the outer sides of the push plates (133), and the fifth connecting rods (135) are in sliding fit with the shell (1);

and the sixth connecting rod (136), the sixth connecting rod (136) is arranged at the bottom of the first push rod (75), and the sixth connecting rod (136) is matched with the fifth connecting rod (135) respectively.

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