CN114720198A - Timing sampling device for sewage treatment - Google Patents

Abstract

The invention discloses a timing sampling device for sewage treatment, which comprises a treatment box, a water taking mechanism and a storage rack, wherein the treatment box comprises a box shell and a bedplate which is arranged on the side surface of the box shell, the bedplate is fixedly connected with the case shell, the water taking mechanism is arranged on the upper end surface of the case shell and is fixedly connected with the case shell, the storage rack is arranged above the bedplate, the storage rack is rotatably connected with the box shell, so that a user can stably install the bedplate and the water taking mechanism through the box shell when needing to use the storage rack, the purpose of placing the receiving tank is realized by stably installing the bedplate on the side surface of the box shell, and the water taking mechanism is stably arranged on the upper end surface of the box shell to carry out water taking operation, and set up through the case shell and come the water source sample that the person of facilitating the use can be inside stable deposit after the corresponding sample, and the person of facilitating the use can regularly wholly take.

Description

Timing sampling device for sewage treatment

Technical Field

The invention relates to the technical field of sewage sampling equipment, in particular to a timing sampling device for sewage treatment.

Background

Sewage treatment is the process of purifying sewage for the purpose of ensuring that the sewage reaches the water quality requirement of being discharged into a certain water body or being reused, the sewage treatment is widely applied to various fields such as buildings, agriculture, traffic, energy, petrifaction, environmental protection, urban landscape, medical treatment, catering and the like, the sewage treatment also increasingly enters the daily life of common people, and sewage treatment equipment often needs to regularly sample and detect the sewage result after the sewage treatment in the actual use process, so that the condition of sewage treatment can be known in time, and each index of the sewage can be better determined to be in accordance with the standard.

The inventor of this application discovers, current sewage sampling equipment simple structure, often can only be simple go on through the on-the-spot sample use of sampling mechanism in the in-service use process, inconvenient user's use of taking a sample regularly like this, if need long-term interval water intaking comparatively extravagant operating personnel time, traditional sewage sampling equipment does not have corresponding storage structure simultaneously, the sample that extracts in different periods of inconvenient equipment is stable like this is preserved, the flexibility of whole use is relatively poor.

Disclosure of Invention

The invention aims to provide a timing sampling device for sewage treatment, and aims to solve the problems that the existing sewage sampling equipment is simple in structure, and can only be used for sampling on site through a sampling mechanism in the actual use process, so that a user is inconvenient to use for sampling regularly and regularly, the time of operators is wasted if long-time interval water taking is needed, and meanwhile, the traditional sewage sampling equipment does not have a corresponding storage structure, so that the equipment is inconvenient to stably store samples extracted in different time periods, and the flexibility of the whole use is poor.

The invention is realized in the following way:

a timing sampling device for sewage treatment comprises a treatment box, a water taking mechanism and a storage rack, wherein the treatment box comprises a box shell and a bedplate, the bedplate is arranged on the side surface of the box shell and fixedly connected with the box shell, the water taking mechanism is arranged on the upper end surface of the box shell and fixedly connected with the box shell, the storage rack is arranged above the bedplate and rotatably connected with the box shell, and the problems that the existing sewage sampling equipment is simple in structure and can only be simply used for sampling and using on site through the sampling mechanism in the actual use process, so that an inconvenient user can regularly and regularly sample and use, if water is required to be taken at intervals for a long time, the time of operators is wasted, and meanwhile, the traditional sewage sampling equipment does not have corresponding storage structures, so that the inconvenient equipment stably preserves samples extracted in different time periods and has poor flexibility in the whole use are solved, guarantee through the structure setting to handling the case that the user can be stable install platen and water intaking mechanism through the case shell, and can also deposit corresponding cup through handling the case and use, installation receiving tank that the user can be stable is guaranteed through setting up to the platen, guarantee through the setting to water intaking mechanism that the user can control its real-time absorption sample water source use that adsorbs, guarantee through the setting to the storage rack that the user can be stable respectively take a sample and use, it is very convenient to use.

Further, the case shell includes casing and storage box, storage box installs the side at the casing, and storage box and casing fixed connection, sealed lid is installed to the preceding terminal surface of casing, and sealed lid rotates with the casing to be connected, storage box's middle part is provided with perpendicularly changes the roller, it rotates with storage box to change the roller and is connected, storage box's up end still installs the buckle closure, the buckle closure rotates with storage box to be connected, and the structure setting through to the case shell guarantees that the user can be stable installs storage box through the casing, guarantees that the user can deposit the water-absorbing hose through storage box stable coiling and use, guarantees through setting up to the buckle closure that the user can be stable protects the water-absorbing hose, can guarantee the security of water-absorbing hose when not using, and then increases equipment's life, through the mid-mounting at storage box change the roller and guarantee that the user can be better when not using roll up the water-absorbing hose that rolls up The hose uses to sealed lid of preceding terminal surface installation through at the casing, the convenience of use person can be nimble open the casing, guarantee that the better taking of user and placing the cup use.

Furthermore, a strip-shaped groove is formed in the middle of the lower end face of the shell, the strip-shaped groove is fixedly installed in the conveying mechanism, the conveying mechanism comprises a transmission shaft and a transmission belt, the transmission shaft is symmetrically arranged at two ends of the transmission belt and is rotatably connected with the shell, a driving motor matched with the transmission shaft is also fixedly installed on the lower end face of the shell, the output end of the driving motor is connected with the transmission shaft, the conveying mechanism is installed at the lower end of the shell to convey and move cups to use by arranging the strip-shaped groove, meanwhile, the conveying mechanism is structurally arranged to ensure that a user can stably support the transmission belt through the transmission shafts at two ends, the transmission shaft is used for driving the transmission belt to rotate, and the driving motor is arranged to ensure that the user can flexibly control the transmission belt to longitudinally and reversely move, it is very flexible to use.

Furthermore, a middle groove for installing a transmission belt is formed in the middle of the bedplate, a receiving tank is installed on the upper end face of the bedplate and fixedly connected with the bedplate, a matching sleeve is arranged at the head of the receiving tank and integrally formed with the receiving tank, a cup outlet groove is further formed in the side face of the receiving tank, the transmission belt can be stably installed in the middle of the bedplate through the middle groove, the transmission belt can drive the cup to flexibly move on the bedplate, meanwhile, the receiving tank and the conical drainage pipe are better matched with each other through the matching sleeve, a disc water source discharged by the conical drainage pipe is better enabled to enter the receiving tank, and the cup outlet groove is formed in the side face of the receiving tank to enable the transmission belt to drive the cup to better enter and exit from the receiving tank.

Further, water intaking mechanism includes the sample water pump, absorbs water hose and drainage mechanism, sample water pump fixed mounting is at the up end of casing, absorb water hose and drainage mechanism set up respectively in the both sides of sample water pump, and drainage mechanism is connected with the outlet of sample water pump, the one end of absorbing water hose is connected with the sample water pump mouth of a river, and absorbs water hose and wind in the inside of holding the case, and the control sample water pump that guarantees that the user can be stable through the structure setting to water intaking mechanism comes to adsorb the water source from the water hose and take a sample the use, then discharge the inside of sampling the water source to the sampling tube through drainage mechanism is stable.

Furthermore, the drainage mechanism comprises a metal bent pipe and a shielding cover, the shielding cover is installed at the head of the metal bent pipe and fixedly connected with the metal bent pipe, a drainage hole corresponding to the head of the metal bent pipe is further formed in the shielding cover, stable drainage using through the metal bent pipe is guaranteed to be stably carried out by a user through the structural setting of the drainage mechanism, meanwhile, the shielding using of the upper end of the sampling pipe is guaranteed through the setting of the shielding cover, the safety of a azolla water source in the sampling pipe is guaranteed, and better drainage operation of the metal bent pipe is guaranteed through the setting of the drainage hole.

Furthermore, the storage rack comprises a water storage shell and a sampling tube, the sampling tube is uniformly arranged on the upper end surface of the water storage shell, the sampling tube is vertically and fixedly connected with the water storage shell, the middle part of the water storage shell is hollow, a conical drainage tube is arranged on the lower end surface of the water storage shell, the conical drainage tube and the water storage shell are integrally formed, the lower end of the sampling tube is communicated with the water storage shell, an electromagnetic valve is arranged between the sampling tube and the water storage shell, the sampling tube can be stably arranged by a user through the water storage shell through the structural arrangement of the storage rack, the user can be ensured to respectively sample and use through the sampling tube, a stored sample water source can be displayed through the sampling tube, the sample water source in the sampling tube can be better discharged through the arrangement of the conical drainage tube, the user can be ensured to stably control the on-off of the lower end of the sampling tube through the arrangement of the electromagnetic valve, the user is very flexible.

Further, the ring channel has been seted up to the retaining shell, and still installs the toothed disc on the lateral surface of retaining shell, toothed disc and retaining shell welded fastening guarantee through setting up to the ring channel that the retaining shell can be stable install on the lantern ring, guarantee better mutually supporting with drive gear through setting up to the toothed disc simultaneously.

Further, the side-mounting of casing has the lantern ring with ring channel matched with, the lantern ring and casing fixed connection, the middle part of casing is fixed mounting still has the angle motor, the output installation of angle motor and the drive gear of toothed disc looks meshing, guarantee through the setting to the lantern ring that the retaining shell is better install the use, drive the stable rotation operation of drive gear through the setting to the angle motor simultaneously, guarantee to drive toothed disc synchronous rotation through drive gear and use.

Compared with the prior art, the invention has the beneficial effects that: the invention designs a timing sampling device for sewage treatment by researching the structure and the using process of the traditional sewage sampling equipment, ensures that a user can stably install a bedplate and a water taking mechanism through a box shell when needing to use, ensures that the bedplate is stably installed on the side surface of the box shell to realize the purpose of placing a receiving tank, ensures that the water taking mechanism is fixedly installed on the upper end surface of the box shell to stably take water, facilitates the user to stably store water source samples after corresponding sampling in the box shell through the arrangement of the box shell, facilitates the user to regularly take the water source samples integrally, ensures that a storage rack is stably installed by installing a lantern ring on the box shell, ensures that the storage rack can be flexibly and rotatably used on the lantern ring, and facilitates the storage rack to be more stably installed on the lantern ring by arranging an annular groove in the middle part of the storage rack, the storage rack is ensured to be safer in the rotating use process, and a user can control the rotating angle of the storage rack better, the user is fixedly provided with an angle motor in the middle of the box shell, the user can be ensured to install a driving gear on the output end of the angle motor, the rotating angle of the storage rack is controlled by the meshing between the driving gear and a gear disc, the user can accurately control the rotating angle of the storage rack by controlling the output angle of the angle motor and the angular rotation ratio between the driving gear and the gear disc, so that different sampling pipes are adjusted to correspond to the head part of the drainage mechanism, and the user can paste corresponding labels on different sampling pipes according to needs to distinguish and mark, for example, when sampling equipment needs to sample once per hour, the labels of each hour can be pasted on the sampling pipes, the water source sampling device is convenient for a user to better distinguish which time period is the water source sample sampled, the user can stably turn over the buckle cover when the sampling is needed, the user can conveniently take out the water suction hose which is wound and placed in the storage box, the water suction hose can be stably placed in a water pool to be sampled through the water suction hose, when the sampling time is reached, the sampling water pump can be controlled to be started to stably pump water through the water suction hose for sampling, the metal bent pipe is used for discharging the sample water from the drain hole to the inside of the sampling pipe for collection, the angle motor is started to drive the gear disc to rotate by a corresponding angle, the next sampling pipe can be ensured to stably correspond to the drain hole, the sampling device is convenient for sampling in the next time period, and the water source samples collected in different time periods can be collected through different sampling pipes in a reciprocating mode, meanwhile, the sampling tube is ensured to be shielded and used by the shielding cover at the head part of the drainage mechanism, a cup can be placed on the transmission belt after the sampling tube is completely stored or when a user needs to extract a sample, then the transmission belt is driven to flexibly rotate by controlling the driving motor, the cup passes through the cup outlet groove and is moved into the receiving tank, then the electromagnetic valve at the lower end of the sampling tube is opened to discharge a sample water source in the sampling tube into the receiving tank from the conical drainage tube, the sample water source can be ensured to stably flow into the cup on the transmission belt, then the transmission belt is controlled to move the cup out, the cup is convenient and flexible to use and take, and the user can place the cup on the transmission belt when wanting to store the cup in the shell and move the cup into the shell for storage, when the user needs to take the article, the user can easily take the article by opening the sealing cover, and the use is very convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a perspective view of the device of the present invention;

FIG. 2 is a front view of the device of FIG. 1;

FIG. 3 is a top view of the device of FIG. 1;

FIG. 4 is a perspective view of the device of FIG. 1 when the storage rack is not installed;

FIG. 5 is a front view of the device of FIG. 4;

FIG. 6 is a schematic view of the structure of the treatment tank shown in FIG. 1;

FIG. 7 is a front view of the device of FIG. 5;

FIG. 8 is a top view of the device shown in FIG. 5;

FIG. 9 is a schematic view of the water intake mechanism shown in FIG. 1;

FIG. 10 is a top view of the device of FIG. 9;

FIG. 11 is a perspective view of the conveyor mechanism shown in FIG. 5;

FIG. 12 is a perspective view of the storage rack and receiving tank of FIG. 1 mated together;

fig. 13 is a front view of the device of fig. 12.

In the figure: 1. a treatment tank; 11. a box shell; 110. a collar; 111. a housing; 112. a storage tank; 113. a sealing cover; 114. rotating the roller; 115. covering; 116. a strip-shaped groove; 117. an angle motor; 118. a drive gear; 12. a platen; 121. a middle groove; 122. a receiving tank; 123. a fitting sleeve; 124. a cup outlet groove; 13. a conveying mechanism; 131. a drive shaft; 132. a transfer belt; 133. a drive motor; 2. a water taking mechanism; 21. sampling a water pump; 22. a water suction hose; 23. a drainage mechanism; 231. a metal bent pipe; 232. a shielding cover; 233. a drain hole; 3. a storage rack; 31. a water storage shell; 311. an annular groove; 312. a gear plate; 32. a sampling tube; 33. a conical drain pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13, a timed sampling device for sewage treatment comprises a treatment box 1, a water intake mechanism 2 and a storage rack 3, wherein the treatment box 1 comprises a box shell 11 and a bedplate 12, the bedplate 12 and the water intake mechanism 2 can be stably installed through the box shell 11 by the structural arrangement of the treatment box 1, the treatment box 1 can also be used for storing corresponding cups, a receiving tank 122 can be stably installed by the user by the arrangement of the bedplate 12, the bedplate 12 is installed at the side surface of the box shell 11, the bedplate 12 is fixedly connected with the box shell 11, the timed sampling device for sewage treatment is designed by researching the structure and the using process of the traditional sewage sampling equipment, the timed sampling device for sewage treatment can be used for ensuring that the bedplate 12 and the water intake mechanism 2 can be stably installed through the box shell 11 when the user needs to use, the purpose of placing the receiving tank 122 is realized by ensuring that the bedplate 12 is stably arranged on the side surface of the case shell 11, meanwhile, the water taking mechanism 2 is ensured to be fixedly arranged on the upper end surface of the case shell 11 for stably taking water, and the water source samples after corresponding sampling can be stably stored in the case shell 11, so that a user can conveniently and integrally take the water source samples at regular intervals, meanwhile, the storage rack 3 is ensured to be stably arranged by arranging the lantern ring 110 on the case shell 11, the storage rack 3 can be flexibly and rotatably used on the lantern ring 110, the storage rack 3 is more stably arranged on the lantern ring 110 by arranging the annular groove 311 in the middle of the storage rack 3, the storage rack 3 is ensured to be safer in the rotating and using process, and the user can better control the rotating angle of the storage rack 3, and the angle motor 117 is fixedly arranged in the middle of the case shell 11, ensure that the user can control the rotation angle of the storage rack 3 by installing the driving gear 118 on the output end of the angle motor 117 and by the engagement between the driving gear 118 and the gear disc 312, and the user can control the rotation angle of the storage rack 3 accurately by controlling the output angle of the angle motor 117 and the angle rotation ratio between the driving gear 118 and the gear disc 312, so as to adjust different sampling pipes 32 to correspond to the head of the drainage mechanism 23, so that the user can attach corresponding labels to different sampling pipes 32 for distinguishing and marking, for example, when the sampling device needs to sample once every hour, the user can attach a label to each sampling pipe 32 every day, which water source sample is sampled at which time interval is convenient for the user to better distinguish, and when the sampling is needed, the user can stably turn over the buckle cover 115, the user can take out the water absorbing hose 22 wound and placed inside the storage box 112, so that the water absorbing hose 22 can be stably placed in a pool to be sampled, the sampling water pump 21 can be controlled to be started to stably pump water through the water absorbing hose 22 for sampling when the sampling time is reached, the sample water source is discharged from the drain hole 233 to the inside of the sampling tube 32 through the metal bent tube 231, then the angle motor 117 is started to drive the gear disc 312 to rotate by a corresponding angle, so that the next sampling tube 32 can be stably corresponding to the drain hole 233, the sampling in the next time period is facilitated, the water source samples collected in different times can be collected through different sampling tubes 32 in a reciprocating manner, and meanwhile, the sampling tube 32 is ensured to be shielded and used by the head shielding cover 232 of the drainage mechanism 23, when the sampling tube 32 is completely stored or a user needs to extract a sample, a cup can be placed on the transmission belt 132, then the transmission belt 132 is driven to rotate flexibly by controlling the driving motor 133, the cup passes through the cup discharging groove 124 and is moved into the receiving tank 122, then the electromagnetic valve at the lower end of the sampling tube 32 is opened to discharge the sample water source in the sampling tube 32 from the conical discharge tube 33 into the receiving tank 122, the sample water source can stably flow into the cup on the transmission belt 132, then the transmission belt 132 is controlled to move the cup out, the cup is convenient to use and take flexibly, and when the user wants to store the cup in the shell 111, the cup can be placed on the transmission belt 132 and can be moved into the shell 111 for storage, and when the user needs to take the cup, the user can take the cup easily by opening the sealing cover 113, the device is very convenient to use, and effectively solves the problems that the existing sewage sampling device is simple in structure, can only be used for sampling on site through a sampling mechanism in the actual use process simply, so that a user is inconvenient to use the device for sampling regularly, the time of operators is wasted if long-period interval water taking is needed, and meanwhile, the traditional sewage sampling device is not provided with a corresponding storage structure, so that the device is inconvenient to stably store samples extracted in different periods, and the flexibility of the whole use is poor;

the box shell 11 comprises a shell 111 and a storage box 112, the storage box 112 is arranged on the side surface of the shell 111, the storage box 112 is fixedly connected with the shell 111, a sealing cover 113 is arranged on the front end surface of the shell 111, the sealing cover 113 is rotatably connected with the shell 111, a rotating roller 114 is vertically arranged in the middle of the storage box 112, the rotating roller 114 is rotatably connected with the storage box 112, a buckle cover 115 is further arranged on the upper end surface of the storage box 112, the buckle cover 115 is rotatably connected with the storage box 112, the storage box 112 can be stably arranged through the shell 111 by the structural arrangement of the box shell 11, a user can stably wind and store the water suction hose 22 through the storage box 112 for use, the stable protection of the water suction hose 22 by the user can be ensured by the arrangement of the buckle cover 115, the safety of the water suction hose 22 can be ensured when the water suction hose is not used, and the service life of the equipment can be prolonged, the middle part of the storage box 112 is provided with the rotating roller 114 to ensure that a user can better wind the water absorbing hose 22 when not using the water absorbing hose, the front end surface of the shell 111 is provided with the sealing cover 113, the user can conveniently and flexibly open the shell 111 to ensure that the user can better take and place a cup for use, the middle part of the lower end surface of the shell 111 is provided with the strip-shaped groove 116, the strip-shaped groove 116 is fixedly arranged in the conveying mechanism 13, the conveying mechanism 13 comprises a transmission shaft 131 and a transmission belt 132, the transmission shaft 131 is symmetrically arranged at two ends of the transmission belt 132, the transmission shaft 131 is rotatably connected with the shell 111, the lower end surface of the shell 111 is also fixedly provided with a driving motor 133 matched with the transmission shaft 131, the output end of the driving motor 133 is connected with the transmission shaft 131, and the conveying mechanism 13 is arranged at the lower end of the shell 111 to ensure that the user can convey and move the cup for use through the arrangement of the strip-shaped groove 116, meanwhile, the conveying mechanism 13 is structurally arranged to ensure that a user can stably support the conveying belt 132 through the transmission shafts 131 at two ends, the conveying belt 132 is driven to rotate through the transmission shafts 131, and the conveying belt 132 can be flexibly controlled to move longitudinally and reversely by arranging the driving motor 133, so that the conveying mechanism is very flexible to use, the side surface of the shell 111 is provided with the lantern ring 110 matched with the annular groove 311, the lantern ring 110 is fixedly connected with the shell 111, the middle part of the shell 111 is also fixedly provided with the angle motor 117, the output end of the angle motor 117 is provided with the driving gear 118 meshed with the gear disc 312, the lantern ring 110 is arranged to ensure that the water storage shell 31 is better installed and used, meanwhile, the driving gear 118 is driven to stably rotate through the arrangement of the angle motor 117, and the gear disc 312 is driven to synchronously rotate through the driving gear 118, a middle groove 121 for installing a transmission belt 132 is formed in the middle of the bedplate 12, a receiving tank 122 is installed on the upper end face of the bedplate 12, the receiving tank 122 is fixedly connected with the bedplate 12, a matching sleeve 123 is arranged at the head of the receiving tank 122, the matching sleeve 123 and the receiving tank 122 are integrally formed, a cup outlet groove 124 is further formed in the side face of the receiving tank 122, the middle groove 121 is arranged to ensure that the transmission belt 132 can be stably installed in the middle of the bedplate 12, the transmission belt 132 can drive a cup to flexibly move on the bedplate 12, the matching sleeve 123 is arranged to ensure that the receiving tank 122 and a conical discharge pipe 33 are better matched with each other, a disc water source discharged by the conical discharge pipe 33 can better enter the receiving tank 122, and the cup outlet groove 124 is formed in the side face of the receiving tank 122 to facilitate the transmission belt 132 to drive the cup to better enter and exit from the receiving tank 122;

the water taking mechanism 2 is arranged on the upper end surface of the box shell 11, the water taking mechanism 2 is fixedly connected with the box shell 11, the user can be ensured to control the water taking mechanism 2 to adsorb a sampling water source for use in real time by arranging the sampling water pump 21, the water taking mechanism 2 comprises the sampling water pump 21, a water absorbing hose 22 and a drainage mechanism 23, the sampling water pump 21 is fixedly arranged on the upper end surface of the shell 111, the water absorbing hose 22 and the drainage mechanism 23 are respectively arranged on two sides of the sampling water pump 21, the drainage mechanism 23 is connected with a drainage outlet of the sampling water pump 21, one end of the water absorbing hose 22 is connected with a water absorbing port of the sampling water pump 21, the water absorbing hose 22 is wound inside the storage box 112, the structure arrangement of the water taking mechanism 2 is used for ensuring that the user can stably control the sampling water pump 21 to adsorb the water source from the water absorbing hose 22 for sampling use, and then the sampling water source is stably discharged into the sampling pipe 32 through the drainage mechanism 23, the drainage mechanism 23 comprises a metal bent pipe 231 and a shielding cover 232, the shielding cover 232 is installed at the head of the metal bent pipe 231, the shielding cover 232 is fixedly connected with the metal bent pipe 231, the shielding cover 232 is further provided with a drainage hole 233 corresponding to the head of the metal bent pipe 231, stable drainage using through the metal bent pipe 231 can be ensured by a user through the structural arrangement of the drainage mechanism 23, meanwhile, shielding using of the upper end of the sampling pipe 32 is ensured through the arrangement of the shielding cover 232, a brilliant duckweed water source in the sampling pipe 32 is ensured to be safer, and better drainage operation of the metal bent pipe 231 is ensured through the arrangement of the drainage hole 233;

the storage rack 3 is arranged above the bedplate 12, the storage rack 3 is rotatably connected with the box shell 11, the storage rack 3 is arranged to ensure that a user can stably and respectively take samples for use, the use is very convenient, the storage rack 3 comprises a water storage shell 31 and a sampling tube 32, the sampling tube 32 is uniformly arranged on the upper end surface of the water storage shell 31, the sampling tube 32 is vertically and fixedly connected with the water storage shell 31, the middle part of the water storage shell 31 is hollow, the lower end surface of the water storage shell 31 is provided with a conical drainage tube 33, the conical drainage tube 33 is integrally formed with the water storage shell 31, the lower end of the sampling tube 32 is communicated with the water storage shell 31, an electromagnetic valve is arranged between the sampling tube 32 and the water storage shell 31, the structural arrangement of the storage rack 3 is used for ensuring that the user can stably install the sampling tube 32 through the water storage shell 31, and the user can respectively take samples for use through the sampling tube 32, and can also demonstrate through sampling tube 32 and deposit the sample water source, guarantee the better discharge in the sample water source in sampling tube 32 through the setting to toper discharge tube 33, guarantee the break-make of control sampling tube 32 lower extreme that the user can be stable through the setting to the solenoid valve, the user gets up very nimble, ring channel 311 has been seted up to retaining shell 31, and still install toothed disc 312 on retaining shell 31's the lateral surface, toothed disc 312 and retaining shell 31 welded fastening, guarantee through the setting to ring channel 311 that retaining shell 31 can be stable install on lantern ring 110, guarantee better mutually supporting with drive gear 118 better through the setting to toothed disc 312 simultaneously.

The device obtained by the design can basically meet the use requirement of the timing sampling device for sewage treatment, but the designer further improves the device aiming at further perfecting the function of the device.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a sewage treatment is with timing sampling device, is including handling case (1), water intaking mechanism (2) and storage rack (3), its characterized in that: the treatment box (1) comprises a box shell (11) and a bedplate (12), wherein the bedplate (12) is installed on the side face of the box shell (11), the bedplate (12) is fixedly connected with the box shell (11), the water taking mechanism (2) is installed on the upper end face of the box shell (11), the water taking mechanism (2) is fixedly connected with the box shell (11), the storage rack (3) is arranged above the bedplate (12), and the storage rack (3) is rotatably connected with the box shell (11).

2. The timed sampling device for sewage treatment according to claim 1, wherein the housing (11) comprises a housing (111) and a storage tank (112), the storage tank (112) is mounted on the side surface of the housing (111), the storage tank (112) is fixedly connected with the housing (111), a sealing cover (113) is mounted on the front end surface of the housing (111), the sealing cover (113) is rotatably connected with the housing (111), a rotating roller (114) is vertically arranged in the middle of the storage tank (112), the rotating roller (114) is rotatably connected with the storage tank (112), a buckle cover (115) is further mounted on the upper end surface of the storage tank (112), and the buckle cover (115) is rotatably connected with the storage tank (112).

3. The timed sampling device for sewage treatment according to claim 2, characterized in that a strip-shaped groove (116) is formed in the middle of the lower end face of the housing (111), the strip-shaped groove (116) is fixedly installed in the conveying mechanism (13), the conveying mechanism (13) comprises a transmission shaft (131) and a transmission belt (132), the transmission shaft (131) is symmetrically arranged at two ends of the transmission belt (132), the transmission shaft (131) is rotatably connected with the housing (111), a driving motor (133) matched with the transmission shaft (131) is further fixedly installed on the lower end face of the housing (111), and an output end of the driving motor (133) is connected with the transmission shaft (131).

4. The timed sampling device for sewage treatment according to claim 3, characterized in that a middle groove (121) for installing a transmission belt (132) is formed in the middle of the bedplate (12), a receiving tank (122) is installed on the upper end face of the bedplate (12), the receiving tank (122) is fixedly connected with the bedplate (12), a matching sleeve (123) is arranged at the head of the receiving tank (122), the matching sleeve (123) and the receiving tank (122) are integrally formed, and a cup outlet groove (124) is formed in the side face of the receiving tank (122).

5. The timed sampling device for sewage treatment according to claim 4, characterized in that the water intake mechanism (2) comprises a sampling water pump (21), a water suction hose (22) and a drainage mechanism (23), the sampling water pump (21) is fixedly installed on the upper end face of the shell (111), the water suction hose (22) and the drainage mechanism (23) are respectively arranged on two sides of the sampling water pump (21), the drainage mechanism (23) is connected with a drainage port of the sampling water pump (21), one end of the water suction hose (22) is connected with a water suction port of the sampling water pump (21), and the water suction hose (22) is wound inside the storage box (112).

6. The timed sampling device for sewage treatment according to claim 5, wherein the drainage mechanism (23) comprises a metal bent pipe (231) and a shielding cover (232), the shielding cover (232) is installed at the head of the metal bent pipe (231), the shielding cover (232) is fixedly connected with the metal bent pipe (231), and a drainage hole (233) corresponding to the head of the metal bent pipe (231) is further formed in the shielding cover (232).

7. The timed sampling device for sewage treatment according to claim 6, wherein the storage rack (3) comprises a water storage shell (31) and a sampling tube (32), the sampling tube (32) is uniformly arranged on the upper end face of the water storage shell (31), the sampling tube (32) is vertically and fixedly connected with the water storage shell (31), the middle part of the water storage shell (31) is hollow, a conical drainage tube (33) is installed on the lower end face of the water storage shell (31), the conical drainage tube (33) and the water storage shell (31) are integrally formed, the lower end of the sampling tube (32) is mutually communicated with the water storage shell (31), and an electromagnetic valve is installed between the sampling tube (32) and the water storage shell (31).

8. The timed sampling device for sewage treatment according to claim 7, characterized in that the water storage shell (31) is provided with an annular groove (311), a gear disc (312) is further mounted on the outer side surface of the water storage shell (31), and the gear disc (312) is welded and fixed with the water storage shell (31).

9. A timed sampling device for sewage treatment according to claim 8, characterized in that a collar (110) matched with the annular groove (311) is installed on the side of the casing (111), the collar (110) is fixedly connected with the casing (111), an angle motor (117) is also fixedly installed in the middle of the casing (111), and a driving gear (118) meshed with the gear disc (312) is installed at the output end of the angle motor (117).

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