CN210571536U

CN210571536U - Sampling device for sewage detection

Info

Publication number: CN210571536U
Application number: CN201921017658.8U
Authority: CN
Inventors: 王和平; 张昊哲; 贺承荣; 申创
Original assignee: Chengdu Highland Tech Co ltd
Current assignee: Chengdu Highland Tech Co ltd
Priority date: 2019-07-02
Filing date: 2019-07-02
Publication date: 2020-05-19
Anticipated expiration: 2029-07-02

Abstract

The utility model discloses a sampling device for sewage detection, include: the device comprises a platform, a buoyancy air bag, a hole I, a hole II, a sampling part, a winch, a rope, a pulley, a water pump, a water pumping pipe, a water outlet pipe, a power supply, a control box and a collecting part; the sampling part includes: the device comprises a shell, a balancing weight, a sonar probe, a water taking cavity and M water taking holes; the collecting part includes: the device comprises a fluted disc, a first gear, a second gear, a first motor, a fixed seat and N collecting bottles; the buoyancy gasbag sets up in the bottom of platform, and hole one sets up in the middle of the platform, hole two sets up in the centre of buoyancy gasbag, and hole one and hole two link up, and the capstan winch setting is on the platform, and the sample portion passes through the rope and is connected with the capstan winch, and the rope passes hole one, hole two, and the pulley setting is on the platform, and the rope is pressed on the pulley. The utility model discloses a set up platform, buoyancy gasbag, hole one, hole two, sample portion, capstan winch, rope, pulley and realized the effect quick, the accurate sample to the sewage of different positions, degree of depth.

Description

Sampling device for sewage detection

Technical Field

The utility model relates to a sampling device especially indicates a sampling device for sewage detection.

Background

In the engineering of sewage purification or sewage treatment, sewage needs to be detected, the first step of detection is sewage sampling, and whether the sewage can be accurately and quickly sampled is very important.

Among the prior art, need artifically take out in aqueous with the container to the sewage sample, can't be accurate samples the sewage of the different degree of depth, and the sample must be rowing boat in the middle of lake or river in the past, and is very inconvenient to sample speed is slow, can't take a sample the sewage of the different degree of depth of different positions fast, and the ten minutes is unfavorable for the research of quality of water.

Based on above circumstances, need for a sampling device for sewage detection urgently to solve above sewage sample and can't sample to the sewage of the different degree of depth of different positions fast, and sample inconvenient problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a sampling device for sewage detection, include:

the device comprises a platform, a buoyancy air bag, a hole I, a hole II, a sampling part, a winch, a rope, a pulley, a water pump, a water pumping pipe, a water outlet pipe, a power supply, a control box and a collecting part; the sampling part includes: the device comprises a shell, a balancing weight, a sonar probe, a water taking cavity and M water taking holes; the collecting part includes: the device comprises a fluted disc, a first gear, a second gear, a first motor, a fixed seat and N collecting bottles;

the buoyancy air bag is arranged at the bottom of the platform, the first hole is arranged in the middle of the platform, the second hole is arranged in the middle of the buoyancy air bag, the first hole is communicated with the second hole, the winch is arranged on the platform, the sampling part is connected with the winch through a rope, the rope penetrates through the first hole and the second hole, the pulley is arranged on the platform, the rope presses on the pulley, the water pump is arranged on the platform, two ends of a water pumping pipe are connected with the sampling part and the water pump, a water outlet pipe is arranged on the water pump, a power supply is arranged on the platform, a control box is arranged on the platform, a collecting part is arranged on the platform, a sonar probe is arranged at the bottom of the shell, the sonar probe is in signal connection with the control box, a balancing weight is arranged at the lower part of the shell, a water taking cavity is arranged in the middle of the shell, M water taking holes are arranged on the water taking cavity, the water taking cavity is connected with the water pumping, the second gear is arranged on an output shaft of the first motor, the fluted disc is meshed with the first gear, the first gear is meshed with the second gear, the N collecting bottles are annularly arranged on the fluted disc, the water outlet pipe is aligned to the top opening of each collecting bottle, the control box is in control connection with the winch, the water pump and the first motor, and the M, N is larger than 1.

Preferably, the method further comprises the following steps: support, drive hanging machine, turn to motor, wireless module, the support sets up on the platform, and the rotatable setting of drive hanging machine is on the support, turns to the motor setting on the support, and wireless module sets up on the control box, and wireless module and control box signal connection, control box and drive hanging machine, turn to motor control connection.

Preferably, a waterproof cover is further included, which covers the collecting part.

Preferably, the housing is drop-shaped.

The utility model discloses at least, include following beneficial effect:

in the scheme, by arranging a platform, a buoyancy air bag arranged at the bottom of the platform, a hole I arranged in the middle of the platform, a hole II arranged in the middle of the buoyancy air bag, a hole I and a hole II communicated with each other, a winch arranged on the platform, a sampling part connected with the winch through a rope, the rope penetrates through the hole I and the hole II, a pulley arranged on the platform, the rope presses on the pulley, a water pump arranged on the platform, a water pumping pipe with two ends connected with the sampling part and the water pump, a water outlet pipe arranged on the water pump, a power supply arranged on the platform, a control box arranged on the platform, a collecting part arranged on the platform, a sonar probe arranged at the bottom of the shell, the sonar probe is in signal connection with the control box, a balancing weight arranged at the lower part of the shell, a water taking cavity arranged at the middle part of the shell, M water taking holes arranged on the water taking cavity, and the water taking cavity is, the device comprises a fluted disc and a gear I which are rotatably connected on a platform, a motor I which is arranged on the platform through a fixing seat, a gear II which is arranged on an output shaft of the motor I, the fluted disc is meshed with the gear I, the gear I is meshed with the gear II, N collecting bottles are arranged on the fluted disc, a water outlet pipe is aligned to the top opening of the collecting bottles, a control box is in control connection with a capstan, a water pump and a motor I, M, N is more than 1, thus, the sonar probe detects the water depth, the control box controls the capstan to place a sampling part to a preset water depth through releasing a rope according to a signal output level signal of the sonar probe, a balancing weight accelerates the sinking of the sampling part and reduces the amplitude of the sampling part which is impacted and swung by water flow, the control box controls the water pump to take water through a water pumping pipe, a water taking cavity and a water taking hole, the taken water is injected into, the first motor drives the fluted disc to rotate through the second gear and the first gear, so that the collecting bottle is driven to move, the empty collecting bottle is aligned to the water outlet pipe, and the water pump sucks the sewage of the depth into the collecting bottle, so that the sampling efficiency is greatly improved, and the sampling precision of different depths is improved. Simultaneously, in this scheme, through setting up the support on the platform, and the drive on-hook of setting on the support, the motor that turns to of setting on the support, the wireless module of setting on the control box, wireless module and control box signal connection, the control box with drive on-hook, turn to motor control and be connected, thus, the staff can control sampling device through wireless module control drive on-hook and advance or retreat ashore, turn to motor control sampling device through control and turn to, thereby can reach different positions by remote control sampling device and take a sample, the trouble of people's rowing go the sample has been avoided, the efficiency of sample has still been improved. Simultaneously, in this scheme, through setting up the buckler that covers the collection portion, like this, can avoid outside water or rainwater to get into the composition that the receiving flask has influenced sewage. Simultaneously, in this scheme, the shell is the water droplet shape, and like this, the shell of water droplet shape can reduce the resistance in aqueous, increases its speed of sinking to reduce the interference of rivers.

Drawings

Fig. 1 is a schematic structural diagram of a specific embodiment of the sampling device for sewage detection of the present invention.

Fig. 2 is a partial schematic view of the position a of the present invention.

Description of the drawings: 1-platform, 2-buoyancy air bag, 3-hole I, 4-hole II, 5-winch, 6-rope, 7-pulley, 8-water pump, 9-water pumping pipe, 10-water outlet pipe, 11-power supply, 12-control box, 13-shell, 14-counterweight, 15-sonar probe, 16-water taking cavity, 17-water taking hole, 18-fluted disc, 19-gear I, 20-gear II, 21-motor I, 22-fixing seat, 23-collecting bottle, 24-bracket, 25-driving hanging machine, 26-steering motor, 27-wireless module and 28-waterproof cover.

Detailed Description

The embodiments of the present invention will be described in more detail below with reference to the accompanying drawings and reference numerals, so that those skilled in the art can implement the embodiments after studying the specification. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "upper", "horizontal", "inner", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Fig. 1-2 show the utility model discloses a sampling device for sewage detection, include:

the device comprises a platform 1, a buoyancy airbag 2, a first hole 3, a second hole 4, a sampling part, a winch 5, a rope 6, a pulley 7, a water pump 8, a water pumping pipe 9, a water outlet pipe 10, a power supply 11, a control box 12 and a collecting part; the sampling part includes: the device comprises a shell 13, a balancing weight 14, a sonar probe 15, a water taking cavity 16 and M water taking holes 17; the collecting part includes: the device comprises a fluted disc 18, a first gear 19, a second gear 20, a first motor 21, a fixed seat 22 and N collecting bottles 23;

the buoyancy air bag 2 is arranged at the bottom of the platform 1, the first hole 3 is arranged in the middle of the platform 1, the second hole 4 is arranged in the middle of the buoyancy air bag 2, the first hole 3 is communicated with the second hole 4, the winch 5 is arranged on the platform 1, the sampling part is connected with the winch 5 through the rope 6, the rope 6 passes through the first hole 3 and the second hole 4, the pulley 7 is arranged on the platform 1, the rope 6 presses on the pulley 7, the water pump 8 is arranged on the platform 1, two ends of the water pumping pipe 9 are connected with the sampling part and the water pump 8, the water outlet pipe 10 is arranged on the water pump 8, the power supply 11 is arranged on the platform 1, the control box 12 is arranged on the platform 1, the collecting part is arranged on the platform 1, the sonar probe 15 is arranged at the bottom of the shell 13, the sonar probe 15 is in signal connection with the control box 12, the balancing weight 14 is arranged at the lower part of the shell 13, the water taking cavity 16 is arranged at, the water taking cavity 16 is connected with the water pumping pipe 9, the fluted disc 18 is rotatably arranged on the platform 1, the first gear 19 is rotatably arranged on the platform 1, the first motor 21 is arranged on the platform 1 through the fixing seat 22, the second gear 20 is arranged on an output shaft of the first motor 21, the fluted disc 18 is meshed with the first gear 19, the first gear 19 is meshed with the second gear 20, the N collecting bottles 23 are annularly arranged on the fluted disc 18, the water outlet pipe 10 is aligned to the top opening of the collecting bottles 23, the control box 12 is in control connection with the winch 5, the water pump 8 and the first motor 21, and the M, N is larger than 1.

By adopting the scheme, by arranging the platform 1, the buoyancy air bag 2 arranged at the bottom of the platform 1, the hole I3 arranged in the middle of the platform 1, the hole II 4 arranged in the middle of the buoyancy air bag 2, the hole I3 and the hole II 4 are communicated, the winch 5 arranged on the platform 1 is provided with the sampling part connected with the winch 5 through the rope 6, the rope 6 passes through the hole I3 and the hole II 4, the pulley 7 arranged on the platform 1 is pressed by the rope 6, the water pump 8 arranged on the platform 1 is provided with the water pumping pipe 9 with two ends connected with the sampling part and the water pump 8, the water outlet pipe 10 arranged on the water pump 8, the power supply 11 arranged on the platform 1, the control box 12 arranged on the platform 1, the collecting part arranged on the platform 1, the sonar probe 15 arranged at the bottom of the shell 13, the type of the sonar tower head 15 is FFW1108-1, the sonar probe 15 is in signal connection with the control box 12, a balancing weight 14 arranged at the lower part of a shell 13, a water taking cavity 16 arranged at the middle part of the shell 13, M water taking holes 17 arranged on the water taking cavity 16, the water taking cavity 16 is connected with a water pumping pipe 9, a fluted disc 18 and a gear wheel 19 which are rotatably connected on a platform 1 are arranged, a motor wheel 21 which is arranged on the platform 1 through a fixed seat 22 is arranged, a gear wheel 20 arranged on an output shaft of the motor wheel 21 is arranged, the fluted disc 18 is meshed with the gear wheel 19, the gear wheel 19 is meshed with the gear wheel 20, N collecting bottles 23 arranged on the fluted disc 18, a water outlet pipe 10 is aligned with the opening at the top of the collecting bottles 23, a control box 12 is in control connection with a winch 5, a water pump 8 and the motor wheel 21, M, N is more than 1, thus, the sonar probe 15 detects the water depth, the control box 12 outputs a level signal according to the signal of the sonar probe 15 to control the winch 5 to place a, the balancing weight 14 is with higher speed that the sample portion sinks and reduces its range that receives rivers impact swing, control box 12 control water pump 8 passes through the drinking-water pipe 9, the chamber of fetching water 16, the hole 17 of fetching water gets, the water that gets up pours into the receiving flask 23 through outlet pipe 10, then capstan winch 5 continues to let the sample portion sink, motor 21 passes through two gears 20, gear 19 drive fluted disc 18 rotates, and then drive receiving flask 23 removes, the outlet pipe 10 is aimed at to empty receiving flask 23, water pump 8 is in the sewage suction receiving flask 23 of this degree of depth, thereby realized fast, the effect of automatic sewage sample collection to the different degree of depth, the sampling efficiency is greatly improved, and the precision to the different degree of depth sample has been improved.

In another example, the method further comprises: the device comprises a support 24, a driving hanging machine 25, a steering motor 26 and a wireless module 27, wherein the support 24 is arranged on the platform 1, the driving hanging machine 25 is rotatably arranged on the support 24, the steering motor 26 is arranged on the support 24, the wireless module 27 is arranged on the control box 12, the wireless module 27 is in signal connection with the control box 12, and the control box 12 is in control connection with the driving hanging machine 25 and the steering motor 26.

Adopt this kind of scheme, through setting up support 24 on platform 1, and the drive on-hook 25 of setting on support 24, the steering motor 26 of setting on support 24, the wireless module 27 of setting on control box 12, wireless module 27 and control box 12 signal connection, control box 12 and drive on-hook 25, steering motor 26 control connection, thus, the staff can control the drive on-hook 25 through wireless module 27 and control the sampling device and advance or retreat ashore, turn to the motor 26 through the control and control the sampling device and turn to, thereby can reach different positions by remote control sampling device and take a sample, the trouble of people's rowing removal sample has been avoided, the efficiency of sample has still been improved.

In another example, a waterproof cover 28 is further included, and the waterproof cover 28 covers the collecting part.

With this arrangement, by providing the waterproof cover 28 covering the collecting portion, it is possible to prevent external water or rainwater from entering the collecting bottle 23 and affecting the composition of the sewage.

In another example, the housing 13 is drop-shaped.

With this arrangement, the housing 13 is drop-shaped, so that the drop-shaped housing 13 can reduce resistance in water, increase the speed at which it sinks, and reduce disturbance of water flow.

While the embodiments of the invention have been described above, it is not intended to be limited to the details shown, or described, but rather to cover all modifications, which would come within the scope of the appended claims, and all changes which come within the meaning and range of equivalency of the art are therefore intended to be embraced therein.

Claims

1. The utility model provides a sampling device for sewage detection which characterized in that includes: the device comprises a platform (1), a buoyancy air bag (2), a first hole (3), a second hole (4), a sampling part, a winch (5), a rope (6), a pulley (7), a water pump (8), a water pumping pipe (9), a water outlet pipe (10), a power supply (11), a control box (12) and a collecting part; the sampling part includes: the device comprises a shell (13), a balancing weight (14), a sonar probe (15), a water taking cavity (16) and M water taking holes (17); the collecting part includes: the device comprises a fluted disc (18), a first gear (19), a second gear (20), a first motor (21), a fixed seat (22) and N collecting bottles (23);

the buoyancy gasbag (2) is arranged at the bottom of the platform (1), a hole I (3) is arranged in the middle of the platform (1), a hole II (4) is arranged in the middle of the buoyancy gasbag (2), the hole I (3) and the hole II (4) are communicated, a winch (5) is arranged on the platform (1), a sampling part is connected with the winch (5) through a rope (6), the rope (6) passes through the hole I (3), the hole II (4), a pulley (7) is arranged on the platform (1), the rope (6) is pressed on the pulley (7), a water pump (8) is arranged on the platform (1), two ends of a water pumping pipe (9) are connected with the sampling part and the water pump (8), a water outlet pipe (10) is arranged on the water pump (8), a power supply (11) is arranged on the platform (1), a control box (12) is arranged on the platform (1), a collecting part is arranged on the platform (1), a sound probe (15) is arranged at the bottom of the shell (13), sonar probe (15) and control box (12) signal connection, balancing weight (14) set up in shell (13) lower part, water cavity (16) set up in shell (13) middle part, M water intake hole (17) set up on water cavity (16), water cavity (16) are connected with drinking-water pipe (9), fluted disc (18) rotatable setting is on platform (1), gear (19) rotatable setting is on platform (1), motor (21) set up on platform (1) through fixing base (22), gear (20) set up on the output shaft of motor (21), fluted disc (18) and gear (19) mesh, gear (19) and gear (20) mesh, N collecting flask (23) are the cyclic annular setting on fluted disc (18), outlet pipe (10) aim at collecting flask (23) top opening part, control box (12) and capstan winch (5), water pump (8), And the motors I (21) are in control connection, and the M, N are all larger than 1.

2. The sampling device for wastewater detection according to claim 1, further comprising: support (24), drive hanging machine (25), turn to motor (26), wireless module (27), support (24) set up on platform (1), and drive hanging machine (25) is rotatable to be set up on support (24), turns to motor (26) and sets up on support (24), and wireless module (27) set up on control box (12), and wireless module (27) and control box (12) signal connection, control box (12) and drive hanging machine (25), turn to motor (26) control connection.

3. The sampling device for wastewater detection according to claim 1, further comprising a waterproof cover (28), wherein the waterproof cover (28) covers the collection portion.

4. The sampling device for wastewater detection according to claim 1, wherein the housing (13) is drop-shaped.