CN222013634U

CN222013634U - A new water quality detection device

Info

Publication number: CN222013634U
Application number: CN202420488085.1U
Authority: CN
Inventors: 张东发; 张岩; 陈旭; 李明明; 程素敏; 赵帆; 莫永亮; 蔡洁; 陈曦; 康爱华
Original assignee: Tianjin Geological And Mineral Testing Center
Current assignee: Tianjin Geological And Mineral Testing Center
Priority date: 2024-03-13
Filing date: 2024-03-13
Publication date: 2024-11-15
Anticipated expiration: 2034-03-13

Abstract

The utility model relates to the field of water quality detection devices, in particular to a novel water quality detection device. Technical problems: the water quality detector in the prior art is generally inconvenient to quickly take water on site, inconvenient to quickly penetrate into water with a water taking structure to the needed depth for taking water under water, and inconvenient to aggravate the water taking structure during use. The technical scheme is as follows: a novel water quality detection device comprises a support component; the device also comprises a detection assembly, a paying-off assembly, a positioning assembly, a rotating assembly and a water taking assembly. According to the utility model, the water taking assembly is driven to rotate by opening the rotating assembly, so that water of a specific depth can be quickly collected, then the rotating assembly is opened to enable the water taking assembly to be closed, the paying-off assembly is opened to retrieve the rotating assembly, so that the water of the specific depth can be retrieved after being collected, and the heavy ring is conveniently sleeved on the outer wall of the water taking pipe, so that the sinking of the water taking pipe is facilitated, and the technical problem proposed above is solved.

Description

Novel water quality detection device

Technical Field

The utility model belongs to the field of water quality detection devices, and particularly relates to a novel water quality detection device.

Background

With the increasing demands of environmental protection and human health consciousness, the requirements for water quality monitoring and protection are increasing, and the traditional water quality detection equipment is generally limited by the problems of huge volume, complex operation, long detection period, requirement for professional operation and the like, so that the popularization and convenience of the traditional water quality detection equipment in practical application are limited, the water quality detector in the prior art is generally inconvenient to quickly take water on site, the water taking structure is inconvenient to quickly penetrate into the water with the required depth, and the water taking structure is inconvenient to be aggravated during use, so that the water quality detection equipment needs to be further improved.

Disclosure of utility model

In order to solve the problems that the water quality detector in the prior art is generally inconvenient to quickly take water on site, inconvenient to quickly penetrate into water with a required depth, and inconvenient to aggravate the water taking structure during use.

The technical scheme of the utility model is as follows: a novel water quality detection device comprises a support component; the device also comprises a detection assembly, a paying-off assembly, a positioning assembly, a rotating assembly and a water taking assembly; the upper end of the supporting component is provided with a detection component for water quality detection; a paying-off assembly for paying off is arranged in the supporting assembly; the upper end of the supporting component is provided with a positioning component for positioning the paying-off component; the paying-off assembly is provided with a rotating assembly for starting the water taking assembly to take water; the rotating component is provided with a water taking component for taking in water.

Preferably, during the use, remove the position that is fit for the water intaking with supporting component, take out the unwrapping wire subassembly from supporting component in, then utilize locating component to fix the unwrapping wire subassembly spacing on supporting component, open the unwrapping wire subassembly and can drop the rotation subassembly to the water of specific degree of depth in, then open rotation subassembly and drive water intaking subassembly and rotate, just can collect the water of specific degree of depth fast, then open rotation subassembly and make water intaking subassembly closed, open the unwrapping wire subassembly and retrieve the rotation subassembly, can retrieve the water of specific degree of depth after gathering, water quality detector among the prior art generally is inconvenient to get water fast in the scene, inconvenient water intaking structure is fast deep in the problem of taking water under the water of required degree of depth.

Preferably, the supporting component comprises a supporting plate, a roller, a main controller and a first wireless transceiver; the edges of four corners at the lower end of the supporting plate are fixedly connected with idler wheels; the upper end of the supporting plate is fixedly connected with a main controller; the outer wall rigid coupling of main control unit has first wireless transceiver, and during the use, the backup pad can conveniently remove detection component.

Preferably, the detection assembly comprises a bearing plate, a water quality detector, a groove, a U-shaped block and a detection head; the upper end of the main controller is fixedly connected with a bearing plate; the upper end of the bearing plate is fixedly connected with a water quality detector; the upper end of the bearing plate is provided with evenly distributed grooves; the inner wall of the groove is fixedly connected with a U-shaped block; the water quality detector is connected with a detection head, after water taking is completed, the water body can be rapidly detected by the detection head, and the detection head can be placed in the U-shaped block for temporary storage when not used.

Preferably, the paying-off assembly comprises a first groove body, a movable plate, an ear plate, a roller body, a rope, a second groove body, a first motor and a first positioning hole; the right end of the supporting plate is provided with a first groove body; the inner wall of the first groove body is movably provided with a movable plate; the upper end of the movable plate is fixedly connected with two ear plates; a roller body is rotatably arranged between the two ear plates; the left end of the ear plate is fixedly connected with a first motor; the right end of the output shaft of the first motor penetrates through the lug plate and is fixedly connected to the left end of the roller body; the outer wall of the roller body is wound with a rope; the outer wall of the rope is provided with second groove bodies which are uniformly distributed; one meter is separated between the two second groove bodies; the upper and lower both ends of fly leaf are run through and are offered evenly distributed's first locating hole, when needing to transfer to rotating assembly, open first motor and make the roll body rotate, and the cotton rope will be turned off, will transfer rotating assembly, and the setting of second cell body is convenient confirms the distance of transferring.

Preferably, the positioning assembly comprises a second positioning hole and a positioning rod; the upper end and the lower end of the supporting plate are provided with second positioning holes in a penetrating way; the inner wall of the second positioning hole and the inner wall of the first positioning hole are positioned on the same plane; the inner walls of the second positioning hole and the first positioning hole are movably provided with positioning rods; the locating lever is the shape of falling "U", places the locating lever at the inner wall of second locating hole and first locating hole, can be with the fly leaf spacing in the backup pad, realizes the stable placing of fly leaf.

Preferably, the rotating assembly comprises a sealing box, a first internal thread cylinder, a bracket, a second motor, a rotating column, a through hole, a control box, a second wireless transceiver and a storage battery; thread on outer wall of lower end of wire rope a first internal thread cylinder is arranged; the lower end of the first internal thread cylinder is fixedly connected with a sealing box; the inner wall of the upper end of the sealing box is fixedly connected with a bracket; the inner wall of the bracket is fixedly connected with a second motor; the output shaft of the second motor is fixedly connected with a rotating column; and one end of the sealing box is penetrated and provided with a through hole, and when the water taking assembly is required to rotate, the second motor is started to enable the rotating column to rotate, so that the water taking assembly can be driven to rotate.

Preferably, the water taking assembly comprises a water taking pipe, a rotating cylinder, a water taking body, a threaded column, a second internal threaded cylinder and a heavy ring; the other end of the rotating column is fixedly connected with a water intake pipe; the water intake pipe is close to the center of the sealing box a rotating cylinder is fixedly connected at one end of the cylinder; the outer wall of the rotary cylinder is attached to the inner wall of the through hole; the other end of the sealing box is fixedly connected with a water taking body; the water intake pipe is U-shaped; one end of the water intake pipe close to the water intake body attaching a water inlet of the water intake body; the lower end of the water intake pipe is fixedly connected with a threaded column; the outer wall of the threaded column is provided with a second internal thread cylinder in a threaded manner; the outer wall cover of water intake pipe is equipped with heavy ring, and heavy ring overlaps always and establishes on the outer wall of water intake pipe, then opens the second motor and makes the rotation post drive water intake pipe rotate, and the water inlet end of water intake pipe will follow the water inlet end of water intake body and shift out, will collect the water around, then opens the second motor again and make the water inlet end of water intake pipe and the water inlet end counterpoint of water intake body sealed, can collect the water of specific degree of depth in the water intake pipe and in the water intake body, convenient quick sample.

The utility model has the beneficial effects that:

1. The water quality detector solves the problems that a water quality detector in the prior art is generally inconvenient to quickly take water in the site and inconvenient to quickly take water in the water with the required depth by opening the paying-off assembly to enable the rotating assembly to be lowered into water with the specific depth, then opening the rotating assembly to drive the water taking assembly to rotate, quickly collecting water with the specific depth, then opening the rotating assembly to enable the water taking assembly to be closed, opening the paying-off assembly to retrieve the rotating assembly, and then retrieving the water with the specific depth;

2. The heavy rings are sleeved on the outer wall of the water intake pipe all the time, so that the gravity of the water intake pipe can be increased, the water intake assembly is convenient to sink, a plurality of heavy rings can be sleeved on the outer wall of the water intake pipe according to the requirement, the problem that a water intake structure is inconvenient to weigh during use is solved, then the second motor is started to drive the water intake pipe to rotate, the water inlet end of the water intake pipe is moved out from the water inlet end of the water intake body, surrounding water is collected, then the second motor is started again to enable the water inlet end of the water intake pipe and the water inlet end of the water intake body to be aligned and sealed, the water with a specific depth can be collected in the water intake pipe and the water intake body, and rapid sampling and sealing at the specific depth are facilitated;

3. Through setting up the second cell body to and the setting of a meter between two second cell bodies, conveniently confirm and transfer the distance, make the roll body rotate through opening first motor, the cotton rope will be turned off, will transfer rotating assembly, through setting up the locating lever, place the locating lever at the inner wall in second locating hole and first locating hole, can be with the fly leaf spacing in the backup pad, realize the stable placing of fly leaf, convenient to the fixed of fly leaf.

Drawings

FIG. 1 shows a schematic perspective view of a novel water quality testing device of the present utility model;

FIG. 2 is a schematic perspective view showing a support assembly of the novel water quality testing apparatus of the present utility model;

FIG. 3 is a schematic perspective view showing a detecting assembly of the novel water quality detecting device according to the present utility model;

FIG. 4 shows a schematic view of a three-dimensional split construction of a support assembly and a pay-off assembly of a novel water quality testing device of the present utility model;

FIG. 5 is a schematic view showing a three-dimensional cross-sectional structure of a rotating assembly and a water intake assembly of the novel water quality detecting device of the present utility model;

FIG. 6 is a schematic view showing a three-dimensional cross-sectional structure of a seal box of the novel water quality detecting apparatus of the present utility model;

FIG. 7 is a schematic perspective view showing a water intake assembly of the novel water quality detecting device according to the present utility model.

The marks in the drawings are: the device comprises a 1-supporting component, a 101-supporting plate, 102-rollers, 103-main controllers, 104-first wireless transceivers, 2-detecting components, 201-supporting plates, 202-water quality detectors, 203-grooves, 204-U-shaped blocks, 205-detecting heads, 3-paying-off components, 301-first groove bodies, 302-movable plates, 303-lug plates, 304-roller bodies, 305-wire ropes, 306-second groove bodies, 307-first motors, 308-first positioning holes, 4-positioning components, 401-second positioning holes, 402-positioning rods, 5-rotating components, 501-sealing boxes, 502-first inner threaded cylinders, 503-brackets, 504-second motors, 505-rotating cylinders, 506-through holes, 507-control boxes, 508-second wireless transceivers, 509-storage batteries, 6-paying-off components, 601-water taking pipes, 602-rotating cylinders, 603-water taking bodies, 604-threaded cylinders, 605-second inner threaded cylinders, 606-heavy rings.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1, the present utility model provides an embodiment: a novel water quality detection device comprises a support component 1; the device also comprises a detection assembly 2, a paying-off assembly 3, a positioning assembly 4, a rotating assembly 5 and a water taking assembly 6; the upper end of the supporting component 1 is provided with a detection component 2 for water quality detection; a paying-off assembly 3 for paying off is arranged in the supporting assembly 1; the upper end of the supporting component 1 is provided with a positioning component 4 for positioning the paying-off component 3; the paying-off assembly 3 is provided with a rotating assembly 5 for starting the water taking assembly 6 to take water; the rotating assembly 5 is provided with a water intake assembly 6 for taking in water.

Referring to fig. 2 and 3, in the present embodiment, the support assembly 1 includes a support plate 101, a roller 102, a main controller 103, and a first wireless transceiver 104; the four corners of the lower end of the supporting plate 101 are fixedly connected with rollers 102; a main controller 103 is fixedly connected to the upper end of the supporting plate 101; the outer wall of the main controller 103 is fixedly connected with a first wireless transceiver 104; the detection assembly 2 comprises a bearing plate 201, a water quality detector 202, a groove 203, a U-shaped block 204 and a detection head 205; the upper end of the main controller 103 is fixedly connected with a bearing plate 201; the upper end of the bearing plate 201 is fixedly connected with a water quality detector 202; the upper end of the bearing plate 201 is provided with evenly distributed grooves 203; the inner wall of the groove 203 is fixedly connected with a U-shaped block 204; the water quality detector 202 is connected with a detection head 205.

Referring to fig. 4, in this embodiment, the pay-off assembly 3 includes a first slot 301, a movable plate 302, an ear plate 303, a roller 304, a wire 305, a second slot 306, a first motor 307 and a first positioning hole 308; the right end of the supporting plate 101 is provided with a first groove 301; the inner wall of the first groove 301 is movably provided with a movable plate 302; two lug plates 303 are fixedly connected to the upper end of the movable plate 302; a roller body 304 is rotatably arranged between the two lug plates 303; the left end of the ear plate 303 is fixedly connected with a first motor 307; the right end of the output shaft of the first motor 307 penetrates through the lug plate 303 and is fixedly connected to the left end of the roller body 304; the outer wall of the roller body 304 is wound with a rope 305; the outer wall of the rope 305 is provided with second groove bodies 306 which are uniformly distributed; one meter apart between the two second tanks 306; the upper and lower ends of the movable plate 302 are provided with first positioning holes 308 which are uniformly distributed in a penetrating way; the positioning assembly 4 comprises a second positioning hole 401 and a positioning rod 402; the upper and lower ends of the supporting plate 101 are provided with second positioning holes 401 in a penetrating way; the inner wall of the second positioning hole 401 and the inner wall of the first positioning hole 308 are in the same plane; the inner walls of the second positioning hole 401 and the first positioning hole 308 are movably provided with a positioning rod 402; the positioning bar 402 is inverted "U" shaped.

Referring to fig. 5-7, in the present embodiment, the rotating assembly 5 includes a sealing box 501, a first internal threaded cylinder 502, a bracket 503, a second motor 504, a rotating post 505, a through hole 506, a control box 507, a second wireless transceiver 508, and a battery 509; a first internal thread cylinder 502 is arranged on the outer wall of the lower end of the thread rope 305 in a threaded manner; a seal box 501 is fixedly connected to the lower end of the first internal thread cylinder 502; a bracket 503 is fixedly connected to the inner wall of the upper end of the sealing box 501; the inner wall of the bracket 503 is fixedly connected with a second motor 504; the output shaft of the second motor 504 is fixedly connected with a rotating column 505; one end of the sealing box 501 is provided with a through hole 506; the water intake assembly 6 comprises a water intake pipe 601, a rotary cylinder 602, a water intake 603, a threaded column 604, a second internal threaded cylinder 605 and a heavy ring 606; the other end of the rotary column 505 is fixedly connected with a water intake pipe 601; the water intake pipe 601 is near the center of the seal box 501 a rotating cylinder 602 is fixedly connected to one end of the cylinder; the outer wall of the rotary cylinder 602 is attached to the inner wall of the through hole 506; the other end of the sealing box 501 is fixedly connected with a water intake 603; the water intake pipe 601 is U-shaped; one end of the water intake pipe 601, which is close to the water intake body 603, is attached to the water intake port of the water intake body 603; a threaded column 604 is fixedly connected to the lower end of the water intake pipe 601; the outer wall of the threaded column 604 is threadedly mounted with a second internal threaded cylinder 605; the outer wall of the water intake pipe 601 is sleeved with a heavy ring 606.

When working, firstly, the movable plate 302 is pulled out to a proper position from the inner wall of the first groove body 301, then the positioning rod 402 is placed on the inner walls of the second positioning hole 401 and the first positioning hole 308, and the movable plate 302 can be limited on the supporting plate 101;

When the rotating assembly 5 needs to be lowered, the first motor 307 is started to enable the roller body 304 to rotate, the rope 305 is turned away, the rotating assembly 5 is lowered, and the lowering distance is confirmed by the arrangement of two second groove bodies 306 at a distance of one meter;

The heavy ring 606 is sleeved on the outer wall of the water intake pipe 601 all the time, then the first wireless transceiver 104 is started through the main controller 103, the first wireless transceiver 104 sends signals to the second wireless transceiver 508, then the control box 507 starts the second motor 504 to enable the rotary column 505 to drive the water intake pipe 601 to rotate, the water inlet end of the water intake pipe 601 moves out of the water inlet end of the water intake body 603, surrounding water is collected, and then the second motor 504 is started again to enable the water inlet end of the water intake pipe 601 and the water inlet end of the water intake body 603 to be aligned and sealed, so that water with a specific depth can be collected in the water intake pipe 601 and the water intake body 603, and rapid underwater sampling with the specific depth is facilitated;

After water taking is completed, the water quality detector 202 is started, and the water body can be rapidly detected by using the detection head 205.

Through the steps, when the water quality detector is used, the supporting component 1 is moved to a position suitable for taking water, the paying-off component 3 is pulled out from the supporting component 1, then the paying-off component 3 is limited and fixed on the supporting component 1 by the positioning component 4, the paying-off component 3 is opened to enable the rotating component 5 to be lowered into water with a specific depth, then the supporting component 1 is opened to enable the rotating component 5 to rotate, the rotating component 5 can drive the water taking component 6 to rotate, water with the specific depth can be quickly collected, then the rotating component 5 is opened to enable the water taking component 6 to be closed, the paying-off component 3 is opened to enable the rotating component 5 to be retrieved, and the problem that a water quality detector in the prior art is inconvenient to quickly take water in the site, inconvenient to quickly take water with the water taking structure deep into water with the required depth and inconvenient to aggravate the water taking structure during use is solved.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims

1. A novel water quality detection device, which comprises a support component (1); the method is characterized in that: the device also comprises a detection assembly (2), a paying-off assembly (3), a positioning assembly (4), a rotating assembly (5) and a water taking assembly (6); the upper end of the supporting component (1) is provided with a detection component (2) for water quality detection; a paying-off assembly (3) for paying off is arranged in the supporting assembly (1); the upper end of the supporting component (1) is provided with a positioning component (4) for positioning the paying-off component (3); the paying-off assembly (3) is provided with a rotating assembly (5) for starting the water taking assembly (6) to take water; the rotating component (5) is provided with a water taking component (6) for taking in water.

2. The novel water quality detection device according to claim 1, wherein: the supporting component (1) comprises a supporting plate (101), a roller (102), a main controller (103) and a first wireless transceiver (104); the edges of four corners at the lower end of the supporting plate (101) are fixedly connected with idler wheels (102); a main controller (103) is fixedly connected to the upper end of the supporting plate (101); the outer wall of the main controller (103) is fixedly connected with a first wireless transceiver (104).

3. The novel water quality detection device according to claim 1, wherein: the detection assembly (2) comprises a bearing plate (201), a water quality detector (202), a groove (203), a U-shaped block (204) and a detection head (205); the upper end of the main controller (103) is fixedly connected with a bearing plate (201); the upper end of the bearing plate (201) is fixedly connected with a water quality detector (202); the upper end of the bearing plate (201) is provided with evenly distributed grooves (203); the inner wall of the groove (203) is fixedly connected with a U-shaped block (204); the water quality detector (202) is connected with a detection head (205).

4. The novel water quality detection device according to claim 2, wherein: the paying-off assembly (3) comprises a first groove body (301), a movable plate (302), an ear plate (303), a roller body (304), a rope (305), a second groove body (306), a first motor (307) and a first positioning hole (308); the right end of the supporting plate (101) is provided with a first groove body (301); a movable plate (302) is movably arranged on the inner wall of the first groove body (301); two ear plates (303) are fixedly connected to the upper end of the movable plate (302); a roller body (304) is rotatably arranged between the two lug plates (303); the left end of the ear plate (303) is fixedly connected with a first motor (307); the right end of the output shaft of the first motor (307) penetrates through the lug plate (303) and is fixedly connected to the left end of the roller body (304); a rope (305) is wound on the outer wall of the roller body (304); the outer wall of the rope (305) is provided with second groove bodies (306) which are uniformly distributed; a meter is spaced between the two second groove bodies (306); first positioning holes (308) which are uniformly distributed are formed in the upper end and the lower end of the movable plate (302) in a penetrating mode.

5. The novel water quality detection device according to claim 2, wherein: the positioning assembly (4) comprises a second positioning hole (401) and a positioning rod (402); the upper end and the lower end of the supporting plate (101) are provided with second positioning holes (401) in a penetrating way; the inner wall of the second positioning hole (401) and the inner wall of the first positioning hole (308) are positioned on the same plane; a positioning rod (402) is movably arranged on the inner walls of the second positioning hole (401) and the first positioning hole (308); the positioning rod (402) is in an inverted U shape.

6. The novel water quality detection device according to claim 4, wherein: the rotating assembly (5) comprises a sealing box (501), a first internal thread cylinder (502), a bracket (503), a second motor (504), a rotating column (505), a through hole (506), a control box (507), a second wireless transceiver (508) and a storage battery (509); the outer wall of the lower end of the rope (305) is provided with a first internal thread cylinder (502) in a threaded manner; the lower end of the first internal thread cylinder (502) is fixedly connected with a sealing box (501); a bracket (503) is fixedly connected on the inner wall of the upper end of the sealing box (501); the inner wall of the bracket (503) is fixedly connected with a second motor (504); the output shaft of the second motor (504) is fixedly connected with a rotating column (505); one end of the sealing box (501) is provided with a through hole (506) in a penetrating way.

7. The novel water quality detection device according to claim 6, wherein: the water taking assembly (6) comprises a water taking pipe (601), a rotating cylinder (602), a water taking body (603), a threaded column (604), a second internal threaded cylinder (605) and a heavy ring (606); the other end of the rotary column (505) is fixedly connected with a water intake pipe (601); one end of the water intake pipe (601) close to the center of the sealing box (501) is fixedly connected with a rotary cylinder (602); the outer wall of the rotary cylinder (602) is attached to the inner wall of the through hole (506); the other end of the sealing box (501) is fixedly connected with a water intake body (603); the water intake pipe (601) is U-shaped; one end of the water intake pipe (601) close to the water intake body (603) is attached to a water inlet of the water intake body (603); the lower end of the water intake pipe (601) is fixedly connected with a threaded column (604); the outer wall of the threaded column (604) is provided with a second internal thread cylinder (605) in a threaded manner; the outer wall of the water intake pipe (601) is sleeved with a heavy ring (606).