CN212500900U - Small-sized water quality monitoring buoy mooring device - Google Patents

Abstract

The utility model provides a small-size water quality monitoring buoy mooring device, include: a buoy assembly, an anchoring assembly, a shoreside fixing assembly, a rope, a first pulley and a second pulley; the first pulley is connected with the anchoring assembly, and the second pulley is connected with the shoreside fixing assembly; the rope is sleeved on the first pulley and the second pulley; the buoy assembly comprises a floating body, at least one rope ring and at least one rope connecting piece, wherein the rope ring is connected to the upper surface of the floating body; the floating body is arranged between the first pulley and the second pulley, two ends of the rope are fixedly connected with the rope connecting piece, and the rope can freely and slidably penetrate through the rope sleeving ring. The utility model discloses a small-size water quality monitoring buoy mooring gear, can simplify buoy receive and release work, avoid the repeated walking back and forth to greatly shorten buoy maintenance operation time; and meanwhile, the influence on the passing of the operation ship can be avoided.

Description

Small-sized water quality monitoring buoy mooring device

Technical Field

The utility model relates to a water quality monitoring technical field especially relates to a small-size water quality monitoring buoy mooring device.

Background

With the development of aquaculture industry, water quality monitoring technology is applied in the culture production process, and the water quality monitoring technology is developed from the initial measurement of collected water samples in a laboratory to the installation of sensors in a fish pond for water quality on-line monitoring. The online water quality monitoring is the basis for constructing a breeding Internet of things system and realizing intelligent breeding, but the accuracy and the using effect of a monitoring result are influenced by the installation mode and the maintenance condition of a water quality sensor in a fish pond. The current common mounting is to monitor the sensors mounted on small buoys placed in the fish pond. Two ropes are usually tied on the buoy and are distributed and connected to fixing piles on the two sides of the fishpond. As the aquaculture water contains more organic matters and plankton, the sensor can generate biological adhesion after being soaked in water for a long time, namely, a layer of biological membrane formed by microalgae, bacteria, organic matters and the like can be adhered to the surface of the sensor, and particularly, the biological membrane adhered to a measuring element of the sensor can seriously influence the measurement. Aiming at the problem, the biomembrane attached to the sensor is removed mainly by manual regular maintenance at present, so that the accuracy of the water quality monitoring data is ensured. The attachment site of organisms is serious in the peak period of cultivation, and the sensor needs to be cleaned and maintained for about 2-3 days. The maintenance workflow is as follows: the staff walks to the spud pile position of fish pond limit earlier, unties a rope of buoy from the spud pile, again along bank around to the spud pile position of fish pond another side, drags another rope of buoy and withdraws the buoy to the bank, then washs the sensor. And after the cleaning work is finished, the buoy is put back to the water surface, the fish pond is moved back to the shore along the shore, the untied rope is dragged to the original position, and the rope is tied to the fixing pile again. At this point, the cleaning and maintenance work of one buoy is completed. In the whole process, the buoy retraction and the sensor cleaning are simple and quick, can be completed in about 5 minutes, the main time is spent on walking back and forth, the time is generally consumed by more than 15 minutes, and if the area of the fishpond is large, the consumed time is even more than 30 minutes. For a large-scale farm with a large number of fish ponds, the cleaning and maintenance work of the sensors at the peak period of cultivation is very heavy. Meanwhile, two ropes for fixing the buoy cross the water surface to block the passing of the operation ship.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a small-sized water quality monitoring buoy mooring device, which can simplify the buoy retraction and release work and avoid repeated back-and-forth walking, thereby greatly shortening the buoy maintenance operation time; and meanwhile, the influence on the passing of the operation ship can be avoided.

In order to achieve the above object, the utility model provides a small-size water quality monitoring buoy mooring device, include: a buoy assembly, an anchoring assembly, a shoreside fixing assembly, a rope, a first pulley and a second pulley; the first pulley is connected with the anchoring assembly, and the second pulley is connected with the shoreside fixing assembly; the rope is sleeved on the first pulley and the second pulley; the buoy assembly comprises a floating body, at least one rope ring and at least one rope connecting piece, wherein the rope ring and the rope connecting piece are connected to the upper surface of the floating body; the floating body is arranged between the first pulley and the second pulley, two ends of the rope are fixedly connected with the rope connecting piece, and the rope can freely and slidably penetrate through the rope sleeving ring.

Preferably, the floating body has a sensor mounting portion formed at a middle portion thereof.

Preferably, the sensor mounting portion includes at least one sensor mounting hole.

Preferably, the anchoring system assembly comprises an auxiliary positioning floating body, a first connecting ring, a second connecting ring, a cable, an anchor body and a third connecting ring; the first connecting ring is fixed in the middle of the upper surface of the auxiliary positioning floating body and connected with the first pulley; the second connecting ring is fixed in the middle of the lower surface of the auxiliary positioning floating body; the third connecting ring is connected with the anchor body; the cable is connected between the second connection ring and the third connection ring.

Preferably, the shoreside fixing assembly comprises a fixing pile and a fixing buckle; the fixing pile is fixed on a shore and connected with the second pulley; the fixing buckle is connected between the rope and the fixing pile.

Preferably, the rope sling ring is in a closed ring shape, and the surface of the rope sling ring is smooth; when more than two rope-sleeving rings are included, the rope-sleeving rings are coaxially arranged; the rope connecting piece comprises two fourth connecting rings, and two ends of the rope are detachably connected with one fourth connecting ring through knots respectively.

The utility model discloses owing to adopted above technical scheme, make it have following beneficial effect:

the small-sized water quality monitoring buoy mooring device has simple structure, low cost and convenient installation; through the cooperation of buoy assembly, anchor system subassembly, bank side fixed subassembly, rope, first pulley and second pulley, can realize convenient the reseing of buoy assembly, effectively avoid costing time on making a round trip to walk, simplify maintenance work greatly. And simultaneously, the utility model discloses a small-size water quality monitoring buoy mooring device's rope only violently on the surface of water between anchor system subassembly, buoy subassembly and the bank fixed subassembly, does not have the rope to obstruct between anchor system subassembly and opposite side bank, has avoided the current influence of operation ship.

Drawings

Fig. 1 is a schematic structural view of a small-sized water quality monitoring buoy mooring device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a buoy assembly according to an embodiment of the present invention;

fig. 3 is a schematic structural view of an mooring component according to an embodiment of the present invention;

fig. 4 is the utility model discloses a bank side fixing assembly's schematic structure diagram.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings of fig. 1 to 4, so as to better understand the functions and features of the present invention.

Referring to fig. 1 and 2, a small-sized water quality monitoring buoy mooring device according to an embodiment of the present invention includes: a buoy assembly 1, an anchoring assembly 2, a shore fixing assembly 3, a rope 4, a first pulley 5 and a second pulley 6; the first pulley 5 is connected with the anchoring component 2, and the second pulley 6 is connected with the shoreside fixing component 3; the rope 4 is sleeved on the first pulley 5 and the second pulley 6; the buoy assembly 1 comprises a floating body 11, at least one rope ring 12 and at least one rope connecting piece 13, wherein the rope ring 12 is connected to the upper surface of the floating body 11; the floating body 11 is arranged between the first pulley 5 and the second pulley 6, two ends of the rope 4 are fixedly connected with the rope connecting piece 13, and the rope 4 can freely and slidably penetrate through the rope sleeving ring 12.

A sensor mounting portion 14 is formed in the middle of the floating body 11.

The sensor mounting portion 14 includes at least one sensor mounting hole.

According to actual needs, corresponding mounting holes can be formed in the floating body 11 for different sensors, and the center of gravity of the whole buoy can be located at the center of the floating body 11 in the horizontal direction after mounting.

Referring to fig. 1 and 3, the mooring assembly 2 includes a positioning aid float 21, a first connecting ring 22, a second connecting ring 23, a cable 24, an anchor body 25 and a third connecting ring 26; the first connecting ring 22 is fixed in the middle of the upper surface of the auxiliary positioning floating body 21 and connected with the first pulley 5; the second connecting ring 23 is fixed at the middle of the lower surface of the auxiliary positioning floating body 21; the third connecting ring 26 is connected with the anchor body 25; the cable 24 is connected between the second connection ring 23 and the third connection ring 26.

Referring to fig. 1 and 4, the shore-side fixing assembly 3 includes a fixing pile 31 and a fixing buckle 32; the fixing pile 31 is fixed on a bank 7 and connected with the second pulley 6; a retaining buckle 32 is connected between the cord 4 and the peg 31.

Referring to fig. 1 to 4, in the present embodiment, the rope loop 12 is in a closed loop shape and has a smooth surface; comprises two rope-sleeving rings 12, wherein the rope-sleeving rings 12 are coaxially arranged; in other embodiments, the number of the loop 12 is at least 1, and may be more than one.

The rope connecting member 13 includes two fourth connecting rings 131, and both ends of the rope 4 are detachably connected to one fourth connecting ring 131 by knots, respectively. The first connecting ring 22, the second connecting ring 23, the third connecting ring 26 and the fourth connecting ring 131 may be closed rings or open rings or other forms according to actual situations, as long as a firm connection with the rope 4, the cable 24 and the first pulley 5 is ensured.

One end of the rope 4 is connected with a fourth connecting ring 131 through a knot, the rope 4 passes through two sets of rope rings 12 by passing around the first pulley 5 and then passes around the second pulley 6, the other end of the rope 4 is connected with the other fourth connecting ring 131 through the knot to form a closed loop, and the rope 4 can freely slide between the first pulley 5 and the second pulley 6 by pulling any part of the rope 4, so that the floating body 11 is driven to move on the water surface.

The utility model discloses a small-size water quality monitoring buoy mooring device's application method based on this embodiment, including the step:

s1: a sensor is installed on the sensor installation part 14, and a small-sized water quality monitoring buoy mooring device is installed on a fish pond, so that the floating body 11 floats on a preset position of the water surface of the fish pond, and the anchor body 25 sinks into the water bottom of the fish pond.

First, the mooring assembly 2 is placed in the designated position in the fishpond, the anchor body 25 is submerged in the bottom of the fishpond, and the auxiliary positioning float 21 floats on the water surface and is connected to the anchor body 25 by the cable 24. The first pulley 5 is fixed to the auxiliary positioning float 21 by means of a first connecting ring 22. The fixing pile 31 is inserted into the soil of the fishpond shore 7, and the second pulley 6 is connected with the fixing pile 31. One end of the rope 4 is connected with a fourth connecting ring 131 through a knot, the rope 4 sequentially rounds the first pulley 5, passes through the two sets of rope rings 12 and rounds the second pulley 6, and the other end of the rope 4 is connected with the other fourth connecting ring 131 through the knot. Put the body 11 into the aquatic, drag the position that rope 4 kept away from the rope 4 tip, through the slip of whole rope 4, pull back body 11 and preset, then with the position that the fixed knot 32 is close to second pulley 6 with rope 4 be connected with spud pile 31, prevent that the influence of wind from causing rope 4 to slide and change body 11 position.

S2: and maintaining the small water quality monitoring buoy mooring device.

Wherein S2 further comprises the steps of:

s21: releasing the fixing buckle 32;

s22: dragging the rope 4 to pull the floating body 11 to the shore 7;

s23: maintaining the sensor;

s24: putting the floating body 11 back into the water, and dragging the rope 4 to move the floating body 11 to a preset position;

s25: the retaining buckle 32 is restored.

The staff walks to fish pond bank 7, untie fixed knot 32, drag the position that rope 4 is close to 4 tip of rope, transmission and direction through second pulley 6 and first pulley 5, whole rope 4 slides along two sets of becket bridles 12 and second pulley 6 and first pulley 5, pull back bank 7 with body 11, then maintain the sensor, put back aquatic with body 11 after the completion is maintained, drag rope 4 and keep away from the position of 4 tip of rope, through the slip of whole rope 4, pull back original position with body 11. By this point, a float maintenance operation is finished. Compared with the traditional mode, the device and the using method can save twice walking around the shore 7, greatly reduce the workload and save the time.

S3: and recovering the small water quality monitoring buoy mooring device.

Wherein the step of S3 further comprises the steps of:

s31: releasing the fixing buckle 32;

s32: dragging the rope 4 to pull the floating body 11 to the shore 7;

s33: releasing the knot of the rope 4 with a fourth connecting ring 131 and withdrawing the entire rope 4 from the first pulley 5;

s34: the floating body 11 and the ropes 4 are recovered, and the mooring component 2, the shore fixing component 3 and the second pulley 6 are reserved.

The staff walks to fish pond bank 7, unties fixed knot 32, drags the position that rope 4 is close to rope 4 tip, through the transmission and the direction of second pulley 6 and first pulley 5, and whole rope 4 slides along two sets of becket bridles 12 and second pulley 6 and first pulley 5, draws body 11 back bank 7. The knot between one end of the rope 4 and a fourth connecting ring 131 is then released and the entire rope 4 is drawn back over the first pulley 5. The floating body 11 and lines 4 are retracted and placed and the mooring assembly 2 and shore attachment assembly 3 are left in place until the next installation.

The present invention has been described in detail with reference to the embodiments shown in the drawings, and those skilled in the art can make various modifications to the present invention based on the above description. Therefore, certain details of the embodiments should not be construed as limitations of the invention, which are intended to be covered by the following claims.

Claims (6)

1. A small-size water quality monitoring buoy mooring device which characterized in that includes: a buoy assembly, an anchoring assembly, a shoreside fixing assembly, a rope, a first pulley and a second pulley; the first pulley is connected with the anchoring assembly, and the second pulley is connected with the shoreside fixing assembly; the rope is sleeved on the first pulley and the second pulley; the buoy assembly comprises a floating body, at least one rope ring and at least one rope connecting piece, wherein the rope ring and the rope connecting piece are connected to the upper surface of the floating body; the floating body is arranged between the first pulley and the second pulley, two ends of the rope are fixedly connected with the rope connecting piece, and the rope can freely and slidably penetrate through the rope sleeving ring.

2. The small-sized water quality monitoring buoy mooring device as claimed in claim 1, wherein a sensor mounting part is formed at the middle part of the floating body.

3. The small scale water quality monitoring buoy mooring of claim 2 wherein the sensor mounting portion includes at least one sensor mounting hole.

4. The mooring device of claim 3, wherein the mooring assembly comprises an auxiliary positioning float, a first connecting ring, a second connecting ring, a cable, an anchor body and a third connecting ring; the first connecting ring is fixed in the middle of the upper surface of the auxiliary positioning floating body and connected with the first pulley; the second connecting ring is fixed in the middle of the lower surface of the auxiliary positioning floating body; the third connecting ring is connected with the anchor body; the cable is connected between the second connection ring and the third connection ring.

5. The small-scale water quality monitoring buoy mooring device of claim 4, wherein the shoreside fixing assembly comprises a fixing pile and a fixing buckle; the fixing pile is fixed on a shore and connected with the second pulley; the fixing buckle is connected between the rope and the fixing pile.

6. The small-sized water quality monitoring buoy mooring device as claimed in claim 5, wherein the noose ring is in a closed ring shape and has a smooth surface; when more than two rope-sleeving rings are included, the rope-sleeving rings are coaxially arranged; the rope connecting piece comprises two fourth connecting rings, and two ends of the rope are detachably connected with one fourth connecting ring through knots respectively.

Images