CN204623788U - Fresh water memory storage - Google Patents

Abstract

The utility model discloses a kind of fresh water memory storage, it is mainly applicable to island storing fresh water.This fresh water memory storage comprises the buoyancy aid reservoir for storing fresh water; This buoyancy aid reservoir comprises the multiple elemental floating bodies spliced mutually, and two adjacent these elemental floating bodies are combined by sealing connecting component and are communicated with.This fresh water memory storage also comprises the anchor fitting for fixing buoyancy aid reservoir.This anchor fitting comprises reservoir fixed network, and for holding the counter weight device of this reservoir fixed network.Implement the technical solution of the utility model, the buoyancy aid reservoir of this fresh water memory storage is assembled primarily of the multiple elemental floating bodies that have employed distributed structural shape, and can according to water requirement number increase or reduce the quantity of elemental floating body.Make this fresh water memory device structure simple, assembled convenience, and this fresh water memory storage also have wind-proof and wave-proof, low cost and other advantages.

Description

Fresh water memory storage

Technical field

The utility model relates to fresh water field of storage, especially a kind of fresh water memory storage.

Background technology

The shortage of Islands ' Water Resource is one of main restriction condition of Islands Exploitation, and the water source of fresh water on island mainly transports by rainfall and ship.And rainwater-collecting is often plunged into the commercial sea in vain owing to storing, the transport of ship makes scale limited owing to storing nowhere.Feasible scheme is at marine construction dykes and dams, impales a bay formation reservoir, but this topographic condition is difficult to find on island, can not generally use, and is difficult to find the material of building a dam away from the island in continent, and laid down cost is also very high.

Utility model content

The technical problems to be solved in the utility model is, provides a kind of fresh water memory storage being applicable to island.

The utility model solves the technical scheme that its technical matters adopts: construct a kind of fresh water memory storage, comprise the buoyancy aid reservoir for storing fresh water; Described buoyancy aid reservoir comprises the multiple elemental floating bodies spliced mutually, and two adjacent described elemental floating bodies are combined by sealing connecting component and are communicated with.

In fresh water memory storage of the present utility model, the shape that each described elemental floating body is parallel to the cross section on sea level is quadrangle, hexagon or octagon.

In fresh water memory storage of the present utility model, the opposite face of two adjacent described elemental floating bodies all offers intercommunicating pore; Described sealing connecting component is included in the spiral-lock slide fastener that the outward flange of each described intercommunicating pore is arranged; The spiral-lock slide fastener of two relative described intercommunicating pores cooperatively interacts.

In fresh water memory storage of the present utility model, each described elemental floating body comprises the sealing member covered on described intercommunicating pore, the medial surface of described sealing member is provided with the pressure-sealing zipper matched with described spiral-lock slide fastener.

In fresh water memory storage of the present utility model, described spiral-lock slide fastener and described pressure-sealing zipper are waterproof slide fastener.

In fresh water memory storage of the present utility model, each described elemental floating body is the buoyancy aid water bag that flexible material is made, storing fresh water in each described buoyancy aid water bag.

In fresh water memory storage of the present utility model, described fresh water memory storage also comprises the anchor fitting for fixing described buoyancy aid reservoir; Described buoyancy aid reservoir is provided with coolant inlet pipe and coolant outlet pipe.

In fresh water memory storage of the present utility model, described anchor fitting comprises reservoir fixed network, and for holding the counter weight device of described reservoir fixed network;

Described reservoir fixed network entangles whole described buoyancy aid reservoir, and the bottom of described reservoir fixed network is connected with described counter weight device.

In fresh water memory storage of the present utility model, described reservoir fixed network is the net that rope is made into, and described rope connects into a bit in the bottom of described reservoir fixed network, and is connected with described counter weight device by a connection cord.

In fresh water memory storage of the present utility model, described counter weight device comprises pulley, pulley bracket and polylith clump weight;

Described pulley is supported on the slope of sea bed by described pulley bracket, is connected after described connection cord walks around described pulley with described clump weight.

Implement the technical solution of the utility model, at least there is following beneficial effect: the buoyancy aid reservoir of this fresh water memory storage is assembled primarily of the multiple elemental floating bodies that have employed distributed structural shape, and can increase according to the number of water requirement or reduce the quantity of elemental floating body.Make this fresh water memory device structure simple, assembled convenience.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the birds-eye view of the buoyancy aid reservoir of fresh water memory storage in an embodiment of the present utility model;

Fig. 2 is the cutaway view of Fig. 1 along A-A direction;

Fig. 3 is the birds-eye view of the single elemental floating body in an embodiment of the present utility model;

Fig. 4 is the cutaway view of Fig. 3 along A-A direction;

Fig. 5 is the structural representation of the fresh water memory storage in an embodiment of the present utility model.

Wherein, 1, buoyancy aid reservoir; 11, elemental floating body; 111, intercommunicating pore; 112, spiral-lock slide fastener; 113, sealing member; 12, coolant inlet pipe; 13, coolant outlet pipe; 2, anchor fitting; 21, reservoir fixed network; 22, pulley; 23, pulley bracket; 24, clump weight; 25, connection cord.

Detailed description of the invention

In order to there be understanding clearly to technical characteristic of the present utility model, object and effect, now contrast accompanying drawing and describe detailed description of the invention of the present utility model in detail.

Fig. 1 to Fig. 5 shows a kind of fresh water memory storage in the utility model, this fresh water memory storage is mainly in order to solve the storage problem of freshwater resources on island, this fresh water memory storage neither takies valuable island land area, and, the volume of this fresh water memory storage and volume size change with population on island, are a kind of facilities being suitable for island storage fresh water of environmental protection and economy.Certainly, this fresh water memory storage generally can be applicable to most of common confession water environment, and the fresh water that the fresh water memory storage in the utility model is preferably applicable to island stores and supply.

Fig. 1 is the birds-eye view of the buoyancy aid reservoir of fresh water memory storage in an embodiment of the present utility model.Fig. 2 is the cutaway view of Fig. 1 along A-A direction.Fig. 3 is the birds-eye view of the single elemental floating body in an embodiment of the present utility model.Fig. 4 is the cutaway view of Fig. 3 along A-A direction.Fig. 5 is the structural representation of the fresh water memory storage in an embodiment of the present utility model.

As shown in Figures 1 to 5, this fresh water memory storage comprises the buoyancy aid reservoir 1 for storing fresh water; This buoyancy aid reservoir 1 comprises the multiple elemental floating bodies 11 spliced mutually, and adjacent two these elemental floating bodies 11 are combined by sealing connecting component and are communicated with.Each elemental floating body 11 of this buoyancy aid reservoir 1 is the buoyancy aid water bag made of flexible material preferably, storing fresh water in this buoyancy aid water bag each.Because fresh water density is less than sea water density, the buoyancy aid water bag be therefore spliced by multiple elemental floating body 11 can float on sea always.And this buoyancy aid reservoir 1 is distributed frame, can be assembled by any number of elemental floating body 11, the fresh water amount of quantity needed for island of elemental floating body 11 is determined.

Further, the shape that this elemental floating body 11 each is parallel to the cross section on sea level is quadrangle, hexagon, octagon or other polygons, namely single elemental floating body 11 plane is polygonized structure.Concrete, the elemental floating body 11 in Fig. 1 and Fig. 3 is parallel to the shape preferably hexagon in the cross section on sea level.The edge that this hexagonal shape is not only beneficial to each elemental floating body 11 connects between two, and every three elemental floating bodies 11 connect between two and just can form stable triangle, can ensure that whole buoyancy aid reservoir 1 can not blowing and arbitrarily fly away with stormy waves like this.

Further, as shown in Figure 2, the opposite face of two adjacent these elemental floating bodies 11 all offers intercommunicating pore 111.Above-mentioned sealing connecting component is included in the spiral-lock slide fastener 112 that the outward flange of each intercommunicating pore 111 is arranged.The spiral-lock slide fastener 112 of two relative these intercommunicating pores 111 cooperatively interacts.And this elemental floating body 11 each comprises the sealing member 113 covered on this intercommunicating pore 111, the medial surface of the seal 113 is provided with the pressure-sealing zipper matched with this spiral-lock slide fastener 112.Therefore, when elemental floating body 11 is assembled connect and compose buoyancy aid reservoir 1 time, the fastening mutually of the spiral-lock slide fastener 112 of the adjacent elemental floating body 11 of interior thereof, to form water stream channel.And shutoff is carried out by sealing member 113 in the side that elemental floating body 11 is connected with off-lying sea, thus define integrally closed and the inner buoyancy aid reservoir 1 be communicated with.

In addition, it should be noted that, the spiral-lock slide fastener 112 in the utility model and pressure-sealing zipper are waterproof slide fastener.Further, consult Fig. 4, the edge for the ease of each elemental floating body 11 connects between two, the side preferably rectangle of each elemental floating body 11, understandably, the side of each elemental floating body 11 can also adopt other shape, such as, the side of each elemental floating body 11 is triangle etc.

To sum up, the buoyancy aid reservoir 1 of the fresh water memory storage in the utility model is assembled primarily of the multiple elemental floating bodies 11 that have employed distributed structural shape, and can increase according to water requirement and reduce the quantity of elemental floating body 11.Make this fresh water memory device structure simple, assembled convenience.

In addition, each elemental floating body 11 have employed low-cost flexible material, does not need to use reinforcing bar and cement concrete, makes the cost of this fresh water memory storage lower, is applicable to large-arealy use and promote.

In certain embodiments, as shown in Figures 1 to 5, this fresh water memory storage also comprises the anchor fitting 2 for fixing this buoyancy aid reservoir 1.And this buoyancy aid reservoir 1 is provided with coolant inlet pipe 12 and coolant outlet pipe 13.This coolant inlet pipe 12 and coolant outlet pipe 13 all can be provided with water pump, thus improve water inlet efficiency and the emptying effectiveness of this fresh water treatment device.And this coolant inlet pipe 12 and coolant outlet pipe 13 both can be same water pipe, also can be provided separately had been two water pipes, and when coolant inlet pipe 12 and coolant outlet pipe 13 are same water pipe, the water pump be arranged on this water pipe will be selected to draw water also can the water pump of setting-out.And when coolant inlet pipe 12 and coolant outlet pipe 13 be provided separately be two water pipes time, the water pump be arranged on coolant inlet pipe 12 is lift pump, and the water pump be arranged on coolant outlet pipe 13 is water pump.

As shown in Figure 5, this anchor fitting 2 comprises reservoir fixed network 21, and for holding the counter weight device of this reservoir fixed network 21.This reservoir fixed network 21 entangles this buoyancy aid reservoir 1 whole, and the bottom of this reservoir fixed network 21 is connected with this counter weight device.And the net that this reservoir fixed network 21 is made into for rope, this rope connects into a bit in the bottom of this reservoir fixed network 21, and is connected with this counter weight device by a connection cord 25.Therefore, the power conducting structure of whole anchor fitting 2 is elastomeric, when buoyancy aid reservoir 1 floats back and forth under wind wave action, the power of buoyancy aid reservoir 1 is transmitted to the point of connection of bottom by reservoir fixed network 21, conduct to counter weight device by connection cord 25 again, counter weight device is up-down adjustment under force, thus whole anchor fitting 2 can not be damaged because stormy waves is too large.

In certain embodiments, the structure of this inking device is varied, and as shown in Figure 5, the counter weight device in the utility model preferably comprises pulley 22, pulley bracket 23 and polylith clump weight 24.This pulley 22 is supported on the slope of sea bed by this pulley bracket 23, is connected after this connection cord 25 walks around this pulley 22 with this clump weight 24.Thus the power of buoyancy aid reservoir 1 is transmitted to the point of connection of bottom by reservoir fixed network 21, conduct to after counter weight device by connection cord 25 again, the clump weight 24 of inking device slides up and down along the slope of sea bed under the drive of connection cord 25, thus whole anchor fitting 2 can not be damaged because stormy waves is too large.

It should be noted that, the quantity being assembled into the elemental floating body 11 of buoyancy aid reservoir 1 is different, and the tractive force required for buoyancy aid reservoir 1 is also different, and the quantity of the clump weight 24 therefore in inking device can increase and decrease according to actual conditions, to obtain good fixed effect.

To sum up, the anchor fitting 2 of the fresh water memory storage in the utility model have employed has elastomeric conducting structure, better can protect and fixing buoyancy aid reservoir 1, make it can not be destroyed by stormy waves.Therefore, this fresh water memory storage is a kind of economical and practical fresh water storage facility being suitable for island.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various change, combination and change.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within right of the present utility model.

Claims (10)

1. a fresh water memory storage, is characterized in that, comprises the buoyancy aid reservoir (1) for storing fresh water; Described buoyancy aid reservoir (1) comprises the multiple elemental floating bodies (11) spliced mutually, and two adjacent described elemental floating bodies (11) are combined by sealing connecting component and are communicated with.

2. fresh water memory storage according to claim 1, is characterized in that, the shape that each described elemental floating body (11) is parallel to the cross section on sea level is quadrangle, hexagon or octagon.

3. fresh water memory storage according to claim 1, is characterized in that, the opposite face of two adjacent described elemental floating bodies (11) all offers intercommunicating pore (111); Described sealing connecting component is included in the spiral-lock slide fastener (112) that the outward flange of each described intercommunicating pore (111) is arranged; The spiral-lock slide fastener (112) of two relative described intercommunicating pores (111) cooperatively interacts.

4. fresh water memory storage according to claim 3, it is characterized in that, each described elemental floating body (11) comprises the sealing member (113) covered on described intercommunicating pore (111), the medial surface of described sealing member (113) is provided with the pressure-sealing zipper matched with described spiral-lock slide fastener (112).

5. fresh water memory storage according to claim 4, is characterized in that, described spiral-lock slide fastener (112) and described pressure-sealing zipper are waterproof slide fastener.

6. fresh water memory storage according to claim 4, is characterized in that, the buoyancy aid water bag that each described elemental floating body (11) is made for flexible material, storing fresh water in each described buoyancy aid water bag.

7. the fresh water memory storage according to any one of claim 1 to 6, is characterized in that, described fresh water memory storage also comprises the anchor fitting (2) for fixing described buoyancy aid reservoir (1); Described buoyancy aid reservoir (1) is provided with coolant inlet pipe (12) and coolant outlet pipe (13).

8. fresh water memory storage according to claim 7, is characterized in that, described anchor fitting (2) comprises reservoir fixed network (21), and for holding the counter weight device of described reservoir fixed network (21);

Described reservoir fixed network (21) entangles whole described buoyancy aid reservoir (1), and the bottom of described reservoir fixed network (21) is connected with described counter weight device.

9. fresh water memory storage according to claim 8, it is characterized in that, the net that described reservoir fixed network (21) is made into for rope, described rope connects into a bit in the bottom of described reservoir fixed network (21), and is connected with described counter weight device by a connection cord (25).

10. fresh water memory storage according to claim 9, is characterized in that, described counter weight device comprises pulley (22), pulley bracket (23) and polylith clump weight (24);

Described pulley (22) is supported on the slope of sea bed by described pulley bracket (23), and described connection cord (25) is walked around described pulley (22) and is connected with described clump weight (24) afterwards.