CN115467283A - Soft enclosure adapted to water level change - Google Patents

Abstract

The invention discloses a soft enclosure adapting to water level change, which comprises a floating body, a flexible enclosure mantle and a counterweight body, wherein the floating body and the counterweight body are respectively connected with the top and the bottom of the flexible enclosure mantle; the flexible enclosure curtain is characterized by further comprising at least two positioning rods, wherein the two positioning rods are respectively arranged on two sides of the flexible enclosure curtain and connected through a fixed cross rod, the fixed cross rod is arranged on one side of the middle part or the upper part of the flexible enclosure curtain, and a fixing body detachably connected with the fixed cross rod is arranged on one side wall of the flexible enclosure curtain; still include and enclose screen hold-down mechanism, it sets up the opposite side at the flexible screen that encloses to enclose screen hold-down mechanism for when the water level descends, compress tightly the flexible screen that encloses more than the fixed body. The invention can avoid the bottom of the flexible surrounding screen from generating folds due to the reduction of water level and can not influence the impact resistance of the flexible surrounding screen.

Description

Soft enclosure adapted to water level change

Technical Field

The invention relates to the technical field of water area enclosures, in particular to a soft enclosure adaptive to water level change.

Background

The enclosure diversion technology is a special technology applied to the reconstruction of a flow field under the condition of an open water body environment and the water quality improvement engineering of a local water area. The application of the enclosure diversion technology enables the project of improving the water quality of the open water area to be implemented by sections and stages; the water flow is controlled in time and space, and the exchange and convection mixing of the inner water body and the outer water body can be regulated and controlled according to requirements. It is characterized in that: 1) The engineering facilities can be disassembled, moved and assembled for many times according to different requirements. 2) The non-permanent facilities can be operated on the water surface, and the engineering cost is relatively low. 3) The engineering implementation safety is good, and the ecological environment is not damaged.

The soft enclosure mainly comprises a floating body, a flexible enclosure screen and a balance weight, wherein the floating body and the balance weight are respectively arranged at the top and the bottom of the flexible enclosure screen, and float on the water surface through the floating body, and the balance weight sinks to the bottom of the water area, so that the flexible enclosure screen is kept off the water area.

As most of the water surface has obvious water level fluctuation due to factors such as rainfall, drainage and the like, the soft enclosure can fluctuate up and down along with the water level and can adapt to the water level change, and therefore the soft enclosure is mainly used in the water ecological management and restoration.

When the water level in the waters descends, the height of the required flexible surrounding screen is reduced, so that wrinkles are formed at the bottom of the flexible surrounding screen, the bottom of the surrounding screen is easily covered by impurities such as silt in the water, and the effect of the surrounding screen is lost or weakened or even damaged. In order to solve the problem that when the water level of a water area is lowered, wrinkles are formed at the bottom of the flexible surrounding screen, the CN113585200B patent adopts a mode that floating bodies are arranged at the top and the middle lower part of the flexible surrounding screen, and utilizes the buoyancy generated by the floating bodies arranged at the middle lower part to enable the flexible surrounding screen below the floating bodies at the middle lower part to be always in a stretching state, so that the problem that wrinkles are formed at the bottom of the flexible surrounding screen is avoided; however, when the water level in waters descends, because the height of the flexible curtain that encloses that the whole needs reduces, and the flexible curtain that encloses below the body of well lower part is in tensile state all the time, then, can lead to the flexible curtain that encloses more than the body of well lower part to drop downwards, make the flexible curtain that encloses more than the body of well lower part sunken formation recess downwards, although there is not silt in upper middle of the flexible curtain that encloses, when the decline of water level is less, the depth of groove is more, the influence is still less, however, when the decline of water level is more, the depth of groove is when darker, the formation of this recess also can hold other foreign matters, and because the flexible curtain that encloses more than the body of well lower part is not in tensile state, its shock resistance has been reduced, and then easily lead to the flexible curtain that encloses and rock.

Disclosure of Invention

The invention aims to provide a soft enclosure adapting to water level change, which can avoid the generation of wrinkles at the bottom of a flexible enclosure due to the reduction of water level and cannot influence the impact resistance of the flexible enclosure.

The invention is realized by the following technical scheme:

a soft enclosure adapting to water level change comprises a floating body, a flexible enclosure mantle and a counterweight body, wherein the floating body and the counterweight body are respectively connected with the top and the bottom of the flexible enclosure mantle; the flexible enclosure curtain is characterized by further comprising at least two positioning rods, wherein the two positioning rods are respectively arranged on two sides of the flexible enclosure curtain and connected through a fixed cross rod, the fixed cross rod is arranged on one side of the middle part or the upper part of the flexible enclosure curtain, and a fixing body detachably connected with the fixed cross rod is arranged on one side wall of the flexible enclosure curtain; still including enclosing the screen hold-down mechanism, enclose screen hold-down mechanism and set up the opposite side at the flexible screen that encloses for when the water level descends, enclose the screen to fix the body above flexibility and compress tightly.

The floating body floats on the water surface by virtue of buoyancy, the counterweight body sinks into the bottom of a water area, and the flexible enclosure mantle is used for realizing the enclosure of the water area.

The bottom of the positioning rod can be fixed at the bottom of a water area and used for fixing the fixed cross rod, and on one hand, the fixed cross rod is connected with the fixed body on the flexible surrounding screen, so that the flexible surrounding screen below the fixed body is always in a stretching state, and no fold is generated at the bottom of the flexible surrounding screen; in another aspect; fixed horizontal pole is used for the fixed mounting point that encloses screen hold-down mechanism, as enclosing screen hold-down mechanism, and fixed horizontal pole can also play the location as on the whole to the flexibility to a certain extent to enclose the screen, improves the flexibility and encloses the impact resistance of screen.

The enclosure pressing mechanism can transversely press the part of the flexible enclosure above the fixed body, which falls down to the enclosure pressing mechanism, so as to avoid the flexible enclosure above the fixed body from falling down to form a larger groove, and the flexible enclosure above the fixed body is also in a pulling-up state under the pressing action of the enclosure pressing mechanism, so that the impact resistance of the flexible enclosure can be improved.

In conclusion, the invention can avoid the bottom of the flexible surrounding screen from generating wrinkles due to the reduction of water level and can not influence the impact resistance of the flexible surrounding screen by arranging the cross rod and the surrounding screen compressing mechanism.

Furthermore, two ends of the enclosing screen compaction mechanism are respectively connected with the fixed cross rod through a fixed plate.

Furthermore, the enclosing screen compaction mechanism comprises an elastic support body, a first positioning cross rod, a second positioning cross rod, a first connecting rod, a second connecting rod and a third connecting rod;

the elastic supporting body is arranged below the flexible surrounding screen above the fixed body, the elastic supporting body is made of elastic materials, or the elastic supporting body comprises a bottom plate, two sides of the bottom plate are respectively connected with the first positioning cross rod and the second positioning cross rod through elastic pieces, and the length of the elastic supporting body is greater than or equal to that of the flexible surrounding screen above the fixed body;

the first positioning cross rod and the second positioning cross rod are respectively arranged on two long sides of the elastic support body, and the second positioning cross rod is connected with the fixed cross rod through the fixed plate;

one ends of the second connecting rod and the third connecting rod are hinged with each other, and the other ends of the second connecting rod and the third connecting rod are respectively hinged with the first positioning cross rod and the second positioning cross rod; the upper end of the first connecting rod is connected with the hinged position of the second connecting rod and the third connecting rod, the bottom end of the first connecting rod is connected with the elastic supporting body, and the second connecting rod, the third connecting rod and the first connecting rod are arranged at two ends of the elastic supporting body.

The pressing principle of the closure pressing mechanism is as follows:

when the water level is reduced a little, a shallow groove is formed at the bottom of the flexible surrounding screen above the fixed body, the bottom of the flexible surrounding screen enters the elastic supporting body, but no pressure is generated on the bottom of the elastic supporting body, at the moment, the shape of the compressing mechanism of the surrounding screen is kept unchanged, the bottom of the flexible surrounding screen is not transversely clamped, the bottom of the flexible surrounding screen can be limited transversely by the elastic supporting body, so that the flexible surrounding screen is prevented from generating large fluctuation, the impact resistance of the flexible surrounding screen is improved, and the shallow groove can not intercept sundries; when the decline of water level is great, the curtain bottom forms great recess is enclosed to the flexibility above the fixed body, enclose at the bottom of the curtain with the bottom contact of elastic support body and to elastic support body's bottom pressure production when the flexibility, elastic support body's bottom is downstream under the pressure action, and then drive first connecting rod downstream, first connecting rod downstream makes the mutual hinged end downstream of second connecting rod and third connecting rod, at this moment, first location horizontal pole draws close each other with second location horizontal pole, first location horizontal pole realizes enclosing the horizontal compressing tightly at the bottom of the curtain to the flexibility, enclose the curtain of the flexible of tenesmus and accomodate in elastic support body, avoid enclosing the curtain tenesmus and produce its shock resistance that reduces that the recess leads to because of the flexibility above the fixed body.

Further, the fixed body is including setting up first fixed body and the second fixed body that encloses screen one side in the flexibility, connect through the second zip fastener between first fixed body and the second fixed body, fixed horizontal pole is worn to establish in the annular channel that forms between first fixed body, the second fixed body and the flexible screen that encloses.

Furthermore, the fixing body and the flexible surrounding screen are made of the same material.

Furthermore, the flexible surrounding screen is composed of a plurality of surrounding screen single bodies, and two adjacent surrounding screen single bodies are connected through a first zipper; every encloses and all is provided with the fixed body on the screen monomer, and every encloses the free top of screen and all is provided with the body, detachable connection between two adjacent bodies.

Furthermore, the fixed cross rods are of sectional structures and are composed of a plurality of sectional cross rods, and every two adjacent sectional cross rods are detachably connected.

Furthermore, the both ends of body respectively with through the detachable connection of connector link between two locating levers, the both ends accessible locating lever of body is fixed a position promptly, improves the stability of body.

Further, the counterweight body is a gabion.

Furthermore, the floating body is made of rubber; the flexible surrounding screen is made of PVC.

Compared with the prior art, the invention has the following advantages and beneficial effects:

1. according to the invention, the enclosure pressing mechanism is arranged, so that the flexible enclosure above the fixed body can be prevented from dropping to form a larger groove, the flexible enclosure above the fixed body can be also treated in a pulling-up state under the pressing action of the enclosure pressing mechanism, and the impact resistance of the flexible enclosure can be improved.

2. On one hand, the impact resistance of the flexible surrounding screen is further improved through the compressing effect of the surrounding screen compressing mechanism on the flexible surrounding screen, the positioning effect of the other end of the surrounding screen on the flexible surrounding screen by the fixed cross rod and the combined action of the two.

3. The flexible surrounding screen provided by the invention is composed of a plurality of surrounding screen monomers, and the surrounding screen monomers can be reasonably spliced according to the length of the surrounding screen in a water area.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a front view of the soft body enclosure of the present invention;

FIG. 2 is a side view of the soft body enclosure of the present invention at normal water level;

FIG. 3 is a side view of the soft body enclosure of the present invention in a lowered water level;

FIG. 4 is an enlarged view of the mantle hold-down mechanism;

FIG. 5 is a schematic structural view of a mantle pressing mechanism in example 2.

Reference numbers and corresponding part names in the drawings:

1-a floating body; 2-flexible enclosing mantle; 3-a counterweight body; 4-positioning the rod; 5-fixing the cross bar; 6-a first zipper; 7-connecting buckles; 8, fixing a plate; 9-a closure valance pressing mechanism; 21-a first fixation; 22-a second fixation body; 23-a second zipper; 91-an elastic support; 92-a first link; 93-a second link; 94-a third link; 95-a first positioning rail; 96-second positioning Cross-Bar.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Example 1:

as shown in fig. 1-4, a soft enclosure adapting to water level change comprises a floating body 1, a flexible enclosure mantle 2 and a counterweight body 3, wherein the floating body 1 and the counterweight body 3 are respectively connected with the top and the bottom of the flexible enclosure mantle 2; the floating body 1 floats on the water surface by virtue of buoyancy, the counterweight body 3 sinks into the bottom of a water area, the flexible enclosure curtain 2 is used for realizing the enclosure of the water area, and the floating body 1 is made of rubber; the flexible surrounding screen 2 is made of PVC; the counterweight body 3 is a gabion which comprises a reinforcement cage filled with stones.

In order to improve the stability of the floating body 1, the two ends of the floating body 1 are detachably connected with the two positioning rods 4 through connecting buckles 7 respectively.

The flexible enclosure curtain is characterized by further comprising two positioning rods 4, wherein the two positioning rods 4 are respectively arranged on two sides of the flexible enclosure curtain 2, the two positioning rods 4 are connected through a fixed cross rod 5, the fixed cross rod 5 is arranged on one side of the middle part or the upper part of the flexible enclosure curtain 2, and a fixing body detachably connected with the fixed cross rod 5 is arranged on one side wall of the flexible enclosure curtain 2; still include and enclose screen hold-down mechanism 9, enclose screen hold-down mechanism 9 sets up the opposite side at flexible screen 2 for when the water level descends, enclose screen 2 to the flexibility more than the fixed body and compress tightly.

In the embodiment, the fixed body and the flexible mantle 2 are made of the same material; the fixed body is including setting up first fixed body 21 and the second fixed body 22 that encloses on one side of screen 2 in the flexibility, and wherein, first fixed body 21 sets up on second fixed body 22, and second fixed body 22 can wrap fixed horizontal pole 5, connect through second zip fastener 23 between first fixed body 21 and the second fixed body 22, and second zip fastener 23 adopts the totally enclosed hydrologic seal zip fastener, fixed horizontal pole 5 wears to establish in the annular channel that first fixed body 21, second fixed body 22 and flexible screen 2 formed between, during the use, places fixed horizontal pole 5 in the fixed external side, then with second fixed body 22 from up wrapping fixed horizontal pole 5 back down, is connected with first fixed body 21 through second zip fastener 23, and then realizes that flexible screen 2 fixes on fixed horizontal pole 5 to ensure that flexible screen 2 is in tensile state below the fixed body all the time, ensure that the bottom of flexible screen 2 can not produce the fold because of water level decline with the junction of counter weight body 3 promptly. Moreover, the fixed cross rod 5 plays a certain positioning role on the whole flexible surrounding screen 2 so as to improve the impact resistance of the flexible surrounding screen.

Two ends of the mantle pressing mechanism 9 are respectively connected with the fixed cross rod 5 through a fixed plate 8.

The mantle pressing mechanism 9 comprises an elastic supporting body 91, a first positioning cross bar 95, a second positioning cross bar 96, a first connecting rod 92, a second connecting rod 93 and a third connecting rod 94;

the elastic supporting body 91 is arranged below the flexible surrounding screen 2 above the fixed body, the elastic supporting body 91 is made of elastic materials, specifically, the elastic supporting body 91 can be woven by elastic strip-shaped objects to be of a net-shaped structure, the elastic strip-shaped objects can be directly rubber bands with the diameter of 3-5, the length of the elastic supporting body 91 is larger than or equal to that of the flexible surrounding screen 2 above the fixed body, and the length direction of the embodiment is the horizontal direction in the attached drawing 1;

the first positioning cross rod 95 and the second positioning cross rod 96 are respectively arranged on two long sides of the elastic supporting body 91, the second positioning cross rod 96 is connected with the fixed cross rod 5 through the fixed plate 8, namely, two ends of the second positioning cross rod 96 are respectively connected with the two fixed plates 8, one end of each fixed plate 8 is connected with the fixed cross rod 5, and the two fixed plates 8 are respectively arranged on two sides of the flexible mantle 2;

one ends of the second connecting rod 93 and the third connecting rod 94 are hinged with each other, and the other ends are hinged with the first positioning cross rod 95 and the second positioning cross rod 96 respectively; the upper end of the first connecting rod 92 is connected with the hinged part of the second connecting rod 93 and the third connecting rod 94, the bottom end of the first connecting rod is connected with the elastic supporting body 91, and the second connecting rod 93, the third connecting rod 94 and the first connecting rod 92 are arranged at the two ends of the elastic supporting body 91.

When the water level is greatly reduced, a larger groove is formed at the bottom of the flexible enclosure screen 2 above the fixed body, when the bottom 2 of the flexible enclosure screen is contacted with the bottom of the elastic supporting body 91 and generates pressure on the bottom of the elastic supporting body 91, the bottom of the elastic supporting body 91 moves downwards under the action of the pressure, and then the first connecting rod 92 is driven to move downwards, the first connecting rod 92 moves downwards to enable the mutual hinged end of the second connecting rod 93 and the third connecting rod 94 to move downwards, at the moment, the first positioning cross rod 95 and the second positioning cross rod 96 are mutually closed (the first positioning cross rod 95 moves close to the second positioning cross rod 96), the first positioning cross rod 95 realizes transverse compression on the bottom 2 of the flexible enclosure screen, the falling flexible enclosure screen 2 is accommodated in the elastic supporting body 91, and the reduction of impact resistance caused by the fact that the flexible enclosure screen 2 above the fixed body falls to generate the groove is avoided; when the water level rises, the flexible curtain 2 that encloses above the fixed body upwards stretches under the effect of body 1, encloses curtain hold-down mechanism 9 and also gets back to initial condition under the restoring force effect of elastic support body 91, and second connecting rod 93 and third connecting rod 94 level set up promptly, and second connecting rod 93 and third connecting rod 94 strut first location horizontal pole 95, make first location horizontal pole 95 can not produce the horizontal extrusion to the flexible curtain 2 that encloses.

Example 2:

as shown in fig. 5, the present embodiment is different from embodiment 1 in that:

the elastic support 91 is different, and the elastic support 91 of this embodiment includes a bottom plate, two sides of the bottom plate are respectively connected with the first positioning cross bar 95 and the second positioning cross bar 96 through elastic members, and the elastic members in this embodiment may be springs.

Example 3:

in the embodiment, based on embodiment 1 or embodiment 2, the flexible surrounding screen 2 is composed of a plurality of surrounding screen monomers, two adjacent surrounding screen monomers are connected through a first zipper 6, and the first zipper 6 adopts a fully-closed water-tight sealing zipper; every encloses and all is provided with the fixed body on the screen monomer, and every encloses the free top of screen and all is provided with body 1, detachable connection between two adjacent body 1, also can adopt the connection of totally enclosed moisture seal zip fastener.

According to the needs, the fixed cross rod 5 can be a sectional structure and is composed of a plurality of sectional cross rods, two adjacent sectional cross rods are detachably connected and can be in threaded connection or clearance fit, and the like, namely, a threaded groove and a threaded protrusion can be respectively arranged at two ends of each sectional cross rod, and the threaded protrusion and the threaded groove are in threaded connection or are directly provided with a groove and a protrusion in clearance fit.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only examples of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

It should be noted that the structures, ratios, sizes, and the like shown in the drawings attached to the present specification are only used for matching the disclosure of the present specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions of the present invention, so that the present invention has no technical essence, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the function and the achievable purpose of the present invention. In addition, the terms such as "upper", "lower", "left", "right", "middle", etc. used in the present specification are used for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms may be changed or adjusted without substantial technical change.

Claims (10)

1. A soft enclosure adapting to water level change comprises a floating body (1), a flexible enclosure screen (2) and a counterweight body (3), wherein the floating body (1) and the counterweight body (3) are respectively connected with the top and the bottom of the flexible enclosure screen (2); the flexible enclosure curtain is characterized by further comprising at least two positioning rods (4), wherein the two positioning rods (4) are respectively arranged on two sides of the flexible enclosure curtain (2), the two positioning rods (4) are connected through a fixed cross rod (5), the fixed cross rod (5) is arranged on one side of the middle part or the upper part of the flexible enclosure curtain (2), and a fixing body detachably connected with the fixed cross rod (5) is arranged on one side wall of the flexible enclosure curtain (2); still including enclosing screen hold-down mechanism (9), enclose screen hold-down mechanism (9) and set up the opposite side that encloses screen (2) in the flexibility for when the water level descends, enclose screen (2) to the flexibility more than the fixed body and compress tightly.

2. A soft surround for adapting water level changes according to claim 1, wherein both ends of the surround compacting mechanism (9) are connected with the fixed cross bar (5) through a fixed plate (8) respectively.

3. A soft surround to accommodate water level changes as claimed in claim 2 wherein the surround hold down mechanism (9) comprises an elastic support (91), a first positioning rail (95), a second positioning rail (96), a first link (92), a second link (93) and a third link (94);

the elastic supporting body (91) is arranged below the flexible surrounding screen (2) above the fixed body, the elastic supporting body (91) is made of elastic materials, or the elastic supporting body (91) comprises a bottom plate, two sides of the bottom plate are respectively connected with a first positioning cross rod (95) and a second positioning cross rod (96) through elastic pieces, and the length of the elastic supporting body (91) is greater than or equal to that of the flexible surrounding screen (2) above the fixed body;

the first positioning cross rod (95) and the second positioning cross rod (96) are respectively arranged on two long sides of the elastic support body (91), and the second positioning cross rod (96) is connected with the fixed cross rod (5) through the fixed plate (8);

one ends of the second connecting rod (93) and the third connecting rod (94) are hinged with each other, and the other ends of the second connecting rod and the third connecting rod are respectively hinged with a first positioning transverse rod (95) and a second positioning transverse rod (96); the upper end of the first connecting rod (92) is connected with the hinged part of the second connecting rod (93) and the third connecting rod (94), the bottom end of the first connecting rod is connected with the elastic supporting body (91), and the second connecting rod (93), the third connecting rod (94) and the first connecting rod (92) are arranged at the two ends of the elastic supporting body (91).

4. The soft enclosure capable of adapting to the water level change of claim 1, wherein the fixing bodies comprise a first fixing body (21) and a second fixing body (22) which are arranged on one side of the flexible enclosure (2), the first fixing body (21) and the second fixing body (22) are connected through a second zipper (23), and the fixing cross rod (5) is arranged in an annular channel formed among the first fixing body (21), the second fixing body (22) and the flexible enclosure (2) in a penetrating manner.

5. A soft surround for adapting to water level changes according to claim 1, characterized in that the said fixed body and the flexible surround screen (2) are made of the same material.

6. The soft enclosure capable of adapting to the water level change according to claim 1, wherein the flexible enclosure screen (2) is composed of a plurality of enclosure screen single bodies, and two adjacent enclosure screen single bodies are connected through a first zipper (6); every encloses and all is provided with fixed body on the screen monomer, and every encloses screen monomer top all is provided with body (1), detachable connection between two adjacent body (1).

7. The flexible enclosure for adapting to water level change of claim 6, wherein the fixed cross bar (5) is of a sectional structure and is composed of a plurality of sectional cross bars, and two adjacent sectional cross bars are detachably connected.

8. The soft enclosure adapted to water level change of claim 1, wherein two ends of the floating body (1) are detachably connected with two positioning rods (4) through connecting buckles (7).

9. A soft barricade adapted to water level changes according to any one of claims 1 to 8, characterized in that the counterweight (3) is a gabion.

10. A soft enclosure adapted to water level changes according to any of claims 1 to 8, wherein the floating body (1) is made of rubber; the flexible mantle (2) is made of PVC.

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