CN105804226A - Anti-overflow structure of waterfall pond of columnar artificial waterfall - Google Patents

Abstract

The invention discloses an anti-overflow structure of a waterfall pond of a columnar artificial waterfall. The anti-overflow structure is characterized in that the anti-overflow structure comprises the waterfall pond, a supporting part and a limiting part, and the waterfall pond is a water collecting cylinder, wherein the water collecting cylinder is shaped like a strip, and a water storage inner cavity is formed in the water collecting cylinder; the end, in the length direction, of the water collecting cylinder is the water outlet end, the other end of the water collecting cylinder is the water inlet end, the water inlet end is provided with a bump part and a water inlet which is communicated with the water storage inner cavity; the supporting part is vertically and fixedly arranged, the middle part, in the length direction, of the water collecting cylinder is rotatably connected to the supporting part to form a lever structure, and the limiting part is fixedly arranged on the supporting part; a heavy block is arranged at the water outlet end. The anti-overflow structure has the advantage of being exquisite and reasonable in structure, when the waterfall pond contains more water, the waterfall cannot bump against a water feeding barrel any more and collects poured water of the water feeding barrel, and therefore the water collecting cylinder can be effectively prevented from overflowing after the water collecting cylinder is filled with water.

Description

The overflow prevention structure in the drop pond that a kind of column manually drops

Technical field

The invention belongs to drop landscape structure field, be specifically related to the overflow prevention structure in the drop pond that a kind of column manually drops.

Background technology

Drop (also referred to as " waterfall ") is a kind of view deeply liked by people, but the drop of naturalness is distributed among high and steep mountains more, and the resident being not easy in city views and admires.In order to allow the resident in city can enjoy drop easily, artificial drop is just arisen at the historic moment, such as, in prior art, notification number is a kind of Artificial waterfall device disclosed in CN102963208A, or shape such as notification number is a kind of Novel garden construction landscape drop disclosed in CN204196564U.

Nowadays, Zhong Ge emporium, city is generally fitted with escalator (also referred to as " escalator "), there is dull boring sensation in people's occasional when taking escalator, boring in order to what eliminate when people take escalator, part market, at the clearance spaces place on escalator side, is provided with and is available for the artificial drop that people view and admire；And market is after escalator side arranges artificial drop, additionally it is possible to attract more people to enter store and stop and view and admire this and manually drop, promote the popularity in store.Showing through statistical data again, escalator is as the electromechanical equipment of a kind of long-term operation, and they are many with rated power operation when running, but reality mostly is underloading or zero load (far not reaching the load request of rated power), causes more energy waste.

Based on this, in order to better the kinetic energy that escalator is idle be utilized, improve efficiency of energy utilization, applicant consider design a kind of drive motor that can utilize escalator the water of cistern is delivered to drop pond column manually drop, this column manually drops and includes cistern, drop pond and water source structure for conveying, this water source structure for conveying includes the step of escalator, and be arranged on the bucket that send of this end, step width one end by bracing frame, and send between bucket and bracing frame as being rotatably connected.So, can when step marches to the lowest point on escalator so that send bucket to sink in cistern and fetch water.Drop pond therein integral erection is above cistern, and lower than be positioned at escalator downside step on the position of outer end of support bar, so, the upper end in this drop pond just can be bumped against with the leading flank sending bucket, so that send bucket, after the outer end of support bar overturns, pouring is to pond of dropping, and the outlet water outlet on drop pond has been column artificial waterfall.

But how to design one can drop be loaded with more water in pond time so that sending bucket not to pouring in drop pond, thus preventing the structure that drop water pool inner water overflows, being need consideration badly to solve the technical problem that.

Summary of the invention

For above-mentioned the deficiencies in the prior art, the technical problem to be solved is: when how to provide one can be loaded with more water in drop pond, make to send bucket not to pouring in drop pond, thus preventing the overflow prevention structure in drop pond that the column that drop water pool inner water overflows manually drops.

In order to solve above-mentioned technical problem, present invention employs following technical scheme:

The overflow prevention structure in the drop pond that a kind of column manually drops, described overflow prevention structure includes drop pond, and this drop pond is profile is the water receiving cylinder of strip, and the inside of described water receiving cylinder has water storage inner chamber；Described water receiving cylinder one end in the longitudinal direction is the water side being provided with the outlet with water storage inner space, the other end is water inlet end, and on described water inlet end, the step direct of travel along escalator is provided with impact portions and the water inlet with water storage inner space back to front；

Described overflow prevention structure also includes support member and locating part；Wherein, described support member is for be vertically fixedly installed, and described water receiving cylinder middle part in the longitudinal direction is rotatably connected on described support member and forms lever construction, and described locating part is fixedly installed on described support member；

Described water side is provided with pouring weight, and when described water receiving cylinder is in zero load or light condition, the gravity of this pouring weight makes described water inlet end upwarp so that described impact portions can collide with the described leading flank sending bucket, and this send bucket to rotate and to described water inlet pouring around the outer end of support bar；And when in water receiving cylinder, the gravity of water inlet end is more than the gravity of water side, described water inlet end is subject to the spacing of described locating part when being decreased below the lower end position sending bucket.

The setting of above-mentioned overflow prevention structure, water receiving cylinder, when unloaded or light condition, makes water inlet end upwarp under the action of gravity of water side pouring weight, the impact portions of water inlet end with send bucket to clash into mutually and make this send bucket constantly to overturn and to pouring in water receiving cylinder；Water receiving cylinder continue to receive send bucket pouring extremely, when the gravity of water inlet end is more than the gravity of water side, described water inlet end is subject to the spacing of described locating part when being decreased below the lower end position sending bucket, described water receiving cylinder no longer with send bucket to collide and accept the pouring sending bucket, therefore after can effectively preventing water receiving wound packages full water overflow.

As improvement, described water side is provided with a slot for being inserted and fixed for described pouring weight.

The setting of above-mentioned slot makes pouring weight assembling on water receiving cylinder more convenient.

As improvement, the surface configuration that described locating part contacts with water receiving cylinder has one layer of cushion.

So, can effectively prevent the hard collision between locating part and water receiving cylinder, play certain protective effect.

As preferably, described water receiving cylinder is spaced multiple along step direct of travel.

The setting of above-mentioned multiple water receiving barrel structure, after water extremely upset accepted by a upper water receiving cylinder, no longer can collide with sending bucket；So, this send the water of bucket can collide with next water receiving cylinder and pouring wherein.The structure of visible multiple water receiving cylinder, it is possible to better to sending the water in bucket to accept, thus improve send bucket send water efficiency.

As preferably, multiple steps of escalator are respectively arranged with described in one and send bucket.

So, it is possible to increase that send bucket send water efficiency, effectively prevent multiple water receiving cylinder from situation about cutting off the water supply occurring.

As preferably, described support member is one piece and is vertically fixedly installed on ground body of wall, and multiple described water receiving cylinders are commonly connected on this body of wall.

So, the setting of this body of wall can not only play the effect supporting water receiving cylinder, additionally it is possible to body of wall environment behind is blocked and protected, thus what promote drop views and admires impression.

The overflow prevention structure in the drop pond that the column of the present invention manually drops, there is the ingenious rational advantage of structure, can when pond of dropping contains more water, no longer with send bucket to collide and accept the pouring sending bucket, therefore overflow after can effectively preventing water receiving wound packages full water, also making the water sending bucket can be continuously next water receiving cylinder simultaneously and send water, sending water efficiency thus being effectively increased.

Accompanying drawing explanation

Fig. 1 is the perspective view of the second embodiment of a kind of artificial drop.

Fig. 2 is A place enlarged drawing in Fig. 1.

Fig. 3 is the lateral view of Fig. 1.

Fig. 4 is the perspective view after being additionally arranged waterwheel in Fig. 1.

Fig. 5 is the perspective view after being additionally arranged waterwheel in Fig. 3.

Fig. 6 is the perspective view of the third embodiment (being all the column that have employed overflow prevention structure of the present invention manually to drop) of a kind of artificial drop.

Fig. 7 is the lateral view of Fig. 6.

Fig. 8 a to Fig. 8 c be Fig. 6 artificial drop in send bucket pouring to the process schematic of water receiving cylinder.

Figure is labeled as:

1 cistern；

2 drop ponds；

3 steps；

4 tube filled with water；

5 support bars；

6 sluicing faces；

7 water wheels；

8 bracing frames；

9 blades；

10 strip thick bamboo tubes；

11 bar shaped ponds；

12 water receiving tanks；

13 send bucket；

14 coaming plates；

15 water receiving cylinders；

16 pouring weights；

17 connect axle；

18 halfpipe；

19 bodies of wall.

Detailed description of the invention

The present invention is described in further detail for a kind of artificial the realize method that drop higher below in conjunction with comprehensive effectiveness and this accompanying drawing manually dropped.Wherein, the exemplary term such as such as upper and lower, left and right are adopted for description, it is therefore intended that help reader understanding, and be not intended to limit.In this detailed description of the invention, a side pointed during with the traveling of the step of escalator is for front.

The artificial drop that a kind of comprehensive effectiveness is higher realize method, comprise the following steps:

The drop pond 2 of the artificial drop of a, structure and cistern 1:

Constructing drop pond 2 and cistern 1 at other this escalator place contiguous of escalator, wherein cistern 1 is integrally located at the lower section in drop pond 2, the sidewall in drop pond 2 has and is available for the outlet that water flows out and forms drop；

B, it is configured to be delivered to the water of cistern 1 the water source structure for conveying in drop pond 2:

C, described water source structure for conveying power provided by the drive motor of escalator.

Compared with the existing technology relatively, the power of the water source structure for conveying that the water in cistern is delivered in drop pond by above-mentioned artificial drop is provided by the drive motor of escalator, this makes it possible to power utilization idle for drive motor, thus improving the utilization ratio of the comprehensive energy of this escalator and artificial drop.

Wherein, the drive motor of escalator conveying member is driven to adopt following water source structure for conveying to realize:

This water source structure for conveying includes draw water part and conveying member；Described conveying member is fixing with the described part that draws water to be connected, and described in draw water part for drawing water from cistern 1, described conveying member for being delivered to pond 2 of dropping by the water that the part that draws water draws；It is connected for driving between described conveying member and the drive motor of escalator.

After adopting above-mentioned artificial drop, because conveying member is driven by the drive motor of escalator, therefore when escalator runs, drive motor acts on conveying member and makes to draw water the water that part draws from cistern 1, the water drawn in part is delivered to again drop pond 2 by conveying member subsequently, and the water in drop pond 2 flows out through outlet and forms drop.Therefore, the artificial drop of the present invention can be combined use with the drive motor of escalator, and the power that drive motor is idle is better profited from, and improves the comprehensive energy utilization ratio of this escalator.

During enforcement, it is preferable that described outlet is a strip breach of the upper end being arranged on the sidewall being close to cistern 1 on drop pond 2.So, the simple in construction of outlet, it is easy to manufacture, and the structure of this outlet can form broader drop so that this drop is more grand.

The first embodiment (not shown):

Wherein, described conveying member is centrifugal pump, the described part that draws water is two water pipes of water inlet and the outlet being fixedly connected on this centrifugal pump, the end that draws water of the water pipe being wherein connected with the water inlet of centrifugal pump is positioned at below the horizontal plane of described cistern 1, and the water side of the water pipe being connected with the outlet of centrifugal pump connects with described drop pond 2；The rotating shaft of the impeller of this centrifugal pump drives with the drive motor of escalator and is connected.

The conveying member of said structure, the structure being connected between part and conveying member and the drive motor of escalator that draws water are relatively simple, set up more simple and efficient.

During enforcement, the rotating shaft of the impeller of described centrifugal pump drives to be connected with the drive motor of escalator and following structure can be adopted to realize:

1, this drive motor is dual-axle motor, and wherein an axle is connected by decelerator is fixing with the drive sprocket of escalator；Another axle can be connected either directly through the rotating shaft of shaft coupling with the impeller of centrifugal pump, and another axle is connected also by the rotating shaft of variator with the impeller of centrifugal pump.

2, this drive motor is single shaft motor, and the output shaft of this drive motor is fixedly and coaxially connected with the driving axle on bearing block；And this driving axle is coaxially fixedly installed the drive sprocket for driving escalator, and for driving the gear of the impeller shaft of centrifugal pump (engaging with the gear on impeller shaft) or rotating disk (being connected by belt) with the rotating disk on impeller shaft.

The second embodiment (as shown in Figures 1 to 5):

This embodiment and the first embodiment are different in that:

Described conveying member is the step 3 of escalator, described in the part that draws water be the tube filled with water 4 that a strip and the mouth that is filled with water are located at end；

Described step 3 is fixedly installed support bar 5 in the end, one end of the width of this escalator, and described support bar 5 is overall L-shaped, and the outer end of described support bar 5 is away from this step 3, and the outer end of described support bar 5 is fixing with described tube filled with water 4 to be connected；The length direction of described tube filled with water 4 and the direct of travel of step 3 match, and the mouth that is filled with water of described tube filled with water 4 is in the front of direct of travel of step 3；

When described tube filled with water 4 marches to the lowest point of escalator with step 3, this tube filled with water 4 can sink in cistern 1 and fetch water；Drop pond 2 is corresponding with the mouth that is filled with water of the described tube filled with water 4 of the step 3 marching to escalator highest point end position and can accept the pouring after this tube filled with water 4 overturns.

The step 3 of above-mentioned employing escalator, as conveying member, adopts tube filled with water 4 as the water source structure for conveying of the part that draws water so that this water source structure for conveying not only has simple in construction, arranges convenient advantage；And compared to adopting centrifugal pump as conveying member, using the step 3 of escalator as conveying member run time noise lower, will not produce centrifugal pump when carrying water produced pump noise (water pump noise is exactly irregular, interval, continuous print or the random noise that water pump operationally produces；Industrial noise, traffic noise that water pump noise contacts with daily life differ, it belongs to low-frequency noise (frequency sound below 500 hertz), the feature of low-frequency noise decays slowly exactly, sound wave is longer, its diffraction wave energy cut-through thing easily, so low-frequency noise is not disposable).

During enforcement, it is preferable that in cistern 1, lowest water level should be higher than that tube filled with water 4 has just filled with the height at its mouthful place that is filled with water of water moment (marching to step)；The contiguous escalator side of preferred cistern 1() pool wall height lower than the height at (being on the step of escalator its lowest position) place, support bar 5 upper end.So, cistern 1 also ensure that the traveling of support bar 5 will not be caused any stop by pool wall while being able to ensure that the more abundant water intaking of tube filled with water 4.

Wherein, this escalator is up escalator.

When this escalator is up escalator, this tube filled with water 4 marches to conveying member and can overturn after the end position of highest point on escalator downwards, and now the upset degree of tube filled with water 4 is maximum, and pouring effect is best.Meanwhile, tube filled with water 4 is continuously advanced (first obliquely front traveling with conveying member from cistern 1 whole to the course of conveying of drop pond 2, advance before rear transverse direction), again because the described length direction of tube filled with water 4 and the direct of travel of escalator match, therefore tube filled with water 4 when moving to the end position of escalator highest point with step 3, the motional inertia of conveying member can be better utilized to be poured out by the water of splendid attire, thus improving pouring efficiency (because of when escalator is descending escalator, tube filled with water 4 has the process of a vertical lifting in the corner of the rearmost end of escalator, therefore well the traveling motional inertia of escalator can not be used for pouring；Additionally, upset degree during tube filled with water 4 pouring is also not as good as the upset degree on up escalator, therefore pouring less effective).

In addition, also because the length direction of tube filled with water 4 and the direct of travel of escalator match, therefore in tube filled with water 4 at the end position moving to escalator highest point with step 3, the direction advanced with step 3 in the direction of the water outlet of tube filled with water 4 is tangent, and cistern 1 is fittingly disposed at indication source, direction when being filled with water mouthful water outlet and can accept the water outlet of this mouth that is filled with water, so, tube filled with water 4 will not bump against with drop pond 2 in the process to drop pond 2 pouring, it is ensured that the smoothness that tube filled with water 4 is advanced with conveying member.

Wherein, multiple steps 3 of escalator are provided with a described tube filled with water 4 respectively.

Drop pond 2 water yield so can promote cistern 1 to the water source transfer efficiency dropped between pond 2, thus can be made bigger thus more grand drop can be formed.

During enforcement, it is possible to each step 3 of escalator will be provided with a described tube filled with water 4.

Wherein, the front end of described tube filled with water 4 deflects to the direction away from escalator.

After adopting the tube filled with water 4 of said structure, tube filled with water 4 is the oblique outer direction being directed away from escalator when pouring, and so, drop pond 2 can be arranged on the larger space place being slightly away from escalator side more conveniently.Additionally, again because drop pond 2 is further from the side of escalator, therefore tube filled with water 4 is to the process of pouring in drop pond 2, is more easy to and is seen by the passenger on escalator, promotes the sight dropped.

Above-mentioned artificial drop also includes water discharging structure, described water discharging structure includes the connector being fixedly connected between drop pond 2 and cistern 1, the upper surface of described connector has a sluicing face 6 tilted, the upper end in described sluicing face 6 is for accepting the water outlet of the outlet in drop pond 2, and this water outlet is guided in cistern 1 by the lower end in described sluicing face 6.

First, setting by above-mentioned connector and sluicing face 6, because sluicing face 6 can by the water water conservancy diversion in drop pond 2 to cistern 1, reduce drop pond 2 and fall into the impact force (compared with the drop vertical structure falling into cistern 1 of water) of cistern 1, so, the water outlet that can not only effectively prevent drop pond 2 falls into the other ground of cistern 1 situation causing ground wet and slippery because vertically falling into cistern 1 to splash the more spray, also need not consider that the flowing water in drop pond 2 accepted by the cistern 1 of setting relatively big (floor space), can effectively reduce the floor space of cistern 1, reduce cost.

Secondly, because whole artificial drop is provided in the position that the internal escalator in market is other, and be a space comparatively closed inside market, when being not provided with above-mentioned connector and sluicing face 6 thereof, the water in drop pond 2 vertically under let out to cistern 1 and can cause bigger flow impact sound, and produce certain noise.After being provided with above-mentioned connector and sluicing face 6 thereof, drop water flows out through outlet, and along sluicing face, 6 earial drainages are to cistern 1, this makes it possible to reduce drop pond 2 and leaks into the impact force to cistern 1, thus reducing flow impact sound and playing the effect of noise reduction.

Finally, the setting in sluicing face 6 can also extend the flow path of drop pond 2 to cistern 1, and increase again the contact area between current and air by this flow path, the water passing through this flow path is more easy to surrounding volatilization, thus increasing the degree with the humid air of inner space, market so that the air quality of inner space, market is more excellent.

Wherein, the platy structure of described connector generally strip, the length direction of described connector and the length direction of escalator match.

The volume of the connector of said structure is less, take up room less, and overall structure is more succinct, compact；And the length direction of the length direction of connector and escalator matches, so can make the current drop that the people taking escalator are easier to see on the sluicing face 6 of connector, promote and view and admire impression.

Wherein, described sluicing face 6 is formed with stop limit in the edges at two ends epirelief of width.

The setting on above-mentioned stop limit can effectively prevent the flowing water on sluicing face 6 from flowing out from the end of this sluicing face 6 width so that the water conservancy diversion better effects if in sluicing face 6.

Wherein, described sluicing face 6 is formed the projection of the strip of the width extension of along sluicing face 6 near the part epirelief in drop pond 2.

Above-mentioned projection can help flowing water on sluicing face 6 to form wave so that the flowing water on sluicing face 6 can better simulating nature state, promote the sight dropped.

During enforcement, it is preferable that this projection height in the protrusion direction is 2-15cm, the too high or too low formation being all unfavorable for wave.

Wherein, the section of described projection is isosceles triangle.

Adopting section is the bulge-structure of isosceles triangle, and the barrier force of current is less, so that current are better by property.

Wherein, described projection be along described sluicing face 6 length direction be set up in parallel multiple.

6 length directions produce longer wave in sluicing face so can to promote flowing water by above-mentioned multiple projections, strengthen the appreciation effect of drop.

During enforcement, above-mentioned multiple projections are fixedly connected on the width of the sluicing face of being arranged on 6 on the stop limit of edges at two ends at the two ends of width, so can strengthen the structural strength stopping limit.

Wherein, described water discharging structure also includes the waterwheel being vertically fixedly installed in cistern 1, and described waterwheel includes the water wheel 7 of generally disc-shaped structure, the bracing frame 8 being rotatably connected with water wheel 7 and supporting；In the peripheral side of described water wheel 7, interval is fixedly installed polylith blade 9；It is consistent with the tangential direction of described water wheel 7 that the lower end in described sluicing face 6 is guided to the water outlet direction of cistern 1, and this water outlet can be impacted the blade 9 of water wheel 7 and order about described water wheel 7 and rotate.

Above-mentioned waterwheel entirety is vertically provided in cistern 1, it is possible to space vacant above cistern 1 is better utilized, and promotes this sight manually dropped further.

Wherein, the lower end of described water wheel 7 is positioned at below the horizontal plane of described cistern 1；The oblique strip thick bamboo tube 10 that can be used for being filled with water that is fixedly installed on the side of described water wheel 7 circumference, one end that described strip thick bamboo tube 10 is provided with water inlet is positioned at the front of this water wheel 7 direct of travel.

So, strip thick bamboo tube 10 rotates together with water wheel 7 and can sink to cistern 1 when being arranged in extreme lower position on water wheel 7 and bails, and when rotating to upturned position, pouring forms again drop current again, improves this sight manually dropped.

Wherein, described strip thick bamboo tube 10 is peripheral side multiple being disposed in an evenly spaced relation in described water wheel 7；There is the bar shaped pond 11 for accepting this pouring at contiguous described strip thick bamboo tube 10 with the position correspondence erection of water wheel 7 upset pouring, and described bar shaped pond 11 is provided with on sidewall away from water wheel 7 is available for the breach that water flows out and forms drop.

So, can make to be formed with multistage stair-stepping drop (as viewed from shape laterally of this flowing water) to the flowing water of cistern 1 again by strip thick bamboo tube 10 to bar shaped pond 11 by said structure, further increase the contact area of current and air.

Wherein, above-mentioned artificial drop also includes water droplet adapting structure for electric, and this water droplet adapting structure for electric includes the water receiving tank 12 being fixedly installed on the underface of the tube filled with water 4 of the step 3 of escalator, and described water receiving tank 12 is overall in strip；The tube filled with water 4 being on the end of the highest point of escalator and escalator between contiguous cistern 1 part drops in described water receiving tank 12 in the projection on vertical, and on described water receiving tank 12, the end of contiguous cistern 1 has to supply water and flows into the outlet of cistern 1.

After above-mentioned water droplet adapting structure for electric is set, this water receiving tank 12 tube filled with water 4 can be toppled over after remaining water droplet accept, therefore it is wet and slippery effectively to prevent above-mentioned remaining water droplet from falling to the ground caused on ground, it is ensured that be positioned at the safety of artificial drop bottom row people walking.

Additionally, after arranging above-mentioned water receiving tank 12, also need not consider to use cistern 1 to accept the water droplet of tube filled with water 4, therefore can effectively save the setting area of cistern 1, thus reducing the construction costs of whole drop, help the entirety making drop more succinctly attractive in appearance.

Wherein, described water receiving tank 12 is obtained by any one material in aluminium sheet material or wood material.

The drawing materials easily and will not get rusty of aluminium sheet or plank, it is ensured that water receiving tank 12 be more easy to prepared while also can maintain the cleannes at water source preferably.

Wherein, the mating shapes of the strip of the displacement path of tube filled with water 4 between contiguous cistern 1 part on the end of the highest point of the strip of described water receiving tank 12 and escalator and escalator；And the upper end suspention of described water receiving tank 12 is connected on drop pond 2, the lower end of described water receiving tank 12 is fixedly connected on cistern 1.

Adopting the water receiving tank 12 of said structure, not only structure is relatively simple, also without taking floor area；In addition, the shape of the strip of above-mentioned water receiving tank 12 can make the spacing between entirety and tube filled with water 4 minimum, so that the impulsive force that the residue water droplet in tube filled with water 4 falls to water receiving tank 12 under gravity is less, it is possible to prevent the water falling in water receiving tank 12 from spilling from water receiving tank 12 more further.

Wherein, the bottom surface of described water receiving tank 12 has one layer of antispray layer.

The setting of above-mentioned antispray layer, it is possible to tube filled with water is fallen for 4 times dripping to water receiving tank 12 and cushions, spills from water receiving tank 12 thus effectively preventing from dripping；Meanwhile, also the setting of antispray layer may replace and prevents, by lifting water receiving tank 12 sidewall rational height, the structure spilt of dripping just, thus while helping water receiving tank 12 effectively to prevent from dripping and spill, water receiving tank 12 is helped to reduce Sidewall Height, the weight and volume of economization water receiving tank 12, therefore above-mentioned improvement project has better implementation result.

Wherein, described antispray layer is obtained by any one material in sponge material or silica gel material.

Sponge and silica gel are respectively provided with the effect of damping, therefore splashproof effect is all ideal.Additionally, sponge also has good water absorption, so, adopt the antispray layer of sponge material can the water droplet that drop to surface be absorbed rapidly, promote splashproof effect further.

Wherein, the thickness of described antispray layer is 1st/to two/5th of described water receiving tank 12 height.

The splashproof effect of the antispray layer of above-mentioned specification is even more ideal.

The third embodiment (as shown in Fig. 6 to Fig. 8 c) is the column that have employed overflow prevention structure of the present invention and manually drops:

This embodiment and the first and the second embodiment are different in that:

Wherein, described conveying member is the step 3 of escalator, described in draw water part be upper end there is opening send bucket 13；

Described step 3 is fixedly installed support bar 5 in the end, one end of the width of this escalator, described support bar 5 is overall L-shaped, and the outer end of described support bar 5 is away from this step 3, the outer end of described support bar 5 and the described upper center sending bucket 13 are rotatably connected；Described when sending bucket 13 to march to the lowest point of escalator with step 3, send bucket 13 to sink in cistern 1 and fetch water；

Described drop pond 2 integral erection above cistern 1, and lower than be positioned at escalator downside step 3 on the position of outer end of support bar 5；The upper end in described drop pond 2 is disposed with water inlet and impact portions from front to back along step 3 direct of travel, described impact portions is for colliding with the described leading flank sending bucket 13, and making this send bucket 13 overall to rotate and pouring around the outer end of support bar 5, the water inlet in described drop pond 2 is for accepting the pouring sending bucket 13 after rotation；The lower end in described drop pond 2 is provided with and is available for the outlet that water flows out and forms column drop.

Above-mentioned artificial drop adopts the step 3 of elevator as conveying member, and adopt be rotatably connected step 3 end support bar 5 outer end send bucket 13 as the structure of the part that draws water, there is simple in construction, convenient advantage be set；The employing sending bucket 13 also has that water withdrawal is bigger, the advantage of efficiency of producing drinking water higher (compared to tube filled with water 4 as the part that draws water), and send bucket 13 to keep vertical state all the time under the gravity of water in sending water process, so that send the water that bucket 13 takes not easily to flow out.

Above-mentioned drop pond 2 is the structure corresponding with above-mentioned conveying member and the part that draws water, the upper end in this drop pond 2 arranges above-mentioned impact portions and water inlet, thus upset after the leading flank giving bucket 13 advanced with step 3 can be made to collide with impact portions, making to send bucket 13 constantly to pouring in the water inlet in drop pond 2, pouring is reliable and efficiency is higher；And send bucket 13 again to recover vertical shape under self gravitation effect after departing from impact portions so that send remaining water in bucket 13 not easily to drop out.Subsequently, the pouring sending bucket 13 is converged by this drop pond 2, and the outlet further through drop lower end, pond 2 supplies water outflows, drops supply people to view and admire thus continually forming column.

In general, the structure in above-mentioned drop pond 2 is relatively simple, it is less to take up room, therefore manually drop structure is more compact can to make this, effectively saves the construction cost of this artificial drop.

During enforcement, send described in preferably bucket 13 profile generally rectangular configuration send bucket 13, so, can make to send the area contacted during collision between bucket 13 with the impact portions on drop pond 2 bigger, collision process is more reliable and more stable, thus helping to send bucket 13 to realize overturning pouring with more surely leaning on.

During enforcement, it is preferable that the profile entirety of described impact portions is montant shape or riser shape.So, the simple in construction of the impact portions of montant shape or riser shape, it is simple to manufacture.

Wherein, described drop pond 2 entirety can be a shell structure, and the inside of described housing has water storage inner chamber, and the upper end of described housing has and the flow inlet of described water storage inner space, and the edge epirelief of described flow inlet extends to form the coaming plate 14 of ring-type；

On described coaming plate 14, the side of the contiguous leading flank sending bucket 13 is constituted for colliding with the described leading flank sending bucket 13, and makes this send bucket 13 overall to rotate around the outer end of support bar 5 and the impact portions of pouring；The opening of the upper end of described coaming plate 14 constitutes for accepting the water inlet sending bucket 13 pouring after rotation, and the lower end of described housing is provided with the outlet that the water being available for water storage inner chamber flows out and forms column drop.

Above-mentioned drop pond 2 structure being made up of housing, by the simple structure of housing, is not only convenient for independent production, and installs also more convenient, therefore can reduce the construction cost of artificial drop, promotes the efficiency of construction of artificial drop.

In addition, the above-mentioned coaming plate 14 formed on this housing, the leading flank of bucket 13 can be sent to constitute impact portions by contiguous on this coaming plate 14, bucket 13 is so sent to march to relevant position, this send the leading flank of bucket 13 can collide and rotate pouring with impact portions, and the opening of coaming plate 14 upper end constitutes the water inlet having for accepting this pouring, simultaneously, the pouring sending bucket 13 can be carried out water conservancy diversion by the medial surface of this coaming plate 14, thus realizing better pouring effect.

Wherein, described outlet is positioned at the side deviating from escalator on described drop pond 2.

So be more convenient on this escalator passenger viewing, promote appreciation effect.

Wherein, the lateral surface of described impact portions be overall tilt to the front sending bucket 13 direct of travel plane.

So, first the bottom sending the leading flank of bucket 13 contacts with this plate-impact, subsequently, send the bottom of bucket 13 to glide along " clinoplain " of impact portions and overall constantly toward top rake pouring to water inlet, send the water in bucket 13 will not swing because impact force spend big.

After sending the leading flank of bucket 13 and the laminating of this flat board, this send bucket 13 entirety to rotate around the upper end of this impact portions again and turns up pouring to water inlet.Visible, the impact portions of said structure can slow down and send the bucket 13 impact force when just touching, it is prevented that send the pond in bucket 13 to go out so that the upset pouring process sending bucket 13 is more mild, stable.

Wherein, that described coaming plate 14 deviates from that the lateral surface sending bucket 13 generally tilts to the front sending bucket 13 direct of travel is plane.

The bucket 13 that send that this housing is applicable to upstream or downstream escalator is made to send water, thus having better practicality.

The artificial drop of present embodiment may also include the overflow prevention structure (being the present invention) in drop pond 2, described overflow prevention structure includes drop pond 2, this drop pond 2 is profile is the water receiving cylinder 15 of strip, and the inside of described water receiving cylinder 15 has water storage inner chamber；Described water receiving cylinder 15 one end in the longitudinal direction is the water side being provided with the outlet with water storage inner space, the other end is water inlet end, and on described water inlet end, step 3 direct of travel along escalator is provided with impact portions and the water inlet with water storage inner space back to front；

Described overflow prevention structure also includes support member and locating part；Wherein, described support member is for be vertically fixedly installed, and described water receiving cylinder 15 middle part in the longitudinal direction is rotatably connected on described support member and forms lever construction, and described locating part is fixedly installed on described support member；

Described water side is provided with pouring weight 16, and when described water receiving cylinder 15 is in zero load or light condition, the gravity of this pouring weight 16 makes described water inlet end upwarp, described impact portions can be collided with the described leading flank sending bucket 13, and this send bucket 13 to rotate and to described water inlet pouring around the outer end of support bar 5；And when in water receiving cylinder 15, the gravity of water inlet end is more than the gravity of water side, described water inlet end is subject to the spacing of described locating part when being decreased below the lower end position sending bucket 13.

The setting of above-mentioned overflow prevention structure, water receiving cylinder 15 when unloaded or light condition (as shown in figs. 8 a and 8b, in figure, arrow direction is step direct of travel), make water inlet end upwarp under the action of gravity of water side pouring weight 16, the impact portions of water inlet end with send bucket 13 phase to clash into and make this send bucket 13 constantly to overturn and to pouring in water receiving cylinder 15；Water receiving cylinder 15 persistently receive send bucket 13 pouring extremely, when the gravity of water inlet end is more than the gravity of water side (as shown in Figure 8 c), described water inlet end is subject to the spacing of described locating part when being decreased below the lower end position sending bucket 13, described water receiving cylinder 15 no longer with send bucket 13 to collide and accept the pouring sending bucket 13, therefore can effectively prevent water receiving cylinder 15 from filling and overflow after water.

During enforcement, it is preferable that described water inlet end is subject to the spacing of described locating part when being decreased below the lower end position sending bucket 13, and the length direction of this water receiving cylinder 15 is paralleled with the direct of travel of step 3.So, it is possible to water receiving cylinder 15 can not only be prevented effectively from and send bucket and 13 collide；The anglec of rotation also making water receiving cylinder 15 entirety is minimum, and then can rotate quickly and prevent to overflow after further water receiving.

During enforcement, described locating part can adopt the one in following structure:

1, in the upper side of water receiving cylinder 15 or downside longitudinally be fixedly arranged in the middle of the connection axle 17 being connected that is rotatably connected with support member, described locating part is the fixing end that one end is fixed on support member, the other end is the positive stop end stretching out and covering the halfpipe 18 on this connection axle 17, and relies on this halfpipe 18 to carry out spacing in the end in radian direction to the rotation docking water drum 15.

2 and above one be different in that: the positive stop end of described locating part be extend directly to relevant position and be rotated in place after the water inlet end of water receiving cylinder 15 or one end in water side abut against (not shown).

Wherein, described water side is provided with a slot for being inserted and fixed for described pouring weight 16.

It is more convenient that the setting of above-mentioned slot makes pouring weight 16 on water receiving cylinder 15 assemble.

Wherein, the surface configuration that described locating part contacts with water receiving cylinder 15 has one layer of cushion.

So, can effectively prevent the hard collision between locating part and water receiving cylinder 15, play certain protective effect.

During enforcement, described cushion is preferably prepared by any one material in elastomeric material, sponge material or silica gel material.So, the buffering effect that can make cushion is better.

Wherein, described water receiving cylinder 15 is spaced multiple along step 3 direct of travel.

The setting of above-mentioned multiple water receiving cylinder 15 structure, after water extremely upset accepted by a upper water receiving cylinder 15, no longer can collide with sending bucket 13；So, this send the water of bucket 13 can collide with next water receiving cylinder 15 and pouring wherein.The structure of visible multiple water receiving cylinder 15, it is possible to better to sending the water in bucket 13 to accept, thus improve send bucket 13 send water efficiency.

Wherein, multiple steps 3 of escalator are respectively arranged with described in one and send bucket 13.

So, it is possible to increase that send bucket 13 send water efficiency, effectively prevent multiple water receiving cylinder 15 from situation about cutting off the water supply occurring.

Wherein, described support member is one piece and is vertically fixedly installed on ground body of wall 19, and multiple described water receiving cylinders 15 are commonly connected on this body of wall 19.

So, the setting of this body of wall 19 can not only play the effect supporting water receiving cylinder 15, additionally it is possible to body of wall 19 environment behind is blocked and protected, thus what promote drop views and admires impression.

Below it is only the preferred embodiment of the present invention; need to point out be; for those skilled in the art under the premise without departing from the technical program, it is also possible to make some deformation and improvement, the technical scheme of above-mentioned deformation and improvement should be contemplated as falling within this application claims the scope of protection equally.

Claims (6)

1. the overflow prevention structure in the drop pond that a column manually drops, it is characterised in that: described overflow prevention structure includes drop pond, and this drop pond is profile is the water receiving cylinder of strip, and the inside of described water receiving cylinder has water storage inner chamber；Described water receiving cylinder one end in the longitudinal direction is the water side being provided with the outlet with water storage inner space, the other end is water inlet end, and on described water inlet end, the step direct of travel along escalator is provided with impact portions and the water inlet with water storage inner space back to front；

Described overflow prevention structure also includes support member and locating part；Wherein, described support member is for be vertically fixedly installed, and described water receiving cylinder middle part in the longitudinal direction is rotatably connected on described support member and forms lever construction, and described locating part is fixedly installed on described support member；

Described water side is provided with pouring weight, and when described water receiving cylinder is in zero load or light condition, the gravity of this pouring weight makes described water inlet end upwarp so that described impact portions can collide with the described leading flank sending bucket, and this send bucket to rotate and to described water inlet pouring around the outer end of support bar；And when in water receiving cylinder, the gravity of water inlet end is more than the gravity of water side, described water inlet end is subject to the spacing of described locating part when being decreased below the lower end position sending bucket.

2. the overflow prevention structure in the drop pond that column according to claim 1 manually drops, it is characterised in that: described water side is provided with a slot for being inserted and fixed for described pouring weight.

3. the overflow prevention structure in the drop pond that column according to claim 1 manually drops, it is characterised in that: the surface configuration that described locating part contacts with water receiving cylinder has one layer of cushion.

4. the overflow prevention structure in the drop pond that column according to claim 1 manually drops, it is characterised in that: described water receiving cylinder is spaced multiple along step direct of travel.

5. the overflow prevention structure in the drop pond that column according to claim 4 manually drops, it is characterised in that: multiple steps of escalator are respectively arranged with described in one and send bucket.

6. the overflow prevention structure in the drop pond that column according to claim 4 manually drops, it is characterised in that: described support member is one piece and is vertically fixedly installed on ground body of wall, and multiple described water receiving cylinders are commonly connected on this body of wall.