CN206916894U - A kind of rainwater automatic flow abandoning and recovery system - Google Patents

Abstract

The utility model discloses a kind of rainwater automatic flow abandoning and recovery system, the second water inlet pipe, abandoned stream groove and the accumulator tank that the first water inlet pipe for being connected including the intake chamber with collection port, one end with intake chamber, one end connect with accumulator tank, transfer block is provided between first water inlet pipe and the second water inlet pipe, be provided with transfer block makes rainwater flow into the first transfer tube of abandoned stream groove and move the water to flow into the second transfer tube of accumulator tank for connecting the first water inlet pipe and the second water inlet pipe above the first transfer tube for connecting the first water inlet pipe；The regulating part for being subjected to displacement transfer block in the vertical direction so that the first water inlet pipe connects with the first transfer tube or the second transfer tube is provided with transfer block；Also include being used for after accumulator tank collects full rainwater the Water stop mechanism for stopping water inlet.This programme utilizes new mechanical structure so that rain water drainage and recovery are performed fully automatic, and reduce the input of labour, have recycled rainwater, have the advantages that simple in construction, abandoned stream effect is good.

Description

A kind of rainwater automatic flow abandoning and recovery system

Technical field

Environmental protection technical field is the utility model is related to, more particularly to a kind of rainwater automatic flow abandoning and recovery system.

Background technology

China is the poor country of water resource.To solve the problems, such as shortage of water resources, rainwater utilization receives more and more Concern and attention.In recent years, government actively promotes sponge urban construction.In order to realize the comprehensive mesh of sponge urban construction Mark.Wherein rainwater resource is collected and comprehensively utilized, can not only increase urban water resource, alleviates water money to a certain extent The imbalance between supply and demand in source, while can also effectively reduce urban runoff amount, the retardation concentration time, the pressure of mitigation city flood discharge facility Power, reduce flood control investment and flood loss.

The collection and utilization of rainwater are realized, first has to accomplish that rainwater shunts.Because in rainfall, in early-stage rainwater Containing substantial amounts of pollutant, its pollution level can even exceed the pollution level of ordinary municipal sewage；And the rainwater of intermediary and later stages Runoff pollution degree is low.In order to be collected into the good rainwater of water quality, reduce the cost of rainwater treatment, the rainwater at initial stage is abandoned no With the rainwater of a collection intermediary and later stages.

Publication No. CN205024802U Chinese utility model patent discloses a kind of energy-saving rainwater recycling system, Including：Rainwater-collecting unit, rainwater treatment unit, clear water memory cell and pressurization water supply network, it is described to pressurize on water supply network Side is provided with elevated tank, and the elevated tank is arranged on the top of building, and its water inlet is connected with running water pipe, delivery port It is connected with pressurization water supply network；The rainwater treatment unit includes：It is sequentially connected to the rainwater storage box of rainwater-collecting unit Rainwater inductor and controlling organization with filter and in rainwater storage box, the rainwater storage box are provided with by controlling The first delivery port and the second delivery port of its connected state of mechanism controls processed, first delivery port are directly connected with sewerage Connect, the second delivery port is then connected by filter with clear water memory cell.The utility model is collected by accumulation of energy and selectivity Water reaches the purpose of energy saving water supply, but adds more electronic control system and sensing than traditional abandoned stream retracting device Device so that the reaction to run-off and rainfall is sensitiveer, but also increases use cost, hinders widely using for product. It is badly in need of designing a kind of need not can just complete by automaton to after the initial Split-flow of rainwater and collection completely automatically stopping The rainwater automatic flow abandoning and recovery system that non-return is received.

Utility model content

The purpose of this utility model is to provide a kind of rainwater automatic flow abandoning and recovery system, without using automaton The abandoned stream of rainwater is completed using simple and mechanical structure and is reclaimed automatically so as to reduce use cost.

Above-mentioned technical purpose of the present utility model technical scheme is that：A kind of rainwater automatic flow abandoning And recovery system, including the first water inlet pipe, one end and the accumulator tank company that the intake chamber with collection port, one end connect with intake chamber Logical the second water inlet pipe, abandoned stream groove and accumulator tank, transfer block is provided between first water inlet pipe and the second water inlet pipe, institute State to be provided with transfer block makes rainwater flow into the first transfer tube of abandoned stream groove and positioned at first turn for connecting the first water inlet pipe Adapter top is used to connect the first water inlet pipe and the second water inlet pipe moves the water to flow into the second transfer tube of accumulator tank；In the transfer block Being provided with is subjected to displacement transfer block in the vertical direction so as to adjust the first water inlet pipe and the first transfer tube or the second switching The regulating part of pipe connection；The rainwater automatic flow abandoning and recovery system also include being used for after accumulator tank collects full rainwater stopping into The Water stop mechanism of water.

By using above-mentioned technical proposal, by regulating part make transfer block move up and down when realizing rainfall early stage abandoned stream with And from abandoned stream to the switching of recovery rainwater, when just starting rainfall, the first water inlet pipe is connected with the first transfer tube, and rainwater is flowed into and abandoned In chute, when the water in abandoned stream groove is more and more, regulating part causes the first water inlet pipe gradually to be connected with the second transfer tube so that Rainwater flows to the second water inlet pipe by the second transfer tube and entered in accumulator tank.When the water in accumulator tank is collected completely, water cutting off machine Structure causes the first water inlet pipe to be connected again with the first transfer tube, so as to stop accumulator tank water inlet, rainwater is again flowed into abandoned stream groove In.

It is further arranged to：The Water stop mechanism includes being used to make the elastic component that accumulator tank is highly gradually reduced in water storage And for driving abandoned stream groove to rise so that rainwater flows to the control of abandoned stream groove again when rainwater reaches preset value in accumulator tank Part.

By using above-mentioned technical proposal, during by the rainwater increase collected in the setting accumulator tank of elastic component, return Receiving groove can be fallen because gravity increases, and when the rainwater in accumulator tank reaches preset value, control piece driving abandoned stream groove, which rises, to be caused First transfer tube of transfer block and the first water inlet pipe disengage, and the second transfer tube connects with the first water inlet pipe, so that rainwater stream To accumulator tank.

It is further arranged to：The control piece includes the first rack being arranged on accumulator tank, the biography being fixed in frame Moving gear, the second rack on abandoned stream groove is arranged at, the travelling gear is meshed with the second rack, does not have when in the accumulator tank During rainwater, the first rack is located above travelling gear, when accumulator tank declines because collecting rainwater, the first rack energy and driving cog Wheel is meshed.

By using above-mentioned technical proposal, when the first rack is meshed with travelling gear, the first rack decline cause with The second rack that travelling gear is meshed rises, so as to drive the abandoned stream groove that is connected with the second rack and be connected with abandoned stream groove Transfer block rises so that the first water inlet pipe and the second transfer tube disengage, and the first water inlet pipe connects with the first transfer tube so that rainwater It is no longer flow into accumulator tank, but is again flowed into through the first transfer tube in abandoned stream groove.

It is further arranged to：The first rack length is more than or equal between the first transfer tube and the second transfer tube axle center Distance.

By using above-mentioned technical proposal, during accumulator tank collects rainwater, height is with the first bullet where accumulator tank The deformation of spring and decline so that first gear and driven gear are meshed so as to drive travelling gear to be rotated to accumulator tank direction, Drive the second rack to ramp up, and drive the abandoned stream groove being fixedly connected with the second rack to rise so that being fixed with abandoned stream groove The transfer block of connection rises so that the second transfer tube in transfer block is moved up and is separated with the first water inlet pipe, first turn Adapter is connected again with the first water inlet pipe, reaches the purpose that rainwater is no longer flow into accumulator tank.First rack length is arranged to More than or equal to the distance between the first transfer tube and the second transfer tube axle center, abandoned stream groove can be enabled to be recovered groove driving and risen Height enough the first water inlet pipe and the second transfer tube are departed from.

It is further arranged to：The elastic component includes the 4th spring below accumulator tank, the 4th spring one end Inconsistent with accumulator tank, the other end is contacted in the frame below accumulator tank.

By using above-mentioned technical proposal, elastic component is preferably the 4th spring and is arranged at recovery trench bottom, works as recovery During water increase in groove, the gravity for the accumulator tank that the 4th spring is subject to, which increases, causes the increase of the first spring contraction amount, so that Accumulator tank declines.

It is further arranged to：The elastic component includes the 4th spring above accumulator tank, the 4th spring one end It is connected with accumulator tank, the other end is fixedly connected in the frame above accumulator tank.

By using above-mentioned technical proposal, elastic component is preferably the 4th spring and is arranged above accumulator tank, is connected respectively Connect the frame and accumulator tank above the accumulator tank so that accumulator tank with rainwater increase and during overall total amount increase, the 4th spring Elongation, so that accumulator tank declines.

It is further arranged to：The rainwater automatic flow abandoning and recovery system also include being used in rainfall stopping or long-time work Make the drainage element of switching block reset after work.

By using above-mentioned technical proposal, draining is carried out to abandoned stream groove using drainage element so that the rainwater meeting in abandoned stream groove Flow out over time, abandoned stream groove can gradually go up again during the amount of rainfall in abandoned stream groove is reduced so that transfer block is gradual Reset.Reset refers to the state that the first transfer tube connects with the first water inlet pipe.

It is further arranged to：The drainage element includes being opened in the osculum of abandoned stream trench bottom and is arranged in osculum Draining bar, the draining bar includes and the second draining bar that frame is fixedly connected and the first row above the second draining bar Water bar, the first draining bar bar footpath are adapted to osculum bore, and the bar footpath of the second draining bar is gradually reduced from top to bottom.

By using above-mentioned technical proposal, during rainwater in abandoned stream groove is increased, the height of abandoned stream groove gradually exists Decline.The relative altitude position of osculum and draining bar is also declining, when osculum is located at the position on the first draining bar, by It is adapted in the first draining bar with osculum bore, just blocks osculum so that the rainwater in abandoned stream groove will not be spilt；Work as abandoned stream When groove and osculum thereon drop to the position of the second draining bar, because the bar footpath of the second draining bar is less than between osculum Gap, forms space between the second draining bar and osculum, the rainwater in abandoned stream groove can flow out from the space.

It is further arranged to：Described regulating part is fixedly connected in frame including one end and the other end is fixedly connected on and turned Connect the first spring of block upper end and some connecting rods for being fixedly connected with transfer block and abandoned stream groove.

By using above-mentioned technical proposal, abandoned stream groove is fixedly connected with transfer block by connecting rod so that abandoned stream Groove and transfer block synchronously can rise and decline.When rainwater is constantly flowed into abandoned stream groove, due to the overall weight of abandoned stream groove Rise, now the first spring can occur to extend deformation so that the transfer block being fixedly connected with the first spring declines so that first enters The water pipe dislocation that shifts relative with the first transfer tube.When the rainwater in abandoned stream groove accumulates to a certain extent, the first water inlet pipe Depart from the first transfer tube and connected with the second transfer tube, now rainwater is transferred to flow to the second water inlet pipe and entered in accumulator tank.

It is further arranged to：First water inlet pipe is provided with for preventing rainwater from entering from first towards one end of transfer block Water pipe and the first sealing ring of transfer block contact position outflow；Second water inlet pipe is provided with for preventing towards one end of transfer block The second sealing ring that only rainwater flows out from transfer block and the second water inlet pipe contact position.

By using above-mentioned technical proposal, the first water inlet pipe and transfer block and the second water inlet when increase transfer block moves up and down Sealing between pipe and transfer block, prevents rainwater from spilling.

In summary, the utility model has the advantages that：

1st, the water in abandoned stream groove is discharged by draining bar, and the lower draining of height of abandoned stream groove is faster, the higher draining of height It is slower, when long-time rainfall is smaller or during shower weather by abandoned stream groove in positioned at change when transfer block automatically reset, stop The collection of rainwater；

2nd, Water stop mechanism is provided with, the first rack is engaged on travelling gear when the water in accumulator tank is collected into predetermined amount Abandoned stream groove is driven to move upwards without pressure when having flowed in abandoned stream groove so that the second transfer tube and the first water inlet in transfer block Pipe disconnects, and stops recovery rainwater.

Brief description of the drawings

Fig. 1 is the sectional view of embodiment 1；

Fig. 2 is enlarged drawing at A in Fig. 1；

Fig. 3 is enlarged drawing at B in Fig. 1；

Fig. 4 is the sectional view of embodiment 2.

In figure：1st, frame；11st, intake chamber；12nd, collection port；21st, the first water inlet pipe；22nd, the second water inlet pipe；23rd, the first ring Connected in star；24th, the second annular groove；25th, the first sealing ring；26th, the second sealing ring；27th, second spring；28th, the 3rd spring； 29th, chamfering；3rd, abandoned stream groove；31st, connecting rod；32nd, osculum；4th, accumulator tank；41st, elastic component；42nd, the 4th spring；5th, the first bullet Spring；51st, regulating part；6th, transfer block；61st, the first transfer tube；62nd, the second transfer tube；7th, draining bar；71st, the first draining bar；72、 Second draining bar；73rd, drainage element；8th, control piece；81st, the first rack；82nd, travelling gear；83rd, the second rack；9th, expansion link； 91st, the first expansion link；92nd, the second expansion link；93rd, adjusting screw hole；94th, regulating bolt；The 95th, block only drops.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

Embodiment 1：A kind of rainwater automatic flow abandoning and recovery system, as depicted in figs. 1 and 2, including it is fixedly installed on frame 1 On intake chamber 11, the top of intake chamber 11 be provided with collect rainwater collection port 11, the bottom of intake chamber 11 is connected with the first water inlet Pipe 21, the first water inlet pipe 21 are connected with the second water inlet pipe 22 by transfer block 6, and the lower section of transfer block 6 is provided with abandoned stream groove 3, and second Water inlet pipe 22 is provided with accumulator tank 4 below one end away from the first water inlet pipe 21.Transfer block 6 is internally provided with the first transfer tube 61 and second transfer tube 62, the one end of the first transfer tube 61 and the first water inlet pipe connect 21 logical, and the other end is down-set；Second transfer tube 62 positioned at the top of the first transfer tube 61, and the second transfer tube 62 is used to connect the first water inlet pipe 21 and the second water inlet pipe 22.

First water inlet pipe 21 offers first annular groove 23, the second water inlet pipe 22 and switching with the face that transfer block 6 contacts The face that block 6 contacts offers the second annular groove 24, is embedded with the in the first annular annular groove 24 of groove 23 and second respectively One sealing ring 25 and the second sealing ring 26, the first sealing ring 25 and the second sealing ring 26 stretch out first close to one end of contiguous block 6 The annular groove 24 of annular groove 23 and second is outer and contacts in transfer block 6 and outward flange is provided with chamfering 29, the first sealing ring Both ends are provided between 25 and the bottom surface of first annular groove 23 and contradict the first sealing ring 25 and first annular groove 23 respectively Both ends, which are provided with, between the bottom surface of second spring 27, the second sealing ring 26 and the second annular groove 24 contradicts the second sealing ring respectively 26 and second annular groove 24 the 3rd spring 28, the spring 28 of second spring 27 and the 3rd is in contraction state.When transfer block 6 to When lower mobile, the first sealing ring 25 and the part of the second sealing ring 26 are stretched into the first transfer tube 61 and the second transfer tube 62, will not There is stuck phenomenon because stretching into excessively.The outside of one end that the first sealing ring 25 and the second sealing ring 26 contradict with transfer block 6 Edge is provided with chamfering 29, for making the first sealing ring 25 and the part of the second sealing ring 26 stretch into the first transfer tube 61 and second turn When in adapter 62, transfer block 6 remains to mutually smoothly mutually mobile with the first sealing ring 25 and the second sealing ring 26.

Regulating part includes the first spring 5 and two connecting rods 31, and the one end of the first spring 5 is fixedly installed on the top of transfer block 6 Frame 1 on, the other end is connected with transfer block 6, and the one end of connecting rod 31 is fixedly connected with transfer block 6, the other end and abandoned stream Groove 3 is fixedly connected.During rainfall, rainwater is entered in abandoned stream groove 3 by the first transfer tube 61, with the rainwater increase in abandoned stream groove 3, is abandoned Chute 3, transfer block 6 and the increase of the overall weight of connecting rod 31, the applied elongation of the first spring 5 so that transfer block 6 and abandoned stream groove 3 Decline.

The bottom of abandoned stream groove 3 is provided with drainage element 73, drainage element 73 include the osculum 32 for being opened in the bottom of abandoned stream groove 3 and The draining bar 7 being arranged in osculum 32, draining bar 7 include the first draining bar 71 being wholely set and positioned at the first draining bars 71 Second draining bar 72 of lower section, the bottom of the second draining bar 72 are fixed in frame 1, and the first draining bar 71 is arranged in osculum 32 And bar footpath is adapted to osculum 32, the bar footpath on the top of the second draining bar 72 is identical with the first draining bar 71 and along the reduction side of height To being gradually reduced.The lower section of abandoned stream groove 3 is additionally provided with only drop block 95, only drops block 95 and is fixedly connected by expansion link 9 with frame 1. Expansion link 9 includes the first expansion link 91 and the second expansion link 92 positioned at the lower section of the first expansion link 91, and the first expansion link 91 is worn Slide in the second expansion link 92, offer on the first expansion link 91 and the second expansion link 92 along the first expansion link 91 and axially divide The adjusting screw hole 93 of cloth, the first expansion link 91 and the second expansion link 92 are connected by the regulating bolt 94 being arranged in adjusting screw hole 93 Connect.

As shown in figures 1 and 3, Water stop mechanism is provided with accumulator tank 4, Water stop mechanism includes elastic component 41 and control piece 8。

Elastic component 41 includes the 4th spring 42 that one end is fixedly installed in the frame below accumulator tank, the 4th spring 42 The other end contacts at the bottom of accumulator tank 4.When the rainwater increase in accumulator tank 4, the 4th spring 42 can shrink so that accumulator tank 4 Decline.

The first rack 81 that control piece 8 is arranged on accumulator tank, the travelling gear 82 being fixed in frame 1, it is arranged at and abandons Second rack 83 on chute 3, travelling gear 82 are meshed with the second rack 83, when there is no rainwater in accumulator tank 4, the first rack 81 positioned at the top of travelling gear 82, when in accumulator tank 4 rainwater runs up to a certain amount of, the first rack 81 and the phase of travelling gear 82 Engagement.The length of first rack 81 is more than the distance between the first transfer tube 61 and the axle center of the second transfer tube 62.

Use process：When rainfall starts, rainwater enters in intake chamber 11 through collection port 12, and flows into and connected with intake chamber 11 The first water inlet pipe 21 in.Due to anhydrous in abandoned stream groove 3, abandoned stream groove 3, connecting rod 31 and the overall weight of transfer block 6 are lighter, the The tensile deformation amount of one spring 5 is smaller so that the first water inlet pipe 21 connects with the first transfer tube 61, and rainwater flows into the first transfer tube 61 And fall into abandoned stream groove 3, with the amount of rainfall increase in abandoned stream groove 3, abandoned stream groove 3, connecting rod 31 and the overall weight of transfer block 6 Increase, the tensile deformation amount of the first spring 5 increase so that transfer block 6 and abandoned with transfer block 6 by what connecting rod 31 was fixedly connected The height of chute 3 also declines with the elongation of the first spring 5.Now because the osculum 32 in abandoned stream groove 3 is in the second draining bar 72 positions so that the water in abandoned stream groove 3 is gradually spilt, but the speed flowed out is less than the speed that rainwater is flowed into abandoned stream groove 3, and is flowed The speed gone out gradually increases with the decline of abandoned stream groove 3.After the first spring 5 declines certain altitude again so that first The water inlet pipe 21 of transfer tube 61 and first progressively disengages, and the first water inlet pipe 21 is gradually connected with the second transfer tube 62.

Rainfall certain time, the impurity in rainwater is fewer, and clean rainwater enters by second Water pipe 22 flows into accumulator tank 4 and carries out recycling.

When the water level in accumulator tank 4 rises, accumulator tank 4 is gradually reduced so that the first rack 81 and travelling gear 82 by It is gradually close, when the first rack 81 intermeshes with travelling gear 82, the second rack 83 can be driven to move up so that abandoned stream groove 3 rise, so that the transfer block 6 being fixedly connected with abandoned stream groove 3 also rises therewith, make the first water inlet pipe 21 and the second transfer tube 62 depart from, and the first water inlet pipe 21 connects again with the first transfer tube 61, rainwater is flowed into abandoned stream groove 3, so as to reach when recovery It is automatic when water level in groove 4 is higher to disconnect the function of causing removal process to be changed to abandoned stream.When worker has found the rainwater in accumulator tank 4 When collection has been expired, rainwater can be extracted out, hereafter, the utility model restores to the original state and re-starts abandoned stream automatically and reclaim work Make.

The height of the first expansion link 91 of appropriate regulation and the second expansion link 92 can make the height for only dropping block 95 produce change, So as to which control the water in abandoned stream groove 3 spills speed, so as to reach the purpose that the time of water is collected in limitation, while stop in rainfall Or not used time for a long time, device can be automatically reset.

The spring 28 of second spring 27 and the 3rd is in contraction state during work, by the first sealing ring 25 and the second sealing ring 26 Withstand in transfer block 6, transfer block 6 can be prevented when moving up and down, the first water inlet pipe 21, the second water inlet pipe 22 and transfer block Leak between 6 threes, while make it that sealing effectiveness is more preferable.In addition, the first sealing ring 25 and the second sealing ring 26 support with transfer block 6 The outward flange of tactile one end is provided with chamfering 29, can prevent transfer block 6 upper mobile when due to the He of the first sealing ring 25 Second sealing ring 26 stretches into the first transfer tube 61 and the second transfer tube 62 and causes the sealing ring 25 and second of transfer block 6 and first Sealing ring 26 occurs stuck so that the first sealing ring 25, the second sealing ring 26 come off.

Embodiment 2, a kind of rainwater automatic flow abandoning and recovery system, as shown in figure 4, differing only in embodiment 1 Four springs 42 are arranged at the top of accumulator tank 4.The one end of 4th spring 42 is fixedly connected in the frame 1 above accumulator tank 4, separately One end is fixedly connected on accumulator tank 4.When the rainwater increase in accumulator tank 4, the 4th spring 42 extends so that under accumulator tank 4 Drop.

This specific embodiment is only that it is not to limitation of the present utility model, ability to explanation of the present utility model Field technique personnel can make the modification of no creative contribution to the present embodiment as needed after this specification is read, but As long as all protected in right of the present utility model by Patent Law.

Claims (10)

1. a kind of rainwater automatic flow abandoning and recovery system, including intake chamber (11), one end and intake chamber with collection port (12) (11) connection the first water inlet pipe (21), one end connect with accumulator tank (4) the second water inlet pipe (22), abandoned stream groove (3) and time Receive groove (4), it is characterised in that：Transfer block (6) is provided between first water inlet pipe (21) and the second water inlet pipe (22), it is described Be provided with transfer block (6) for connect the first water inlet pipe (21) make rainwater flow into the first transfer tube (61) of abandoned stream groove (3) with And move the water to flow into accumulator tank for connecting the first water inlet pipe (21) and the second water inlet pipe (22) above the first transfer tube (61) (4) the second transfer tube (62)；Be provided with the transfer block (6) make transfer block (6) in the vertical direction be subjected to displacement so as to The regulating part (51) for making the first water inlet pipe (21) be connected with the first transfer tube (61) or the second transfer tube (62)；The rainwater is certainly Dynamic abandoned stream and recovery system also include being used for after accumulator tank (4) collects full rainwater the Water stop mechanism for stopping water inlet.

2. a kind of rainwater automatic flow abandoning according to claim 1 and recovery system, it is characterised in that：The Water stop mechanism bag Include for make elastic component (41) that accumulator tank (4) is highly gradually reduced in water storage and in accumulator tank (4) rainwater reach Rainwater is caused to flow to the control piece (8) of abandoned stream groove (3) again to abandoned stream groove (3) rising is driven during preset value.

3. a kind of rainwater automatic flow abandoning according to claim 2 and recovery system, it is characterised in that：The control piece (8) Including the first rack (81) being arranged on accumulator tank (4), the travelling gear (82) being fixed in frame (1), it is arranged at abandoned stream Second rack on groove (3)（83）, the travelling gear (82) and the second rack（83）It is meshed, does not have when in the accumulator tank (4) During rain, the first rack (81) is located above travelling gear (82), when accumulator tank (4) declines because collecting rainwater, first Rack (81) can be meshed with travelling gear (82).

4. a kind of rainwater automatic flow abandoning according to claim 3 and recovery system, it is characterised in that：First rack (81) distance that length is more than or equal between the first transfer tube (61) and the second transfer tube (62) axle center.

5. a kind of rainwater automatic flow abandoning according to claim 2 and recovery system, it is characterised in that：The elastic component (41) Including the 4th spring (42) below accumulator tank (4), described 4th spring (42) one end and accumulator tank (4) are inconsistent, separately One end is contacted in the frame (1) below accumulator tank (4).

6. a kind of rainwater automatic flow abandoning according to claim 2 and recovery system, it is characterised in that：The elastic component (41) Including the 4th spring (42) above accumulator tank (4), described 4th spring (42) one end is connected with accumulator tank (4), separately One end is fixedly connected in the frame (1) above accumulator tank (4).

7. a kind of rainwater automatic flow abandoning according to claim 1 and recovery system, it is characterised in that：The rainwater is abandoned automatically Stream and recovery system also include being used for after rainfall stops or works long hours the drainage element (73) for resetting transfer block (6).

8. a kind of rainwater automatic flow abandoning according to claim 7 and recovery system, it is characterised in that：The drainage element (73) Including the draining bar (7) for being opened in the osculum (32) of abandoned stream groove (3) bottom and being arranged in osculum (32), the draining The the second draining bar (72) and the first draining above the second draining bar (72) that bar (7) includes with frame (1) is fixedly connected Bar (71), the first draining bar (71) bar footpath and osculum（32）Bore is adapted to, the bar footpath of the second draining bar (72) from Top to bottm is gradually reduced.

9. a kind of rainwater automatic flow abandoning according to claim 1 and recovery system, it is characterised in that：Described regulating part (51) include one end be fixedly connected in frame (1) and the other end be fixedly connected on first spring (5) of transfer block (6) upper end with And for being fixedly connected with transfer block（6）With abandoned stream groove（3）Some connecting rods（31）.

10. a kind of rainwater automatic flow abandoning according to claim 1 and recovery system, first water inlet pipe (21) is towards turning Connect block (6) one end be provided with it is first close for preventing rainwater from flowing out from the first water inlet pipe (21) and transfer block (6) contact position Seal (25)；Second water inlet pipe (22) towards one end of transfer block (6) be provided with for prevent rainwater from transfer block (6) with The second sealing ring (26) of second water inlet pipe (22) contact position outflow.