CN113202163B - Water-saving water separator suitable for green building and capable of detecting water level and timely injecting water - Google Patents

Abstract

The invention relates to the field of green building water, in particular to a water-saving water separator which is applicable to green buildings, can detect water level and timely inject water, and comprises a large water storage tank with a cover, a Y-shaped connecting pipeline, an open pore connecting cover plate, a small slotted water storage tank and the like; the big water storage tank with the cover is arranged on other supporting equipment, the Y-shaped connecting pipeline is connected to the bottom of the big water storage tank with the cover, the open-pore connecting cover plate is positioned at the bottom of the Y-shaped connecting pipeline, and a pair of slotted small water storage tanks are connected to the bottom of the open-pore connecting cover plate. According to the invention, through the matching of the rectangular slotting frame II and the device on the rectangular slotting frame II, water on the slotting small water storage tank can flow to the water pipe through the rectangular slotting frame, when the water on the slotting small water storage tank is used as a part of water, the rectangular slot on the slotting small water storage tank can be blocked by the gate plate again, so that the situation that the shaft-bearing shifting rod frame is forgotten to be reset to cause the waste of water resources is prevented, and the effect that the gate plate can be automatically closed to prevent the waste of water resources is achieved.

Description

Water-saving water separator suitable for green building and capable of detecting water level and timely injecting water

Technical Field

The invention relates to the field of green building water, in particular to a water-saving water separator which is applicable to green buildings, can detect water level and timely fill water.

Background

The green building is a building capable of achieving the effects of energy conservation and emission reduction, is a high-quality building capable of achieving symbiosis of people and nature to the greatest extent, accords with the characteristics of safety, durability, health, comfort, convenience in life, resource conservation and environmental livability, and can control and reduce the use and damage to the natural environment as much as possible, so that the resource conservation in terms of water is considered, the goal of coordinated development of people, building and nature is achieved, and the balance between solicitation and return to the nature is fully embodied.

The utility model discloses a CN208151138U, publication day 2018, 11, 27 discloses a green building water treatment facilities, and he includes body etc. the apopore has been seted up to the lower extreme of body, and the top of apopore has been seted up the third groove, can kill the bacterium in the water source effectively, but lacks the water conservation function, leads to the problem that the present green building throws away and has water resource waste, can't realize green building resources-saving's purpose, is unfavorable for promoting people, building and natural coordinated development.

Disclosure of Invention

The invention aims to design a water-saving water separator which can automatically close a restrictor plate to prevent water resources from being wasted, can automatically supplement water on a water tank, can discharge water for a long time and timely fill water, has a water-saving function and is suitable for a green building to detect water level and timely fill water, so as to solve the problem that the water resources are wasted due to the lack of the water-saving function in the background technology.

The technical implementation scheme of the invention is as follows: the utility model provides a water conservation water knockout drum suitable for green building detectable water level and timely water injection, including the big water storage tank of area lid, Y type connecting tube, trompil connection apron, fluting little water storage tank, switch-on water injection mechanism, switch-off stagnant water mechanism and three station switch mechanism, the big water storage tank of area lid is installed on other supporting facilities, Y type connecting tube connects in the big water storage tank bottom of area lid, trompil connection apron is located Y type connecting tube bottom, trompil connection apron bottom hookup has a pair of fluting little water storage tank, switch-on water injection mechanism locates on the Y type connecting tube, switch-off stagnant water mechanism locates on the trompil connection apron, three station switch mechanism locates on the fluting little water storage tank.

The opening water injection mechanism comprises a water stop gate, a special-shaped inclined rod, a first reset spring, a fixed block, a tripod, an extension spring, a connecting block, a semicircular rod, an L-shaped circular headstock, a first rotating shaft, a circular angle wedge block, an L-shaped deflector rod, a first torsion spring, a sliding rod, a ball valve, a wedge-shaped connecting plate, a first rectangular slotted frame, a special-shaped wedge-shaped sliding frame and a second reset spring, wherein the Y-shaped connecting pipeline is symmetrically and slidingly connected with the water stop gate, the special-shaped inclined rod is connected with the water stop gate, the water stop gate is connected with the first reset spring, the other end of the first reset spring is connected with the Y-shaped connecting pipeline, the fixed block is symmetrically positioned on the Y-shaped connecting pipeline, the tripod is symmetrically and slidingly connected with the triangular groove, the triangular frame is contacted with the special-shaped inclined rod, a pair of extension springs are connected between the triangular frame and the fixed block, the triangular frame is connected with the connecting block, the bottom of the connecting block is connected with a semicircular rod, an L-shaped circular head frame is symmetrically positioned on a Y-shaped connecting pipeline, a first rotating shaft is rotatably connected to the L-shaped circular head frame, a circular angle wedge block is connected to the first rotating shaft, the circular angle wedge block is contacted with a tripod, an L-shaped deflector rod is arranged on the circular angle wedge block, a first torsion spring is connected to the circular angle wedge block, the other end of the first torsion spring is connected with the L-shaped circular head frame, two pairs of sliding rods are connected to an open-pore connecting cover plate in a sliding manner, the sliding rods longitudinally penetrate the open-pore connecting cover plate, a ball valve is positioned at one end of the sliding rods, wedge-shaped connecting plates are jointly connected between the two sliding rods at the same side, one sides of the two small slotted water storage boxes are connected with a first rectangular slotted frame, the first rectangular slotted frame is correspondingly arranged, a rectangular slot is arranged on the first rectangular slotted frame, the special-shaped wedge-shaped sliding frame is connected to the first rectangular slotted frame in a sliding manner, the special-shaped wedge-shaped sliding frame is contacted with the L-shaped deflector rod, a second reset spring is connected to the special-shaped wedge-shaped sliding frame, and the other end of the second reset spring is connected with the rectangular slotting frame.

The brake closing water stop mechanism comprises a fixed frame, a rotating shaft II, a first gear, a fixed rod, a special-shaped connecting valve, a first rack, a first square shaft, a first I-shaped round head frame, a third rotating shaft, a driving wheel, a second square shaft, a third reset spring, a wedge-shaped pushing block, a second I-shaped round head frame, a fourth rotating shaft, a second gear, a second rack and a third rack, wherein a pair of fixed frames are connected to an open-pore connecting cover plate, the two fixed frames are correspondingly arranged, the two fixed frames are connected with the first rotating shaft II in a common rotation mode, the first gear is positioned on the second rotating shaft II, the two first gears are arranged in a staggered mode, the bottoms of the two slotted small water reservoirs are positioned with the first pair of fixed rods, the fixed rod is fixedly connected with the open-pore connecting cover plate, the same side two fixed rods are matched with the special-shaped connecting valve in a common sliding mode, the first racks are positioned on the special-shaped connecting valve, the first racks are meshed with the first racks, the first square shaft is connected to the second rotating shaft II, the top of the open-pore connecting cover plate is connected with the first I-shaped round head frame, the rotating shaft III is connected to the first rotating shaft II, the driving wheel is connected to the driving wheel III, the pair of the first racks is connected to the driving wheel, the first square shaft II is connected to the driving wheel II, the second racks are connected to the fourth racks is connected to the fourth round head frame II, the second II is meshed with the fourth round head frame II, the second racks is meshed with the fourth round head frame II, the second I-shaped round head frame is meshed with the fourth round head frame, the second I-shaped round frame is meshed with the fourth round frame, the second I-shaped round frame is meshed with the second I-shaped connecting rod, and the second I-shaped round frame I-shaped connecting frame, and the second I-shaped I.

The three-station switch mechanism comprises a rectangular slotting frame II, a gate plate, a fourth reset spring, a round head connecting frame, a shaft shifting rod frame, a second torsion spring, a special-shaped slotting frame, a first wedge-shaped block, a fifth reset spring, an L-shaped slotting frame I, a second wedge-shaped block and a sixth reset spring, wherein the rectangular slotting frame II is connected to the slotting small water storage tank, a round hole is formed in the bottom of the rectangular slotting frame II, the gate plate is connected to the slotting small water storage tank in a sliding mode, a pair of fourth reset springs are connected between the gate plate and the slotting small water storage tank, the round head connecting frame is positioned on the gate plate, the round head connecting frame is matched with the rectangular slotting frame II in a sliding mode, the shaft shifting rod frame is connected to the round head connecting frame in a rotating mode, the special-shaped slotting frame is connected to the rectangular slotting frame II, the first wedge-shaped slotting frame is connected to the special-shaped slotting frame in a sliding mode, the fifth reset spring is connected between the special-shaped slotting frame II and the first wedge-shaped slotting frame, a pair of the L-shaped slotting frame I is connected to the top of the opening connecting cover plate, the round head connecting frame I is connected to the L-shaped slotting frame II, the second wedge-shaped slotted frame II is connected to the second wedge-shaped connecting frame II, and the special-shaped wedge-shaped shifting frame is connected to the second wedge-shaped connecting frame.

The long-time water switch mechanism is arranged on the small slotting water storage tank, and comprises an L-shaped slotting frame II, a third wedge-shaped block, a seventh reset spring, an L-shaped slotting frame III, a rectangular sliding block and an eighth reset spring, wherein the L-shaped slotting frame II is connected to the small slotting water storage tank, the third wedge-shaped block is matched with the L-shaped slotting frame II in a sliding mode, the seventh reset spring is connected between the third wedge-shaped block and the L-shaped slotting frame II, the L-shaped slotting frame is connected to the small slotting water storage tank in a three-way mode, the rectangular sliding block is matched with the L-shaped slotting frame III in a sliding mode, and the eighth reset spring is connected between the rectangular sliding block and the L-shaped slotting frame III.

The beneficial effects of the invention are as follows:

through the cooperation of rectangle fluting frame two and device on it, the water on the little water storage tank of fluting can be through rectangle fluting frame two flows to it on connect be that the water pipe is used by people, when the water on the little water storage tank of fluting is used partly, the gate plate can block the rectangle groove on the little water storage tank of fluting again for the water on the little water storage tank of fluting no longer flows, prevents to forget to stir the setting lever frame of taking the axle and reset, causes the waste of water resource, has reached the effect that can close the gate plate in order to prevent the waste water resource automatically.

Through the cooperation of tripod, abnormal shape down tube and stagnant water floodgate, when the water on the fluting little water storage tank is used up, the tripod can extrude abnormal shape down tube and upper apparatus orientation motion far away from Y type connecting tube for stagnant water floodgate no longer blocks the water on Y type connecting tube upper portion, and water on the Y type connecting tube can flow to the fluting little water storage tank on, makes on the fluting little water storage tank can refill water, has reached the effect that can supplement the water on the fluting little water storage tank automatically.

Through the cooperation of rectangle slider and third wedge, the rectangle slider can support the driving lever frame of taking the axle, and the third wedge can block the driving lever frame of taking the axle for water on the small water storage tank of fluting flows out for a long time, and water on the big water storage tank of area lid can be through the Y type connecting tube technique injection fluting on the small water storage tank of fluting with water replenishment again, has reached the effect that can release water and timely water injection for a long time.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of a partial perspective structure of the present invention.

Fig. 4 is a schematic perspective view of a first part of the opening water injection mechanism of the present invention.

Fig. 5 is a schematic perspective view of a second part of the opening water injection mechanism of the present invention.

Fig. 6 is a schematic perspective view of a third part of the opening water injection mechanism of the present invention.

FIG. 7 is a schematic perspective view of a shut-off water stop mechanism according to the present invention.

Fig. 8 is a partially disassembled perspective view of the present invention.

Fig. 9 is a partially disassembled perspective view of the three-position switch mechanism of the present invention.

Meaning of reference numerals in the drawings: 1. the large water storage tank with the cover, 2Y-shaped connecting pipelines, 3, an open-pore connecting cover plate, 4, a slotted small water storage tank, 5, a switching-off water injection mechanism, 51, a water stop, 52, a special-shaped inclined rod, 53, a first return spring, 54, a fixed block, 55, a tripod, 56, an extension spring, 57, a connecting block, 58, a semicircular rod, 59, an L-shaped round head frame, 510, a rotating shaft I, 511, a round angle wedge block, 512, an L-shaped deflector rod, 513, a first torsion spring, 514, a sliding rod, 515, a ball valve, 516, a wedge-shaped connecting plate, 517, a rectangular slotted frame I, 518, a special-shaped wedge-shaped sliding frame 519, a second return spring, 6, a switching-off water stop mechanism, 61, a fixed frame, 62, a rotating shaft II, 63, a first gear, 631, a fixed rod, 632, a special-shaped connecting valve, 64, a first rack, 65, a four-corner shaft I-shaped round head frame I, 66, 67, a rotating shaft III, 671, a driving wheel 68, a four-corner shaft II, 69, a third reset spring, 610, a wedge-shaped push block, 611, an I-shaped round head frame II, 612, a rotating shaft IV, 613, a second gear, 614, a second rack, 615, a third rack, 7, a three-station switching mechanism, 71, a rectangular slotting frame II, 72, a gate plate, 73, a fourth reset spring, 74, a round head connecting frame, 75, a shaft poking rod frame 76, a second torsion spring, 77, a special-shaped slotting frame 78, a first wedge block, 79, a fifth reset spring, 710, an L-shaped slotting frame I, 711, a second wedge block, 712, a sixth reset spring, 8, a long-time water switching mechanism, 81, an L-shaped slotting frame II, 82, a third wedge block, 83, a seventh reset spring, 84, an L-shaped slotting frame III, 85, a rectangular slide block, 86 and an eighth reset spring.

Detailed Description

Standard parts used in the invention can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the drawings, and the specific connection modes of the parts adopt conventional means such as mature bolts, rivets, welding, pasting and the like in the prior art, and the detailed description is omitted.

Example 1

The utility model provides a water conservation water knockout drum suitable for green building detectable water level and timely water injection, as shown in fig. 1-9, including the big water storage tank 1 of area lid, Y type connecting tube 2, trompil connecting cover plate 3, fluting little water storage tank 4, switch on water injection mechanism 5, switch off water stop mechanism 6 and three station switch mechanism 7, the big water storage tank 1 of area lid is installed on other supporting facilities, Y type connecting tube 2 links in the big water storage tank 1 bottom of area lid, trompil connecting cover plate 3 is located Y type connecting tube 2 bottoms, trompil connecting cover plate 3 bottom links has a pair of fluting little water storage tank 4, switch on water injection mechanism 5 locates Y type connecting tube 2, switch off water injection mechanism 5 is used for pouring the water injection on the big water storage tank 1 of area lid into fluting little water storage tank 4, switch off water stop mechanism 6 locates on the trompil connecting cover plate 3, switch off water stop mechanism 6 is used for forgetting when driving axle poking 75 and resets and avoids the waste of water resource, three station switch mechanism 7 locates on fluting little water storage tank 4.

The opening water injection mechanism 5 comprises a water stop gate 51, a special-shaped inclined rod 52, a first reset spring 53, a fixed block 54, a tripod 55, a tension spring 56, a connecting block 57, a semicircular rod 58, an L-shaped circular head frame 59, a rotating shaft one 510, a round angle wedge 511, an L-shaped deflector rod 512, a first torsion spring 513, a sliding rod 514, a ball valve 515, a wedge-shaped connecting plate 516, a rectangular slotted frame one 517, a special-shaped wedge-shaped sliding frame 518 and a second reset spring 519, wherein the Y-shaped connecting pipeline 2 is symmetrically and slidingly connected with the water stop gate 51, the special-shaped inclined rod 52 is connected with the water stop gate 51, the water stop gate 51 is connected with the first reset spring 53, the other end of the first reset spring 53 is connected with the Y-shaped connecting pipeline 2, the first reset spring 53 is used for driving the water stop gate 51 and the upper device thereof to reset, the fixed block 54 is symmetrically positioned on the Y-shaped connecting pipeline 2, the Y-shaped connecting pipeline 2 is symmetrically and slidingly connected with the tripod 55, the tripod 55 is used for extruding the special-shaped inclined rod 52 and the upper device thereof to move towards the direction far away from the Y-shaped connecting pipeline 2, the tripod 55 is provided with a triangular groove, the tripod 55 is contacted with the special-shaped inclined rod 52, a pair of extension springs 56 are connected between the tripod 55 and the fixed block 54, the extension springs 56 are used for driving the tripod 55 and the upper device thereof to move upwards, the tripod 55 is connected with a connecting block 57, the bottom of the connecting block 57 is connected with a semicircular rod 58, the Y-shaped connecting pipeline 2 is symmetrically positioned with an L-shaped round head frame 59, a rotating shaft I510 is rotatably connected with the L-shaped round head frame 59, a round angle wedge 511 is connected with the rotating shaft I510, the round angle wedge 511 is used for limiting the tripod 55, the round angle wedge 511 is contacted with the tripod 55, the L-shaped deflector rod 512 is arranged on the round angle wedge 511, a first torsion spring 513 is connected with the round angle wedge 511, the other end of the first torsion spring 513 is connected with the L-shaped round head frame 59, the first torsion spring 513 is used for driving the round angle wedge block 511 and the device on the round angle wedge block to reset, two pairs of slide bars 514 are connected to the open hole connecting cover plate 3 in a sliding mode, the height of the water level can be judged according to the height of the visible slide bars 514, the slide bars 514 longitudinally penetrate through the open hole connecting cover plate 3, the ball valve 515 is positioned at one end of the slide bars 514, wedge-shaped connecting plates 516 are jointly connected between the two slide bars 514 on the same side, the wedge-shaped connecting plates 516 are used for pushing the special-shaped wedge-shaped sliding frames 518 to move in the directions away from each other, one side of each of the two small slotted water storage boxes 4 is connected with a first rectangular slotted frame 517, the first rectangular slotted frame 517 is correspondingly arranged, a rectangular slot is arranged on the first rectangular slotted frame 517, the special-shaped wedge-shaped sliding frames 518 are connected to the first rectangular slotted frame 517 in a sliding mode, the special-shaped wedge-shaped sliding frames 518 are used for pulling the L-shaped shifting bars 512 and the devices on the first rectangular slotted frame 517 to rotate, the special-shaped wedge-shaped sliding frames 518 are in sliding fit with the small slotted water storage boxes 4 in a sliding mode, the special-shaped wedge-shaped sliding frames 518 are contacted with the L-shaped sliding frames 512, the special-shaped wedge-shaped sliding frames 519 are connected with the second reset springs 519, the other ends of the second reset springs 519 are connected to the first reset, and the second reset springs 519 are used for driving the special-shaped wedge-shaped sliding frames 517 to reset.

The gate closing water stop mechanism 6 comprises a fixing frame 61, a second rotating shaft 62, a first gear 63, a fixing rod 631, a special-shaped connecting valve 632, a first rack 64, a first quadrangular shaft 65, a first I-shaped round head frame 66, a third rotating shaft 67, a driving wheel 671, a second quadrangular shaft 68, a third reset spring 69, a wedge-shaped push block 610, a second I-shaped round head frame 611, a fourth rotating shaft 612, a second gear 613, a second rack 614 and a third rack 615, wherein a pair of fixing frames 61 are connected on an open hole connecting cover plate 3, the two fixing frames 61 are correspondingly arranged, a pair of rotating shafts 62 are connected between the two fixing frames 61 in a common rotating mode, the first gear 63 is positioned on the second rotating shaft 62, the two first gears 63 are arranged in a staggered mode, a pair of fixing rods 631 are positioned at the bottom of the two slotted small water storage tanks 4, the fixing rods 631 are fixedly connected with the open hole connecting cover plate 3, the two fixing rods 631 on the same side are matched with the special-shaped connecting valve 632 in a common sliding mode, the special-shaped connecting valve 632 is used for driving the second rack 614 to move up and down, the first rack 64 is positioned on the special-shaped connecting valve 632, the first rack 64 is used for driving the first gear 63 and devices thereon to rotate, the two first racks 64 are arranged in a staggered way, the first rack 64 is meshed with the first gear 63, the first square shaft 65 is connected to the second rotating shaft 62, the first square shaft 65 is used for extruding the second square shaft 68 and devices thereon to move towards the direction close to the first I-shaped round head frame 66, the top of the open hole connecting cover plate 3 is connected with the first I-shaped round head frame 66, the third rotating shaft 67 is rotationally connected to the first I-shaped round head frame 66, the third rotating shaft 67 is connected with a driving wheel 671, the driving wheel 671 is used for driving the second gear 613 and devices thereon to rotate, the third rotating shaft 67 is connected with the second square shaft 68 in a sliding way, the second square shaft 68 is contacted with the first square shaft 65, the wedge-shaped pushing block 610 is rotationally connected to the second square shaft 68, the wedge-shaped pushing block 610 is used for pushing the second wedge-shaped block 711 and devices on the second wedge-shaped block 711 to move in a direction away from each other, a third reset spring 69 is connected between the wedge-shaped pushing block 610 and the first I-shaped circular head frame 66, the third reset spring 69 is used for driving the wedge-shaped pushing block 610 and devices on the first I-shaped circular head frame to reset, the top of the open hole connecting cover plate 3 is connected with the second I-shaped circular head frame 611, the fourth rotating shaft 612 is rotationally connected to the second I-shaped circular head frame 611, the second gear 613 is positioned at one end of the fourth rotating shaft 612, the second gear 613 is used for driving the third rack 615 and devices on the fourth rotating shaft to move downwards, the second gear 613 is meshed with the driving wheel 671, a second rack 614 is connected to the semicircular rod 58, the third rack 615 is connected to the other semicircular rod 58, the second rack 614 is meshed with one second gear 613, and the third rack 615 is meshed with the other second gear 613.

The three-station switch mechanism 7 comprises a rectangular slotting frame II 71, a gate plate 72, a fourth reset spring 73, a round head connecting frame 74, a shaft-bearing shifting rod frame 75, a second torsion spring 76, a special-shaped slotting frame 77, a first wedge block 78, a fifth reset spring 79, an L-shaped slotting frame I710, a second wedge block 711 and a sixth reset spring 712, wherein the rectangular slotting frame II 71 is connected on the slotting small water storage tank 4, a round hole is arranged at the bottom of the rectangular slotting frame II 71, the gate plate 72 is connected on the slotting small water storage tank 4 in a sliding manner, a pair of fourth reset springs 73 are connected between the gate plate 72 and the slotting small water storage tank 4, the fourth reset springs 73 are used for driving the gate plate 72 and an upper device thereof to reset, the round head connecting frame 74 is positioned on the gate plate 72, the round head connecting frame 74 is matched with the rectangular slotting frame II 71 in a sliding manner, the shaft-bearing shifting rod frame 75 is connected on the round head connecting frame 74 in a rotating manner, a pair of second torsion springs 76 are connected between the shaft driving rod frame 75 and the round head connecting frame 74, the second torsion springs 76 are used for driving the shaft driving rod frame 75 to reset, the special-shaped slotted frame 77 is connected to the rectangular slotted frame II 71, the first wedge block 78 is connected to the special-shaped slotted frame 77 in a sliding mode, a fifth reset spring 79 is connected between the special-shaped slotted frame 77 and the first wedge block 78, the fifth reset spring 79 is used for driving the first wedge block 78 to reset, two L-shaped slotted frames I710 are connected to the top of the open hole connecting cover plate 3, a second wedge block 711 is connected to the L-shaped slotted frame I710 in a sliding mode, the second wedge block 711 is used for pushing the shaft driving rod frame 75 to rotate for a certain angle, the second wedge block 711 is contacted with the wedge pushing block 610, a sixth reset spring 712 is connected between the second wedge block 711 and the L-shaped slotted frame I710, the sixth return spring 712 serves to return the second wedge 711.

The large water storage tank 1 with the cover and the small water storage tank 4 with the grooves are filled with water, the round holes at the bottoms of the rectangular groove frames II 71 are connected with water pipes, when a small amount of water is needed, the shaft shifting rod frame 75 and the upper device of the shaft shifting rod frame are pulled upwards manually, the fourth reset spring 73 is compressed accordingly, the gate plate 72 does not block the rectangular grooves on the small water storage tank 4 any more, the water on the small water storage tank 4 with the grooves flows to the water pipes connected to the water pipes through the rectangular groove frames II 71 for people to use, when the shaft shifting rod frame 75 is contacted with the first wedge block 78, the shaft shifting rod frame 75 pushes the first wedge block 78 to move, the fifth reset spring 79 is compressed accordingly, and when the shaft shifting rod frame 75 is contacted with the other side of the first wedge block 78, the first wedge block 78 is reset under the reset action of the fifth reset spring 79, and the shaft shifting rod frame 75 is supported by the first wedge block 78.

When water on the small slotted water storage tank 4 is used for a part, the water level on the small slotted water storage tank 4 can drop, so that the special-shaped connecting valve 632 and an upper device thereof move downwards by a distance of one tenth under the buoyancy action of water, the first rack 64 can drive the first gear 63 and the upper device thereof to rotate for one fourth circle, the first square shaft 65 can extrude the second square shaft 68 and the upper device thereof to move towards the direction close to the first I-shaped round head frame 66, the third reset spring 69 can be compressed therewith, the wedge-shaped push block 610 can push the second wedge-shaped block 711 and the upper device thereof to move towards the direction away from each other, the sixth reset spring 712 can be compressed therewith, the second wedge-shaped block 711 can push the shaft-carrying deflector 75 to rotate for a certain angle, the second torsion spring 76 can be compressed therewith, so that the first wedge-shaped block 78 can not support the shaft-carrying deflector 75 any more, the shaft-carrying deflector 75 and the upper device thereof can reset downwards under the reset action of the fourth reset spring 73, so that the gate 72 can block the rectangular groove on the small slotted water storage tank 4 again, and the water storage tank 4 can not be wasted by the reset shaft 75.

The second quarter shaft 68 and its upper device will then return under the return action of the third return spring 69 and the second wedge 711 will return under the return action of the sixth return spring 712.

When the water in the small slotted water storage tank 4 is less, the ball valve 515 and the upper device thereof move downwards under the action of the buoyancy, when the water in the small slotted water storage tank 4 is used up, the wedge-shaped connecting plate 516 is contacted with the special-shaped wedge-shaped sliding frame 518, the special-shaped wedge-shaped sliding frame 518 is pushed to move away from each other by the wedge-shaped connecting plate 516, the second return spring 519 is compressed, the special-shaped wedge-shaped sliding frame 518 pulls the L-shaped deflector rod 512 and the upper device thereof to rotate, the first torsion spring 513 is compressed, the triangular bracket 55 is not limited by the round angle wedge-shaped block 511, the stretching spring 56 in a stretching state is reset, the triangular bracket 55 is enabled to move upwards, the special-shaped inclined rod 52 and the upper device thereof are extruded to move away from the Y-shaped connecting pipeline 2, the first return spring 53 is stretched, the water brake 51 is enabled not to block the water in the upper part of the Y-shaped connecting pipeline 2, and the water on the Y-shaped connecting pipeline 2 flows to the small slotted water storage tank 4, so that the small slotted water storage tank 4 can be refilled.

When the water in the small water storage tank 4 rises, the special-shaped connecting valve 632 and the upper device thereof move upwards, the first rack 64 drives the first gear 63 and the upper device thereof to rotate, the first four-corner shaft 65 drives the second four-corner shaft 68 and the upper device thereof to rotate, the driving wheel 671 drives the second gear 613 and the upper device thereof to rotate, the second gear 613 drives the third rack 615 and the upper device thereof to move downwards, the stretching spring 56 is stretched along with the second gear 613, the tripod 55 does not push the special-shaped inclined rod 52 any more, the special-shaped inclined rod 52 and the upper device thereof return under the return action of the first return spring 53, so that the water at the upper part of the Y-shaped connecting pipeline 2 does not flow downwards any more, when the ball valve 515 and the upper device thereof move upwards, the wedge-shaped connecting plate 516 does not push the special-shaped wedge-shaped sliding frame 518, the special-shaped wedge-shaped sliding frame 518 can reset under the reset action of the second reset spring 519, the round-corner wedge-shaped block 511 and the upper device thereof can reset under the reset action of the first torsion spring 513, then the tripod 55 can push the round-corner wedge-shaped block 511 and the upper device thereof to rotate, the first torsion spring 513 can be compressed, and when the tripod 55 contacts with the other side of the round-corner wedge-shaped block 511, the round-corner wedge-shaped block 511 and the upper device thereof can reset under the reset action of the first torsion spring 513, so that the round-corner wedge-shaped block 511 clamps the tripod 55 again.

The height of the water level can be judged according to the height of the visible slide bar 514, and the higher the height of the slide bar 514 is, the higher the water level is.

Example 2

On the basis of embodiment 1, as shown in fig. 8, the device further comprises a long-time water switch mechanism 8, the long-time water switch mechanism 8 is arranged on the small grooving water storage tank 4, the long-time water switch mechanism 8 comprises a second L-shaped grooving frame 81, a third wedge-shaped block 82, a seventh reset spring 83, a third L-shaped grooving frame 84, a rectangular sliding block 85 and an eighth reset spring 86, the second L-shaped grooving frame 81 is connected to the small grooving water storage tank 4, the third wedge-shaped block 82 is used for clamping the shaft poking rod frame 75, a seventh reset spring 83 is connected between the third wedge-shaped block 82 and the second L-shaped grooving frame 81, the seventh reset spring 83 is used for driving the third wedge-shaped block 82 to reset, the third L-shaped grooving frame 84 is connected to the small grooving water storage tank 4, the rectangular sliding block 85 is connected to the third L-shaped grooving frame 84, the rectangular sliding block 85 is used for supporting the shaft poking rod frame 75, the eighth reset spring 86 is connected between the rectangular sliding block 85 and the third L-shaped grooving frame 84, and the eighth reset spring 86 is used for driving the reset spring 85.

When long-time water discharge is needed, the shaft-driven rod holder 75 and the upper device thereof are manually pulled to move upwards, the fourth return spring 73 is compressed, water on the slotted small water storage tank 4 flows out through the rectangular slot on the slotted small water storage tank and then rotates by 90 degrees, the second torsion spring 76 is compressed, the shaft-driven rod holder 75 pushes the third wedge block 82 to move upwards, the seventh return spring 83 is compressed, the shaft-driven rod holder 75 is contacted with the other side of the third wedge block 82, the third wedge block 82 is reset under the reset action of the seventh return spring 83, the shaft-driven rod holder 75 is contacted with the rectangular sliding block 85, the shaft-driven rod holder 75 is loosened, the rectangular sliding block 85 supports the shaft-driven rod holder 75, the third wedge block 82 clamps the shaft-driven rod holder 75, the water on the small slotting water storage tank 4 flows out for a long time, the water on the large slotting water storage tank 1 with the cover can be timely injected into the small slotting water storage tank 4 through the Y-shaped connecting pipeline 2 to supplement the water again, the water on the small slotting water storage tank 4 is conveniently discharged for a long time, when water is not required to be continuously discharged, the rectangular sliding block 85 is manually pressed to move in a direction away from the special-shaped slotting frame 77, the eighth reset spring 86 is compressed along with the rectangular sliding block 85, the shaft-carrying deflector rod frame 75 is not supported any more, the shaft-carrying deflector rod frame 75 and the upper device of the shaft-carrying deflector rod frame downwards reset under the reset action of the fourth reset spring 73, and the shaft-carrying deflector rod frame 75 is reset under the reset action of the second torsion spring 76, so that the rectangular slot on the small slotting water storage tank 4 is blocked again.

When water on one of the small slotted water storage tanks 4 is needed to be placed, only the shaft shifting rod rack 75 is pulled to move upwards, and the water on the Y-shaped connecting pipeline 2 can be timely supplemented on one of the small slotted water storage tanks 4.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (2)

1. Water conservation water knockout drum that is applicable to green building detectable water level and timely water injection, characterized by: the automatic water-saving device comprises a large water storage tank with a cover, a Y-shaped connecting pipeline, an opening connecting cover plate, a small slotted water storage tank, a gate opening water injection mechanism, a gate closing water stop mechanism and a three-station switch mechanism, wherein the large water storage tank with the cover is arranged on other supporting equipment;

the sluice water injection mechanism comprises a sluice, a special-shaped inclined rod, a first reset spring, a fixed block, a tripod, an extension spring, a connecting block, a semicircular rod, an L-shaped circular headstock, a first rotating shaft, a first round angle wedge block, an L-shaped deflector rod, a first torsion spring, a sliding rod, a ball valve, a wedge-shaped connecting plate, a first rectangular slotted frame, a special-shaped wedge sliding frame and a second reset spring, wherein the sluice is symmetrically and slidingly connected on a Y-shaped connecting pipeline, the special-shaped inclined rod is connected on the sluice, the sluice is connected with the first reset spring, the other end of the first reset spring is connected with the Y-shaped connecting pipeline, the fixed block is symmetrically positioned on the Y-shaped connecting pipeline, the Y-shaped connecting pipeline is symmetrically and slidingly connected with the tripod, the tripod is provided with a triangular groove, the tripod contacts with the special-shaped inclined rod, a pair of extension springs are connected between the tripod and the fixed block, the tripod is connected with the connecting block, the bottom of the connecting block is connected with a semicircular rod, an L-shaped circular head frame is symmetrically positioned on a Y-shaped connecting pipeline, a first rotating shaft is rotatably connected to the L-shaped circular head frame, a circular angle wedge block is connected to the first rotating shaft, the circular angle wedge block is contacted with a tripod, an L-shaped deflector rod is arranged on the circular angle wedge block, a first torsion spring is connected to the circular angle wedge block, the other end of the first torsion spring is connected with the L-shaped circular head frame, two pairs of sliding rods are connected to an open-pore connecting cover plate in a sliding manner, the sliding rods longitudinally penetrate the open-pore connecting cover plate, a ball valve is positioned at one end of the sliding rods, wedge-shaped connecting plates are jointly connected between the two sliding rods at the same side, one sides of the two small slotted water storage boxes are connected with a first rectangular slotted frame, the first rectangular slotted frame is correspondingly arranged, a rectangular slot is arranged on the first rectangular slotted frame, the special-shaped wedge-shaped sliding frame is connected to the first rectangular slotted frame in a sliding manner, the special-shaped wedge-shaped sliding frame is contacted with the L-shaped deflector rod, a second reset spring is connected to the special-shaped wedge-shaped sliding frame, and the other end of the second reset spring is connected with the rectangular slotting frame;

the brake-closing water stop mechanism comprises a fixing frame, a rotating shaft II, a first gear, a fixing rod, a special-shaped connecting valve, a first rack, a four-corner shaft I, a first rotating shaft III, a driving wheel, a second four-corner shaft I, a third reset spring, a wedge-shaped pushing block, a second I-shaped round head frame II, a fourth rotating shaft I, a second gear, a second rack and a third rack, wherein a pair of fixing frames are connected to an open-pore connecting cover plate;

the three-station switch mechanism comprises a rectangular slotting frame II, a gate plate, a fourth reset spring, a round head connecting frame, a shaft shifting rod frame, a second torsion spring, a special-shaped slotting frame, a first wedge-shaped block, a fifth reset spring, an L-shaped slotting frame I, a second wedge-shaped block and a sixth reset spring, wherein the rectangular slotting frame II is connected to a small slotting water tank, a circular hole is formed in the bottom of the rectangular slotting frame II, the gate plate is connected to the small slotting water tank in a sliding mode, a pair of fourth reset springs are connected between the gate plate and the small slotting water tank, the round head connecting frame is positioned on the gate plate, the round head connecting frame is matched with the rectangular slotting frame II in a sliding mode, the shaft shifting rod frame is connected to the round head connecting frame in a rotating mode, the special-shaped slotting frame is connected to the rectangular slotting frame II, the first wedge-shaped slotting frame is connected to the fifth reset spring, the opening connecting top is connected to the L-shaped slotting frame I, the L-shaped slotting frame I is connected to the second wedge-shaped slotting frame II, and the second wedge-shaped slotted frame II is connected to the second wedge-shaped sliding block.

2. A water conservation water dispenser for green building capable of detecting water level and injecting water in time as claimed in claim 1, wherein: the long-time water switch mechanism is arranged on the small slotting water storage tank and comprises an L-shaped slotting frame II, a third wedge block, a seventh reset spring, an L-shaped slotting frame III, a rectangular sliding block and an eighth reset spring, the L-shaped slotting frame II is connected to the small slotting water storage tank, the third wedge block is matched with the L-shaped slotting frame II in a sliding mode, the seventh reset spring is connected between the third wedge block and the L-shaped slotting frame II, the L-shaped slotting frame is connected to the small slotting water storage tank in a three-way mode, the rectangular sliding block is matched with the L-shaped slotting frame III in a sliding mode, and the eighth reset spring is connected between the rectangular sliding block and the L-shaped slotting frame III.