CN216405649U - Full-automatic negative pressure drainage device - Google Patents

Abstract

The utility model is suitable for the technical field of drainage, and provides a full-automatic negative pressure drainage device, which comprises: the water storage bin is arranged to be of a cylindrical shell structure, a drainage bin is arranged at the lower end of the water storage bin, a partition plate is arranged between the water storage bin and the drainage bin, a water inlet pipe is arranged on one side of the upper end of the water storage bin, and a baffle is arranged on one side of the inner wall of the water storage bin; the air inlet pipe is installed at the lower end of the inner wall of the water storage bin, the water storage bin is penetrated through one side of the air inlet pipe, and one end of the air inlet pipe is connected with the drainage bin. This full-automatic negative pressure drainage device uses for the different differences in height of same water flat line through the inside sump of depositing water storehouse of device and drainage storehouse, need not manpower control and makes the difference in height and use, and through to the inside one-way input of inlet tube, through the inside inductor control inductive switch of device one with inductive switch four coordinate inductive switch two with inductive switch three use the inside principle negative pressure drainage and the switch on-off control drainage through the siphon drainage of auxiliary device.

Description

Full-automatic negative pressure drainage device

Technical Field

The utility model belongs to the technical field of drainage, and particularly relates to a full-automatic negative pressure drainage device.

Background

Siphon drainage is mostly used in the existing drainage mode, the principle of the drainage mode is negative pressure drainage, and the siphon drainage is caused by the attraction and potential difference between liquid molecules; the water level of the pipe orifice bears approximately the same atmospheric pressure, the short side of the water column has large combined pressure and the high side of the water column has small combined pressure, the water flows from the side with large combined pressure to the side with small combined pressure until the combined pressures at the two sides are equal, the water level in the container becomes equal height, the water stops flowing, but the water needs to be used for manufacturing height difference by people in a flat area, a large amount of manpower is needed, manual control is needed in the drainage process of the building area, the use and operation are complex, large noise can be generated in the use process, and a small part of the water is not completely remained in the device.

SUMMERY OF THE UTILITY MODEL

The utility model provides a full-automatic negative pressure drainage device, aiming at solving the problems that the prior art needs artificial manufacturing height difference to be used in a relatively flat area, the artificial control operation needed in a building area is complicated, large noise is generated during use, and the drainage is incomplete.

The utility model is realized in such a way that a full-automatic negative pressure drainage device comprises a water storage bin which is arranged into a cylindrical shell structure, wherein a drainage bin is arranged at the lower end of the water storage bin, a partition plate is arranged between the water storage bin and the drainage bin, a water inlet pipe is arranged on one side of the upper end of the water storage bin, and a baffle plate is arranged on one side of the inner wall of the water storage bin;

the air inlet pipe is arranged at the lower end of the inner wall of the water storage bin, one side of the air inlet pipe penetrates through the water storage bin, one end of the air inlet pipe is connected with the water drainage bin, one end of the air inlet pipe is provided with a second inductive switch, and a fixing plate is arranged outside the other end of the air inlet pipe;

the semicircular plate is installed inside the other end of the air inlet pipe, the other end of the air inlet pipe is arranged to be of a Y-shaped structure, the upper end of the other end of the Y-shaped structure of the air inlet pipe is provided with an air suction pipe, one side of the semicircular plate is provided with a crescent block, one end of the crescent block penetrates through the semicircular plate, and one end of the crescent block penetrates through the semicircular plate and is connected with the semicircular block.

By adopting the technical scheme, the whole device is convenient to use, and the device which needs electricity is not required to be arranged inside.

Preferably, the lower end of the inner wall of the water storage bin is provided with a bearing plate, the bearing plate is located above an air inlet pipe at the lower end of the inner wall of the water storage bin, one side of a Y-shaped structure at the upper end of the air inlet pipe is provided with a third inductive switch, and one end of the third inductive switch is connected with one end of the semicircular block.

By adopting the technical scheme, the air inlet pipe is conveniently controlled to rotate to open and close the semicircular block and the semicircular block through the rotation of the inductive switch III.

Preferably, one end of the related connecting pipe is arranged on one side of the outer portion of the water storage bin, the other end of the related connecting pipe is arranged on one side of the outer portion of the water drainage bin, and one end of the related connecting pipe is provided with the first inductive switch.

By adopting the technical scheme, the sensor can control the first inductive switch conveniently, and water in the water collecting bin is input into the water discharging bin through the associated pipe.

Preferably, the lower end of the drainage bin is of an arc-shaped structure, a support is arranged outside the drainage bin, a drainage pipe is arranged at the lower end of the drainage bin, and a sensing switch IV is arranged at one end of the drainage pipe.

By adopting the technical scheme, the contact control induction switch of the inductor is convenient to use, and the inductor is effectively recycled.

Preferably, the side edge and the lower end of the inner wall of the baffle are provided with net structures, the baffle is internally provided with a buoyancy ball, and the upper end of the inner wall of the baffle is provided with an inductor.

By adopting the technical scheme, the operation of a manual control device is not needed, and the liquid buoyancy combined sensor is used.

Preferably, the air inlet pipe penetrates through one end inside the water storage bin and is arranged to be in an L-shaped structure, and the upper end of the air inlet pipe is connected with an air suction pipe.

By adopting the technical scheme, the vacuum formed by quickly pumping out air in the drainage bin after the liquid in the drainage bin is drained is convenient for pumping out the solution in the water collection bin.

Compared with the prior art, the utility model has the beneficial effects that: the utility model relates to a full-automatic negative pressure drainage device,

1. when the device is used, the water storage bin and the drainage bin in the device are used in different height differences of the same horizontal line, manual control and height difference manufacturing are not needed, and through one-way input into the water inlet pipe, the first induction switch and the fourth induction switch are matched with the second induction switch and the third induction switch through the inductor in the device, so that negative pressure drainage in the auxiliary device is used, and drainage is automatically controlled by opening and closing the switches through the principle of siphon drainage;

2. the device is characterized in that a baffle inside the device is combined with a buoyancy ball to be matched with a sensor, the buoyancy ball receives the buoyancy of water and moves upwards along the direction planned by the baffle, after reaching a certain height, the buoyancy ball is connected with the sensor at the upper end of the inner wall of the baffle, a sensing switch is controlled to be turned on, the water is sent into a drainage bin through a related pipe, the water is drained in a segmentation process, and meanwhile, the water can conveniently enter the drainage bin through a height difference without manual operation;

3. the drain pipe of being convenient for through the convex structure of drainage storehouse lower extreme is to outside drainage, prevents through inductive switch two simultaneously that water from passing through the inside last full play device of intake pipe reverse flooding intake pipe outside, effectively prevents the long-pending problem of staying of the inside solution of device, improves the drainage effect of device, and need not to exert pressure to water in the middle of the drainage process and cause the inside cavity vibrations of device to take place the sound, effective noise reduction.

Drawings

FIG. 1 is a schematic view of the overall internal front view structure of the present invention;

FIG. 2 is a schematic diagram of the overall internal side view of the present invention;

FIG. 3 is a schematic view of the overall internal top view of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 5 is a schematic top view of the crescent block and the semicircular block of the present invention.

In the figure: 1-water storage bin, 2-water discharge bin, 3-partition board, 4-water inlet pipe, 5-baffle, 6-inductor, 7-buoyancy ball, 8-bearing plate, 9-associated pipe, 10-induction switch I, 11-air inlet pipe, 12-induction switch II, 13-fixing plate, 14-semicircular plate, 15-crescent block, 16-semicircular block, 17-induction switch III, 18-air suction pipe, 19-water discharge pipe and 20-induction switch IV.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1-5, the present invention provides a technical solution, a full-automatic negative pressure drainage device, including a water storage bin 1, a drainage bin 2, a partition plate 3, a water inlet pipe 4, a baffle 5, an inductor 6, a buoyancy ball 7, a supporting plate 8, a related pipe 9, a first induction switch 10, an air inlet pipe 11, a second induction switch 12, a fixed plate 13, a semicircular plate 14, a crescent block 15, a semicircular block 16, a third induction switch 17, an air suction pipe 18, a drainage pipe 19, and a fourth induction switch 20;

in the embodiment, the water storage bin 1 is set to be a cylindrical shell structure, the lower end of the water storage bin 1 is provided with the drainage bin 2, a partition plate 3 is arranged between the water storage bin 1 and the drainage bin 2, one side of the upper end of the water storage bin 1 is provided with the water inlet pipe 4, and one side of the inner wall of the water storage bin 1 is provided with the baffle plate 5;

furthermore, the side edge and the lower end of the inner wall of the baffle 5 are provided with a net structure, a buoyancy ball 7 is arranged inside the baffle 5, and the upper end of the inner wall of the baffle 5 is provided with an inductor 6; when using the device, the inside inductor 6 of device is the mature product of selling on the market, and through contacting with buoyancy ball 7 the back, trigger inductor 6, and inductor 6 uses through signal line and inductive switch 10 and inductive switch two 12 cooperation inductive switch three 17 and inductive switch four 20, after being connected with the device that needs the drainage through inlet tube 4, with liquid from inlet tube 4 row into the inside baffle 3 top of water storehouse 1, when liquid is stored to a take the altitude, liquid gets into inside baffle 5 from the network structure of baffle 5 inner wall side and lower extreme, upwards lift buoyancy ball 7, until buoyancy ball 7 and inductor 6 contact, because inductor 6 needs to be connected with the regional electric power system of use and use.

Furthermore, one end of a related connecting pipe 9 is arranged on one side of the outer part of the water storage bin 1, the other end of the related pipe 9 is arranged on one side of the outer part of the drainage bin 2, and one end of the related pipe 9 is provided with a first inductive switch 10; after the sensor 6 contacts the buoyancy ball 7, the sensor 6 sends a signal to the first sensor switch 10 through the signal line to turn on the first sensor switch 10, so that water enters the interior of the drainage bin 2 through the associated pipe 9, and the first sensor switch 10 is a mature product sold on the market and needs to be used in combination with the sensor 6.

In the embodiment, the air inlet pipe 11 is installed at the lower end of the inner wall of the water storage bin 1, one side of the air inlet pipe 11 penetrates through the water storage bin 1, one end of the air inlet pipe 11 is connected with the drainage bin 2, one end of the air inlet pipe 11 is provided with a second inductive switch 12, and the outer part of the other end of the air inlet pipe 11 is provided with a fixing plate 13;

further, the lower end of the drainage bin 2 is of an arc-shaped structure, a support is arranged outside the drainage bin 2, a drainage pipe 19 is arranged at the lower end of the drainage bin 2, and one end of the drainage pipe 19 is provided with a four-way inductive switch 20; before liquid gets into drainage storehouse 2, second 12 of inductive switch is the on-state, pass through water storage storehouse 1 and fixed plate 13 through intake pipe 11 and become the vacuum state with drainage storehouse 2 inside pump, close second 12 of inductive switch when inductive switch 10 is opened, make liquid get into drainage storehouse 2 inside after, inductor 6 and buoyancy ball 7 contactless open fourth 20 of inductive switch after a period, second 12 of inductive switch is the off-state simultaneously, after the inside liquid in drainage storehouse 2 passes through drain pipe 19 and discharges, second 12 of inductive switch is for opening when inductive switch is closed for the time of inductive switch.

Further, a bearing plate 8 is arranged at the lower end of the inner wall of the water storage bin 1, the bearing plate 8 is positioned above an air inlet pipe 11 at the lower end of the inner wall of the water storage bin 1, one side of a Y-shaped structure at the upper end of the air inlet pipe 11 is provided with a third inductive switch 17, and one end of the third inductive switch 17 is connected with one end of a semicircular block 16; when the device is used, the opening and closing states of the second inductive switch 12 and the third inductive switch 17 in the device are consistent, after the third inductive switch 17 is opened, the empty opening end of the semicircular block 16 is in the opening state, one side of the Y-shaped structure at the upper end of the air inlet pipe 11 is closed, and the poured liquid is located above the bearing plate 8 at the lower end of the inner wall of the water storage bin 1.

In the present embodiment, a semicircular plate 14 is installed inside the other end of the air inlet pipe 11, the other end of the air inlet pipe 11 is provided with a Y-shaped structure, the upper end of the other end of the Y-shaped structure of the air inlet pipe 11 is provided with an air suction pipe 18, one side of the semicircular plate 14 is provided with a crescent block 15, one end of the crescent block 15 penetrates through the semicircular plate 14, and one end of the crescent block 15 penetrates through the semicircular plate 16;

furthermore, one end of the air inlet pipe 11 penetrating through the interior of the water storage bin 1 is arranged to be in an L-shaped structure, and the upper end of the air inlet pipe 11 is connected with an air suction pipe 18; the vacuum machine is united to 18 one ends of breathing pipe and uses, when inductive switch three 17 is opened, the Y column structure of the vacant one end of semicircle piece 16 and intake pipe 11 is longitudinal state, it is convenient for the vacant one end suction in drainage storehouse 2 of semicircle piece 16 to open, meanwhile crescent piece 15 covers one side of semicircle board 14, make the Y column structure of intake pipe 11 be the closed condition, when inductive switch three 17 is closed, crescent piece 15 opens one side of semicircle board 14, the vacant one end of semicircle piece 16 and the Y column structure of intake pipe 11 are horizontal state simultaneously, be vertical state with the Y column structure of intake pipe 11, it is balanced to be convenient for the inside atmospheric pressure of water storage storehouse 1.

The working principle and the using process of the utility model are as follows: connecting a device needing to be drained with a water inlet pipe 4, enabling liquid to enter the upper end of a bearing plate 8 in a water storage bin 1 from the water inlet pipe 4, enabling a buoyancy ball 7 to move upwards along a baffle 5 through buoyancy force to enable the buoyancy ball 7 to be in contact with an inductor 6, starting a first inductive switch 10 to fill the liquid in the water storage bin 1 into a drainage bin 2 through a connecting pipe 9, dividing the area positions of the water storage bin 1 and the drainage bin 2 through a partition plate 3, turning off the first inductive switch 10 after the first inductive switch 10 is turned on for a period of time, turning on a fourth inductive switch 20 to drain water from a drainage pipe 19 after the liquid exists in the drainage bin 2, turning off a second inductive switch 12 when the fourth inductive switch 20 is turned on, turning on the second inductive switch 12 and a third inductive switch 17 after the fourth inductive switch 20 is turned off, turning on the third inductive switch 17 to drive the whole semicircular plate 14 to be turned on and drive one end of a Y-shaped structure of a semicircular plate 14 to be turned off by a crescent 15, air in the drainage bin 2 is rapidly pumped out through the suction pipe 18 and the fixing plate 13 through the suction pipe 18 by combining the suction pipe 18 with the vacuum machine, and the induction switch II 12 and the induction switch III 17 are closed while the induction switch I10 is opened, so that automatic drainage is realized.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a full-automatic negative pressure drainage device which characterized in that includes:

the water storage bin (1) is arranged to be of a cylindrical shell structure, the lower end of the water storage bin (1) is provided with a drainage bin (2), a partition plate (3) is arranged between the water storage bin (1) and the drainage bin (2), one side of the upper end of the water storage bin (1) is provided with a water inlet pipe (4), and one side of the inner wall of the water storage bin (1) is provided with a baffle plate (5);

the air inlet pipe (11) is installed at the lower end of the inner wall of the water storage bin (1), one side of the air inlet pipe (11) penetrates through the water storage bin (1), one end of the air inlet pipe (11) is connected with the drainage bin (2), one end of the air inlet pipe (11) is provided with a second induction switch (12), and the outer part of the other end of the air inlet pipe (11) is provided with a fixing plate (13);

semicircle board (14), it installs inside intake pipe (11) other end, the intake pipe (11) other end sets up to Y column structure, and is provided with breathing pipe (18) on the Y column structure other end of intake pipe (11), semicircle board (14) one side is provided with crescent moon piece (15), and crescent moon piece (15) one end runs through semicircle board (14) to crescent moon piece (15) run through one end and are connected with semicircle piece (16).

2. The full-automatic negative pressure drainage device according to claim 1, wherein: the water storage bin is characterized in that a bearing plate (8) is arranged at the lower end of the inner wall of the water storage bin (1), the bearing plate (8) is located above an air inlet pipe (11) at the lower end of the inner wall of the water storage bin (1), three induction switches (17) are arranged on one side of a Y-shaped structure at the upper end of the air inlet pipe (11), and one ends of the three induction switches (17) are connected with one ends of semicircular blocks (16).

3. The full-automatic negative pressure drainage device according to claim 1, wherein: one end of a related connecting pipe (9) is arranged on one side of the outer portion of the water storage bin (1), the other end of the related connecting pipe (9) is arranged on one side of the outer portion of the drainage bin (2), and a first inductive switch (10) is arranged at one end of the related connecting pipe (9).

4. The full-automatic negative pressure drainage device according to claim 1, wherein: the lower end of the drainage bin (2) is of an arc-shaped structure, a support is arranged outside the drainage bin (2), a drainage pipe (19) is arranged at the lower end of the drainage bin (2), and a sensing switch IV (20) is arranged at one end of the drainage pipe (19).

5. The full-automatic negative pressure drainage device according to claim 1, wherein: baffle (5) inner wall side and lower extreme are provided with network structure, and baffle (5) inside is provided with buoyancy ball (7), baffle (5) inner wall upper end is provided with inductor (6).

6. The full-automatic negative pressure drainage device according to claim 1, wherein: the air inlet pipe (11) penetrates through one end inside the water storage bin (1) and is arranged to be of an L-shaped structure, and the upper end of the air inlet pipe (11) is connected with an air suction pipe (18).

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