CN211257151U - Building rainwater disinfection system - Google Patents

Abstract

The utility model provides a building rainwater disinfection system, which comprises a water collecting tank arranged on the roof and also comprises a disinfectant pouring device, wherein the disinfectant pouring device and the water collecting tank are arranged on a supporting bottom plate, a base is arranged on the supporting bottom plate, the water collecting tank is connected with the base through a supporting spring, a supporting column is also arranged on the base, a gravity sensing device is arranged at the top of the supporting column, the disinfectant pouring device comprises a disinfectant bottle, a first supporting column, a second supporting column, a fixing mechanism, a driving mechanism and a main control unit, the first supporting column is fixedly connected with the supporting bottom plate, the second supporting column is connected with the supporting bottom plate in a sliding way, the driving mechanism can drive the second supporting column to move upwards/downwards, the fixing mechanism is respectively hinged with the first supporting column and the second supporting column, the disinfectant bottle is fixed on the fixing mechanism, and the gravity sensing device and the driving mechanism are in signal connection with the main control unit.

Description

Building rainwater disinfection system

Technical Field

The utility model relates to a disinfection technical field especially relates to a building rainwater disinfection system.

Background

Current rainwater collection device generally all sets up the roof in district, but because the uncertainty of rainfall is great, current rainwater collection device often needs the artifical disinfectant that adds just can the reutilization, and the artifical mode that adds the disinfectant can greatly increased operating personnel's the amount of labour.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building rainwater disinfection system to solve the problem that proposes among the above-mentioned background art.

The utility model discloses a realize through following technical scheme: the utility model provides a building rainwater disinfection system, still includes the antiseptic solution and emptys the device including the water catch bowl of locating the roof, the antiseptic solution is emptyd device and water catch bowl and is all set up on supporting baseplate, the last base that is equipped with of supporting baseplate, the water catch bowl with link to each other through supporting spring between the base, still be equipped with the support column on the base, the support column top is equipped with gravity induction system, the antiseptic solution is emptyd device and is included antiseptic solution bottle, first pillar, second pillar, fixed establishment, actuating mechanism and main control unit, first pillar with supporting baseplate fixed connection, the second pillar slides with supporting baseplate and links to each other, actuating mechanism can drive the second pillar and move up/down, fixed establishment articulates with first pillar, second pillar respectively, the antiseptic solution bottle is fixed in fixed establishment, gravity induction system, The driving mechanisms are connected with the main control unit through signals.

Preferably, actuating mechanism includes motor, worm and the type of falling L sleeve, the type of falling L sleeve one end with motor housing is fixed continuous, be equipped with the connecting axle on the output of motor, be fixed with the worm on the connecting axle, the worm with the type of falling L sleeve rotates and links to each other, the worm with the meshing of second pillar, the motor with the master control unit signal links to each other.

Preferably, a rack is arranged on the second support column, and the worm is meshed with the rack.

Preferably, the fixing mechanism is hinged with the corresponding first support and the second support respectively, and the fixing mechanism is detachably connected with the disinfectant bottle.

Preferably, the gravity sensing device comprises a pressure sensor arranged at the top of the support column, and the pressure sensor is in signal connection with the main control unit.

Preferably, be equipped with the shape of falling U siphon in the water catch bowl, the delivery port department of the shape of falling U siphon is equipped with the water storage box, water storage box and recovery house steward intercommunication, recovery house steward passes through the recovery branch pipe and communicates with the water inlet of toilet in the building respectively.

Preferably, a flow meter is arranged on the inverted U-shaped siphon, and the flow meter is in signal connection with the main control unit.

Preferably, an electromagnetic valve is arranged at the liquid outlet of the disinfectant bottle and is in signal connection with the main control unit.

Compared with the prior art, the utility model discloses the beneficial effect who reaches as follows:

the utility model provides a building rainwater disinfection system, when rainwater exists in the water collecting tank, the spring of the water collecting tank is compressed by the gravity of the water collecting tank, and finally the water collecting tank is contacted with the top of the supporting column, because the gravity sensing device is arranged at the top of the supporting column, when the water collecting tank is contacted with the top of the supporting column, the gravity sensing device can send feedback signals to the main control unit, the main control unit sends control commands to the driving mechanism according to the signals, the second support post can be driven to move upwards under the driving action of the driving mechanism, and as the first support post and the second support post are hinged with the fixing mechanisms, and the fixing mechanism can be detachably connected with the disinfectant bottle, so that when the second support moves downwards, the bottle mouth of the disinfectant bottle can be downward, the bottle bottom of the disinfectant bottle is upward, namely, the self inclination angle of the disinfectant bottle is changed, so that the disinfectant in the disinfectant bottle can flow to the water collecting tank for disinfection.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a structural diagram of a building rainwater disinfection system provided in embodiment 1 of the present invention;

fig. 2 is a signal connection schematic diagram of a building rainwater disinfection system provided by the embodiment of the utility model 1.

In the figure, 1-a water collecting tank, 2-a supporting bottom plate, 3-a base, 4-a spring, 5-a supporting column, 6-a gravity sensing device, 7-a motor, 8-a connecting shaft, 9-a worm, 10-a fixing mechanism, 11-an inverted L-shaped sleeve, 12-a disinfectant bottle, 13-a first support, 14-a second support, 15-a rack, 16-an electromagnetic valve, 17-an inverted U-shaped siphon, 18-a water storage tank, 19-a through hole, 20-a flowmeter and 21-a main control unit.

Detailed Description

In order to better understand the technical content of the present invention, the following embodiments are provided, and the present invention is further described with reference to the accompanying drawings.

Example 1

Referring to fig. 1 and 2, a building rainwater disinfection system comprises a water collecting tank 1 arranged on a roof, and further comprises a disinfectant pouring device, wherein the disinfectant pouring device and the water collecting tank 1 are arranged on a supporting base plate 2, a base 3 is arranged on the supporting base plate 2, the water collecting tank 1 is connected with the base 3 through a supporting spring 4, a supporting column 5 is further arranged on the base 3, a gravity sensing device 6 is arranged at the top of the supporting column 5, the disinfectant pouring device comprises a disinfectant bottle 12, a first supporting column 13, a second supporting column 14, a fixing mechanism 10, a driving mechanism and a main control unit 21, the first supporting column 13 is fixedly connected with the supporting base plate 2, the second supporting column 14 is connected with the supporting base plate 2 in a sliding manner, the driving mechanism can drive the second supporting column 14 to move upwards/downwards, and the fixing mechanism 10 is respectively connected with the first supporting column 13, the second supporting column 14, The second support 14 is hinged, the disinfectant bottle 12 is fixed on the fixing mechanism 10, and the gravity sensing device 6 and the driving mechanism are in signal connection with the main control unit 21.

When rainwater exists in the water collecting tank 1, the spring 4 of the water collecting tank 1 is compressed by the gravity of the water collecting tank 1, and finally the water collecting tank 1 is contacted with the top of the supporting column 5, because the gravity sensing device 6 is arranged on the top of the supporting column 5, when the water collecting tank 1 is contacted with the top of the supporting column 5, the gravity sensing device 6 can send a feedback signal to the main control unit 21, the main control unit 21 sends a control command to the driving mechanism according to the signal, the second supporting column 14 can be driven to move upwards under the driving action of the driving mechanism, because the first supporting column 13 and the second supporting column 14 are hinged with the fixing mechanism 10, and the fixing mechanism 10 can be detachably connected with the disinfectant bottle 12, when the second supporting column 14 moves downwards, the disinfectant bottle 12 can be enabled to move downwards, and the bottom of the disinfectant bottle 12 is enabled to move upwards, namely the inclination angle of the changed disinfectant bottle 12 is changed, so that the disinfectant in the disinfectant bottle 12 can flow to the water collecting tank 1 for disinfection;

after the preset time, the driving mechanism can drive the second support 14 to move upwards under the driving action of the driving mechanism, so that the mouth of the disinfectant bottle 12 is upward, the bottom of the disinfectant bottle 12 is downward, the inclination angle of the disinfectant bottle 12 can be recovered to be normal, and the disinfectant in the disinfectant bottle 12 does not flow into the water collecting tank 1.

Specifically, the fixing mechanism 10 is hinged to the corresponding first support column 13 and the corresponding second support column 14, the fixing mechanism 10 is detachably connected to the disinfectant bottle 12, the fixing mechanism 10 can be a buckle-type fixing mechanism 10, and the fixing mechanism is used for fixing the disinfectant bottle 12, so that the disinfectant bottle 12 is prevented from falling off when the angle of the disinfectant bottle 12 is changed.

Specifically, the driving mechanism comprises a motor 7, a worm 9 and an inverted-L-shaped sleeve 11, one end of the inverted-L-shaped sleeve 11 is fixedly connected with the shell of the motor 7, an output end of the motor 7 is provided with a connecting shaft 8, the connecting shaft 8 is fixedly provided with the worm 9, the worm 9 is rotatably connected with the inverted-L-shaped sleeve 11, the worm 9 is meshed with the second support column 14, and the motor 7 is in signal connection with the main control unit 21;

when the motor 7 rotates under the control of the main control unit 21, the connecting shaft 8 drives the worm 9 to rotate, the worm 9 is continuously meshed with the second support 14, and the second support 14 moves downwards/upwards to change the inclination angle of the disinfectant bottle 12.

Specifically, the bottom of the second pillar 14 is provided with a rack 15, the rack 15 is engaged with the worm, and the second pillar 14 moves upwards or downwards through the continuous engagement of the worm and the rack 15

Specifically, a through hole 19 is formed in the support base 2, and the second support 14 moves up/down after passing through the through hole 19.

Specifically, the gravity sensing device 6 includes a pressure sensor disposed at the top of the supporting column 5, the pressure sensor is in signal connection with the main control unit 21, and data detected by the pressure sensor can be transmitted to the main control unit 21.

Specifically, an inverted U-shaped siphon 17 is arranged in the water collecting tank 1, a water storage tank 18 is arranged at a water outlet of the inverted U-shaped siphon 17, the water storage tank 18 is communicated with a recovery header pipe, and the recovery header pipe is respectively communicated with a water inlet of a flush toilet in the building through recovery branch pipes;

when the water flows over the turning part at the top of the inverted U-shaped siphon 17, the water flows towards the outlet of the inverted U-shaped siphon 17 under the action of gravity, the siphonage phenomenon is generated, and the water in the water collecting tank 1 continuously flows into the water storage tank 18 along the inverted U-shaped siphon 17 to be stored. When the liquid level in the water collecting tank 1 is lower than the bottom of the inverted U-shaped siphon 17, air enters the inverted U-shaped siphon 17, siphoning is broken, and water in the water collecting tank 1 stops flowing to the water storage tank 18;

additionally, when the toilet requires water, the recovery manifold will draw disinfected water from the reservoir 18 to supply the toilet with water.

Specifically, a flow meter 20 is arranged on the inverted U-shaped siphon 17, the flow meter 20 is in signal connection with the main control unit 21, and when the flow meter 20 continuously monitors that water flows through the inverted U-shaped siphon 17 and the pressure sensor has data, the main control unit 21 starts the motor 7 to rotate at intervals of 5 hours, and disinfectant is put into the water collecting tank 1;

when the flow meter 20 continuously monitors that no water flows through the inverted U-shaped siphon 17 but the pressure sensor continuously has data, the main control unit 21 starts the motor 7 to rotate at intervals of 8 days, and disinfectant is put into the water collecting tank 1;

when the flow meter 20 continuously detects that the inverted U-shaped siphon 17 has water flowing through but the pressure sensor has no data, the main control unit 21 does not start the motor 7.

Specifically, the electromagnetic valve 16 is arranged at the liquid outlet of the disinfectant bottle 12, the electromagnetic valve 16 is in signal connection with the main control unit 21, and the main control unit 21 can control the outflow of the disinfectant bottle 12 by controlling the opening time of the electromagnetic valve 16.

Specifically, the main control unit 21 may be an AT91F40162 type ARM processor, and those skilled in the art can adopt the known types and structures of the solenoid valve 16, the flowmeter 20, the pressure sensor, the motor 7 and the fixing mechanism to realize the embodiment.

The working principle is as follows: when rainwater exists in the water collecting tank 1, the water collecting tank 1 compresses the spring 4 thereof due to self gravity, and finally the water collecting tank 1 is in contact with the top of the support column 5, and as the gravity sensing device 6 is arranged on the top of the support column 5, when the water collecting tank 1 is in contact with the top of the support column 5, the gravity sensing device 6 can send a feedback signal to the main control unit 21, and the main control unit 21 sends a control command to the motor 7 according to the signal;

the motor 7 rotates forward under the control of the main control unit 21, and then the connecting shaft 8 drives the worm 9 to rotate, the worm 9 is continuously engaged with the second support 14, and then the second support 14 moves downwards, because the first support 13 and the second support 14 are hinged with the fixing mechanism 10, and the fixing mechanism 10 can be detachably connected with the disinfectant bottle 12, when the second support 14 moves downwards, the opening of the disinfectant bottle 12 can be downward, and the bottom of the disinfectant bottle 12 is upward, namely, the changed inclination angle of the disinfectant bottle 12 changes, and then the disinfectant in the disinfectant bottle 12 can flow to the water collecting tank 1 for disinfection

An inverted U-shaped siphon 17 is arranged in a water collecting tank 1, no water exists in the inverted U-shaped siphon 17 in an initial state, a siphon phenomenon is not formed, the inverted U-shaped siphon 17 and the water collecting tank 1 form a communicating vessel, water cannot flow out of the water collecting tank 1 along the inverted U-shaped siphon 17, the water in the water collecting tank 1 enters the inverted U-shaped siphon 17 along the rise of a liquid level and gradually flows over the turning part at the top of the inverted U-shaped siphon 17, when the water flows over the turning part at the top of the inverted U-shaped siphon 17, the water flows towards the outlet of the inverted U-shaped siphon 17 under the action of gravity, the siphon phenomenon is generated, and the water in the water collecting tank 1 continuously flows into a water storage tank 18 along the inverted U-shaped siphon 17 to be stored. When the liquid level in the water catch bowl 1 is less than the bottom of the siphon 17 of falling the U-shaped, get into the air in the siphon 17 of falling the U-shaped, the siphon is destroyed, and the water in the water catch bowl 1 stops to flow to the water storage box 18, and the hydroenergy in its water storage box 18 realizes uses such as towards the lavatory, the utility model discloses can draw water automatically under the control that does not need electronic parts, effectively reduce the consumption to can alleviate urban water supply pressure to a certain extent, alleviate water pollution and urban flood pressure.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A building rainwater disinfection system comprises a water collecting tank arranged on a roof, and is characterized by further comprising a disinfectant pouring device, wherein the disinfectant pouring device and the water collecting tank are arranged on a supporting bottom plate, a base is arranged on the supporting bottom plate, the water collecting tank is connected with the base through a supporting spring, a supporting column is further arranged on the base, a gravity sensing device is arranged at the top of the supporting column, the disinfectant pouring device comprises a disinfectant bottle, a first supporting column, a second supporting column, a fixing mechanism, a driving mechanism and a main control unit, the first supporting column is fixedly connected with the supporting bottom plate, the second supporting column is connected with the supporting bottom plate in a sliding mode, the driving mechanism can drive the second supporting column to move upwards/downwards, the fixing mechanism is respectively hinged with the first supporting column and the second supporting column, and the disinfectant bottle is fixed on the fixing mechanism, and the gravity sensing device and the driving mechanism are in signal connection with the main control unit.

2. The building rainwater disinfection system of claim 1, wherein said drive mechanism comprises a motor, a worm and an inverted L-shaped sleeve, one end of said inverted L-shaped sleeve is fixedly connected with said motor housing, a connecting shaft is arranged at the output end of said motor, a worm is fixed on said connecting shaft, said worm is rotatably connected with said inverted L-shaped sleeve, said worm is engaged with said second support, and said motor is in signal connection with said main control unit.

3. A building rainwater disinfection system as claimed in claim 2, wherein said second support post is provided with a rack, and said worm is engaged with said rack.

4. The building rainwater disinfection system of claim 1, wherein said fixing mechanism is hinged to the corresponding first and second support posts, and said fixing mechanism is detachably connected to said disinfectant bottle.

5. The building rainwater disinfection system of claim 1, wherein said gravity sensing device comprises a pressure sensor disposed on the top of the support post, said pressure sensor being in signal communication with said main control unit.

6. The building rainwater disinfection system of claim 1, wherein an inverted U-shaped siphon is provided in the water collection tank, a water storage tank is provided at a water outlet of the inverted U-shaped siphon, the water storage tank is communicated with a recovery header pipe, and the recovery header pipe is respectively communicated with a water inlet of a toilet bowl in the building through recovery branch pipes.

7. A building rainwater disinfection system as claimed in claim 6, wherein said inverted U-shaped siphon pipe is provided with a flow meter, said flow meter being in signal communication with said main control unit.

8. The building rainwater disinfection system of claim 1, wherein an electromagnetic valve is disposed at the outlet of the disinfectant bottle, and the electromagnetic valve is in signal connection with the main control unit.

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