CN211166928U - Water supplementing and draining waterwheel and waterwheel pipeline system - Google Patents

Abstract

The utility model provides a moisturizing drainage waterwheel and waterwheel pipe-line system, all include first water knockout drum, the second water knockout drum, the third water knockout drum, the water tank, first moisturizing drainage pipe way, first tributary pipe way, the second tributary pipe way, the third tributary pipe way, the fourth tributary pipe way, the fifth tributary pipe way, the sixth tributary pipe way, second moisturizing drainage pipe way, seventh electric control valve, the filler pump, first electric control valve, the second electric control valve, the third electric control valve, the fourth electric control valve, water purification subassembly and fifth electric control valve. The utility model is used for improve the utilization ratio of water resource. And the water supply device is also used for avoiding the problems of water supply overflow and excessive water pumping in the prior art.

Description

Water supplementing and draining waterwheel and waterwheel pipeline system

Technical Field

The utility model relates to an archives storehouse automatic control field, concretely relates to moisturizing drainage waterwheel and waterwheel pipe-line system.

Background

In the archive storehouse, in order to better realize the storage of the archives in the storehouse, corresponding humidifying equipment and dehumidifying equipment are often arranged in the archive storehouse, so that the humidity of the air in the archive storehouse is timely increased, and the air in the archive storehouse is timely dehumidified.

However, the humidifying equipment and the dehumidifying equipment provided in the archive storehouse often need to be replenished or pumped with water by corresponding waterwheels at regular time. However, the water truck in the prior art needs to frequently replace the stored water in the water tank of the water truck to ensure the quality of the water for replenishing water, or the pumped equipment waste water cannot be reused, so that the problem of wasting water resources exists. In addition, the water truck commonly used in the prior art is easy to cause the phenomenon of water supplement overflow when water is supplemented to the equipment needing water supplement, or is easy to cause the phenomenon of water pump dry burning of the equipment needing water drainage due to excessive water pumping when water is pumped to the equipment needing water drainage.

Therefore, the utility model provides a moisturizing drainage waterwheel and waterwheel pipe-line system for solve above-mentioned technical problem.

SUMMERY OF THE UTILITY MODEL

The above-mentioned not enough to prior art, the utility model provides a moisturizing drainage waterwheel and waterwheel pipe-line system for improve the utilization ratio of water resource. And the water supply device is also used for avoiding the problems of water supply overflow and excessive water pumping in the prior art.

In a first aspect, the utility model provides a waterwheel pipeline system, which comprises a water tank, a first water replenishing and draining pipeline, a second branch pipeline, a third branch pipeline, a fourth branch pipeline, a fifth branch pipeline, a sixth branch pipeline, a second water replenishing and draining pipeline used for being matched with the water tank of an external device needing water replenishing or draining, and a water pumping channel used for being communicated with the lower end of the inner cavity of the water tank; the water pumping channel comprises a first branch pipeline, a water adding pump and a first electric control valve, wherein the water adding pump and the first electric control valve are installed on the first branch pipeline;

the first end of the first branch pipeline, the first end of the second branch pipeline, the first end of the third branch pipeline and the first end of the first water replenishing and draining pipeline are communicated through a first water divider; the second end of the second branch pipeline, the second end of the third branch pipeline, the first end of the fourth branch pipeline and the first end of the fifth branch pipeline are communicated through a second water separator; the second end of the fourth branch pipeline, the second end of the fifth branch pipeline and the first end of the sixth branch pipeline are communicated through a third water distributor;

the second end of the sixth branch pipeline is communicated with the upper end of the water tank; the tail end of the second end of the sixth branch pipeline penetrates through the side wall of the water tank to enter the water tank and is provided with a mechanical ball float valve;

the second end of the first water replenishing and draining pipeline is communicated with one end of the second water replenishing and draining pipeline, and a seventh electric control valve is installed on the first water replenishing and draining pipeline;

a water suction pump and a second electric control valve are arranged on the second branch pipeline;

a third branch pipeline is provided with a third electric control valve;

a fourth branch pipeline is provided with a fourth electric control valve and a water purification component;

a fifth electric control valve is arranged on the fifth branch pipeline.

Furthermore, a water quality sensor and/or a water level sensor are arranged in the water tank.

Further, a first liquid level sensor, a second liquid level sensor and a hanging part are detachably mounted on the second water replenishing drainage pipeline in an adjustable mounting position;

the second liquid level sensor is positioned at the free end of the second water replenishing and draining pipeline;

the hanging part is positioned at one end of the second water replenishing and draining pipeline, which is used for connecting the first water replenishing and draining pipeline; the first liquid level sensor is positioned between the suspension part and the second liquid level sensor.

In a second aspect, the utility model provides a water replenishing and draining waterwheel, which comprises a waterwheel body, a control button group, a control unit and the waterwheel pipeline system; the control button group comprises a water adding control button for controlling water adding of the peripheral equipment needing water adding, a water pumping control button for controlling water discharging of the peripheral equipment needing water discharging, a purifying water pumping control button for controlling water discharging of the peripheral equipment needing water discharging and purifying water discharging, and a self-purifying control button for controlling water in the automatic purifying water tank of the waterwheel;

the control button group, and a water feeding pump, a water suction pump, a first electric control valve, a second electric control valve, a third electric control valve, a fourth electric control valve, a fifth electric control valve and a seventh electric control valve of the waterwheel pipeline system are all connected with the control unit;

the water tank of the waterwheel pipeline system is arranged in the waterwheel body; the control button groups are all arranged on the vehicle body.

Furthermore, a liquid level pipe for observing the water level of water in the water tank is arranged outside the water tank;

the liquid level pipe adopts a transparent pipe; one end of the liquid level pipe is communicated with the upper end of the water tank, and the other end of the liquid level pipe is communicated with the lower end of the water tank;

the liquid level pipe is vertically arranged in the vehicle body, and a water level observation window used for observing the water level in the liquid level pipe is arranged on the side wall of the vehicle body.

Furthermore, the control button group also comprises a time control button for controlling the water replenishing time of the equipment which needs water replenishing for the peripheral equipment;

the time control button is connected with the control unit.

Furthermore, the control button group also comprises a water quantity control button for controlling the water replenishing quantity of the equipment needing water replenishing for the peripheral equipment;

the water quantity control button is connected with the control unit;

a water flow meter is arranged on the first water replenishing and draining pipeline.

Furthermore, the water replenishing and draining waterwheel also comprises an indicator light group;

when a water quality sensor is arranged in the water tank, the indicating lamp group comprises a water tank water purification indicating lamp for indicating water purification in the water tank, an external water purification indicating lamp for indicating the water purification extracted by an external device needing water drainage, a water quality normal indicating lamp for indicating the normal water quality in the water tank and a water quality standard exceeding indicating lamp for indicating the standard exceeding of the water quality in the water tank;

when a water level sensor is arranged in the water tank, the indicating lamp group comprises a water tank full indicating lamp for indicating that the water tank is full of water;

and all the indicator lights contained in the indicator light group are connected with the control unit.

Furthermore, a remote communication interface is arranged on the vehicle body, and the control unit is connected with the remote communication interface.

Furthermore, the vehicle body is provided with an external water replenishing and draining control interface for receiving a water replenishing request signal or a water draining request signal sent by external equipment, and the external water replenishing and draining control interface is connected with the control unit.

The beneficial effects of the utility model reside in that:

(1) the utility model provides a waterwheel piping system, including the suction pump, add water pump and water purification subassembly, not only help realizing moisturizing and the drainage of the equipment that external equipment needs moisturizing and drainage, help realizing the self-purification of water tank water-logging in addition, help realizing the purification to the water of taking out from the equipment that external equipment needs drainage, it is visible to have ensured the quality of water tank water-logging to a certain extent, avoided the change to water tank water-logging, realized the cyclic utilization to the water resource, practiced thrift the water resource.

(2) The utility model provides a waterwheel pipeline system, the ann has quality of water sensor in its water tank, but the quality of water in the real-time detection water tank.

(3) The utility model provides a waterwheel pipeline system, a first liquid level sensor, a second liquid level sensor and a suspension part are detachably arranged on a second water replenishing and draining pipeline and the installation position of the second water replenishing and draining pipeline is adjustable; the second level sensor, during the use, ensure that the second level sensor is located the free end of second moisturizing drainage pipe way, the portion of hanging is located the one end that second moisturizing drainage pipe way is used for connecting first moisturizing drainage pipe way, first level sensor is located under the prerequisite between portion of hanging and the second level sensor, the user can be according to actual conditions, the portion of hanging is adjusted to correspondence, first level sensor, the relative position of second level sensor on second moisturizing drainage pipe way, so that detect the moisturizing water level through first level sensor, and detect the drainage residual water level through second level sensor, thereby avoid the moisturizing that involves among the background art to spill over and draw water the emergence of excessive problem.

Furthermore, the utility model relates to a principle is reliable, and simple structure has very extensive application prospect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the waterwheel pipeline system of the present invention.

Fig. 2 is a schematic block diagram of another embodiment of the waterwheel tubing system of the present invention.

Fig. 3 is a schematic block diagram of another embodiment of the waterwheel tubing system of the present invention.

Fig. 4 is a schematic structural view of an embodiment of the water replenishing and draining truck of the present invention.

Fig. 5 is a left side partial schematic view of fig. 4 with the handle removed.

Fig. 6 is a perspective view of the handle-removed rear view of fig. 4.

Fig. 7 is an installation schematic diagram of the liquid level pipe of the present invention.

Fig. 8 is a schematic functional block diagram of the water replenishing and draining truck shown in fig. 4.

Fig. 9 is a schematic structural view of another embodiment of the water replenishing and draining truck of the present invention.

Fig. 10 is a top view of fig. 9 with the handle removed.

Fig. 11 is a left side partial schematic view of fig. 9 with the handle removed.

Fig. 12 is a perspective view of the handle-removed rear view of fig. 9.

Fig. 13 is a schematic functional block diagram of the water replenishing and draining truck shown in fig. 9.

Fig. 14 is a schematic circuit diagram of a core processor of the control unit.

FIG. 15 is a schematic diagram of the peripheral circuitry 1 of the core processor of FIG. 14.

FIG. 16 is a schematic diagram 2 of the peripheral circuitry of the core processor shown in FIG. 14.

Fig. 17 is a schematic diagram of a peripheral relay circuit for the circuit shown in fig. 16.

FIG. 18 is a schematic circuit diagram 3 of the peripheral circuitry of the core processor shown in FIG. 14.

FIG. 19 is a schematic diagram 4 of the peripheral circuitry of the core processor shown in FIG. 14.

Detailed Description

In order to make the technical solutions in the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Example 1:

fig. 1 is a schematic structural diagram of a waterwheel pipeline system according to an embodiment of the present invention. As shown in fig. 1, the waterwheel pipeline system includes a water tank 2, a first water replenishing and draining pipeline 104, a second branch pipeline 102, a third branch pipeline 103, a fourth branch pipeline 105, a fifth branch pipeline 106, a sixth branch pipeline 107, a second water replenishing and draining pipeline 2-4, and a water pumping channel for communicating with the lower end of the inner cavity of the water tank 2. The water pumping passage includes a first branch pipe 101, and a water feeding pump 1-5 and a first electrically controlled valve 1-82 installed on the first branch pipe 101. The first end of the first branch pipeline 101, the first end of the second branch pipeline 102, the first end of the third branch pipeline 103 and the first end of the first water replenishing and draining pipeline 104 are communicated through the first water segregator 1-81. The water adding pumps 1-5 adopt submersible pumps and are arranged on the bottom wall inside the water tank 2, the water inlets of the submersible pumps are communicated with the inner cavity of the water tank 2, and the water outlets of the submersible pumps are communicated with the second end of the first branch pipeline 101. The water adding pump 1-5 is used for extracting water in the water tank 2. The second end of the second branch pipe 102, the second end of the third branch pipe 103, the first end of the fourth branch pipe 105, and the first end of the fifth branch pipe 106 are communicated through the second water separators 1 to 88. The second end of the fourth branch pipe 105, the second end of the fifth branch pipe 106 and the first end of the sixth branch pipe 107 are communicated through the third water separator 2-6. A second end of the sixth branch pipe 107 communicates with the upper end of the water tank 2. The end of the second end of the sixth branch pipe 107 passes through the side wall of the water tank 2 and enters the water tank 2, and is provided with a mechanical ball float valve 2-2. The second end of the first water replenishing and draining pipeline 104 is communicated with one end of the second water replenishing and draining pipeline 2-4, and the seventh electric control valves 1-86 are arranged on the first water replenishing and draining pipeline 104. The second branch pipeline 102 is provided with water suction pumps 1-6 and second electric control valves 1-83. Third branch pipelines 103 are provided with third electric control valves 1-87. Fourth electrically controlled valves 1-84 and water purification modules 2-3 are arranged on the fourth branch pipe 105. The fifth branch line 106 is provided with fifth electrically controlled valves 1-85.

In the embodiment, the first water divider 1-81 and the second water divider 1-88 adopt a four-way water divider, and the third water divider 2-6 adopts a three-way water divider.

On the first hand, the waterwheel pipeline system can be used for replenishing water for equipment which needs water replenishing for the peripheral equipment, and when in specific use, the free end of the second water replenishing and draining pipeline 2-4 of the waterwheel pipeline system can be firstly put into a water tank of an external device needing water replenishing, hereinafter referred to as 'device M', then the water adding pump 1-5 is started, the first electric control valve 1-82 and the seventh electric control valve 1-86 are opened, and the second electric control valves 1-83 and the third electric control valves 1-87 are closed, water in the water tank 2 can be pumped by the water adding pump 1-5 and flows into the second water replenishing and draining pipelines 2-4 through the first branch pipeline 101, the first water dividers 1-81 and the first water replenishing and draining pipeline 104 in sequence, and then is replenished into the water tank of the equipment M through the free ends of the second water replenishing and draining pipelines 2-4, so that the aim of replenishing water for the equipment M is fulfilled.

In a second aspect, the waterwheel pipeline system can also be used for draining the peripheral equipment needing drainage, when in specific use, the free end of the second water replenishing and draining pipeline 2-4 of the waterwheel pipeline system is firstly put into the water in the water tank of the peripheral equipment needing drainage (hereinafter referred to as "equipment N"), and then the following drainage modes can be adopted:

the first drainage mode: the water suction pump 1-6 is started, the second electric control valve 1-83, the seventh electric control valve 1-86 and the fifth electric control valve 1-85 are opened, the first electric control valve 1-82, the fourth electric control valve 1-84 and the third electric control valve 1-87 are closed, water in the water tank of the equipment N can be pumped out through the free end of the second water replenishing and draining pipeline 2-4, the water in the water tank of the equipment N is pumped into the second water replenishing and draining pipeline 2-4 by the water suction pump 1-6, and then flows into the water tank 2 after passing through the seventh electric control valve 1-86, the first water separator 1-81, the second electric control valve 1-83, the water suction pump 1-6, the second water separator 1-88, the fifth electric control valve 1-85, the third water separator 2-6 and the mechanical ball float valve 2-2, thereby achieving the purpose of draining the equipment N;

the second drainage mode: the water in the water tank of the equipment N can be pumped out through the free end of the second water replenishing and draining pipeline 2-4 by starting the water suction pump 1-6, opening the second electric control valve 1-83, the seventh electric control valve 1-86 and the fourth electric control valve 1-84 and closing the first electric control valve 1-82, the fifth electric control valve 1-85 and the third electric control valve 1-87, and the water in the water tank of the equipment N is pumped into the second water replenishing and draining pipeline 2-4 by the water suction pump 1-6 and then flows into the water tank 2 through the seventh electric control valve 1-86, the first water separator 1-81, the second electric control valve 1-83, the water suction pump 1-6, the second water separator 1-88, the fourth electric control valve 1-84, the water purifying component 2-3, the third water separator 2-6 and the mechanical ball float valve 2-2, thereby achieving the purposes of draining the equipment N and purifying the drained water in the process of draining the equipment N.

In the third aspect, the water tank 2 of the water truck pipeline system is convenient for water supplement, specifically, the tap water connected to the free end of the second water supplement and drainage pipeline 2-4 is firstly added, and then: and the seventh electric control valve 1-86, the third electric control valve 1-87 and the fourth electric control valve 1-84 are opened, the first electric control valve 1-82, the second electric control valve 1-83 and the fifth electric control valve 1-85 are closed, and tap water connected through the free end of the second water replenishing and draining pipeline 2-4 flows through the second water replenishing and draining pipeline 2-4, the seventh electric control valve 1-86, the first water separator 1-81, the third electric control valve 1-87, the second water separator 1-88, the fourth electric control valve 1-84, the water purifying assembly 2-3, the third water separator 2-6 and the mechanical ball float valve 2-2 under the action of the water pressure of the tap water and then flows into the water tank 2, so that the aim of replenishing water to the water tank 2 is fulfilled. The water to be supplied to the water tank 2 is purified water.

It should be noted that when the water level in the water tank 2 rises to close the mechanical float valve 2-2, the water in the sixth branch pipe 107 stops being supplied into the water tank 2.

In a fourth aspect, the waterwheel tubing system can be used to purify water in a tank 2, specifically, in use: the water adding pump 1-5 is started, the second electric control valve 1-83, the seventh electric control valve 1-86 and the fifth electric control valve 1-85 are closed, the first electric control valve 1-82, the third electric control valve 1-87 and the fourth electric control valve 1-84 are opened, and water in the water tank 2 can flow through the water adding pump 1-5, the first electric control valve 1-82, the first water separator 1-81, the third electric control valve 1-87, the second water separator 1-88, the fourth electric control valve 1-84, the water purifying assembly 2-3, the third water separator 2-6 and the mechanical ball float valve 2-2 and then flows back to the water tank 2 under the action of the water adding pump 1-5. It can be seen that the water in the water tank 2 can circulate in the path formed by the water tank 2, the first branch pipe 101, the third branch pipe 103, the fourth branch pipe 105 and the sixth branch pipe 107, and self-purification is completed in the flowing process.

To sum up, the waterwheel pipeline system is not only beneficial to realizing water replenishing and drainage of equipment needing water replenishing and drainage by peripherals, but also beneficial to realizing self-purification of water in the water tank 2 and purification of water extracted from the equipment needing drainage by the peripherals, thus ensuring the water quality of the water in the water tank 2 to a certain extent, avoiding the replacement of the water in the water tank 2 to a certain extent, realizing the cyclic utilization of water resources and saving the water resources to a certain extent.

It should be noted that, in the present embodiment, each of the electric control valves is a solenoid valve, and specifically, the seventh electric control valve 1-86, the third electric control valve 1-87 and the fourth electric control valve 1-84 are normally open type solenoid valves, and the first electric control valve 1-82, the second electric control valve 1-83 and the fifth electric control valve 1-85 are normally closed type solenoid valves, so that the initial state of the seventh electric control valve 1-86, the third electric control valve 1-87 and the fourth electric control valve 1-84 is an open or open state, and the initial state of the first electric control valve 1-82, the second electric control valve 1-83 and the fifth electric control valve 1-85 is a closed state, which increases the convenience of the use of the waterwheel pipeline system, for example, the implementation of water replenishing for the water tank 2 of the waterwheel pipeline system is facilitated, for example, the water tank 2 of the water truck pipeline system can be replenished with water only by cutting off the power supply of the whole water truck pipeline system and then connecting the free end of the second water replenishing and draining pipeline 2-4 into tap water.

In addition, it should be noted that the water adding pumps 1 to 5 described in this specification may be replaced by non-submersible pumps, and at this time, the water adding pump needs to be installed outside the water tank 2.

It should be noted that, in this embodiment, the first water replenishing and draining pipeline 104 and the second water replenishing and draining pipeline 2 to 4 are detachably connected by corresponding pipeline joints 2 to 5 in the prior art, so as to facilitate replacement of the second water replenishing and draining pipeline 2 to 4. In addition, the first water replenishing and draining pipeline 104 and the second water replenishing and draining pipeline 2-4 can be realized by adopting an integrated structure, and the technical personnel in the field can select and use the water replenishing and draining pipeline according to actual needs.

It should be noted that the water purification module described in this embodiment employs a schungen SG-TS-1000 water purification module. In particular, the skilled person can replace the water purification component in the embodiment with any other similar water purification component in the prior art according to actual needs.

Example 2:

fig. 2 is a schematic structural diagram of a waterwheel pipeline system according to another embodiment of the present invention.

The present embodiment 2 differs from embodiment 1 in that: in the waterwheel pipeline system described in this embodiment, a water quality sensor 1-7 and a water level sensor 1-4 are installed in a water tank 2, and a water flow meter 1-9 is installed on a first water replenishing and draining pipeline 104.

In the embodiment, the water quality sensors 1-7 adopt NS-CD 100 water quality sensors which are arranged on the inner bottom wall of the water tank 2, the NS-CD 100 water quality sensors can detect the water quality conductivity of water in the water tank 2, in addition, when the water quality sensors 1-7 can be realized by adopting any sensor of an SZ-PH sensor, a submerged turbidity sensor and an NS-C L128-05 sensor in the prior art according to actual requirements, wherein the SZ-PH sensor can detect the pH value of water quality, the submerged turbidity sensor can detect the water quality turbidity, and the NS-C L128-05 sensor can detect the residual chlorine in the water quality.

In the present embodiment, the water level sensors 1-4 are GDY-F type non-contact photoelectric liquid level sensors, which are mounted on the top wall of the water tank 2 for measuring the water level in the water tank 2. The GDY-F type non-contact photoelectric liquid level sensor can prevent the contact sensor from being soaked in water for a long time to cause the problems of abnormal sensor measurement and the like. In this embodiment, the water flow meters 1-9 are SEN-HZ21WI water flow meters for measuring the flow of water in the first refill water drain line 104. In use, the water quality in the water tank 2 can be detected in real time by the water quality sensors 1-7, the water level in the water tank 2 can be measured in real time by the water level sensors 1-4, and the water flow in the first water replenishing and draining pipeline 104 can be measured in real time by the water flow meters 1-9.

In addition, other technical effects that can be achieved by the waterwheel pipeline system of embodiment 2 can be referred to the description in embodiment 1, and are not described herein again.

Example 3:

fig. 3 is a schematic structural diagram of a waterwheel pipeline system according to another embodiment of the present invention. This example is different from example 2 in that: in the waterwheel pipeline system in the embodiment, a first liquid level sensor 2-7, a second liquid level sensor 2-8 and a hanging part 2-10 are detachably mounted on a second water replenishing and draining pipeline 2-4 and adjustably mounted in position; the second liquid level sensor 2-8 is positioned at the free end of the second water replenishing and draining pipeline 2-4; the hanging part 2-10 is positioned at one end of the second water replenishing and draining pipeline 2-4, which is used for connecting the first water replenishing and draining pipeline 104; the first liquid level sensor 2-7 is positioned between the hanging part 2-10 and the second liquid level sensor 2-8.

In the embodiment, the hanging part 2-10 adopts a clamping hook, and the clamping hook is detachably arranged on the second water replenishing and draining pipeline 2-4 through a clamping hoop 2-9. In this embodiment, the hook is a V-shaped hook. When the water tank is used, one side of the free end of the second water replenishing and draining pipeline 2-4 is placed into the water tank of the equipment which needs water replenishing or draining and is arranged outside, one side of the free end of the second water replenishing and draining pipeline 2-4 is hung on a water replenishing port of the water tank of the equipment which needs water replenishing or draining at present through the hanging part 2-10, and therefore the part, placed into the water tank of the equipment which needs water replenishing or draining and is arranged outside, of the second water replenishing and draining pipeline 2-4 is located.

Wherein, hang portion 2-10, first level sensor 2-7, second level sensor 2-8, all through clamp demountable installation, during the use, guarantee that second level sensor 2-8 is located the free end of second moisturizing drain line 2-4, hang portion 2-10 is located second moisturizing drain line 2-4 and is used for connecting the one end of first moisturizing drain line 104, under the prerequisite that first level sensor 2-7 is located between hang portion 2-10 and the second level sensor 2-8, the user can be dismantled through corresponding the clamp according to actual conditions, correspond the relative position of adjusting between hang portion 2-10, first level sensor 2-7, the second level sensor 2-8, for example: when water is supplemented to the peripheral equipment needing water supplement, the corresponding positions of the hanging parts 2-10 and the first liquid level sensors 2-7 on the second water supplementing and draining pipelines 2-4 can be correspondingly adjusted according to the depth of the water tank of the peripheral equipment needing water supplement, so that when the free end of the second water supplementing and draining pipeline 2-4 is hung in the water tank of the peripheral equipment needing water supplement through the hanging parts 2-10, the first liquid level sensors 2-7 are positioned at the top end of the water tank of the peripheral equipment needing water supplement, such as the top end of the water tank of the current peripheral equipment needing water supplement, and are about 3cm away from the top wall of the water tank of the current peripheral equipment needing water supplement, therefore, the water supplementing water level can be conveniently detected in real time through the first liquid level sensors 2-7, and the water supplementing water level can be favorably increased to the first liquid level sensors 2-7, and the water replenishing is stopped in time, so that the water replenishing overflow phenomenon related in the background technology is avoided. For another example: when the equipment needing to be drained is drained, the positions of the hanging part 2-10 and the second liquid level sensor 2-8 on the second water replenishing and draining pipeline 2-4 can be correspondingly adjusted according to the depth of a water tank of the equipment needing to be drained, so that when the free end of the second water replenishing and draining pipeline 2-4 is hung in the water tank of the equipment needing to be drained through the hanging part 2-10, the second liquid level sensor 2-8 is adjacent to the bottom wall of the water tank of the equipment needing to be drained and is away from the bottom wall of the water tank of the equipment needing to be drained by a certain distance such as 5cm, the water level of residual water in the equipment needing to be drained is monitored in real time through the second liquid level sensor 2-8 during draining, and therefore the draining can be stopped in time when the water level drops to the second liquid level sensor 2-8, and then the problem of drying caused by excessive water pumping in the background art is avoided to a certain extent.

Example 4:

fig. 4-8 are schematic structural views of a water replenishing and draining truck according to an embodiment of the present invention.

In this embodiment, the water replenishing and draining waterwheel comprises a waterwheel body 4, and further comprises a control button group 1-1, a control unit and the waterwheel pipeline system described in embodiment 1. The control button group 1-1 comprises a water adding control button 1-1-1 for controlling water adding of the peripheral equipment needing water adding, a water pumping control button for controlling water discharging of the peripheral equipment needing water discharging, a purifying water pumping control button for controlling water discharging and purifying of the peripheral equipment needing water discharging, and a self-purifying control button for controlling water in the automatic purifying water tank 2 of the water truck. The control button group 1-1, the water adding pump 1-5, the water suction pump 1-6, the first electric control valve 1-82, the second electric control valve 1-83, the third electric control valve 1-87, the fourth electric control valve 1-84, the fifth electric control valve 1-85 and the seventh electric control valve 1-86 of the waterwheel pipeline system are all connected with the control unit. The water tank 2 of the waterwheel pipeline system is arranged in the waterwheel body 4; the control button groups 1-1 are all arranged on the vehicle body 4. Wherein, the vehicle body 4 is provided with a handle 4-2, and the bottom of the vehicle body 4 is provided with a walking wheel 4-1. The hand-held handle 4-2 pushes the vehicle body 4, and the vehicle body 4 walks through the walking wheels 4-1.

Taking the equipment which needs water replenishing currently as the equipment M described in the embodiment 1 and the equipment which needs water draining currently as the equipment N described in the embodiment 1 as examples, the water replenishing and draining waterwheel in the embodiment is further explained:

(1) when the water replenishing and draining truck is used for replenishing water for the equipment M, the free end of the second water replenishing and draining pipeline 2-4 is placed into a water tank of the equipment M, then the water adding control button 1-1-1 is pressed, the water adding control button 1-1-1 sends a water adding control command to the control unit, the control unit receives the water adding control command sent by the water adding control button 1-1-1, the water adding pump 1-5 is controlled to be started, the first electric control valve 1-82 and the seventh electric control valve 1-86 are opened, the second electric control valve 1-83 and the third electric control valve 1-87 are closed, water in the water tank 2 can be pumped by the water adding pump 1-5 and flows into the second water replenishing and draining pipeline 2-4 after flowing through the first branch pipeline 101, the first water divider 1-81 and the first water replenishing and draining pipeline 104, and then the water tank of the equipment M is supplemented through the free ends of the second water supplementing and draining pipelines 2-4, so that water is supplemented for the equipment M.

(2) When the water replenishing and draining waterwheel is used for draining water for the equipment N, the free ends of the second water replenishing and draining pipelines 2-4 are firstly put into the corresponding water tanks of the equipment N:

there is a first drainage mode: the water pumping control button is pressed down and sends a water pumping control instruction to the control unit, the control unit receives the water pumping control instruction sent by the water pumping control button and controls the water pumping pump 1-6 to be started, the second electric control valve 1-83, the seventh electric control valve 1-86 and the fifth electric control valve 1-85 to be opened, the first electric control valve 1-82, the fourth electric control valve 1-84 and the third electric control valve 1-87 to be closed, water in the water tank of the equipment N can be pumped out through the free end of the second water replenishing and draining pipeline 2-4, water pumped out by the water pumping pump 1-6 enters the second water replenishing and draining pipeline 2-4 and then flows through the seventh electric control valve 1-86, the first water divider 1-81, the second electric control valve 1-83 and the water pumping pump 1-6, The second water divider 1-88, the fifth electric control valve 1-85, the third water divider 2-6 and the mechanical ball float valve 2-2 flow into the water tank 2, thereby draining the equipment N;

in addition, a second drainage mode is adopted: the purified water pumping control button is pressed down and sends a purified water pumping control command to the control unit, the control unit receives the purified water pumping control command sent by the purified water pumping control button to purify the water pumping command, opens the water pumping pumps 1-6, the second electric control valves 1-83, the seventh electric control valves 1-86 and the fourth electric control valves 1-84, and closes the first electric control valves 1-82, the fifth electric control valves 1-85 and the third electric control valves 1-87, at the time, water required to be drained in the equipment N is pumped to the second water replenishing and draining pipeline 2-4 and then flows through the seventh electric control valves 1-86, the first water separators 1-81, the second electric control valves 1-83, the water pumping pumps 1-6, the second water separators 1-88, the fourth electric control valves 1-84, The water purification component 2-3, the third water distributor 2-6 and the mechanical ball float valve 2-2 flow into the water tank 2, so that the purposes of draining the equipment N and purifying and draining water in the process of draining the equipment N are achieved.

(3) When water needs to be replenished to the water tank 2 of the water replenishing and draining truck, only the seventh electric control valve 1-86, the third electric control valve 1-87 and the fourth electric control valve 1-84 are kept in an open state, the first electric control valve 1-82, the second electric control valve 1-83 and the fifth electric control valve 1-85 are kept in a closed state, then tap water connected to the free end of the second water replenishing and draining pipeline 2-4 is connected, and the tap water connected to the free end of the second water replenishing and draining pipeline 2-4 can pass through the second water replenishing and draining pipeline 2-4, the seventh electric control valve 1-86, the first water separator 1-81, the third electric control valve 1-87, the second water separator 1-88 and the fourth electric control valve 1-84 under the action of the water pressure of the tap water, The water purification component 2-3, the third water distributor 2-6 and the mechanical ball float valve 2-2 flow into the water tank 2, thereby achieving the purpose of supplementing water to the water tank 2.

When the water level in the water tank 2 rises to close the mechanical ball float valve 2-2, the water in the sixth branch pipe 107 stops being supplied into the water tank 2. The water to be supplied to the water tank 2 is purified water.

(4) When the water in the tank 2 needs to be purified: the automatic purification control button is pressed down and sends an automatic purification control command to the control unit, the control unit receives the automatic purification control command sent by the automatic purification control button, the water feeding pump 1-5 is controlled to be started, the second electric control valve 1-83, the seventh electric control valve 1-86 and the fifth electric control valve 1-85 are closed, the first electric control valve 1-82, the third electric control valve 1-87 and the fourth electric control valve 1-84 are opened, and water in the water tank 2 can pass through the water feeding pump 1-5, the first electric control valve 1-82, the first water separator 1-81, the third electric control valve 1-87, the second water separator 1-88, the fourth electric control valve 1-84 and the water purification assembly 2-3 under the action of the water feeding pump 1-5, The third water diverter 2-6 and the mechanical ball-cock 2-2 are returned to the water tank 2 where purification takes place during passage through the water purification assembly 2-3, thereby completing self-purification of the water in the water tank 2.

It can be seen that moisturizing drainage waterwheel in this embodiment not only helps realizing the moisturizing and the drainage of the equipment that needs moisturizing and drainage to external setting, but also helps realizing the self-purification of the water in the water tank 2, helps realizing the purification of the water extracted from the equipment that needs drainage to external setting, thus it can be seen that the quality of the water in the water tank 2 is ensured to a certain extent, the replacement of the water in the water tank 2 is avoided, the cyclic utilization of water resources is realized, and the water resources are saved to a certain extent. In addition, the water is conveniently supplemented into the water tank 2.

Preferably, in the present embodiment, a level pipe 5 for observing the level of water in the water tank 2 is installed outside the water tank 2. The liquid level pipe 5 adopts a transparent pipe. The liquid level pipe 5 is vertically arranged in the vehicle body 4, the upper end of the liquid level pipe 5 is communicated with the upper end of the water tank 2, and the lower end of the liquid level pipe 5 is communicated with the lower end of the water tank 2. A water level observation window 2-1 for observing the water level in the liquid level pipe 5 is arranged on the side wall of the vehicle body 4, and the position of the water level observation window 2-1 is opposite to that of the liquid level pipe 5. When the water tank is used, a user can visually check the water level in the liquid level pipe 5 through the water level observation window 2-1 and then visually know the water level of water in the water tank 2, so that the water supplementing and draining vehicle can be used for supplementing water or draining water for external corresponding equipment smoothly.

Preferably, in order to improve the convenience of control, the control button group 1-1 further comprises an emergency stop control button 1-1-5. The emergency stop control button 1-1-5 is connected with the control unit and is used for controlling the emergency stop of the water feeding pump 1-5 and the water suction pump 1-6. When in use, the emergency stop control button 1-1-5 is pressed, and the power supply of the water feeding pump 1-5 and the water suction pump 1-6 is forcibly cut off.

It should be noted that the water adding pumps 1-5 and the water suction pumps 1-6 of the water supplementing and draining truck can be supplied with power by commercial power or by storage batteries, which is the prior art and can be flexibly selected by the technicians in the field.

Example 5:

fig. 7, 9-13 show another embodiment of the water replenishing and draining cart according to the present invention. On one hand, the difference between this embodiment and embodiment 4 is that embodiment 4 uses the waterwheel pipeline system described in embodiment 1 above, and embodiment 5 uses the waterwheel pipeline system described in embodiment 3 above, namely: a water quality sensor 1-7 and a water level sensor 1-4 are arranged in the water tank 2, a water flow meter 1-9 is arranged on the first water replenishing and discharging pipeline 104, and a first liquid level sensor 2-7, a second liquid level sensor 2-8 and a hanging part 2-10 are detachably arranged on the second water replenishing and discharging pipeline 2-4 and are arranged with adjustable installation positions.

On the other hand, compared with embodiment 4, the present embodiment is also different in that the water replenishing and draining truck described in the present embodiment further includes: the control button group 1-1 also comprises a time control button for controlling the water replenishing time of the equipment which needs water replenishing for the peripheral equipment; the water quality sensors 1-7, the water level sensors 1-4, the water flow meters 1-9, the first liquid level sensors 2-7, the second liquid level sensors 2-8 and the time control button are all connected with the control unit. When the water replenishing device is used, a person skilled in the art can set the time lengths respectively represented by different times of pressing the time control button within a specific time length through a preset rule, the control unit is internally provided with a corresponding rule, and the water replenishing operation (for equipment requiring water replenishing) or the water draining operation (for equipment requiring water draining) within the corresponding time length is correspondingly controlled by receiving the corresponding times of pressing times sent by the time control button within the specific time period. For example, the specific time period may be set to 10 seconds (or may be set to 20 seconds, 30 seconds, or any other time length) in advance in the control unit, each time of pressing represents a time that can continuously replenish or drain water for 5 minutes, and if 3 times of pressing are currently performed within 10 seconds, the control unit may set a time that the waterwheel replenishes or drains water for 15 minutes for the peripheral related equipment that currently needs replenishing or draining. The time control button is matched with the water adding control button 1-1-1, the water pumping control button 1-1-2 and the purifying water pumping control button 1-1-4 for use, when in specific use, firstly, the time length of corresponding water supplementing or water draining is set through the time control button, then, any one button required in the water adding control button 1-1-1, the water pumping control button 1-1-2 and the purifying water pumping control button 1-1-4 is pressed, the control unit counts and judges whether the time length of current water supplementing or water draining work reaches the time length set through the time control button or not in real time, and when the time length is judged to reach, the water adding pump 1-5 or the water pumping pump 1-6 is correspondingly controlled to stop working.

Preferably, the water replenishing and draining waterwheel in the embodiment further comprises an indicator light set 1-3, wherein the indicator light set 1-3 comprises a water tank water purification indicator light for indicating water purification in the water tank 2, an external water purification indicator light for indicating water purification of the external equipment needing water draining, a water quality normal indicator light for indicating normal water quality in the water tank 2, a water quality standard exceeding indicator light for indicating standard exceeding of water quality in the water tank 2, a water tank full indicator light for indicating full water in the water tank 2, and an external water full indicator light 1-3-6 for indicating full water replenishing of the water tank of the external equipment needing water draining. The indicating lamps in the indicating lamp groups 1-3 are all connected with the control unit. When the water quality monitoring device is used, the water quality sensors 1-7 detect the water quality in the water tank 2 in real time and upload detected signals to the control unit in real time, the control unit receives the detected signals transmitted by the water quality sensors 1-7 in real time and judges whether the water in the water tank 2 is clean, the water quality is normal and the water quality exceeds the standard or not and judges whether the water pumped by the peripheral equipment needing water drainage is clean or not, and the water quality monitoring device comprises: when the water in the water tank 2 is judged to be clean, controlling a water tank water-cleaning indicator lamp to be on; when the water quality in the water tank 2 is judged to be normal, the water quality normal indicator lamp is controlled to be on; when the water quality in the water tank 2 is judged to be over standard, the water quality over standard indicator lamp is controlled to be on; when the water pumped out by the equipment needing water drainage by the peripheral is judged to be dry, the peripheral water purification indicator lamp is controlled to be on.

In addition, the placement position relationship between the second water replenishing and draining pipeline 2-4 and the water tank of the external equipment requiring water replenishing or draining is described with reference to embodiment 3, in which: when this waterwheel is used for the equipment moisturizing that needs the moisturizing for the peripheral hardware, first level sensor 2-7 is used for detecting the water level of the water tank of the equipment that needs the moisturizing of peripheral hardware, during the specific use: the first liquid level sensor 2-7 detects the water level of water in a water tank of the equipment needing water supplement in real time and transmits a detection signal to the control unit, the control unit receives the water level signal transmitted by the first liquid level sensor 2-7 in real time and judges whether the water level in the corresponding water tank rises and reaches a preset high water level threshold value, if the water level signal reaches the preset high water level threshold value, the control unit judges that the water is full, correspondingly controls the external water full indicator lamp to be on, and controls the water adding pump 1-5 to stop working, so that the overflow phenomenon caused by excessive water supplement is avoided.

When the waterwheel is used for draining equipment needing draining for peripherals, the second liquid level sensors 2-8 are used for detecting the water level of a water tank of the equipment needing draining for the peripherals, and during use: the second liquid level sensor 2-8 detects the water level of the water tank of the peripheral equipment needing water drainage in real time and transmits a detection signal to the control unit, the control unit receives the water level signal transmitted by the second liquid level sensor 2-8 in real time and judges whether the water level in the corresponding water tank is reduced to a preset low water level threshold (smaller than the high water level threshold), and if the water level in the corresponding water tank is reduced to the low water level threshold, the water suction pump 1-6 is correspondingly controlled to stop working, so that the dry burning phenomenon is avoided.

It should be noted that, the peripheral water purification indicator lamp is applied to the drainage process of the equipment needing drainage and provided with a waterwheel as a peripheral, and specifically comprises the following steps: in the process of draining water for peripheral equipment needing to drain water by pressing the water pumping control button, if the control unit judges that the water in the water tank 2 is clean, the control unit controls the peripheral water purification indicator lamp to be on.

Preferably, in this embodiment, the control button set 1-1 further includes a water amount control button for controlling the amount of water to be supplied to the peripheral equipment requiring water supply; the water quantity control button is connected with the control unit. When the water quantity control device is used specifically, a person skilled in the art can set the water adding quantities respectively represented by different times of pressing the water quantity control button within a specific time length through a preset rule, the control unit is internally provided with a corresponding rule, and the corresponding times of pressing sent by the water quantity control button are received within the specific time period, so that water supplement of the corresponding water adding quantity (for equipment needing water supplement) is correspondingly controlled or drainage work of the corresponding drainage quantity (for equipment needing water drainage) is controlled. For example, the specific time period may be set to 10 seconds (or may be set to 20 seconds, 30 seconds, or any other time length) in advance in the control unit, each pressing represents that the water can be continuously replenished or drained by 5 liters, and if the pressing is currently performed 3 times within 10 seconds, the control unit may set the waterwheel to replenish or drain 15 liters for the peripheral related equipment which currently needs to replenish or drain water. The water quantity control button is matched with the water flow meter, the water adding control button 1-1-1, the water pumping control button 1-1-2 and the purifying water pumping control button 1-1-4 for use, when in specific use, firstly, setting corresponding water replenishing or draining water quantity through a water quantity control button, then pressing a button required by a water adding control button 1-1-1, a water pumping control button 1-1-2 and a purified water pumping control button 1-1-4, acquiring the water replenishing or draining quantity through a water flow meter in real time and sending the water quantity to a control unit, receiving and judging whether the water quantity detected by the water flow meter reaches the set water replenishing or draining water quantity by the control unit in real time, and correspondingly controlling the water adding pump 1-5 or the water suction pump 1-6 to stop working when the judgment is reached.

Preferably, in this embodiment, the vehicle body 4 is provided with a remote communication interface 1-2, and the control unit is connected with the remote communication interface 1-2. The remote communication interface 1-2 is used for connecting with a remote monitoring center, and when in use, is used for transmitting the water quality value measured by the water quality sensor 1-7, the water level in the water tank 2 measured by the water level sensor 1-4, the water level state of the external equipment measured by the external water level sensors, namely the first liquid level sensor 2-7 and the second liquid level sensor 2-8, the water flow value measured by the water flow meter 1-9 and the working state of the waterwheel in the embodiment to the remote control center and receiving the control of the remote monitoring center. The remote communication interface 1-2 can realize the centralized control of the waterwheel, is convenient for remotely checking the water volume of the waterwheel, is convenient for the unified management of the waterwheel, is convenient for realizing the regular water addition of the waterwheel, and improves the working efficiency of workers. Optionally, in this embodiment, the vehicle body 4 is provided with an external water replenishing and draining control interface 1-11 for receiving a water replenishing request signal or a water draining request signal sent by an external device; and the external water replenishing and draining control interfaces 1-11 are connected with the control unit. Before use, the peripheral water replenishing and draining control interfaces 1-11 are connected with a control unit of the peripheral equipment which currently needs water replenishing or draining, and the free end of the second water replenishing and draining pipeline 2-4 is placed in a corresponding water tank of the equipment which currently needs water replenishing or draining. When the water replenishing and draining control device is used, when the control unit receives a water replenishing request signal sent by external equipment through the external water replenishing and draining control interface 1-11 (the external equipment at the moment is equipment needing water replenishing currently), the control unit automatically controls the waterwheel to replenish water by adopting the same working mode as that of pressing the water replenishing control button 1-1-1; when the control unit receives a drainage request signal sent by external equipment through the external water replenishing and draining control interface 1-11 (the external equipment at the moment is the equipment needing drainage at present), the control unit automatically controls the waterwheel to drain water by adopting the same working mode as that of pressing the purification water pumping control button. Therefore, the automatic water replenishing and draining of the waterwheel in the embodiment is realized.

It should be noted that, other technical effects that can be achieved in this embodiment 5 can be referred to the above description, and are not described herein again.

It should be noted that, in the present invention, the implementation manner of the control unit is the prior art, the control unit in this embodiment adopts a control circuit board, specifically, the control circuit board is integrated with circuits shown in fig. 14 to fig. 19, where:

FIG. 15 is a schematic diagram of an input interface circuit of the core microprocessor STM32F103CBT6 shown IN FIG. 14, wherein the water adding control button 1-1-1, the water pumping control button 1-1-2, the self-purification control button 1-1-3, the purification water pumping control button 1-1-4, the time control button 1-1-6, the water control button 1-1-7, the first liquid level sensor 2-7 and the second liquid level sensor 2-8 are sequentially connected to the input terminals IN11, IN12, IN13, IN14, IN15, IN16, IN17 and IN18 of the input interface circuit; and the peripheral water replenishing and draining control interfaces 1-11 are IN signal connection with the input ends IN19 and IN20 of the input interface circuit, and are used for receiving water replenishing request signals and water draining request signals sent by external equipment one to one.

Referring to fig. 17, the water adding pump 1-5, the water pump 1-6, the water tank water purification indicator light, the external water purification indicator light, the water quality normal indicator light, the water quality standard exceeding indicator light, the water tank water full indicator light, the external water full indicator light, the first electric control valve 1-82, the second electric control valve 1-83, the third electric control valve 1-87, the fourth electric control valve 1-84, the fifth electric control valve 1-85 and the seventh electric control valve 1-86 described in the specification are sequentially connected to the output terminals OUT3-1, OUT3-2, …, OUT3-13 and OUT3-14 of the relay circuit; the output ends OUT3-15 and OUT3-16 of the relay circuit are reserved output ends for subsequent function expansion.

Referring to fig. 18, the circuit shown in fig. 18 is a schematic diagram of an RS485 communication circuit, and the input terminals a2 and B2 of the circuit are used for connecting the water level sensor 1-4, the water quality sensor 1-7 and the water flow meter 1-9. Referring to fig. 19, the circuit shown in fig. 19 has inputs a1 and B1 for connecting the telecommunications interfaces 1-2.

To sum up, the moisturizing drainage waterwheel that this embodiment provided had both improved the utilization ratio of water resource, had still avoided the moisturizing to spill over among the prior art and the emergence of the problem of burning dry that draws water and cause excessively.

It should be noted that the same and similar parts in the various embodiments in this specification may be referred to each other.

Although the present invention has been described in detail by referring to the drawings in conjunction with the preferred embodiments, the present invention is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present invention by those skilled in the art without departing from the spirit and substance of the present invention, and these modifications or substitutions are intended to be within the scope of the present invention/any person skilled in the art can easily conceive of changes or substitutions within the technical scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A waterwheel pipeline system, comprising:

the waterwheel pipeline system comprises a water tank (2), a first water replenishing and draining pipeline (104), a second branch pipeline (102), a third branch pipeline (103), a fourth branch pipeline (105), a fifth branch pipeline (106), a sixth branch pipeline (107), a second water replenishing and draining pipeline (2-4) used for being matched with the water tank of an external device needing water replenishing or draining, and a water pumping channel communicated with the lower end of an inner cavity of the water tank (2); the water pumping channel comprises a first branch pipeline (101), and a water adding pump (1-5) and a first electric control valve (1-82) which are arranged on the first branch pipeline (101);

the first end of the first branch pipeline (101), the first end of the second branch pipeline (102), the first end of the third branch pipeline (103) and the first end of the first water replenishing and draining pipeline (104) are communicated through a first water separator (1-81); the second end of the second branch pipeline (102), the second end of the third branch pipeline (103), the first end of the fourth branch pipeline (105) and the first end of the fifth branch pipeline (106) are communicated through a second water separator (1-88); the second end of the fourth branch pipeline (105), the second end of the fifth branch pipeline (106) and the first end of the sixth branch pipeline (107) are communicated through a third water separator (2-6);

the second end of the sixth branch pipeline (107) is communicated with the upper end of the water tank (2); the tail end of the second end of the sixth branch pipeline (107) penetrates through the side wall of the water tank (2) to enter the water tank (2) and is provided with a mechanical ball float valve (2-2);

the second end of the first water replenishing and draining pipeline (104) is communicated with one end of the second water replenishing and draining pipeline (2-4), and a seventh electric control valve (1-86) is arranged on the first water replenishing and draining pipeline (104);

a water suction pump (1-6) and a second electric control valve (1-83) are arranged on the second branch pipeline (102);

a third electric control valve (1-87) is arranged on the third branch pipeline (103);

a fourth electric control valve (1-84) and a water purification component (2-3) are arranged on the fourth branch pipeline (105);

a fifth electric control valve (1-85) is arranged on the fifth branch pipeline (106).

2. The waterwheel tubing system of claim 1, wherein:

a water quality sensor (1-7) and/or a water level sensor (1-4) are arranged in the water tank (2).

3. The waterwheel tubing system of claim 1, wherein:

the second water replenishing and draining pipeline (2-4) is detachably provided with a first liquid level sensor (2-7), a second liquid level sensor (2-8) and a hanging part (2-10) in an adjustable installation position;

the second liquid level sensor (2-8) is positioned at the free end of the second water replenishing and draining pipeline (2-4);

the hanging part (2-10) is positioned at one end of the second water replenishing and draining pipeline (2-4) which is used for connecting the first water replenishing and draining pipeline (104); the first liquid level sensor (2-7) is positioned between the hanging part (2-10) and the second liquid level sensor (2-8).

4. The utility model provides a moisturizing drainage car, includes automobile body (4), its characterized in that:

further comprising a set of control buttons (1-1), a control unit and a waterwheel pipeline system as claimed in claim 1 or 2 or 3; the control button group (1-1) comprises a water adding control button (1-1-1) for controlling water adding of the equipment needing water adding for the peripheral equipment, a water pumping control button for controlling water discharging of the equipment needing water discharging for the peripheral equipment, a purification water pumping control button for controlling water discharging and purification water discharging of the equipment needing water discharging for the peripheral equipment, and a self-purification control button for controlling water in the automatic purification water tank (2) of the waterwheel;

the control button group (1-1), a water feeding pump (1-5), a water suction pump (1-6), a first electric control valve (1-82), a second electric control valve (1-83), a third electric control valve (1-87), a fourth electric control valve (1-84), a fifth electric control valve (1-85) and a seventh electric control valve (1-86) of the waterwheel pipeline system are all connected with the control unit;

the water tank (2) of the waterwheel pipeline system is arranged in the vehicle body (4); the control button groups (1-1) are all arranged on the vehicle body (4).

5. The water replenishing and draining vehicle as claimed in claim 4, wherein:

a liquid level pipe (5) for observing the water level of the water in the water tank (2) is arranged outside the water tank (2);

the liquid level pipe (5) adopts a transparent pipe; one end of the liquid level pipe (5) is communicated with the upper end of the water tank (2), and the other end of the liquid level pipe is communicated with the lower end of the water tank (2);

the liquid level pipe (5) is vertically arranged in the vehicle body (4), and a water level observation window (2-1) used for observing the water level in the liquid level pipe (5) is arranged on the side wall of the vehicle body (4).

6. The water replenishing and draining vehicle as claimed in claim 4, wherein:

the control button group (1-1) also comprises a time control button for controlling the water replenishing time of the equipment which needs water replenishing for the peripheral equipment; the time control button is connected with the control unit.

7. The water replenishing and draining vehicle as claimed in claim 4, wherein:

the control button group (1-1) also comprises a water quantity control button for controlling the water replenishing quantity of the equipment needing water replenishing for the peripheral equipment; the water quantity control button is connected with the control unit;

a water flow meter (1-9) is arranged on the first water replenishing and draining pipeline (104).

8. The water replenishing and draining vehicle as claimed in claim 4, wherein:

the water replenishing and draining waterwheel also comprises an indicator light group (1-3);

when the water quality sensor (1-7) is arranged in the water tank (2), the indicator lamp group (1-3) comprises a water tank water purification indicator lamp for indicating water purification in the water tank (2), an external water purification indicator lamp for indicating water purification of the equipment which needs to be drained from the external, a normal water quality indicator lamp for indicating normal water quality in the water tank (2), and a standard water quality indicator lamp for indicating standard exceeding of the water quality in the water tank (2);

when a water level sensor (1-4) is arranged in the water tank (2), the indicating lamp group (1-3) comprises a water tank full indicating lamp for indicating that the water tank (2) is full of water;

and all the indicator lamps contained in the indicator lamp groups (1-3) are connected with the control unit.

9. The water replenishing and draining vehicle as claimed in claim 4, wherein:

the vehicle body (4) is provided with a remote communication interface (1-2), and the control unit is connected with the remote communication interface (1-2).

10. The water replenishing and draining vehicle as claimed in claim 4, wherein:

the vehicle body (4) is provided with an external water replenishing and draining control interface (1-11) for receiving a water replenishing request signal or a water draining request signal sent by external equipment, and the external water replenishing and draining control interface (1-11) is connected with the control unit.

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