CN220598614U - Monomer micro-water flushing, foam plugging and vacuum pumping three-function integrated control system - Google Patents

Abstract

The utility model relates to the technical field of toilets without septic tanks, in particular to a single micro-water flushing, foam plugging and vacuum suction three-function integrated control system which comprises a vacuum toilet, wherein a toilet position sensor is arranged on the vacuum toilet; the vacuum toilet is provided with a flushing water inlet, and a flushing electromagnetic valve is connected to the flushing water inlet; the vacuum toilet is provided with a sewage outlet which is connected with the input end of the vacuum tank, and the vacuum tank is also connected with the vacuum pump; a sewage control valve is arranged between a sewage outlet arranged on the vacuum toilet and the input end of the vacuum tank; the electric control ends of the pollution discharge control valve and the flushing electromagnetic valve and the toilet position sensor are respectively and electrically connected with the controller; also included is a foam generator. The utility model has the characteristics of simpler and more reasonable structural design, better avoidance of dirt residue and prolonged service life of the device.

Description

Monomer micro-water flushing, foam plugging and vacuum pumping three-function integrated control system

Technical Field

The utility model relates to the technical field of toilets without septic tanks, in particular to a single micro-water flushing, foam plugging and vacuum pumping integrated control system.

Background

Common vacuum-pumping devices are: hydro-ejector, steam-ejector pump, reciprocating pump, and centrifugal vacuum pump (water-ring vacuum pump, rotary-vane vacuum pump). The squatting pan structure matched with the vacuum suction device at present has a return bend and a no return bend. The working principle of the trap is that a transverse S-shaped bent pipe is utilized to form a water seal, so that the odor backflow of a sewer is prevented; the toilet is divided into four types of flushing type, siphon jet type and siphon vortex type according to a sewage discharging mode.

In the practical use of the toilet and squatting pan, the following disadvantages still exist: (1) A large amount of water is needed for flushing after the toilet is used, so that water resources are wasted; (2) When the user uses the toilet, the odor of the excrement is diffused, so that the toilet experience is affected; (3) After the toilet, the excrement remains on the toilet, and a large amount of water is needed for cleaning, so that resources are wasted, and the service life of the toilet is also influenced.

In the prior art, the sewage discharge mode of the toilet adopts vacuum, so that water resources can be effectively saved, and the excrement can be sucked away by using less water; meanwhile, the solid freshener is added in the toilet, and the toilet is full of fragrance after the solid freshener is emitted, so that part of problems can be solved to a certain extent; however, the current use of vacuum toilets has the following disadvantages: (1) When the vacuum toilet is adopted, after the feces contact with the toilet, part of the feces remains on the toilet, and a large amount of water is needed to be used for flushing manually in the later period, so that the water resource waste still exists; (2) When the toilet is used, odor still exists, and sometimes the toilet experience is affected due to untimely addition or replacement of the solid freshener; (3) When the vacuum toilet is used, the pipeline is generally vacuumized to form a vacuum area; however, in actual use, when the amount of feces is large, the feces cannot be completely sucked away, so that the feces remain, and secondary suction is required; (4) After the pipeline is vacuumized, part of dirt will remain in the vacuum area when the excrement passes through the vacuum area, and the dirt is easy to enter the vacuum device when the vacuum is subsequently pumped, so that the service life of the vacuum device and the vacuum pumping effect are affected; (5) Dirt is remained in the vacuum area for many times, so that the part of the pipeline is scaled, the pipeline is required to be cleaned manually and regularly in order not to influence the normal use in the later period, and the manual investment is increased.

Therefore, how to provide a simple and reasonable structural design, can better avoid the filth to remain, can prolong device life's monomer little water flushing, foam shutoff, three function integration control system of vacuum suction have become the technical problem that technical personnel in the field need to solve.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present utility model aims to provide a three-functional integrated control system for monomer micro-water flushing, foam plugging and vacuum pumping, which has a simpler and more reasonable structural design, can better avoid dirt residue, and can prolong the service life of the device.

The utility model provides a single micro-water flushing, foam plugging and vacuum suction integrated control system, which comprises a vacuum toilet, wherein a toilet position sensor is arranged on the vacuum toilet; the vacuum toilet is provided with a flushing water inlet, and a flushing electromagnetic valve is connected to the flushing water inlet; the vacuum toilet is provided with a sewage outlet which is connected with the input end of the vacuum tank, and the vacuum tank is also connected with the vacuum pump; a sewage control valve is arranged between a sewage outlet arranged on the vacuum toilet and the input end of the vacuum tank; the electric control ends of the pollution discharge control valve and the flushing electromagnetic valve and the toilet position sensor are respectively and electrically connected with the controller; the device is characterized by further comprising a foam generator, wherein a foam output port of the foam generator is connected with a flushing water inlet on the vacuum toilet; the foam generator is also provided with a compressed air input port and a foaming liquid input port; and the compressed air input port and the foaming liquid input port are respectively connected with a compressed air electromagnetic valve and a foaming liquid electromagnetic valve, and the electric control ends of the compressed air electromagnetic valve and the foaming liquid electromagnetic valve are respectively connected with the controller.

When the integrated control system with functions of monomer micro water flushing, foam plugging and vacuum suction works, firstly, when a toilet position sensor detects that a person enters a toilet, a flushing electromagnetic valve is started to flush the toilet for a short time so as to moisten the surface of the vacuum toilet, then a compressed air electromagnetic valve and a foaming liquid electromagnetic valve are started, foam is formed when foaming liquid and compressed air pass through a foam generator, the newly generated foam is sprayed into the toilet, and the surface of the toilet is covered with the foam, so that the functions of deodorizing and improving visual perception are achieved; then, when the toilet position sensor detects that a toilet person leaves the toilet, a vacuum pump and a flushing electromagnetic valve are started to flush the toilet, after flushing, a compressed air electromagnetic valve and a foaming liquid electromagnetic valve are started, formed foam is sprayed into the toilet, and the surface of the toilet is covered with the foam; when the vacuum degree in the vacuum tank reaches the set requirement, a sewage discharge control valve (a drain valve or an interface valve) is opened, and the excrement in the vacuum toilet is pumped out and pumped into the vacuum tank. After one period of running, the whole system is automatically stopped until the toilet sensor detects that a person is in the toilet again, and the whole flushing, foam spraying and vacuum sucking processes are automatically operated again. The opening time of each electromagnetic valve in the system device is adjustable so as to control the flushing ventilation time and achieve the aim of saving water; the water consumption for flushing can be controlled to be 0.3-0.8L/time. Through flushing, foam spraying and vacuum suction, dirt adhesion can be better avoided, odor overflow can be better avoided, and the service life of the device can be prolonged.

Preferably, the blowdown control valve is a drain valve or an interface valve.

Thus, the drain control valve adopts a drain valve or an interface valve, and has the advantage of more convenient use.

As optimization, the sewage outlet is connected with the input end of the vacuum tank through a sewage pipe, and the sewage control valve is arranged on the sewage pipe.

Like this, through setting up the blow off pipe, structural design is simpler, more convenient connection and the installation arrangement of blow off control valve.

As optimization, the output end of the vacuum tank is connected with the vacuumizing end of the vacuum pump through a vacuumizing tube; the output end of the vacuum pump is connected with a drain pipe, and the far end of the drain pipe is used for being connected with the excrement storage device.

Like this, be connected the evacuation end of vacuum tank output with the vacuum pump through setting up the evacuation pipe, be connected with the blow off pipe at the output of vacuum pump again, the blow off pipe distal end is used for linking to each other with the excrement storage device, more makes things convenient for the collection of filth to handle.

As optimization, a flushing water inlet pipe is connected and arranged on a flushing water inlet of the vacuum toilet, and the far end of the flushing water inlet pipe is used for being connected with an external tap water supply pipe network; the flushing electromagnetic valve is arranged on the flushing water inlet pipe.

Therefore, the installation and arrangement of the flushing electromagnetic valve are more convenient by arranging the flushing water inlet pipe.

As optimization, the foam outlet of the foam generator is connected with the flushing water inlet of the vacuum toilet through a foam filling pipe.

Therefore, by arranging the foam filling pipe, the connection between the foam output port of the foam generator and the vacuum toilet is more convenient.

As optimization, a compressed air input pipe is connected to the compressed air input port, and the compressed air electromagnetic valve is arranged on the compressed air input pipe; and the compressed air input pipe is connected with the compressed air generating device.

Like this, through setting up compressed air input tube, the installation of convenient compressed air solenoid valve more arranges, and structural design is more simple reasonable.

As optimization, the foaming liquid input pipe is connected and arranged on the foaming liquid input port, the foaming liquid electromagnetic valve is arranged on the foaming liquid input pipe, and the far end of the foaming liquid input pipe is used for being connected with the foaming liquid storage container.

Like this, through design foaming liquid input tube for foaming liquid input tube distal end is used for linking to each other with foaming liquid storage container, and structural design is simpler, more conveniently forms the foaming liquid, and compressed air combines with the foaming liquid, and the foaming liquid is still practiced thrift in the formation foam that can be better.

As optimization, the vacuum toilet is a squatting pan or a toilet.

Thus, the system can be used on both squatting pan and toilet.

In conclusion, the monomer micro-water flushing, foam plugging and vacuum pumping integrated control system has the characteristics of simpler and more reasonable structural design, better avoidance of dirt residue and prolonged service life of the device.

Drawings

Fig. 1 is a schematic structural view of a photo-tag according to an embodiment of the present utility model.

Detailed Description

The present utility model will be further described with reference to the drawings and examples, and it should be noted that in the description of the present utility model, the terms "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific manner, and thus should not be construed as limiting the present utility model. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, the single micro-water flushing, foam plugging and vacuum suction integrated control system comprises a vacuum toilet 1, wherein a toilet position sensor 2 is arranged on the vacuum toilet; the vacuum toilet is provided with a flushing water inlet, and a flushing electromagnetic valve 3 is connected with the flushing water inlet; the vacuum toilet is provided with a sewage outlet which is connected with the input end of a vacuum tank 4, and the vacuum tank is also connected with a vacuum pump 5; a sewage control valve 6 is arranged between a sewage outlet arranged on the vacuum toilet and the input end of the vacuum tank; the electric control ends of the pollution discharge control valve and the flushing electromagnetic valve and the toilet position sensor are respectively and electrically connected with the controller 7; the device also comprises a foam generator 8, wherein a foam output port of the foam generator is connected with a flushing water inlet on the vacuum toilet; the foam generator is also provided with a compressed air input port and a foaming liquid input port; and the compressed air inlet and the foaming liquid inlet are respectively connected with a compressed air electromagnetic valve 9 and a foaming liquid electromagnetic valve 10, and the electric control ends of the compressed air electromagnetic valve and the foaming liquid electromagnetic valve are respectively connected with a controller.

When the integrated control system with functions of monomer micro water flushing, foam plugging and vacuum suction works, firstly, when a toilet position sensor detects that a person enters a toilet, a flushing electromagnetic valve is started to flush the toilet for a short time so as to moisten the surface of the vacuum toilet, then a compressed air electromagnetic valve and a foaming liquid electromagnetic valve are started, foam is formed when foaming liquid and compressed air pass through a foam generator, the newly generated foam is sprayed into the toilet, and the surface of the toilet is covered with the foam, so that the functions of deodorizing and improving visual perception are achieved; then, when the toilet position sensor detects that a toilet person leaves the toilet, a vacuum pump and a flushing electromagnetic valve are started to flush the toilet, after flushing, a compressed air electromagnetic valve and a foaming liquid electromagnetic valve are started, formed foam is sprayed into the toilet, and the surface of the toilet is covered with the foam; when the vacuum degree in the vacuum tank reaches the set requirement, a sewage discharge control valve (a drain valve or an interface valve) is opened, and the excrement in the vacuum toilet is pumped out and pumped into the vacuum tank. After one period of running, the whole system is automatically stopped until the toilet sensor detects that a person is in the toilet again, and the whole flushing, foam spraying and vacuum sucking processes are automatically operated again. The opening time of each electromagnetic valve in the system device is adjustable so as to control the flushing ventilation time and achieve the aim of saving water; the water consumption for flushing can be controlled to be 0.3-0.8L/time. Through flushing, foam spraying and vacuum suction, dirt adhesion can be better avoided, odor overflow can be better avoided, and the service life of the device can be prolonged.

In this embodiment, the blowdown control valve is a drain valve or an interface valve.

Thus, the drain control valve adopts a drain valve or an interface valve, and has the advantage of more convenient use.

In the specific embodiment, the sewage outlet is connected with the input end of the vacuum tank through a sewage pipe 11, and the sewage control valve is arranged on the sewage pipe.

Like this, through setting up the blow off pipe, structural design is simpler, more convenient connection and the installation arrangement of blow off control valve.

In the specific embodiment, the output end of the vacuum tank is connected with the vacuumizing end of the vacuum pump through a vacuumizing tube 12; the output end of the vacuum pump is connected with a drain pipe 13, and the far end of the drain pipe is used for being connected with a excrement storage device 14.

Like this, be connected the evacuation end of vacuum tank output with the vacuum pump through setting up the evacuation pipe, be connected with the blow off pipe at the output of vacuum pump again, the blow off pipe distal end is used for linking to each other with the excrement storage device, more makes things convenient for the collection of filth to handle.

In the specific embodiment, a flushing water inlet pipe 15 is connected and arranged on a flushing water inlet of the vacuum toilet, and the far end of the flushing water inlet pipe is connected with an external tap water supply pipe network; the flushing electromagnetic valve is arranged on the flushing water inlet pipe.

Therefore, the installation and arrangement of the flushing electromagnetic valve are more convenient by arranging the flushing water inlet pipe.

In this embodiment, the foam outlet of the foam generator is connected to the flush inlet of the vacuum toilet via a foam fill tube 16.

Therefore, by arranging the foam filling pipe, the connection between the foam output port of the foam generator and the vacuum toilet is more convenient.

In the specific embodiment, a compressed air input pipe 17 is connected to the compressed air input port, and the compressed air solenoid valve is arranged on the compressed air input pipe; and the compressed air input pipe is connected with the compressed air generating device.

Like this, through setting up compressed air input tube, the installation of convenient compressed air solenoid valve more arranges, and structural design is more simple reasonable.

In this embodiment, a foaming liquid input pipe 18 is connected to the foaming liquid input port, the foaming liquid solenoid valve is provided to the foaming liquid input pipe, and the distal end of the foaming liquid input pipe is connected to a foaming liquid storage container 19.

Like this, through design foaming liquid input tube for foaming liquid input tube distal end is used for linking to each other with foaming liquid storage container, and structural design is simpler, more conveniently forms the foaming liquid, and compressed air combines with the foaming liquid, and the foaming liquid is still practiced thrift in the formation foam that can be better.

In this specific embodiment, the vacuum toilet is a squatting pan or a toilet.

Thus, the system can be used on both squatting pan and toilet.

In conclusion, the monomer micro-water flushing, foam plugging and vacuum pumping integrated control system has the characteristics of simpler and more reasonable structural design, better avoidance of dirt residue and prolonged service life of the device.

The foregoing describes in detail preferred embodiments of the present utility model. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the utility model by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (9)

1. The single micro-water flushing, foam plugging and vacuum suction integrated control system comprises a vacuum toilet, wherein a toilet position sensor is arranged on the vacuum toilet; the vacuum toilet is provided with a flushing water inlet, and a flushing electromagnetic valve is connected to the flushing water inlet; the vacuum toilet is provided with a sewage outlet which is connected with the input end of the vacuum tank, and the vacuum tank is also connected with the vacuum pump; a sewage control valve is arranged between a sewage outlet arranged on the vacuum toilet and the input end of the vacuum tank; the electric control ends of the pollution discharge control valve and the flushing electromagnetic valve and the toilet position sensor are respectively and electrically connected with the controller; the device is characterized by further comprising a foam generator, wherein a foam output port of the foam generator is connected with a flushing water inlet on the vacuum toilet; the foam generator is also provided with a compressed air input port and a foaming liquid input port; and the compressed air input port and the foaming liquid input port are respectively connected with a compressed air electromagnetic valve and a foaming liquid electromagnetic valve, and the electric control ends of the compressed air electromagnetic valve and the foaming liquid electromagnetic valve are respectively connected with the controller.

2. The integrated control system for monomer micro-water flushing, foam plugging and vacuum pumping according to claim 1, wherein the integrated control system is characterized in that: the blowdown control valve is a drain valve or an interface valve.

3. The integrated control system for monomer micro-water flushing, foam plugging and vacuum pumping according to claim 1, wherein the integrated control system is characterized in that: the sewage outlet is connected with the input end of the vacuum tank through a sewage pipe, and the sewage pipe is provided with the sewage control valve.

4. The integrated control system for monomer micro-water flushing, foam plugging and vacuum pumping according to claim 1, wherein the integrated control system is characterized in that: the output end of the vacuum tank is connected with the vacuumizing end of the vacuum pump through a vacuumizing tube; the output end of the vacuum pump is connected with a drain pipe, and the far end of the drain pipe is used for being connected with the excrement storage device.

5. The integrated control system for monomer micro-water flushing, foam plugging and vacuum pumping according to claim 1, wherein the integrated control system is characterized in that: a flushing water inlet pipe is connected and arranged on a flushing water inlet of the vacuum toilet, and the far end of the flushing water inlet pipe is connected with an external tap water supply pipe network; the flushing electromagnetic valve is arranged on the flushing water inlet pipe.

6. The integrated control system for monomer micro-water flushing, foam plugging and vacuum pumping according to claim 1, wherein the integrated control system is characterized in that: the foam output port of the foam generator is connected with the flushing water inlet of the vacuum toilet through a foam filling pipe.

7. The integrated control system for monomer micro-water flushing, foam plugging and vacuum pumping according to claim 1, wherein the integrated control system is characterized in that: a compressed air input pipe is connected to the compressed air input port, and the compressed air electromagnetic valve is arranged on the compressed air input pipe; and the compressed air input pipe is connected with the compressed air generating device.

8. The integrated control system for monomer micro-water flushing, foam plugging and vacuum pumping according to claim 1, wherein the integrated control system is characterized in that: the foaming liquid input port is connected with a foaming liquid input pipe, the foaming liquid electromagnetic valve is arranged on the foaming liquid input pipe, and the far end of the foaming liquid input pipe is connected with the foaming liquid storage container.

9. The integrated control system for monomer micro-water flushing, foam plugging and vacuum pumping according to claim 1, wherein the integrated control system is characterized in that: the vacuum toilet is a squatting pan or a toilet.