CN219847519U - Smell removing equipment - Google Patents

Abstract

The utility model discloses a deodorizing device which comprises a box body, a liquid storage device, a pressurizing device, a gas storage device and a spraying device, wherein the liquid storage device, the pressurizing device, the gas storage device and the spraying device are arranged in the box body; the top of the box body is provided with a medicament inlet and an exhaust outlet; a water inlet is formed in the first side of the box body; the second side of the box body is provided with a water spray outlet; the liquid storage device is respectively communicated with the medicament inlet and the water inlet; the liquid storage device is communicated with the spraying device through an infusion catheter and is used for inputting the liquid medicine to the spraying device; the air storage device is communicated with the pressurizing device and is used for conveying air pressure to the air storage device; the gas storage device is also communicated with the spraying device through an air inlet conduit and is used for conveying the drainage pressure to the spraying device; the spraying device is communicated with the exhaust outlet through an exhaust duct and is used for exhausting gas so as to ensure the safety of the deodorizing equipment; the spraying device is communicated with the water spraying outlet through the water spraying conduit and is used for spraying the liquid medicine, so that public places can be effectively cleaned strongly, and a good sterilizing and deodorizing effect is achieved.

Description

Smell removing equipment

Technical Field

The utility model relates to the technical field of odor removal, in particular to odor removal equipment.

Background

With the advancement of urbanization and improvement of civilians, people have increasingly high demands on environmental concerns and sanitary conditions around. Compared with the traditional mode, places with poor traditional public health conditions, such as garbage transfer centers, public toilets and the like in residential areas, particularly places with bad odor, are more and more concerned and complained. The traditional manual cleaning and smell removing mode can not meet the environmental requirements of public places.

Disclosure of Invention

The utility model mainly aims to provide a deodorizing device, which aims to solve the technical problem that the effect of cleaning public places by the traditional manual cleaning mode is poor.

In order to solve the technical problems, the utility model provides a deodorizing device which comprises a box body, and a liquid storage device, a pressurizing device, a gas storage device and a spraying device which are arranged in the box body;

the top of the box body is provided with a medicament inlet and an exhaust outlet; a water inlet is formed in the first side of the box body; the second side of the box body is provided with a water spray outlet;

the liquid storage device is respectively communicated with the medicament inlet and the water inlet and is used for mixing water liquid with the medicament to form liquid medicine;

the liquid storage device is communicated with the spraying device through an infusion catheter and is used for inputting the liquid medicine to the spraying device through the infusion catheter;

the air storage device is communicated with the pressurizing device, and the pressurizing device is used for conveying air pressure to the air storage device;

the gas storage device is also communicated with the spraying device through an air inlet conduit and is used for conveying drainage pressure to the spraying device;

the spraying device is communicated with the water spraying outlet through a water spraying conduit and is used for spraying the liquid medicine;

the spraying device is communicated with the exhaust outlet through an exhaust duct and is used for exhausting gas.

In one embodiment, the liquid storage device comprises a water inlet electromagnetic valve and a medicament switch electromagnetic valve;

the liquid storage device is communicated with the water inlet through a water inlet conduit, and the water inlet electromagnetic valve is arranged on the water inlet conduit;

the liquid storage device is used for opening the medicament switch electromagnetic valve to input the liquid medicine to the spraying device when the water quantity reached by the liquid medicine in the liquid storage device reaches the preset water quantity.

In one embodiment, the liquid storage device further comprises a water adding sensor and a water shortage sensor;

the water adding sensor is used for detecting whether the liquid medicine in the liquid storage device reaches a preset water amount, and controlling the opening of the medicament switch electromagnetic valve when the liquid medicine reaches the preset water amount;

the water shortage sensor is used for detecting whether the water quantity of the water liquid in the liquid storage device does not reach the water quantity lower limit threshold value, and controlling the opening of the water inlet electromagnetic valve when the water quantity of the water liquid does not reach the water quantity lower limit threshold value.

In one embodiment, the pressurizing device is communicated with the air storage device through an air pressure conduit, and a one-way electromagnetic valve is arranged on the air pressure conduit and used for controlling the opening and closing of the pressurizing device.

In one embodiment, the gas storage device is provided with a drainage solenoid valve for draining excess liquid in the gas storage device.

In an embodiment, an air inlet electromagnetic valve is arranged on the air inlet conduit, and the air inlet electromagnetic valve is used for controlling the water discharge pressure gas in the air inlet conduit to enter the spraying device.

In one embodiment, the spraying device comprises a pressure tank;

the pressure barrel is connected with the liquid storage device through the infusion catheter and is used for receiving the liquid medicine flowing out through the infusion catheter;

the pressure barrel is connected with the gas storage device through the air inlet conduit and is used for receiving the water discharge pressure gas discharged through the air inlet conduit.

In one embodiment, the spraying device further comprises an exhaust solenoid valve;

the exhaust electromagnetic valve is arranged on the exhaust duct and used for controlling the gas in the pressure barrel to be exhausted.

In one embodiment, the spraying device further comprises a water spraying electromagnetic valve and a water spraying mechanism; the water spraying mechanism is arranged outside the box body and connected with the water spraying outlet;

the water spraying electromagnetic valve is arranged on the water spraying guide pipe and used for controlling the water spraying mechanism to spray the liquid medicine.

In an embodiment, the deodorizing device further comprises a man-machine interaction device, and the man-machine interaction device is arranged at the top of the box body;

the man-machine interaction device is used for controlling the conduction of a water inlet electromagnetic valve and a medicament switch electromagnetic valve corresponding to the liquid storage device;

the man-machine interaction device is also used for controlling the conduction of the one-way electromagnetic valve corresponding to the pressurizing device;

the man-machine interaction device is also used for controlling the conduction of a drainage electromagnetic valve and an air inlet electromagnetic valve corresponding to the air storage device;

the man-machine interaction device is also used for controlling the conduction of the exhaust electromagnetic valve and the water spraying electromagnetic valve corresponding to the spraying device.

The utility model provides a deodorizing device which comprises a box body, a liquid storage device, a pressurizing device, a gas storage device and a spraying device, wherein the liquid storage device, the pressurizing device, the gas storage device and the spraying device are arranged in the box body; the top of the box body is provided with a medicament inlet and an exhaust outlet; a water inlet is formed in the first side of the box body; the second side of the box body is provided with a water spray outlet; the liquid storage device is respectively communicated with the medicament inlet and the water inlet; the liquid storage device is communicated with the spraying device through an infusion catheter and is used for inputting the liquid medicine to the spraying device; the air storage device is communicated with the pressurizing device and is used for conveying air pressure to the air storage device; the gas storage device is also communicated with the spraying device through an air inlet conduit and is used for conveying the drainage pressure to the spraying device; the spraying device is communicated with the exhaust outlet through an exhaust duct and is used for exhausting gas so as to ensure the safety of the deodorizing equipment; the spraying device is communicated with the water spraying outlet through the water spraying conduit and is used for spraying the liquid medicine, so that public places can be effectively cleaned strongly, and a good sterilizing and deodorizing effect is achieved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of an embodiment of the internal structure of the deodorizing device provided by the present utility model;

FIG. 2 is a schematic structural view of another embodiment of the internal construction of the deodorizing device provided by the present utility model;

reference numerals:

a case 10;

a liquid storage device 20;

a pressurizing device 30;

a gas storage device-40;

a spraying device-50;

a water inlet electromagnetic valve-21;

a medicament switching solenoid valve-22;

a water addition sensor-23;

a water shortage sensor-24;

a one-way solenoid valve-31;

a drain solenoid valve-41;

an air inlet electromagnetic valve-42;

a pressure barrel-51;

an exhaust solenoid valve-52;

a water spray solenoid valve-53;

and a water spraying mechanism-54.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the following description, for purposes of explanation and not limitation, specific details are set forth such as the particular system architecture, techniques, etc., in order to provide a thorough understanding of the embodiments of the present utility model. It will be apparent, however, to one skilled in the art that the present utility model may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present utility model with unnecessary detail.

It should be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It should also be understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Furthermore, the terms "first," "second," "third," and the like in the description of the present specification and in the appended claims, are used for distinguishing between descriptions and not necessarily for indicating or implying a relative importance.

Reference in the specification to "one embodiment" or "some embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the utility model. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," and the like in the specification are not necessarily all referring to the same embodiment, but mean "one or more but not all embodiments" unless expressly specified otherwise. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.

Fig. 1 is a schematic diagram of the internal structure of a first embodiment of the deodorizing device, including a case 10, a liquid storage device 20, a pressurizing device 30, a gas storage device 40 and a spraying device 50 disposed in the case 10;

the top of the box body 10 is provided with a medicament inlet and an exhaust outlet; a water inlet is formed in the first side of the box body 10; a water spray outlet is arranged on the second side of the box body 10;

the liquid storage device is respectively communicated with the medicament inlet and the water inlet and is used for mixing water liquid with the medicament to form liquid medicine;

the liquid storage device 20 is communicated with the spraying device 50 through an infusion conduit and is used for inputting the liquid medicine to the spraying device 50 through the infusion conduit;

the air storage device 40 is communicated with the pressurizing device 30, and the pressurizing device 30 is used for conveying air pressure to the air storage device 40;

the gas storage device 40 is also communicated with the spraying device 50 through a gas inlet conduit and is used for conveying drainage pressure to the spraying device 50;

the spraying device 50 is communicated with the water spraying outlet through a water spraying conduit and is used for spraying the liquid medicine;

the spraying device 50 is communicated with the exhaust outlet through an exhaust duct for exhausting gas.

In a specific application, a user can throw a medicament into the medicament inlet, the water inlet of the box body can be connected with a tap water pipe, tap water and the medicament flow into the liquid storage device 20, and then the liquid medicament for deodorizing is formed. The liquid medicine then enters the spraying device 50 through the infusion catheter.

The box body can be further provided with a power connection, the power connection is connected with a power socket to supply power for the pressurizing device 30, the pressurizing device 30 can be an air compressor, the pressurizing device 30 outputs air pressure to the air storage device 40, the air pressure flows to the spraying device 50 from the air inlet conduit, and then liquid medicine in the spraying device 50 is caused to flow through the air exhaust conduit to be sprayed out from the air exhaust outlet under the action of high-pressure air, so that public places can be effectively cleaned strongly, and a good sterilizing and deodorizing effect is achieved.

In addition, since the air pressure flowing into the spraying device 50 is relatively large, the excessive high-pressure air in the spraying device 50 can be discharged through the exhaust duct, so that the safety of the deodorizing device is ensured.

Further, referring to fig. 2, fig. 2 is a schematic structural view of a second embodiment of the internal structure of the deodorizing device provided by the present utility model;

referring to fig. 1 and 2, in the present embodiment, the liquid storage device 20 includes a water inlet solenoid valve 21 and a medicine switching solenoid valve 22; the liquid storage device 20 is communicated with the water inlet through a water inlet conduit, and the water inlet electromagnetic valve 21 is arranged on the water inlet conduit;

the medicine switch electromagnetic valve 22 is arranged on the infusion catheter, and the liquid storage device 20 is used for opening the medicine switch electromagnetic valve 22 to input the medicine liquid into the spraying device 50 when the water amount reached by the medicine liquid in the liquid storage device 20 reaches a preset water amount; when the spraying device 50 reaches a certain water amount, the medicament switch electromagnetic valve 22 can be automatically closed;

as shown in fig. 2, the liquid storage device 20 further includes a water-adding sensor 23 and a water-shortage sensor 24; the spraying device 50 includes a pressure tub 51;

the water adding sensor 23 is configured to detect whether the liquid medicine in the liquid storage device 20 reaches a preset water amount, when the liquid medicine reaches the preset water amount, control the water inlet electromagnetic valve 21 to close, and simultaneously throw in pills at the medicine inlet, wait for the medicine to dissolve at rest, time the rest dissolution reaches, control the opening of the medicine switch electromagnetic valve 22, so that the liquid medicine is input into the pressure barrel 51. Wherein, the pill can be put into the medicament inlet through manual real-time medicament feeding, or a worker prepares medicament at the medicament inlet in advance, a medicament switch valve is arranged at the medicament inlet, and when the liquid in the liquid storage device 20 reaches the preset water amount, the medicament switch valve is automatically opened so that the medicament can automatically flow into the liquid storage device 20.

When the pressure barrel 51 detects that the liquid level reaches a certain liquid level (for example, the water level is full), the medicament switch electromagnetic valve 22 is closed; or when the water shortage sensor 24 senses water shortage, the medicament switch electromagnetic valve 22 is closed, and the water inlet electromagnetic valve 21 is opened for water inlet;

the water shortage sensor 24 is configured to detect whether the water amount of the water solution in the liquid storage device 20 does not reach the water amount lower limit threshold, determine that water shortage is sensed when the water amount of the water solution does not reach the water amount lower limit threshold, close the medicament switch electromagnetic valve 22, and control the opening of the water inlet electromagnetic valve 21 so that tap water enters the water inlet conduit; and when the tap water in the liquid storage device 20 is filled up, the water inlet electromagnetic valve is automatically closed.

In one embodiment, the pressurizing device 30 is communicated with the air storage device 40 through an air pressure conduit, and a one-way electromagnetic valve 31 is arranged on the air pressure conduit, and the one-way electromagnetic valve 31 is used for controlling the opening and closing of the pressurizing device 30.

In a specific application, a high-pressure tank may be used as the body of the air storage device 40, and an air pressure detecting instrument is arranged on the high-pressure tank, and the pressurizing device 30 may be an air compressor, and the output of the air pressure of the air compressor is controlled through the unidirectional electromagnetic valve 31.

In addition, the air storage device 40 is further provided with a drainage electromagnetic valve 41, and the drainage electromagnetic valve 41 is used for draining the redundant liquid in the air storage device 40. The water discharge solenoid valve 41 is adapted to discharge the liquid in the air storage device 40 when the pressure is released, because the air contains water vapor therein, water is formed in the high pressure tank, which needs to be discharged.

A booster valve may be disposed on the intake duct at a position close to the gas storage device 40, through which the pressure of the drainage pressure gas may be increased.

An air inlet electromagnetic valve 42 is further arranged on the air inlet conduit near the spraying device 50, and the air inlet electromagnetic valve 42 is used for controlling the water pressure gas in the air inlet conduit to enter the spraying device 50 and spraying the liquid medicine through air pressure.

In one embodiment, the sprinkler 50 further includes an exhaust solenoid valve 52, a water spray solenoid valve 53, and a water spray mechanism 54;

the pressure barrel 51 is connected with the liquid storage device 20 through the infusion catheter and is used for receiving the liquid medicine flowing out through the infusion catheter;

the pressure tank 51 is connected to the gas storage device 40 through the gas inlet duct, and receives the discharged pressurized gas discharged through the gas inlet duct.

The exhaust electromagnetic valve 52 is disposed in the exhaust duct, and is used for controlling the discharge of the redundant high-pressure gas in the pressure barrel 51, so as to ensure the safety of the deodorizing device.

The water spraying mechanism 54 is arranged outside the box body 10 and is connected with the water spraying outlet; the water spraying electromagnetic valve 53 is arranged on the water spraying conduit and is used for controlling the water spraying mechanism 54 to spray the liquid medicine, so that a good effect of removing smell is achieved. The water spraying mechanism 54 may be provided with a plurality of nozzles, and thus the odor removal and sterilization can be performed in a wide range.

The electromagnetic valves are arranged on different guide pipes inside the odor removing device, so that the odor removing device can realize the beneficial effects of automatically spraying liquid medicine, automatically releasing gas, automatically dissolving and automatically supplementing the liquid medicine, and can replace manual odor removing in public places.

Further, in an embodiment, the deodorizing device further includes a man-machine interaction device, and the man-machine interaction device is disposed on the top of the box body;

in a specific application, the surface of the top of the deodorizing device can be provided with a medicament inlet and a man-machine interaction device. The man-machine interaction device can comprise a display screen, a water inlet button, an odor removing button, an emergency stop button, an exhaust button, a spraying button, a power indicator, a missing indicator and other man-machine interaction devices. The display screen can display the current working state of each device in the deodorizing equipment.

Specifically, the man-machine interaction device is used for controlling the conduction of a water inlet electromagnetic valve and a medicament switch electromagnetic valve corresponding to the liquid storage device; for example, the user presses the water inlet button to control the water inlet solenoid valve to open, and then water is added to the liquid storage device.

The man-machine interaction device is also used for controlling the conduction of the one-way electromagnetic valve corresponding to the pressurizing device and controlling the conduction of the drainage electromagnetic valve and the air inlet electromagnetic valve corresponding to the air storage device; for example, the user presses the odor removal button, the pressurization is started, and the air compressor begins to work. And monitoring the pressure of the gas in the gas storage device, and opening the air inlet electromagnetic valve to convey the pressure to the spraying device when the pressure reaches the spraying requirement. After the pressure transmission is completed, closing the air compressor to stop outputting air pressure, closing the booster valve to stop increasing air pressure, and closing the air inlet electromagnetic valve to stop transmitting air pressure; finally, the spraying device starts to drain and release pressure, and a set of closed-loop operation is formed.

The man-machine interaction device is also used for controlling the conduction of the exhaust electromagnetic valve and the water spraying electromagnetic valve corresponding to the spraying device. For example, the user presses the bleed button to control the bleed solenoid valve to release excess air pressure; the user presses the spray button, and the water spray solenoid valve opens, makes sprinkler open the air inlet solenoid valve in order to obtain air pressure from the gas holder, accomplishes the liquid medicine and sprays.

The embodiment provides the man-machine interaction device for the user, so that the user can select the deodorizing mode according to actual conditions, and the user experience is improved; in addition, a rolling mechanism can be arranged below the box body, so that a user can conveniently push the odor removing device to remove odor and sterilize different spaces in a public place.

The foregoing is a further detailed description of the utility model in connection with the preferred embodiments, and it is not intended that the utility model be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the utility model, and these should be considered to be within the scope of the utility model.

Claims (8)

1. The deodorizing equipment is characterized by comprising a box body, and a liquid storage device, a pressurizing device, a gas storage device and a spraying device which are arranged in the box body;

the top of the box body is provided with a medicament inlet and an exhaust outlet; a water inlet is formed in the first side of the box body; the second side of the box body is provided with a water spray outlet;

the liquid storage device is respectively communicated with the medicament inlet and the water inlet and is used for mixing water liquid with the medicament to form liquid medicine;

the liquid storage device is communicated with the spraying device through an infusion catheter and is used for inputting the liquid medicine to the spraying device through the infusion catheter;

the air storage device is communicated with the pressurizing device, and the pressurizing device is used for conveying air pressure to the air storage device;

the gas storage device is also communicated with the spraying device through an air inlet conduit and is used for conveying drainage pressure to the spraying device;

the spraying device is communicated with the water spraying outlet through a water spraying conduit and is used for spraying the liquid medicine;

the spraying device is communicated with the exhaust outlet through an exhaust duct and is used for exhausting gas;

wherein, the liquid storage device comprises a water inlet electromagnetic valve and a medicament switch electromagnetic valve;

the liquid storage device is communicated with the water inlet through a water inlet conduit, and the water inlet electromagnetic valve is arranged on the water inlet conduit;

the liquid storage device is used for opening the medicament switching electromagnetic valve to input the liquid medicine to the spraying device when the water quantity reached by the liquid medicine in the liquid storage device reaches the preset water quantity;

wherein, the liquid storage device also comprises a water adding sensor and a water shortage sensor;

the water adding sensor is used for detecting whether the liquid medicine in the liquid storage device reaches a preset water amount, and controlling the opening of the medicament switch electromagnetic valve when the liquid medicine reaches the preset water amount;

the water shortage sensor is used for detecting whether the water quantity of the water liquid in the liquid storage device does not reach the water quantity lower limit threshold value, and controlling the opening of the water inlet electromagnetic valve when the water quantity of the water liquid does not reach the water quantity lower limit threshold value.

2. The odour removal apparatus of claim 1, wherein said pressurizing means communicates with said air reservoir through an air pressure conduit having a one-way solenoid valve for controlling opening and closing of said pressurizing means.

3. The odour removal apparatus of claim 1, wherein said air reservoir is provided with a drain solenoid valve for draining excess liquid from said air reservoir.

4. A deodorizing device as claimed in claim 3 wherein said air inlet conduit is provided with an air inlet solenoid valve for controlling the entry of water discharge pressure gas in said air inlet conduit into said spraying means.

5. The odor elimination apparatus of claim 1 wherein said spray device comprises a pressure tank;

the pressure barrel is connected with the liquid storage device through the infusion catheter and is used for receiving the liquid medicine flowing out through the infusion catheter;

the pressure barrel is connected with the gas storage device through the air inlet conduit and is used for receiving the water discharge pressure gas discharged through the air inlet conduit.

6. The odor elimination apparatus of claim 5 wherein said spray device further comprises an exhaust solenoid valve;

the exhaust electromagnetic valve is arranged on the exhaust duct and used for controlling the gas in the pressure barrel to be exhausted.

7. The odor elimination apparatus of claim 5 wherein said spray device further comprises a water spray solenoid valve and a water spray mechanism; the water spraying mechanism is arranged outside the box body and connected with the water spraying outlet;

the water spraying electromagnetic valve is arranged on the water spraying guide pipe and used for controlling the water spraying mechanism to spray the liquid medicine.

8. The odour removal apparatus as claimed in any one of claims 1-7, further comprising a man-machine interaction device arranged on top of the cabinet;

the man-machine interaction device is used for controlling the conduction of a water inlet electromagnetic valve and a medicament switch electromagnetic valve corresponding to the liquid storage device;

the man-machine interaction device is also used for controlling the conduction of the one-way electromagnetic valve corresponding to the pressurizing device;

the man-machine interaction device is also used for controlling the conduction of a drainage electromagnetic valve and an air inlet electromagnetic valve corresponding to the air storage device;

the man-machine interaction device is also used for controlling the conduction of the exhaust electromagnetic valve and the water spraying electromagnetic valve corresponding to the spraying device.