CN210612579U - Liquid medicine storage assembly of deodorization equipment - Google Patents

Abstract

The utility model discloses a liquid medicine storage component of deodorization equipment, which comprises a puncture mechanism and a liquid storage tank, wherein the puncture mechanism comprises a support plate, a puncture column, a liquid collecting hopper and a liquid outlet, the liquid collecting hopper is arranged in a downward concave manner relative to the surface of the support plate, the puncture column is positioned in the middle of the liquid collecting hopper, the top of the puncture column is a sharp end, and the liquid outlet is positioned on the surface of the puncture column or the liquid collecting hopper; the liquid storage tank comprises a liquid inlet, an inner cavity, a liquid outlet and an infusion pump, wherein the liquid inlet, the inner cavity and the liquid outlet are communicated with each other, the liquid inlet is communicated with a first liquid outlet, and the infusion pump is connected with the liquid outlet. Through addding puncture mechanism, the user only needs to detain the medicine bottle back-off in puncture mechanism when changing the medicine bottle, can make the bottleneck automatic open, and the plant liquid is by gravity in the natural downward flow enters into the liquid storage tank, and the operation of changing the medicine bottle is more simple convenient.

Description

Liquid medicine storage assembly of deodorization equipment

Technical Field

The utility model relates to an air purification equipment specifically is a liquid medicine storage assembly of deodorization equipment.

Background

The air purification is to provide the whole solutions of sterilization, dust reduction, haze removal, removal of harmful decoration residues, peculiar smell and the like aiming at various indoor environmental problems, improve the living and office conditions and promote the physical and mental health. Aiming at occasions with higher sanitary requirements such as public toilets and toilets. The air purification equipment mainly focuses on sterilization and deodorization. Most of the traditional purifying devices adopt chemical aromatics to cover peculiar smell (the aim of sterilization cannot be achieved), or use disinfectants to be sprayed to the ground or the air for sterilization (the effect is obvious but the duration is short).

The applicant proposes 2018.07.20 an air purification method and apparatus (publication No. CN109028301A), which aims to provide a plant liquid that can be mixed with water and atomized to blow out for purifying air. This plant liquid is the consumables, needs regularly to change the medicine bottle, adds new plant liquid toward net gas equipment in, therefore how convenient change medicine bottle to the interpolation of plant liquid is one of the technical problem that this application will be solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a deodorization equipment's liquid medicine storage assembly, through addding puncture mechanism, the user only needs to open the medicine bottle back-off at puncture mechanism when changing the medicine bottle in the puncture mechanism, can make the bottleneck automatic, and the plant liquid is by gravity nature downflow entering to the stock solution case in, the operation of changing the medicine bottle is more simple convenient.

In order to achieve the purpose of the invention, the utility model adopts the following technical scheme: a liquid medicine storage assembly of deodorization equipment comprises a puncture mechanism and a liquid storage tank, wherein the puncture mechanism comprises a support plate, a puncture column, a liquid collecting hopper and a liquid outlet, the liquid collecting hopper is arranged in a downward concave mode relative to the surface of the support plate, the puncture column is located in the middle of the liquid collecting hopper, the top of the puncture column is provided with a sharp end, and the liquid outlet is located on the surface of the puncture column or the liquid collecting hopper; the liquid storage tank comprises a liquid inlet, an inner cavity, a liquid outlet and an infusion pump, wherein the liquid inlet, the inner cavity and the liquid outlet are communicated with each other, the liquid inlet is communicated with a first liquid outlet, and the infusion pump is connected with the liquid outlet.

Preferably, the liquid outlet comprises a first liquid outlet, and the first liquid outlet is positioned on the side wall surface of the puncture column.

Preferably, the bottom of the first lower liquid port is provided with a flow baffle, and the bottom of the flow baffle is connected with the liquid collecting hopper.

Preferably, the lower liquid port comprises at least one second lower liquid port, and the second lower liquid port is positioned at the bottom of the liquid collecting bucket.

Preferably, the surface of the carrier plate is further provided with a flow blocking convex rib protruding upwards, and the flow blocking convex rib is arranged along the peripheral edge of the top of the liquid collecting hopper.

Preferably, the surface of the side wall of the liquid storage tank is further provided with a flushing port, and the flushing port is communicated with the inner cavity.

Preferably, the liquid collecting hopper is sunken downwards to enter a liquid inlet of the liquid storage tank.

Preferably, the side wall of the liquid storage tank is provided with a liquid level sensor for detecting the height of liquid in the inner cavity.

Preferably, the puncturing mechanism is further provided with an RFID reader for identifying an RFID tag on the body of the medicine bottle.

Compared with the prior art, the liquid medicine storage assembly of the deodorization device adopting the technical scheme has the following beneficial effects:

adopt the utility model discloses a liquid medicine storage assembly of deodorization equipment, the puncture post in the puncture mechanism sets up, pricks into to the puncture post down when the bottleneck of medicine bottle, and in the collecting hopper was put into to the bottleneck, the plant liquid that flows out in by the medicine bottle can be automatic through down the liquid mouth with go into the liquid mouth and enter into in the liquid reserve tank.

The plant liquid is uniformly stored in the liquid storage tank, and the plant liquid is accumulated at the liquid outlet, so that no air enters the infusion pump when the infusion pump extracts the plant liquid from the liquid outlet, and the concentration error of the final liquid medicine when the plant liquid is mixed with water is reduced.

Secondly, puncture the sharp end of post up, when the medicine bottle bottleneck pricks into the puncture post in, the plant liquid can flow out downwards through gravity is automatic, once through the collection liquid fill, down the liquid mouth with go into the liquid mouth and get into to the liquid storage tank in, need not manually to uncap in advance, avoid the plant liquid to spill out, make things convenient for maintainer to change the medicine bottle, the operation is more convenient.

And the plant liquid flows downwards naturally by adopting gravity, so that an additional liquid pump is not needed, the loss is reduced, the plant liquid in the bottle can fully flow out by inverting the bottle mouth, the plant liquid retention in the bottle is reduced, and the utilization rate is improved.

After the plant liquid uniformly flows into the liquid storage tank, a liquid level sensor, a temperature sensor or other parameter detection devices can be additionally arranged in the liquid storage tank, the state of the plant liquid is counted in real time, and the concentration parameter control during mixing of the plant liquid and water is facilitated.

Drawings

Fig. 1 is a schematic structural view of an embodiment of a liquid medicine storage assembly of the deodorizing device of the present invention.

Fig. 2 is a schematic structural view of the liquid medicine storage assembly in the embodiment.

Fig. 3 is a schematic structural diagram of the puncturing mechanism and the medicine bottle in the embodiment.

Fig. 4 is a schematic structural view of the puncture mechanism in the embodiment.

Fig. 5 is a cross-sectional view of the lancing mechanism at A-A in fig. 4.

FIG. 6 is a schematic structural view of a liquid storage tank in the embodiment.

FIG. 7 is a schematic view of a water passage system in the deodorization device in the embodiment.

Reference numerals: 1. a medicine bottle; 10. a bottle mouth; 13. an RFID tag; 2. a puncture mechanism; 20. puncturing the column; 201. a first lower liquid port; 202. a flow baffle plate; 21. a liquid collecting hopper; 210. a second lower liquid port; 22. a flow blocking convex rib; 23. an RFID reader; 24. a carrier plate; 3. a liquid storage tank; 30. a liquid inlet; 31. an infusion pump; 32. flushing the interface; 33. a liquid level sensor.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The medical fluid storage unit of the deodorizing apparatus shown in fig. 1 to 7 includes a medicine bottle 1, a puncturing mechanism 2 and a reservoir 3.

As shown in fig. 4 and 5, the puncturing mechanism 2 comprises a carrier plate 24, a puncturing column 20, a liquid collecting hopper 21 and a liquid dropping port, wherein the liquid dropping port comprises a first liquid dropping port 201 and a second liquid dropping port 210; the liquid storage box 3 comprises a liquid inlet 30, an inner cavity, a liquid outlet and an infusion pump 31; the liquid inlet 30, the inner cavity and the liquid outlet are all communicated with each other, the liquid inlet 30 is communicated with the first lower liquid port 201, and the infusion pump 31 is connected with the liquid outlet.

The liquid collecting bucket 21 is arranged relative to the surface of the carrier plate 24 in a downward concave mode, and the second liquid discharging port 210 is located at the bottom of the liquid collecting bucket 21. The puncture column 20 is located in the middle of the liquid collecting bucket 21, the top of the puncture column 20 is a sharp end, and the first lower liquid opening 201 is located on the side face of the puncture column 20.

As shown in fig. 3, when the medicine bottle 1 is reversely buckled, the bottle opening 10 is buckled in the liquid collecting hopper 21, the puncturing column 20 punctures the middle part of the bottle opening 10 to open the sealed film, the plant liquid in the medicine bottle 1 flows out and is concentrated in the liquid collecting hopper 21, and the bottle opening 10 is attached to the side wall of the liquid collecting hopper 21 to avoid the plant liquid from overflowing the liquid collecting hopper 21.

The first liquid dropping port 201 and the second liquid dropping port 210 are arranged for downward flow of liquid, and simultaneously, bubbles are facilitated to flow upwards to enter the medicine bottle 1 for balancing internal pressure and external pressure, most of liquid flows downwards through the first liquid dropping port 201, and air below enters the medicine bottle 1 through the second liquid dropping port 210.

As shown in fig. 4, the bottom of the first liquid dropping port 201 is provided with a flow baffle 202, the bottom of the flow baffle 202 is connected with the liquid collecting bucket 21, and the flow baffle 202 is attached to the inner wall of the bottle opening 10, so that the plant liquid in the medicine bottle 1 can flow into the first liquid dropping port 201 as much as possible, the liquid is prevented from flowing out of the bottle opening 10 to the bottom of the liquid collecting bucket 21, the second liquid dropping port 210 is prevented from being blocked by the plant liquid to generate bubbles, and the ventilation of the second liquid dropping port 210 is ensured.

As shown in fig. 4, the surface of the carrier plate 24 is further provided with a flow blocking protruding rib 22 protruding upwards, the flow blocking protruding rib 22 is arranged along the peripheral edge of the top of the liquid collecting hopper 21, when the medicine bottle 1 is not inserted firmly, or a large gap is left between the bottle opening 10 and the puncture column 20, a large amount of plant liquid is accumulated in the liquid collecting hopper 21, the flow blocking protruding rib 22 can prevent the plant liquid from overflowing outwards, especially, after the medicine bottle 1 is fixed completely, the body of the medicine bottle 1 is attached to the flow blocking protruding rib 22 to form a certain sealing flow blocking effect, and the plant liquid can be prevented from overflowing.

As shown in fig. 2, the liquid collecting hopper 21 is recessed downwards and enters the liquid inlet 30 of the liquid storage tank 3, all the liquid discharging ports (the first liquid discharging port 201 and the second liquid discharging port 210) which are communicated downwards from the liquid collecting hopper 21 are positioned in the liquid inlet 30, when overflowing plant liquid exists in the liquid collecting hopper 21, the liquid flowing down in the two liquid discharging ports can also flow into the liquid inlet 30, so that the liquid storage tank 3 can collect all the plant liquid, the liquid is prevented from flowing into other spaces of the deodorization device, and electric appliance parts in the other spaces are protected.

As shown in fig. 2, the puncturing mechanism 2 is further provided with an RFID reader 23, the body of the medicine bottle 1 is provided with an RFID tag 13, the RFID reader 23 can identify codes stored in the RFID tag 13 to identify the medicine bottle 1, and a maintenance person can be quickly reminded if the medicine bottle is counterfeit or shoddy.

As shown in fig. 6, a liquid level sensor 33 for detecting the liquid level in the inner cavity is arranged on the side wall of the liquid storage tank 3, the liquid level sensor 33 detects the liquid level of the plant liquid in the liquid storage tank 3 by adopting a resistance type liquid level detection mode (the liquid level sensor can adopt a liquid level sensor with the model of XKC-Y25-V), the conversion is carried out to obtain the residual amount of the plant liquid, maintenance personnel are displayed, and the maintenance personnel are reminded to replace the liquid medicine when the plant liquid in the liquid storage tank 3 is nearly used up.

The interface 32 that washes has still been seted up on 3 lateral wall surfaces of liquid reserve tank, washes interface 32 and inner chamber intercommunication, washes interface 32 and can pass through the external pure water in water route, and is clean again with the liquid in the liquid reserve tank 3 for the cleanness after not using for a long time.

Fig. 7 is a schematic view of a water path system of the deodorization device according to the present embodiment, wherein a double thin dotted line represents a flow direction of clean water, and a single thick dotted line represents a flow direction of plant liquid.

Purified water flows in from a water inlet 4, flows through a flow meter 51 towards the left side under the control of an electromagnetic valve 41, and finally flows into an atomization box 6. The plant liquid flows into the liquid storage tank 3 from the medicine bottle 1, is extracted through the infusion pump 31 and flows to the flow meter 52, enters from the right side of the atomization box 6, is mixed with the purified water in the atomization box 6, and is steamed to be foggy through the ultrasonic atomizer.

When the deodorization device is not used for a long time or the liquid storage tank 3 needs to be cleaned, the electromagnetic valve 42 is opened to enable purified water to flow from the water inlet 4 to the flushing port 32 and enter the liquid storage tank 3, the infusion pump 31 is opened to discharge the cleaned water, and the cleaning purpose is achieved repeatedly.

The above description is a preferred embodiment of the present invention, and a person skilled in the art can make several modifications and improvements without departing from the principles of the present invention, and these should also be regarded as the protection scope of the present invention.

Claims (9)

1. A liquid medicine storage assembly of a deodorization device, characterized in that: comprises a puncture mechanism (2) and a liquid storage tank (3),

the puncture mechanism (2) comprises a support plate (24), a puncture column (20), a liquid collecting bucket (21) and a liquid discharging port, wherein the liquid collecting bucket (21) is arranged in a downward concave mode relative to the surface of the support plate (24), the puncture column (20) is located in the middle of the liquid collecting bucket (21), the top of the puncture column (20) is a sharp end, and the liquid discharging port is located on the surface of the puncture column (20) or the liquid collecting bucket (21);

the liquid storage box (3) comprises a liquid inlet (30), an inner cavity, a liquid outlet and an infusion pump (31), wherein the liquid inlet (30), the inner cavity and the liquid outlet are communicated with each other, the liquid inlet (30) is communicated with a first liquid outlet (201), and the infusion pump (31) is connected with the liquid outlet.

2. The medical fluid storage assembly of a deodorizing apparatus according to claim 1, wherein: the liquid discharging port comprises a first liquid discharging port (201), and the first liquid discharging port (201) is located on the surface of the side wall of the puncture column (20).

3. The medical fluid storage assembly of a deodorizing apparatus according to claim 2, wherein: the bottom of the first lower liquid port (201) is provided with a flow baffle (202), and the bottom of the flow baffle (202) is connected with the liquid collecting hopper (21).

4. The medical fluid storage assembly of a deodorizing apparatus according to claim 1, wherein: the lower liquid ports comprise at least one second lower liquid port (210), and the second lower liquid port (210) is positioned at the bottom of the liquid collecting hopper (21).

5. The medical fluid storage assembly of a deodorizing apparatus according to claim 1, wherein: the surface of the carrier plate (24) is further provided with a flow blocking convex rib (22) which protrudes upwards, and the flow blocking convex rib (22) is arranged along the peripheral edge of the top of the liquid collecting bucket (21).

6. The medical fluid storage assembly of a deodorizing apparatus according to claim 1, wherein: the side wall surface of the liquid storage box (3) is also provided with a flushing interface (32), and the flushing interface (32) is communicated with the inner cavity.

7. The medical fluid storage assembly of a deodorizing apparatus according to claim 1, wherein: the liquid collecting hopper (21) is sunken downwards and enters the liquid inlet (30) of the liquid storage tank (3).

8. The medical fluid storage assembly of a deodorizing apparatus according to claim 1, wherein: and a liquid level sensor for detecting the height of liquid in the inner cavity is arranged on the side wall of the liquid storage tank (3).

9. The medical fluid storage assembly of a deodorizing apparatus according to claim 1, wherein: the puncture mechanism (2) is also provided with an RFID reader (23) for identifying the RFID label (13) on the body of the medicine bottle (1).

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