CN218607557U - Ozone preparation structure for ozone debridement negative pressure therapeutic instrument - Google Patents

Abstract

The utility model relates to an ozone preparation structure for an ozone debridement negative pressure therapeutic apparatus, which comprises a positive electrode plate, a negative electrode plate and a water tank, wherein the water tank comprises a positive water tank buckled with the positive electrode plate and a negative water tank buckled with the negative electrode plate; the upper ends of the anode water tank and the cathode water tank are provided with drainage ports, and the ozone modules are connected in parallel through a pipeline. The utility model discloses with ozone preparation equipment modularization, set up that positive water tank and negative pole water tank divide with positive electrode piece and negative electrode piece hydrogen and ozone when circular telegram produces the electrolysis with proton exchange membrane and put, the two is connected closely and each other noninterference, and simple structure is convenient for lay simultaneously, and it is high through the parallelly connected electrolysis speed of pipeline between the ozone module simultaneously to be convenient for maintain and change.

Description

Ozone preparation structure for ozone debridement negative pressure therapeutic instrument

Technical Field

The utility model relates to the field of medical equipment, concretely relates to ozone preparation structure for negative pressure therapeutic instrument is created clearly to ozone.

Background

Compared with normal saline, iodophor and alcohol, the ozone water has better quick disinfection and sterilization effects, has broad-spectrum disinfection and sterilization effects, and can prevent bacteria and germs from forming drug resistance by using the ozone water for disinfection and sterilization;

the preparation of ozone water requires dissolving ozone in water; the current ozone generators are mainly of three types: the high-voltage discharge type generator is used for producing a high-voltage corona electric field by using high-voltage current with certain frequency, so that oxygen molecules in or around the electric field generate electrochemical reaction, thereby producing ozone. However, the ozone preparation device can not be applied to the medical environment where a small amount of ozone is generated; because the medical environment has higher requirements on the sealing property of ozone preparation, the ozone preparation speed is required to be high, and the ozone preparation speed is required to be controllable, so that the ozone preparation device can be applied to various disinfection and sterilization scenes.

Disclosure of Invention

The utility model provides a solve above-mentioned problem, provide an ozone is created clearly for negative pressure therapeutic instrument and is prepared structure, adopt electrolysis preparation mode production ozone, set up anodal water tank and negative pole water tank and divide the hydrogen and the ozone of anodal electrode slice and negative pole electrode slice when circular telegram and proton exchange membrane production electrolysis and put, the two is connected closely and each other noninterference, simple structure is convenient for lay simultaneously, it is high through the parallelly connected electrolysis speed of pipeline between the ozone module, electrolysis speed is controllable simultaneously.

In order to realize the purpose, the technical scheme of the utility model is that:

an ozone preparation structure for an ozone debridement negative pressure therapeutic apparatus comprises a water pump, a plurality of ozone modules, an ozone water bottle and a hydrogen bottle, wherein each ozone module comprises a positive electrode plate, a negative electrode plate and a water tank, each water tank comprises a positive water tank buckled with the positive electrode plate and a negative water tank buckled with the negative electrode plate, each positive electrode plate is provided with a positive conducting plate, each negative electrode plate is provided with a negative conducting plate,

a proton exchange membrane is clamped between the positive conducting plate and the negative conducting plate, and a waterproof rubber ring is sleeved outside the proton exchange membrane;

the positive water tank and the negative water tank are both concave square plate bodies, and the upper ends of the positive water tank and the negative water tank are both provided with drainage ports which are cylindrical structures;

a buckling unit is arranged between the anode water tank and the cathode water tank, and the anode water tank and the cathode water tank are fixed through the buckling unit;

a plurality of the ozone modules are arranged in an even number, and the ozone modules are connected in parallel through pipelines.

Furthermore, a first waterproof rubber pad is arranged between the anode water tank and the anode conducting strip, the first waterproof rubber pad is of a square-back structure, a square groove used for fixing the anode conducting strip is formed in one side, close to the anode conducting strip, of the first waterproof rubber pad, the other side of the first waterproof rubber pad is arranged inside the anode water tank, and the outer side wall of the first waterproof rubber pad is tightly attached to the inner side wall of the anode water tank;

be provided with the waterproof cushion of second between negative pole water tank and the negative pole conducting strip, the waterproof cushion of second is back font structure, and the square groove that is used for fixed negative pole conducting strip is offered to the adjacent one side of negative pole conducting strip of the waterproof cushion of second, and the opposite side of the waterproof cushion of second sets up inside the negative pole water tank, and the inside wall of negative pole water tank is hugged closely to the lateral wall of the waterproof cushion of second.

Furthermore, notches are correspondingly formed in the upper ends of the first waterproof rubber mat and the positive water tank, and the wiring end of the positive conducting strip is arranged on the outer side of the positive water tank through the notches;

the second waterproof rubber mat and the upper end of the negative water tank are correspondingly provided with notches, and the wiring end of the negative conducting strip is arranged on the outer side of the negative water tank through the notches.

Further, the buckling unit comprises annular grooves which are uniformly arranged on the side face of the positive water tank and the side face of the negative water tank, and the two annular grooves are fixed through bolts.

Further, the side of the negative water tank is provided with an ear plate for connection.

Furthermore, the positive conducting plate and the negative conducting plate are both rectangular plate bodies, a plurality of ribs are uniformly arranged inside the positive water tank and the negative water tank, the ribs abut against the positive electrode plate and the negative electrode plate, and the positive electrode plate and the negative electrode plate clamp the proton exchange membrane through the ribs.

Further, the positive electrode plate and the negative electrode plate are both plate bodies made of titanium materials, and iridium-tantalum plating layers are arranged on the outer sides of the positive electrode plate and the negative electrode plate.

Through the technical scheme, the beneficial effects of the utility model are that:

1. the utility model is provided with a positive electrode plate, a negative electrode plate and a water tank, the water tank comprises a positive water tank buckled with the positive electrode plate and a negative water tank buckled with the negative electrode plate, the positive electrode plate is provided with a positive conducting strip, the negative electrode plate is provided with a negative conducting strip,

a proton exchange membrane is clamped between the positive conducting plate and the negative conducting plate, and a waterproof rubber ring is sleeved outside the proton exchange membrane;

the positive water tank and the negative water tank are both concave square plate bodies, and the upper ends of the positive water tank and the negative water tank are both provided with drainage ports which are cylindrical structures;

a buckling unit is arranged between the anode water tank and the cathode water tank, and the anode water tank and the cathode water tank are fixed through the buckling unit.

The utility model discloses the structure is laid closely, divides the hydrogen that produces the negative pole and the ozone that anodal produced and puts to accomplish ozone and produce the operation, a plurality of ozone modules operation simultaneously improves ozone preparation speed greatly.

2. The utility model discloses can set up a plurality of ozone modules, ozone module and ozone water-jug and hydrogen cylinder are connected simply, can directly change, are convenient for maintain, and single ozone module goes wrong and do not influence equipment and use temporarily.

Drawings

FIG. 1 is one of the schematic structural diagrams of the ozone preparation structure for the ozone debridement negative pressure therapeutic apparatus of the present invention;

fig. 2 is a second structural schematic diagram of the ozone preparation structure for the ozone debridement negative pressure therapeutic apparatus of the present invention.

The reference numbers in the drawings are as follows: 1 is positive electrode piece, 2 is the negative electrode piece, 3 is anodal water tank, 4 is the negative pole water tank, 5 is anodal conducting strip, 6 is the negative pole conducting strip, 7 is proton exchange membrane, 8 is waterproof rubber circle, 9 is first waterproof cushion, 10 is the waterproof cushion of second, 11 is the rib.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and detailed description:

example 1

As shown in fig. 1-2, an ozone preparation structure for an ozone debridement negative pressure therapeutic apparatus comprises a water pump, a plurality of ozone modules, an ozone water bottle and a hydrogen cylinder, wherein each ozone module comprises a positive electrode plate 1, a negative electrode plate 2 and a water tank, the water tank comprises a positive water tank 3 buckled with the positive electrode plate 1 and a negative water tank 4 buckled with the negative electrode plate 2, the positive electrode plate 1 is provided with a positive conductive sheet 5, the negative electrode plate 2 is provided with a negative conductive sheet 6,

a proton exchange membrane 7 is clamped between the positive conducting plate 5 and the negative conducting plate 6, and a waterproof rubber ring 8 is sleeved outside the proton exchange membrane 7;

the anode water tank 3 and the cathode water tank 4 are both concave square plate bodies, and the upper ends of the anode water tank 3 and the cathode water tank 4 are both provided with drainage ports which are cylindrical structures;

a buckling unit is arranged between the anode water tank 3 and the cathode water tank 4, and the anode water tank 3 and the cathode water tank 4 are fixed through the buckling unit;

a plurality of the ozone modules are arranged in an even number, and the ozone modules are connected in parallel through pipelines.

In this embodiment, the positive water tank 3 and the negative water tank 4 are concave square plate bodies made of PC materials by injection molding.

In order to improve the sealing property, a first waterproof rubber mat 9 is arranged between the anode water tank 3 and the anode conducting strip 5, the first waterproof rubber mat 9 is of a reversed-square-shaped structure, a square groove for fixing the anode conducting strip 5 is formed in one side, close to the anode conducting strip 5, of the first waterproof rubber mat 9, the other side of the first waterproof rubber mat 9 is arranged inside the anode water tank 3, and the outer side wall of the first waterproof rubber mat 9 is tightly attached to the inner side wall of the anode water tank 3;

be provided with second waterproof rubber mat 10 between negative pole water tank 4 and the negative pole conducting strip 6, second waterproof rubber mat 10 is back font structure, and the square groove that is used for fixed negative pole conducting strip 6 is offered to the adjacent one side of negative pole conducting strip 6 of second waterproof rubber mat 10, and the opposite side of second waterproof rubber mat 10 sets up inside negative pole water tank 4, and the inside wall of negative pole water tank 4 is hugged closely to the lateral wall of second waterproof rubber mat 10.

In order to facilitate wiring, notches are correspondingly formed in the upper ends of the first waterproof rubber gasket 9 and the positive water tank 3, and the wiring end of the positive conducting strip 5 is arranged on the outer side of the positive water tank 3 through the notches;

the second waterproof rubber gasket 10 and the upper end of the negative water tank 4 are correspondingly provided with notches, and the wiring end of the negative conducting strip 6 is arranged on the outer side of the negative water tank 4 through the notches.

In order to facilitate sealing and maintenance, the buckling unit comprises annular grooves which are uniformly arranged on the side surface of the anode water tank 3 and the side surface of the cathode water tank 4, and the annular grooves are fixed through bolts.

In order to improve the configuration of the ozone module, the side of the negative water tank 4 is provided with an ear plate for connection.

During operation, the ozone module and the debridement equipment are fixed by bolts penetrating through the ear plates.

For increasing current density and improving electrolysis rate, anodal conducting strip 5 and negative pole conducting strip 6 are back font plate body, anodal water tank 3 evenly is provided with a plurality of ribs 11 with the inside of negative pole water tank 4, rib 11 supports anodal electrode piece 1 and negative pole electrode piece 2, anodal electrode piece 1 and negative pole electrode piece 2 press from both sides tight proton exchange membrane 7 through rib 11.

In order to further increase the current density and improve the electrolysis rate, the positive electrode plate 1 and the negative electrode plate 2 are both made of titanium materials, and iridium-tantalum plating layers are arranged on the outer sides of the positive electrode plate 1 and the negative electrode plate 2.

In this embodiment, the number of the ozone modules is four, the number of the water pumps is two, the pipeline comprises two six-way pipes, when the ozone modules are connected, the six-way pipes are used for connection, firstly, a water inlet of the water pump is connected with the ozone water bottle, a water outlet of the water pump is connected with one pipe orifice of the six-way pipe, four pipe orifices are reserved for connecting drainage orifices of the anode water tanks 3 of the four ozone modules, and the last pipe orifice is connected with the ozone water bottle;

the water inlet of the other water pump is connected with an ozone water bottle, the water outlet of the water pump is connected with one pipe orifice of the other six-way pipe, four pipe orifices of the six-way pipe are connected with drainage orifices of the cathode water tanks 4 of the four ozone modules, and the last pipe orifice is connected with a hydrogen bottle;

connecting the positive conducting strip 5 with a positive electrode of a power supply, connecting the negative conducting strip 6 with a negative electrode of the power supply, and starting ozone preparation operation after electrifying, wherein the positive electrode slice 1 and the negative electrode slice 2 are titanium electrodes plated with iridium tantalum, the titanium electrodes are relatively stable and can not be decomposed in an electrolytic reaction, and the iridium tantalum plating layer can increase current density, so that the electrolytic rate is improved; the ribs 11 are uniformly pressed on the positive electrode plate 1 and the negative electrode plate 2, so that the positive and negative titanium electrodes and the proton exchange membrane 7 are tightly pressed together, the current density is increased, and the electrolysis rate is further improved; the four ozone modules operate simultaneously and do not interfere with each other, so that the ozone supply rate is improved, and the overall energy consumption is reduced.

During operation, an electrolytic preparation mode is adopted to produce ozone, water is separated into hydrogen and oxygen molecules at the interface of the anode solution of the positive electrode plate 1 in a proton exchange mode, the hydrogen is directly discharged from the interface of the cathode solution of the negative electrode plate 2, and the oxygen molecules at the interface of the anode of the positive electrode plate 1 can generate high-density current through electron excitation energy and are polymerized into ozone molecules.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (7)

1. An ozone preparation structure for an ozone debridement negative pressure therapeutic apparatus comprises a water pump, a plurality of ozone modules, an ozone water bottle and a hydrogen bottle, and is characterized in that the ozone modules comprise a positive electrode piece (1), a negative electrode piece (2) and a water tank, the water tank comprises a positive water tank (3) buckled with the positive electrode piece (1) and a negative water tank (4) buckled with the negative electrode piece (2), the positive electrode piece (1) is provided with a positive conducting strip (5), the negative electrode piece (2) is provided with a negative conducting strip (6),

a proton exchange membrane (7) is clamped between the positive conducting strip (5) and the negative conducting strip (6), and a waterproof rubber ring (8) is sleeved outside the proton exchange membrane (7);

the positive water tank (3) and the negative water tank (4) are both concave square plate bodies, and the upper ends of the positive water tank (3) and the negative water tank (4) are both provided with drainage ports which are cylindrical structures;

a buckling unit is arranged between the anode water tank (3) and the cathode water tank (4), and the anode water tank (3) and the cathode water tank (4) are fixed through the buckling unit;

a plurality of the ozone modules are arranged in an even number, and the ozone modules are connected in parallel through pipelines.

2. The ozone preparation structure for the ozone debridement negative pressure therapeutic apparatus according to claim 1, wherein a first waterproof rubber mat (9) is arranged between the positive water tank (3) and the positive conductive sheet (5), the first waterproof rubber mat (9) is of a zigzag structure, a square groove for fixing the positive conductive sheet (5) is formed in one side, close to the positive conductive sheet (5), of the first waterproof rubber mat (9), the other side of the first waterproof rubber mat (9) is arranged inside the positive water tank (3), and the outer side wall of the first waterproof rubber mat (9) is tightly attached to the inner side wall of the positive water tank (3);

be provided with second waterproof rubber pad (10) between negative pole water tank (4) and negative pole conducting strip (6), second waterproof rubber pad (10) are back font structure, and the square groove that is used for fixed negative pole conducting strip (6) is offered to the adjacent one side of negative pole conducting strip (6) in second waterproof rubber pad (10), and the opposite side of second waterproof rubber pad (10) sets up inside negative pole water tank (4), and the inside wall of negative pole water tank (4) is hugged closely to the lateral wall of second waterproof rubber pad (10).

3. The ozone preparation structure for the ozone debridement negative pressure therapeutic apparatus according to claim 2, wherein the first waterproof rubber mat (9) and the upper end of the positive water tank (3) are correspondingly provided with notches, and the wiring terminal of the positive conductive sheet (5) is arranged outside the positive water tank (3) through the notches;

notches are correspondingly formed in the upper ends of the second waterproof rubber pad (10) and the negative water tank (4), and the wiring end of the negative conducting strip (6) is arranged on the outer side of the negative water tank (4) through the notches.

4. The ozone preparation structure for the ozone debridement negative pressure therapy instrument according to claim 1, wherein the buckling unit comprises annular grooves which are uniformly arranged on the side surface of the positive water tank (3) and the side surface of the negative water tank (4), and the two annular grooves are fixed through bolts.

5. The ozone preparation structure for the ozone debridement negative pressure therapy instrument according to claim 1, wherein an ear plate for connection is arranged at the side of the negative water tank (4).

6. The ozone preparation structure for the ozone debridement negative pressure therapy instrument according to claim 1, wherein the positive conductive sheet (5) and the negative conductive sheet (6) are both rectangular plate bodies, a plurality of ribs (11) are uniformly arranged inside the positive water tank (3) and the negative water tank (4), the ribs (11) abut against the positive electrode sheet (1) and the negative electrode sheet (2), and the positive electrode sheet (1) and the negative electrode sheet (2) clamp the proton exchange membrane (7) through the ribs (11).

7. The ozone preparation structure for the ozone debridement negative pressure therapy apparatus according to claim 1, wherein the positive electrode sheet (1) and the negative electrode sheet (2) are both made of titanium, and iridium-tantalum plating layers are disposed on the outer sides of the positive electrode sheet (1) and the negative electrode sheet (2).

Images