CN219775474U - Ozone conveying system - Google Patents

Abstract

The utility model relates to the field of ozone conveying, in particular to an ozone conveying system, which comprises an ozone generator, wherein one side of the ozone generator is connected with a first air inlet connector and a second air inlet connector, the first air inlet connector is connected with a conventional pipeline conveying system, the second air inlet connector is connected with an emergency pipeline conveying system, the tail ends of the conventional pipeline conveying system and the emergency pipeline conveying system are connected with a three-way valve, the other end of the three-way valve is connected with an air outlet pipe, and one end of the air outlet pipe is connected with an air outlet connector.

Description

Ozone conveying system

Technical Field

The utility model relates to the field of ozone delivery, in particular to an ozone delivery system.

Background

The ozone generator is a device for preparing ozone gas, because ozone is easy to decompose and can not be stored, and can be used in a site preparation and field preparation, the ozone generator is used in places where ozone can be used, and the ozone generator is widely applied to the fields of drinking water, sewage, industrial oxidation, food processing and fresh keeping, medical synthesis, space sterilization and the like, and the generated ozone gas can be directly utilized and can also be mixed with liquid to participate in reaction through a mixing device.

Currently, chinese patent publication No. CN209876510U discloses an ozone gas delivery system, which comprises an ozone generating device and an ozone gas delivery system connected to the ozone generating device, wherein the ozone gas delivery system comprises a gas valve distributor, the gas valve distributor is connected to a side wall of the ozone generating device through a plurality of fixing screws, a gas inlet through hole is formed in the side wall of the gas valve distributor, a plurality of gas outlet through holes are formed in the side wall of the gas valve distributor, and the gas outlet through holes are in through connection with the gas inlet through holes.

Although this kind of ozone gas delivery system has solved the problem that current ozone generating device can not distribute ozone gas to a plurality of regions simultaneously, but: the ozone gas conveying system cannot realize emergency treatment under the sudden leakage condition of the pipeline, and when the conveying system fails, the ozone gas conveying system cannot work and overhaul under the condition that the normal working state is not affected.

Disclosure of Invention

In view of the above, in order to overcome the defects in the prior art, an object of the present utility model is to provide an ozone delivery system, which has two independent delivery systems, and can be more comfortable when dealing with leakage problems, and can continue to work normally when one pipeline is overhauled.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides an ozone conveying system, includes ozone generator, ozone generator's one side is connected with first air inlet joint and second air inlet joint, be connected with conventional pipeline conveying system on the first air inlet joint, be connected with emergent pipeline conveying system on the second air inlet joint, conventional pipeline conveying system, emergent pipeline conveying system's end-to-end connection have first three-way valve, the other end of first three-way valve is connected with the outlet duct, the one end of outlet duct is connected with the joint of giving vent to anger.

Further, the conventional pipeline conveying system comprises a first throttle valve connected with the first air inlet joint, an adapter joint connected with the first throttle valve, a first electromagnetic valve connected with the adapter joint and a second three-way valve connected with the first electromagnetic valve, and one end of the second three-way valve is connected with the first three-way valve.

Further, the emergency pipeline conveying system comprises a second throttle valve connected with the second air inlet joint and a second electromagnetic valve connected with the second throttle valve, the second electromagnetic valve is connected with one end of the first three-way valve, and a flow detector is connected between the second throttle valve and the second three-way valve.

Further, the other end of the second three-way valve is connected with a test pipeline, and a pressure test meter is installed on the test pipeline.

Further, the end of the test pipeline is connected with a neutralization container, and the inside of the neutralization container is filled with an aqueous solution.

Further, a warning lamp is arranged on the top of the second air inlet connector on the ozone generator.

In summary, the utility model has the following beneficial effects:

the utility model has two sets of conveying systems of the conventional conveying pipeline system and the emergency conveying pipeline system, can be switched to the emergency conveying pipeline system when the conventional conveying pipeline system has leakage faults, ensures that the ozone generator can continuously work normally when in maintenance, does not influence continuous conveying of ozone when in faults, and effectively ensures the safety of the ozone generator when in work.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate and together with the description serve to explain the utility model, if necessary:

fig. 1 is a schematic structural view of the present utility model.

In the figure, 1, an ozone generator; 2. a first air inlet joint; 3. a second air inlet joint; 4. a first three-way valve; 5. an air outlet pipe; 6. an air outlet joint; 7. a first throttle valve; 8. a conversion joint; 9. a second three-way valve; 10. a second throttle valve; 11. a second electromagnetic valve; 12. a flow rate detector; 13. testing a pipeline; 14. a pressure test meter; 15. a neutralization vessel; 16. an aqueous solution; 17. a warning light; 18. a first solenoid valve.

Detailed Description

The foregoing and other features, aspects and advantages of the present utility model will become more apparent from the following detailed description of the embodiments, which proceeds with reference to the accompanying fig. 1. The following embodiments are described in detail with reference to the drawings.

Exemplary embodiments of the present utility model will be described below with reference to the accompanying drawings.

Example 1: the utility model provides an ozone conveying system, including ozone generator 1, one side of ozone generator 1 is connected with first air inlet connector 2 and second air inlet connector 3, be connected with conventional pipeline conveying system on the first air inlet connector 2, be connected with emergency pipeline conveying system on the second air inlet connector 3, warning light 17 is installed at the top that lies in second air inlet connector 3 on the ozone generator 1, when conventional pipeline conveying system is in operating condition, emergency pipeline conveying system should be in the off-state, warning light 17 can not light at this moment, when conventional pipeline conveying system leak the problem, conventional pipeline conveying system should be closed, at this moment, manual switch to emergency pipeline conveying system begins to work, warning light 17 lights, remind the workman that conventional pipeline conveying system goes wrong, it is required to in time to inspect the maintenance.

The tail end of the conventional pipeline conveying system and the emergency pipeline conveying system is connected with a first three-way valve 4, the other end of the first three-way valve 4 is connected with an air outlet pipe 5, one end of the air outlet pipe 5 is connected with an air outlet joint 6, during emergency operation, the first electromagnetic valve 18 and the first throttle valve 7 are required to be closed, the first three-way valve 4 is adjusted to be communicated with the second electromagnetic valve 11 and the air outlet pipe 5, the communication between the first electromagnetic valve 18 and the air outlet pipe 5 is disconnected, and the second throttle valve 10 and the second electromagnetic valve 11 are opened, so that the emergency pipeline conveying system can work normally.

The conventional pipeline conveying system comprises a first throttle valve 7 connected with a first air inlet joint 2, an adapter joint 8 connected with the first throttle valve 7, a first electromagnetic valve 18 connected with the adapter joint 8 and a second three-way valve 9 connected with the first electromagnetic valve 18, one end of the second three-way valve 9 is connected with the first three-way valve 4, the other end of the second three-way valve 9 is connected with a test pipeline 13, a pressure test meter 14 is arranged on the test pipeline 13, the tail end of the test pipeline 13 is connected with a neutralization container 15, and the inside of the neutralization container 15 is filled with an aqueous solution 16.

The emergency pipeline conveying system comprises a second throttle valve 10 connected with the second air inlet joint 3, a second electromagnetic valve 11 connected with the second throttle valve 10, wherein the second electromagnetic valve 11 is connected with one end of the first three-way valve 4, and a flow detector 12 is connected between the second throttle valve 10 and the second three-way valve 9.

When the leakage problem of the conventional pipeline conveying system is solved, the emergency pipeline conveying system can be closed, the conventional pipeline conveying system is opened, at the moment, the first three-way valve 4 is communicated with the first electromagnetic valve 18 again, the first three-way valve 4 is disconnected from the second electromagnetic valve 11, the second electromagnetic valve 11 and the second throttle valve 10 are closed, the first electromagnetic valve 18 and the first throttle valve 7 are opened, at the same time, the second three-way valve 9 is adjusted to one side of the test pipeline 13, the pressure test meter 14 is used for testing whether the pressure of the pipeline 13 is normal, ozone gas for testing enters the neutralization container 15 to be neutralized with the aqueous solution 16, if the pressure test meter 14 in the test shows normal values, namely, the condition that the conventional pipeline conveying system does not leak exists, and at the moment, the second three-way valve 9 can be switched back to the normal air outlet pipe 5.

While the utility model has been described in connection with certain embodiments, it is not intended that the utility model be limited thereto; for those skilled in the art to which the present utility model pertains and the related art, on the premise of based on the technical scheme of the present utility model, the expansion, the operation method and the data replacement should all fall within the protection scope of the present utility model.

Claims (6)

1. An ozone delivery system comprising an ozone generator (1), characterized in that: one side of ozone generator (1) is connected with first air inlet connector (2) and second air inlet connector (3), be connected with pipeline conveying system on first air inlet connector (2), be connected with emergent pipeline conveying system on second air inlet connector (3), pipeline conveying system, emergent pipeline conveying system's end-to-end connection have first three-way valve (4), the other end of first three-way valve (4) is connected with outlet duct (5), the one end of outlet duct (5) is connected with outlet connector (6).

2. An ozone delivery system as in claim 1, wherein: the pipeline conveying system comprises a first throttle valve (7) connected with the first air inlet joint (2), an adapter joint (8) connected with the first throttle valve (7), a first electromagnetic valve (18) connected with the adapter joint (8) and a second three-way valve (9) connected with the first electromagnetic valve (18), and one end of the second three-way valve (9) is connected with the first three-way valve (4).

3. An ozone delivery system as in claim 2, wherein: the emergency pipeline conveying system comprises a second throttle valve (10) connected with the second air inlet joint (3), and a second electromagnetic valve (11) connected with the second throttle valve (10), wherein the second electromagnetic valve (11) is connected with one end of the first three-way valve (4), and a flow detector (12) is connected between the second throttle valve (10) and the second three-way valve (9).

4. An ozone delivery system as in claim 3, wherein: the other end of the second three-way valve (9) is connected with a test pipeline (13), and a pressure test meter (14) is arranged on the test pipeline (13).

5. An ozone delivery system as set forth in claim 4 wherein: the tail end of the test pipeline (13) is connected with a neutralization container (15), and the inside of the neutralization container (15) is filled with an aqueous solution (16).

6. An ozone delivery system as set forth in claim 5, wherein: and a warning lamp (17) is arranged on the top of the second air inlet joint (3) on the ozone generator (1).