DE102020214135A1 - Saturated Air Pressure Vessels - Google Patents

Abstract

This invention relates to the field of air filtration and more particularly to a galvanized steel pressurized saturated air vessel. The saturated air pressure vessel includes an air supply pressure vessel, a water supply pressure vessel, and a mount. The water supply pressure tank is placed on top of the bracket. A water supply port is provided at the bottom of the water supply pressure vessel, and a water connection port is provided at a position of the gas supply pressure vessel that is close to the water supply pressure vessel and lower than the bottom of the water supply pressure vessel.

Description

The invention relates to the technical field of air filtration, in particular to a saturated air pressure vessel and a salt water spray test device.

At present, the method of generating steam by heating water in a boiler to obtain saturated air at a constant pressure is generally used in industrial production. The saturated air obtained by this method has the characteristics of constant pressure.

However, the saturated air obtained by this method has the following disadvantages: the temperature of the obtained saturated air is high, and when a lower saturated air temperature is needed, the saturated air temperature must be lowered, which causes the efficiency to decrease the extraction of saturated air is reduced.

The object of the present invention is thus to provide a saturated air pressure vessel with improved characteristics.

This object is achieved by a saturated air pressure vessel according to claim 1.

The invention addresses the problems in the prior art and provides a saturated air pressure vessel capable of maintaining a constant pressure of pure saturated compressed air without high temperature.

• Ein Gesättigte-Luft-Druckbehälter, der durch diese Erfindung bereitgestellt ist, umfasst einen Luftversorgungsdruckbehälter und umfasst ferner einen Wasserversorgungsdruckbehälter und eine Halterung. Der Wasserversorgungsdruckbehälter befindet sich an der Oberseite der Halterung, und eine Wasserversorgungsöffnung ist an der Unterseite des Wasserversorgungsdruckbehälters vorgesehen. Eine Wasseraufnahmeöffnung ist an einer Position des Gasdruckbehälters vorgesehen, die in der Nähe einer Seite des Wasserversorgungsdruckbehälters und tiefer als die Unterseite des Wasserversorgungsdruckbehälters ist, und die Wasseraufnahmeöffnung und die Wasserversorgungsöffnung sind durch eine Wasserversorgungsleitung verbunden.

In order to solve the above technical problems, the present invention adopts the following technical solutions:

• A saturated air pressure vessel provided by this invention includes an air supply pressure vessel and further includes a water supply pressure vessel and a bracket. The water supply pressure tank is located at the top of the bracket, and a water supply port is provided at the bottom of the water supply pressure tank. A water receiving port is provided at a position of the gas pressure tank that is close to a side of the water supply pressure tank and lower than the bottom of the water supply pressure tank, and the water receiving port and the water supply port are connected by a water supply pipe.

Further, the water supply pressure tank is provided with an upper water level limit line; the bottom of the water supply pressure tank is level with the upper water level limit line.

Further, a first overflow port is provided on a side of the water supply pressure tank near an upper limit of the water level, and a second overflow port is provided on a side close to the water supply pressure tank.

Further, an air supply line is connected to the bottom of the air supply pressure tank, one end of the air supply line located inside the air supply pressure tank is connected to a circular ring, and the other end of the air supply line is used to connect an external air supply device; the surface of the circular ring is uniformly vented.

Further, an upper water level device and a lower water level device are provided on the inner side wall of the water supply pressure tank; in addition, an automatic water supply pipe is provided on the outside wall of the bottom of the water supply pressure tank.

The advantageous effect of the invention is that the water supply pressure tank is higher than the air supply pressure tank and the two are connected to each other. The connector principle ensures that the water supply pressure tank has sufficient water and also controls the temperature of the water in the air supply pressure tank to remain within a certain range. At the same time, when the saturated air pressure tank is working normally, the upper part of the air supply pressure tank leaves space due to the presence of air, and the pressure of the space is kept constant by the action of water pressure, thereby ensuring the constant output air pressure.

• 1 eine Vorderansicht eines Gesättigte-Luft-Druckbehälters der vorliegenden Erfindung; und
• 2 eine Vorderansicht einer Gasversorgungsvorrichtung einer Salzwassersprühprüfvorrichtung der vorliegenden Erfindung.

Preferred exemplary embodiments of the present invention are explained in more detail below with reference to the accompanying drawings. Show it:

• 1 Figure 12 is a front view of a saturated air pressure vessel of the present invention; and
• 2 Fig. 13 is a front view of a gas supply device of a salt water spray testing device of the present invention.

In order to facilitate understanding for those skilled in the art, the present invention will be described in more detail below with reference to the exemplary embodiments and the accompanying drawings. The content mentioned in the embodiments does not limit the present invention. The present invention will be described in detail below with reference to the drawings.

As in 1 As shown, a saturated air pressure vessel provided by the present invention comprises an air supply pressure vessel 1, a water supply pressure vessel 2 and a bracket 4. The water supply pressure vessel 2 is located at the top of the bracket 4 and the water supply pressure vessel 2 is at the Bottom is provided with a water supply port, and the air supply pressure tank 1 is provided with a water connection port in the vicinity of the water supply pressure tank 2 at a position lower than the bottom of the water supply pressure tank 2, and the water supply port and the water connection port are connected via a water supply pipe 3 via the connector principle connected to ensure that the air supply pressure tank 1 is properly connected; since the air-supply pressure tank 1 and the water-supply pressure tank 2 are always connected to each other, it is ensured that the temperature of the water in the air-supply pressure tank 1 is kept within a certain range; when the saturated air pressure vessel functions normally, the water level in the air supply pressure vessel 1 rises and compresses the inside air to generate a static pressure layer, and the pressure of the static pressure layer is kept constant by the action of the water pressure , which ensures the constant outlet pressure; by controlling the height of the beam 4, the height of the water level in the water supply pressure tank 2 and the caliber of the water supply pipe, the height of the air pressure in the static pressure layer can be controlled.

Further, the air supply pressure tank 1 is provided with an upper water level limit line 5, and the bottom of the water supply pressure tank 2 is level with the upper water level limit line 5. The upper water level limit line 5 can be set according to the air pressure required to pass on the air supply pressure. The positions of the water level line and the upper water level limit line 5 of the tank 1 are used to determine the real-time pressure of the static pressure layer, which is convenient for adjusting the gas supply speed with respect to the gas supply pressure tank 1 at all times.

Further, a first overflow port is provided on a side of the upper limit line 5 of the water level near the water supply pressure tank 2, and a second overflow port is provided on a side of the water supply pressure tank 2 near the air supply pressure tank 1, respectively. The first overflow opening is connected to the second overflow opening via the overflow line 6 . The second overflow opening is particularly preferably provided above the water surface of the water supply pressure tank 2 . When the air pressure in the air supply pressure tank 1 decreases and the water level exceeds the upper limit water level 5, the same can be increased by supplying air to the supply pressure tank 1, thereby allowing the water exceeding the upper water level limit line 5 to be released under the action of the air pressure is passed to the supply pressure tank 2 via the overflow line 6, so that the amount of water between the supply pressure tank 1 and the supply pressure tank 2 maintains a dynamic balance; maintaining a constant space at the top of the air supply pressure vessel 1 is advantageous to separate the filtered air from the water vapor and ensure the purity of the saturated outlet air.

Further, an air supply pipe 7 is connected to the bottom of the air supply pressure tank 1, one end of the air supply pipe 7 is connected to the air supply pressure tank 1 and the other end is connected to an external air supply device; the air supply pipe 7 is connected to the air supply pressure tank, one end of 1 is connected to an annular ring 8. The surface of the circular ring 8 is uniformly provided with overflow openings, which can allow air to enter the air pressure tank 1 from each of the overflow openings in the form of small bubbles, so that the air is completely filtered and the heat is more even.

Further, a transparent liquid sight tube 9 is provided on the outside wall of the air supply pressure tank 1, which makes it easier for users to observe the height of the water level in the air pressure tank 1 at any time, whereby the amount of air in the static pressure layer can be derived, which is the Adjusting the intake air made easier. The velocity of the saturated outlet air ensures the constant pressure of the static pressure layer.

Further, a temperature sensor 10 for measuring the temperature of the static pressure layer is provided on the inside of the top of the saturated pressure vessel 1, and the heating state of the air supply pressure vessel 1 for water can be adjusted by the measured temperature so that a satisfactory air temperature is reached; a safety valve 11 is provided on the outside of the top of the saturated pressure vessel 1 . Preferably, a pressure gauge 16 is also provided on the outside of the top of the supply pressure vessel 1 for real-time feedback of the pressure of the static pressure layer. When the air pressure is too high, the safety valve 11 can be opened for venting, so that the air pressure can be lowered to a safe level to prevent the gas supply pressure vessel 1 from exploding due to excessive air pressure.

Further, the inner side wall of the water supply pressure tank is provided with an upper water level device 12 and a lower water level device 13; the outside wall of the bottom of the water supply pressure vessel 1 is also provided with an automatic water supply line 14, when the water level in the water supply pressure vessel 2 is not higher than the lower water level, the water level device 13 is started, the water level device 13 sends a signal. After receiving the signal, the automatic water supply pipe 14 automatically opens and supplies the water supply pressure tank 2 with water. Similarly, when the water level in the water supply pressure tank 2 is not lower than the upper water level, the device 12 is activated and the upper water level device 12 sends a signal. After receiving the signal from the upper water level device 12, the automatic water supply line 14 stops the water supply to the water supply pressure tank 2, thereby ensuring that the amount of water in the water supply pressure tank 2 is always kept at a value and the pressure drop of the static pressure layer due to water shortage is avoided; automatic water supply can also effectively reduce manual operations and save costs. Preferably, the water supply pressure tank 2 is further provided with a manual water supply valve 15 . When forced water supply is required or the automatic water supply line 14 fails, the water supply pressure tank 2 can be manually supplied with water through the manual water supply valve 15, thereby improving the water supply pressure tank 2. work stability and reliability.

As in 2 , a brine spray testing apparatus of the present invention, the air supply device of which is a saturated air pressure vessel of Embodiment 1, the saturated air pressure vessel differs from Embodiment 1 in that: between the air supply line 7 and the external air supply device, a spray pressure control valve 17 is provided, which can adjust the state of the outlet air to adjust the pressure of the salt water spray, so that the salt water spray test can be better controlled. In addition, the characteristics and advantageous effects of the saturated air pressure vessel of this embodiment and the saturated air pressure vessel of embodiment 1 are the same, and the details are not described here again.

The above are only the preferred embodiments of the present invention and are not intended to limit the present invention in any way. Although the present invention is disclosed above as the preferred embodiment, it is not intended to limit the present invention. Those skilled in the art make some changes or modifications to equivalent embodiments using the disclosed technical content without departing from the scope of the technical solution of the present invention. The invention technology relates to simple changes, equivalent changes and modifications to the above embodiments, all of which fall within the scope of the technical solution of the invention.

Reference List

1

gas supply pressure vessel

2

water supply pressure tank

3

water supply line

4

bracket

5

upper water level line

6

overflow line

7

gas supply line

8th

circular ring

9

transparent liquid sight tube

10

temperature sensor

11

safety valve

12

Water Level Up Device

13

Water level down device

14

automatic water supply line

15

manual water supply valve

16

pressure gauge

17

spray regulator

Claims (6)

A galvanized steel saturated air pressure vessel comprising an air supply pressure vessel (1), a water supply pressure vessel (2) and a bracket (4), the water supply pressure vessel (2) being provided at the top of the bracket (4) and a water supply port at the bottom of the water supply pressure tank (2), and wherein the water supply pressure tank is provided with a water receiving port at a position which is close to a side of the water supply pressure tank (2) and lower than the bottom of the water supply pressure tank (2), and the water receiving port and the Water supply opening are connected by a water supply line (3). Saturated air pressure vessels according to claim 1 , characterized in that: the air supply pressure tank (1) is provided with an upper water level limit line (5); and the bottom of the water supply pressure tank (2) is level with the upper water level limit line (5). Saturated air pressure vessels according to claim 2 , characterized in that: a side of the air supply pressure tank (1) near the water supply pressure tank (2) is provided with a first overflow opening located at the upper limit of the water level (5), and a second overflow opening at the side in the Proximity of the air supply pressure tank (1) is provided and the first overflow opening and the second overflow opening are connected by an overflow pipe (6). Saturated air pressure vessel according to any one of Claims 1 until 3 , characterized in that: a gas supply line is connected to the underside of the air supply pressure vessel (1), and an annular ring (8) is connected to one end of the gas supply line which is located inside the air supply pressure vessel (1) for supply, the other end of the air supply line (7) is used to connect an external air supply device; the air overflow openings are evenly distributed on the surface of the circular ring (8). Saturated air pressure vessel according to any one of Claims 1 until 4 wherein a transparent liquid sight tube (9) is provided on the outside wall of the air supply pressure vessel (1). Saturated air pressure vessel according to any one of Claims 1 until 5 wherein a temperature sensor (10) is provided inside the top of the air supply pressure tank (1) and a safety valve (11) is provided outside the top of the air supply pressure tank.

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