KR20210142236A - Saturated air pressure bucket - Google Patents

Abstract

The present invention relates to the field of air filtration, and more particularly to a saturated air pressure bucket of stainless steel. The saturated air pressure bucket includes an air supply pressure bucket, a water supply pressure bucket, and a bracket. The water supply pressure bucket is disposed on the top of the bracket. A water supply hole is provided at the bottom of the water supply pressure bucket, and a water connection hole lower than the bottom of the water supply pressure bucket is provided at a position of the air supply pressure bucket near the water supply pressure bucket. The saturated air pressure bucket of the present invention can obtain non-high temperature pure saturated compressed air of constant pressure.

Description

Saturated Air Pressure Bucket

FIELD OF THE INVENTION The present invention relates to the technical field of air filtration, and more particularly to saturated air pressure buckets and seawater jet testers.

Currently, a method of heating water in a boiler to generate steam to obtain saturated air at a constant pressure is commonly used in industrial production. The saturated air obtained in this way has the characteristic of static pressure.

However, the saturated air obtained by this method has the following disadvantages: the temperature of the obtained saturated air is high, and if saturated air with a lower temperature is required, the temperature of the saturated air must be lowered, which has the disadvantage that leads to a decrease in the yield efficiency of

SUMMARY OF THE INVENTION The present invention aims to solve the problems of the prior art and provides a saturated air pressure bucket in which positive pressure non-high temperature pure saturated compressed air can be obtained.

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

The saturated air pressure bucket provided by the present invention includes an air supply pressure bucket, and further includes a water supply pressure bucket and a bracket. A water supply pressure bucket is provided at the top of the bracket, and the water supply pressure bucket has a water supply hole at the bottom. The air pressure bucket has a water receiving hole at a position lower than the bottom of the water supply pressure bucket near one side of the water supply pressure bucket, and the water supply hole and the water receiving hole are connected through a water supply pipe.

Further, the air supply pressure bucket has a water level upper limit; The bottom of the water supply pressure bucket is flush with the upper water level.

Also, near the upper limit of the water level, a first overflow hole is provided on the side of the air supply pressure bucket, and a second overflow hole is provided on the side of the water supply pressure bucket.

In addition, an air supply pipe is connected to the bottom of the air supply pressure bucket, one end of the air supply pipe located inside the air supply pressure bucket is connected to the annular ring, and the other end of the air supply pipe is used to connect an external air supply device; Ventilation (overflow) holes are uniformly distributed on the surface of the annular ring.

Further, an upper water level device and a lower water level device are provided on the inner wall of the water supply pressure bucket; An automatic water supply pipe is also provided on the outer wall of the bottom of the water supply pressure bucket.

An advantageous effect of the present invention is that the water supply pressure bucket is positioned higher than the air supply pressure bucket and the two buckets are connected. The principle of the connector is that the water supply pressure bucket has enough water, and the temperature of the water in the air supply pressure bucket is controlled to keep it within a certain range. At the same time, when the saturated air pressure bucket is operating normally, the upper end of the air supply pressure bucket is left with a space due to the presence of air, and the pressure in the space is kept constant by the action of water pressure, so that the output air pressure is constant .

1 is a front view of a saturated air pressure bucket of the present invention;
Figure 2 is a front view of the air supply device of the salt spray tester of the present invention.

In order that those skilled in the art may readily understand, the present invention is further described below with reference to examples and accompanying drawings. The contents mentioned in the examples do not limit the present invention. Hereinafter, the present invention will be described in more detail with reference to the drawings.

As shown in FIG. 1 , the saturated air pressure bucket provided by the present invention includes an air supply pressure bucket 1 , a water supply pressure bucket 2 , and a bracket 4 . The water supply pressure bucket 2 is disposed on the upper part of the bracket 4 , the water supply pressure bucket 2 has a water supply hole at the bottom, and the air supply pressure bucket 1 has a water supply pressure bucket 2 . A water connection (receiving) hole is provided near the water supply pressure bucket 2 at a position lower than the bottom of the , and the water supply hole and the water connection hole are connected through the water supply pipe 3 . Make the water supply pressure bucket 1 have enough water through the principle of the connector; The water supply pressure bucket 2 is always connected through the air supply pressure bucket 1, so that the temperature of the water in the air supply pressure bucket 1 is maintained within a certain range; In saturated air, when the pressure bucket operates normally, the water level of the air supply pressure bucket 1 rises, and the internal air is compressed to create a static pressure layer, and the pressure of the static pressure layer is constant by the action of water pressure. by keeping the output pressure constant. By controlling the height of the bracket 4, the height of the water level in the water supply pressure bucket 2, and the diameter of the water supply pipe 3, the magnitude of the air pressure in the static pressure layer can be controlled.

Further, the air supply pressure bucket 1 has an upper water level limit 5 , and the bottom of the water supply pressure bucket 2 is flush with the water level upper limit 5 . An upper water level limit (5) can be set according to the air pressure required to pass the air supply pressure bucket. The water level line of the air supply pressure bucket 1 and the position of the water level upper limit line 5 are used to determine the real-time pressure in the static pressure layer, which is convenient for adjusting the air supply speed to the air supply pressure bucket 1 at any time.

Further, a first overflow hole is provided on the side of the air supply pressure bucket 1 near the upper limit 5 of the water level in the vicinity of the water supply pressure bucket 2 , and correspondingly, water near the air supply pressure bucket 1 is provided. A second overflow hole is provided on the side of the supply pressure bucket 2 . The first overflow hole is connected to the second overflow hole through the overflow pipe (6). Most preferably, the second overflow hole is provided above the water surface of the water supply pressure bucket 2 . When the air pressure in the air supply pressure bucket (1) decreases and the water level exceeds the upper limit (5) of the water level, the increase in air flowing into the air supply pressure bucket (1) causes the water to exceed the upper limit (5) of the water level to be left in the water supply pressure bucket 2 by the overflow pipe 6 under the influence of the air pressure, so that the amount of water between the air supply pressure bucket 1 and the water supply pressure bucket 2 maintains a dynamic balance. be able to When a constant space is maintained at the upper end of the air supply pressure bucket 1, it is advantageous to separate the filtered air from water vapor and to ensure the purity of the output saturated air.

In addition, an air supply pipe 7 is connected to the bottom of the air supply pressure bucket 1, one end of the air supply pipe 7 is connected to the air supply pressure bucket 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 bucket (1), and one end is connected to the annular ring (8). Overflow holes are uniformly distributed on the surface of the annular ring 8, which allows air to enter the air supply pressure bucket 1 from each overflow hole in the form of small bubbles, so that the air is sufficiently filtered and The heat becomes more uniform.

In addition, a transparent liquid see-through tube 9 is provided on the outer wall of the air supply pressure bucket 1, which induces the amount of air in the static pressure layer by observing the height of the water level in the air supply pressure bucket 1 at any time by the user. It is convenient to do this, which is convenient for adjusting the input air. The velocity of the output saturated air is such that a static pressure is maintained in the static pressure layer.

In addition, a temperature sensor 10 for measuring the temperature of the static pressure layer is provided inside the upper portion of the air supply pressure bucket 1, and the heating condition of the air supply pressure bucket 1 for water is adjusted by the measured temperature. Thus, it is possible to provide a satisfactory air temperature. A safety valve 11 is provided outside the upper portion of the air supply pressure bucket 1 . Preferably, a pressure gauge 16 that feeds back the pressure of the static pressure layer in real time is also provided on the upper outer side of the air supply pressure bucket 1 . If the air pressure is too high, the safety valve 11 is opened to release the air, so that the air pressure is lowered to a safe value, so as to avoid the air supply pressure bucket 1 from exploding due to the excessive air pressure.

Further, the inner wall of the water supply pressure bucket has an upper water level device 12 and a lower water level device 13; The bottom outer wall of the water supply pressure bucket 2 is also equipped with an automatic water supply pipe 14, so that when the water level in the water supply pressure bucket 2 is not higher than when the lower water level device 13 starts operation, the lower water level The device 13 will transmit a signal. After receiving the signal, the automatic water supply pipe 14 is automatically opened to supply water to the water supply pressure bucket 2 . Similarly, when the upper water level device 12 is activated when the water level of the water supply pressure bucket 2 is not lower than the upper water level, the upper water level device 12 transmits a signal. After receiving the signal from the upper water level device 12, the automatic water supply pipe 14 stops the water supply to the water supply pressure bucket 2, so that the amount of water in the water supply pressure bucket 2 is always at a constant value. to keep it If the pressure drop in the static pressure layer due to insufficient water can be avoided, the manual operation can be effectively reduced by automatic water supply and the cost can be saved. Preferably, the water supply pressure bucket 2 is further provided with a manual water supply valve 15 . When artificial water supply is required or the automatic water supply pipe 14 is broken, water can be added manually to the water supply pressure bucket 2 by means of the manual water supply valve 15, which is the water supply pressure bucket 2 improve the working stability and reliability of

As shown in Fig. 2, in the salt spray tester of the present invention in which the air supply device is the saturated air pressure bucket of Example 1, the saturated air pressure bucket includes: adjusting the injection pressure between the air supply pipe 7 and the external air supply device It is different from Embodiment 1 in that a valve 17 is installed, which can adjust the pressure of the seawater injection by adjusting the state of the output air, thereby better controlling the seawater injection test. In addition, the characteristics and advantageous effects of the saturated air pressure bucket of this embodiment and the saturated air pressure bucket of Embodiment 1 are the same, and thus, detailed descriptions are not provided herein again.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any form. Although the present invention has been disclosed as a preferred embodiment above, it is not intended to limit the present invention. It is possible for those skilled in the art to slightly change or modify equivalent embodiments by using the disclosed technical contents without departing from the scope of the technical solutions of the present invention. Anyone who does not depart from the technical solution of the present invention will understand that the description of the present invention refers to any simple modifications, equivalent changes and modifications made to the above embodiments, all of which are of the technical solutions of the present invention. fall within the scope

1: Air supply pressure bucket, 2: Water supply pressure bucket, 3: Water supply tube, 4: Bracket, 5: Water level upper limit, 6: Overflow tube, 7: Air supply tube, 8: Annular ring, 9: Transparent liquid see-through tube 10: temperature sensor, 11: safety valve, 12: upper water level device, 13: lower water level device, 14: automatic water supply pipe, 15: manual water supply valve, 16: pressure gauge, 17: injection regulator (injection pressure regulating valve).

Claims (6)

A stainless steel saturated air pressure bucket comprising:
including an air supply pressure bucket, a water supply pressure bucket and a bracket;
The water supply pressure bucket is provided on the upper part of the bracket, the water supply pressure bucket has a water supply hole at the bottom,
The air supply pressure bucket has a water accommodating hole at a position lower than the bottom of the water supply pressure bucket near one side of the water supply pressure bucket, and the water supply hole and the water accommodating hole are connected through a water supply pipe to a saturated air pressure bucket. The air supply pressure bucket according to claim 1, wherein the air supply pressure bucket has an upper water level limit; A saturated air pressure bucket, characterized in that the bottom of the water supply pressure bucket is flush with the water level upper limit. 3. The water supply pressure bucket according to claim 2, wherein one side of the air supply pressure bucket close to the water supply pressure bucket has a first overflow hole located at the upper limit of the water level, and the one side of the water supply pressure bucket near the air supply pressure bucket has a second overflow hole. A saturated air pressure bucket having a flow hole, wherein the first overflow hole and the second overflow hole are connected through an overflow tube. According to claim 1, wherein an air supply pipe is connected to the bottom of the air supply pressure bucket, an annular ring for supply is connected to one end of the air supply pipe located inside the air supply pressure bucket, and the other end of the air supply pipe is an external air supply device. used to connect; Saturated air pressure bucket, characterized in that air overflow holes are uniformly distributed on the surface of the annular ring. The saturated air pressure bucket according to claim 1, wherein an outer wall of the air supply pressure bucket is provided with a transparent liquid see-through tube. The saturated air pressure bucket according to claim 1, wherein a temperature sensor is provided on an upper inner side of the air supply pressure bucket and a safety valve is provided on an upper outer side of the air supply pressure bucket.

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