CN213699322U - Aerodynamic energy storage tank - Google Patents

Abstract

The utility model belongs to the technical field of the technique of energy conversion equipment and specifically relates to an aerodynamic energy storage tank is related to, and it includes a jar body, intake pipe and outlet duct communicate respectively in a jar body, still include filtering component and sensing component, filtering component is including straining a section of thick bamboo, it is internal to strain a section of thick bamboo one end and locate a jar, strain a section of thick bamboo other end and communicate in the intake pipe, just strain and seted up a plurality of first filtration pores on the section of thick bamboo, sensing component includes humidity transducer and display panel, it is internal that the jar is located to humidity transducer one end, the humidity transducer other end is connected in the display panel, jar external. Impurities in the compressed air are prevented from being in the filter cartridge, the compressed air enters the tank body from the first filter hole, and moisture adsorbed on the filter cartridge is displayed on the display panel through the humidity sensor. This application has the effect of improving jar internal compressed air quality.

Description

Aerodynamic energy storage tank

Technical Field

The application relates to the technical field of energy conversion equipment, in particular to an aerodynamic energy storage tank.

Background

The air energy refers to low-grade heat energy contained in the air, and water energy, wind energy, solar energy, tidal energy and the like belong to clean energy, and the aerodynamic energy storage tank refers to storage equipment for storing or containing the air energy.

Referring to fig. 1, the aerodynamic energy storage tank comprises a tank body 1, wherein the tank body 1 is respectively communicated with an air inlet pipe 11 and an air outlet pipe 12, the air inlet pipe 11 and the air outlet pipe 12 are respectively provided with a safety valve 13, a pressure sensor 33 is arranged in the tank body 1, the pressure sensor 33 is connected with a pressure gauge 34, and the pressure gauge 34 is arranged on the outer wall of the tank body 1. The pressure sensor 33 can detect the pressure of the compressed air in the tank 1, and the pressure gauge 34 can display the pressure value, so as to reflect the volume of the compressed air in the tank 1. Compressed air is stored in the tank body 1 through the air inlet pipe 11, and the compressed air in the tank body 1 is output for use through the air outlet pipe 12.

With respect to the above-described related art, the inventors consider that: compressed air directly pours into jar internal storage through the air inlet, and the ubiquitous impurity that has among the compressed air to cause jar internal compressed air quality not good.

SUMMERY OF THE UTILITY MODEL

In order to improve the quality of jar internal compressed air, this application provides an aerodynamic energy storage tank.

The application provides an aerodynamic energy storage tank adopts following technical scheme:

the utility model provides an aerodynamic energy storage tank, its includes a jar body, intake pipe and outlet duct communicate respectively in a jar body, still include filter assembly and sensing assembly, filter assembly is including straining a section of thick bamboo, it is internal to strain a section of thick bamboo one end and locate a jar, strain a section of thick bamboo other end and insert and locate the intake pipe, just strain and seted up a plurality of first filtration pores on the section of thick bamboo, sensing assembly includes humidity transducer and display panel, humidity transducer one end is located a jar internally, the humidity transducer other end is connected in the display panel, jar external wall is located to the display panel.

By adopting the technical scheme, impurities in the compressed air are prevented in the filter cylinder after being filtered by the filter cylinder, and the compressed air enters the tank body from the first filter hole. The impurities contain water, and the water is adsorbed on the filter cartridge and is displayed through the display panel under the action of the humidity sensor. Impurity in the partly compressed air is got rid of to filtering component to display effect through sensing component makes this scheme have the effect of improving jar internal compressed air quality.

Optionally, the filter assembly further comprises two filter plates, wherein a plurality of second filter holes are formed in the two filter plates, and a filter cavity for containing adsorptive substances is formed between the two filter plates.

Through adopting above-mentioned technical scheme, the adsorbability material can be the active carbon granule package, and when compressed air passed through the filter chamber, behind the adsorbability material adsorption of a part dust granule, compressed air gets into jar body to further improve jar internal compressed air's quality.

Optionally, a set of sliding blocks is respectively arranged on the two filter plates, a first sliding groove is formed in the inner wall of the filter cylinder corresponding to the set of sliding blocks, a second sliding groove is formed in the inner wall of the filter cylinder corresponding to the other set of sliding blocks, and the sliding blocks are respectively embedded in the first sliding groove and the second sliding groove in a sliding manner.

Through adopting above-mentioned technical scheme, slide respectively through the slider and inlay and establish at first spout and second spout, and then be convenient for operating personnel dismouting filter plate to make operating personnel conveniently change the adsorptivity material.

Optionally, the filter assembly further comprises a filter box arranged in the tank body, the filter box is provided with a plurality of third filter holes, and the filter cartridge is arranged in the filter box in a penetrating manner.

Through adopting above-mentioned technical scheme, compressed air gets into the filter box after the chimney filter is once, fills at the internal at the jar after the secondary filter of filter box to make the internal compressed air quality of outflow of jar further improve.

Optionally, the inner wall of the filter box is provided with a limiting pipe, and the filter cartridge is inserted into the limiting pipe.

Through adopting above-mentioned technical scheme, spacing pipe is located on the filter box, strains a section of thick bamboo and establishes in spacing intraductal through inserting for strain a section of thick bamboo and be difficult to skew intake pipe and take place to rotate the damage, thereby make the life who strains a section of thick bamboo improve.

Optionally, one end of the filter cylinder penetrates through the air inlet pipe and is detachably connected with a connecting pipe, and a safety valve is arranged at the end part, far away from the filter cylinder, of the connecting pipe in a communicated manner.

Through adopting above-mentioned technical scheme, open the relief valve, compressed gas gets into from the connecting pipe in proper order and strains a section of thick bamboo and a jar body, and strains a section of thick bamboo and connecting pipe through can dismantling the mode dismouting to it strains a section of thick bamboo to be convenient for operating personnel takes out.

Optionally, the inner wall of the filter cylinder is provided with a magnetic plate for adsorbing metal particles in air.

By adopting the technical scheme, after the compressed air enters the filter cylinder, metal particles in the compressed air can be adsorbed by the magnetic plate, so that impurities in the compressed air are reduced.

Optionally, an accommodating groove is formed in the inner wall of the filter cylinder, and the magnetic plate abuts against the inner wall of the accommodating groove.

Through adopting above-mentioned technical scheme, when compressed air entered the holding tank, under the effect of magnetic sheet, the metal particle in the compressed air is adsorbed by the magnetic sheet for the metal particle is difficult to be taken into the jar body by compressed air.

In summary, the present application includes at least one of the following beneficial technical effects:

1. impurities are prevented in the filter cartridge, compressed air enters the tank body from the first filter hole, and the humidity condition at the filter cartridge can be displayed under the action of the humidity sensor;

2. compressed air passes through the filter chamber, partial dust is sucked by adsorptive substances, and the compressed air enters the tank body;

3. the filter cartridge and the connecting pipe are detachably mounted, so that an operator can take out the filter cartridge conveniently.

Drawings

FIG. 1 is a schematic diagram of the structure of an aerodynamic energy storage tank of the background of the present application;

FIG. 2 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 3 is a schematic structural view of a filter assembly according to an embodiment of the present application;

FIG. 4 is a schematic view of a filter cartridge according to an embodiment of the present disclosure.

Description of reference numerals: 1. a tank body; 11. an air inlet pipe; 12. an air outlet pipe; 13. a safety valve; 14. a support leg; 15. a pressure relief valve; 2. a filter assembly; 21. a filter cartridge; 211. a first filter hole; 212. a first chute; 213. a second chute; 214. accommodating grooves; 215. an external thread; 22. filtering the plate; 221. a second filter hole; 222. a filter chamber; 223. a slider; 23. a filter box; 231. a third filter hole; 24. a limiting pipe; 25. a connecting pipe; 251. an internal thread; 26. a magnetic plate; 3. a sensing component; 31. a humidity sensor; 32. a pressure sensor; 33. a display panel; 34. and a pressure gauge.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses aerodynamic energy storage tank, refer to fig. 2, and it includes jar body 1, filter component 2 and sensing component 3, and filter component 2 and sensing component 3 install respectively on jar body 1. Under the effect of the filter component 2, the impurity content in the compressed air output from the tank body to the outside is obviously reduced compared with the impurity content in the compressed air input into the tank body, so that the quality of the compressed air is improved, and the impurity contains moisture and the capacity change of the compressed air in the tank body 1 can be displayed through the sensing component 3.

The sensing assembly 3 comprises a humidity sensor 31, a pressure sensor 32 and a display panel 33, wherein a probe of the humidity sensor 31 is arranged in the filter assembly 2 in a penetrating way, an output part of the humidity sensor 31 is connected with the display panel 33, and the moisture content on the filter assembly 2 is displayed through the display panel 33; the probe of the pressure sensor 32 is inserted into the tank 1, the other end of the pressure sensor 32 is also connected to the display panel 33, and the display panel 33 displays the pressure of the compressed air inside the tank 1.

An air inlet pipe 11 is arranged on one side of the lower part of the cylinder-like tank body 1, an air outlet pipe 12 is arranged on the other side of the upper part of the tank body 1 opposite to the air inlet pipe 11, safety valves 13 are respectively arranged and communicated on the air inlet pipe 11 and the air outlet pipe 12, and the safety valves 13 can open and close the air inlet pipe 11 or the air outlet pipe 12 so as to control the inlet and outlet of compressed air in the tank body 1.

The three landing legs 14 are arranged on the circumferential array of the bottom of the tank body 1, the tank body 1 is separated from the ground by the three landing legs 14, the pressure release valve 15 is communicated and installed at the bottom of the tank body 1, the display panel 33 displays that the internal pressure of the tank body 1 exceeds a normal range under the sensing action of the pressure sensor 32, the pressure release valve 15 can be selectively opened, and then the pressure of compressed air inside the tank body 1 is controlled.

Referring to fig. 2 and 3, the filter assembly 2 includes a filter cartridge 21, two filter plates 22 and a filter box 23, one end of the filter cartridge 21 is an opening portion, the other end of the filter cartridge 21 is a sealing portion, the sealing portion and the peripheral wall of the filter cartridge 21 close to the sealing portion are uniformly provided with first filter holes 211, and the two filter plates 22 are uniformly provided with second filter holes 221.

Filter box 23 is the rectangle form, has evenly seted up a plurality of third filtration pores 231 on filter box 23, and filter box 23 upper portion four corners and the equal fixed connection in jar body 1 inner wall in lower part four corners, and intake pipe 11 communicates in filter box 23, and filter box 23 is inside to be deposited with the drying nature material that is arranged in absorbing moisture among the compressed air, and the drying nature material can be active carbon.

A limiting pipe 24 is fixedly communicated with one side of the inner wall of the filter box 23, which is opposite to the air inlet pipe 11, the shape of the limiting pipe 24 is matched with that of the filter cartridge 21, the closed part of the filter cartridge 21 is abutted against the inner wall of the limiting pipe 24, the opening part of the filter cartridge 21 penetrates out of the air inlet pipe 11, and the outer wall of the filter cartridge 21, which is positioned in the air inlet pipe 11, is abutted against the inner wall of the air. An external thread 215 is formed on the outer wall of the filter cartridge 21 penetrating through the air inlet pipe 11, and a connecting piece is detachably connected to the end part of the filter cartridge 21 penetrating through the air inlet pipe 11, wherein the connecting piece is a connecting pipe 25. The connection pipe 25 has an internal thread 251 formed on an inner wall thereof adjacent to the filter cartridge 21, the filter cartridge 21 is connected to the connection pipe 25 by the external thread 215 and the internal thread 251 being engaged with each other, and an end of the connection pipe 25 abuts on an end of the intake pipe 11 remote from the canister body 1. The end of the connecting pipe 25 far away from the air inlet pipe 11 is provided with a flange and is communicated with the safety valve 13 through the flange.

Referring to fig. 4, the two filter plates 22 are both circular plate-shaped objects, and a set of slide blocks 223 symmetrically arranged along the filter plates are fixedly connected to each of the two filter plates 22. The set of sliders 223 is two sliders 223. The filter cartridge 21 is provided with a set of first sliding grooves 212 and a set of second sliding grooves 213 which are symmetrical from the opening end to the middle part and along the axis direction, the length of the first sliding grooves 212 is longer than that of the second sliding grooves 213, two first sliding grooves 212 are provided, and two second sliding grooves 213 are provided. The sliding blocks 223 are movably abutted to the ends of the first chute 212 and the second chute 213, the peripheral walls of the filter plates 22 abut against the inner wall of the filter cartridge 21, a filter cavity 222 is formed between the peripheral walls of the filter plates 22 and the filter cartridge 21, active substances for adsorbing dust particles are stored in the filter cavity 222, and the adsorptive substances can be activated carbon particles.

A receiving groove 214 is further formed on the peripheral wall of the filter cartridge 21 between the first filter hole 211 and the first sliding groove 212, an annular magnetic plate 26 is abutted in the receiving groove 214, and the magnetic plate 26 has an effect of adsorbing metal particles, so that the metal particles are reduced from entering the tank body 1.

The filter box 23, the filter cartridge 21 and the limiting pipe 24 increase the inner wall area of the tank body 1, thereby improving the pressure resistance of the tank body 1.

The implementation principle of the embodiment of the application is as follows:

when the safety valve 13 at the opening of the filter cartridge 21 is opened, compressed air is input from the opening of the filter cartridge 21 to the closing part of the filter cartridge 21, dust particles in the compressed air are reduced by the active material in the filter chamber 222, metal particles in the compressed air are reduced by the magnetic plate 26 in the receiving groove 214, and the compressed air is stopped at the filter cartridge 21 and the filter box 23 by the first filter hole 211 near the closing part of the filter cartridge 21 and the filter box 23, thereby improving the quality of the compressed air output from the tank body 1 to the outlet pipe 12.

The filter assembly 2 can be replaced or cleaned by unscrewing the connecting tube 25 from the filter cartridge 21 and then removing the filter cartridge 21 and thus the filter plate 22.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an aerodynamic energy storage tank, includes a jar body (1), intake pipe (11) and outlet duct (12) communicate respectively in jar body (1), its characterized in that: still include filter assembly (2) and sensing element (3), filter assembly (2) are including straining a section of thick bamboo (21), strain a section of thick bamboo (21) one end and locate jar body (1) in, strain a section of thick bamboo (21) other end and insert and locate intake pipe (11), just strain and seted up a plurality of first filtration pores (211) on a section of thick bamboo (21), sensing element (3) are including humidity transducer (31) and display panel (32), humidity transducer (31) one end is located in jar body (1), humidity transducer (31) other end is connected in display panel (32), jar body (1) outer wall is located in display panel (32).

2. An aerodynamic energy storage tank according to claim 1, characterized in that: the filter assembly (2) further comprises two filter plates (22), a plurality of second filter holes (221) are formed in the two filter plates (22), and a filter cavity (222) for containing adsorptive substances is formed between the two filter plates (22).

3. An aerodynamic energy storage tank according to claim 2, characterized in that: two be equipped with a set of slider (223) on the filter plate (22) respectively, it is equipped with first spout (212) to strain an inner wall of section of thick bamboo (21) and correspond a set of slider (223), it is equipped with second spout (213) to strain an inner wall of section of thick bamboo (21) and correspond another set of slider (223), slider (223) are the slip respectively and are inlayed and locate in first spout (212) and second spout (213).

4. An aerodynamic energy storage tank according to claim 1, characterized in that: the filter assembly (2) further comprises a filter box (23) arranged in the tank body (1), a plurality of third filter holes (231) are formed in the filter box (23), and the filter cartridge (21) penetrates through the filter box (23).

5. An aerodynamic energy storage tank according to claim 4, characterized in that: the inner wall of the filter box (23) is provided with a limiting pipe (24), and the filter cartridge (21) is inserted into the limiting pipe (24).

6. An aerodynamic energy storage tank according to claim 1, characterized in that: one end of the filter cylinder (21) penetrates through the air inlet pipe (11) and is detachably connected with a connecting pipe (25), and the end part, far away from the filter cylinder (21), of the connecting pipe (25) is communicated with a safety valve (13).

7. An aerodynamic energy storage tank according to claim 1, characterized in that: the inner wall of the filter cylinder (21) is provided with a magnetic plate (26) for adsorbing metal particles in the air.

8. An aerodynamic energy storage tank according to claim 7, characterized in that: the inner wall of the filter cylinder (21) is provided with a containing groove (214), and the magnetic plate (26) is abutted to the inner wall of the containing groove (214).

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