CN112023641A - High-pressure air dehumidifying device - Google Patents

Abstract

The invention discloses a high-pressure air dehumidifying device which comprises a main hollow shell, wherein one side inside the main hollow shell is provided with an air storage space of a sealing area, the other side inside the main hollow shell is provided with an open air drying area, and a main exhaust hole communicated with the center of the end part of the air storage space and the center of the end part of the air drying area is formed inside the main hollow shell. According to the invention, the piston in the internal sealing area is controlled through the telescopic reciprocating machine, so that the piston is driven, a strong high-pressure state is generated in the piston, internal liquid particles can be infinitely amplified under the action of strong atmospheric pressure, further tiny liquid particles can be mutually fused to form larger water drops, then, the sealing area is instantly opened, internal humid air can be instantly released, the high-pressure flow velocity effect is achieved, the internal water drops are further compressed, the volume of the water drops is further enlarged, and the dehumidification effect is further improved.

Description

High-pressure air dehumidifying device

Technical Field

The invention relates to the technical field of air dehumidification, in particular to a high-pressure air dehumidification device.

Background

At present, the existing air dehumidification is still poor in dehumidification degree, and the main reasons are as follows: the wet air has a relatively high degree of mixing under the precondition of atmospheric pressure.

Disclosure of Invention

The present invention is directed to a high pressure air dehumidifier to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a high-pressure air dehumidifying device comprises a main hollow shell, wherein one side inside the main hollow shell is provided with an air storage space in a sealed area, the other side inside the main hollow shell is provided with an open air drying area, a main exhaust hole communicated with the end center of the air storage space and the end center of the air drying area is arranged inside the main hollow shell, a main first air inlet communicated with the external space and one end surface of the air storage space is arranged inside the main hollow shell, an air one-way valve is arranged inside the main first air inlet, an exhaust port of the air one-way valve faces the air storage space, an electronic air valve is arranged inside the main exhaust hole, an electronic air valve controller is arranged on the side surface of the main hollow shell, and the control input end of the electronic air valve is connected with the control output end of the electronic air valve controller through a lead penetrating through the internal structure of the main hollow shell, the main hollow shell is located a dry granule formula adsorption apparatus of cambered surface of the interval internally mounted of air drying constructs, main hollow shell is being located a main piston is laid to air storage space's inside, a terminal surface center installation main telescopic link of main piston, the body of rod of main telescopic link runs through a terminal surface of main hollow shell, and both install main high-pressure seal circle between running through the position, main telescopic link is lieing in the outside one end of main hollow shell and the flexible end fixed connection of a reciprocating type telescopic machine, just reciprocating type telescopic machine installs the tip at main hollow shell.

Further, dry granular adsorption device of cambered surface includes that dry granular adsorption device of cambered surface is with first filter housing, dry granular adsorption device of cambered surface is with the second filter housing, dry granular adsorption device of cambered surface is with screw thread structure, dry granular adsorption device of cambered surface is with cambered surface structure, dry granular adsorption device of cambered surface is with gas pocket and dry granular adsorption device of cambered surface for the mechanism drier storage space.

Furthermore, the cambered surface dry particle type adsorption mechanism is connected between the opposite end surfaces through a cambered surface dry particle type adsorption mechanism by a thread structure through a first filtering shell and a cambered surface dry particle type adsorption mechanism by a second filtering shell, the outer sides of the first filtering shell for the cambered surface dry particle type adsorption mechanism and the second filtering shell for the cambered surface dry particle type adsorption mechanism are provided with cambered surface structures for the cambered surface dry particle type adsorption mechanism, the housing of the first filtering shell for the cambered surface dry particle type adsorption mechanism and the housing of the second filtering shell for the cambered surface dry particle type adsorption mechanism are provided with a plurality of air holes for the cambered surface dry particle type adsorption mechanism, which are communicated with the two sides of the housing, the cambered surface dry particle formula adsorption mechanism is with first filtration shell and cambered surface dry particle formula adsorption mechanism is with the inside of second filtration shell for hollow structure, forms cambered surface dry particle formula desiccant storage space for adsorption mechanism.

Further, the cambered surface dry particle formula is helicitic texture for adsorption apparatus constructs including setting up at cambered surface dry particle formula adsorption apparatus for the first filter shell side outlying external screw thread structure and setting up at cambered surface dry particle formula adsorption apparatus for the second filter shell side inboard internal thread structure, and external screw thread structure kneads with the internal thread structure mutually.

Furthermore, the drying agent storage space for the cambered surface drying particle type adsorption mechanism is filled with a solid drying agent, the first filtering shell for the cambered surface drying particle type adsorption mechanism and the second filtering shell for the cambered surface drying particle type adsorption mechanism are installed in the air drying region, and the cambered surface structure located at the position of the first filtering shell for the cambered surface drying particle type adsorption mechanism faces the main exhaust hole.

Furthermore, the reciprocating type telescopic machine is a mechanism capable of controlling the rod body to reciprocate in a balanced manner.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the piston in the internal sealing area is controlled through the telescopic reciprocating machine, so that the piston is driven, a strong high-pressure state is generated in the piston, internal liquid particles can be infinitely amplified under the action of strong atmospheric pressure, further tiny liquid particles can be mutually fused to form larger water drops, then, the sealing area is instantly opened, internal humid air can be instantly released, the high-pressure flow velocity effect is achieved, the internal water drops are further compressed, the volume of the water drops is further enlarged, and the dehumidification effect is further improved.

Drawings

FIG. 1 is a schematic diagram of a high-pressure air dehumidifier according to the present invention;

FIG. 2 is a schematic structural diagram of a cambered surface drying particle type adsorption mechanism in the high-pressure air dehumidification device according to the present invention;

in the figure: 1, a main hollow shell, 2, an air storage space, 3, an air drying interval, 4, a main exhaust hole, 5, a main first air inlet hole, 6, an air one-way valve, 7, an electronic air valve, 8, a lead, 9, an electronic air valve controller, 10, a reciprocating type telescopic machine, 11, a main high-pressure sealing ring, 12, a main telescopic rod, 13, a main piston, 14, an arc surface dry particle type adsorption mechanism, 141, a first filtering shell for the arc surface dry particle type adsorption mechanism, 142, a second filtering shell for the arc surface dry particle type adsorption mechanism, 143, a thread structure for the arc surface dry particle type adsorption mechanism, 144, an arc surface structure for the arc surface dry particle type adsorption mechanism, 145, an air hole for the arc surface dry particle type adsorption mechanism, 146, and a drying agent storage space for the arc surface dry particle type adsorption mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: including main hollow shell 1, the inside one side of main hollow shell 1 is equipped with an air storage space 2 of sealing area, the inside opposite side of main hollow shell 1 is equipped with the air drying interval 3 of an open type, the inside of main hollow shell 1 is equipped with the main exhaust hole 4 that communicates 2 tip centers of air storage space and 3 tip centers of air drying interval, the inside of main hollow shell 1 is equipped with the main first inlet port 5 of intercommunication external space and 2 terminal surfaces of air storage space, an internally mounted air check valve 6 of the main first inlet port 5, just the gas vent of air check valve 6 is towards air storage space 2, an internally mounted electronic air valve 7 of main exhaust hole 4, a side-mounting electronic air valve controller 9 of main hollow shell 1, the control input of electronic air valve 7 is even with the control output of electronic air valve controller 9 through the wire 8 that runs through the main hollow shell 1 inner structure Connect, main hollow casing 1 is lieing in a dry granular adsorption device 14 of the internally mounted cambered surface of the interval 3 of air drying, main hollow casing 1 is lieing in a main piston 13 is laid to the inside of air storage space 2, a terminal surface center installation main telescopic link 12 of main piston 13, the body of rod of main telescopic link 12 runs through a terminal surface of main hollow casing 1, and both install main high-pressure seal circle 11 between running through the position, main telescopic link 12 is lieing in the outside one end of main hollow casing 1 and the flexible end fixed connection of a reciprocating compressor 10, just reciprocating compressor 10 installs the tip at main hollow casing 1.

Referring to fig. 2, the arc-surface dry granular adsorption mechanism 14 includes a first filter housing 141 for an arc-surface dry granular adsorption mechanism, a second filter housing 142 for the arc-surface dry granular adsorption mechanism, a threaded structure 143 for the arc-surface dry granular adsorption mechanism, an arc-surface structure 144 for the arc-surface dry granular adsorption mechanism, an air hole 145 for the arc-surface dry granular adsorption mechanism, and a desiccant storage space 146 for the arc-surface dry granular adsorption mechanism; the cambered surface dry particle type adsorption mechanism is connected between the opposite end surfaces by a first filter housing 141 and a second filter housing 142 through a thread structure 143, the outer sides of the first filtering shell 141 for the cambered surface dry particle type adsorption mechanism and the second filtering shell 142 for the cambered surface dry particle type adsorption mechanism are provided with a cambered surface structure 144 for the cambered surface dry particle type adsorption mechanism, the housing of the first filtering housing 141 for the arc surface dry particle type adsorption mechanism and the housing of the second filtering housing 142 for the arc surface dry particle type adsorption mechanism are provided with a plurality of air holes 145 for the arc surface dry particle type adsorption mechanism communicating the two sides thereof, the interiors of the first filtering shell 141 for the cambered surface dry particle type adsorption mechanism and the second filtering shell 142 for the cambered surface dry particle type adsorption mechanism are hollow structures, so that a drying agent storage space 146 for the cambered surface dry particle type adsorption mechanism is formed; the thread structure 143 for the arc-surface dry particle type adsorption mechanism comprises an external thread structure arranged on the periphery of the side surface of the first filter housing 141 for the arc-surface dry particle type adsorption mechanism and an internal thread structure arranged on the inner side of the side surface of the second filter housing 142 for the arc-surface dry particle type adsorption mechanism, and the external thread structure and the internal thread structure are kneaded; the interior of the drying agent storage space 146 for the arc-surface dry granular adsorption mechanism is filled with a solid drying agent, the first filter housing 141 for the arc-surface dry granular adsorption mechanism and the second filter housing 142 for the arc-surface dry granular adsorption mechanism are installed in the air drying zone 3, and the arc-surface structure 144 for the arc-surface dry granular adsorption mechanism, which is located at the position of the first filter housing 141 for the arc-surface dry granular adsorption mechanism, faces the main exhaust hole 4.

The reciprocating type telescopic machine 10 is a mechanism capable of controlling the reciprocating balance movement of a rod body.

The specific use mode is as follows: during the work of the invention, the main telescopic rod 12 moves leftwards (in the attached drawing) through the reciprocating compressor 10, at the moment, external humid air enters the air compression space 2 through the main air inlet 5, when the air completely enters, the reciprocating compressor 10 is controlled to enable the main telescopic rod 12 to move rightwards (in the attached drawing), at the moment, the internal air cannot be discharged outwards due to the action of the air one-way valve 6, so that high-pressure air is formed, the internal liquid particles can be infinitely amplified under the action of strong atmospheric pressure, so that the tiny liquid particles can be fused with each other to form larger water drops, then the electronic air valve 7 is opened through the electronic air valve controller 9, the sealing interval is opened instantly, the internal humid air can be released instantly, the high-pressure flow velocity effect is achieved, the internal water drops are further compressed, so that the volume of the water drops is further enlarged, at this time, the air continuously impacts the arc-surface dry particle type adsorption mechanism 14, and under the action of the arc-surface dry particle type adsorption mechanism 14, the inside humid air is adsorbed, so that air dehumidification is realized.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A high-pressure air dehumidifying device comprises a main hollow shell (1), and is characterized in that: one side inside the main hollow shell (1) is provided with an air storage space (2) in a sealed area, the other side inside the main hollow shell (1) is provided with an open air drying area (3), the inside of the main hollow shell (1) is provided with a main exhaust hole (4) which is communicated with the end part center of the air storage space (2) and the end part center of the air drying area (3), the inside of the main hollow shell (1) is provided with a main first air inlet hole (5) which is communicated with the external space and one end surface of the air storage space (2), an air one-way valve (6) is arranged inside the main first air inlet hole (5), an exhaust port of the air one-way valve (6) faces the air storage space (2), an electronic air valve (7) is arranged inside the main exhaust hole (4), and an electronic air valve controller (9) is arranged on the side surface of the main hollow shell (1), the control input end of the electronic air valve (7) is connected with the control output end of an electronic air valve controller (9) through a wire (8) penetrating through the internal structure of a main hollow shell (1), the main hollow shell (1) is located inside an air drying interval (3) and is internally provided with a cambered surface drying particle type adsorption mechanism (14), the main hollow shell (1) is located inside an air storage space (2) and is provided with a main piston (13), a main telescopic rod (12) is installed at the center of one end surface of the main piston (13), a rod body of the main telescopic rod (12) penetrates through one end surface of the main hollow shell (1) and is provided with a main high-pressure sealing ring (11) between the penetrating parts, and the main telescopic rod (12) is fixedly connected with the telescopic end of a reciprocating type telescopic machine (10) at one end outside the main hollow shell (1), and the reciprocating type compressor (10) is arranged at the end part of the main hollow shell (1).

2. A high pressure air dehumidifier apparatus according to claim 1 wherein: the cambered surface dry particle type adsorption mechanism (14) comprises a first filtering shell (141) for the cambered surface dry particle type adsorption mechanism, a second filtering shell (142) for the cambered surface dry particle type adsorption mechanism, a threaded structure (143) for the cambered surface dry particle type adsorption mechanism, a cambered surface structure (144) for the cambered surface dry particle type adsorption mechanism, an air hole (145) for the cambered surface dry particle type adsorption mechanism and a drying agent storage space (146) for the cambered surface dry particle type adsorption mechanism.

3. A high pressure air dehumidifier apparatus according to claim 2 wherein: the cambered surface dry particle type adsorption mechanism is connected with the cambered surface dry particle type adsorption mechanism through a first filter shell (141) and a second filter shell (142) for the cambered surface dry particle type adsorption mechanism between opposite end faces through a thread structure (143) for the cambered surface dry particle type adsorption mechanism, the cambered surface dry particle type adsorption mechanism is provided with a cambered surface structure (144) for the cambered surface dry particle type adsorption mechanism at the outer sides of the first filter shell (141) and the cambered surface dry particle type adsorption mechanism for the second filter shell (142), the first filter shell (141) for the cambered surface dry particle type adsorption mechanism and the second filter shell (142) for the cambered surface dry particle type adsorption mechanism are provided with a plurality of air holes (145) for the cambered surface dry particle type adsorption mechanism communicated with the two sides of the air holes, the interiors of the first filter shell (141) for the cambered surface dry particle type adsorption mechanism and the second filter shell (142) for the cambered surface dry particle type adsorption mechanism are of a hollow structure, a drying agent storage space (146) for the cambered surface dry particle type adsorption mechanism is formed.

4. A high pressure air dehumidifier apparatus according to claim 3 wherein: the cambered surface dry particle formula is screw thread structure (143) for adsorption mechanism is including setting up at cambered surface dry particle formula for adsorption mechanism first filter shell (141) side outlying external screw thread structure and setting up at cambered surface dry particle formula for adsorption mechanism second filter shell (142) side inboard internal thread structure, and external screw thread structure kneads with the internal thread structure mutually.

5. A high pressure air dehumidifier apparatus according to claim 3 wherein: the drying agent storage space (146) for the cambered surface drying particle type adsorption mechanism is filled with a solid drying agent, the first filtering shell (141) for the cambered surface drying particle type adsorption mechanism and the second filtering shell (142) for the cambered surface drying particle type adsorption mechanism are installed in the air drying region (3), and the cambered surface structure (144) for the cambered surface drying particle type adsorption mechanism, which is located at the position of the first filtering shell (141) for the cambered surface drying particle type adsorption mechanism, faces the main exhaust hole (4).

6. A high pressure air dehumidifier apparatus according to claim 1 wherein: the reciprocating type telescopic machine (10) is a mechanism capable of controlling the rod body to reciprocate in a balanced manner.

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