WO2017202010A1 - Moisture-removal drying apparatus for air gun - Google Patents

Abstract

A moisture-removal drying apparatus for an air gun. An accommodating space for placing a drying agent (3) is provided in an air inlet passage of an air cylinder (1) of the air gun. The apparatus resolves the problems of corrosion and damage caused to internal parts of guns by moisture in the guns.

Description

Drying device for removing moisture from air gun [Technical field]

The invention relates to the technical field of air guns, and in particular to a drying device for removing moisture from an air gun.

[Background technique]

At present, in a gas storage type air gun, such as a self-contained air pump and a PCP, when air enters the gas storage chamber of the gun through the gas cylinder, the air temperature rises due to the pressure rise, and the water contained in the air is inside the gun. The high pressure chamber forms water droplets which can cause damage to the internal parts of the gun and rust.

[Summary of the Invention]

The object of the invention is to provide a drying device for removing moisture from an air gun, which solves the problem of corrosion and damage of the internal parts of the firearm by the water and gas in the gun.

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

A drying device for removing moisture from an air gun, characterized in that a receiving section for placing a desiccant is provided in an intake passage of the air gun cylinder.

A drying device for removing moisture from an air gun as described above, characterized in that: the gas cylinder is a three-stage air pump, including a gas cylinder large tube, a gas cylinder middle tube, a gas cylinder small tube and a piston rod, and the gas cylinder middle tube coaxially arranged In the large tube of the gas cylinder, the small tube of the gas cylinder is coaxially arranged in the tube of the gas cylinder, the piston rod is located in the small tube of the gas cylinder, and a sleeve is arranged between the tube and the small tube of the gas cylinder, and the sleeve is fixedly arranged outside the small tube of the gas cylinder, and the two ends of the sleeve are arranged There is an air inlet and an air outlet, and the inside of the sleeve is a receiving section for placing a desiccant, and the tube in the cylinder slides axially along the outer circumference of the sleeve.

A drying device for removing moisture from an air gun as described above, characterized in that the desiccant is alumina.

The invention has the beneficial effects of forming a receiving area for placing a desiccant with a sleeve on the air path During the process of inhaling the gas, the moisture absorbed by the alumina reaches the moisture of the gas inside the gun, and the problem of corrosion and damage of the internal parts of the gun by the water and gas in the gun is solved.

[Description of the Drawings]

Figure 1 is a schematic cross-sectional view of the present invention.

[detailed description]

As shown in FIG. 1, a drying device for removing moisture from an air gun is provided with a receiving section for placing a desiccant in an intake passage of the air gun cylinder 1.

The embodiment of the present invention is that the air cylinder 1 is a three-stage air pump, and includes a gas cylinder large tube 11, a gas cylinder middle tube 12, a gas cylinder small tube 13 and a piston rod 14. The gas cylinder middle tube is coaxially disposed in the gas cylinder large tube, and the gas cylinder small tube is coaxially disposed at In the tube of the gas cylinder, the piston rod is located in the small tube of the gas cylinder, and a sleeve 2 is arranged between the tube and the small tube of the gas cylinder, and the sleeve 2 is fixedly disposed outside the small tube 13 of the gas cylinder, and the air inlet and the air outlet are provided at both ends of the sleeve 2 The sleeve 2 is a receiving section in which the desiccant 3 is placed, and the desiccant 3 is alumina. The tube in the gas cylinder slides axially along the outer circumference of the sleeve. During operation, a first-stage compressed gas is formed between the large tube of the gas cylinder and the middle tube of the gas cylinder, and a secondary compressed gas is formed between the tube and the small tube of the gas cylinder, and a three-stage compressed gas is formed between the small tube of the gas cylinder and the piston rod. The desiccant 3 placed in the sleeve 2 filters the water vapor in the air by the secondary compressed gas, and solves the problem of corrosion and damage of the internal parts of the gun by the water and gas in the gun.

The specific structure of the three-stage pump can be varied, and the protection of the present invention is not limited by the structural changes of the three-stage pump. One example of the three-stage pump is: a three-stage pump including a front cylinder sleeve, a cylinder rear sleeve, a gas cylinder front sleeve, a gas cylinder rear sleeve, a gas cylinder tube, a gas cylinder tube, a gas cylinder tube and a piston rod; The air inlet sleeve on the air valve is sealed and fixedly connected in the rear sleeve of the air cylinder. The front and rear ends of the gas cylinder are tightly sleeved on the front sleeve of the gas cylinder and the rear sleeve of the gas cylinder. The front sleeve of the gas cylinder and the rear sleeve of the gas cylinder are all extended by the gas cylinder. The connecting portion outside the tube is fixedly connected with the gun body bracket; the inner wall of the rear end of the large tube of the gas cylinder and the outer ring of the rear fixed sleeve of the gas cylinder are sealed by a large tube "O" type sealing ring. The front sleeve of the gas cylinder is located at the front of the large tube of the gas cylinder. The outer circumference of the movable sleeve of the gas cylinder is provided with steel balls. The front movable sleeve of the gas cylinder is rolled and matched with the inner wall of the large tube of the gas cylinder; the movable sleeve of the air cylinder is located at the back of the large tube of the gas cylinder, and the movable sleeve of the gas cylinder A first-stage piston bowl is provided between the outer ring and the inner wall of the gas cylinder, and the first-stage piston bowl is fixed on the outer ring of the movable sleeve of the gas cylinder. The middle tube of the gas cylinder is coaxially arranged in the large tube of the gas cylinder, and the front and rear ends of the tube are closely arranged in the movable sleeve of the gas cylinder and the movable sleeve of the gas cylinder; the small tube of the gas cylinder is coaxially arranged in the tube of the gas cylinder, and the rear end of the small tube of the gas cylinder is sealed and It is fixedly connected in the air inlet sleeve on the one-way air valve; a second-stage piston bowl is provided between the inner sleeve of the movable sleeve and the outer wall of the small tube of the gas cylinder, and the second-stage piston bowl is fixed behind the air cylinder. The inner sleeve of the movable sleeve. The piston rod is located in the small tube of the gas cylinder, and one end of the piston rod extends out of the small tube of the gas cylinder and is hinged to the front movable sleeve of the gas cylinder through the front movable pin shaft of the gas cylinder. The other end of the piston rod and the inner wall of the small tube of the gas cylinder are provided with a gas transmission and pressure gas. A closed third stage piston bowl, the third stage piston bowl is fixed on the piston head of the piston rod. The gas compression component comprises a connecting rod and a pressing rod; one end of the connecting rod is rotatably connected with the front movable sleeve of the gas cylinder through the pin shaft; the front end of the pressing rod is connected to the front fixed sleeve of the gas cylinder through the front pin shaft of the pressure rod, and the other end of the connecting rod is passed through the pressing rod The shaft is rotatably connected to the middle of the pressing rod, and the handle is also provided on the pressing rod.

It is to be noted that the embodiments of the invention are illustrative and not restrictive, and thus the invention is not limited to the embodiments described in the specific embodiments, which are obtained by those skilled in the art according to the technical solutions of the invention. Other embodiments are also within the scope of the invention.

Claims (2)

1. A drying device for removing moisture from an air gun, characterized in that a receiving section for placing a desiccant is provided in an intake passage of the air gun cylinder.
2. The apparatus for removing moisture from an air gun according to claim 1, wherein the air cylinder is a three-stage air pump, including a large air cylinder, a gas cylinder tube, a gas cylinder small tube and a piston rod, and a gas cylinder tube. The coaxial tube is disposed in the large tube of the gas cylinder, the small tube of the gas cylinder is coaxially disposed in the tube of the gas cylinder, the piston rod is located in the small tube of the gas cylinder, and a sleeve is arranged between the tube and the small tube of the gas cylinder, and the sleeve is fixedly disposed outside the small tube of the gas cylinder, the sleeve is sleeved The two ends are provided with an air inlet and an air outlet, and the sleeve is a receiving section for placing a desiccant, and the tube of the gas cylinder slides axially along the outer circumference of the sleeve.

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