CN216954196U - Portable chamber cleaning machine - Google Patents

Abstract

The utility model relates to the technical field of military auxiliary equipment, and particularly discloses a portable chamber wiping machine. The bore wiping machine comprises a bore wiping component for cleaning and maintaining the inner wall of a bore; the chamber wiping component is communicated with the pneumatic pump; the pneumatic pump can vibrate in a reciprocating manner at high frequency under the action of high-pressure gas, the chamber wiping component is communicated with the high-pressure gas tank through the gas supply component, the chamber wiping component provided with the pneumatic pump is placed into the bore, the high-pressure gas flows through the chamber wiping component along the gas supply component and then enters the pneumatic pump, and the pneumatic pump drives the chamber wiping component to vibrate in the bore in a reciprocating manner at high frequency, so that the inner wall of the bore is cleaned automatically. The bore wiping machine is simple in structure, convenient to carry and suitable for wiping and cleaning bores with various calibers.

Description

Portable chamber cleaning machine

Technical Field

The utility model relates to the technical field of military auxiliary equipment, in particular to a portable chamber wiping machine.

Background

After the artillery is shot, as the gun barrel is in a high-temperature and high-pressure environment, residues generated by gunpowder emission and combustion can be adhered to the inner wall of the gun barrel to form carbon deposit. If the residues are not scrubbed in time, the normal movement of the projectile in the bore is influenced, the bore is abraded, and the shooting precision of the artillery is reduced; therefore, the cleaning and maintenance of the artillery bore is extremely important. The inner space of the gun tube of the small-caliber gun is narrow and the inner surface is complex, so that the complex inner surface is difficult to clean in a narrow and long pipeline. At present, in China and military forces of countries around the world, the cleaning and maintenance of the artillery inner bore are mainly completed manually, and some semi-automatic and automatic wiping devices are recently appeared.

The manual wiping needs to take out the mop brush from the bore repeatedly and dip the wiping reagent repeatedly, which wastes time and labor, usually takes 5-7 people for several hours to finish the wiping, reduces the working efficiency of the gun hands, increases the labor intensity, increases the danger, and can not effectively and thoroughly clean the middle part and the deep part of the bore of the gun with a long small-bore gun barrel; the semiautomatic wiping device is low in automation and not wide in application range; the cleaning is not thorough, the carrying is inconvenient, the applicable caliber is single, the device is not suitable for severe environment, the requirement on energy power is high, the number of the devices in the army is limited, and the use is not wide.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides the portable bore wiping machine which not only can automatically wipe, clean and maintain the inner wall of a bore, but also has a simple structure and is convenient to carry.

In order to achieve the purpose, the utility model provides the following technical scheme:

a portable bore cleaning machine is characterized by comprising a bore cleaning component for cleaning and maintaining the inner wall of a bore; the chamber wiping component is communicated with the pneumatic pump; the pneumatic pump can vibrate in a high-frequency reciprocating mode under the pneumatic action of high-pressure gas, the chamber wiping component is communicated with the high-pressure gas tank through the gas supply component, the chamber wiping component provided with the pneumatic pump is placed into a gun chamber, the high-pressure gas flows through the chamber wiping component along the gas supply component and then enters the pneumatic pump, and the pneumatic pump drives the chamber wiping component to vibrate in the gun chamber in a high-frequency reciprocating mode, so that the inner wall of the gun chamber can be cleaned automatically.

Preferably, the chamber wiping component comprises a hollow connecting rod and a cannon brush; the cannon brush is sleeved on the hollow connecting rod, and the air inlet end of the hollow connecting rod is communicated with the air supply assembly; the pneumatic pump includes a piston cylinder; one end of the piston cylinder is set to be an air inlet end, the air inlet end is communicated with the air outlet end of the hollow connecting rod, the other end of the piston cylinder is sealed by a piston cover, and a piston is arranged in an inner cavity of the piston cylinder;

preferably, the piston is in sliding connection with the inner wall of the piston cylinder, and the piston divides the inner cavity of the piston cylinder into a forward cavity and a return cavity; the advancing cavity is positioned between the piston and the air inlet end of the piston cylinder; the return cavity is positioned between the piston and the piston cover of the piston cylinder, and exhaust holes are formed in the inner walls of the advancing cavity and the return cavity;

preferably, the pneumatic pump is provided with a gas conveying channel, high-pressure gas enters the forward cavity along the gas conveying channel to push the piston to move towards the direction of the return cavity, the high-pressure gas enters the return cavity along the gas conveying channel to push the piston to move towards the direction of the forward cavity, and the piston reciprocating in the inner cavity of the piston cylinder drives the pneumatic pump to vibrate in a reciprocating manner so as to drive the hollow connecting rod and the gun brush to vibrate in a reciprocating manner along the axial direction of the gun.

Preferably, the gas delivery channel comprises an annular cavity arranged in the wall of the piston cylinder; the air inlet of the annular cavity is communicated with the air inlet end of the piston cylinder, and the air outlet is positioned on the cylinder wall of the piston cylinder in the reciprocating motion area of the piston;

the air return device also comprises a return air passage and a forward air passage which are arranged in the piston; the air inlet end of the forward air passage is positioned in the middle of the piston, the air outlet end of the forward air passage is communicated with the forward cavity, the air inlet end of the forward air passage can be aligned and communicated with the air outlet of the annular cavity in the process that the piston slides towards the forward cavity, and high-pressure air enters the forward air passage from the air outlet of the annular cavity and then flows into the forward cavity;

the air inlet of the return air passage is located in the middle of the piston, the air outlet of the return air passage is opposite to the return cavity, the air inlet of the return air passage can be aligned and communicated with the air outlet of the annular cavity in the process that the piston slides towards the return cavity, and high-pressure air enters the return air passage from the air outlet of the annular cavity and then flows into the return cavity.

Preferably, the chamber wiping component further comprises a fastening nut; the fastening nut and the rod body of the hollow connecting rod form threaded connection, and the gun brush sleeved on the hollow connecting rod is fixed.

Preferably, the air supply assembly comprises a controller and an air outlet hose; the air inlet of the controller is communicated with the high-pressure air tank; one end of the air outlet hose is communicated with an air outlet of the controller, and the other end of the air outlet hose is communicated with the extension bar and/or the three-way valve; the extension bar and/or the three-way valve are communicated with the hollow connecting rod.

Preferably, the chamber wiping assembly further comprises a connecting long rod and an oiling plate; one end of the long connecting rod is communicated with the air outlet hose and/or the three-way valve, and the other end of the long connecting rod is communicated with the pneumatic pump; the oiling plate is arranged on the long connecting rod.

Preferably, the chamber wiping component also comprises an extension rod and an oil scraping plate which is in sliding fit with the inner wall of the bore; one end of the extension bar is communicated with the air outlet hose, and the other end of the extension bar is communicated with the hollow connecting rod; the oil scraping plate is installed on the extension bar.

Preferably, the gun brush, the oiling plate and the oil scraping plate are all of cylindrical structures, and the diameter of each cylinder is the same as the inner diameter of a gun bore.

Preferably, the gas supply assembly further comprises a gas filling hose and a pressure reducing valve; one end of the gas filling hose is communicated with the high-pressure gas tank; the other end of the air inlet hose is communicated with an air inlet on the controller, and a hand valve is arranged at the joint of the air-entrapping hose and the air inlet on the controller; the pressure reducing valve is positioned at the communication position of the air-entrapping hose and the high-pressure air tank.

Preferably, an oil filling cavity is arranged inside the controller; the top end of the oil filling cavity is communicated with an oil filling cover at the top of the controller, an air inlet channel is arranged between the bottom of the oil filling cavity and the air inlet of the controller for communication, and the bottom end of the oil filling cavity is also communicated with the air outlet of the controller; the end of giving vent to anger of inlet channel extends to and adds oil chamber top, and inlet channel's middle part is provided with and glides formula control valve.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the utility model drives the gun brush to reciprocate in the bore by arranging the pneumatic pump, so that the inner wall of the bore is automatically cleaned. Compare in the manpower cleanness, this labour saving and time saving not only, it is efficient moreover to can select for use the big gun brush of different diameters according to the bore of different bores, strong adaptability. In addition, through setting up different clearance or maintenance tool, change according to the maintenance demand of bore for the bore clearance maintenance work that is loaded down with trivial details in the past becomes simple high-efficient.

(2) The utility model is provided with a piston cylinder, one end of the piston cylinder is an air inlet end, the other end of the piston cylinder is a sealing end, and a piston which is in sliding connection with the cylinder wall is arranged in an inner cavity of the piston cylinder. An annular cavity is arranged in the inner wall of the piston cylinder, an air inlet of the annular cavity is communicated with an air inlet end of the piston cylinder, and an air outlet of the annular cavity is positioned on the cylinder wall of the piston cylinder in the reciprocating motion area of the piston; two airflow channels are arranged inside the piston, inlets of the airflow channels are located in the middle of the piston, outlets of the airflow channels are located at two ends of the piston respectively, inlets of the airflow channels can be aligned and communicated with outlets of the annular cavity in the sliding process of the piston, and exhaust holes are further formed in the cylinder wall of the piston cylinder. When the inlets of the two airflow channels are respectively aligned and communicated with the outlet of the annular cavity, high-pressure gas is respectively filled in the cavities at the two ends of the piston in the piston cylinder. Therefore, the high-pressure gas can push the piston to reciprocate in the inner cavity of the piston cylinder at high frequency, so that the piston cylinder and the piston convert the pressure in the high-pressure gas into the thrust of reciprocating vibration to form a pneumatic pump. According to the technical scheme, pressure in high-pressure gas is successfully converted into power, and the gun brush and other gun bore inner wall cleaning and maintaining tools can axially reciprocate in the gun bore under the driving of the pneumatic pump, so that manual cleaning action is replaced, automatic cleaning is realized, manpower is liberated, and meanwhile, the production and working efficiency is improved.

(3) According to the utility model, through the arrangement of the controller, the device realizes independent maintenance procedures such as cleaning, derusting, oil scraping, oil coating and the like on the inner wall of the bore, and the flexibility and convenience of the bore wiping machine are improved.

(4) The oil filling cavity is arranged in the controller, the flying control valve is arranged on the controller, the valve is closed, and only gas passes through the controller, so that the chamber cleaning machine can only clean the bore. And opening the valve, enabling gas to enter the oil filling cavity, extruding substances in the oil filling cavity by the gas, conveying the substances to the inside of the bore along the air outlet hose, and cleaning and maintaining the inner wall of the bore. The device is convenient for operators to operate conveniently and quickly in daily life and easy to popularize.

(5) According to the utility model, the hand valve is arranged at the air inlet of the controller, so that an operator can close the entering air at any time to perform other operations, and the operation is convenient and fast.

(6) According to the utility model, the pressure reducing valve is arranged at the air outlet of the high-pressure air pipe, so that an operator can adjust the air output by the high-pressure air tank to a proper pressure through the pressure reducing valve under the condition that the valve of the high-pressure air tank is opened. This has made things convenient for operating personnel's daily operation greatly, has also promoted the stability of device.

(7) The gun brush, the oil coating plate and the oil scraping plate are all arranged into a cylindrical structure, and the diameter of the cylinder is the same as the inner diameter of a gun bore. Through the big gun brush that sets up different specifications, scribble oiler and frizing in order to match the bore of different bores, during the use according to actual demand equipment can, promoted the flexibility that the device used, also easily portable chamber machine of wiping's wide application and popularization.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the structure of the starting pump and the hollow connecting rod of the present invention.

Fig. 3 is an internal cross-sectional view of the pneumatic pump of the present invention.

Fig. 4 is a schematic structural diagram of the cannon brush of the present invention.

The actual correspondence between each label and the part name of the utility model is as follows:

10-high pressure gas tank 20-gas filling hose 30-controller 40-gas outlet hose

50-chamber wiping component 51-hollow connecting rod 52-fastening nut

53-pneumatic pump 531-annular cavity 532-return air channel 533-outlet air channel

534-vent hole 54-brush

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.

Examples

The portable chamber wiping machine shown in figures 1-4 is characterized by comprising a high-pressure air tank 10, wherein a pressure reducing valve is arranged at an air outlet of the high-pressure air pipe 10, and the pressure reducing valve is communicated with an air filling hose 20. The air outlet end of the air-entrapping hose 20 is communicated with the air inlet of the controller 30, and the air outlet of the controller 30 is communicated with the air inlet end of the air-entrapping hose 40. The air outlet end of the air outlet hose 40 is communicated with the chamber wiping component 50. A pneumatic pump 53 is mounted on the chamber wiping assembly 50.

After the chamber wiping component 50 is placed in the bore of the gun, the valve of the high-pressure gas tank 10 is opened, and the high-pressure gas flows through the controller 50 and the gas outlet hose 40 along the gas inlet hose 20 until entering the pneumatic pump 53. Under the drive of the pneumatic pump 53, the bore wiping component 50 performs reciprocating vibration in the bore, so as to clean and wipe the inner wall of the bore.

When the valve of the high pressure gas tank 10 is opened, the gas output from the high pressure gas tank 10 may be adjusted to an appropriate pressure by a pressure reducing valve. The gas-filling device further comprises a hand valve, the hand valve is arranged on a gas inlet on the controller 30, and a gas outlet end of the gas-filling hose 20 is communicated with the hand valve, so that high-pressure gas can be prevented from entering the controller 30 through the hand valve.

A refueling cavity is provided inside the controller 30. The top end of the oil filling cavity is communicated with an oil filling cover at the top of the controller, and lubricating oil, rust remover or softener and the like can be added into the oil filling cavity by opening the oil filling cover. An air inlet channel is arranged between the bottom of the oil filling cavity and an air inlet of the controller 30 and communicated with the oil filling cavity, one end of the air inlet channel enters the oil filling cavity and then extends to the top of the oil filling cavity, and a flying control valve is arranged in the middle of the air inlet channel. In addition, an air passage is also provided between the bottom end of the refueling cavity and the air outlet of the controller 30. The controller 30 is provided inside with a separate air passage communicating an air outlet of the controller 30 and an air inlet of the controller 30. Under the condition of closing the formula of flying control valve, gaseous can not get into adds the oil chamber, when opening the formula of flying control valve, high-pressure gas gets into and adds the oil chamber along the inlet channel that sets up between the bottom that adds the oil chamber and controller 30's the air inlet, the material of intracavity is added in the extrusion of high-pressure gas, and take out the air flue that sets up between the bottom that adds the oil chamber and the controller 30 gas outlet to the material that adds the oil chamber inside, thereby in the material that adds the oil chamber gets into the bore along the hose 40 that gives vent to anger, clear up the maintenance to the bore inner wall, this is convenient operating personnel daily operation greatly, and the work efficiency is promoted.

One end of the air outlet hose 40 is communicated with an air outlet of the controller 30, and the other end of the air outlet hose 40 is communicated with a three-way valve; the three-way valve communicates with the chamber wiping assembly 50.

The chamber wiping assembly 50 consists of a bore wiper 54, a fastening nut 52 and a hollow connecting rod 51. The fastening nut 52 is in threaded connection with the shank of the hollow connecting rod 51, and the cannon brush 54 is sleeved on the hollow connecting rod 51 and fixed by the fastening nut 52.

The chamber wiping assembly 50 also includes an extension bar and a wiper plate. One end of the extension bar is communicated with the three-way valve, and the other end is communicated with the hollow connecting rod 51; the oil scraping plate is installed on the extension bar.

The chamber wiping assembly 50 also includes a long connecting rod and an oiling plate. One end of the long connecting rod is communicated with the three-way valve, the other end of the long connecting rod is communicated with the pneumatic pump 53, and the oiling plate is installed on the long connecting rod. The gun brush 54, the oil coating plate and the oil scraping plate are all of cylindrical structures, and the diameter of the cylinder is the same as the inner diameter of the bore, so that the gun brush 54, the oil coating plate and the oil scraping plate of multiple specifications are arranged to adapt to bores with different diameters, and the gun brush, the oil coating plate and the oil scraping plate can be replaced according to actual conditions during operation.

The pneumatic pump 53 includes a piston cylinder. The pneumatic pump 53 includes a piston cylinder; one end of the piston cylinder is set to be an air inlet end which is communicated with an air outlet end of the hollow connecting rod 51, the other end of the piston cylinder is a sealing end, and a piston is arranged in an inner cavity of the piston cylinder; the piston and the inner wall of the piston cylinder form sliding connection, and the piston divides the inner cavity of the piston cylinder into an advancing cavity and a returning cavity.

The forward chamber is located between the piston and the inlet end of the cylinder, the return chamber is located between the piston and the sealed end of the cylinder, and exhaust holes 534 are provided on the inner walls of the forward and return chambers. When the gas in the forward and return chambers is compressed, it can be discharged along the discharge hole 534.

The pneumatic pump 53 is provided with a gas conveying channel, high-pressure gas enters the forward cavity along the gas conveying channel to push the piston to move towards the direction of the return cavity, the high-pressure gas enters the return cavity along the gas conveying channel to push the piston to move towards the direction of the forward cavity, the piston reciprocating in the inner cavity of the piston cylinder drives the pneumatic pump 53 to vibrate in a reciprocating mode, and then the hollow connecting rod 51 and the cannon brush 54 are driven to vibrate in a reciprocating mode in the axial direction of the cannon.

The gas delivery passage comprises an annular cavity 531 arranged in the wall of the piston cylinder; the air inlet of the annular cavity 531 is communicated with the air inlet end of the piston cylinder, and the air outlet is positioned on the cylinder wall of the piston cylinder in the reciprocating motion area of the piston.

A return air passage 532 and a forward air passage 533 provided inside the piston; the air inlet end of the forward air channel 533 is located in the middle of the piston, the air outlet end is communicated with the forward cavity, the air inlet end of the forward air channel 533 can be aligned and communicated with the air outlet of the annular cavity 531 in the process that the piston slides towards the forward cavity, and high-pressure air enters the forward air channel 533 from the air outlet of the annular cavity 531 and then flows into the forward cavity.

The air inlet of the return air passage 532 is located in the middle of the piston, the air outlet is opposite to the return cavity, the air inlet of the return air passage 532 can be aligned and communicated with the air outlet of the annular cavity 531 in the process that the piston slides towards the return cavity, and high-pressure air enters the return air passage 532 from the air outlet of the annular cavity 531 and then flows into the return cavity.

When the inlet end of the front inlet channel 533 is aligned and communicated with the gas outlet of the annular cavity 531, the advancing cavity is filled with high-pressure gas instantly, the piston is pushed to the direction of the return cavity by the pressure of the high-pressure gas in the advancing cavity, the piston extrudes the gas in the return cavity in the process of moving towards the direction of the return cavity, the gas in the return cavity is exhausted along the exhaust hole 534 by one edge of the extruded process, pressure is applied to the sealing end of the piston cylinder in one edge, and the pressure-variable thrust pushes the sealing end of the piston cylinder to advance.

When the air inlet of the return air passage 532 is aligned and communicated with the air outlet of the annular cavity 531, the forward cavity is filled with high-pressure air instantly, the piston is pushed to the direction of the forward cavity by the pressure of the high-pressure air in the return cavity, the air in the forward cavity is extruded in the process that the piston moves towards the direction of the forward cavity, the air in the forward cavity is exhausted along the exhaust hole 534 in one extrusion process, pressure is applied to the air inlet end of the piston cylinder in one side, and the pressure-variable pushing force pushes the air inlet end of the piston cylinder to retreat.

Through the power conversion mode, the pneumatic pump 53 drives the bore wiping component 50 to do high-frequency reciprocating motion along the axis direction of the bore cavity, so that the cleaning and maintenance work of the bore inner wall is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (10)

1. A portable chamber wiping machine is characterized by comprising a chamber wiping component (50) for cleaning and maintaining the inner wall of a bore; the chamber wiping component (50) is communicated with a pneumatic pump (53); the pneumatic pump (53) can vibrate in a high-frequency reciprocating mode under the pneumatic action of high-pressure gas, the chamber wiping component (50) is communicated with the high-pressure gas tank (10) through the gas supply component, the chamber wiping component (50) provided with the pneumatic pump (53) is placed into a gun bore, the high-pressure gas flows through the chamber wiping component (50) along the gas supply component and then enters the pneumatic pump (53), and the pneumatic pump (53) drives the chamber wiping component (50) to vibrate in the gun bore in a high-frequency reciprocating mode, so that the inner wall of the gun bore is cleaned automatically.

2. Portable chamber-wiping machine according to claim 1, characterized in that the chamber-wiping assembly (50) comprises a hollow connecting rod (51) and a brush (54); the cannon brush (54) is sleeved on the hollow connecting rod (51), and the air inlet end of the hollow connecting rod (51) is communicated with the air supply assembly; the pneumatic pump (53) comprises a piston cylinder; one end of the piston cylinder is set to be an air inlet end which is communicated with an air outlet end of the hollow connecting rod (51), the other end of the piston cylinder is a sealing end, and a piston is arranged in an inner cavity of the piston cylinder;

the piston is in sliding connection with the inner wall of the piston cylinder, and the piston divides the inner cavity of the piston cylinder into an advancing cavity and a returning cavity; the advancing cavity is positioned between the piston and the air inlet end of the piston cylinder; the return cavity is positioned between the piston and the sealing end of the piston cylinder, and exhaust holes (534) are formed in the inner walls of the advancing cavity and the return cavity;

the pneumatic pump (53) is provided with a gas conveying channel, high-pressure gas enters the forward cavity along the gas conveying channel to push the piston to move towards the direction of the return cavity, the high-pressure gas enters the return cavity along the gas conveying channel to push the piston to move towards the direction of the forward cavity, the piston reciprocating in the inner cavity of the piston cylinder drives the pneumatic pump (53) to vibrate in a reciprocating mode, and then the hollow connecting rod (51) and the gun brush (54) are driven to vibrate in a reciprocating mode in the axial direction of the gun bore.

3. The portable chamber-wiping machine according to claim 2, characterized in that the gas delivery channel comprises an annular chamber (531) arranged in the wall of the piston cylinder; the air inlet of the annular cavity (531) is communicated with the air inlet end of the piston cylinder, and the air outlet is positioned on the cylinder wall of the piston cylinder in the reciprocating motion area of the piston;

the piston also comprises a return air passage (532) and a forward air passage (533) which are arranged inside the piston; the air inlet end of the forward air channel (533) is positioned in the middle of the piston, the air outlet end of the forward air channel (533) is communicated with the forward cavity, the air inlet end of the forward air channel (533) can be aligned and communicated with the air outlet of the annular cavity (531) in the process that the piston slides towards the forward cavity, and high-pressure air enters the forward air channel (533) from the air outlet of the annular cavity (531) and then flows into the forward cavity;

the air inlet of the return air channel (532) is located in the middle of the piston, the air outlet of the return air channel is opposite to the return cavity, the air inlet of the return air channel (532) can be aligned and communicated with the air outlet of the annular cavity (531) in the process that the piston slides towards the return cavity, and high-pressure air enters the return air channel (532) from the air outlet of the annular cavity (531) and then flows into the return cavity.

4. A portable chamber-wiping machine according to claim 2 or 3, characterized in that the chamber-wiping assembly (50) further comprises a fastening nut (52); the fastening nut (52) and the rod body of the hollow connecting rod (51) form threaded connection, and the cannon brush (54) sleeved on the hollow connecting rod (51) is fixed.

5. The portable chamber-wiping machine according to claim 4, characterized in that the gas supply assembly comprises a controller (30) and a gas outlet hose (40); an air inlet of the controller (30) is communicated with the high-pressure air tank (10); one end of the air outlet hose (40) is communicated with an air outlet of the controller (30), and the other end of the air outlet hose is communicated with the lengthening rod and/or the three-way valve; the extension bar and/or the three-way valve are communicated with the hollow connecting rod (51).

6. The portable chamber wiping machine according to claim 5, wherein the chamber wiping assembly (50) further comprises a connecting long rod and an oiling plate; one end of the long connecting rod is communicated with the air outlet hose (40) and/or the three-way valve, and the other end of the long connecting rod is communicated with the pneumatic pump (53); the oiling plate is arranged on the long connecting rod.

7. The portable chamber wiping machine according to claim 6, wherein the chamber wiping assembly (50) further comprises an extension bar and a scraper bar forming a sliding fit with the inner wall of the bore; one end of the extension bar is communicated with the air outlet hose (40), and the other end of the extension bar is communicated with the hollow connecting rod (51); the oil scraping plate is installed on the extension bar.

8. The portable rifling machine of claim 7, wherein the brush (54), the oiling plate and the oil scraping plate are all cylindrical structures, and the diameter of the cylinder is the same as the inner diameter of the bore.

9. The portable rifling machine of claim 8, wherein the gas supply assembly further comprises a gas filling hose (20) and a pressure reducing valve; one end of the air-entrapping hose (20) is communicated with the high-pressure air tank (10); the other end is communicated with an air inlet on the controller (30), and a hand valve is arranged at the joint of the air-entrapping hose (20) and the air inlet on the controller (30); the pressure reducing valve is positioned at the communication position of the air-entrapping hose and the high-pressure air tank (10).

10. Portable chamber-wiping machine according to claim 9, characterized in that the controller (30) is internally provided with a filling chamber; the top end of the oil filling cavity is communicated with an oil filling cover at the top of the controller, an air inlet channel is arranged between the bottom of the oil filling cavity and the air inlet of the controller for communication, and the bottom end of the oil filling cavity is also communicated with the air outlet of the controller (30); the end of giving vent to anger of inlet channel extends to and adds oil chamber top, and inlet channel's middle part is provided with and glides formula control valve.

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