CN216633136U - Pressurizing jet-propelled gun station cleaning equipment - Google Patents

Abstract

The utility model discloses pressurized jet-propelled gun cleaning station equipment which comprises a pressurizing mechanism, a sand blasting mechanism, a wire shearing mechanism, a fuel injection mechanism and a sand screening mechanism, wherein the pressurizing mechanism is arranged on a first base, the pressurizing mechanism is in a column shape and is internally of a container structure, a gas inlet mechanism is arranged on the surface of the pressurizing mechanism, an adjusting mechanism is arranged on the gas inlet mechanism, the sand blasting mechanism is arranged on a second base, the second base is arranged above the pressurizing mechanism, the sand blasting mechanism is connected with the pressurizing mechanism through a connector on one side, and a sand blasting nozzle is arranged on the sand blasting mechanism; this device simple structure, convenient to use, when on-the-spot atmospheric pressure is not enough, can improve operating pressure through booster mechanism, guarantees the dynamics that the abrasive material was polished, guarantees efficiency and the effect that clearance robot welder splashes.

Description

Pressurizing jet gun station cleaning equipment

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to pressurized jet type gun station cleaning equipment.

Background

The gun cleaning station is a welding comprehensive matching device for shearing wires, cleaning and spraying oil to a welding gun, but the phenomenon of insufficient air pressure supply often occurs in the existing gun cleaning station, so that the grinding material polishing force is uneven, and the splashing efficiency and effect of the welding gun of the cleaning robot cannot meet the working requirements. Therefore, it is important to design a pressurized jet gun cleaning station device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide pressurized jet gun cleaning station equipment to solve the problems.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a clear rifle of pressure boost station equipment, includes booster mechanism, sandblast mechanism, cut silk mechanism, oil spout mechanism and screening sand mechanism, booster mechanism sets up on base one, booster mechanism is the stand type, and inside is the containment structure, booster mechanism's surface is provided with the mechanism of admitting air, the last adjustment mechanism that is provided with of the mechanism of admitting air.

Preferably, the sandblast mechanism sets up on base two, base two sets up the top at booster mechanism, the sandblast mechanism is connected with booster mechanism through the connector of one side, be provided with the sand blasting nozzle on the sandblast mechanism.

Preferably, the wire cutting mechanism is arranged on the second base and is arranged on one side of the sand blasting mechanism, a knife handle is arranged on the wire cutting mechanism, and a blade is arranged on the knife handle.

Preferably, the oil injection mechanism is arranged on one side of the wire shearing mechanism, and an oil injection nozzle is arranged on the oil injection mechanism.

Preferably, the sand screening mechanism is arranged on the first base, the abrasive bin is arranged inside the sand screening mechanism, the sand screening mechanism is connected with the sand blasting mechanism through a connecting pipeline, and the sand screening mechanism is arranged below the sand blasting mechanism.

The utility model has the beneficial effects that: the device is additionally provided with a set of pressurization system, a pressurization mechanism pressurizes low-pressure gas, the low-pressure gas is stored in a sealed container with an internal structure, the pressurization mechanism is used when a standby device works, the high-pressure gas can be automatically supplemented when the pressure in the container is reduced, abrasive materials are sucked from an abrasive material bin in a sand screening mechanism by utilizing a high negative pressure effect and are ejected together with the high-pressure gas, and welding spatter on a welding gun of a robot is cleaned; this device simple structure, convenient to use, when on-the-spot atmospheric pressure is not enough, can improve operating pressure through booster mechanism, guarantees the dynamics that the abrasive material was polished, guarantees efficiency and the effect that clearance robot welder splashes.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a structural elevation view of the present invention;

FIG. 3 is a side view of the structure of the present invention;

fig. 4 is a top view of the structure of the present invention.

In the figure: 1 supercharging mechanism, 101 mechanism, 102 adjustment mechanism, 2 sandblast mechanism, 201 sandblast nozzle, 3 wire cutting mechanism, 301 handle of a knife, 302 blade, 4 oil spout mechanism, 401 oil spout nozzle, 5 screening sand mechanism, 6 base one, 7 base two, 8 connectors, 9 connecting tube.

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. 1-4, the present invention provides a technical solution: the utility model provides a clear rifle station equipment of pressure boost jet-propelled, including booster mechanism 1, sandblast mechanism 2, cut a mechanism 3, oil injection mechanism 4 and screening sand mechanism 5, booster mechanism 1 sets up on base 6, booster mechanism 1 is the stand type, and inside is the container structure, booster mechanism 1's surface is provided with mechanism 101 that admits air, be provided with adjustment mechanism 102 on the mechanism 101 that admits air, booster mechanism 1 pressurizes low-pressure gas through mechanism 101 that admits air, store in booster mechanism 1 inside sealed container, the standby ware during operation uses, when the pressure reduction in the container, will the automatic operation replenish high-pressure gas.

The sand blasting mechanism 2 is arranged on the second base 7, the second base 7 is arranged above the supercharging mechanism 1, the sand blasting mechanism 2 is connected with the supercharging mechanism 1 through a connector 8 on one side, a sand blasting nozzle 201 is arranged on the sand blasting mechanism 2, the sand blasting mechanism 2 utilizes a high negative pressure effect to suck abrasive materials from an abrasive material bin inside the sand screening mechanism 5 and spray the abrasive materials together with high-pressure gas, and welding splashing on a welding gun of the robot is cleaned.

Wire cutting mechanism 3 sets up on base two 7 to install in one side of sandblast mechanism 2, wire cutting mechanism 3 is last to be provided with handle of a knife 301, be provided with blade 302 on the handle of a knife 301, wire cutting mechanism 3 utilizes the cylinder (the cylinder is installed inside wire cutting mechanism 3, not drawn in the figure, staff in the field can know) to promote handle of a knife 301, cut robot welding gun's welding wire through two blade 302 pairs, guarantee that the welding wire length that robot welding gun front end stretches out is unanimous at every turn during operation.

The oil injection mechanism 4 is arranged on one side of the wire cutting mechanism 3, the oil injection nozzle 401 is arranged on the oil injection mechanism 4, the oil injection mechanism 4 utilizes the siphon principle to suck and atomize the anti-splashing agent, the anti-splashing agent is uniformly sprayed on the surface of consumable materials of the welding gun of the robot, and the welding splashing adhesion strength can be effectively reduced.

Screening sand mechanism 5 sets up on base 6, and screening sand mechanism 5 is inside to be the abrasive material storehouse, and screening sand mechanism 5 is connected with sandblast mechanism 2 through connecting tube 9, and screening sand mechanism 5 sets up in the below of sandblast mechanism 2.

The utility model is implemented as follows: the pressurization mechanism 1 pressurizes low-pressure gas, stores the low-pressure gas in a sealed container with an internal structure, is used when a standby device works, automatically works to supplement the high-pressure gas when the pressure in the container is reduced, and the sand blasting mechanism 2 sucks abrasive materials from an abrasive material bin in the sand screening mechanism 5 by utilizing a high negative pressure effect and sprays the abrasive materials together with the high-pressure gas to clean welding spatter on a welding gun of the robot; this device simple structure, convenient to use, when on-the-spot atmospheric pressure is not enough, can improve operating pressure through booster mechanism 1, guarantees the dynamics that the abrasive material was polished, guarantees efficiency and the effect that clearance robot welder splashes.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a clear rifle station equipment of pressure boost jet-propelled, includes booster mechanism (1), sandblast mechanism (2), cuts silk mechanism (3), oil spout mechanism (4) and screening sand mechanism (5), its characterized in that: supercharging mechanism (1) sets up on base (6), supercharging mechanism (1) is the stand type, and inside is the container structure, supercharging mechanism's (1) surface is provided with mechanism (101) of admitting air, be provided with adjustment mechanism (102) on mechanism (101) of admitting air.

2. A pressurised jet lance station apparatus as claimed in claim 1 wherein: sandblast mechanism (2) sets up on two (7) bases, two (7) bases set up the top in booster mechanism (1), sandblast mechanism (2) are connected with booster mechanism (1) through connector (8) of one side, be provided with sandblast nozzle (201) on sandblast mechanism (2).

3. A pressurised jet lance station apparatus as claimed in claim 1 wherein: the wire cutting mechanism (3) is arranged on the second base (7) and is installed on one side of the sand blasting mechanism (2), a knife handle (301) is arranged on the wire cutting mechanism (3), and a blade (302) is arranged on the knife handle (301).

4. A pressurised jet lance station apparatus according to claim 1 wherein: the oil injection mechanism (4) is arranged on one side of the wire shearing mechanism (3), and an oil injection nozzle (401) is arranged on the oil injection mechanism (4).

5. A pressurised jet lance station apparatus as claimed in claim 1 wherein: screening sand mechanism (5) set up on base (6), screening sand mechanism (5) inside is the grinding feed bin, screening sand mechanism (5) are connected with sandblast mechanism (2) through connecting tube (9), screening sand mechanism (5) set up the below at sandblast mechanism (2).

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