CN217473910U - Hot spraying cooling device - Google Patents

Abstract

The utility model relates to a hot spraying cooling device, locate slide on the slide rail, drive slide along slide gliding actuating mechanism, locate first cooling body and second cooling body on the slide including slide rail, slidable, first cooling body includes first fixing base, locates first telescopic machanism on the first fixing base, locates the first cooling spray gun of the flexible end of first telescopic machanism, connects in the first flexible pipe of first cooling spray gun, second cooling body includes the second fixing base, locates the second telescopic machanism on the second fixing base, locates the second cooling spray gun of the flexible end of second telescopic machanism, connects in the flexible pipe of the second of second cooling spray gun. The utility model relates to a spraying device field is cooled down to the spraying pipe secondary respectively through first cooling body and second cooling body, has improved the efficiency of spraying pipe cooling, has solved the technical problem that the spraying is inefficient.

Description

Hot spraying cooling device

Technical Field

The utility model relates to a spraying device field especially relates to a hot spraying cooling device.

Background

Chinese patent application No.: 201721175010.4, providing a ring-shaped workpiece thermal spraying device, the device includes a multi-station turntable, a spraying manipulator, a spray gun for thermal spraying, the speed of the spray gun can change in real time in the moving process, the moving speed of the spray gun is controlled, the sprayed workpiece surface is sprayed uniformly, the waste of powder is reduced, however, the device is not provided with a cooling device, during spraying, the heat is possibly too high, the sprayed workpiece is damaged, the temperature of the turntable after spraying is high, the next batch of sprayed workpiece is not easy to install, the surrounding working environment is easy to influence, and the spraying efficiency is low.

SUMMERY OF THE UTILITY MODEL

Therefore, in view of the above problems, the present invention provides a thermal spray cooling device. It has solved the technical problem that the spraying is inefficient.

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

the utility model provides a hot spraying cooling device, includes slide rail, slidable locate slide on the slide rail, drive slide along the gliding actuating mechanism of slide rail, locate first cooling body and second cooling body on the slide, first cooling body includes first fixing base, locates first telescopic machanism on the first fixing base, locates the first cooling spray gun of the flexible end of first telescopic machanism, connects in the first flexible pipe of first cooling spray gun, connects in the first cooling device of first flexible pipe, second cooling body includes the second fixing base, locates the second telescopic machanism on the second fixing base, locates the second cooling spray gun of the flexible end of second telescopic machanism, connects in the flexible pipe of second cooling spray gun, connects in the second cooling device of the flexible pipe of second.

And further:

the sliding seat is provided with a sliding groove, the sliding groove is parallel to the sliding rail, the second fixing seat can slide on the sliding groove, and the sliding seat is provided with a third telescopic mechanism for driving the second fixing seat to move.

And the first cooling spray gun and the second cooling spray gun are respectively provided with a temperature sensor.

And the first cooling spray gun and the second cooling spray gun are respectively provided with an infrared distance sensor.

The first telescopic pipe comprises a plurality of air guide pipes and a plurality of corrugated pipes, the air guide pipes and the corrugated pipes are alternately arranged, and a guide wheel is arranged at the bottom of each air guide pipe and can roll on a sliding rail.

The structure of the first telescopic pipe is the same as that of the second telescopic pipe.

By adopting the technical scheme, the beneficial effects of the utility model are that:

the spraying pipes rotate, after spraying is carried out through the spraying robot or the spraying device, the first cooling mechanism moves to the spraying pipes, the spraying pipes are cooled through the first cooling mechanism, when the spraying pipes are cooled to a certain temperature or for a certain time, the sliding seat moves, the second cooling mechanism carries out secondary cooling on the spraying pipes, a method of cooling twice is adopted, the spraying pipes are gradually cooled, deformation or burst caused by too fast cooling is prevented, the spraying pipes are prevented from being taken out due to too slow cooling, meanwhile, the first cooling mechanism moves to the next spraying pipe for cooling, and the cooling efficiency of the spraying pipes is improved; furthermore, the third telescopic mechanism can adjust the position of the second fixed seat, so that the distance between the first cooling spray gun and the second cooling spray gun is adjusted; furthermore, the temperature sensor can sense the temperature on the spray pipe, and when the temperature is too high, the cooling effect on the spray pipe can be enhanced; furthermore, the first cooling spray gun and the second cooling spray gun are respectively provided with an infrared distance sensor which can detect the distance between the first cooling spray gun and the spraying pipe, and the position between the first cooling spray gun and the spraying pipe is adjusted through the first telescopic mechanism or the second telescopic mechanism, so that the cooling efficiency is improved; furthermore, the first telescopic pipe comprises a plurality of air guide pipes and a plurality of corrugated pipes, and can be stably telescopic.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the first cooling mechanism and the second cooling mechanism of FIG. 1 after movement;

fig. 3 is a schematic structural view of the second fixing base in fig. 1 after sliding.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 3, the present embodiment provides a thermal spray cooling device, which includes a slide rail 1, a slide carriage 2 slidably disposed on the slide rail 1, a driving mechanism 21 for driving the slide carriage 2 to slide along the slide rail 1, a first cooling mechanism and a second cooling mechanism disposed on the slide carriage 2, wherein the first cooling mechanism includes a first fixed seat 31, a first telescopic mechanism 32 disposed on the first fixed seat 31, a first cooling spray gun 33 disposed at a telescopic end of the first telescopic mechanism 32, a first telescopic tube 34 connected to the first cooling spray gun 33, a first cooling device 35 connected to the first telescopic tube 34, the second cooling mechanism includes a second fixed seat 41, a second telescopic mechanism 42 disposed on the second fixed seat 41, a second cooling spray gun 43 disposed at a telescopic end of the second telescopic mechanism 42, a second telescopic tube 44 connected to the second cooling spray gun 43, and a second cooling device 45 connected to the second telescopic tube 44, the sliding base 2 is provided with a sliding groove 20, the sliding groove 20 is parallel to the sliding rail 1, the second fixing base 41 can slide on the sliding groove 20, and the sliding base 2 is provided with a third telescopic mechanism 46 for driving the second fixing base 41 to move. Temperature sensors 5 are respectively arranged on the first cooling spray gun 33 and the second cooling spray gun 43, and infrared distance sensors 6 are respectively arranged on the first cooling spray gun 33 and the second cooling spray gun 43. The first extension pipe 34 includes a plurality of air guiding pipes 341 and a plurality of corrugated pipes 342, the plurality of air guiding pipes 341 and the plurality of corrugated pipes 342 are alternately arranged, a guide wheel 343 is disposed at the bottom of each air guiding pipe 341, and the guide wheel 343 can roll on the sliding rail 1. The construction of first extension tube 34 is identical to the construction of second extension tube 44.

The driving mechanism 21 is a linear motor, a cylinder or other linear motion device, which is a well-known device and is not redundant here.

The first cooling lance 33, the second cooling lance 43, the temperature sensor 5, and the infrared distance sensor 6 are well known devices, and will not be described herein.

The first telescoping mechanism 32, the second telescoping mechanism 42, and the third telescoping mechanism 46 may be linear motors, air cylinders, oil cylinders, or other linear motion devices, which are well known devices and are not described herein.

The first cooling device 35 and the second cooling device 45 are fans or other cooling devices, which are well known devices and will not be described herein.

The utility model discloses can adopt PLC control system or other automatic control systems, for well-known technique, no longer describe herein.

The utility model discloses a working method is:

the spraying pipe rotates, the spraying robot or the spraying device sprays the spraying pipe on one side, after the spraying is finished, the first cooling mechanism moves to the spraying pipe, the spraying pipe is cooled through the first cooling spray gun 33, the temperature sensor 5 can sense the temperature on the spraying pipe, when the temperature is too high, the cooling effect on the spraying pipe can be enhanced, the infrared distance sensor 6 can detect the distance between the infrared distance sensor and the spraying pipe, the position between the infrared distance sensor and the spraying pipe is adjusted through the first telescopic mechanism 32, when the spraying pipe is cooled to a certain temperature or a certain time, the sliding seat 2 moves, the second cooling spray gun 43 carries out secondary cooling on the spraying pipe, meanwhile, the first cooling mechanism moves to the next spraying pipe for cooling, a method of twice cooling is adopted, the steps are carried out gradually, the deformation or burst of the spraying pipe caused by too fast cooling is prevented, the spraying pipe is prevented from being taken out due to too slow cooling, and the cooling efficiency of the spraying pipe is improved, is simple and practical.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. A thermal spray cooling device, characterized by: locate slide, drive slide on the slide rail including slide rail, slidable, locate first cooling body and second cooling body on the slide along the gliding actuating mechanism of slide rail, locate first cooling body and second cooling body on the slide, first cooling body includes first fixing base, locates first telescopic machanism on first fixing base, locates the first cooling spray gun of the flexible end of first telescopic machanism, connects in the first flexible pipe of first cooling spray gun, connects in the first cooling device of first flexible pipe, second cooling body includes the second fixing base, locates the second telescopic machanism on the second fixing base, locates the second cooling spray gun of the flexible end of second telescopic machanism, connects in the flexible pipe of second cooling spray gun, connects in the flexible second cooling device of the flexible pipe of second.

2. A thermal spray cooling device as defined in claim 1, wherein: the sliding seat is provided with a sliding groove, the sliding groove is parallel to the sliding rail, the second fixing seat can slide on the sliding groove, and the sliding seat is provided with a third telescopic mechanism for driving the second fixing seat to move.

3. A thermal spray cooling device as defined in claim 1, wherein: and the first cooling spray gun and the second cooling spray gun are respectively provided with a temperature sensor.

4. A thermal spray cooling device as defined in claim 1, wherein: and the first cooling spray gun and the second cooling spray gun are respectively provided with an infrared distance sensor.

5. A thermal spray cooling device as defined in claim 1, wherein: the first telescopic pipe comprises a plurality of air guide pipes and a plurality of corrugated pipes, the air guide pipes and the corrugated pipes are alternately arranged, and a guide wheel is arranged at the bottom of each air guide pipe and can roll on a sliding rail.

6. A thermal spray cooling device as defined in claim 5, wherein: the structure of the first telescopic pipe is the same as that of the second telescopic pipe.

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