CN211760839U

CN211760839U - Jet polishing workstation

Info

Publication number: CN211760839U
Application number: CN202020200062.8U
Authority: CN
Inventors: 田劲松
Original assignee: Suzhou Collaborative Innovation Intelligent Manufacturing Equipment Co ltd
Current assignee: Suzhou Collaborative Innovation Intelligent Manufacturing Equipment Co ltd
Priority date: 2020-02-24
Filing date: 2020-02-24
Publication date: 2020-10-27
Anticipated expiration: 2030-02-24

Abstract

The utility model discloses a efflux polishing workstation, include: the rotary plate comprises a flat disc-shaped screen plate, a rotating shaft, a motor, four carriers, a mechanical arm, a jet polishing nozzle, a cleaning nozzle and a drying nozzle, wherein the bottom end of the flat disc-shaped screen plate is connected with the center of the top surface of the screen plate and is used for driving the screen plate to rotate, the motor is connected with the top end of the rotating shaft and is used for driving the rotating shaft to rotate, the four carriers are arranged on the top surface of the screen plate and are uniformly distributed along the circumferential direction of. The utility model discloses jet polishing workstation, it can carry out jet polishing to the work piece, can also wash and dry the work piece after the polishing to the circulation operation of putting work piece, polishing, washing and drying is got in the realization.

Description

Jet polishing workstation

Technical Field

The utility model relates to an abrasive material water jet polishing field, concretely relates to efflux polishing workstation.

Background

The abrasive water jet polishing is a polishing processing technology which utilizes polishing liquid mixed with fine abrasive particles and sprayed from a nozzle small hole at a high speed to act on the surface of a workpiece, achieves the purpose of grinding and removing materials through the high-speed collision shearing action of the abrasive particles, and quantitatively corrects the surface roughness of the workpiece by controlling the process parameters such as pressure, angle, spraying time and the like when the polishing liquid is sprayed.

The existing jet polishing equipment only has a jet polishing function generally, and after jet polishing is finished, part of polishing solution remains on a workpiece, so that the residual polishing solution on the workpiece needs to be removed in time.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a jet polishing workstation, it can carry out the jet polishing to the work piece, can also wash and dry the work piece after the polishing to realize getting the circulation operation of putting work piece, polishing, washing and drying.

In order to achieve the above object, the technical solution of the present invention is to design a jet polishing workstation, including: the device comprises a horizontally-arranged disc-shaped screen plate, a vertically-arranged rotating shaft, a motor, four carriers, a manipulator, a jet polishing nozzle, a cleaning nozzle and a drying nozzle, wherein the bottom end of the vertically-arranged rotating shaft is connected with the center of the top surface of the screen plate and is used for driving the screen plate to rotate;

the manipulator, the jet polishing nozzle, the cleaning nozzle and the drying nozzle are uniformly distributed along the circumferential direction of the screen plate, and are sequentially arranged along the clockwise direction;

the carrier is used for placing a workpiece, the carrier is provided with a placing groove for placing the workpiece, and after the workpiece is placed in the placing groove, the top surface of the workpiece protrudes out of the carrier;

the motor is used for driving the screen plate to rotate clockwise intermittently, so that the screen plate rotates 90 degrees each time;

the manipulator is used for taking and placing workpieces, when a carrier rotates to the position right below the manipulator along with the screen plate, the manipulator takes the workpieces on the carrier and places a new workpiece on the carrier;

the jet polishing nozzle is used for carrying out jet polishing on the top surface of the workpiece, and when a certain carrier rotates to the position right below the jet polishing nozzle along with the screen plate, the jet polishing nozzle carries out jet polishing on the top surface of the workpiece on the carrier;

the cleaning nozzles are used for cleaning the top surfaces of the workpieces, and when a certain carrier rotates to the position right below the cleaning nozzles along with the screen plate, the cleaning nozzles clean the top surfaces of the workpieces on the carrier;

and when a certain carrier rotates to the position right below the drying nozzle along with the screen plate, the drying nozzle dries the top surface of the workpiece on the carrier.

Preferably, the manipulator is provided with a first sensor for detecting the carrier, when a certain carrier rotates to a position right below the manipulator along with the screen plate, the first sensor can be triggered to sense, and after the first sensor is triggered, the manipulator takes away the workpiece on the carrier and places a new workpiece on the carrier.

Preferably, the jet polishing nozzle is provided with a second sensor for detecting the carrier, when a certain carrier rotates to a position right below the jet polishing nozzle along with the screen plate, the second sensor can be triggered to sense, and after the second sensor is triggered, the jet polishing nozzle carries out jet polishing on the top surface of the workpiece on the carrier.

Preferably, the cleaning nozzle is provided with a third sensor for detecting the carrier, when a carrier rotates with the screen plate to a position right below the cleaning nozzle, the third sensor can be triggered to sense, and after the third sensor is triggered, the cleaning nozzle cleans the top surface of the workpiece on the carrier.

Preferably, the drying nozzle is provided with a fourth sensor for detecting the carrier, when a certain carrier rotates to a position right below the drying nozzle along with the screen plate, the fourth sensor can be triggered to sense, and after the fourth sensor is triggered, the drying nozzle dries the top surface of the workpiece on the carrier.

Preferably, the jet polishing nozzle is externally connected to a polishing liquid supply device for supplying a polishing liquid thereto.

Preferably, the cleaning nozzle is externally connected to a cleaning liquid supply device for supplying a cleaning liquid thereto.

Preferably, the drying nozzle is externally connected with a compressed air supply device for supplying compressed air thereto, and the compressed air supply device is provided with a heating module, and the compressed air supply device supplies heated compressed air to the drying nozzle.

Preferably, a liquid collecting pool is arranged under the screen plate.

Preferably, the liquid collecting pool is circular, the liquid collecting pool and the screen plate share the same axis, and the inner diameter of the liquid collecting pool is not smaller than the outer diameter of the screen plate.

The utility model has the advantages and the beneficial effects that: the jet polishing workstation can carry out jet polishing on workpieces, can also clean and dry the polished workpieces, and realizes the cyclic operation of taking and placing the workpieces, polishing, cleaning and drying.

The motor drives the screen plate to rotate clockwise intermittently, the screen plate rotates 90 degrees each time, and the carrier rotates synchronously with the screen plate; taking a carrier as an example, when the carrier rotates with the screen plate to a position right below the manipulator, the manipulator takes away the workpiece on the carrier (the workpiece is polished, cleaned and dried), and places a new workpiece on the carrier; then the carrier rotates 90 degrees along with the screen plate to a position right below a jet polishing nozzle, and the jet polishing nozzle performs jet polishing on the top surface of the workpiece on the carrier; then the carrier rotates 90 degrees along with the screen plate to a position right below a cleaning nozzle, and the cleaning nozzle cleans the top surface of the workpiece on the carrier; then the carrier rotates 90 degrees along with the screen plate to a position right below the drying nozzle, and the drying nozzle dries the top surface of the workpiece on the carrier; then the carrier rotates 90 degrees along with the screen plate to the position right below the manipulator, the manipulator takes away the workpiece on the carrier (the workpiece is polished, cleaned and dried), and a new workpiece is placed on the carrier; the four carriers are circulated, so that the circular operation of taking and placing the workpiece, polishing, cleaning and drying can be realized, and the working efficiency can be improved.

A liquid collecting tank is arranged under the screen plate and can collect liquid falling from the screen plate.

Drawings

Fig. 1 is a schematic top view of the present invention;

fig. 2 is a schematic side view of the present invention.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

The utility model discloses the technical scheme who specifically implements is:

as shown in fig. 1 and 2, a jet polishing station includes: the device comprises a horizontally-arranged disc-shaped screen plate 1, a vertically-arranged rotating shaft 21, a motor 22, four carriers 3, a manipulator 4, a jet polishing nozzle 5, a cleaning nozzle 6 and a drying nozzle 7, wherein the bottom end of the vertically-arranged rotating shaft 21 is connected with the center of the top surface of the screen plate 1 and is used for driving the screen plate 1 to rotate;

the manipulator 4, the jet polishing nozzle 5, the cleaning nozzle 6 and the drying nozzle 7 are uniformly distributed along the circumferential direction of the screen plate 1, the manipulator 4, the jet polishing nozzle 5, the cleaning nozzle 6 and the drying nozzle 7 are sequentially arranged along the clockwise direction, and the manipulator 4, the jet polishing nozzle 5, the cleaning nozzle 6 and the drying nozzle 7 are in one-to-one correspondence with the four carriers 3;

the carrier 3 is used for placing a workpiece, the carrier 3 is provided with a placing groove for placing the workpiece, and after the workpiece is placed in the placing groove, the top surface of the workpiece protrudes out of the carrier 3;

the motor 22 is used for driving the screen plate 1 to rotate clockwise intermittently, so that the screen plate 1 rotates 90 degrees each time;

the manipulator 4 is used for taking and placing workpieces, when a certain carrier 3 rotates to a position right below the manipulator 4 along with the screen plate 1, the manipulator 4 takes the workpieces on the carrier 3 and places a new workpiece on the carrier 3;

the jet polishing nozzle 5 is used for carrying out jet polishing on the top surface of a workpiece, and when a certain carrier 3 rotates to the position right below the jet polishing nozzle 5 along with the screen plate 1, the jet polishing nozzle 5 carries out jet polishing on the top surface of the workpiece on the carrier 3;

the cleaning nozzles 6 are used for cleaning the top surfaces of the workpieces, and when a certain carrier 3 rotates to the position right below the cleaning nozzles 6 along with the screen plate 1, the cleaning nozzles 6 clean the top surfaces of the workpieces on the carrier 3;

the drying nozzle 7 is used for drying the top surface of the workpiece, and when a certain carrier 3 rotates to the position right below the drying nozzle 7 along with the screen plate 1, the drying nozzle 7 dries the top surface of the workpiece on the carrier 3.

Preferably, the manipulator 4 is equipped with a first sensor for detecting the carrier 3, when a certain carrier 3 rotates to a position right below the manipulator 4 along with the screen 1, the first sensor can be triggered to sense, and after the first sensor is triggered, the manipulator 4 takes away the workpiece on the carrier 3 and places a new workpiece on the carrier 3.

Preferably, the jet polishing nozzle 5 is provided with a second sensor for detecting the carrier 3, when a certain carrier 3 rotates with the screen 1 to a position right below the jet polishing nozzle 5, the second sensor can be triggered to sense, and after the second sensor is triggered, the jet polishing nozzle 5 performs jet polishing on the top surface of the workpiece on the carrier 3.

Preferably, the cleaning nozzle 6 is provided with a third sensor for detecting the carrier 3, when a certain carrier 3 rotates with the screen plate 1 to a position right below the cleaning nozzle 6, the third sensor is triggered to sense, and after the third sensor is triggered, the cleaning nozzle 6 cleans the top surface of the workpiece on the carrier 3.

Preferably, the drying nozzle 7 is provided with a fourth sensor for detecting the carrier 3, when a certain carrier 3 rotates to a position right below the drying nozzle 7 along with the screen 1, the fourth sensor can be triggered to sense, and after the fourth sensor is triggered, the drying nozzle 7 dries the top surface of the workpiece on the carrier 3.

Preferably, the jet polishing nozzle 5 is externally connected to a polishing liquid supply device for supplying a polishing liquid thereto.

Preferably, a cleaning liquid supply device for supplying a cleaning liquid to the cleaning nozzle 6 is externally connected to the cleaning nozzle.

Preferably, a compressed air supply device for supplying compressed air to the drying nozzle 7 is externally connected to the drying nozzle, and the compressed air supply device is provided with a heating module, and supplies heated compressed air to the drying nozzle 7.

Preferably, a liquid collecting pool 8 is arranged right below the mesh plate 1.

Preferably, the liquid collecting pool 8 is circular, the liquid collecting pool 8 and the screen plate 1 are coaxial, and the inner diameter of the liquid collecting pool 8 is not smaller than the outer diameter of the screen plate 1.

The utility model discloses a jet polishing workstation, it can carry out jet polishing to the work piece, can also wash and dry the work piece after the polishing to the circulation operation of putting work piece, polishing, washing and drying is got in the realization.

The motor 22 drives the screen plate 1 to rotate clockwise intermittently, the screen plate 1 rotates 90 degrees each time, and the carrier 3 rotates synchronously with the screen plate 1; taking a carrier 3 as an example, when the carrier 3 rotates with the screen 1 to a position right below the manipulator 4, the manipulator 4 takes away the workpiece on the carrier 3 (the workpiece has been polished, cleaned and dried), and places a new workpiece on the carrier 3; then the carrier 3 rotates 90 degrees along with the screen plate 1 to a position right below the jet polishing nozzle 5, and the jet polishing nozzle 5 performs jet polishing on the top surface of the workpiece on the carrier 3; then the carrier 3 rotates 90 degrees along with the screen plate 1 to a position right below the cleaning nozzle 6, and the cleaning nozzle 6 cleans the top surface of the workpiece on the carrier 3; then the carrier 3 rotates 90 degrees along with the screen plate 1 to a position right below a drying nozzle 7, and the drying nozzle 7 dries the top surface of the workpiece on the carrier 3; then the carrier 3 rotates 90 degrees along with the screen 1 to the position right below the mechanical arm 4, the mechanical arm 4 takes away the workpiece on the carrier 3 (the workpiece is polished, cleaned and dried), and a new workpiece is placed on the carrier 3; the four carriers 3 are circulated, so that the circular operation of taking and placing the workpiece, polishing, cleaning and drying can be realized, and the working efficiency can be improved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A jet polishing station, comprising: the device comprises a horizontally-arranged disc-shaped screen plate, a vertically-arranged rotating shaft, a motor, four carriers, a manipulator, a jet polishing nozzle, a cleaning nozzle and a drying nozzle, wherein the bottom end of the vertically-arranged rotating shaft is connected with the center of the top surface of the screen plate and is used for driving the screen plate to rotate;

2. The jet polishing station of claim 1, wherein the robot is configured with a first sensor for detecting a carrier, wherein when a carrier is rotated with the screen directly under the robot, the first sensor is triggered to sense, and when the first sensor is triggered, the robot removes a workpiece from the carrier and places a new workpiece on the carrier.

3. The jet polishing workstation of claim 2, wherein the jet polishing nozzle is provided with a second sensor for detecting the carrier, when a carrier rotates with the screen plate to a position right below the jet polishing nozzle, the second sensor is triggered to sense, and the jet polishing nozzle performs jet polishing on the top surface of the workpiece on the carrier after the second sensor is triggered.

4. The jet polishing station of claim 3, wherein the cleaning nozzle is provided with a third sensor for detecting the carrier, the third sensor is triggered when a carrier is rotated with the screen to a position directly below the cleaning nozzle, and the cleaning nozzle cleans the top surface of the workpiece on the carrier after the third sensor is triggered.

5. The jet polishing workstation of claim 4, wherein the drying nozzle is provided with a fourth sensor for detecting the carrier, when a carrier rotates with the screen plate to a position right below the drying nozzle, the fourth sensor is triggered to sense, and after the fourth sensor is triggered, the drying nozzle dries the top surface of the workpiece on the carrier.

6. The jet polishing workstation according to claim 5, wherein the jet polishing nozzle is externally connected with a polishing liquid supply device for supplying polishing liquid thereto.

7. The jet polishing station of claim 6, wherein said cleaning nozzle is externally connected to a cleaning liquid supply means for supplying a cleaning liquid thereto.

8. The jet polishing workstation according to claim 7, wherein the drying nozzle is externally connected with a compressed air supply device for supplying compressed air thereto, and the compressed air supply device is provided with a heating module, and the compressed air supply device supplies the heated compressed air to the drying nozzle.

9. The jet polishing workstation of claim 8, wherein a liquid collection basin is provided directly below said screen.

10. The jet polishing workstation of claim 9, wherein the liquid collecting tank is circular, the liquid collecting tank and the screen plate are coaxial, and the inner diameter of the liquid collecting tank is not less than the outer diameter of the screen plate.