CN223339730U - Drilling equipment for precision ceramic machining - Google Patents

Abstract

The utility model relates to the technical field of ceramic drilling, in particular to drilling equipment for precise ceramic machining, which comprises a drilling device, a sprinkling cleaning device, a clamping device, a controller and a workbench. The drilling device is arranged on the workbench and is connected with the workbench. The sprinkling cleaning device is arranged on the drilling device and is connected with the drilling device. The clamping device is arranged on the workbench, the clamping device is arranged below the drilling device, and the clamping device is connected with the workbench. The controller is arranged at the side of the workbench, the controller is fixedly connected with the side face of the workbench, and the controller is electrically connected with the drilling device and the sprinkling cleaning device. According to the utility model, the ceramic can be firmly fixed through the four limiting blocks, then the drill bit is used for drilling the ceramic, and then the spray head is used for cleaning the surface of the ceramic, and meanwhile, the spray head can also effectively reduce dust generated during drilling, so that the influence on staff is avoided.

Description

Drilling equipment for precision ceramic machining

Technical Field

The utility model relates to the technical field of ceramic drilling, in particular to drilling equipment for precise ceramic machining.

Background

The precision ceramic has the characteristics of high hardness, high strength, high temperature resistance, corrosion resistance, good insulativity and the like. For example, aluminum oxide ceramics have hardness inferior to diamond, and silicon carbide ceramics can maintain stable performance in high temperature environments. The characteristics lead the precision ceramics to have wide application in the fields of electronics, aerospace, medical treatment, chemical industry and the like.

The existing drilling work of the ceramics needs to be performed manually or is completed by adopting a drilling machine. The dynamics and the position of manual operation are difficult to grasp, and the damage that causes the pottery easily, work efficiency is low, and it is very inconvenient to use, and the dust that produces influences the staff moreover when drilling. Therefore, it is necessary to provide a drilling apparatus for precision ceramics processing.

Disclosure of utility model

The utility model aims to solve the problem that the existing ceramic drilling work needs to be performed manually or is completed by adopting a drilling machine. The dynamics and the position of manual operation are difficult to grasp, and the damage that causes the pottery easily, work efficiency is low, and it is very inconvenient to use, and the dust that produces influences staff's technical problem in the drilling moreover. Therefore, a drilling device for precision ceramic processing is provided.

The technical scheme adopted by the utility model for solving the technical problems is that the drilling equipment for precision ceramic processing comprises a drilling device, a sprinkling cleaning device, a clamping device, a controller and a workbench. The drilling device is arranged on the workbench and is connected with the workbench. The sprinkling cleaning device is arranged on the drilling device and is connected with the drilling device. The clamping device is arranged on the workbench, the clamping device is arranged below the drilling device, and the clamping device is connected with the workbench. The controller is arranged at the side of the workbench, the controller is fixedly connected with the side face of the workbench, and the controller is electrically connected with the drilling device and the sprinkling cleaning device.

When the ceramic needs to be drilled, a worker places the ceramic on the clamping device, then the worker fixes the ceramic through the clamping device, and then the worker opens the drilling device and the sprinkling cleaning device through the controller.

When the drilling device is opened by a worker through the controller, the drilling device drills the ceramic until the drilling is completed.

When the worker opens the sprinkler cleaning device through the controller, the sprinkler cleaning device cleans the ceramic until the drilling is completed.

Further, the clamping device comprises four limit screws, four sliding blocks, four connecting rods, four limiting blocks and a cross sliding port. The cross sliding port is arranged on the workbench and is communicated up and down. The four sliding blocks are vertically arranged, are arranged on the inner side of the cross sliding opening and are respectively arranged in the four directions of the cross sliding opening, and are in sliding connection with the cross sliding opening. The four limit screws are vertically arranged, the four limit screws are arranged on the inner sides of the cross sliding openings, nuts of the four limit screws are arranged below the workbench, the width of the nuts of the four limit screws is larger than that of the cross sliding openings, the four limit screws are respectively arranged under the four sliding blocks, and the four limit screws are respectively in threaded connection with the four sliding blocks. The four connecting blocks are respectively arranged right above the four sliding blocks and are respectively fixedly connected with the four sliding blocks. The four connecting rods are transversely arranged, the directions of the four connecting rods are parallel to the four directions of the cross sliding opening, the four connecting rods are arranged above the cross sliding opening, the four connecting rods are arranged on the inner sides of the four connecting blocks, and the four connecting rods are fixedly connected with the four connecting blocks. The four limiting blocks are arranged above the cross sliding opening, are arranged on the inner sides of the four connecting rods and are fixedly connected with the four connecting rods respectively.

When needs are drilled to the pottery, the staff puts the pottery in the middle of four stopper, then the staff removes four sliders on the cross sliding mouth, and four sliders remove and drive four connecting rods and remove, and four connecting rods remove and drive four stopper removal until four stopper fix the pottery, then the staff screw up four limit screws, and four limit screws upwards move until contact with the workstation bottom. Thereby completing the clamping of the ceramic.

Further, the drilling device comprises two support plates, a mounting frame, an electric telescopic rod, a drill bit and a motor. The vertical setting of two backup pads, two backup pads symmetry set up in the top of workstation, and two backup pads set up in the side of four connecting blocks, the lower part and the upper surface fixed connection of workstation of two backup pads. The mounting bracket transversely sets up, and the mounting bracket sets up the top of two backup pads, and the upper portion fixed connection of mounting bracket and two backup pads. Electric telescopic handle vertical setting, electric telescopic handle set up in the top of workstation, and electric telescopic handle sets up in the below of mounting bracket, and electric telescopic handle sets up in the inboard of two backup pads, and electric telescopic handle's upper end and the lower fixed surface of mounting bracket are connected, electric telescopic handle and controller electric connection. The pivot axis of motor vertical setting, the motor sets up in the top of workstation, and the motor sets up under electric telescopic handle, and motor and electric telescopic handle's lower extreme fixed connection, motor and controller electric connection. The drill bit is vertically arranged, the axis of the rotating shaft of the drill bit is coincident with the axis of the rotating shaft of the motor, the drill bit is arranged above the workbench, the drill bit is arranged below the motor, and the upper end of the drill bit is fixedly connected with the rotating shaft of the motor.

Then the staff opens the motor through the controller, and the motor work drives the drill bit and rotates, then the staff opens electric telescopic handle and water pump through the controller.

When the electric telescopic rod is opened by a worker through the controller, the electric telescopic rod stretches to drive the motor to move downwards, the motor moves downwards to drive the drill bit to move downwards, and the drill bit moves downwards to drill the ceramic until the drilling is completed. Thus completing the drilling of the ceramic.

Further, the sprinkling cleaning device comprises a water storage tank, a water pump, a hose, a spray head and a fixing piece. The storage water tank sets up in the top of mounting bracket, storage water tank and mounting bracket fixed connection. The water pump sets up in the inside of storage water tank, and the water pump is fixed connection with the interior bottom surface of storage water tank, and the water inlet of water pump communicates with the inside of storage water tank, water pump and controller electric connection. The hose sets up in the side of water pump, and the hose runs through the lateral part of storage water tank, and the hose runs through the mounting bracket, and hose and the delivery port intercommunication of water pump. The mounting sets up in the side of motor, and the mounting sets up in the top of workstation, and the side fixed connection of mounting and motor, mounting and hose fixed connection. The shower nozzle sets up in the below of hose, and the shower nozzle sets up in the side of drill bit, shower nozzle and hose intercommunication.

When the water pump is opened by a worker through the controller, the water pump pumps the water in the water storage tank into the hose, then the water flows into the spray head through the hose, finally the spray head sprays the water to the drilling position, and the sprayed water cleans the ceramic until the drilling is completed. Thus completing the cleaning of the ceramic.

Further, the method comprises the step of mistakenly touching the switch. The false touch switch is arranged on the controller and is electrically connected with the controller.

And the injury caused by the false touch of the staff is prevented.

Further, the four limiting blocks are made of rubber materials.

Preventing the ceramic surface from being scratched.

Furthermore, the hose and the penetrating part of the water storage tank are in sealing design.

Preventing water leakage.

The utility model has the beneficial effects that:

According to the utility model, the ceramic can be firmly fixed through the four limiting blocks, then the drill bit is used for drilling the ceramic, and then the spray head is used for cleaning the surface of the ceramic, and meanwhile, the spray head can also effectively reduce dust generated during drilling, so that the influence on staff is avoided.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a front cross-sectional view of the present utility model;

FIG. 2 is a top view of the clamping device of the present utility model;

The reference numerals are 1, a supporting plate, 2, a water storage tank, 3, a mounting rack, 4, a controller, 5, a workbench, 6, a limit screw, 7, a sliding block, 8, a water pump, 9, an electric telescopic rod, 10, a hose, 11, a limit block, 12, a connecting rod, 13, a drill bit, 14, a spray head, 15, a fixing piece, 16, a motor, 17, a cross sliding port, 18 and a connecting block.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden on the person of ordinary skill in the art based on the embodiments of the present utility model, are intended to be encompassed within the scope of the present utility model.

Referring to fig. 1, a drilling device for precision ceramic processing comprises a drilling device, a sprinkling cleaning device, a clamping device, a controller 4 and a workbench 5. The drilling device is arranged on the workbench 5 and is connected with the workbench 5. The sprinkling cleaning device is arranged on the drilling device and is connected with the drilling device. The clamping device is arranged on the workbench 5, the clamping device is arranged below the drilling device, and the clamping device is connected with the workbench 5. The controller 4 is arranged at the side of the workbench 5, the controller 4 is fixedly connected with the side of the workbench 5, and the controller 4 is electrically connected with the drilling device and the sprinkling cleaning device.

When the ceramic needs to be drilled, a worker places the ceramic on the clamping device, then the worker fixes the ceramic through the clamping device, and then the worker opens the drilling device and the sprinkling cleaning device through the controller 4.

When the operator opens the drilling device through the controller 4, the drilling device drills the ceramic until the drilling is completed.

When the worker opens the sprinkler cleaning device through the controller 4, the sprinkler cleaning device cleans the ceramic until the drilling is completed.

The clamping device comprises four limit screws 6, four sliding blocks 7, four connecting blocks 18, four connecting rods 12, four limiting blocks 11 and a cross sliding port 17. The cross sliding port 17 is arranged on the workbench 5, and the cross sliding port 17 is communicated up and down. The four sliding blocks 7 are vertically arranged, the four sliding blocks 7 are arranged on the inner side of the cross sliding opening 17, the four sliding blocks 7 are respectively arranged in the four directions of the cross sliding opening 17, and the four sliding blocks 7 are in sliding connection with the cross sliding opening 17. The four limit screws 6 are vertically arranged, the four limit screws 6 are arranged on the inner side of the cross sliding opening 17, nuts of the four limit screws 6 are arranged below the workbench 5, the width of the nuts of the four limit screws 6 is larger than that of the cross sliding opening 17, the four limit screws 6 are respectively arranged under the four sliding blocks 7, and the four limit screws 6 are respectively in threaded connection with the four sliding blocks 7. The four connecting blocks 18 are respectively arranged right above the four sliding blocks 7, and the four connecting blocks 18 are respectively fixedly connected with the four sliding blocks 7. The four connecting rods 12 are transversely arranged, the directions of the four connecting rods are parallel to the four directions of the cross sliding opening 17, the four connecting rods 12 are arranged above the cross sliding opening 17, the four connecting rods 12 are arranged on the inner sides of the four connecting blocks 18, and the four connecting rods 12 are fixedly connected with the four connecting blocks 18. The four limiting blocks 11 are arranged above the cross sliding opening 17, the four limiting blocks 11 are arranged on the inner sides of the four connecting rods 12, and the four limiting blocks 11 are fixedly connected with the four connecting rods 12 respectively.

When the ceramic needs to be drilled, a worker places the ceramic in the middle of the four limiting blocks 11, then the worker moves the four sliding blocks 7 on the cross sliding opening 17, the four sliding blocks 7 move to drive the four connecting rods 12 to move, the four connecting rods 12 move to drive the four limiting blocks 11 to move until the ceramic is fixed by the four limiting blocks 11, then the worker screws the four limiting screws 6, and the four limiting screws 6 move upwards until contacting with the bottom of the workbench 5. Thereby completing the clamping of the ceramic.

The drilling device comprises two support plates 1, a mounting frame 3, an electric telescopic rod 9, a drill bit 13 and a motor 16. The two backup pads 1 are vertically arranged, and two backup pads 1 are symmetrically arranged above the workbench 5, and two backup pads 1 are arranged at the sides of four connecting blocks 18, and the lower parts of two backup pads 1 are fixedly connected with the upper surface of the workbench 5. The mounting bracket 3 transversely sets up, and mounting bracket 3 sets up in the top of two backup pads 1, and mounting bracket 3 and the upper portion fixed connection of two backup pads 1. Electric telescopic handle 9 vertical setting, electric telescopic handle 9 set up in the top of workstation 5, and electric telescopic handle 9 sets up in the below of mounting bracket 3, and electric telescopic handle 9 sets up in the inboard of two backup pads 1, and electric telescopic handle 9's upper end and the lower fixed surface of mounting bracket 3 are connected, electric telescopic handle 9 and controller 4 electric connection. The pivot axis of motor 16 sets up vertically, and motor 16 sets up in the top of workstation 5, and motor 16 sets up under electric telescopic handle 9, and motor 16 and electric telescopic handle 9's lower extreme fixed connection, motor 16 and controller 4 electric connection. The drill bit 13 is vertically arranged, the axis of the rotating shaft of the drill bit 13 is coincident with the axis of the rotating shaft of the motor 16, the drill bit 13 is arranged above the workbench 5, the drill bit 13 is arranged below the motor 16, and the upper end of the drill bit 13 is fixedly connected with the rotating shaft of the motor 16.

Then the worker turns on the motor 16 through the controller 4, the motor 16 works to drive the drill bit 13 to rotate, and then the worker turns on the electric telescopic rod 9 and the water pump 8 through the controller 4.

When the electric telescopic rod 9 is opened by a worker through the controller 4, the electric telescopic rod 9 stretches to drive the motor 16 to move downwards, the motor 16 moves downwards to drive the drill bit 13 to move downwards, and the drill bit 13 moves downwards to drill the ceramic until the drilling is completed. Thus completing the drilling of the ceramic.

The sprinkler cleaning device comprises a water storage tank 2, a water pump 8, a hose 10, a spray head 14 and a fixing piece 15. The water storage tank 2 sets up in the top of mounting bracket 3, and water storage tank 2 and mounting bracket 3 fixed connection. The water pump 8 is arranged in the water storage tank 2, the water pump 8 is fixedly connected with the inner bottom surface of the water storage tank 2, the water inlet of the water pump 8 is communicated with the inside of the water storage tank 2, and the water pump 8 is electrically connected with the controller 4. The hose 10 is arranged at the side of the water pump 8, the hose 10 penetrates through the side part of the water storage tank 2, the hose 10 penetrates through the mounting frame 3, and the hose 10 is communicated with the water outlet of the water pump 8. The mounting 15 sets up in the side of motor 16, and the mounting 15 sets up in the top of workstation 5, and the side fixed connection of mounting 15 and motor 16, mounting 15 and hose 10 fixed connection. The nozzle 14 is disposed below the hose 10, the nozzle 14 is disposed laterally of the drill 13, and the nozzle 14 communicates with the hose 10.

When the water pump 8 is turned on by the operator through the controller 4, the water pump 8 pumps the water in the water storage tank 2 into the hose 10, then the water flows into the spray head 14 through the hose 10, finally the spray head 14 sprays the water to the drilling position, and the sprayed water washes the ceramic until the drilling is finished. Thus completing the cleaning of the ceramic.

Comprises a false touch switch. The false touch switch is arranged on the controller 4 and is electrically connected with the controller 4.

And the injury caused by the false touch of the staff is prevented.

The four limiting blocks 11 are made of rubber.

Preventing the ceramic surface from being scratched.

The hose 10 is designed to seal with the through portion of the water storage tank 2.

Preventing water leakage.

The working principle of the utility model is as follows:

When the ceramic needs to be drilled, a worker places the ceramic in the middle of the four limiting blocks 11, then the worker moves the four sliding blocks 7 on the cross sliding opening 17, the four sliding blocks 7 move to drive the four connecting rods 12 to move, the four connecting rods 12 move to drive the four limiting blocks 11 to move until the ceramic is fixed by the four limiting blocks 11, then the worker screws the four limiting screws 6, and the four limiting screws 6 move upwards until contacting with the bottom of the workbench 5. Thereby completing the clamping of the ceramic.

Then the worker turns on the motor 16 through the controller 4, the motor 16 works to drive the drill bit 13 to rotate, and then the worker turns on the electric telescopic rod 9 and the water pump 8 through the controller 4.

When the electric telescopic rod 9 is opened by a worker through the controller 4, the electric telescopic rod 9 stretches to drive the motor 16 to move downwards, the motor 16 moves downwards to drive the drill bit 13 to move downwards, and the drill bit 13 moves downwards to drill the ceramic until the drilling is completed. Thus completing the drilling of the ceramic.

When the water pump 8 is turned on by the operator through the controller 4, the water pump 8 pumps the water in the water storage tank 2 into the hose 10, then the water flows into the spray head 14 through the hose 10, finally the spray head 14 sprays the water to the drilling position, and the sprayed water washes the ceramic until the drilling is finished. Thus completing the cleaning of the ceramic.

The above-described embodiments are only some embodiments, but not all embodiments, of the present utility model, and other embodiments, which are obtained by those skilled in the art without any inventive effort, are within the scope of the present utility model.

Claims (7)

1. The drilling equipment for precision ceramic processing is characterized by comprising a drilling device, a sprinkling cleaning device, a clamping device, a controller (4) and a workbench (5);

The drilling device is arranged on the workbench (5), and is connected with the workbench (5);

The sprinkling cleaning device is arranged on the drilling device and is connected with the drilling device;

The clamping device is arranged on the workbench (5), the clamping device is arranged below the drilling device, and the clamping device is connected with the workbench (5);

The controller (4) is arranged on the side of the workbench (5), the controller (4) is fixedly connected with the side face of the workbench (5), and the controller (4) is electrically connected with the drilling device and the sprinkling cleaning device.

2. The drilling equipment for precision ceramic machining according to claim 1, wherein the clamping device comprises four limit screws (6), four sliding blocks (7), four connecting blocks (18), four connecting rods (12), four limiting blocks (11) and a cross sliding port (17);

the cross sliding port (17) is arranged on the workbench (5), and the cross sliding port (17) is communicated up and down;

the four sliding blocks (7) are vertically arranged, the four sliding blocks (7) are arranged on the inner side of the cross sliding opening (17), the four sliding blocks (7) are respectively arranged in the four directions of the cross sliding opening (17), and the four sliding blocks (7) are in sliding connection with the cross sliding opening (17);

The four limit screws (6) are vertically arranged, the four limit screws (6) are arranged on the inner sides of the cross sliding openings (17), nuts of the four limit screws (6) are arranged below the workbench (5), the width of the nuts of the four limit screws (6) is larger than that of the cross sliding openings (17), the four limit screws (6) are respectively arranged under the four sliding blocks (7), and the four limit screws (6) are respectively in threaded connection with the four sliding blocks (7);

the four connecting blocks (18) are respectively arranged right above the four sliding blocks (7), and the four connecting blocks (18) are respectively fixedly connected with the four sliding blocks (7);

The four connecting rods (12) are transversely arranged, the directions of the four connecting rods are parallel to the four directions of the cross sliding opening (17), the four connecting rods (12) are arranged above the cross sliding opening (17), the four connecting rods (12) are arranged on the inner sides of the four connecting blocks (18), and the four connecting rods (12) are fixedly connected with the four connecting blocks (18);

Four limiting blocks (11) are arranged above the cross sliding opening (17), the four limiting blocks (11) are arranged on the inner sides of the four connecting rods (12), and the four limiting blocks (11) are fixedly connected with the four connecting rods (12) respectively.

3. The drilling equipment for precision ceramic machining according to claim 2, wherein the drilling device comprises two support plates (1), a mounting frame (3), an electric telescopic rod (9), a drill bit (13) and a motor (16);

The two supporting plates (1) are vertically arranged, the two supporting plates (1) are symmetrically arranged above the workbench (5), the two supporting plates (1) are arranged on the sides of the four connecting blocks (18), and the lower parts of the two supporting plates (1) are fixedly connected with the upper surface of the workbench (5);

The mounting frames (3) are transversely arranged, the mounting frames (3) are arranged above the two supporting plates (1), and the mounting frames (3) are fixedly connected with the upper parts of the two supporting plates (1);

The electric telescopic rods (9) are vertically arranged, the electric telescopic rods (9) are arranged above the workbench (5), the electric telescopic rods (9) are arranged below the mounting frame (3), the electric telescopic rods (9) are arranged on the inner sides of the two supporting plates (1), the upper ends of the electric telescopic rods (9) are fixedly connected with the lower surface of the mounting frame (3), and the electric telescopic rods (9) are electrically connected with the controller (4);

The rotary shaft axis of the motor (16) is vertically arranged, the motor (16) is arranged above the workbench (5), the motor (16) is arranged right below the electric telescopic rod (9), the motor (16) is fixedly connected with the lower end of the electric telescopic rod (9), and the motor (16) is electrically connected with the controller (4);

The drill bit (13) is vertically arranged, the axis of the rotating shaft of the drill bit (13) is coincident with the axis of the rotating shaft of the motor (16), the drill bit (13) is arranged above the workbench (5), the drill bit (13) is arranged below the motor (16), and the upper end of the drill bit (13) is fixedly connected with the rotating shaft of the motor (16).

4. The drilling equipment for precision ceramic machining according to claim 3, wherein the sprinkling cleaning device comprises a water storage tank (2), a water pump (8), a hose (10), a spray head (14) and a fixing piece (15);

The water storage tank (2) is arranged above the mounting frame (3), and the water storage tank (2) is fixedly connected with the mounting frame (3);

The water pump (8) is arranged in the water storage tank (2), the water pump (8) is fixedly connected with the inner bottom surface of the water storage tank (2), a water inlet of the water pump (8) is communicated with the inside of the water storage tank (2), and the water pump (8) is electrically connected with the controller (4);

The hose (10) is arranged at the side of the water pump (8), the hose (10) penetrates through the side part of the water storage tank (2), the hose (10) penetrates through the mounting frame (3), and the hose (10) is communicated with the water outlet of the water pump (8);

The fixing piece (15) is arranged on the side of the motor (16), the fixing piece (15) is arranged above the workbench (5), the fixing piece (15) is fixedly connected with the side of the motor (16), and the fixing piece (15) is fixedly connected with the hose (10);

The spray head (14) is arranged below the hose (10), the spray head (14) is arranged on the side of the drill bit (13), and the spray head (14) is communicated with the hose (10).

5. The drilling equipment for precision ceramic machining according to claim 1, which is characterized by comprising a false touch switch;

The false touch switch is arranged on the controller (4), and the false touch switch is electrically connected with the controller (4).

6. Drilling equipment for precision ceramics processing according to claim 2, characterized in that four of the limit blocks (11) are made of rubber.

7. Drilling equipment for precision ceramics processing according to claim 4, characterized in that the hose (10) is designed in a sealing manner with the through-going part of the water storage tank (2).