CN107470668B

CN107470668B - Heat dissipation puncher

Info

Publication number: CN107470668B
Application number: CN201710875509.4A
Authority: CN
Inventors: 赵远龙; 赵胜杰; 赵胜胜; 宋杰; 杨广生; 宋建国
Original assignee: Foshan Beihu Chongding Metal Products Co ltd
Current assignee: Foshan Beihu Chongding Metal Products Co ltd
Priority date: 2017-09-25
Filing date: 2017-09-25
Publication date: 2024-05-10
Anticipated expiration: 2037-09-25
Also published as: CN107470668A

Abstract

The invention relates to the field of automatic equipment, in particular to a heat dissipation perforating machine. The invention is realized by the following technical scheme: the utility model provides a heat dissipation puncher, contains the main frame, the main frame contains the workstation and establishes navigation board on the workstation, be equipped with the horizontal slide rail that extends in the horizontal direction on the navigation board, still contain can the gliding moving structure on the horizontal slide rail with the drilling assembly that moving structure is connected and is used for drilling, the assembly piece contains assembly base, water cooling pipe, forced air cooling device, brush and oblique doctor-bar all are established on the assembly base, forced air cooling device contain forced air cooling base and with forced air cooling pipe that forced air cooling base rotates to be connected. The invention aims to provide a heat dissipation perforating machine, which can simultaneously drill holes at two ends, has adjustable distance clearance, and has stable whole drilling process and uniform heat control.

Description

Heat dissipation puncher

Technical Field

The invention relates to the field of automatic equipment, in particular to a heat dissipation perforating machine.

Background

In the traditional processing process, the worker manually drills the surface of the object, on one hand, the drilling effect is not ideal due to manual errors, and on the other hand, the labor cost is high and the labor intensity is high. With the technological innovation, equipment and a drilling machine are always automated in the link of punching.

A drill refers to a machine and equipment that leaves a cylindrical hole or bore in a target by means of rotary cutting or rotary extrusion with a tool that is harder and sharper than the target. Also known as drills, punches, hole drills, hole-penetrating machines, etc. The desired effect is achieved by drilling the precision part. Along with the development of the times, the drilling technology of the automatic drilling machine is improved, and the advantages of drilling various hardware dies, watchband drilling and jewelry by adopting the full-automatic drilling machine are obvious.

However, the specific drilling scheme may also vary somewhat due to differences in the size of the drill hole, the drill hole machining materials. The existing drilling equipment still has the defect of inflexible adjustment and weak stability in the drilling process, which affects the drilling effect.

In the drilling process, a large amount of heat can be generated sometimes, and the existing drilling machine type is improper in heat treatment, so that the local temperature of the drill bit part is too high, and the drilling effect is affected.

Disclosure of Invention

The invention aims to provide a heat dissipation perforating machine, which can simultaneously drill holes at two ends, has adjustable distance clearance, and has stable whole drilling process and uniform heat control.

The technical aim of the invention is realized by the following technical scheme: the heat dissipation perforating machine comprises a main frame, wherein the main frame comprises a workbench and a navigation plate arranged on the workbench, a horizontal sliding rail extending in the horizontal direction is arranged on the navigation plate, the heat dissipation perforating machine further comprises a moving structure capable of sliding on the horizontal sliding rail and a drilling assembly connected with the moving structure and used for drilling, a positioning sleeve is arranged on the navigation plate, the drilling assembly and the moving structure are respectively provided with two sets of positioning sleeves, the two sides of the positioning sleeve are provided with a motor and a drill bit, and the drilling assembly comprises a motor and a drill bit; the navigation board is further connected with a positioning vertical bar capable of sliding in the horizontal direction, the navigation board further comprises an assembly block capable of being installed on the positioning vertical bar and capable of sliding in the vertical direction, the assembly block comprises an assembly base, a water cooling pipe, an air cooling device, a hairbrush and an inclined scraping blade, the water cooling pipe, the air cooling device, the hairbrush and the inclined scraping blade are all arranged on the assembly base, and the air cooling device comprises an air cooling base and an air cooling pipe rotationally connected with the air cooling base.

Preferably, the workbench comprises a heat dissipation plate, wherein the heat dissipation plate is sequentially provided with a contact layer, a hollow filling layer and a bottom layer made of metal materials in a direction away from the drilling assembly, and a plurality of air channels are further vertically arranged in the heat dissipation plate.

As a preferable aspect of the present invention, the moving structure includes a hand wheel, a cylinder that is retractable under adjustment of the hand wheel, a connecting rod connected to the cylinder, and a carriage connected to the connecting rod, the carriage sliding on the navigation board.

The user operates the hand wheel, controls the cylinder work, the connecting rod stretches out under the effect of cylinder, promotes the carriage slides. The sliding frame is connected with the drilling assembly, and the distance between the drill bit and the positioning sleeve is adjusted, so that the distance requirements of different types of products are met.

The assembly blocks can vertically move on the positioning vertical bars, the positioning vertical bars can move in the horizontal direction, and the assembly blocks can move in two directions. The water cooling pipe and the air cooling device can spray and blow clean water to the drilling position respectively, so that cleaning and cooling are achieved. The water cooling pipe is generally a hose, and the position of the water cooling pipe can be freely adjusted by a user. And the air cooling pipe is hinged with the air cooling base, and the air blowing angle can be adjusted.

The heat dissipation plate further improves the heat dissipation effect of the workbench.

Preferably, the navigation board is further connected with a positioning vertical bar capable of sliding in the horizontal direction.

Preferably, the invention further comprises a laser positioner which can slide vertically on the positioning vertical bar.

The laser locator can vertically move on the locating vertical bar, and the locating vertical bar can horizontally move on the navigation board, so that the specific position of the exciting locator can be flexibly adjusted.

Preferably, the navigation board is provided with a plurality of assembly holes, and the navigation board further comprises a shock absorbing block connected to the assembly holes and used for providing shock absorbing and fixing functions for the drilling assembly.

Preferably, the shock absorbing block includes a mounting shaft for insertion into the mounting hole, a rotation base rotatably coupled to the mounting shaft, and a clamping block.

Preferably, an elastic connecting column made of elastic material is arranged between the clamping block and the rotating base.

The mounting shaft is arranged in the assembly hole, and the mounting and fixing of the shock absorbing block are conveniently and rapidly completed. The rotating base can rotate by taking the mounting shaft as an axis, so that the clamping position and the clamping angle of the clamping block are adjusted. The elastic connecting column provides certain buffering and shock absorption and can bear vibration generated during the operation of the drilling assembly.

As a preferable mode of the invention, the rotary base is provided with an arc-shaped assembling arc groove extending in the vertical direction at one side far away from the clamping block.

The assembly arc slot may be used to assemble other expansion components.

Preferably, the bottom surface of the clamping block is provided with a buffer block, and the side surface of the clamping block is provided with a plurality of floating point teeth.

Preferably, the floating point teeth are tapered and include a converging portion at an upper portion and a diverging portion at a lower portion.

The buffer block further increases the clamping force and the fixing effect of the clamping block, the convex and conical shapes of the floating point teeth enable the friction force of the clamped part to be stronger, the force can be linearly outwards expanded through the diffusion part on the floating point teeth, the buffer block is beneficial to buffering and unloading force, and in general, the clamping block can clamp the part on the motor on the drilling assembly.

In summary, the invention has the following beneficial effects:

1. the drilling assembly can drill holes for the components at two ends, is high in efficiency and flexible and adjustable in distance.

2. The laser positioner is capable of position adjustment in both horizontal and vertical directions.

3. The shock absorbing block can strengthen the

4. The interposer and the supporting buffer can absorb pressure from the horizontal direction and the vertical direction respectively, and stability and shock resistance of the device are improved.

5. The cleaning piece can rotate in the horizontal direction to wipe sewage on the upper surface and the lower surface.

6. The force changing piece can convert the pressure in the vertical direction into the thrust in the horizontal direction, and the force changing piece can unload and buffer by means of the elastic deformation of the intermediate plate, so that the buffer in the vertical direction is further improved.

7. The water cooling pipe and the air cooling device can spray and blow clean water to the drilling position respectively, so that cleaning and cooling are achieved.

Drawings

FIG. 1 is a schematic diagram of example 1;

FIG. 2 is a schematic illustration of the drilling assembly and moving structure mounted to a navigation plate;

FIG. 3 is a schematic diagram of a shock absorber block;

FIG. 4 is a schematic diagram at FIG. 3A;

FIG. 5 is a schematic view of a mounting block;

fig. 6 is a side sectional view of the heat dissipating plate.

In the figure: 1. the main frame, 11, the workbench, 12, the navigation board, 13, the positioning vertical bar, 14, the assembly hole, 2, the positioning sleeve, 3, the drilling assembly, 31, the motor, 32, the drill bit, 4, the moving structure, 41, the hand wheel, 42, the cylinder, 43, the connecting rod, 44, the sliding frame, 5, the shock absorbing block, 51, the mounting shaft, 52, the fixing frame, 521, the energy absorbing part, 522, the fixing part, 53, the rotating base, 531, the assembly arc groove, 54, the clamping block, 55, the elastic connecting column, 56, the buffer block, 57, the floating point tooth, 6, the assembly block, 61, the assembly base, 62, the water cooling pipe, 63, the air cooling device, 631, the air cooling base, 632, the air cooling pipe, 64, the brush, 65, the oblique scraping plate, 7, the heat dissipation plate, 71, the contact layer, 72, the filling layer, 73, the bottom layer, 74 and the air duct.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Example 1, as shown in fig. 1,2, 3 and 4: the utility model provides a heat dissipation puncher, contains main frame 1, main frame 1 contains workstation 11 and establishes the navigation board 12 on workstation 11, is equipped with the horizontal slide rail that extends in the horizontal direction on the navigation board 12, still contains and can be on the horizontal slide rail gliding moving structure 4 and be connected the drilling assembly 3 that is used for drilling with moving structure 4, is equipped with positioning sleeve 2 on the navigation board 12, and drilling assembly 3 and moving structure 4 all have two sets, establish in positioning sleeve 2 both sides, and the drilling assembly contains motor 31 and drill bit 32.

The moving structure 4 includes a hand wheel 41, an air cylinder 42 that is retractable under adjustment of the hand wheel 41, a connecting rod 43 connected to the air cylinder 42, and a carriage 44 connected to the connecting rod 43, and the carriage 44 slides on the navigation plate 12. The user operates the hand wheel 41 to control the cylinder 42 to work, and the connecting rod 43 stretches out under the action of the cylinder 42 to push the sliding frame 44 to slide. The carriage 44 is connected with the drilling assembly 3, and the distance between the drill bit 32 and the positioning sleeve 2 is adjusted so as to meet the distance requirements of different types of products.

A positioning vertical bar 13 that can slide in the horizontal direction is also connected to the navigation panel 12. And also includes a laser locator that can slide vertically over the locating vertical bar 13. The laser locator can move vertically on the locating vertical bar 13, and the locating vertical bar 13 can move horizontally on the navigation board 12, so that the specific position of the exciting locator can be flexibly adjusted.

The navigation plate 12 is provided with a plurality of assembly holes 14, and further comprises a shock absorbing block 5 connected to the assembly holes 14 for providing shock absorbing and fixing functions for the drilling assembly 3. The shock-absorbing block 5 includes a mounting shaft 51 for insertion into the mounting hole 14, a rotation base 53 rotatably coupled to the mounting shaft 51, and a clamping block 54. An elastic connection column 55 made of an elastic material is provided between the grip block 54 and the rotation base 53. The mounting shaft 51 is fitted into the fitting hole 14 to conveniently and rapidly fix the shock absorber block 5. The rotation base 53 is rotatable about the mounting shaft 51, and thereby the holding position and the holding angle of the holding block 54 are adjusted. The elastic connection post 55 provides a certain buffer and shock absorption, and can bear the vibration generated during the operation of the drilling assembly 3.

In order to further enhance the mounting stability of the mounting shaft 51 on the navigation board 12, retention brackets 52 are also provided on both sides of the mounting shaft 51. The retention frame 52 includes an energy absorbing portion 521 for coupling with the mounting shaft 51 and a securing portion 522 for coupling with the navigation panel 12.

The swivel base 53 is provided with an assembling arc groove 531 extending in the vertical direction and having an arc shape at a side away from the grip block 54. The fitting arc groove 531 may be used to fit other expansion components.

The bottom surface of the clamping block 54 is provided with a buffer block 56, and the side surface is provided with a plurality of floating point teeth 57. Floating point teeth 57 are tapered and include a converging portion at the upper portion and a diverging portion at the lower portion. The buffer block 56 further increases the clamping force and the fixing effect of the clamping block 54, the convex and conical shape of the floating point teeth 57 makes the friction force of the clamped part stronger, and the force can be linearly expanded outwards through the diffusion part on the floating point teeth 57, so that the buffer block is beneficial to buffering and unloading force, and in general, the clamping block 54 can clamp the part on the motor on the drilling assembly 3.

As shown in fig. 5 and 6, the navigation board 12 is further connected with a positioning vertical bar 13 capable of sliding in a horizontal direction, and further comprises an assembling block 6 capable of being installed on the positioning vertical bar 13 and capable of sliding in a vertical direction, the assembling block 6 comprises an assembling base 61, a water cooling pipe 62, an air cooling device 63, a brush 64 and an inclined scraping blade 65, the water cooling pipe 62, the air cooling device 63, the brush 64 and the inclined scraping blade 65 are all arranged on the assembling base 61, and the air cooling device 63 comprises an air cooling base 631 and an air cooling pipe 632 rotationally connected with the air cooling base 631.

The workbench 11 comprises a heat dissipation plate 7, the heat dissipation plate 7 is sequentially provided with a contact layer 71, a hollow filling layer 72 and a bottom layer 73 made of metal materials in a direction away from the drilling assembly 3, and a plurality of air channels 74 are further vertically arranged in the heat dissipation plate 7. The assembly block 6 can vertically move on the positioning vertical bar 13, the positioning vertical bar 13 can move in the horizontal direction, and the assembly block 6 can realize movement in two directions. The water cooling pipe 62 and the air cooling device 63 can spray and blow clean water to the drilling position respectively, so as to clean and cool. The water cooled tube 62 is typically a hose that allows the user to freely adjust the position. And the air cooling pipe 632 is hinged with the air cooling base 631, so that the air blowing angle can be adjusted.

The heat radiation plate 7 further improves the heat radiation effect of the table 11.

Claims

1. The heat dissipation perforating machine comprises a main frame (1), and is characterized in that the main frame (1) comprises a workbench (11) and a navigation plate (12) arranged on the workbench (11), wherein a horizontal sliding rail extending in the horizontal direction is arranged on the navigation plate (12), the heat dissipation perforating machine further comprises a moving structure (4) capable of sliding on the horizontal sliding rail and a drilling assembly (3) connected with the moving structure (4) and used for drilling, the navigation plate (12) is provided with a positioning sleeve (2), the drilling assembly (3) and the moving structure (4) are respectively provided with two sets of positioning sleeves (2), the drilling assembly comprises a motor (31) and a drill bit (32), a positioning vertical bar (13) capable of sliding in the horizontal direction is further connected to the navigation plate (12), the positioning vertical bar (13) is further provided with a fitting block (6) capable of sliding in the vertical direction, the fitting block (6) comprises a fitting base (61), a water cooling pipe (62), a brush (64) and a diagonal blade (64), the water cooling pipe (64) and a wiper blade (64) are respectively fitted on the fitting base (61), the air cooling device (63) comprises an air cooling base (631) and an air cooling pipe (632) rotationally connected with the air cooling base (631), a plurality of assembly holes (14) are formed in the navigation board (12), the air cooling device also comprises a shock absorbing block (5) which is connected to the assembly holes (14) and is used for providing shock absorbing and fixing functions for the drilling assembly (3), the shock absorbing block (5) comprises a mounting shaft (51) which is used for being inserted into the assembly holes (14), a rotating base (53) and a clamping block (54) which are rotatably connected to the mounting shaft (51), an elastic connecting column (55) made of elastic materials is arranged between the clamping block (54) and the rotating base (53), an arc-shaped assembly groove (531) which extends in the vertical direction is formed in one side far away from the clamping block (54), a buffer block (56) is arranged on the bottom surface of the clamping block (54), a plurality of floating point teeth (57) are arranged on the side surface, the floating point teeth (57) are conical, a diffusion frame (52) which is arranged on the side of the mounting shaft (51) and comprises a gathering part and a diffusion part (52) which are arranged on the upper part, the retention frame (52) comprises an energy absorbing portion (521) for connection with the mounting shaft (51) and a fixing portion (522) for connection with the navigation panel (12).

2. A heat dissipation punch as defined in claim 1, wherein: contain heating panel (7) on workstation (11), heating panel (7) are equipped with contact layer (71), inside hollow filling layer (72) and bottom (73) made by metal material in proper order according to keeping away from the direction of drilling assembly (3), heating panel (7) are inside still to be equipped with a plurality of wind channels (74) perpendicularly.

3. A heat dissipation punch as defined in claim 1, wherein: the moving structure (4) comprises a hand wheel (41), an air cylinder (42) which can stretch and retract under the adjustment of the hand wheel (41), a connecting rod (43) connected with the air cylinder (42) and a sliding frame (44) connected with the connecting rod (43), and the sliding frame (44) slides on the navigation plate (12).

4. A heat dissipation punch as defined in claim 1, wherein: and the laser positioning device can vertically slide on the positioning vertical bar (13).