CN215998771U - Be used for automatic drilling equipment of radiator shell - Google Patents

Abstract

The utility model discloses automatic drilling equipment for a radiator shell. The utility model comprises the following steps: a first pneumatic device, one end of the first pneumatic device is fixed with a fixing clip, the bottom of the fixing clip is movably clamped with a supporting table, the bottom of the supporting platform is sleeved with a bearing seat, the bottom of the bearing seat is welded with a workbench, the top surface of the workbench is screwed with a hydraulic lifting device, the top surface of the workbench is provided with a first sliding chute, the first sliding chute is clamped with a movable clamping seat, the movable clamping seat is provided with a second sliding chute, the television radiator fixing device is characterized in that a fixing clamping seat is clamped in the second sliding groove, a fixing clamping plate is clamped on the fixing clamping seat, and a television radiator shell is clamped between the fixing clamping plates.

Description

Be used for automatic drilling equipment of radiator shell

Technical Field

The utility model relates to the technical field of drilling of a television radiator shell, in particular to automatic drilling equipment for a radiator shell.

Background

A drilling equipment commonly used in drilling processing of a television radiator shell can save manpower and improve efficiency through the drilling device, and meanwhile, the precision is higher than that of manual work.

However, in the conventional television radiator shell drilling equipment, the fixed television radiator shell is repeatedly taken down and drilled for multiple times during the drilling process. Or require multiple television heat sink enclosure drilling equipment to run through the pipeline. Or without the need for line production and repeated multiple removals of the stationary television heat sink housing, but with less precision or requiring manual labor to raise.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide automatic drilling equipment for a radiator shell, which solves the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an automated drilling apparatus for a heat sink housing, comprising: the device comprises a first pneumatic device, a fixed clamp is fixedly clamped at one end of the first pneumatic device, an electric drill is movably sleeved in the fixed clamp, a supporting table is movably clamped at the bottom of the fixed clamp, a bearing seat is sleeved at the bottom of the supporting table, a workbench is welded at the bottom of the bearing seat, a hydraulic lifting device is screwed on one side of the top surface of the workbench, a first sliding groove is formed in one side of the top surface of the workbench, a movable clamping seat is movably clamped in the first sliding groove, a second sliding groove is formed in the movable clamping seat, a fixed clamping seat is movably clamped in the second sliding groove, a fixed clamping plate is movably clamped on the fixed clamping seat, a television radiator shell is clamped between the fixed clamping plates, a driving connecting rod is movably connected at one end of the movable clamping seat, one end of the driving connecting rod, far away from the movable clamping seat, is movably connected with a second pneumatic device, and a supporting connecting rod is screwed on the bottom surface of the second pneumatic device, the bottom of the support connecting rod is inserted into the top surface of the workbench.

Further, the supporting table comprises a balance column, a bearing plate is welded to the top end of the balance column, a concave sliding groove is formed in the top surface of the bearing plate, and the fixing clamp is clamped in the concave sliding groove and a motor groove is formed in one side of the bearing plate.

Furthermore, the bearing seat comprises a concave supporting plate, balancing sliding grooves are formed in four corners of the top surface of the concave supporting plate, and a lifting hole is formed in the middle of the top surface of the concave supporting plate.

Furthermore, the balance column is inserted in the balance sliding groove, and the top end of the hydraulic lifting device is in threaded connection with the bottom surface of the bearing plate.

Furthermore, one end of the first pneumatic device is connected with the electric drill base in a propping mode, and a linkage motor is meshed between the linkage rails.

Furthermore, a fixing screw is screwed on one side surface of the fixing clamping plate, the shell of the television radiator is fixed between the fixing clamping plates through the fixing screw, a control screen is arranged on one side surface of the workbench, and the control screen 22 is electrically connected with the first pneumatic device 1, the second pneumatic device 21, the linkage motor 6, the laser positioner 23 and the hydraulic lifting device 8.

Furthermore, one end of the movable clamping seat is connected with the supporting connecting rod in series through a first linkage shaft, and the top end of the supporting connecting rod is connected with the bottom end of the second pneumatic device in series through a second linkage shaft.

Compared with the prior art, the utility model has the beneficial effects that: according to the drilling device for the television radiator shell, the relative position of a drill hole and an electric drill bit is positioned for an original point through the laser positioner, the control screen is used for feeding back the real-time position of the electric drill through the laser positioner, the electric drill bit is adjusted to the plane position needing drilling through adjusting the hydraulic lifting device and the linkage motor to achieve the effect of automatically adjusting the position of the drill bit, meanwhile, the electric drill can elastically contract backwards for a certain distance, the phenomenon that the drill bit is in hard collision with the television radiator shell to cause the breakage of the drill bit with improper force is avoided, the second pneumatic device is connected with the crankshaft connecting rod structure to slow forward and fast out, and the phenomenon that the electric drill bit is broken due to the fact that the contact force between the television radiator shell and the drill bit is too violent and too fast is further avoided. The utility model has the advantages of saving manpower, high automation degree, avoiding repeated processing, high precision, strong sensitivity, avoiding hard collision and breakage of the drill bit, avoiding the need of repeatedly taking down the fixed television radiator shell for processing, and meeting the drilling task of a plurality of holes by one machine.

Drawings

FIG. 1 is a schematic overall structure diagram according to an embodiment of the present invention;

FIG. 2 is a schematic front view of the embodiment of FIG. 1;

FIG. 3 is a schematic view of a support table 5 in the embodiment of FIG. 1;

fig. 4 is a schematic structural view of the load bearing seat 9 in the embodiment of fig. 1.

Reference numerals: 1. a first pneumatic device; 2. an electric drill; 3. fixing the card; 4. a linkage rail; 5. a support table; 6. a linkage motor; 7. a work table; 8. a hydraulic lifting device; 9. a load bearing seat; 10. a first chute; 11. a movable card holder; 12. a second chute; 13. fixing the card holder; 14. fixing the clamping plate; 15. fixing screws; 16. a television heat sink housing; 17. a first linkage shaft; 18. a drive link; 19. a second linkage shaft; 20. a support link; 21. a second pneumatic device; 22. a control screen; 23. a laser locator; 501. a balancing column; 502. a bearing plate; 503. a concave chute; 504. a motor slot; 901. a concave support plate; 902. a balancing chute; 903. and (6) lifting holes.

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, an automated drilling apparatus for a heat sink housing, the automated drilling apparatus for a heat sink housing, comprises: the first pneumatic device 1, a fixed clamp 3 is fixedly clamped at one end of the first pneumatic device 1, an electric drill 2 is movably sleeved in the fixed clamp 3, a support table 5 is movably clamped at the bottom of the fixed clamp 3, a bearing seat 9 is sleeved at the bottom of the support table 5, a workbench 7 is welded at the bottom of the bearing seat 9, a hydraulic lifting device 8 is screwed at one side of the top surface of the workbench 7, a first chute 10 is formed at one side of the top surface of the workbench 7, a movable clamp seat 11 is movably clamped in the first chute 10, a second chute 12 is formed on the movable clamp seat 11, a fixed clamp seat 13 is movably clamped in the second chute 12, a fixed clamp plate 14 is movably clamped on the fixed clamp seat 13, a television radiator shell 16 is clamped between the fixed clamp plates 14, a driving connecting rod 18 is movably connected at one end of the movable clamp seat 11, a second pneumatic device 21 is movably connected at one end of the driving connecting rod 18 far away from the movable clamp seat 11, a supporting connecting rod 20 is screwed at the bottom surface of the second pneumatic device 21, the bottom of a support connecting rod 20 is inserted on the top surface of a workbench 7, a first pneumatic device 1 and an electric drill 2 are fixed through a fixing clamp 3, the first pneumatic device 1 is used for tightly supporting the electric drill 2, meanwhile, the electric drill 2 is provided with a buffer to prevent the drill bit from being broken due to overlarge force of the drill bit touching a television radiator shell 16, a support table 5 is used for supporting the fixing clamp 3, a bearing seat 9 plays a role of a bearing support table 5 and also has a function of balancing the support table 5, the height of the support table 5 is controlled through a hydraulic lifting device 8, the distance between the television radiator shell 16 and the drill bit of the electric drill 2 and the drilling depth are controlled through the sliding of a movable clamp seat 11, the longitudinal movement of a fixing clamp plate 14 is controlled through a fixing clamp seat 13, the longitudinal position of a fixing screw 15 is further controlled, the transverse position of the fixing screw 15 is controlled through the transverse movement of the fixing clamp plate 14, and the fixing screw 15 is adjusted to a required position to fix the television radiator shell 16, the driving link 18 is used for driving the movable clamping seat 11 to move, the supporting link 20 is used for acting as a supporting force, and the second pneumatic device 21 is used for providing a driving force.

The support platform 5 comprises a balance column 501, a bearing plate 502 is welded at the top end of the balance column 501, a concave sliding groove 503 is formed in the top surface of the bearing plate 502, a fixing clip 3 is clamped in the concave sliding groove 503, a motor groove 504 is formed in one side of the bearing plate 502, the balance column 501 is inserted in the balance sliding groove 902, a laser positioner 23 is screwed on one side, opposite to the television radiator shell 16, of the concave supporting plate 901, the top end of a hydraulic lifting device 8 is screwed on the bottom surface of the bearing plate 502, the transverse position of a drill bit of an electric drill 2 is adjusted through sliding of the bottom of the fixing clip 3 in the concave sliding groove 503, the laser positioner 23 is used for positioning a drill hole and the drill bit, the plane coordinate of the laser positioner 23 is opposite to the plane coordinate of the laser positioner, and the hole depth is measured, the motor groove 504 is used for distributing a linkage motor 6, the balance column 501 is inserted in the balance sliding groove 902 to keep the support platform 5 balanced, the hydraulic lifting device 8 is used for controlling the height of the support platform 5, thereby controlling the longitudinal position of the drill head of the drill 2.

The bearing seat (9) comprises a concave support plate (901), balancing chutes (902) are formed in four corners of the top surface of the concave support plate (901), lifting holes (903) are formed in the middle of the top surface of the concave support plate (901), and a laser positioner (23) is screwed on one side, opposite to the television set radiator shell (16), of the concave support plate (901).

The balance column 501 is inserted into the balance chute 902, and the top end of the hydraulic lifting device 8 is screwed on the bottom surface of the bearing plate 502.

A linkage motor 6 is engaged between the linkage rails 4, one end of a movable clamping seat 11 is connected with a support connecting rod 20 in series through a first linkage shaft 17, the top end of the support connecting rod 20 is connected with the bottom end of a second pneumatic device 21 in series through a second linkage shaft 19, a fixing screw 15 is screwed on one side face of a fixing clamping plate 14, a television radiator shell 16 is fixed between the fixing clamping plates 14 through the fixing screw 15, a control screen 22 is arranged on one side face of a workbench 7, and the linkage motor 6 is used for providing power for the transverse movement of the fixing clamping plate 3.

In conclusion, in the automatic drilling equipment for the radiator shell, provided by the utility model, during operation, the position of the fixing screw 15 is adjusted by adjusting the positions of the movable clamping seat 11, the fixed clamping seat 13 and the fixed clamping plate 14, then the television radiator shell 16 is fixed by the fixing screw 15, then the control screen 22 is operated to input the plane position of the drilled hole of the television radiator shell 16 relative to the laser positioner 23, the control screen 22 adjusts the drill bit of the electric drill 2 to the input coordinate position by controlling the linkage motor 6 and the hydraulic lifting device 8 according to the plane coordinate of the drill bit transmitted back by the laser positioner 23, then the control screen 22 controls the second pneumatic device 21 to drive the movable clamping seat 11 to be close to the drill bit, so as to control the television radiator shell 16 to be close to the drill bit of the electric drill 2 to drill the drilled hole, the laser positioner 23 transmits the drilling depth data to the control screen 22, when the depth reaches the standard, the control screen 22 controls the second pneumatic device 21 to contract, so that the television radiator shell 16 leaves the drill bit, and then the control screen 22 also controls the drill bit of the electric drill 2 to reach the next drilling position, and the drilling steps are repeated.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (7)

1. An automated drilling apparatus for a heat sink housing, comprising: the pneumatic device comprises a first pneumatic device (1), one end of the first pneumatic device (1) is fixedly clamped with a fixing clamp (3), an electric drill (2) is sleeved in the fixing clamp (3) in a movable mode, a supporting table (5) is movably clamped at the bottom of the fixing clamp (3), a bearing seat (9) is sleeved at the bottom of the supporting table (5), a workbench (7) is welded at the bottom of the bearing seat (9), a hydraulic lifting device (8) is screwed at one side of the top surface of the workbench (7), a first sliding groove (10) is formed at one side of the top surface of the workbench (7), a movable clamping seat (11) is movably clamped in the first sliding groove (10), a second sliding groove (12) is formed in the movable clamping seat (11), a fixed clamping seat (13) is movably clamped in the second sliding groove (12), a fixed clamping plate (14) is movably clamped in the fixed clamping seat (13), and a television radiator shell (16) is clamped between the fixed clamping plates (14), one end of the movable clamping seat (11) is movably connected with a driving connecting rod (18), one end, far away from the movable clamping seat (11), of the driving connecting rod (18) is movably connected with a second pneumatic device (21), the bottom surface of the second pneumatic device (21) is in threaded connection with a supporting connecting rod (20), and the bottom of the supporting connecting rod (20) is inserted into the top surface of the workbench (7).

2. The automatic drilling equipment for the radiator housing according to claim 1, wherein the supporting table (5) comprises a balance column (501), a bearing plate (502) is welded at the top end of the balance column (501), a concave sliding groove (503) is formed in the top surface of the bearing plate (502), and a motor groove (504) is formed in one side, connected with the fixing clamp (3) in a clamping manner, of the bearing plate (502) in the concave sliding groove (503).

3. The automatic drilling equipment for the radiator housing according to claim 2, wherein the bearing seat (9) comprises a concave supporting plate (901), balancing sliding grooves (902) are formed in four corners of the top surface of the concave supporting plate (901), a lifting hole (903) is formed in the middle of the top surface of the concave supporting plate (901), and a laser positioner (23) is screwed on one side, facing the television radiator housing (16), of the concave supporting plate (901).

4. The automatic drilling equipment for the radiator housing according to claim 3, wherein the balance column (501) is inserted into the balance chute (902), and the top end of the hydraulic lifting device (8) is screwed on the bottom surface of the bearing plate (502).

5. The automatic drilling equipment for the radiator housing is characterized in that one end of the first pneumatic device (1) is abutted to the base of the electric drill (2), and a linkage motor (6) is meshed between the linkage rails (4).

6. The automatic drilling equipment for the radiator shells according to claim 1, wherein a fixing screw (15) is screwed on one side surface of the fixing clamping plate (14), the television radiator shell (16) is fixed between the fixing clamping plates (14) through the fixing screw (15), a control screen (22) is arranged on one side surface of the workbench (7), and the control screen (22) is electrically connected with the first pneumatic device (1), the second pneumatic device (21), the linkage motor (6), the laser positioner (23) and the hydraulic lifting device (8).

7. The automatic drilling equipment for the radiator housing according to claim 1, wherein one end of the movable clamping seat (11) is connected with the supporting connecting rod (20) in series through a first linkage shaft (17), and the top end of the supporting connecting rod (20) is connected with the bottom end of the second pneumatic device (21) in series through a second linkage shaft (19).

Images