CN220480960U - Automatic drilling and milling equipment for door and window profiles - Google Patents

Abstract

The utility model relates to automatic drilling and milling equipment for door and window profiles, which comprises a processing platform, wherein a longitudinal translation mechanism is arranged on the processing platform, a positioning clamping mechanism is arranged in the middle of the processing platform, a transverse translation mechanism and a lifting mechanism are sequentially connected above the longitudinal translation mechanism, the lifting mechanism is connected with a power machine head, one side of a supporting seat of the positioning clamping mechanism is correspondingly provided with a positioning plate, the positioning plate is obliquely arranged, and the top end of the supporting seat is connected with a pressing device; the utility model adopts the inclined locating plate, so that the profile can be stably contacted with the locating plate in the processing process, the problem of damage to the end angle caused by collision of the end angle of the profile on the locating plate is avoided, and the profile can be accurately located and fixed by the design of the inclined locating plate, thereby ensuring the accuracy of the processing position.

Description

Automatic drilling and milling equipment for door and window profiles

Technical Field

The utility model relates to a drilling and milling machine, in particular to automatic drilling and milling equipment for door and window profiles.

Background

In the door and window processing process, the profile is required to be cut into aluminum profiles with different lengths, different angles and end surface shapes which are consistent with the size of the door and window, and then the aluminum profiles are assembled into the door and window. The corner combining process comprises a crashing process, a pin glue injection process, a movable corner fitting process, a jackscrew corner fitting process and the like. In the door and window processing industry, door and window sash materials (including frames, mullions and the like) all need to be subjected to cutting, punching and other working procedures, two adjacent aluminum profiles are butted to form an angle of 90 degrees, finally punching, riveting and extrusion are carried out on a corner combining machine, so that the aluminum profiles are locally deformed and extruded into grooves on corner brackets, the profiles and the corner brackets are fixed together, and in the processing and manufacturing process, milling processing of various holes and grooves is often involved, and the processing operation of aluminum alloy door and window holes and grooves is generally completed through a profiling milling machine or a numerical control processing center.

When the existing drilling and milling equipment is used for machining, an operator places a section bar with a cut angle on a machining table, the side edge of the length direction of the section bar is attached to a side plate, one cut end face is abutted to a positioning plate, the operator starts a milling machine after fixing the section bar by hand, a drilling device slides along a frame and moves up and down, so that drilling is carried out on different positions of the section bar, the existing machining mode needs to enable the cut end to be abutted to the positioning plate, one end angle in contact with the positioning plate is worn in the machining process, the operator places the section bar on the machining table for positioning, the section bar is required to be fixed manually, the unstable condition of the fixing is easy to occur due to manual fixing, the position of the section bar is deviated, the machining position of the section bar is inaccurate, machining errors are caused, the problem of the later assembly process is greatly influenced, the section bar after machining is abutted to form a 90-degree angle with the rear end angle, the finished product rate is low, and the machining requirement of enterprises cannot be met.

Disclosure of Invention

The utility model improves the prior art aiming at the defects, and provides automatic drilling and milling equipment for door and window profiles, which has the following technical scheme:

the utility model provides an automatic drilling and milling equipment of door and window section bar, includes organism and sets up the processing platform on the organism, processing platform's top both ends are provided with vertical translation mechanism respectively, and processing platform's top middle part is provided with location clamping mechanism, vertical translation mechanism's top is connected with horizontal translation mechanism, horizontal translation mechanism's top is connected with elevating system, elevating system is connected with the power aircraft nose that sets up towards location clamping mechanism respectively, the power aircraft nose is installed and is bored milling cutter, location clamping mechanism is including the supporting seat, and this supporting seat corresponds respectively towards one side of power aircraft nose and is provided with the locating plate, the locating plate corresponds the section bar and is the slope setting, the top of supporting seat is connected with the closing device that is used for the section bar to fix.

The vertical translation mechanism comprises a vertical bottom plate, a vertical guide rail assembly is oppositely connected above the vertical bottom plate, a horizontal translation mechanism is connected above a sliding block of the vertical guide rail assembly, one end of the vertical bottom plate is positioned between the two vertical guide rail assemblies, a vertical motor seat is connected with one end of the vertical motor seat, a vertical lead screw is connected with the other end of the vertical motor seat through a bearing seat, a motor shaft of the vertical driving motor is connected with the vertical lead screw, the vertical lead screw is connected with a vertical movable block through threads, and the vertical movable block is connected with the bottom of the horizontal translation mechanism.

The transverse translation mechanism comprises a transverse bottom plate, a transverse guide rail assembly is oppositely connected to the upper side of the transverse bottom plate, a lifting mechanism is connected to the upper side of a sliding block of the transverse guide rail assembly, one end of the transverse bottom plate is located between the two transverse guide rail assemblies and is connected with a transverse motor base, one end of the transverse motor base is connected with a transverse driving motor, the other end of the transverse motor base is connected with a transverse screw rod through a bearing seat, a motor shaft of the transverse driving motor is connected with the transverse screw rod, and the transverse screw rod is connected with a transverse movable block through threads and is connected with the bottom of the lifting mechanism.

The lifting mechanism comprises a lifting base plate, a lifting seat is connected above the lifting base plate, one side of the lifting seat is connected with a lifting guide rail assembly, a sliding block of the lifting guide rail assembly is connected with a lifting plate, one side of the lifting plate is connected with a power machine head, the upper end of the lifting seat is positioned at two sides of the lifting guide rail assembly, a lifting motor seat is connected between the lifting guide rail assembly, the top end of the lifting motor seat is connected with a lifting driving motor, the other end of the lifting motor seat is connected with a lifting screw through a bearing seat, a motor shaft of the lifting driving motor is connected with the lifting screw, and the lifting screw is connected with a lifting movable block through threads.

The two locating plates incline towards the power machine head from the middle part of the supporting seat.

The supporting seat is of an opening-shaped structure, and an opening for accommodating the sectional material is formed in the middle of the supporting seat.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, problems existing in the middle-sized section bar processing process in the prior art are solved by the inclined positioning plate and the automatic drilling and milling mode, the problems of damage of the end angle of the section bar, processing error and low yield are avoided, and the processing requirements of enterprises are met; the utility model adopts the inclined locating plate, so that the profile can be stably contacted with the locating plate in the processing process, the problem of damage to the end angle caused by collision of the end angle of the profile on the locating plate is avoided, and the profile can be accurately located and fixed by the design of the inclined locating plate, thereby ensuring the accuracy of the processing position; the profile is machined in an automatic drilling and milling mode, an operator only needs to place the profile on a machining platform and start equipment, and the profile is not required to be manually fixed, so that the problem of machining errors caused by unstable manual fixing can be avoided, and the machining efficiency is improved; the power machine head can be moved and positioned in different directions through the cooperation of the longitudinal translation mechanism, the transverse translation mechanism and the lifting mechanism, so that the machining is more flexible and accurate; the hold-down device is used for fixing the profile, guarantees the stability of the profile in the processing process, and through the use of the hold-down device, the profile can be firmly fixed on the processing platform, so that the deviation of the profile position is avoided, and the processing precision is improved.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the following description of the embodiments will briefly describe the drawings that are required to be used in the description:

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of a front view structure of the present utility model;

FIG. 3 is a schematic top view of the present utility model;

FIG. 4 is a left side view of the present utility model;

comprising the following steps: 1. a body; 2. a processing platform; 3. a longitudinal translation mechanism; 4. a positioning and clamping mechanism; 5. a lateral translation mechanism; 6. a lifting mechanism; 7. a power machine head; 8. drilling and milling cutter; 9. a support base; 10. a positioning plate; 11. a compacting device; 12. a bearing seat; 31. a longitudinal floor; 32. a longitudinal rail assembly; 33. a longitudinal motor base; 34. a longitudinal driving motor; 35. a longitudinal screw rod; 36. a longitudinal movable block; 51. a transverse bottom plate; 52. a transverse rail assembly; 54. a transverse motor base; 55. a transverse driving motor; 56. a transverse screw rod; 57. a transverse movable block; 61. lifting the bottom plate; 62. a lifting seat; 63. a lifting guide rail assembly; 64. a lifting plate; 65. lifting the motor base; 66. a lifting driving motor; 67. lifting a screw rod; 68. and lifting the movable block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model.

Embodiments of the present utility model will be described in further detail below with reference to the attached drawings, as follows:

the utility model provides an automatic brill mills equipment of door and window section bar, including organism 1 and the processing platform 2 of setting on organism 1, be provided with the duplex position on the processing platform 2, vertical translation mechanism 3 including processing platform 2's top both ends set up respectively, the top middle part of processing platform 2 is provided with location clamping mechanism 4, the top of vertical translation mechanism 3 is connected with horizontal translation mechanism 5, the top of horizontal translation mechanism 5 is connected with elevating system 6, through vertical translation mechanism 3, the cooperation use of horizontal translation mechanism 5 and elevating system 6 can realize the removal and the location of power aircraft nose 7 on different directions, thereby make the processing more nimble and accurate, elevating system 6 is connected with the power aircraft nose 7 that sets up towards location clamping mechanism 4 respectively, power aircraft nose 7 installs and bores milling cutter 8, location clamping mechanism 4 is including supporting seat 9, this supporting seat 9 corresponds respectively towards one side of power aircraft nose 7 and is provided with locating plate 10, locating plate 10 corresponds the section bar and is the slope setting, two locating plates 10 all are from supporting seat 9 middle part towards power aircraft nose 7, through the design of slope locating plate 10, can be guaranteed to fix a position by location and fixed position and fixed cylinder 11, thereby the cylinder pressing device is guaranteed to be in the cylinder 11, the cylinder top is fixed in the cylinder 11 is fixed at the position of the processing platform, the processing device is realized, the cylinder is fixed in the cylinder 11, the processing device is used in the top is fixed in the processing section bar, the top is stable, the processing device is guaranteed.

The longitudinal translation mechanism 3 comprises a longitudinal bottom plate 31, a longitudinal guide rail assembly 32 is oppositely connected above the longitudinal bottom plate 31, a transverse translation mechanism 5 is connected above a sliding block of the longitudinal guide rail assembly 32, one end of the longitudinal bottom plate 31 is positioned between the two longitudinal guide rail assemblies 32 and is connected with a longitudinal motor seat 33, one end of the longitudinal motor seat 33 is connected with a longitudinal driving motor 34, the other end of the longitudinal motor seat is connected with a longitudinal screw rod 35 through a bearing seat 12, a motor shaft of the longitudinal driving motor 34 is connected with the longitudinal screw rod 35, the longitudinal screw rod 35 is connected with a longitudinal movable block 36 through threads, and the longitudinal movable block 36 is connected with the bottom of the transverse translation mechanism 5.

The transverse translation mechanism 5 comprises a transverse bottom plate 51, a transverse guide rail assembly 52 is oppositely connected above the transverse bottom plate 51, a lifting mechanism 6 is connected above a sliding block of the transverse guide rail assembly 52, one end of the transverse bottom plate 51 is positioned between the two transverse guide rail assemblies 52 and is connected with a transverse motor seat 54, one end of the transverse motor seat 54 is connected with a transverse driving motor 55, the other end of the transverse motor seat is connected with a transverse screw rod 56 through a bearing seat 12, a motor shaft of the transverse driving motor 55 is connected with the transverse screw rod 56, the transverse screw rod 56 is connected with a transverse movable block 57 through threads, and the transverse movable block 57 is connected with the bottom of the lifting mechanism 6.

The lifting mechanism 6 comprises a lifting base plate 61, a lifting seat 62 is connected above the lifting base plate 61, a lifting guide rail assembly 63 is connected to one side of the lifting seat 62, which is located on the positioning and clamping mechanism 4, a lifting plate 64 is connected to a sliding block of the lifting guide rail assembly 63, a power machine head 7 is connected to one side of the lifting plate 64, a lifting motor seat 65 is connected between the two lifting guide rail assemblies 63 at the upper end of the lifting seat 62, a lifting driving motor 66 is connected to the top end of the lifting motor seat 65, a lifting screw 67 is connected to the other end of the lifting motor seat through a bearing seat 12, a motor shaft of the lifting driving motor 66 is connected to the lifting screw 67, a lifting movable block 68 is connected to the lifting guide rail assembly 64 through threads, and the lifting movable block 68 is connected to the lifting plate 64.

The support seat 9 is of an opening-shaped structure, and the middle part of the support seat is provided with an opening for accommodating the sectional material.

The utility model solves the problems existing in the middle-sized section bar processing process in the prior art by the inclined positioning plate 10 and the automatic drilling and milling mode, can avoid the problems of damage of the end angle of the section bar, processing error and low yield, and meets the processing requirements of enterprises; the inclined positioning plate 10 is adopted, so that the profile can be stably contacted with the positioning plate 10 in the processing process, the problem of damage to the end angle caused by collision of the end angle of the profile on the positioning plate 10 is avoided, and the profile can be accurately positioned and fixed by the design of the inclined positioning plate 10, so that the accuracy of the processing position is ensured; the profile is machined in an automatic drilling and milling mode, an operator only needs to place the profile on the machining platform 2 and start equipment, and the profile is not required to be manually fixed, so that the problem of machining errors caused by unstable manual fixing can be avoided, and the machining efficiency is improved; the movement and the positioning of the power machine head 7 in different directions can be realized through the cooperation of the longitudinal translation mechanism 3, the transverse translation mechanism 5 and the lifting mechanism 6, so that the machining is more flexible and accurate; the hold-down device 11 is used for fixing the section bar, guarantees the stability of section bar in the course of working, and through the use of hold-down device 11, the section bar can firmly be fixed on processing platform 2, has avoided the skew of section bar position, has improved the precision of processing.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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 (6)

1. The utility model provides an automatic drilling and milling equipment of door and window section bar, includes organism and sets up the processing platform on the organism, its characterized in that, processing platform's top both ends are provided with vertical translation mechanism respectively, and processing platform's top middle part is provided with location clamping mechanism, vertical translation mechanism's top is connected with horizontal translation mechanism, horizontal translation mechanism's top is connected with elevating system, elevating system is connected with the power aircraft nose that sets up towards location clamping mechanism respectively, the power aircraft nose is installed and is bored milling cutter, location clamping mechanism is including the supporting seat, and this supporting seat corresponds respectively towards one side of power aircraft nose and is provided with the locating plate, the locating plate corresponds the section bar and is the slope setting, the top of supporting seat is connected with the closing device who is used for the section bar to fix.

2. The automatic drilling and milling equipment for door and window profiles according to claim 1, wherein the longitudinal translation mechanism comprises a longitudinal bottom plate, a longitudinal guide rail assembly is oppositely connected above the longitudinal bottom plate, a transverse translation mechanism is connected above a sliding block of the longitudinal guide rail assembly, one end of the longitudinal bottom plate is positioned between the two longitudinal guide rail assemblies, a longitudinal motor seat is connected with one end of the longitudinal motor seat, a longitudinal driving motor is connected with the other end of the longitudinal motor seat, a motor shaft of the longitudinal driving motor is connected with the longitudinal screw rod through a bearing seat, and the longitudinal screw rod is connected with a longitudinal movable block through threads, and the longitudinal movable block is connected with the bottom of the transverse translation mechanism.

3. The automatic drilling and milling equipment for door and window profiles according to claim 1, wherein the transverse translation mechanism comprises a transverse bottom plate, a transverse guide rail assembly is oppositely connected above the transverse bottom plate, a lifting mechanism is connected above a sliding block of the transverse guide rail assembly, one end of the transverse bottom plate is positioned between the two transverse guide rail assemblies, a transverse motor seat is connected with one end of the transverse motor seat, a transverse driving motor is connected with the other end of the transverse motor seat through a bearing seat, a motor shaft of the transverse driving motor is connected with the transverse screw, and the transverse screw is connected with a transverse movable block through threads, and the transverse movable block is connected with the bottom of the lifting mechanism.

4. The automatic drilling and milling equipment for door and window profiles according to claim 1, wherein the lifting mechanism comprises a lifting base plate, a lifting seat is connected above the lifting base plate, one side of the positioning and clamping mechanism is connected with a lifting guide rail assembly, a sliding block of the lifting guide rail assembly is connected with a lifting plate, one side of the lifting plate is connected with a power machine head, the upper end of the lifting seat is positioned between the two lifting guide rail assemblies and is connected with a lifting motor seat, the top end of the lifting motor seat is connected with a lifting driving motor, the other end of the lifting motor seat is connected with a lifting screw through a bearing seat, a motor shaft of the lifting driving motor is connected with the lifting screw, and the lifting screw is connected with a lifting movable block through threads and is connected with the lifting plate.

5. An automatic drilling and milling device for door and window profiles according to claim 1, wherein both positioning plates incline from the middle of the support base towards the power head.

6. The automatic drilling and milling equipment for door and window profiles according to claim 1, wherein the supporting seat is of a 'mouth' -shaped structure, and an opening for accommodating the profile is formed in the middle of the supporting seat.