CN113618445A - Numerical control drilling and milling clamp structure for aluminum doors and windows and clamping method of numerical control drilling and milling clamp structure - Google Patents

Abstract

The invention discloses a numerical control drilling and milling clamp structure for aluminum doors and windows, which comprises a clamp table, a positioning end plate and a lateral positioning feeding mechanism, wherein the clamp table is provided with a positioning table; the clamp table is a rectangular table; the positioning end plate is fixed at one end of the clamp table; the lateral positioning and feeding mechanism comprises a lateral positioning mechanism and a lateral feeding mechanism; the lateral positioning mechanism comprises a lateral positioning plate, a guiding telescopic piece and a lateral moving mechanism; when the aluminum door and window profile feeding device works, an aluminum door and window profile is placed between the lateral positioning plate and the lateral feeding mechanism on the clamp table; the lateral moving mechanism drives the lateral positioning plate to perform lateral positioning; the lateral feeding mechanism drives the feeding roller to move towards the lateral positioning plate, so that the aluminum door and window profile is clamped between the lateral positioning plate and the feeding roller; the feeding roller rotates to drive the aluminum door and window profile to feed and abut against the positioning end plate, so that the aluminum door and window profile is clamped and positioned.

Description

Numerical control drilling and milling clamp structure for aluminum doors and windows and clamping method of numerical control drilling and milling clamp structure

Technical Field

The invention relates to the technical field of aluminum door and window processing equipment, in particular to an aluminum door and window numerical control drilling and milling clamp structure and a clamping method thereof.

Background

In addition to the general characteristics of aluminum, aluminum alloys have certain alloy specific characteristics due to the variety and amount of alloying elements added. The aluminum alloy has the density of 2.63-2.85 g/cm, higher strength (sigma b of 110-650 MPa), specific strength close to that of high alloy steel, specific stiffness higher than that of steel, good casting performance and plastic processing performance, good electric conductivity and heat conductivity, good corrosion resistance and weldability, can be used as a structural material, and is widely applied to aerospace, aviation, transportation, construction, electromechanics, lightening and daily necessities; at present, the application of aluminum doors and windows is common, a numerical control drilling and milling machining center is often selected for machining the aluminum doors and windows at present, however, the existing numerical control drilling and milling clamp for the aluminum doors and windows is complex in structure and inconvenient to clamp and adjust.

Disclosure of Invention

The invention aims to solve the technical problems that the numerical control drilling and milling clamp for the aluminum door and window is complex in structure and inconvenient to clamp and adjust, and provides the following technical scheme:

a numerical control drilling and milling clamp structure for aluminum doors and windows comprises a clamp table, a positioning end plate and a lateral positioning feeding mechanism; the clamp table is a rectangular table; the positioning end plate is fixed at one end of the clamp table; the lateral positioning and feeding mechanism comprises a lateral positioning mechanism and a lateral feeding mechanism; the lateral positioning mechanism comprises a lateral positioning plate, a guiding telescopic piece and a lateral moving mechanism; the lateral positioning plate is arranged on one side of the clamp table through a lateral moving mechanism and a guiding telescopic piece;

the lateral feeding mechanism comprises a feeding roller, a roller frame, a telescopic cylinder and a feeding driving mechanism; the feed roller is equipped with 2 at least, and roller frame, telescopic cylinder and feed actuating mechanism set up with the feed roller one-to-one, and the feed roller is installed on the roller frame, and telescopic cylinder drive roller frame drives the feed roller butt aluminium door and window section bar.

As a further scheme of the invention: the number of the guide telescopic pieces is 2, and the guide telescopic pieces are respectively symmetrically arranged along one side of the lateral positioning plate;

the lateral moving mechanism comprises a screw rod shaft, a screw rod sliding block, a linkage frame and a fixed seat;

the screw shaft is vertically arranged with the lateral positioning plate, one end of the screw shaft is sleeved on a bearing arranged at a corresponding position of the fixed seat, and the other end of the screw shaft is connected with a screw shaft driving mechanism; the screw rod sliding block is sleeved on the screw rod shaft; the screw rod slide block is connected with the lateral positioning plate through a linkage frame.

As a further scheme of the invention: the screw shaft driving mechanism comprises a screw machine bin, a driven gear, a driving gear and a screw motor; the screw rod machine bin is fixed at the end part of the clamp table, the outer end of a screw rod shaft is sleeved on a bearing arranged at a corresponding position of the screw rod machine bin and extends into the screw rod machine bin, the driven gear is sleeved at the end part of the screw rod shaft, a screw rod motor is in transmission connection with a driving gear, and the driving gear is in meshing transmission with the driven gear.

As a further scheme of the invention: drilling and milling grooves are uniformly formed in the fixture table;

as a further scheme of the invention: the feeding driving mechanism comprises a feeding machine bin, a driven belt wheel, a driving belt wheel, a transmission belt and a feeding motor;

the feeding machine bin is fixed at the top end of the roller frame, the driven belt wheel is sleeved on a roller shaft of the feeding roller in the feeding machine bin, the feeding motor is in transmission connection with the driving belt wheel, and the driven belt wheel is in transmission connection with the driving belt wheel through a transmission belt.

As a further scheme of the invention: and the fixture platform is provided with a jacking mechanism which can be lifted and abutted against the aluminum door and window profile of the fixture platform.

As a further scheme of the invention: the jacking mechanism comprises a fixed frame, a jacking cylinder and a jacking plate;

the fixed frame is arranged at the end part of the fixture table, the jacking cylinder is arranged at the lower side of the fixed frame, the top of the jacking plate is connected with the jacking cylinder, and the jacking cylinder drives the jacking plate to abut against the aluminum door and window section;

a clamping method of an aluminum door and window numerical control drilling and milling clamp structure comprises the following steps:

the method comprises the following steps: the aluminum door and window section bar is arranged between the lateral positioning plate and the lateral feeding mechanism on the fixture table;

step two: the lateral moving mechanism drives the lateral positioning plate to perform lateral positioning;

step three: the lateral feeding mechanism drives the feeding roller to move towards the lateral positioning plate, so that the aluminum door and window profile is clamped between the lateral positioning plate and the feeding roller;

step four: the feeding roller rotates to drive the aluminum door and window profile to feed and abut against the positioning end plate.

Compared with the prior art, the invention has the following beneficial effects:

the invention provides a numerical control drilling and milling clamp structure for aluminum doors and windows, which is ingenious in structural arrangement and reasonable in arrangement, and when the numerical control drilling and milling clamp structure works, aluminum door and window profiles are arranged between a lateral positioning plate and a lateral feeding mechanism on a clamp table; the lateral moving mechanism drives the lateral positioning plate to perform lateral positioning; the lateral feeding mechanism drives the feeding roller to move towards the lateral positioning plate, so that the aluminum door and window profile is clamped between the lateral positioning plate and the feeding roller; the feeding roller rotates to drive the aluminum door and window profile to feed and abut against the positioning end plate, so that the aluminum door and window profile is clamped and positioned;

the invention further designs a lateral feeding mechanism and a jacking mechanism, the lateral feeding mechanism realizes the feeding of the aluminum door and window profile by using the feeding roller, and the jacking mechanism is pressed on the aluminum door and window profile of the fixture table by using the lifting of the telescopic cylinder, so the structure is simple and the reliability is high.

Drawings

Fig. 1 is a schematic structural view of a numerical control drilling and milling fixture structure for aluminum doors and windows.

Fig. 2 is a schematic structural diagram of a screw shaft driving mechanism in an aluminum door and window numerical control drilling and milling fixture structure.

Fig. 3 is a schematic structural diagram of a feeding driving mechanism in an aluminum door and window numerical control drilling and milling fixture structure.

Fig. 4 is a schematic structural diagram of a jacking mechanism in an aluminum door and window numerical control drilling and milling fixture structure.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-4, a numerical control drilling and milling fixture structure for aluminum doors and windows comprises a fixture table 1, a positioning end plate 2, a lateral positioning feeding mechanism 3 and a top pressing mechanism 4; the clamp table 1 is a rectangular table; and drilling and milling grooves 10 are uniformly formed in the fixture table 1. The positioning end plate 2 is fixed at one end of the clamp table 1; the lateral positioning and feeding mechanism 3 comprises a lateral positioning mechanism 31 and a lateral feeding mechanism 32; the lateral positioning mechanism 31 comprises a lateral positioning plate 311, a guide telescopic piece 312 and a lateral moving mechanism 313; the lateral positioning plate 311 is arranged on one side of the clamp table 1 through a lateral moving mechanism 313 and a guide telescopic piece 312;

the side feeding mechanism 32 comprises a feeding roller 321, a roller frame 322, a telescopic cylinder 323 and a feeding driving mechanism 324; the number of the feeding rollers 321 is at least 2, the roller frame 322, the telescopic cylinder 323 and the feeding driving mechanism 324 are arranged in one-to-one correspondence with the feeding rollers 321, the feeding rollers 321 are installed on the roller frame 322, and the telescopic cylinder 323 drives the roller frame 322 to drive the feeding rollers 321 to abut against the aluminum door and window profile 100.

The number of the guide telescopic pieces 312 is 2, and the guide telescopic pieces are respectively and symmetrically arranged along one side of the lateral positioning plate 311; in the embodiment, the guide telescopic piece is a guide telescopic rod; the lateral moving mechanism 313 includes a screw shaft 3131, a screw slider 3132, a linkage frame 3133, and a fixing seat 3134;

the screw shaft 3131 is perpendicular to the lateral positioning plate 311, one end of the screw shaft 3131 is sleeved on a bearing arranged at a position corresponding to the fixing seat 3134, and the other end is connected with a screw shaft driving mechanism 3135; the screw rod sliding block 3132 is sleeved on the screw rod shaft 3131; the screw slider 3132 is connected to the lateral positioning plate 311 through a linkage frame 3133.

The screw shaft driving mechanism 3135 includes a screw motor housing 31351, a driven gear 31352, a driving gear 31353, and a screw motor 31354; the screw rod motor 31351 is fixed at the end of the clamp table 1, the outer end of the screw rod shaft 3131 is sleeved on a bearing arranged at a position corresponding to the screw rod motor 31351 and extends into the screw rod motor 31351, the driven gear 31352 is sleeved at the end of the screw rod shaft 3131, the screw rod motor 31354 is in transmission connection with the driving gear 31353, and the driving gear 31353 is in meshing transmission with the driven gear 31352.

The feeding driving mechanism 324 comprises a feeder bin 3241, a driven pulley 3242, a driving pulley 3243, a transmission belt 3244 and a feeding motor 3245;

the feeding machine bin 3241 is fixed at the top end of the roller frame 322, the driven belt wheel 3242 is sleeved on a roller shaft of the feeding roller 321 in the feeding machine bin 3241, the feeding motor 3245 is in transmission connection with the driving belt wheel 3243, and the driven belt wheel 3242 is in transmission connection with the driving belt wheel 3243 through a transmission belt 3244.

The jacking mechanism 4 comprises a fixed frame 41, a jacking cylinder 42 and a jacking plate 43; the fixing frame 41 is arranged at the end part of the fixture table 1, the jacking cylinder 42 is arranged at the lower side of the fixing frame 41, the top of the jacking plate 43 is connected with the jacking cylinder 42, and the jacking cylinder 42 drives the jacking plate 43 to abut against the aluminum door and window profile 100.

The clamping method of the numerical control drilling and milling clamp structure for the aluminum door and window comprises the following steps:

the method comprises the following steps: the aluminum door and window profile 100 is arranged between the lateral positioning plate 311 and the lateral feeding mechanism 32 on the fixture table 1;

step two: the lateral moving mechanism 313 drives the lateral positioning plate 311 to perform lateral positioning;

step three: the side feeding mechanism 32 drives the feeding roller 321 to move towards the side positioning plate 311, so that the aluminum door and window profile 100 is clamped between the side positioning plate 311 and the feeding roller 321;

step four: the feed roller 321 rotates to drive the aluminum door window profile 100 to feed against the positioning end plate 2.

The working principle of the invention is as follows:

the invention provides a numerical control drilling and milling clamp structure for aluminum doors and windows, which is ingenious in structural arrangement and reasonable in arrangement, and when the numerical control drilling and milling clamp structure works, an aluminum door and window profile 100 is placed between a lateral positioning plate 311 and a lateral feeding mechanism 32 on a clamp table 1; the lateral moving mechanism 32 drives the lateral positioning plate 311 to perform lateral positioning; the side feeding mechanism 32 drives the feeding roller 321 to move towards the side positioning plate 311, so that the aluminum door and window profile 100 is clamped between the side positioning plate 311 and the feeding roller 321; the feeding roller 321 rotates to drive the aluminum door and window profile 100 to feed and abut against the positioning end plate 2, so that the aluminum door and window profile 100 is clamped and positioned, and the lateral positioning plate 311 can be adjusted, and the lateral positioning is accurately adjusted by using a screw rod sliding block structure;

the invention further designs a lateral feeding mechanism 32 and a jacking mechanism 4, wherein the lateral feeding mechanism 32 realizes the feeding of the aluminum door and window profile 100 by using a feeding roller 321, and the jacking mechanism 4 is lifted and pressed on the aluminum door and window profile 100 of the fixture table 1 by using a jacking cylinder 42, so that the structure is simple and the reliability is high.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (8)

1. A numerical control drilling and milling clamp structure for aluminum doors and windows is characterized by comprising a clamp table, a positioning end plate and a lateral positioning feeding mechanism; the clamp table is a rectangular table; the positioning end plate is fixed at one end of the clamp table; the lateral positioning and feeding mechanism comprises a lateral positioning mechanism and a lateral feeding mechanism; the lateral positioning mechanism comprises a lateral positioning plate, a guiding telescopic piece and a lateral moving mechanism; the lateral positioning plate is arranged on one side of the clamp table through a lateral moving mechanism and a guiding telescopic piece;

the lateral feeding mechanism comprises a feeding roller, a roller frame, a telescopic cylinder and a feeding driving mechanism; the feed roller is equipped with 2 at least, and roller frame, telescopic cylinder and feed actuating mechanism set up with the feed roller one-to-one, and the feed roller is installed on the roller frame, and telescopic cylinder drive roller frame drives the feed roller butt aluminium door and window section bar.

2. The numerical control drilling and milling fixture structure for the aluminum doors and windows as claimed in claim 1, wherein 2 guide telescopic pieces are symmetrically arranged along one side of the lateral positioning plate respectively; the lateral moving mechanism comprises a screw rod shaft, a screw rod sliding block, a linkage frame and a fixed seat;

the screw shaft is vertically arranged with the lateral positioning plate, one end of the screw shaft is sleeved on a bearing arranged at a corresponding position of the fixed seat, and the other end of the screw shaft is connected with a screw shaft driving mechanism; the screw rod sliding block is sleeved on the screw rod shaft; the screw rod slide block is connected with the lateral positioning plate through a linkage frame.

3. The aluminum door and window numerical control drilling and milling fixture structure as claimed in claim 2, wherein the screw shaft driving mechanism comprises a screw shaft bin, a driven gear, a driving gear and a screw motor; the screw rod machine bin is fixed at the end part of the clamp table, the outer end of a screw rod shaft is sleeved on a bearing arranged at a corresponding position of the screw rod machine bin and extends into the screw rod machine bin, the driven gear is sleeved at the end part of the screw rod shaft, a screw rod motor is in transmission connection with a driving gear, and the driving gear is in meshing transmission with the driven gear.

4. The aluminum door and window numerical control drilling and milling fixture structure as claimed in claim 3, wherein the fixture table is uniformly provided with drilling and milling grooves.

5. The aluminum door and window numerical control drilling and milling fixture structure as claimed in claim 4, wherein the feeding driving mechanism comprises a feeding machine bin, a driven belt pulley, a driving belt pulley, a transmission belt and a feeding motor;

the feeding machine bin is fixed at the top end of the roller frame, the driven belt wheel is sleeved on a roller shaft of the feeding roller in the feeding machine bin, the feeding motor is in transmission connection with the driving belt wheel, and the driven belt wheel is in transmission connection with the driving belt wheel through a transmission belt.

6. The aluminum door and window numerical control drilling and milling fixture structure as claimed in any one of claims 1 to 5, wherein a jacking mechanism is arranged on the fixture table, and the jacking mechanism can be lifted and pressed against the aluminum door and window profile of the fixture table.

7. The aluminum door and window numerical control drilling and milling fixture structure as claimed in claim 6, wherein the jacking mechanism comprises a fixed frame, a jacking cylinder and a jacking plate; the fixing frame is arranged at the end part of the fixture table, the jacking cylinder is arranged at the lower side of the fixing frame, the top of the jacking plate is connected with the jacking cylinder, and the jacking cylinder drives the jacking plate to abut against the aluminum door and window section.

8. A clamping method using the aluminum door and window numerical control drilling and milling clamp structure as claimed in claim 1 is characterized by comprising the following steps:

the method comprises the following steps: the aluminum door and window section bar is arranged between the lateral positioning plate and the lateral feeding mechanism on the fixture table;

step two: the lateral moving mechanism drives the lateral positioning plate to perform lateral positioning;

step three: the lateral feeding mechanism drives the feeding roller to move towards the lateral positioning plate, so that the aluminum door and window profile is clamped between the lateral positioning plate and the feeding roller;

step four: the feeding roller rotates to drive the aluminum door and window profile to feed and abut against the positioning end plate.

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