CN217019358U - Efficient machining center for integrated profile sawing and milling - Google Patents

Abstract

The utility model relates to a profile sawing and milling integrated high-efficiency machining center which comprises a rack, wherein one end of the rack is provided with a sawing and milling fixed seat, a guide rail is transversely arranged on the rack, a sawing and milling sliding seat is arranged on the guide rail, the distance between the sawing and milling sliding seat and the sawing and milling fixed seat is adjustable, a feeding frame A is arranged on the inner side of the sawing and milling fixed seat, a feeding frame B is arranged on the inner side of the sawing and milling sliding seat, end milling frames are respectively arranged on the outer sides of the sawing and milling fixed seat and the sawing and milling sliding seat, feeding guide rails are respectively and longitudinally arranged at the upper ends of the feeding frame A and the feeding frame B, a feeding mechanism is arranged on the feeding guide rails, a sawing and milling positioning plate is arranged on the feeding frame A, a sawing and milling working table is arranged on the sawing and milling sliding seat, a sawing and milling pressing mechanism is arranged above the sawing and milling working table, and milling sliding seat is provided with a sawing and milling mechanism A, an end milling mechanism B and an end milling mechanism C are longitudinally arranged on the end milling frame at intervals. The end milling machine has the advantages of reasonable structural design, compact structural design, integrated design of sawing and end milling, high end milling efficiency and the like.

Description

Efficient machining center for integrated profile sawing and milling

The technical field is as follows:

the utility model relates to the technical field of door and window profile processing equipment, in particular to a profile sawing and milling integrated efficient processing center.

The background art comprises the following steps:

sawing and end milling are two very important processes in the processing of door and window profiles, and the development of independent sawing equipment and end milling equipment in the market is relatively mature at present, so that the mechanical production of a single process is basically realized. However, with the continuous development of the door and window industry, in order to further improve the production efficiency, the door and window production equipment is required to be developed towards the integration direction.

At present, the existing sawing equipment and end milling equipment can realize mechanical processing, but two processes are independent, the section bar after sawing is required to be manually installed on the end milling equipment for end milling in the processing process, the middle transfer process is time-consuming and labor-consuming, and the production efficiency of door and window equipment is severely restricted. In addition, although the existing end milling equipment can realize mechanized production, the notch milling is mainly completed by the thickness of the milling cutter during actual work, when the notch is large or the notch is more, the notch can be machined only by repeatedly and reciprocally milling the milling cutter, and the reciprocating motion of the milling cutter seriously restricts the end milling machining efficiency. Therefore, the design concept of the existing end mill needs to be changed, and the sawing and end milling are integrated, so that the processing efficiency of the door and window profile is remarkably improved.

The above description is included in the technical recognition scope of the inventors, and does not necessarily constitute the prior art.

The utility model has the following contents:

the utility model aims to solve the problems in the prior art and provides a profile sawing and milling integrated high-efficiency machining center which has the advantages of reasonable structural design, compact structural design, integrated design of sawing and milling, high end milling efficiency and the like.

The utility model adopts the following technical scheme to realize the purpose:

a section bar sawing and milling integrated type high-efficiency processing center comprises a rack, wherein one end of the rack is provided with a sawing and milling fixed seat, a guide rail is transversely arranged on the rack, a sawing and milling sliding seat matched with the sawing and milling fixed seat is arranged on the guide rail, the distance between the sawing and milling sliding seat and the sawing and milling fixed seat is adjustable, a feeding frame A is arranged on the inner side of the sawing and milling fixed seat, a feeding frame B is arranged on the inner side of the sawing and milling sliding seat, end milling frames are respectively arranged on the outer sides of the sawing and milling fixed seat and the sawing and milling sliding seat, feeding guide rails are respectively and longitudinally arranged at the upper ends of the feeding frame A and the feeding frame B, a feeding mechanism is arranged on the feeding guide rails, a sawing and milling positioning plate is arranged on the feeding frame A, a sawing and milling working table is arranged on the sawing and milling sliding seat, a sawing and pressing mechanism for cutting off the section bar is arranged on the sawing and milling working table and feeding mechanism, and the end positioning plate is positioned by the sawing and milling working table and feeding mechanism, the feeding mechanism is used for longitudinally conveying the cut section, the end milling frame is longitudinally provided with an end milling mechanism A, an end milling mechanism B and an end milling mechanism C at intervals, and the end milling mechanism A, the end milling mechanism B and the end milling mechanism C are used for sequentially carrying out end milling on the longitudinally conveyed section.

The sawing and milling machine is characterized in that a motor base is arranged on the sawing and milling sliding base, a walking servo motor is arranged on the motor base and connected with a walking gear, and a rack meshed with the walking gear is arranged on the rack.

The feeding frame A is provided with a positioning plate seat, the positioning plate seat is provided with a pull-back air cylinder in a transverse direction, and the pull-back air cylinder is provided with the sawing positioning plate.

The feeding mechanism comprises a feeding sliding plate arranged on a feeding guide rail, the feeding sliding plate is parallel to and level with the sawing workbench, the sectional material is placed on the feeding sliding plate, a feeding servo motor is arranged on the feeding sliding plate and connected with a feeding gear, feeding racks are respectively arranged at the upper ends of the feeding frame A and the feeding frame B, the feeding gear is meshed with the feeding racks, a feeding material pressing frame is arranged on the feeding sliding plate, a feeding material pressing cylinder is vertically arranged on the feeding material pressing frame, the feeding material pressing cylinder is connected with a feeding material pressing plate, and the feeding material pressing plate is matched with the feeding sliding plate to compress the sectional material.

The end milling frame comprises a vertical seat A and a vertical seat B which are arranged at intervals, a top plate is arranged at the upper ends of the vertical seat A and the vertical seat B, the end milling mechanism A is arranged on the inner side of the vertical seat A, the end milling mechanism B is arranged on the inner side of the vertical seat B, and the end milling mechanism C is arranged on the outer side of the vertical seat B.

The end milling mechanism A is used for grooving or milling the end part of a sectional material and comprises a vertical guide rail A vertically arranged on the inner side of a vertical seat A, a vertical sliding plate A is arranged on the vertical guide rail A, a vertical nut seat A and a vertical nut A are arranged on the inner side of the vertical sliding plate A, a vertical servo motor A is arranged on a top plate, the vertical servo motor A is connected with the vertical nut A through a vertical lead screw A, a transverse sliding block A is arranged on the vertical sliding plate A, a transverse guide rail A is transversely arranged on the transverse sliding block A, a transverse sliding plate A is arranged on the transverse guide rail A, a transverse nut seat A and a transverse nut A are arranged on the outer side of the vertical sliding plate A, a transverse servo motor A is arranged at the end part of the transverse sliding plate A, the transverse servo motor A is connected with the transverse nut A through the transverse lead screw A, a motor seat A is rotatably arranged on the transverse sliding plate A, and a double-head motor A is arranged on the motor seat A, double-end motor A one end is equipped with slot saw blade milling cutter, and the other end is equipped with slot saw blade milling cutter, it is equipped with the rotation and drives actuating cylinder to rotate on the transverse sliding plate A, the rotation drives actuating cylinder and is connected with motor cabinet A.

The end milling mechanism B comprises a vertical guide rail B which is vertically arranged at the inner side of the vertical seat B, a vertical sliding plate B is arranged on the vertical guide rail B, a vertical screw seat B and a vertical screw B are arranged on the inner side of the vertical sliding plate B, a vertical servo motor B is arranged on the top plate, the vertical servo motor B is connected with a vertical screw nut B through a vertical screw rod B, a transverse sliding block B is arranged on the vertical sliding plate B, a transverse guide rail B is transversely arranged on the transverse sliding block B, a transverse sliding plate B is arranged on the transverse guide rail B, a transverse screw seat B and a transverse screw B are arranged on the outer side of the vertical sliding plate B, a transverse servo motor B is arranged at the end part of the transverse sliding plate B, the transverse servo motor B is connected with a transverse screw nut B through a transverse screw rod B, a motor base B is arranged on the transverse sliding plate B, the motor base B is vertically provided with a double-end motor B, and two ends of the double-end motor B are respectively provided with a saw blade milling cutter B.

The end milling mechanism C comprises a vertical guide rail C which is vertically arranged at the outer side of the vertical seat B, a vertical sliding plate C is arranged on the vertical guide rail C, a vertical screw seat C and a vertical screw C are arranged on the inner side of the vertical sliding plate C, a vertical servo motor C is arranged on the top plate, the vertical servo motor C is connected with a vertical screw nut C through a vertical lead screw C, a transverse sliding block C is arranged on the vertical sliding plate C, a transverse guide rail C is transversely arranged on the transverse sliding block B, a transverse sliding plate C is arranged on the transverse guide rail C, a transverse screw seat C and a transverse screw C are arranged on the outer side of the vertical sliding plate C, a transverse servo motor C is arranged at the end part of the transverse sliding plate C, the transverse servo motor C is connected with a transverse screw nut C through a transverse screw rod C, a motor base C is arranged on the transverse sliding plate C, the motor cabinet C is vertically provided with a double-end motor C, and two ends of the double-end motor C are respectively provided with a saw blade milling cutter C.

The vertical seat A comprises a bottom plate A and a vertical plate A vertically arranged on the bottom plate A, two guide rail mounting plates A are arranged on the inner side of the vertical plate A at intervals, guide rail positioning grooves A are formed in the guide rail mounting plates A, and the vertical guide rails A are mounted on the guide rail positioning grooves A.

The vertical seat B comprises a bottom plate B and a vertical plate B vertically arranged on the bottom plate B, two guide rail mounting plates B are arranged on the inner side of the vertical plate B at intervals, guide rail positioning grooves B are formed in the guide rail mounting plates B, the vertical guide rail B is arranged in the guide rail positioning grooves B, two guide rail mounting plates C are arranged on the outer side of the vertical plate B at intervals, guide rail mounting grooves C are formed in the guide rail mounting plates C, and the vertical guide rail C is arranged in the guide rail positioning grooves C.

The sawing mechanism comprises a sawing guide rail vertically arranged on the vertical plate A, a sawing sliding plate is arranged on the sawing guide rail, a sawing motor is transversely arranged on the sawing sliding plate, a saw blade is arranged on the sawing motor, a sawing driving cylinder is vertically arranged on the sawing sliding seat, and the sawing driving cylinder is connected with the sawing sliding plate.

Saw cut hold-down mechanism including installing saw cutting in the riser A outside and compressing tightly the seat, saw cut and compress tightly the vertical saw cutting that is equipped with on the seat and compress tightly the cylinder, saw cut and compress tightly the cylinder and be connected with saw cut the pressure strip.

By adopting the structure, the utility model can bring the following beneficial effects:

(1) saw cut and mill two processes and integrate the design with the end, realize directly sending into the end through feeding mechanism that the section bar after will saw cuts and mill the process, need not to wait for, need not artifical and other transportation, really realize the seamless joint of two processes, show the saw that improves the section bar and mill machining efficiency. (2) An end milling mechanism A, an end milling mechanism B and an end milling mechanism C are respectively designed on two sides of the feeding mechanism, end milling of two ends of the section bar is completed simultaneously in the conveying process of the section bar, and the end milling efficiency is further improved. (3) Through designing end milling mechanism A, end milling mechanism B and end milling mechanism C, three end milling mechanisms cooperate and can satisfy that most of section bars only need once walking and can accomplish the end milling, need not the section bar and make a round trip to reciprocate the end milling, further improve the end milling efficiency again. (4) The end milling mechanism A is designed into the two-translation one-rotation mechanism, so that the groove cutting of the sectional material can be realized, the groove cutting can be completed when the groove milling needs to be carried out on the bottom of the sectional material in a large area, and the end milling efficiency is further improved. (5) In order to make saw cut more smoothly with the end milling link up, pull back the cylinder through the design and can make the section bar saw cut the back messenger and saw cut locating plate and break away from with the section bar, avoid the section bar when vertical transport with saw cut the locating plate friction.

Description of the drawings:

FIG. 1 is a schematic structural view of an integrated efficient machining center for sawing and milling sectional materials according to the present invention;

FIG. 2 is a schematic structural diagram of another view angle of the integrated efficient profile sawing and milling machining center of the present invention;

FIG. 3 is an installation schematic diagram of a profile sawing and milling integrated type high-efficiency machining center walking servo motor of the utility model;

FIG. 4 is a schematic view of the saw mechanism of the present invention;

FIG. 5 is a schematic structural view of a feeding mechanism of the present invention;

FIG. 6 is a schematic view of the stand A according to the present invention;

FIG. 7 is a schematic view of the stand B according to the present invention;

FIG. 8 is a schematic view of another perspective of the stand B of the present invention;

FIG. 9 is a schematic structural view of an end milling mechanism A of the present invention;

FIG. 10 is a schematic view of another perspective of the end milling mechanism A of the present invention;

FIG. 11 is a schematic structural view of an end milling mechanism B and an end milling mechanism C according to the present invention;

FIG. 12 is a schematic structural view of another perspective of the end milling mechanisms B and C according to the present invention;

in the figure, 1, a machine frame, 2, a saw-mill fixed seat, 3, a guide rail, 4, a saw-mill sliding seat, 5, a feeding frame A, 6, a feeding frame B, 7, an end milling frame, 701, a vertical seat A, 7011, a bottom plate A, 7012, a vertical plate A, 7013, a guide rail mounting plate A, 7014, a guide rail positioning groove A, 702, a vertical seat B, 7021, a bottom plate B, 7022, a vertical plate B, 7023, a guide rail mounting plate B, 7024, a guide rail mounting groove B, 7025, a guide rail mounting plate C, 7026, a guide rail mounting groove C, 703, a top plate, 8, a feeding guide rail, 9, a feeding mechanism, 901, a feeding sliding plate, 902, a feeding servo motor, 903, a feeding gear, 904, a feeding rack, 905, a feeding pressing frame, 906, a feeding and pressing cylinder, 907, a feeding pressing plate, 10, a sawing positioning plate, 11, a sawing worktable, 12, a pressing and sawing, a pressing mechanism, a sawing, a pressing seat, 1202, a pressing cylinder, 1203, a pressing cylinder, 12, a sawing, a pressing mechanism, a pressing cylinder, a pressing plate, a pressing cylinder, a pressing plate, a pressing cylinder, a pressing plate, a pressing cylinder, a pressing plate, a pressing mechanism, sawing hold-down plate, 13, sawing mechanism, 1301, sawing guide rail, 1302, sawing slide plate, 1303, sawing motor, 1304, saw blade, 1305, sawing drive cylinder, 14, end milling mechanism a, 1401, vertical guide rail a, 1402, vertical slide plate a, 1403, vertical nut seat a, 1404, vertical nut a, 1405, vertical servomotor a, 1406, vertical screw a, 1407, horizontal slider a, 1408, horizontal guide rail a, 1409, horizontal slide plate a, 1410, horizontal nut seat a, 1411, horizontal nut a, 1412, horizontal servomotor a, 1413, horizontal screw a, 1414, motor seat a, 1415, double-head motor a, 1416, slotting saw blade milling cutter, 1417, slotting saw blade milling cutter, 1418, rotary drive cylinder, 15, end milling mechanism B, 1501, vertical guide rail B, 1502, vertical slide plate B, 1503, vertical nut seat B, 1504, vertical nut B, 1505, vertical servo motor B, 1506. vertical lead screws B, 1507, horizontal sliders B, 1508, horizontal guide rails B, 1509, horizontal sliding plates B, 1510, horizontal nut seats B, 1511, horizontal nuts B, 1512, horizontal servo motors B, 1513, horizontal lead screws B, 1504, motor seats B, 1515, double-head motors B, 1516, blade milling cutters B, 16, end milling mechanisms C, 1601, vertical guide rails C, 1602, vertical sliding plates C, 1603, vertical nut seats C, 1604, vertical nuts C, 1605, vertical servo motors C, 1606, vertical lead screws C, 1607, horizontal sliders C, 1608, horizontal guide rails C, 1609, horizontal sliding plates C, 1610, horizontal nut seats C, 1611, horizontal nuts C, 1612, horizontal servo motors C, 1613, horizontal lead screws 161C, 1604, motor seats C, 1615, double-head motors C, 1616, milling cutters C, 17, motor seats, 18, traveling motors, 19, traveling gears, 20, racks, 21. a positioning plate seat 22 and a pull-back cylinder.

The specific implementation mode is as follows:

in order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced otherwise than as specifically described herein and, therefore, the scope of the present invention is not limited by the specific embodiments disclosed below.

All the embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from other embodiments.

Furthermore, the terms "transverse," "longitudinal," "vertical," "upper," "a," "B," "C," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the location of the technical feature indicated.

In the present invention, unless otherwise expressly stated or limited, the terms "provided", "disposed", "connected", and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

As shown in fig. 1-12, a profile sawing and milling integrated high-efficiency processing center comprises a frame 1, wherein one end of the frame 1 is provided with a sawing and milling fixed seat 2, the frame 1 is transversely provided with a guide rail 3, the guide rail 3 is provided with a sawing and milling sliding seat 4 matched with the sawing and milling fixed seat 2 for use, the distance between the sawing and milling sliding seat 4 and the sawing and milling fixed seat 2 is adjustable, the inner side of the sawing and milling fixed seat 2 is provided with a feeding frame a5, the inner side of the sawing and milling sliding seat 4 is provided with a feeding frame B6, the outer sides of the sawing and milling fixed seat 2 and the sawing and milling sliding seat 4 are respectively provided with an end milling frame 7, the upper ends of the feeding frame a5 and the feeding frame B6 are respectively and longitudinally provided with a feeding guide rail 8, the feeding guide rail 8 is provided with a feeding mechanism 9, the feeding frame a5 is provided with a sawing and milling positioning plate 10, the sawing and milling sliding seat 4 is provided with a sawing and milling worktable 11, and milling pressing mechanism 12 is arranged above the sawing worktable 11, be equipped with the saw that cuts off the section bar on the saw mills sliding seat 4 and cut off mechanism 13, section bar here mainly indicates well club, the section bar is placed on saw cutting workstation 11 and feeding mechanism 9 and is carried out the tip location with saw cutting locating plate 10, feeding mechanism 9 will cut off the section bar after vertical transport, end mills and is equipped with end milling mechanism A14, end milling mechanism B15 and end milling mechanism C16 on the frame 7 at vertical interval, end milling mechanism A14, end milling mechanism B15 and end milling mechanism C16 carry out the end milling processing to the section bar of vertical transport in proper order. Saw cut and mill two processes with the end and integrate the design, realize directly sending into the end through feeding mechanism 9 that the section bar after will saw cutting mills the process, need not to wait for, need not artifical and other transportation, really realize the seamless joint of two processes, show the saw that improves the section bar and mill machining efficiency. An end milling mechanism A14, an end milling mechanism B15 and an end milling mechanism C16 are respectively designed on two sides of the feeding mechanism 9, end milling of two ends of the sectional material is completed simultaneously in the conveying process of the sectional material, and end milling efficiency is further improved.

The sawing and milling sliding seat 4 is provided with a motor base 17, the motor base 17 is provided with a walking servo motor 18, the walking servo motor 18 is connected with a walking gear 19, and the rack 1 is provided with a rack 20 meshed with the walking gear 19. The interval between the sawing and milling sliding seat 4 and the fixed sliding seat 2 is controlled and adjusted through the servo motor, and then the blanking length (sawing length) of the section bar is accurately adjusted.

The automatic sawing and cutting device is characterized in that a positioning plate seat 21 is arranged on the feeding frame A5, a pull-back cylinder 22 is transversely arranged on the positioning plate seat 21, and the sawing and cutting positioning plate 10 is arranged on the pull-back cylinder 22. In order to enable the sawing and the end milling to be connected more smoothly, the sawing positioning plate 10 is separated from the sectional material after the sectional material is sawed by designing the pull-back air cylinder 22, and the friction between the sawing positioning plate 10 and the sectional material during longitudinal conveying of the sectional material is avoided.

The feeding mechanism 9 comprises a feeding sliding plate 901 arranged on the feeding guide rail 8, the feeding sliding plate 901 is flush with the sawing worktable 11, the profile is placed on the feeding sliding plate 901, a feeding servo motor 902 is arranged on the feeding sliding plate 901, the feeding servo motor 902 is connected with a feeding gear 903, the upper ends of the feeding rack a5 and the feeding rack B6 are respectively provided with a feeding rack 904, the feeding gear 903 is meshed with the feeding rack 904, a feeding material pressing rack 905 is arranged on the feeding sliding plate 901, a feeding material pressing cylinder 906 is vertically arranged on the feeding material pressing rack 905, the feeding material pressing cylinder 906 is connected with a feeding material pressing plate 907, and the feeding material pressing plate 907 is matched with the feeding sliding plate 901 to press the profile. The feeding sliding plate 901 clamps the section in place before sawing, directly carries the sawed section to convey longitudinally after the sawing is finished, and grabs the section after avoiding the sawing, so that the time is saved, and seamless connection is realized.

The end milling frame 7 comprises an upright seat A701 and an upright seat B702 which are arranged at intervals, a top plate 703 is arranged at the upper ends of the upright seat A701 and the upright seat B702, the end milling mechanism A14 is arranged on the inner side of the upright seat A701, the end milling mechanism B15 is arranged on the inner side of the upright seat B702, and the end milling mechanism C16 is arranged on the outer side of the upright seat B702. The end milling frame 7 is simple and practical in structural design and compact in structural design, three end milling mechanisms are integrated on the end milling frame 7, meanwhile, the sawing mechanism 13 and the sawing pressing mechanism 12 can be integrated on the end milling frame 7, the whole integration degree is high, and the occupied space is effectively saved.

The end milling mechanism A14 is used for grooving or milling the end of a section bar, and comprises a vertical guide rail A1401 vertically arranged on the inner side of a vertical seat A701, a vertical sliding plate A1402 is arranged on the vertical guide rail A1401, a vertical nut seat A1403 and a vertical nut A1404 are arranged on the inner side of the vertical sliding plate A1402, a vertical servo motor A1405 is arranged on the top plate 703, the vertical servo motor A1405 is connected with the vertical nut A1404 through a vertical lead screw A1406, a transverse sliding block A1407 is arranged on the vertical sliding plate A1402, a transverse guide rail A1408 is transversely arranged on the transverse sliding block A1407, a transverse sliding plate A1409 is arranged on the transverse guide rail A1408, a transverse nut seat A1410 and a transverse nut A1411 are arranged on the outer side of the vertical sliding plate A1402, a transverse servo motor A1412 is arranged at the end of the transverse sliding plate A1409, the transverse servo motor A1412 is connected with the transverse nut A1413, a motor seat A1414 is rotatably arranged on the transverse sliding plate A1409, the motor base A1414 is provided with a double-head motor A1415, one end of the double-head motor A1415 is provided with a slotting saw blade milling cutter 1416, the other end of the double-head motor A1415 is provided with a slotting saw blade milling cutter 1417, the transverse sliding plate A1409 is rotatably provided with a rotary driving cylinder 1417, and the rotary driving cylinder 1417 is connected with the motor base A1414. The end milling mechanism A can realize two-translation one-rotation space adjustment, not only can meet the space motion requirement of the slot milling saw blade milling cutter, but also can realize the horizontal or vertical adjustment of the slot milling saw blade milling cutter, so that the purpose of slotting is realized, and thus slotting can be completed when large-area slot milling is required to be performed on the bottom of a section bar, and the end milling efficiency is further improved.

The end milling mechanism B15 comprises a vertical guide rail B1501 vertically arranged on the inner side of a vertical base B702, a vertical sliding plate B1502 is arranged on the vertical guide rail B1501, a vertical nut base B1503 and a vertical nut B1504 are arranged on the inner side of the vertical sliding plate B1502, a vertical servo motor B1505 is arranged on the top plate 703, the vertical servo motor B1505 is connected with the vertical nut B1504 through a vertical lead screw B1506, a transverse sliding block B1507 is arranged on the vertical sliding plate B1502, a transverse guide rail B1508 is transversely arranged on the transverse sliding block B1507, a transverse sliding plate B1509 is arranged on the transverse guide rail B1508, a transverse nut base B1510 and a transverse nut B1511 are arranged on the outer side of the vertical sliding plate B1502, a transverse servo motor B1512 is arranged at the end of the transverse sliding plate B1509, the transverse servo motor B1512 is connected with the transverse nut B1511 through a transverse lead screw B1513, a motor base B1514 is arranged on the transverse sliding plate B15149, a vertical double-head motor B1515 is arranged on the motor base B1514, and two ends of the double-head motor B1515 are respectively provided with a saw blade milling cutter B1516. In actual use, the two blade cutters B1516 are different in thickness, the thin blade cutter B1516 can be used for milling grooves or matched with the groove-cutting blade cutter 1416 in the end milling mechanism A14 to complete groove cutting, and the thick blade cutter B1516 is used for milling grooves on the end face of the section.

The end milling mechanism C16 includes a vertical guide rail C1601 vertically disposed outside the vertical seat B702, a vertical sliding plate C1602 is arranged on the vertical guide rail C1601, a vertical screw seat C1603 and a vertical screw C1604 are arranged on the inner side of the vertical sliding plate C1602, a vertical servo motor C1605 is arranged on the top plate 703, the vertical servo motor C1605 is connected with a vertical screw nut C1604 through a vertical screw rod C1606, a transverse sliding block C1607 is arranged on the vertical sliding plate C1602, a transverse guide rail C1608 is transversely arranged on the transverse sliding block B1607, a transverse sliding plate C1609 is arranged on the transverse guide rail C1608, a transverse nut seat C1610 and a transverse nut C1611 are arranged on the vertical sliding plate C1609, the end part of the transverse sliding plate C1609 is provided with a transverse servo motor C1612, the transverse servo motor C1612 is connected with a transverse nut C1611 through a transverse lead screw C1613, be equipped with motor cabinet C1614 on the transverse sliding plate C1609, the vertical double-end motor C1615 that is equipped with on the motor cabinet C1614, double-end motor C1615's both ends are equipped with saw bit milling cutter C1616 respectively. And the end milling of the molding material is finished by matching with an end milling mechanism A14 and an end milling mechanism B15. The end milling mechanism A14, the end milling mechanism B15 and the end milling mechanism C16 can be matched with one another, end milling of most of existing sectional materials can be achieved, most of the sectional materials can be conveyed longitudinally only once, end milling can be achieved without repeated reciprocating end milling, and end milling efficiency is improved remarkably.

The vertical seat A701 comprises a bottom plate A7011 and a vertical plate A7012 vertically arranged on the bottom plate A7011, two guide rail mounting plates A7013 are arranged on the inner side of the vertical plate A7012 at intervals, guide rail positioning grooves A7014 are arranged on the guide rail mounting plates A7013, and the vertical guide rail A1401 is mounted on the guide rail positioning grooves A7014. The structural design of the vertical seat A701 is simple and firm, and installation reference is provided for the installation of the vertical guide rail A1401 through the design of the guide rail positioning groove A7014, so that the quick and accurate installation of the vertical guide rail A1401 is realized.

The vertical seat B702 comprises a bottom plate B7021 and a vertical plate B7022 vertically arranged on the bottom plate B7021, two guide rail mounting plates B7023 are arranged on the inner side of the vertical plate B7022 at intervals, guide rail positioning grooves B7024 are formed in the guide rail mounting plates B7023, the vertical guide rail B1501 is mounted in the guide rail positioning grooves B7024, two guide rail mounting plates C7025 are arranged on the outer side of the vertical plate B7022 at intervals, guide rail mounting grooves C7026 are formed in the guide rail mounting plates C7025, and the vertical guide rail C1601 is mounted in the guide rail positioning grooves C7026. The structural design of founding seat B702 is simple firm, provides the installation benchmark for vertical guide rail B1501 installs through design guide rail constant head tank B7024, provides the installation benchmark for vertical guide rail C1601 installs through design guide rail constant head tank C7026, and then realizes vertical guide rail B1501 and vertical guide rail C1601's quick accurate installation.

The sawing mechanism 13 comprises a sawing guide rail 1301 vertically arranged on the vertical plate a7012, a sawing sliding plate 1302 is arranged on the sawing guide rail 1301, a sawing motor 1303 is transversely arranged on the sawing sliding plate 1302, a saw blade 1304 is arranged on the sawing motor 1303, a sawing driving cylinder 1305 is vertically arranged on the sawing sliding seat 4, and the sawing driving cylinder 1305 is connected with the sawing sliding plate 1302. Under the condition of meeting the sawing condition of the sectional material, the sawing mechanism 13 and the end milling frame 7 are integrally designed, so that the cost is reduced, and the overall structural design is more compact.

The sawing and pressing mechanism 12 comprises a sawing and pressing seat 1201 installed on the outer side of the vertical plate A7012, a sawing and pressing cylinder 1202 is vertically arranged on the sawing and pressing seat 1201, and the sawing and pressing cylinder 1202 is connected with a sawing and pressing plate 1203. The saw cutting pressing mechanism 12 is arranged on the end milling frame 7 to be integrally designed, so that the cost is further reduced, and the structural design is more compact.

The utility model provides a section bar saw mills high-efficient machining center's of integrated form working process:

firstly, adjusting the distance between a sawing and milling sliding seat 4 and a sawing and milling fixed seat 2 through a walking servo motor 18, a walking gear 19 and a rack 20 according to the blanking length of the section bar, thereby realizing the adjustment of the blanking length of the section bar; and then according to the requirements of profile end milling, the positions of the saw blade milling cutters on the end milling mechanism A14, the end milling mechanism B15 and the end milling mechanism C16 are adjusted to meet the requirements of end milling. During work, a section is placed on the sawing workbench 11, the section is transversely conveyed (the transverse feeding can be carried out by adopting the existing automatic feeding machine), when the front end of the section is in contact with the sawing positioning plate 10, the end part limitation is carried out, the sawing pressing cylinder 1202 in the sawing pressing mechanism 12 is started to drive the sawing pressing plate 1203 to press the section, meanwhile, the feeding pressing cylinder 906 in the feeding mechanism 9 drives the feeding pressing plate 907 to press the section on the feeding sliding plate 901, the sawing driving cylinder 1305 is started, the sawing driving cylinder 1305 drives the sawing sliding plate 1302 to ascend, and the sawing motor 1303 on the sawing sliding plate 1302 drives the saw blade 1304 to rotate at a high speed to cut off the section; after the section is cut off, the pulling-back cylinder 22 acts to separate the sawing positioning plate 10 from the section, then the feeding servo motor 902 in the feeding mechanism 9 is started, the feeding servo motor 902 drives the sawed section to carry out longitudinal conveying through the feeding gear 903 and the feeding rack 904, the end milling mechanism A14, the end milling mechanism B15 and the end milling mechanism C16 sequentially carry out end milling on two ends of the section in the longitudinal conveying process, and then the sawing and end milling processing of the section are completed.

The above-described embodiments should not be construed as limiting the scope of the present invention, and any alternative modifications or alterations to the embodiments of the present invention will be apparent to those skilled in the art.

The present invention is not described in detail, but is known to those skilled in the art.

Claims (10)

1. The profile sawing and milling integrated high-efficiency machining center is characterized by comprising a rack, wherein one end of the rack is provided with a sawing and milling fixed seat, a guide rail is transversely arranged on the rack, a sawing and milling sliding seat matched with the sawing and milling fixed seat is arranged on the guide rail, the distance between the sawing and milling sliding seat and the sawing and milling fixed seat is adjustable, a feeding frame A is arranged on the inner side of the sawing and milling fixed seat, a feeding frame B is arranged on the inner side of the sawing and milling sliding seat, end milling frames are respectively arranged on the outer sides of the sawing and milling fixed seat and the sawing and milling sliding seat, feeding guide rails are respectively and longitudinally arranged at the upper ends of the feeding frame A and the feeding frame B, a feeding mechanism is arranged on the feeding guide rails, a sawing and milling positioning plate is arranged on the feeding frame A, a sawing and milling working table is arranged on the sawing and milling sliding seat, a pressing and sawing mechanism for cutting a profile is arranged above the sawing and milling working table, the section bar is placed on saw cutting workbench and feeding mechanism and is end-positioned with saw cutting positioning plate, the feeding mechanism longitudinally conveys the cut section bar, end milling mechanism A, end milling mechanism B and end milling mechanism C are longitudinally arranged on the end milling frame at intervals, and the end milling mechanism A, the end milling mechanism B and the end milling mechanism C sequentially carry out end milling processing on the longitudinally conveyed section bar.

2. The integrated profile sawing and milling type high-efficiency machining center according to claim 1, wherein a motor base is arranged on the sawing and milling sliding base, a walking servo motor is arranged on the motor base and connected with a walking gear, and a rack meshed with the walking gear is arranged on the rack.

3. The integrated profile sawing and milling type efficient machining center according to claim 1 or 2, wherein a positioning plate seat is arranged on the feeding frame A, a pull-back cylinder is transversely arranged on the positioning plate seat, and the sawing and milling positioning plate is arranged on the pull-back cylinder.

4. The integrated profile sawing and milling type high-efficiency machining center according to claim 3, characterized in that the feeding mechanism comprises a feeding sliding plate arranged on a feeding guide rail, the feeding sliding plate is flush with the sawing workbench, the profiles are placed on the feeding sliding plate, a feeding servo motor is arranged on the feeding sliding plate and connected with a feeding gear, feeding racks are respectively arranged at the upper ends of the feeding rack A and the feeding rack B, the feeding gear is meshed with the feeding racks, a feeding material pressing rack is arranged on the feeding sliding plate, a feeding material pressing cylinder is vertically arranged on the feeding material pressing rack, the feeding material pressing cylinder is connected with a feeding material pressing plate, and the feeding material pressing plate is matched with the feeding sliding plate to press the profiles.

5. The integrated profile sawing and milling type efficient machining center according to claim 4, wherein the end milling frame comprises an upright seat A and an upright seat B which are arranged at intervals, a top plate is arranged at the upper ends of the upright seat A and the upright seat B, the end milling mechanism A is arranged on the inner side of the upright seat A, the end milling mechanism B is arranged on the inner side of the upright seat B, and the end milling mechanism C is arranged on the outer side of the upright seat B.

6. The integrated efficient processing center for profile sawing and milling according to claim 5, wherein the end milling mechanism A is used for grooving or milling the end of the profile, and comprises a vertical guide rail A vertically arranged inside the vertical seat A, a vertical sliding plate A is arranged on the vertical guide rail A, a vertical nut seat A and a vertical nut A are arranged inside the vertical sliding plate A, a vertical servo motor A is arranged on the top plate, the vertical servo motor A is connected with the vertical nut A through a vertical screw A, a transverse sliding block A is arranged on the vertical sliding plate A, a transverse guide rail A is transversely arranged on the transverse sliding block A, a transverse sliding plate A is arranged on the transverse guide rail A, a transverse nut seat A and a transverse nut A are arranged outside the vertical sliding plate A, a transverse servo motor A is arranged at the end of the transverse sliding plate A, and the transverse servo motor A is connected with the transverse nut A through a transverse screw A, rotate on the transverse sliding plate A and be equipped with motor cabinet A, be equipped with double-end motor A on the motor cabinet A, double-end motor A one end is equipped with slot saw blade milling cutter, and the other end is equipped with slot saw blade milling cutter, it is equipped with the rotation and drives actuating cylinder to rotate on the transverse sliding plate A, the rotation drives actuating cylinder and is connected with motor cabinet A.

7. The integrated efficient processing center for profile sawing and milling as claimed in claim 6, wherein the end milling mechanism B comprises a vertical guide rail B vertically arranged inside the vertical base B, a vertical sliding plate B is arranged on the vertical guide rail B, a vertical nut base B and a vertical nut B are arranged inside the vertical sliding plate B, a vertical servo motor B is arranged on the top plate, the vertical servo motor B is connected with the vertical nut B through a vertical lead screw B, a transverse sliding block B is arranged on the vertical sliding plate B, a transverse guide rail B is transversely arranged on the transverse sliding block B, a transverse sliding plate B is arranged on the transverse guide rail B, a transverse nut base B and a transverse nut B are arranged outside the vertical sliding plate B, a transverse servo motor B is arranged at the end of the transverse sliding plate B, and the transverse servo motor B is connected with the transverse nut B through a transverse lead screw B, the saw blade milling cutter is characterized in that a motor base B is arranged on the transverse sliding plate B, a double-head motor B is vertically arranged on the motor base B, and saw blade milling cutters B are respectively arranged at two ends of the double-head motor B.

8. The integrated profile sawing and milling type high-efficiency machining center according to claim 7, wherein the end milling mechanism C comprises a vertical guide rail C vertically arranged on the outer side of the vertical base B, a vertical sliding plate C is arranged on the vertical guide rail C, a vertical nut base C and a vertical nut C are arranged on the inner side of the vertical sliding plate C, a vertical servo motor C is arranged on the top plate, the vertical servo motor C is connected with the vertical nut C through a vertical lead screw C, a transverse sliding block C is arranged on the vertical sliding plate C, a transverse guide rail C is transversely arranged on the transverse sliding block B, a transverse sliding plate C is arranged on the transverse guide rail C, a transverse nut base C and a transverse nut C are arranged on the outer side of the vertical sliding plate C, a transverse servo motor C is arranged at the end of the transverse sliding plate C, and the transverse servo motor C is connected with the transverse nut C through a transverse lead screw C, be equipped with motor cabinet C on the horizontal slide C, vertically on the motor cabinet C be equipped with double-end motor C, double-end motor C's both ends are equipped with saw bit milling cutter C respectively.

9. The integrated profile sawing and milling type efficient machining center according to claim 8, wherein the vertical seat A comprises a bottom plate A and a vertical plate A vertically arranged on the bottom plate A, two guide rail mounting plates A are arranged on the inner sides of the vertical plate A at intervals, guide rail positioning grooves A are arranged on the guide rail mounting plates A, and the vertical guide rails A are arranged on the guide rail positioning grooves A; the vertical seat B comprises a bottom plate B and a vertical plate B vertically arranged on the bottom plate B, two guide rail mounting plates B are arranged on the inner side of the vertical plate B at intervals, guide rail positioning grooves B are formed in the guide rail mounting plates B, the vertical guide rail B is arranged in the guide rail positioning grooves B, two guide rail mounting plates C are arranged on the outer side of the vertical plate B at intervals, guide rail mounting grooves C are formed in the guide rail mounting plates C, and the vertical guide rail C is arranged in the guide rail positioning grooves C.

10. The profile sawing and milling integrated type efficient machining center according to claim 9, wherein the sawing and cutting mechanism comprises a sawing and cutting guide rail vertically arranged on a vertical plate A, a sawing and cutting sliding plate is arranged on the sawing and cutting guide rail, a sawing and cutting motor is transversely arranged on the sawing and cutting sliding plate, a saw blade is arranged on the sawing and cutting motor, a sawing and cutting driving cylinder is vertically arranged on the sawing and milling sliding seat, and the sawing and cutting driving cylinder is connected with the sawing and cutting sliding plate; saw cut hold-down mechanism including installing saw cutting in the riser A outside and compressing tightly the seat, saw cut and compress tightly the vertical saw cutting that is equipped with on the seat and compress tightly the cylinder, saw cut and compress tightly the cylinder and be connected with saw cut the pressure strip.

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