CN218659606U - Inner frame positioning and clamping workbench for wood window double-end composite finish milling machine tool - Google Patents

Abstract

The utility model discloses a be used for compound finish milling lathe inside casing location clamp work platform of wood window bi-polar, the utility model relates to a wood working machinery processing technology field mainly solves the wood window inside casing location clamp problem of wood window bi-polar milling, characterized by: the automatic feeding device comprises a rack, a Y-direction positioning pin mounting plate, an X-direction pushing cylinder mounting plate, an active compression roller, a passive compression roller, a compression roller mounting plate ball lifting screw, a compression roller mounting frame, a bolt, a compression roller mounting frame guide shaft, an X-direction pushing cylinder, a movable guiding ruler, a working platform, an X-direction single positioning pin, a positioning pin cylinder mounting plate, a movable guiding ruler movable power mounting plate, an X-direction three-pin positioning pin and a Y-direction positioning pin. Through the mutual cooperation work between locating pin, the location guiding ruler for the wood window can inboard location when processing, has improved and has added positioning accuracy, thereby has guaranteed that the window guarantees follow-up bi-polar milling process precision, and then improves the window leakproofness.

Description

Inner frame positioning and clamping workbench for wood window double-end composite finish-milling machine tool

Technical Field

The utility model belongs to the technical field of wood working machinery processing technique and specifically relates to a be used for compound finish milling lathe inside casing location clamping workbench of wood window bi-polar.

Background

The passive door and window is one of important components in a passive building, strict requirements are required for the processing precision of a wood window, but the processing precision of the existing double-end milling equipment is low, the unilateral positioning precision is low, the tolerance of a left frame and a right frame is different in the unilateral positioning process, the left frame and the right frame have errors, one side of the window frame with the errors is used as a reference to be centered on the other side of the window frame, the error of the window frame is increased inevitably, the unilateral positioning can only ensure the reference dimension error, the precision of the left side and the right side of the window frame cannot be ensured to be completely consistent, and therefore the sealing performance of the window frame is poor. Therefore, the inner frame positioning and clamping workbench for the wood window double-end composite finish milling machine tool is designed.

Through the mutual cooperation work between locating pin, the location guiding ruler for the wood window can inboard location when processing, has improved and has added positioning accuracy, thereby has guaranteed that the window guarantees follow-up bi-polar milling process precision, and then improves the window leakproofness.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a technical problem who solves is: the utility model provides a wood window inside casing positioning and clamping device for milling of wood window bi-polar, solve unilateral location and can only guarantee benchmark size error, can not guarantee that window frame left and right sides precision is identical completely, so lead to the not good problem of window frame leakproofness.

In order to realize the purpose, the utility model discloses a technical scheme be:

a positioning and clamping workbench for an inner frame of a composite finish-milling machine tool for both ends of a wood window; the device comprises a rack 1, a Y-direction positioning pin mounting plate 2, an X-direction pushing cylinder mounting plate 3, a driving compression roller 4, a driven compression roller 5, a compression roller mounting plate ball lifting screw 6, a compression roller mounting frame 7, a bolt 8, a compression roller mounting frame guide shaft 9, an X-direction pushing cylinder 10, a movable guiding ruler 11, a working platform 12, an X-direction single positioning pin 13, a positioning pin cylinder mounting plate 14, a movable guiding ruler movable power mounting plate 15, an X-direction three-pin positioning pin 16 and a Y-direction positioning pin 17; the Y-direction positioning pin mounting plate 2 is fixedly connected with an upright post 1-2 through a bolt, the X-direction pushing cylinder mounting plate 3 is fixedly connected with a compression roller mounting upright post 1-6 through a bolt, the driving compression roller 4 is fixedly connected with a compression roller mounting frame 7 through a bolt 8, the driven compression roller 5 is fixedly connected with the compression roller mounting frame 7 through a bolt 8, a compression roller mounting plate ball lifting screw 6 and a compression roller mounting upper ring beam 1-7 are fixedly connected with a middle opening of the compression roller mounting upper ring beam 1-7 through a bolt, the compression roller mounting frame 7 is fixedly connected with a compression roller mounting frame moving nut 6-5 through a bolt, a compression roller mounting frame guide shaft 9 and a compression roller mounting frame 7 are axially movably assembled along a compression roller mounting frame guide shaft 9, the compression roller mounting frame guide shaft 9 and the compression roller mounting upper ring beam 1-7 are fixedly connected on a boss arranged on the compression roller mounting upper ring beam 1-7 through a thread, an X-direction material pushing cylinder 10 is fixedly connected with an X-direction material pushing cylinder mounting plate 3 through bolts, a movable guiding rule base 11-2 is fixedly connected with a movable guiding rule movable power mounting plate 15 through bolts, a movable guiding rule auxiliary sliding block 11-9 is slidably assembled with a movable guiding rule movable auxiliary guiding rail 12-2, a working platform 12 is connected with an upper ring beam 1-4 through bolts, 3X-direction single positioning pins 13 are arranged, the X-direction single positioning pins 13 are fixedly connected with positioning pin cylinder mounting plates 14 through bolts, the positioning pin cylinder mounting plates 14 are fixedly connected with upright posts 1-2 through bolts, the guiding rule movable power mounting plate 15 is fixedly connected with the upright posts 1-2 through bolts, X-direction three-pin positioning pins 16 are fixedly connected with the positioning pin cylinder mounting plates 14 through bolts, and a Y-direction positioning pin 17 is fixedly connected with the Y-direction positioning pin mounting plate 2 through bolts.

The machine 1 consists of a lower ring beam 1-1 of a frame, an upright post 1-2, a cross beam 1-3, an upper ring beam 1-4, a lower ring beam 1-5 for mounting a press roller, an upright post 1-6 for mounting the press roller and an upper ring beam 1-7 for mounting the press roller; the stand columns 1-2 are fixedly connected with a lower ring beam 1-1 of a rack through bolts, the stand columns 1-2 are 8 in number, the two stand columns 1-2 are fixedly connected with a cross beam 1-3 through bolts, the stand columns 1-2 are 3 in number, an upper ring beam 1-4 is fixedly connected with upper ends of the stand columns through bolts, a lower ring beam 1-5 for mounting a press roller is fixedly connected with a lower ring beam 1-1 of the rack through bolts, a stand column 1-6 for mounting the press roller is fixedly connected with a lower ring beam 1-5 for mounting the press roller through bolts, an upper ring beam 1-7 for mounting the press roller is fixedly connected with 3 stand columns 1-6 for mounting the press roller through bolts, the upper ring beam 1-7 for mounting the press roller is provided with two bosses, threaded holes are formed in the bosses and fixedly connected with guide shafts of the press roller mounting rack through threads, an opening is formed in the middle part of the upper ring beam 1-7 for mounting the press roller, and the opening is fixedly connected with a ball lifting screw rod 6 for mounting the press roller.

The driving compression roller 4 consists of a driving compression roller motor 4-1, a driving compression roller motor connecting cage 4-2, a driving compression roller coupler 4-3, a driving compression roller shaft 4-4, a driving compression roller 4-5, a compression roller movable frame 4-6, a driving compression roller cylinder adapter 4-7, a driving compression roller cylinder 4-8, a driving compression roller mounting plate 4-9 and a driving bearing seat 4-10; the active compression roller motor 4-1 is fixedly connected with an active compression roller motor connecting cage 4-2 through bolts, the active compression roller motor connecting cage 4-2 is fixedly connected with a compression roller movable frame 4-6 through bolts, an output shaft of the active compression roller motor 4-1 is connected with an active compression roller rod 4-4 through an active compression roller coupler 4-3, an active compression roller shaft 4-4 is connected with an active compression roller rod 4-5 through a key, the compression roller movable frame 4-6 is rotatably assembled with an active compression roller cylinder adapter 4-7, the active compression roller cylinder adapter 4-7 is fixedly connected with an active compression roller cylinder 4-8 through threads, the active compression roller cylinder 4-8 is fixedly connected with an active compression roller mounting plate 4-9 through a bolt 8, and the active compression roller mounting plate 4-9 is fixedly connected with an active compression roller bearing seat 4-10 through a bolt.

The passive compression roller 5 consists of a passive compression roller mounting plate 5-1, a passive compression roller cylinder 5-2, a passive compression roller cylinder adaptor 5-3, a passive compression roller bearing seat 5-4, a passive compression roller movable frame 5-5, a passive compression roller shaft 5-6 and a passive compression roller rod 5-7; the driven compression roller air cylinder 5-2 and the driven compression roller mounting plate 5-1 are fixedly mounted through bolts, the driven compression roller air cylinder adapter 5-3 is fixedly connected with the driven compression roller air cylinder 5-2 through threads, the driven compression roller bearing seat 5-4 is fixedly connected with the driven compression roller mounting plate 5-1 through bolts, the driven compression roller movable frame 5-5 and the driven compression roller bearing seat 5-4 are rotatably assembled, the driven compression roller shaft 5-6 and the driven compression roller shaft 5-6 are rotatably assembled, and the driven compression roller shaft 5-6 and the driven compression roller 5-7 are connected through keys.

The press roll mounting plate ball lifting screw 6 consists of a press roll mounting plate ball lifting screw motor reducer assembly 6-1, a reducer output shaft 6-2, a coupler 6-3, a ball screw lifter body 6-4, a press roll mounting frame moving nut 6-5 and a press roll mounting frame screw 6-6; the motor reducer assembly 6-1 is fixedly connected with the reducer output shaft 6-2 through a key, the input shaft of the ball screw elevator body 6-4 is fixedly connected with the reducer output shaft 6-2 through a coupler 6-3, the ball screw elevator body 6-4 is rotatably connected with the compression roller mounting rack screw 6-6 through a key, and the compression roller mounting rack moving nut 6-5 is rotatably connected with the compression roller mounting rack screw 6-6 through screw threads.

The movable guiding rule 11 is composed of a movable guiding rule motor 11-1, a movable guiding rule base 11-2, a head end lead screw support seat 11-3, a movable guiding rule lead screw nut seat moving guide rail 11-4, a movable guiding rule lead screw nut seat moving slide block 11-5, a tail end lead screw support seat 11-6, a movable guiding rule lead screw 11-7, a movable guiding rule lead screw nut 11-8, a movable guiding rule auxiliary slide block 11-9, a movable guiding rule 11-10, a movable guiding rule motor lead screw coupling 11-11 and a movable guiding rule motor output shaft 11-12; the movable guiding rule motor 11-1 is fixedly connected with a movable guiding rule base 11-2 through bolts, a head end lead screw support seat 11-3 is fixedly connected with the movable guiding rule base 11-2 through bolts, a movable guiding rule lead screw nut seat movable guide rail 11-4 is fixedly connected with the movable guiding rule base 11-2 through bolts, a movable sliding block 11-5 of the movable guiding rule lead screw nut seat is slidably assembled with the movable guiding rule lead screw nut seat movable guide rail 11-4, a tail end lead screw support seat 11-6 is fixedly connected with the movable guiding rule base 11-2 through bolts, a movable guiding rule lead screw 11-7 is rotatably assembled with the head end lead screw support seat 11-3 and the tail end lead screw support seat 11-6, a movable guiding rule lead screw nut 11-8 is rotatably assembled with a movable guiding rule lead screw 11-7, a movable guiding rule auxiliary sliding block 11-9 is fixedly connected with a movable guiding rule 11-10 through bolts, a movable guiding rule lead screw 11-10 is fixedly connected with a movable guiding rule lead screw nut 11-8 through bolts, and an output shaft 11-12 of the movable guiding rule motor is fixedly connected with the movable guiding rule lead screw 11-7 through a movable guiding rule fixed shaft coupler.

The working platform 12 consists of a working platform 12-1 and a movable guiding rule movable auxiliary guide rail 12-2; the working platform 12-1 is provided with 3X-direction single positioning pin 13 telescopic holes, X-direction three-pin positioning pin 16 telescopic square holes, Y-direction positioning pins 17 holes and a movable guiding rule movable auxiliary guide rail 12-2 mounting groove, four threaded holes are formed in four corners, and the movable guiding rule movable auxiliary guide rail 12-2 is fixedly connected with the working platform 12-1 through bolts.

The X-direction single positioning pin 13 consists of an X-direction single positioning pin cylinder 13-1 and an X-direction single positioning pin 13-2; the X-direction single positioning pin cylinder 13-1 is fixedly connected with the X-direction single positioning pin 13-2 through threads.

The X-direction three-pin positioning pin 16 consists of an X-direction three-pin positioning pin cylinder 16-1, an X-direction three-pin positioning pin 16-2 and an X-direction three-pin positioning pin mounting plate 16-3; the X-direction three-pin positioning pin cylinder 16-1 is fixedly connected with the X-direction three-pin positioning pin mounting plate 16-3 through threads, and the X-direction three-pin positioning pin 16-2 is fixedly connected with the X-direction three-pin positioning pin mounting plate 16-3 through threads.

The Y-direction positioning pin 17 consists of a Y-direction positioning pin cylinder 17-1 and a Y-direction positioning pin 17-2; the Y-direction positioning pin cylinder 17-1 is fixedly connected with the Y-direction positioning pin 17-2 through threads.

The invention has the advantages that: make two pairs of rigidity compression rollers and a pair of elasticity compression roller finely tune the positioning and clamping with the wood window position in proper order through the double-end lead screw effect, the horizontal both sides removal simultaneously of a set of rigidity compression roller has improved wood window inside casing positioning and clamping precision of wood window bi-polar milling process to guarantee follow-up bi-polar milling process precision, and then improve the window leakproofness.

Drawings

FIG. 1 is an axonometric view of a positioning and clamping worktable for an inner frame of a wood window double-end composite finish-milling machine tool;

in the figure: 1. a frame; 2, installing a Y-direction positioning pin; 3.X-direction material pushing cylinder mounting plate; 4. a driving compression roller; 5. a passive compression roller; 6. a ball lifting screw is arranged on the press roll mounting plate; 7. a press roll mounting rack; 8. a bolt; 9. a guide shaft of the press roll mounting rack; 10.X is to pushing away the material cylinder; 11. moving the guiding rule; 12. a working platform; 13.X-direction single positioning pin 14, positioning pin cylinder mounting plate; 15. the movable guiding rule moves the power mounting plate; 16.x-direction three pin locating pins; and 17. Y-direction positioning pins.

Fig. 2 is an isometric view of the machine frame 1;

in the figure: 1-1, a lower ring beam of the frame; 1-2, upright post; 1-3. A cross beam; 1-4, mounting a ring beam; 1-5, installing a lower ring beam on the pressure roller; 1-6, installing an upright post on the compression roller; and 1-7, installing an upper ring beam on the press roll.

FIG. 3 is a front view of the active nip roll;

in the figure: 4-1, driving a roller motor; 4-2, connecting a driving compression roller motor with a cage; 4-3, driving a press roll coupler; 4-4, driving the compression roller shaft; 4-5, actively pressing rollers and rollers; 4-6, pressing roller movable frame; 4-7, driving the compression roller cylinder adapter; 4-8, driving a compression roller cylinder; 4-9, mounting a driving press roll; 4-10 active bearing seat.

FIG. 4 is a front view of the passive nip roll 5;

in the figure: 5-1, mounting a passive compression roller mounting plate; 5-2, a driven compression roller cylinder is pressed; 5-3, a driven compression roller and compression roller cylinder adapter; 5-4, bearing seats of the driven pressure roller; 5-5, a passive compression roller movable frame; 5-6, pressing the roll shaft by a driven press roll; 5-7, passive compression roller.

FIG. 5 is a schematic view of: a ball lifting screw shaft axis diagram of the press roller mounting plate is shown;

in the figure: 6-1, installing a ball lifting wire motor reducer assembly on the press roller; 6-2. Reducer output shaft; 6-3, coupling; 6-4. A ball screw elevator body; 6-5, moving the nut by the compression roller mounting frame; and 6-6, mounting a lead screw on the press roll mounting frame.

FIG. 6 is an isometric view of the movable guide;

in the figure: 11-1, moving a running rule motor; 11-2, moving a guiding rule base; 11-3, a leading screw supporting seat is arranged at the head end; 11-4, moving the guiding rule lead screw nut seat to move the guide rail; 11-5, moving the guiding rule lead screw nut seat to move the sliding block; 11-6, a tail end screw rod supporting seat; 11-7, moving a guiding rule lead screw; 11-8, moving a guiding rule lead screw nut; 11-9, moving the guiding rule auxiliary sliding block; 11-10, moving a guiding rule; a lead screw coupling 11-11 of a movable guiding rule motor; 11-12 move the output shaft of the guiding rule motor.

FIG. 7 is an isometric view of the movable guide;

in the figure: 12-1, a working platform; and 12-2, moving the guiding rule to move the auxiliary guide rail.

FIG. 8 is an elevation view of a single locating pin in the X direction;

in the figure: 13-1.X-direction single positioning pin cylinder; 13-2. X-direction single locating pin.

FIG. 9 is a front view of the X-direction kingpin;

in the figure: a 16-1.X-direction three-pin positioning pin cylinder; 16-2. X-direction three-pin positioning pin 16-2; and (4) mounting a 16-3. X-direction three-pin positioning pin mounting plate.

FIG. 10 is a front view of the Y-direction positioning pin:

in the figure: 17-1.Y-direction positioning pin cylinder; 17-2. Y-direction locating pin.

Detailed Description

The Y-direction positioning pin mounting plate is fixedly connected with the upright post bolt, the X-direction pushing cylinder mounting plate is fixedly connected with the compression roller mounting upright post bolt, the driving compression roller is fixedly connected with the compression roller mounting frame through a bolt, the driven compression roller is fixedly connected with the compression roller mounting frame through a bolt, a ball lifting screw of the compression roller mounting plate and a compression roller mounting upper ring beam bolt are fixedly connected with an opening in the middle of a compression roller mounting upper ring beam, the compression roller mounting frame is fixedly connected with a compression roller mounting frame moving nut bolt, a compression roller mounting frame guide shaft and the compression roller mounting frame are movably assembled along the axial direction of the compression roller mounting frame guide shaft, the compression roller mounting frame guide shaft and the compression roller mounting upper ring beam are fixedly connected on a boss arranged on the compression roller mounting upper ring beam through threads, the X-direction pushing cylinder is fixedly connected with the X-direction pushing cylinder mounting plate through bolts, the movable guiding rule base is fixedly connected with the movable guiding rule movable power mounting plate through bolts, the movable guiding rule auxiliary sliding block and the movable guiding rule movable auxiliary guide rail are assembled in a sliding mode, the working platform is connected with the upper ring beam through bolts, the X-direction single positioning pins are all in number, the X-direction single positioning pins are fixedly connected with the positioning pin cylinder mounting plate through bolts, the positioning pin cylinder mounting plate is fixedly connected with the stand column through bolts, the guiding rule movable power mounting plate is fixedly connected with the stand column through bolts, the X-direction three-pin positioning pins are fixedly connected with the positioning pin cylinder mounting plate through bolts, and the Y-direction positioning pins are fixedly connected with the Y-direction positioning pin mounting plate through bolts. Stand and frame lower collar tie beam bolt fixed connection, the stand is total individual, and two stands pass through bolt fixed connection with the crossbeam, and the stand is total individual, goes up collar tie beam and stand upper end bolt fixed connection, and pressure roller installation lower collar tie beam and frame lower collar tie beam bolt fixed connection, compression roller installation stand and pressure roller installation lower collar tie beam bolt fixed connection, and the collar tie beam is installed with a compression roller to compression roller installation stand bolt fixed connection, and the collar tie beam is equipped with two bosss on the compression roller installation, threaded hole and compression roller mounting bracket guiding axle pass through thread fixed connection on the boss, and the collar tie beam mid portion is equipped with the opening on the compression roller installation, opening and compression roller mounting panel ball lift screw fixed connection. Initiative compression roller motor and initiative compression roller motor connect cage bolt fixed connection, initiative compression roller motor connects cage and compression roller adjustable shelf bolt fixed connection, the output shaft and the initiative compression roller rod of initiative compression roller motor pass through initiative compression roller coupling joint, initiative compression roller shaft and initiative compression roller rod key-type connection, the rotatable assembly of compression roller adjustable shelf and initiative compression roller cylinder adaptor, initiative compression roller cylinder adaptor passes through thread fixed connection with initiative compression roller cylinder, initiative compression roller cylinder passes through bolt fixed connection with initiative compression roller mounting panel, initiative compression roller mounting panel and driving shaft bearing bolt fixed connection. Passive compression roller cylinder and passive compression roller mounting panel bolt fixed mounting, passive compression roller cylinder adaptor passes through screw thread fixed connection with passive compression roller cylinder, passive compression roller bearing frame and passive compression roller mounting panel bolt fixed connection, passive compression roller bearing frame and the rotatable assembly of passive compression roller bearing frame, the rotatable assembly of passive compression roller bearing frame and passive compression roller bearing frame, the rotatable assembly of passive compression roller shaft, passive compression roller shaft passes through the key-type connection with passive compression roller rod. The motor reducer assembly is fixedly connected with the reducer output shaft through a key, the input shaft of the ball screw elevator body is fixedly connected with the reducer output shaft through a coupler, the ball screw elevator body is rotatably connected with the compression roller mounting rack screw key, and the compression roller mounting rack moving nut is rotatably connected with the compression roller mounting rack screw through a screw thread. Remove the guiding rule motor and remove guiding rule base bolt fixed connection, head end lead screw support is sat and is removed guiding rule base bolt fixed connection, remove guiding rule screw nut and sit movable guide and remove guiding rule base bolt fixed connection, remove guiding rule screw nut and sit movable guide slidable assembly with removing guiding rule screw nut, terminal lead screw support is sat and is removed guiding rule base bolt fixed connection, it sits and terminal lead screw support with head end lead screw to remove the guiding rule lead screw and sit rotatable assembly, remove guiding rule screw nut and remove the rotatable assembly of guiding rule lead screw nut, remove guiding rule auxiliary sliding block and remove guiding rule bolt fixed connection, remove guiding rule and remove guiding rule lead screw nut bolt fixed connection, remove guiding rule motor output shaft and remove the guiding rule lead screw through removing guiding rule motor lead screw shaft coupling fixed connection. The working platform is provided with an X-direction single positioning pin telescopic hole, an X-direction three-pin positioning pin telescopic square hole, a Y-direction positioning pin hole and a movable guiding ruler movable auxiliary guide rail mounting groove, four threaded holes are formed in four corners of the working platform, and the movable guiding ruler movable auxiliary guide rail is fixedly connected with the working platform through bolts. The X-direction single positioning pin cylinder is fixedly connected with the X-direction single positioning pin through threads. The X-direction three-pin positioning pin cylinder is fixedly connected with the X-direction three-pin positioning pin mounting plate through threads, and the X-direction three-pin positioning pin is fixedly connected with the X-direction three-pin positioning pin mounting plate through threads. And the Y-direction positioning pin cylinder is fixedly connected with the Y-direction positioning pin through threads.

When the X-direction single positioning pin 13-2 and the X-direction three-pin positioning pin 16-2 work, the X-direction single positioning pin and the X-direction three-pin positioning pin are in a falling state and are positioned below the working platform. And the Y-direction positioning pin cylinder 17-1 is in a rising state and is positioned above the working platform. The movable guiding rule 11 determines the position of the movable guiding rule 11-10 according to the size of the processed wooden window. The Y-direction movement of the wooden window stops when the Y-direction movement meets the Y-direction positioning pin 17-2. And after the wood window passes through the X-direction single positioning pin 13-2 and the X-direction three-pin positioning pin 16-2, the X-direction single positioning pin cylinder 13-1 and the X-direction three-pin positioning pin cylinder 16-1 are inflated to push the X-direction single positioning pin 13-2 and the X-direction three-pin positioning pin 16-2 to rise. And the X-direction material pushing cylinder 10 acts to push the outer side X of the wood window to move reversely until the wood window is pushed to the inner side of the wood window to be aligned with the X-direction single positioning pin 13-2 and the X-direction three-pin positioning pin 16-2, and at the moment, inner side centering is completed. The pressure roller mounting plate ball lifting wire motor reducer assembly 6-1 starts to work to drive the pressure roller mounting frame movable nut 6-5 to move downwards and drive the pressure roller mounting frame 7 to move downwards, so that the driving pressure roller 4 and the driven pressure roller 5 move downwards, and when the driving pressure roller 4-5 and the driven pressure roller 5-7 are pressed against the upper surface of the wooden window to stop, the pressure roller mounting plate ball lifting wire motor reducer assembly 6-1 stops working. The X-direction single positioning pin 13-2 and the X-direction three-pin positioning pin 16-2 fall down and the Y-direction positioning pin 17-2 falls down. And the driving compression roller motor 4-1 starts to work to drive the driving compression roller 4-5 to rotate, the driving compression roller 4-5 continuously moves in the Y direction through the friction force between the driving compression roller and the upper surface of the wooden window, the wooden window rises to the positioning pin 17-2 after passing through the Y-direction positioning pin 17-2, the work is finished, and the steps are continuously repeated to finish the positioning and clamping of the inner side of the next window.

Claims (1)

1. A positioning and clamping workbench for an inner frame of a composite finish-milling machine tool for both ends of a wood window; the device comprises a rack (1), a Y-direction positioning pin mounting plate (2), an X-direction pushing cylinder mounting plate (3), a driving compression roller (4), a driven compression roller (5), a compression roller mounting plate ball lifting screw (6), a compression roller mounting frame (7), a bolt (8), a compression roller mounting frame guide shaft (9), an X-direction pushing cylinder (10), a movable guiding rule (11), a working platform (12), an X-direction single positioning pin (13), a positioning pin cylinder mounting plate (14), a movable guiding rule movable power mounting plate (15), an X-direction three-pin positioning pin (16) and a Y-direction positioning pin (17); the Y-direction positioning pin mounting plate (2) is fixedly connected with an upright post (1-2) through a bolt, the X-direction pushing cylinder mounting plate (3) is fixedly connected with a press roll mounting upright post (1-6) through a bolt, a driving press roll (4) is fixedly connected with a press roll mounting frame (7) through a bolt (8), a driven press roll (5) is fixedly connected with the press roll mounting frame (7) through a bolt (8), a press roll mounting plate ball lifting screw (6) and the press roll mounting upper ring beam (1-7) are fixedly connected with an opening in the middle of the press roll mounting upper ring beam (1-7) through a bolt, the press roll mounting frame (7) is fixedly connected with a press roll mounting frame moving nut (6-5) through a bolt, a press roll mounting frame guide shaft (9) and the press roll mounting frame (7) are axially movably assembled along the press roll mounting frame guide shaft (9), the press roll mounting frame guide shaft (9) and the mounting frame upper ring beam (1-7) are fixedly connected with a boss arranged on the press roll mounting upper ring beam (1-7) through a thread, the X-direction pushing cylinder mounting plate (10) is fixedly connected with the X-direction pushing cylinder mounting plate (3) through a bolt, a movable guide rail base (11-2) is fixedly connected with a movable guiding block (11-2) and a movable guiding ruler assembly sliding ruler auxiliary sliding block (11-2) and a guiding block (11-movable guiding block (11-2) and a guiding block assembly auxiliary guiding block (12), the working platform (12) is connected with the upper ring beam (1-4) through bolts, 3X-direction single positioning pins (13) are arranged, the X-direction single positioning pins (13) are fixedly connected with positioning pin cylinder mounting plates (14) through bolts, the positioning pin cylinder mounting plates (14) are fixedly connected with the upright columns (1-2) through bolts, the guiding rule moving power mounting plate (15) is fixedly connected with the upright columns (1-2) through bolts, the X-direction three-pin positioning pins (16) are fixedly connected with the positioning pin cylinder mounting plates (14) through bolts, and the Y-direction positioning pins (17) are fixedly connected with the Y-direction positioning pin mounting plates (2) through bolts.

Images