CN217991065U - Double-tool rest mechanism for horizontal type dadoing machine - Google Patents

Abstract

A double-tool rest mechanism for a horizontal type dadoing machine relates to the technical field of plate processing machinery, wherein front tool rest guide rails are fixed on two side walls inside a front tool rest base plate; a front tool rest transmission top plate is fixed at the upper end of the front tool rest bottom plate; the front tool rest bottom plate is fixed on the front side wall of the rear tool rest sliding seat in the rear tool rest; the front tool rest sliding seat is arranged between the two front tool rest guide rails in a vertically sliding manner; the front knife rest knife box is connected with a horizontal movement guide rail of the front knife box in a sliding mode through a guide rail sliding block of a front knife box connecting plate, the front knife rest knife box is connected with a transmission screw rod of the front knife box through a connecting plate on the upper portion of the front knife rest knife box, one end of the transmission screw rod of the front knife box is connected with the output end of a speed reducer, the speed reducer is fixed on the side wall of a track fixing bottom plate through a speed reducer base, and the input end of the speed reducer is connected with the output end of a servo motor of the front knife box. The planing groove processing of a group of or double groups of V-shaped grooves is carried out simultaneously when single reciprocating motion is realized, the depth of adjacent groove types can be independently controlled, and the production efficiency is effectively improved.

Description

Double-tool rest mechanism for horizontal type dadoing machine

Technical Field

The utility model relates to a panel processing machinery technical field, concretely relates to horizontal dadoing machine double knives frame mechanism.

Background

When the traditional horizontal keyway planer is carrying out the keyway planer and adds man-hour, the crossbeam single can only carry out single cell type processing toward covering the motion behind the knife rest location, and current manufacturing procedure, technology are time-consuming, and work efficiency is low relatively, can not realize the crossbeam single and carry out the processing technology of double flute or multislot simultaneously toward covering the motion.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a horizontal for keyway planer double tool rest mechanism, realize that the single carries out the keyway processing of a set of or two group V grooves simultaneously when covering the motion, and the degree of depth of adjacent cell type can independent control, can realize high accuracy, high-quality keyway processing on original process equipment, easy operation, more effectual improvement production efficiency.

In order to achieve the above purpose, the utility model adopts the following technical proposal: the back surface of the rear tool rest is arranged on a transmission linear guide rail in the planing mechanism in the horizontal planing machine in a sliding way by utilizing a guide rail sliding block; the front tool rest is arranged on the front side of the rear tool rest; the front blade carrier includes:

the front tool rest base plate is characterized in that front tool rest guide rails are fixed on two side walls in the front tool rest base plate; a front tool rest transmission top plate is fixed at the upper end of the front tool rest bottom plate; the front tool rest bottom plate is fixed on the front side wall of the rear tool rest sliding seat in the rear tool rest;

the front tool rest sliding seat is arranged between the two front tool rest guide rails in a vertically sliding manner;

the front servo motor is fixed on the front tool rest transmission top plate by using a front motor base, the output end of the front servo motor is connected with a front tool rest sliding seat screw rod by using a front coupler, the front tool rest sliding seat screw rod is in transmission connection with a front screw rod nut, and the front screw rod nut is connected with the top of the front tool rest sliding seat by using a front nut connecting plate;

the rail fixing bottom plate is fixed on the front side of the bottom of the front tool rest sliding seat;

the two front knife box horizontal moving guide rails are symmetrically fixed at the bottom of the rail fixing bottom plate;

the front knife rest knife box is connected on a horizontal movement guide rail of the front knife box in a sliding mode through a guide rail slide block of a front knife box connecting plate, the front knife rest knife box is connected with a transmission screw rod of the front knife box through a connecting plate at the upper part of the front knife rest knife box, one end of the transmission screw rod of the front knife box is connected with the output end of a speed reducer, the speed reducer is fixed on the side wall of a track fixing bottom plate through a speed reducer base, and the input end of the speed reducer is connected with the output end of a servo motor of the front knife box;

the front grooving cutter bars are a plurality of and are fixed on the front cutter rest cutter box by utilizing front cutter bar pressing blocks.

Preferably, a plurality of reinforcing plates are fixed between the rail fixing bottom plate and the front tool rest sliding seat.

Preferably, a side wall of the front tool rest base plate is connected with a plurality of front tool rest adjusting screws, and the front tool rest adjusting screws penetrate through the side wall of the front tool rest base plate and then are abutted against the front tool rest guide rail on one side of the front tool rest base plate.

Preferably, the rear blade holder further comprises:

the rear tool rest sliding seat is arranged between the two rear tool rest guide rails in a vertically sliding manner; a rear knife rest top plate is fixed at the upper end of the rear knife rest bottom plate; the nut connecting seat and the guide rail sliding block are fixed on the back surface of the rear tool rest bottom plate;

the rear servo motor is fixed on the rear tool rest top plate by using a rear motor base, the output end of the rear servo motor is connected with a rear tool rest sliding seat screw rod by using a rear coupler, the rear tool rest sliding seat screw rod is in transmission connection with a rear screw rod nut, and the rear screw rod nut is connected with the top of the rear tool rest sliding seat by using a rear nut connecting plate;

the rear knife rest knife box is fixed at the bottom of the rear knife rest sliding seat;

and the rear grooving cutter bars are a plurality of and are fixed on the rear cutter rest cutter box by utilizing rear cutter bar pressing blocks.

Preferably, a side wall of the rear tool rest base plate is connected with a plurality of rear tool rest adjusting screws, and the rear tool rest adjusting screws penetrate through the side wall of the rear tool rest base plate and then are abutted against the rear tool rest guide rail on one side of the rear tool rest base plate.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a double knives frame mechanism for horizontal dadoing machine carries out the dadoing processing of a set of or two group V grooves simultaneously when realizing the single toward the motion that covers, and the degree of depth of adjacent cell type can independent control, can realize high accuracy, high-quality dadoing processing on original process equipment, easy operation, more effectual improvement production efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a left side view of fig. 2.

Fig. 4 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A in fig. 3.

Fig. 5 is a sectional view taken along line B-B in fig. 3.

Fig. 6 is a bottom view of the present invention.

Description of reference numerals:

the rear tool rest comprises a rear tool rest 1, a rear tool rest sliding seat 1-1, a rear tool rest bottom plate 1-2, a rear tool rest guide rail 1-3, a rear screw rod nut 1-4, a rear nut connecting plate 1-5, a rear coupler 1-6, a rear tool rest sliding seat screw rod 1-7, a rear tool rest tool box 1-8, a rear motor seat 1-9, a rear tool rest adjusting screw 1-10, a rear tool rest pressing block 1-11, a rear servo motor 1-12, a rear tool rest top plate 1-13, a rear planning tool rest 1-14, a front tool rest 2, a front tool rest sliding seat 2-1, a front tool rest bottom plate 2-2, a front tool rest guide rail 2-3, a track fixing bottom plate 2-4, a front tool rest servo motor 2-5, a speed reducer 2-6 2-7 parts of a speed reducer base, 2-8 parts of a front tool rest tool box, 2-9 parts of a front tool box transmission screw rod, 2-10 parts of a front tool box connecting plate guide rail slide block, 2-11 parts of a front tool box horizontal motion guide rail, 2-12 parts of a front servo motor, 2-13 parts of a front tool rest transmission top plate, 2-14 parts of a front grooving tool bar, 2-15 parts of a front tool bar pressing block, 2-16 parts of a front tool apron adjusting screw, 2-17 parts of a front motor base, 2-18 parts of a front coupler, 2-19 parts of a front tool rest slide block screw rod, 2-20 parts of a front nut connecting plate, 2-21 parts of a front screw rod nut, 2-22 parts of a reinforcing plate, a nut connecting seat 3, a transmission ball screw rod 4, a transmission linear guide rail 5 and a guide rail slide block 6.

Detailed Description

In the following, the technical solutions of the present invention will be clearly and completely described with reference to the accompanying drawings, and the preferred embodiments in the description are only examples, and all other embodiments obtained by those skilled in the art without any inventive work belong to the scope of the present invention.

As shown in fig. 1 to fig. 6, the following technical solutions are adopted in the present embodiment: the back tool rest comprises a back tool rest 1 and a front tool rest 2, wherein the back tool rest 1 is movably connected to a transmission ball screw 4 in a planing mechanism in a horizontal planing machine by a nut connecting seat 3, and the back surface of the back tool rest 1 is slidably arranged on a transmission linear guide rail 5 in the planing mechanism in the horizontal planing machine by a guide rail slide block 6; the front tool rest 2 is arranged on the front side of the rear tool rest 1; the front blade holder 2 comprises:

the inner side walls of the two side walls of the front tool rest base plate 2-2 are respectively fixed with a front tool rest guide rail 2-3 of which the inner side surface is in a dovetail groove structure; a plurality of front tool apron adjusting screws 2-16 are connected to one side wall of the front tool apron bottom plate 2-2, and the front tool apron adjusting screws 2-16 penetrate through the side wall of the front tool apron bottom plate 2-2 and then are abutted against the front tool apron guide rail 2-3 on one side (used for adjusting the distance between the two front tool apron guide rails 2-3); a front knife rest transmission top plate 2-13 is fixed at the upper end of the front knife rest bottom plate 2-2; the front knife rest bottom plate 2-2 is fixed on the front side wall of the rear knife rest sliding seat 1-1 in the rear knife rest 1 by a connecting transverse plate;

the front tool rest slide 2-1 is arranged between the two front tool rest guide rails 2-3 by utilizing two vertical walls of a dovetail structure of the front tool rest slide 2-1 to slide up and down;

the front servo motor 2-12 is fixed on a front tool rest transmission top plate 2-13 through a front motor base 2-17, the output end of the front servo motor is connected with a front tool rest sliding base screw rod 2-19 through a front coupling 2-18, the front tool rest sliding base screw rod 2-19 is in transmission connection with a front screw rod nut 2-21, and the front screw rod nut 2-21 is connected with the top of a front tool rest sliding base 2-1 through a front nut connecting plate 2-20;

the rail fixing bottom plate 2-4 is fixed on the front side of the bottom of the front tool rest sliding seat 2-1, and two reinforcing plates 2-22 are fixed between the rail fixing bottom plate 2-4 and the front tool rest sliding seat 2-1;

the two front knife box horizontal movement guide rails 2-11 are symmetrically fixed at the bottom of the rail fixing bottom plate 2-4;

the front knife rest and knife box comprises front knife rest and knife box bodies 2-8, wherein the front knife rest and knife box bodies 2-8 are connected to a horizontal movement guide rail 2-11 of the front knife rest and knife box bodies 2-8 through a front knife box connecting plate guide rail slide block 2-10 in a sliding mode, the front knife rest and knife box bodies 2-8 are connected with a front knife box transmission screw rod 2-9 through a connecting plate on the upper portion of the front knife rest and knife box body, one end of the front knife box transmission screw rod 2-9 is connected with the output end of a speed reducer 2-6 (a screw rod nut on the front knife box transmission screw rod 2-9 is connected with a connecting plate on the front knife rest and knife box body 2-8, two ends of the front knife box transmission screw rod 2-9 are fixed to the bottom of a track fixing bottom plate 2-4 through a screw rod seat), the speed reducer 2-6 is fixed to the side wall of the track fixing bottom plate 2-4 through a speed reducer base 2-7, and the input end of the speed reducer 2-6 is connected with the output end of a front knife box servo motor 2-5;

the front grooving tool bars 2-14 are provided with a plurality of front grooving tool bars 2-14, and are fixed on the front tool rest tool boxes 2-8 by using front tool bar pressing blocks 2-15.

Preferably, the rear blade holder 1 further comprises:

the rear tool rest comprises a rear tool rest bottom plate 1-2, rear tool rest guide rails 1-3 with dovetail groove structures on the inner side surfaces are fixed on the two inner side walls of the rear tool rest bottom plate 1-2, the rear tool rest sliding seat 1-1 is arranged between the two rear tool rest guide rails 1-3 in a vertically sliding mode through two vertical walls of the dovetail structure, a plurality of rear tool rest adjusting screws 1-10 are connected to one side wall of the rear tool rest bottom plate 1-2, and the rear tool rest adjusting screws 1-10 penetrate through the side wall of the rear tool rest bottom plate 1-2 and then are abutted to the rear tool rest guide rails 1-3 on one side of the rear tool rest bottom plate (used for adjusting the distance between the two rear tool rest guide rails 1-3); a rear knife rest top plate 1-13 is fixed at the upper end of the rear knife rest bottom plate 1-2; the nut connecting seat 3 and the guide rail sliding block 6 are fixed on the back of the rear tool rest bottom plate 1-2;

a rear servo motor 1-12, wherein the rear servo motor 1-12 is fixed on a rear tool rest top plate 1-13 by using a rear motor base 1-9, the output end of the rear servo motor is connected with a rear tool rest sliding seat screw rod 1-7 by using a rear coupling 1-6, the rear tool rest sliding seat screw rod 1-7 is in transmission connection with a rear screw rod nut 1-4, and the rear screw rod nut 1-4 is connected with the top of the rear tool rest sliding seat 1-1 by using a rear nut connecting plate 1-5;

the rear knife rest knife box 1-8 is fixed at the bottom of the rear knife rest sliding seat 1-1;

and a plurality of rear grooving tool bars 1-14 are arranged, and rear tool bar pressing blocks 1-11 are used for fixing the rear tool bar pressing blocks 1-14 on the rear tool rest tool boxes 1-8.

In the single-groove grooving process, a front cutter box servo motor 2-5 and a speed reducer 2-6 are operated to drive a front cutter box transmission screw rod 2-9 to rotate, so that under the guiding action of a front cutter box connecting plate guide rail slide block 2-10 and a front cutter box horizontal movement guide rail 2-11, a front cutter box 2-8 is driven to move to be in the same straight line with the left and right directions of a rear cutter box 1-8, and then a rear servo motor 1-12 is operated to drive a rear cutter frame slide rail screw rod 1-7 to rotate, so that under the guiding action of a rear cutter frame guide rail 1-3, a rear cutter frame slide seat 1-1 is driven to descend, so that a rear cutter frame 1 and a front cutter frame 2 are driven to descend simultaneously until a rear grooving cutter bar 1-14 and a front grooving cutter bar 2-14 are in contact with a plate, and grooving operation can be started;

in the specific embodiment, when double-groove grooving is carried out, a front cutter box servo motor 2-5 and a speed reducer 2-6 are used for working to drive a front cutter box transmission screw rod 2-9 to rotate, so that under the guiding action of a front cutter box connecting plate guide rail slide block 2-10 and a front cutter box horizontal movement guide rail 2-11, a front cutter box 2-8 is driven to move to be staggered with a rear cutter box 1-8 to the distance required by two V grooves, and then a rear servo motor 1-12 is used for working to drive a rear cutter frame slide rail screw rod 1-7 to rotate, so that under the guiding action of a rear cutter frame guide rail 1-3, a rear cutter frame slide 1-1 is driven to descend, and further, the rear cutter frame 1 and the front cutter frame 2 are driven to descend simultaneously until a rear grooving cutter bar 1-14 and a front grooving cutter bar 2-14 are in contact with a plate, and grooving operation can be started;

according to the specific embodiment, before the grooving operation, the front tool rest sliding seat screw rod 2-7 is driven to rotate through the work of the front servo motor 2-12 according to the depth of a required V groove, so that the front tool rest sliding seat 2-1 is driven to lift under the guiding action of the front tool rest guide rail 2-3, the front grooving tool bar 2-14 and the rear grooving tool bar 1-14 are adjusted to be vertically staggered, and the grooving operation with different depths of double groups of V grooves can be realized.

Compared with the prior art, the beneficial effects of the embodiment are as follows:

1. the front tool rest and the rear tool rest are matched to realize that one or two groups of V-shaped grooves are planed and processed simultaneously during one reciprocating motion;

2. the front tool rest slide seat is independently controlled to move up and down by a front servo motor in the front tool rest, so that the depth adjustment of adjacent groove types is realized, and the independent control of different depths of adjacent V grooves is met;

3. the method can realize high-precision and high-quality grooving on the original process equipment, is simple to operate, and more effectively improves the production efficiency.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (5)

1. A double-tool-holder mechanism for a horizontal planing machine comprises a rear tool holder (1) and a front tool holder (2), wherein the rear tool holder (1) is movably connected to a transmission ball screw (4) in a planing mechanism in the horizontal planing machine through a nut connecting seat (3), and the back of the rear tool holder (1) is arranged on a transmission linear guide rail (5) in the planing mechanism in the horizontal planing machine in a sliding mode through a guide rail sliding block (6); the method is characterized in that: the front tool rest (2) is arranged on the front side of the rear tool rest (1); the front blade holder (2) comprises:

the front knife rest base plate (2-2), two side walls inside the front knife rest base plate (2-2) are both fixed with front knife rest guide rails (2-3); a front knife rest transmission top plate (2-13) is fixed at the upper end of the front knife rest bottom plate (2-2); the front tool rest bottom plate (2-2) is fixed on the front side wall of the rear tool rest sliding seat (1-1) in the rear tool rest (1);

the front tool rest sliding seat (2-1), the front tool rest sliding seat (2-1) is arranged between the two front tool rest guide rails (2-3) in a vertically sliding manner;

the front servo motors (2-12) are fixed on the front tool rest transmission top plates (2-13) by front motor bases (2-17), the output ends of the front servo motors are connected with front tool rest sliding seat screw rods (2-19) by front couplers (2-18), the front tool rest sliding seat screw rods (2-19) are connected with front screw rod nuts (2-21) in a transmission mode, and the front screw rod nuts (2-21) are connected with the tops of the front tool rest sliding seats (2-1) by front nut connecting plates (2-20);

the rail fixing bottom plate (2-4), the rail fixing bottom plate (2-4) is fixed on the front side of the bottom of the front tool rest sliding seat (2-1);

the two front knife box horizontal moving guide rails (2-11) are symmetrically fixed at the bottom of the rail fixing bottom plate (2-4);

the front knife rest knife box (2-8) is connected to a horizontal movement guide rail (2-11) of the front knife box in a sliding mode through a front knife box connecting plate guide rail sliding block (2-10), the front knife rest knife box (2-8) is connected with a front knife box transmission screw rod (2-9) through a connecting plate on the upper portion of the front knife box transmission screw rod, one end of the front knife box transmission screw rod (2-9) is connected with the output end of a speed reducer (2-6), the speed reducer (2-6) is fixed to the side wall of a track fixing bottom plate (2-4) through a speed reducer base (2-7), and the input end of the speed reducer (2-6) is connected with the output end of a front knife box servo motor (2-5);

the front grooving tool bars (2-14) are provided with a plurality of front grooving tool bars (2-14), and front tool bar pressing blocks (2-15) are used for fixing the front grooving tool bars on the front tool rest tool boxes (2-8).

2. The double-cutter frame mechanism for the horizontal type dadoing machine as claimed in claim 1, wherein: a plurality of reinforcing plates (2-22) are fixed between the rail fixing bottom plate (2-4) and the front tool rest sliding seat (2-1).

3. The double head mechanism for a horizontal router of claim 1, wherein: a plurality of front tool apron adjusting screws (2-16) are connected to one side wall of the front tool rest base plate (2-2), and the front tool apron adjusting screws (2-16) penetrate through the side wall of the front tool rest base plate (2-2) and then are abutted to the front tool rest guide rail (2-3) on one side.

4. The double head mechanism for a horizontal router of claim 1, wherein: the rear tool holder (1) further comprises:

the rear knife rest sliding seat is characterized by comprising a rear knife rest bottom plate (1-2), rear knife rest guide rails (1-3) are fixed on two side walls in the rear knife rest bottom plate (1-2), and the rear knife rest sliding seat (1-1) is arranged between the two rear knife rest guide rails (1-3) in a vertically sliding mode; a rear knife rest top plate (1-13) is fixed at the upper end of the rear knife rest bottom plate (1-2); the nut connecting seat (3) and the guide rail sliding block (6) are fixed on the back of the rear tool rest bottom plate (1-2);

the rear servo motor (1-12) is fixed on a rear tool rest top plate (1-13) through a rear motor base (1-9), the output end of the rear servo motor is connected with a rear tool rest sliding seat screw rod (1-7) through a rear coupler (1-6), the rear tool rest sliding seat screw rod (1-7) is in transmission connection with a rear screw rod nut (1-4), and the rear screw rod nut (1-4) is connected with the top of the rear tool rest sliding seat (1-1) through a rear nut connecting plate (1-5);

the rear knife rest knife box (1-8), the rear knife rest knife box (1-8) is fixed at the bottom of the rear knife rest sliding seat (1-1);

the rear grooving tool bars (1-14) are provided with a plurality of rear grooving tool bars (1-14), and rear tool bar pressing blocks (1-11) are fixed on the rear tool rest tool boxes (1-8).

5. The double head mechanism for a horizontal router of claim 4, wherein: and a plurality of rear tool apron adjusting screws (1-10) are connected to one side wall of the rear tool rest bottom plate (1-2), and the rear tool apron adjusting screws (1-10) penetrate through the side wall of the rear tool rest bottom plate (1-2) and then are abutted against the rear tool rest guide rail (1-3) on one side.

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