CN211516296U - High-efficient door facings door frame groover - Google Patents

Abstract

The utility model provides a high-efficient door facings door frame groover belongs to the processing technology field of door facings door frame. The grooving machine solves the problems that the position of a door surface needs to be adjusted when grooves in different directions are formed in the existing grooving machine, and the working efficiency is low. The utility model discloses a lathe bed, workstation and crossbeam are equipped with a plurality of can follow horizontal X to round trip movement's aircraft nose on the crossbeam, all are equipped with one on each aircraft nose and can follow vertical Z to the knife rest of round trip movement, are equipped with the fluting sword that corresponds on each knife rest, and each aircraft nose homogeneous correspondence has an X to actuating mechanism, and X corresponds the aircraft nose to actuating mechanism drive along X to round trip movement. The utility model has the advantages of be equipped with a plurality of aircraft noses, can install the slotting tool of different fluting directions, work efficiency is high.

Description

High-efficient door facings door frame groover

Technical Field

The utility model belongs to the technical field of the shop front door frame processing equipment, relate to the groover, in particular to high-efficient shop front door frame groover.

Background

In the production and processing process of the existing door surface, the door surface needs to be grooved, and the process is usually completed by a grooving machine. Need set up a plurality of grooves sometimes on same shop front, grooved direction also can be inequality, and current groover when slotting to the shop front, to the groove of opening not equidirectional, all need adjust the position of shop front behind the fluting at every turn and carry out the fluting that commutates, troublesome poeration, inefficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned defect that current groover exists, and the slotting tool that can install different fluting directions on being equipped with a plurality of aircraft nose, each aircraft nose that provides can be in order to realize not adjusting the door face position can open the door frame groover in the groove of equidirectional not.

The purpose of the utility model can be realized by the following technical proposal:

a high-efficiency door frame grooving machine comprises a machine body, a workbench arranged on the machine body and a cross beam stretching over the machine body, wherein the cross beam can move back and forth relative to the machine body along a horizontal Y direction, a plurality of machine heads capable of moving back and forth along a horizontal X direction are further arranged on the cross beam, a tool rest capable of moving back and forth along a vertical Z direction is arranged on each machine head, a corresponding grooving cutter is arranged on each tool rest, each machine head is correspondingly provided with an X-direction driving mechanism, and the X-direction driving mechanism drives the corresponding machine head to move back and forth along the X direction.

In the efficient door frame grooving machine, the grooving cutters on the machine heads have different target grooving directions.

In the efficient door frame slotting machine, the corresponding slotting tools on the tool rests are provided with a plurality of handles, the plurality of slotting tools are sequentially arranged along the corresponding target slotting direction, and the cutting depths of the plurality of slotting tools along the corresponding target slotting direction are gradually increased.

In the above mentioned high efficiency door frame grooving machine, the X direction and the Y direction are perpendicular to each other.

The slotting cutters on the machine heads are respectively used for slotting in different directions, the slotting efficiency is high, and the door surface does not need to be manually adjusted, so that the door surface only needs to be clamped once; the cutting depth of a plurality of slotting tools on each machine head along the target slotting direction is gradually increased, the tool rest moves once, slotting can be in place, and the slotting efficiency is high.

In foretell high-efficient door facings door frame groover, the aircraft nose is equipped with two, and two aircraft noses set gradually and establish respectively in the both sides of above-mentioned crossbeam along above-mentioned Y to. The machine heads are respectively arranged at two sides of the cross beam, and the movement is not interfered with each other.

In the efficient door frame slotting machine, the two tool rests are divided into the X-direction tool rest and the Y-direction tool rest, the target slotting direction corresponding to the slotting tool on the X-direction tool rest is consistent with the X-direction, and the target slotting direction corresponding to the slotting tool on the Y-direction tool rest is consistent with the Y-direction. And the slotting cutter on the X-direction knife rest moves to slot along the X direction through the machine head, and the slotting cutter on the Y-direction knife rest moves to slot along the Y direction through the cross beam.

In the efficient door frame grooving machine, the machine head is provided with a Z-direction driving mechanism for driving the corresponding tool rest to move back and forth along the Z direction, and the machine body is provided with a Y-direction driving mechanism for driving the cross beam to move back and forth along the Y direction.

In the above-mentioned high-efficient door facings door frame groover, X is to actuating mechanism, Y to actuating mechanism and Z to actuating mechanism and be ball screw pair and motor, and the motor of two X to actuating mechanism is established respectively at the both ends of crossbeam. The roller lead screw pair has high transmission precision and high slotting progress, and the motors of the two X-direction driving mechanisms are respectively arranged at the two ends of the cross beam, so that the two ends of the cross beam have symmetrical weight and are stressed uniformly.

In the efficient door frame grooving machine, the plurality of grooving cutters on the same cutter frame are sequentially arranged at equal intervals along the corresponding target grooving direction.

In the efficient door frame grooving machine, three grooving cutters are arranged on one cutter frame.

In foretell a high-efficient door frame groover, set up the mounting groove with the necking tool one-to-one on the knife rest, the mounting groove is unanimous with the extending direction of necking tool, and a mounting groove side slope is equipped with the tapered wedge that sticiss the necking tool in the mounting groove.

In foretell high-efficient door facings door frame groover, the fluting knife sets up on the leading flank who corresponds the aircraft nose, and the installation of the fluting knife of being convenient for is arranged on the leading flank of aircraft nose.

Compared with the prior art, the cross beam of the utility model is provided with a plurality of machine heads with different slotting directions, so slotting in different directions of the facade can be completed without manually adjusting the position of the facade, the facade only needs to be clamped once, the slotting efficiency is high, and the automation degree is high; the cutting depth of the slotting cutter on the same cutter rest gradually increases along the target slotting direction, and the cutter rest can be moved once to slot in place, so that the slotting efficiency is high.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of another angle of the present invention.

In the figure, 1, a lathe bed; 2. a work table; 3. a cross beam; 4. a machine head; 5. an X-direction tool rest; 6. a Y-direction tool rest; 7. an extension plate; 8. a slotting cutter.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 2, the utility model provides a pair of high-efficient door frame groover, including lathe bed 1, set up workstation 2 on lathe bed 1 and span crossbeam 3 on lathe bed 1. The grooving machine is provided with a three-dimensional coordinate system which is respectively in an X direction, a Y direction and a Z direction, wherein the X direction and the Y direction are both horizontal directions and are mutually vertical, the Z direction is a vertical direction, a cross beam 3 is arranged on a machine body 1 in a sliding manner through two groups of linear guide rails, and the cross beam 3 can move back and forth (namely move back and forth) along the Y direction under the driving of a Y-direction driving mechanism; the front side and the rear side of the beam 3 are respectively provided with a machine head 4, the two machine heads 4 are respectively arranged on the beam 3 in a sliding manner through a group of linear guide rails, the machine heads 4 can move back and forth (namely move left and right) along the X direction under the driving of an X-direction driving mechanism, the X-direction driving mechanism is provided with two machine heads which correspond to the machine heads 4 one by one, namely each machine head 4 is driven independently; each machine head 4 is provided with a knife rest which is arranged on the machine head 4 in a sliding way, and the knife rest can move back and forth (i.e. move up and down) along the Z direction under the driving of a Z-direction driving mechanism.

The X-direction driving mechanism, the Y-direction driving mechanism and the Z-direction driving mechanism are all ball screw pairs and motors, each ball screw pair comprises a screw rod and a nut arranged on the screw rod, the motors drive the screw rods to rotate, and the motors of the two X-direction driving mechanisms are respectively arranged at two ends of the cross beam 3.

Two knife rests divide into X to knife rest 5 and Y to knife rest 6, the knife rest that is located crossbeam 3 front side is Y to knife rest 6, Y is equipped with a extension board 7 that stretches out forward on to knife rest 6, be equipped with a plurality of slotting tools 8 (as shown in the figure slotting tool 8 is 3, the quantity of slotting tool 8 sets up according to the once-through stock removal of the total degree of depth that needs the fluting and slotting tool 8) on one side of extension board 7, a plurality of slotting tools 8 are along Y to equidistance interval arrangement in proper order, and the cutting depth of each slotting tool 8 along the fluting direction increases progressively, Y is to the knife rest 6 along Y to once removal in-process, each slotting tool 8 all cuts once, can realize once slotting and target in place.

The knife rest that is located crossbeam 3 rear side is X to knife rest 5, is equipped with a plurality of necking tool 8 to knife rest 5 on the X (as shown in the figure, necking tool 8 is 3 equally, and the quantity of necking tool 8 sets up according to the total depth of the fluting that needs and the once cutting volume of necking tool 8), and a plurality of necking tool 8 are along X to equidistance interval arrangement in proper order, and the cutting depth of each necking tool 8 along the fluting direction increases progressively, can realize once slotting and target in place on the same way.

Offer the mounting groove with 8 one-to-ones of slotting tool on the knife rest, be provided with the tapered wedge who has the inclined plane in each mounting groove respectively, a lateral wall of mounting groove is vertical to be set up, another lateral wall slope and tapered wedge's inclined plane phase-match, slotting tool 8 one side is leaned on the vertical lateral wall of mounting groove, the tapered wedge is located between the inclined plane of slotting tool 8 and mounting groove, one side inclined plane of tapered wedge leans on with the inclined plane of mounting groove, the opposite side leans on the opposite side of slotting tool 8, the tapered wedge can sticis slotting tool 8 on the vertical inner wall of mounting groove to the tank bottom motion process of mounting groove, the tapered wedge passes through fasteners such as screw and fixes on the.

The working process is as follows: for example, when it is desired to open the slot in the X direction, the beam 3 moves in the Y direction, the machine head 4 on the rear side moves in the X direction, the X-direction tool rest 5 moves downward so that the highest-positioned slotting tool 8 is in contact with the workpiece and is located at the starting position where the slot is desired, and then the machine head 4 moves in the X direction to open the slot (the slotting tools 8 on the Y-direction tool rest 6 are not in contact with the door surface during the entire machining process).

It is to be understood that in the claims, the specification of the present invention, all "including … …" are to be interpreted in an open-ended manner, i.e. in a manner equivalent to "including at least … …", and not in a closed manner, i.e. in a manner not to be interpreted as "including … … only".

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (8)

1. The utility model provides a high-efficient shop front door frame groover, includes lathe bed (1), sets up workstation (2) on lathe bed (1) and stretches over crossbeam (3) on lathe bed (1), and crossbeam (3) can be relative lathe bed (1) along horizontal Y to round trip movement, its characterized in that, still be equipped with a plurality of aircraft noses (4) that can follow horizontal X to round trip movement on crossbeam (3), all be equipped with one on each aircraft nose (4) and follow vertical Z to the knife rest of round trip movement, be equipped with corresponding slotting tool (8) on each knife rest, each aircraft nose (4) homogeneous one-to-one has X to actuating mechanism, and X is to actuating mechanism drive corresponding aircraft nose (4) along X to round trip movement.

2. A high efficiency door jamb grooving machine as claimed in claim 1 wherein the target grooving direction for the grooving blade (8) on each head (4) is different.

3. A high efficiency door frame grooving machine as claimed in claim 2 wherein each tool holder has a plurality of respective grooving tools (8), the plurality of grooving tools (8) are arranged in series along a respective target grooving direction and the plurality of grooving tools (8) have progressively increasing depths of cut along the respective target grooving direction.

4. A high efficiency machine as claimed in claim 2 or 3, wherein there are two heads (4), and two heads (4) are arranged in sequence along the Y direction and are respectively arranged on both sides of the cross beam (3).

5. The high-efficiency door frame grooving machine according to claim 4, wherein the two tool rests are divided into an X-direction tool rest (5) and a Y-direction tool rest (6), the target grooving direction corresponding to the grooving tool (8) on the X-direction tool rest (5) is consistent with the X-direction, and the target grooving direction corresponding to the grooving tool (8) on the Y-direction tool rest (6) is consistent with the Y-direction.

6. A high-efficiency door frame grooving machine as claimed in claim 4, wherein the machine head (4) is provided with a Z-direction driving mechanism for driving a corresponding tool rest thereon to move back and forth along a Z-direction, and the machine body (1) is provided with a Y-direction driving mechanism for driving the cross beam (3) to move back and forth along a Y-direction.

7. A high-efficiency door frame grooving machine according to claim 4, wherein the X-direction driving mechanism, the Y-direction driving mechanism and the Z-direction driving mechanism are ball screw pairs and motors, and the motors of the two X-direction driving mechanisms are respectively arranged at two ends of the cross beam (3).

8. A high efficiency door frame groover according to any one of claims 1 to 3, characterized in that a plurality of grooving knives (8) on the same knife carriage are arranged in sequence at equal intervals along the corresponding target grooving direction.

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