CN111185683A - Laser head motion adjustment and compensation laser cutting machine - Google Patents

Abstract

The invention provides a laser head movement compensation laser cutting machine which structurally comprises a workbench, a laser head movement compensation device, a laser cutting machine head, a safety machine cover, a built-in illuminating lamp and a laser cutting machine frame, wherein the workbench is arranged in the laser cutting machine frame, the safety machine cover is movably connected with the laser cutting machine frame, the laser cutting machine can be used for configuring a supporting piece by utilizing the machine head for bearing the weight of the laser cutting machine head in a working state, the lubricating supply mechanism is pressed in the moving process, the lubricating rolling ball can be directly pressed into the internal release mechanism, in the process of pressing the elastic buckle piece, under the constraint of the oil feeding sealing mechanism, the lubricating oil carried by the elastic buckle piece keeps a stable amount, and is externally coated and cooled through rotation, furthermore, even if the rail moves on the transmission frame for a long time, the friction coefficient between the rail and the sliding head can be kept at a stable value through the constantly supplemented oil agent.

Description

Laser head motion adjustment and compensation laser cutting machine

Technical Field

The invention belongs to the field of transmission equipment, and particularly relates to a laser cutting machine with a laser head motion compensation function.

Background

Laser cutting machine is carrying out the in-process of precision cutting, because the procedure of precision cutting is comparatively complicated to the process time of work piece can be on the long side, adjusts and controls the position that the driving frame that laser cutting machine head memorability removed need adjust the position constantly, removes the regulation and control, carries out and just can ensure the finished product precision of precision cutting.

Based on the above description, the inventor finds that the existing laser head motion compensation laser cutting machine mainly has the following defects, for example:

because the laser cutting aircraft nose needs continuous removal, and moves the in-process for a long time on the driving frame, the coefficient of friction of its track and sliding head can increase gradually, and it produces the heat after rubbing, originally lies in and plays the lubricated finish of adjusting a dose and can consume with higher speed between the two to make track and sliding head produce the thermal coefficient of friction rise time gradually and shorten.

Disclosure of Invention

In order to solve the technical problems, the invention provides a laser head movement compensation laser cutting machine, which aims to solve the problems that the friction coefficient of a track and a sliding head is gradually increased in the long-time moving process of a transmission frame, heat generated after friction is performed on the track and the sliding head is quickly consumed by oil originally positioned between the track and the sliding head to adjust and lubricate, and the rising time of the friction coefficient of the track and the sliding head to generate heat is gradually shortened.

Aiming at the defects of the prior art, the invention discloses a laser cutting machine with a laser head movement compensation function, which is achieved by the following specific technical means: the utility model provides a laser head motion is transferred and is mended laser cutting machine, its structure includes that workstation, laser head motion are transferred and are mended device, laser cutting aircraft nose, safety cover, built-in light, laser cutting frame, inside the laser cutting frame was located to the workstation, safety cover is in the same place with laser cutting frame swing joint, the laser cutting aircraft nose is equipped with two altogether and all installs on laser head motion is transferred and is mended the device, built-in light fixed mounting is inside the laser cutting frame.

Laser head motion is transferred and is mended device includes the side bearer, is transferred and mended horizontal bar, aircraft nose configuration support piece, is joined in marriage the locking piece, the side bearer is equipped with two altogether and locates the transfer and mended horizontal bar left and right sides, the aircraft nose configuration support piece is installed inside the transfer and mended horizontal bar through the mode of embedding, join in marriage the locking piece every group and be equipped with two altogether and fixed mounting in both sides about the side bearer, the side bearer is in the same place through joining in marriage locking piece and laser cutting frame fixed connection.

Preferably, the adjusting and supplementing cross bar comprises a sliding groove, an inner partition plate, an oil cavity, a spacer bush and a lubricating and supplementing mechanism, the lubricating and supplementing mechanism is installed inside the inner partition plate in an embedded mode, the spacer bush and the inner partition plate are of an integrated structure, the oil cavity is formed in the spacer bush, the sliding groove and the spacer bush are of an integrated structure, the inside of the spacer bush is in a closed state through being combined with the lubricating and supplementing mechanism, and therefore the internal lubricating oil can be effectively subjected to flow sealing regulation and control.

Preferably, the lubricating and supplying mechanism comprises an internal release mechanism, a constraint elastic strip, a middle rotating shaft, a lubricating rolling ball and a separate plate, the separate plate is fixedly connected with the constraint elastic strip, the middle rotating shaft is installed inside the lubricating rolling ball in an embedded mode, the middle rotating shaft is connected with the constraint elastic strip, the internal release mechanism is fixedly installed on the internal partition plate and matched with the lubricating rolling ball, the constraint elastic strip is made of high-elasticity rubber materials, and the lubricating rolling ball can be embedded inside the internal release mechanism by generating deformation and matching with the pressing force of the lubricating rolling ball when the lubricating rolling ball is pressed, and always keeps an acting force towards the outside.

Preferably, the handpiece configuration support piece comprises a buckling strip, a hanging and connecting rod, a rolling ball, a movable groove ring and a sliding insertion strip, the rolling ball is provided with the movable groove ring, the sliding insertion strip and the buckling strip are of an integrated structure, the hanging and connecting rod is installed in the movable groove ring in an embedding mode, the tail end of the sliding insertion strip tilts upwards, the weight of the sliding insertion strip can be pressed towards the rear end when the sliding insertion strip is used for bearing and locking the laser cutting handpiece, and then the rolling ball can bear most of the weight.

Preferably, the internal release mechanism comprises an internal buckle piece, an elastic buckle piece, a traction belt, a lock ring and an oil feeding sealing mechanism, the elastic buckle piece is installed on the outer surface of the internal buckle piece in an embedding mode, the top end of the traction belt is fixedly connected with the elastic buckle piece through the lock ring, the traction belt is installed inside the oil feeding sealing mechanism in an embedding mode, the elastic buckle piece is made of memory metal materials, the traction belt is installed on the back surface of the elastic buckle piece, and when the traction belt is arched and bent towards the upper side, the distance between two points of the traction belt is gradually shortened, and the traction belt is further in a loose state.

Preferably, the oil feeding strip sealing mechanism comprises a soft sealing strip, an elastic ring and a guide groove, the outer surface of the soft sealing strip is fixedly attached to the inner surface of the elastic ring, the guide groove and the soft sealing strip are of an integrated structure, when the soft sealing strip is pressed, the soft sealing strip is pressed through bidirectional stress of a pressed object and the elastic ring, adaptive attachment and separation can be carried out according to the shape of the pressed object, and therefore the pressed object can be in contact with the lubricating oily material inside, and the sealing of the oily material inside can be kept.

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

The invention can press the lubrication supply mechanism by using the machine head for bearing the weight of the machine head under the working state of the laser cutting machine head, can directly press the lubrication rolling ball into the internal release mechanism, indirectly enables the oil feeding sealing mechanism to release in the process of pressing the elastic buckle piece, further enables the lubrication rolling ball to contact and carry out the lubricating oil in the oil cavity, enables the carried lubricating oil to keep a stable amount under the constraint of the oil feeding sealing mechanism, and carries out external coating cooling through rotation, thereby enabling the friction coefficient of the track and the sliding head to be kept at a stable value through constantly supplemented oil even if the machine head moves on the transmission frame for a long time.

Drawings

Fig. 1 is a schematic structural diagram of a laser cutting machine for adjusting and compensating laser head movement.

Fig. 2 is a schematic top view of the laser head motion compensation device.

Fig. 3 is a detailed structural diagram of the interior of the compensating bar.

Fig. 4 is a schematic diagram showing the detailed structure of the lubrication supply mechanism.

FIG. 5 is a detailed view of the inner structure of the handpiece-equipped support.

Fig. 6 is a detailed internal structure diagram of the internal release mechanism.

Fig. 7 is a side internal detailed structure schematic diagram of the oil feeding sealing mechanism.

Fig. 8 is a schematic side view of the elastic buckle piece.

In the figure: a workbench-1, a laser head movement adjusting and supplementing device-2, a laser cutting machine head-3, a safety machine cover-4, an internal illuminating lamp-5, a laser cutting machine frame-6, a side frame-a 1, an adjusting and supplementing cross bar-a 2, a machine head configuration supporting piece-a 3, a locking piece-a 4, a sliding groove-a 21, an inner partition-a 22, an oil cavity-a 23, a separation sleeve-a 24, a lubrication supplementing mechanism-a 25, an internal release mechanism-a 251, a constraint elastic bar-a 252, a middle rotating shaft-a 253, a lubrication rolling ball-a, a separation plate-a 255, a buckling bar-a 31, a hanging rod-a 32, a rolling ball-a 33, a movable groove ring-a 34, a sliding buckling bar-a 35, an internal buckling piece-q 1, an elastic buckling piece-q 2, a traction belt-q 3, a locking ring-q 4, an oil bar sealing-q 5, Soft seal-q 51, elastic ring-q 52, lead groove-q 53.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in figures 1 to 5:

the invention provides a laser head movement adjustment and compensation laser cutting machine which structurally comprises a workbench 1, a laser head movement adjustment and compensation device 2, a laser cutting machine head 3, a safety machine cover 4, a built-in illuminating lamp 5 and a laser cutting machine frame 6, wherein the workbench 1 is arranged inside the laser cutting machine frame 6, the safety machine cover 4 is movably connected with the laser cutting machine frame 6, the laser cutting machine heads 3 are provided with two laser heads and are both arranged on the laser head movement adjustment and compensation device 2, and the built-in illuminating lamp 5 is fixedly arranged inside the laser cutting machine frame 6.

Laser head motion compensation device 2 includes side bearer a1, the horizontal bar a2 of compensation, aircraft nose configuration support piece a3, joins in marriage lock piece a4, side bearer a1 is equipped with two altogether and locates the horizontal bar a2 left and right sides of compensation, aircraft nose configuration support piece a3 is installed inside horizontal bar a2 of compensation through the mode of embedding, join in marriage lock piece a4 every group and be equipped with two altogether and fixed mounting in side bearer a1 upper and lower both sides, side bearer a1 is in the same place through joining in marriage lock piece a4 and laser cutting frame 6 fixed connection.

The adjusting and compensating cross bar a2 comprises a sliding groove a21, an inner partition plate a22, an oil cavity a23, a spacer a24 and a lubricating and supplying mechanism a25, wherein the lubricating and supplying mechanism a25 is installed inside the inner partition plate a22 in an embedded mode, the spacer a24 and the inner partition plate a22 are of an integrated structure, the oil cavity a23 is arranged on the spacer a24, the sliding groove a21 and the spacer a24 are of an integrated structure, and the inside of the spacer a24 is in a closed state by being combined with the lubricating and supplying mechanism a25, so that the inside of the spacer a25 can be effectively sealed and regulated.

The lubricating and supplying mechanism a25 comprises an internal release mechanism a251, a restraining elastic strip a252, a middle rotating shaft a253, a lubricating ball a254 and a separating plate a255, wherein the separating plate a255 is fixedly connected with the restraining elastic strip a252, the middle rotating shaft a253 is installed inside the lubricating ball a254 in an embedded mode, the middle rotating shaft a253 is connected with the restraining elastic strip a252, the internal release mechanism a251 is fixedly installed on an internal partition plate a22 and matched with the lubricating ball a254, the restraining elastic strip a252 is made of a high-elasticity rubber material, and when the lubricating ball a254 is pressed, the lubricating ball a254 can be embedded inside the internal release mechanism a251 by deformation and matching with the pressing force of the lubricating ball a254, and a force facing the outside is always kept.

The handpiece configuration support a3 comprises a buckling strip a31, a hanging rod a32, a rolling ball a33, a movable groove ring a34 and a sliding insertion strip a35, wherein the rolling ball a33 is provided with the movable groove ring a34, the sliding insertion strip a35 and the buckling strip a31 are of an integrated structure, the hanging rod a32 is installed inside the movable groove ring a34 in an embedding mode, the tail end of the sliding insertion strip a35 is tilted upwards, the weight of the sliding insertion strip a35 can be pressed towards the rear end when the laser cutting handpiece 3 is locked, and then the rolling ball a33 can bear most of the weight.

The specific use mode and function of the embodiment are as follows:

when the laser cutting head 3 is in a working state, the a3 for bearing the laser cutting head 3 moves transversely on the a24 mainly in the braking process, the tail end of the sliding strip a35 tilts upwards, so that the weight of the sliding strip a can be pressed towards the rear end when the laser cutting head 3 is locked, the rolling ball a33 can balance the pressure of the laser cutting head 3 while bearing most of the weight, when the rolling ball a33 slides transversely in the sliding chute a21, a pressing force can be generated on the rolling ball a254 when the rolling ball a is contacted, the rolling ball can be pressed towards the direction of the internal release mechanism a251 through the pressure, the lubricating a254 is connected with the constraint elastic strip a252 through the middle rotating shaft a253, and the lubricating rolling ball a254 can still keep a separation acting force towards the outside when being inserted into the internal release mechanism a251 through the deformation of the constraint elastic strip a252, the lubricant oil can be brought into contact with the inside of the inner partition a22 by the insertion, and then taken out, and the lubricant oil can be externally applied by the rotation.

Example 2

As shown in fig. 6 to 8:

the invention provides a laser head movement adjustment and compensation laser cutting machine, wherein an internal release mechanism a251 comprises an internal buckle piece q1, an elastic buckle piece q2, a traction belt q3, a lock ring q4 and an oil feeding sealing mechanism q5, the elastic buckle piece q2 is installed on the outer surface of the internal buckle piece q1 in an embedding mode, the top end of the traction belt q3 is fixedly connected with the elastic buckle piece q2 through the lock ring q4, the traction belt q3 is installed inside the oil feeding sealing mechanism q5 in an embedding mode, the elastic buckle piece q2 is made of a memory metal material, the traction belt q3 is installed on the back surface of the traction belt q3, and when the traction belt is curved upwards, the distance between two points of the connection traction belt q3 is gradually shortened, and the traction belt q3 is further changed into a loose state.

The oil feeding sealing mechanism q5 comprises a soft sealing strip q51, an elastic ring q52 and a guide groove q53, wherein the outer surface of the soft sealing strip q51 is fixedly attached to the inner surface of the elastic ring q52, the guide groove q53 and the soft sealing strip q51 are of an integrated structure, and when the soft sealing strip q51 is pressed, the pressed object and the elastic ring q52 are pressed in a bidirectional stress mode, adaptive attaching separation can be conducted according to the shape of the pressed object, so that the pressed object can be in contact with lubricating oily substances in the pressed object, and the sealing of the oily substances in the pressed object is kept.

The specific use mode and function of the embodiment are as follows:

the invention can directly act on the soft seal q51 by the inward pressure of the elastic ring q52 when the soft seal q51 is pressed, the soft seal q51 is supported by memory cotton material with higher density, has stronger blocking capability and can generate adaptive deformation according to the external shape of the pressed object, and the inside of the soft seal is in a wave-shaped mutual meshing state, the blocking force of the upper surface and the lower surface of the soft seal q51 against the internal lubricating oil substances is greatly enhanced, and the pulling assistance of the pulling belt q3 connected with the elastic buckle piece q2 against the soft seal q51 positioned below can ensure that the soft seal q51 is in a normal state, the blockade of the internal oily substances is kept stable, and when the elastic buckle piece q2 changes the shape and is arched and bent, the traction belt q3 changes from the original stretched state to the relaxed state, thereby directly releasing the stretching limit of the traction belt q51 and effectively maintaining the single output of the oily substance.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. The utility model provides a laser head motion is transferred and is mended laser cutting machine, its structure includes workstation (1), laser head motion is transferred and is mended device (2), laser cutting aircraft nose (3), safety cover (4), built-in light (5), laser cutting frame (6), its characterized in that:

the worktable (1) is arranged inside the laser cutting machine frame (6), the safety machine cover (4) is movably connected with the laser cutting machine frame (6), the laser cutting machine heads (3) are provided with two laser cutting machine heads and are arranged on the laser head movement adjusting and compensating device (2), and the built-in illuminating lamp (5) is fixedly arranged inside the laser cutting machine frame (6);

laser head motion adjustment and compensation device (2) include side bearer (a1), adjustment and compensation horizontal bar (a2), aircraft nose configuration support piece (a3), join in marriage locking plate (a4), side bearer (a1) are equipped with two altogether and locate adjustment and compensation horizontal bar (a2) left and right sides, aircraft nose configuration support piece (a3) is installed inside adjustment and compensation horizontal bar (a2) through the mode of embedding, join in marriage locking plate (a4) every group and be equipped with two altogether and fixed mounting in side bearer (a1) upper and lower both sides, side bearer (a1) are in the same place through joining in marriage locking plate (a4) and laser cutting frame (6) fixed connection.

2. The laser head motion compensation laser cutting machine according to claim 1, characterized in that: the adjusting and compensating transverse bar (a2) comprises a sliding groove (a21), an inner partition plate (a22), an oil cavity (a23), a spacer bush (a24) and a lubricating and supplying mechanism (a25), wherein the lubricating and supplying mechanism (a25) is installed inside the inner partition plate (a22) in an embedded mode, the spacer bush (a24) and the inner partition plate (a22) are of an integrated structure, the oil cavity (a23) is arranged in the spacer bush (a24), and the sliding groove (a21) and the spacer bush (a24) are of an integrated structure.

3. The laser head motion compensation laser cutting machine according to claim 2, characterized in that: the lubricating and supplying mechanism (a25) comprises an internal release mechanism (a251), a restraining elastic strip (a252), a rotating shaft (a253), a lubricating rolling ball (a254) and a separating plate (a255), wherein the separating plate (a255) is fixedly connected with the restraining elastic strip (a252), the rotating shaft (a253) is installed inside the lubricating rolling ball (a254) in an embedding mode, the rotating shaft (a253) is connected with the restraining elastic strip (a252), and the internal release mechanism (a251) is fixedly installed on an internal partition plate (a22) and matched with the lubricating rolling ball (a 254).

4. The laser head motion compensation laser cutting machine according to claim 1, characterized in that: the handpiece configuration support piece (a3) comprises a buckling strip (a31), a hanging rod (a32), a rolling ball (a33), a movable groove ring (a34) and a sliding insertion strip (a35), wherein the rolling ball (a33) is provided with the movable groove ring (a34), the sliding insertion strip (a35) and the buckling strip (a31) are of an integrated structure, and the hanging rod (a32) is installed inside the movable groove ring (a34) in an embedding mode.

5. The laser head motion compensation laser cutting machine according to claim 3, characterized in that: the internal release mechanism (a251) comprises an internal attaching buckle piece (q1), an elastic buckle piece (q2), a traction belt (q3), a lock ring (q4) and an oil feeding banding mechanism (q5), wherein the elastic buckle piece (q2) is installed on the outer surface of the internal attaching buckle piece (q1) in an embedding mode, the top end of the traction belt (q3) is fixedly connected with the elastic buckle piece (q2) through the lock ring (q4), and the traction belt (q3) is installed inside the oil feeding banding mechanism (q5) in an embedding mode.

6. The laser head motion compensation laser cutting machine according to claim 5, characterized in that: the oil feeding sealing mechanism (q5) comprises a soft seal (q51), an elastic ring (q52) and a guide groove (q53), wherein the outer surface of the soft seal (q51) is fixedly attached to the inner surface of the elastic ring (q52), and the guide groove (q53) and the soft seal (q51) are of an integrated structure.

Images