CN108422783B

CN108422783B - Door plate engraving device

Info

Publication number: CN108422783B
Application number: CN201810168310.2A
Authority: CN
Inventors: 文泉
Original assignee: Chongqing Shuangchi Door And Window Co Ltd
Current assignee: Chongqing Shuangchi Door And Window Co Ltd
Priority date: 2018-02-28
Filing date: 2018-02-28
Publication date: 2020-01-17
Anticipated expiration: 2038-02-28
Also published as: CN108422783A

Abstract

The invention belongs to the technical field of equipment for producing decorative effects during processing, and discloses a door plate engraving device which comprises a rack, wherein a workbench, a tool rest and a numerical control mechanism are arranged on the rack, a engraving knife is arranged on the tool rest, the door plate engraving device also comprises a limiting mechanism and a dust suction mechanism, the limiting mechanism comprises a negative pressure cylinder and a piston plate, a support plate is arranged below the piston plate, and a push rod is rotatably connected to the upper part of the piston plate; the workbench is provided with a mounting groove, and a through hole is formed in the mounting groove; the dust collection mechanism comprises a piston barrel and a sliding plate, and both ends of the piston barrel are provided with an air inlet and an air outlet; the dust collection mechanism also comprises a gear and a rack, the rack is fixed on the tool rest, and the gear is rotationally connected to the workbench; still including articulated first, second, third branch in proper order, the one end of third branch articulates there is first magnet piece, and is equipped with the second magnet piece on the slide. The invention solves the problem that in the prior art, when the door plate is carved, the carving knife can give a moving force to the door plate, and the door plate cannot be tightly fixed only by two limiting blocks.

Description

Door plate engraving device

Technical Field

The invention belongs to the field of equipment for producing decorative effects in processing, and particularly relates to a door plate engraving device.

Background

The door plate is a furniture processing material and is mainly made of natural log or solid wood through the procedures of drying, blanking, polishing, grinding and the like. The door plate is usually used as a processing raw material of a furniture door, and a certain decoration treatment is usually required to be carried out when the door plate is processed into the furniture door, wherein carving patterns and characters on the door plate is a common decoration means.

Traditional door plant sculpture is carried out through the manual work, before the sculpture, need draw the pattern that needs the sculpture on the door plant, utilizes the manual work to hold the carving tool again, carves out the shape or the pattern of settlement on the door plant. The efficiency of this kind of mode processing is low, and artifical sculpture has certain subjectivity moreover, can lead to producing the error between the pattern that carves and the original pattern, can not batch production.

In order to solve the technical problem, a numerical control engraving device mainly comprises a lathe bed, two limiting blocks, two tool rests and a numerical control mechanism for driving the tool rests to move, wherein the tool rests are connected to the lathe bed in a sliding mode and provided with engraving tools. During the use, place the door plant on the lathe bed, the stopper slides for two stoppers press from both sides the door plant tightly, start numerical control mechanism, and numerical control mechanism control knife rest moves on the lathe bed, thereby make carving tool and door plant take place relative movement, realize the sculpture to the door plant. According to the technical scheme, the drive path of the conventional numerical control mechanism is set, so that the engraved patterns are consistent every time, and batch production can be realized.

However, the above technical solutions still have the following technical problems: 1. a large amount of fragments are generated in the process of carving the door plate, and the device cannot timely clean the fragments in the carving process, so that the fragments are possibly adhered to the surface of a carving knife, the carving of the door plate is influenced, and the carving precision is low; 2. the carving tool can give the door plate a force moving forwards when carving the door plate, and the door plate cannot be firmly fixed only by the two limiting blocks.

Disclosure of Invention

The invention aims to provide a door plate engraving device to solve the problem that in the prior art, when a door plate is engraved, an engraving knife can provide moving force for the door plate, and the door plate cannot be tightly fixed only through two limiting blocks.

In order to achieve the purpose, the invention provides the following technical scheme that the door plate engraving device comprises a rack, wherein a workbench, a tool rest and a numerical control mechanism for controlling the tool rest to move are arranged on the rack, the tool rest is provided with an engraving knife, the door plate engraving device also comprises a limiting mechanism and a dust suction mechanism, the limiting mechanism comprises a negative pressure cylinder fixed at the bottom of the workbench and a piston plate connected in the negative pressure cylinder in a sliding manner, a rectangular support plate is fixedly connected below the piston plate in the negative pressure cylinder, the bottom of the piston plate is rotatably connected with a push rod, the bottom of the push rod penetrates through the support plate, and the bottom of the push rod and the support plate; the workbench is provided with a mounting groove, and a plurality of through holes communicated with the negative pressure cylinder are arranged in the mounting groove; the dust collection mechanism comprises a piston barrel which is fixed on the frame and has two closed ends, a sliding plate is connected in the piston barrel in a sliding manner, two ends of the piston barrel are respectively provided with an air inlet and an air outlet, an air inlet one-way valve is arranged in the air inlet, and an air outlet one-way valve and a filter screen are arranged in the air outlet; the air inlets are connected with air inlet pipes, and the air outlets are connected with air outlet pipes; the dust collection mechanism also comprises a gear and a rack meshed with the gear, the rack is fixed on the tool rest, and the gear is rotationally connected to the workbench; still including articulated first, second, third branch in proper order, the one end that second branch was kept away from to first branch is fixed at the middle part of gear, and the one end that second branch was kept away from to third branch articulates there is first magnet piece, first magnet piece sliding connection on the lateral wall of piston barrel, and be equipped with the second magnet piece that attracts mutually with first magnet piece on the slide.

The technical effect of the technical characteristics of the scheme is as follows:

the limiting mechanism is used for limiting and fixing the door plate, and the door plate is prevented from sliding in the carving process, so that the carving precision is prevented from being influenced. Dust absorption mechanism is arranged in adsorbing the piece that the sculpture in-process produced, avoids the piece to influence the glyptic precision of door plant.

The mounting groove is used for putting at the door plant, carries on spacingly to the door plant, avoids the door plant to take place to rock. The negative pressure cylinder, the piston plate, the push rod and the workbench form a piston structure, when the push rod moves downwards, the piston moves downwards, the door plate and the air at the bottom of the installation groove are pumped out through the through hole, the door plate is adsorbed and fixed on the installation groove, and therefore the door plate is further prevented from moving, and the carving precision is improved. The support plate is cuboid, so that the bottom of the negative pressure cylinder can be prevented from being sealed, and the piston plate can move along with the push rod; meanwhile, the push rod and the support plate form a thread pair, the piston plate can move by rotating the push rod, and the piston plate can be fixed after the push rod stops rotating. Therefore, when the piston plate moves downwards to fix the door plate, the piston plate stops rotating, and the door plate can be firmly fixed.

When the push rod drives the piston plate to move upwards, the gas in the negative pressure cylinder is upwards discharged through the through hole by the piston plate, when the door plate is fed, the door plate can be moved and buffered, the door plate is prevented from directly falling into the mounting groove, and the door plate and the mounting groove are prevented from violent impact, so that the door plate or the device is damaged. Simultaneously, after the sculpture is accomplished, when taking out the door plant, the gas in the negative pressure section of thick bamboo is extruded to the piston board, and the door plant is upwards blown through the through-hole to gas, can conveniently take out the door plant after the sculpture.

The sliding plate moves to realize air suction and air discharge of the piston barrel on two sides of the piston, and when the piston moves, one end of the piston barrel sucks air through the air inlet, so that chips generated by carving are sucked into the piston barrel; and the other end of the piston barrel blows out gas through the gas outlet, and when the door plate is carved, a groove can appear on the door plate, and the fragments are located in the groove. When absorbing the dust, in order to avoid absorbing clastic suction and give the door plant ascending power and lead to the door plant to shift up, consequently can be with intake pipe and door plant upper surface parallel arrangement, but intake pipe and door plant parallel arrangement can lead to the difficult suction of the piece in the recess. With the setting of outlet duct perpendicular to door plant, can make during the exhaust, gas blows to the door plant surface through the outlet duct, blows off the piece in the recess, the clastic collection of being convenient for. Meanwhile, the air outlet pipe is perpendicular to the door plate, so that when the air blowing pipe is used for exhausting air, the door plate is pressed downwards, a downward fixing force is provided for the door plate, and the door plate is fixed.

When the tool rest moves, the rack is driven to move, and the rack moves to drive the gear to rotate. The first support rod, the second support rod, the third support rod and the first magnet block form a crank-slider mechanism which takes the first support rod as a crank, the second support rod as a connecting rod and the third support rod and the first magnet block as sliders. According to the motion characteristic of slider-crank mechanism, the gear drives first bracing piece and rotates for first magnet piece slides along the lateral wall of piston barrel, and first magnet piece attracts the second magnet piece, thereby drives the second magnet piece and slides, realizes the slip of slide.

The technical principle of the scheme is as follows:

the push rod is rotated to drive the piston plate to move downwards, so that the negative pressure cylinder extracts gas through the through hole, the door plate is adsorbed in the mounting groove, and the door plate is fixed. And then, the numerical control mechanism is used for controlling the tool rest to move, and the carving knife is used for carving the door plate. The rack is driven to move in the moving process of the knife rest, so that the gear rotates, the slider-crank mechanism consisting of the first supporting rod, the second supporting rod, the third supporting rod and the first magnet block moves, the first magnet block drives the sliding plate to move, and air inlet and air outlet of the piston barrel are achieved. When admitting air, in the piece suction piston barrel that will carve the production, when giving vent to anger, blow out the piece in the recess that produces on the door plant after the sculpture to the door plant is moved to the downward pressure, makes the door plant inseparabler fixed.

The technical effect that this scheme can produce is:

1. according to the technical scheme, the mounting groove is matched with the limiting mechanism, so that the door plate can be tightly attached to the mounting groove in the engraving process, the door plate can be prevented from moving, and the engraving precision is improved;

2. according to the technical scheme, the knife rest moves, so that air suction and air discharge of the piston barrel can be realized, and therefore chips generated by carving can be cleaned;

3. according to the technical scheme, the air is discharged through the air outlet pipe, so that scraps in the groove generated after carving can be blown out, and then the scraps are sucked into the piston barrel through the air inlet pipe to be collected; meanwhile, when the air outlet pipe is used for exhausting air, the door plate can be pressed downwards, so that the door plate is fixed in the mounting groove;

4. when the piston plate moves upwards, gas in the negative pressure cylinder can be discharged through the through hole, the door plate can be buffered when the material is loaded, and the door plate can be blown upwards to give an upward force to the door plate when the material is loaded, so that the door plate can be taken out conveniently.

The following are preferred schemes based on the above scheme:

the first preferred scheme is as follows: based on the basic scheme, the piston plate is an iron plate, and the support plate is provided with a third magnet block. The third magnet piece can attract the piston board for the piston board is fixed on the third magnet piece, avoids the piston board to take place to remove, thereby avoids the fixed influence of door plant.

The preferred scheme II is as follows: based on the first preferred scheme, a moving rod is connected to the rack in a sliding mode, the bottom end of the push rod is rotatably connected to the middle of the moving rod, two end faces of the moving rod are inclined faces, and the high end of each inclined face is the end far away from the rack; the device is characterized by further comprising pressing rods hinged to the two sides of the rack, wedge blocks matched with the inclined planes are arranged at the bottom ends of the pressing rods, and extrusion rods are hinged to the top ends of the two pressing rods.

Has the advantages that:

when the push rod moves down, the movable rod is driven to move down, the inclined planes at the two ends of the movable rod slide along the wedge surfaces of the wedge blocks, the pressing rod is extruded, the bottom of the pressing rod moves towards the direction far away from the movable rod, the top end of the pressing rod drives the two extrusion rods to be close to each other, the door plate is clamped, and further fixing of the door plate is achieved. And when the push rod stops moving, the extrusion rod is fixed, so that the door plate is fixed.

The preferable scheme is three: based on preferred scheme two, the one end that the pinch bar was kept away from to two extrusion poles all is equipped with the compact heap, and compact heap sliding connection is on the workstation. The contact area of compact heap and door plant is great for the door plant atress is even, avoids the impaired that the local atress of door plant leads to.

The preferable scheme is four: based on the preferred scheme three, all be equipped with the rubber block on the relative one side of two compact heap. The friction coefficient of the rubber block is large, so that the door plate can be prevented from sliding; and the rubber block has certain elastic deformation capacity and can be compressed, so that the extrusion rod is prevented from being damaged.

The preferable scheme is five: based on the fourth preferred scheme, the cutting edge of the graver is a diamond cutting edge. The diamond has high hardness, so that the carving effect is better.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of the dust suction mechanism in fig. 1.

Detailed Description

The present invention will be described in further detail below by way of specific embodiments:

reference numerals in the drawings of the specification include: the vacuum cleaner comprises a workbench 1, a mounting groove 11, a through hole 12, a negative pressure cylinder 3, a piston plate 31, a push rod 32, a support plate 33, a moving rod 4, a pressing rod 5, an extrusion rod 51, a pressing block 52, a wedge 53, a dust suction mechanism 6, a gear 61, a rack 62, a piston barrel 63, an air inlet 631, an air outlet 632, a sliding plate 64, a second magnet 641, a first magnet 65, a first support rod 66, a second support rod 67 and a third support rod 68.

As shown in fig. 1, the door plate engraving device comprises a frame, wherein a workbench 1, a tool rest, a limiting mechanism, a dust suction mechanism 6 and a numerical control mechanism for controlling the tool rest to move are arranged on the frame, a graver is arranged on the tool rest, and a cutting edge of the graver is a diamond cutting edge. Stop gear is including installing the piston plate 31 in the negative pressure section of thick bamboo 3 and the sliding connection of 1 bottom in the workstation negative pressure section of thick bamboo 3, and piston plate 31 is iron plate, and the upper surface of workstation 1 is equipped with mounting groove 11, and mounting groove 11 bottom is equipped with the through-hole 12 with the negative pressure section of thick bamboo 3 intercommunication.

The bottom of the negative pressure cylinder 3 is also provided with a rectangular support plate 33, and the support plate 33 is provided with a third magnet. The push rod 32 is rotatably connected to the bottom of the piston plate 31, threads are arranged at the bottom of the push rod 32, threaded holes are formed in the support plate 33, and the bottom of the push rod 32 is in threaded connection with the threaded holes. Dust absorption mechanism 6 still includes movable rod 4 of sliding connection in the frame, and both ends are the inclined plane about movable rod 4, and the one end that the frame was kept away from to the inclined plane is high-end, and the bottom of push rod 32 is rotated and is connected the middle part at movable rod 4.

Still articulated in the frame have two compressing rods 5, and two compressing rods 5 are located the left and right sides of workstation 1 respectively, all are equipped with on the relative one side in bottom of two compressing rods 5 with inclined plane complex voussoir 53. The top of clamping bar 5 all articulates there is the extrusion stem 51 of horizontal setting, and the one end that extrusion stem 51 is close to mutually is equipped with compact heap 52, and the bottom sliding connection of compact heap 52 all is equipped with the block rubber on the relative one side of compact heap 52 on workstation 1.

As shown in fig. 2, the dust suction mechanism 6 includes a piston barrel 63 fixed on the frame and a slide plate 64 slidably connected in the piston barrel 63, and the slide plate 64 is provided with a second magnet 641. Both ends of the piston barrel 63 are sealed, both ends of the piston barrel 63 are provided with an air inlet 631 and an air outlet 632, an air inlet check valve is arranged in the air inlet 631, and the air inlet 631 is connected with an air inlet pipe; an air outlet one-way valve and a filter screen are arranged in the air outlet 632, and the air outlet pipes are connected to the air outlet 632.

The dust suction mechanism 6 further comprises a rack 62 and a gear 61 meshed with the rack 62, the rack 62 is fixed on the tool rest, and the gear 61 is rotatably connected with the workbench 1. Still including articulated first branch 66, second branch 67 and third branch 68 in proper order, the left end of first branch 66 is fixed in the middle part of gear 61, and it has first magnet piece 65 to articulate on the right-hand member of third branch 68, and first magnet piece 65 and second magnet piece 641 attract each other, and first magnet piece 65 sliding connection is on the lateral wall of piston barrel 63.

When using this embodiment, place the door plant in mounting groove 11, when placing the door plant, rotate push rod 32 for push rod 32 drives piston plate 31 and shifts up, and piston plate 31 extrudes the gas on 3 upper portions of a negative pressure section of thick bamboo, makes gas upwards blow out through-hole 12, thereby gives the door plant an ascending power, plays the effect of buffering to the door plant, avoids door plant and workstation 1 to give off the door plant or the device that strong striking leads to impaired.

After the door plate is placed in the mounting groove 11, the push rod 32 is rotated reversely, so that the push rod 32 drives the piston plate 31 to move downwards. The negative pressure cylinder 3, the bottom surface of the worktable 1 and the piston barrel 63 form a piston structure, when the piston plate 31 moves downwards, external air is extracted, so that the air in the door panel and the installation groove 11 is extracted through the through hole 12, and the door panel is fixed in the installation groove 11. And when push rod 32 moved down, drive movable rod 4 and move down, the inclined plane at movable rod 4 both ends outwards promoted voussoir 53 for the bottom of compressing tightly pole 5 removes to the direction of keeping away from each other, and compressing tightly pole 5 and frame are articulated to form lever structure, and according to lever structure's motion principle, make compressing tightly the top of pole 5 drive extrusion pole 51 and be close to each other, thereby make the rubber block hug closely the door plant, and fix the door plant.

And starting the numerical control mechanism to drive the tool rest to move, so that the door plate is carved. During the movement of the tool carrier, the rack 62 is moved, so that the gear 61 is rotated. The first support rod 66, the second support rod 67, the third support rod 68 and the first magnet block 65 form a crank-slider mechanism which takes the first support rod 66 as a crank and the third support rod 68 and the first magnet block 65 as sliders, the gear 61 rotates to drive the first support rod 66 to do circular motion, and the first magnet block 65 moves back and forth along the piston barrel 63 according to the motion characteristics of the crank-slider mechanism. The first magnet block 65 and the second magnet block 641 are attracted to each other, so that the sliding plate 64 slides back and forth along the piston barrel 63, and the intermittent air release and air release at the two ends of the piston barrel 63 are realized. When one end in the piston barrel 63 admits air, the other end of the piston barrel 63 deflates, and the piece that produces when carving the door plant surface through the intake pipe this moment inhales in the piston barrel 63, blows gas to the surface of door plant through the outlet duct, blows off the piece in the recess that the sculpture produced, and the rethread intake pipe inhales and collects in the piston barrel 63.

After the sculpture is accomplished, the push rod 32 is rotated for the push rod 32 drives the piston plate 31 to move up, thereby extrudes the gas on the upper portion of the negative pressure cylinder 3, discharges the gas barrel through hole 12, and simultaneously the bottom of the pressing rod 5 is close to each other, and according to the lever principle, the top of the pressing rod 5 is kept away from each other, thereby making the door plant loosened. When the air is discharged from the through hole 12, the door panel is blown upwards, so that the door panel is blown upwards, and the door panel is convenient to take out.

It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the invention, which should not be construed as affecting the effect of the invention and its practical application.

Claims

1. Door plant engraving device, including the frame, be equipped with workstation, knife rest and the numerical control mechanism that control knife rest removed in the frame, be equipped with carving tool, its characterized in that on the knife rest: the dust collector also comprises a limiting mechanism and a dust collection mechanism, wherein the limiting mechanism comprises a negative pressure cylinder fixed at the bottom of the workbench and a piston plate connected in the negative pressure cylinder in a sliding manner, a rectangular support plate is fixedly connected below the piston plate in the negative pressure cylinder, the bottom of the piston plate is rotatably connected with a push rod, the bottom of the push rod penetrates through the support plate, and the bottom of the push rod and the support plate form a thread pair; the workbench is provided with a mounting groove, and a plurality of through holes communicated with the negative pressure cylinder are arranged in the mounting groove; the dust collection mechanism comprises a piston barrel which is fixed on the frame and has two closed ends, a sliding plate is connected in the piston barrel in a sliding manner, two ends of the piston barrel are respectively provided with an air inlet and an air outlet, an air inlet one-way valve is arranged in the air inlet, and an air outlet one-way valve and a filter screen are arranged in the air outlet; the air inlets are connected with air inlet pipes, and the air outlets are connected with air outlet pipes; the dust collection mechanism also comprises a gear and a rack meshed with the gear, the rack is fixed on the tool rest, and the gear is rotationally connected to the workbench; still including articulated first, second, third branch in proper order, the one end that second branch was kept away from to first branch is fixed at the middle part of gear, and the one end that second branch was kept away from to third branch articulates there is first magnet piece, first magnet piece sliding connection on the lateral wall of piston barrel, and be equipped with the second magnet piece that attracts mutually with first magnet piece on the slide.

2. The door panel engraving device of claim 1, wherein: the piston plate is an iron plate, and the support plate is provided with a third magnet block.

3. The door panel engraving device of claim 2, wherein: the rack is connected with a moving rod in a sliding manner, the bottom end of the push rod is rotatably connected to the middle part of the moving rod, two end faces of the moving rod are inclined planes, and the high end of each inclined plane is one end far away from the rack; the device is characterized by further comprising pressing rods hinged to the two sides of the rack, wedge blocks matched with the inclined planes are arranged at the bottom ends of the pressing rods, and extrusion rods are hinged to the top ends of the two pressing rods.

4. The door panel engraving device of claim 3, wherein: and one ends of the two extrusion rods, which are far away from the compression rods, are respectively provided with a compression block, and the compression blocks are connected to the workbench in a sliding manner.

5. The door panel engraving device of claim 4, wherein: and rubber blocks are arranged on one sides of the two pressing blocks opposite to each other.

6. The door panel engraving device of claim 5, wherein: the cutting edge of the graver is a diamond cutting edge.