CN212604216U - Device for engraving patterns on surface of solid wood door - Google Patents

Abstract

The utility model discloses a device for carving patterns on the surface of a solid wood door, which comprises a platform plate, wherein portal frames are symmetrically arranged at two ends of the platform plate, a straight rail is connected in the middle of the top of the portal frame, a transverse screw rod which takes the cross rail as a guide is arranged below the straight rail, a longitudinal screw rod is arranged below the straight rail through a hanging bracket, a screw sleeve is utilized to displace the straight rail, a nicking tool arranged below the screw rod realizes a two-way plane running track, then the nicking tool can be carved at any position and can run at any position through a servo motor, and the lifting of a supporting plate is matched to promote whether a door plate fixed on the supporting plate is in contact with the nicking tool or not, so that whether the nicking tool carve; the nicking tool has the advantages that the structural design is reasonable, the thought is novel and unique, the nicking tool achieves transverse displacement through the transverse screw rods between the portal frames and is guided and borne through the straight rails, the longitudinal screw rods below the nicking tool achieve longitudinal displacement of the nicking tool, and the springs and the hanging rods are arranged below the longitudinal screw rods to prevent the supporting plates from excessively rising to cause that the nicking tool is excessively fed deeply and the nicking tool is excessively damaged due to bearing.

Description

Device for engraving patterns on surface of solid wood door

Technical Field

The utility model relates to a timber processing machinery technical field especially relates to a device of wood door surface sculpture pattern.

Background

Wooden doors, i.e. wooden doors. It can be divided into many kinds according to the material, process and use.

The kind of timber is many, divide into wood door, former timber, wooden granule suppression door etc. according to material and forming process, no matter which kind of door, or shaping, material etc. in order to increase the pleasing to the eye degree of door plant, mostly all can be furnished with the pattern in the front of door plant according to the demand, especially indoor timber of using, for the indoor decoration style of collocation, now specially disclose this application, and then reach pleasing to the eye and with the effect of decoration style collocation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a device of wood door surface sculpture pattern to current problem.

The utility model discloses a realize through following technical scheme: a device for carving patterns on the surface of a solid wood door comprises a platform plate, wherein portal frames are symmetrically arranged at two ends of the platform plate, a straight rail is connected in the middle of the top of the portal frame, sliders are symmetrically clamped and matched below the straight rail and fixedly connected with two ends of a threaded sliding sleeve, the threaded sliding sleeve is in threaded fit with a transverse lead screw, two ends of the transverse lead screw are mounted on a transverse lining of the portal frame through bearing seats, a hanger is fixedly connected below the threaded sliding sleeve, a longitudinal lead screw is symmetrically arranged on the lower surface of a bottom plate of the hanger, a threaded sleeve is sleeved on the longitudinal lead screw, a hanging seat is sleeved outside the threaded sleeve, a hanger rod is sleeved below the hanging seat, the lower end of the hanger rod is connected with a hanging plate, a first spring is sleeved on the hanger rod, a fourth servo motor is mounted;

the supporting plate is arranged on the platform plate, the lower plane of the supporting plate is provided with a screw sleeve through a bearing seat, the lower end of the screw sleeve is communicated with the supporting plate in a loose joint mode, the lower end of the screw sleeve is connected with the upper end of a screw rod in internal thread connection mode, the lower end of the screw rod is connected with an optical shaft through a coupler, the optical shaft is communicated with the lining plate, the lower end of the optical shaft is connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear, the bevel gear is sleeved on a two-way double shaft of a third servo motor, the third servo motor is arranged on the lower surface of the lining plate, the supporting.

As a further improvement to the above scheme, the lower end of the suspender is provided with a baffle for limiting and preventing the dead weight of related components such as a servo motor from falling off, in addition, after the supporting plate rises, the door panel is abutted against the graver to have the effect of loading force, the suspender also has the guiding effect, and the spring sleeved on the suspender plays a role of buffering the loading.

As a further improvement to the scheme, a first servo motor is mounted on the transverse screw rod, and stopping and displacement at any transverse position are achieved.

As a further improvement to the above scheme, one end of the longitudinal screw rod is connected to one end of the bottom plate of the hanging bracket through the bearing seat, the other end of the longitudinal screw rod is connected to the other end of the bottom plate of the hanging bracket through the seat plate, the second servo motor is installed on the outer vertical surface of the seat plate, and the inner sides of the seat plate and the bearing seat are both provided with the stop column and the limit switch, so that the second servo motor is prevented from being out of control and the hanging.

As a further improvement to the above scheme, the lower end of the screw sleeve is sleeved in the sliding sleeve, the sliding sleeve is sleeved in the first bearing, and the first bearing is installed in a hole formed in the supporting plate, so that the lifting displacement of the screw sleeve based on the sliding sleeve and the spiral rotation based on the first bearing are realized.

As a further improvement to the above scheme, the optical axis is sleeved with a second bearing, the second bearing is sleeved in the hole of the lining plate, the optical axis can conveniently penetrate through the lining plate to be fixed and limited, and rotation can be realized.

As a further improvement to the above scheme, the lower surface of the supporting plate is symmetrically provided with the screw sleeve and the guide post, the guide post is arranged outside the screw sleeve, the screw sleeve realizes the lifting of the supporting plate, and the guide post horizontally displaces in the lifting process of the supporting plate so as to ensure that the upper surface of the door plate placed on the supporting plate is in a horizontal state.

As the further improvement to above-mentioned scheme, utilize biax servo motor tee bend to cross bevel gear meshing drive screw and rotate, and then drive the spiral shell sleeve and carry out the displacement of going up and down, make the high door plant operation of getting of suitable operator of fagging and observe the sculpture operation condition, the spiral shell sleeve produces rotatory lift when the displacement of going up and down, realizes high straight line lift through the sliding sleeve of the outer rigid coupling of spiral shell sleeve, and the spiral shell sleeve has along with the rotation that the screw rod produced, realizes rotatoryly through the bearing that the sliding sleeve sets up outward.

As a further improvement of the scheme, two ends of a door panel to be engraved are fixed on a supporting plate, a third servo motor is started, the third servo motor operates to realize that the door panel on the supporting plate is contacted with a nicking tool, at the moment, the nicking tool automatically operates to one corner by finding the position, a second servo motor operates, the nicking tool is driven to rotate through a longitudinal lead screw to perform longitudinal displacement engraving, meanwhile, the first servo motor also operates to drive a threaded sliding sleeve to perform transverse displacement through a transverse lead screw, and displacement cutting of the nicking tool in the cutting process is realized through the transverse lead screw and the longitudinal lead screw in two directions; in addition, the sliding block arranged on the threaded sliding sleeve has a bearing function, so that the phenomenon that the transverse screw rod deforms due to bearing is avoided, the feed cutting force of the nicking tool caused by the lifting of the supporting plate is compensated through the spring sleeved on the hanging rod, and the nicking tool is prevented from being damaged due to the overlarge load in the cutting displacement process.

Compared with the prior art, the utility model has the following advantages: the nicking tool has the advantages that the structural design is reasonable, the thought is novel and unique, the nicking tool achieves transverse displacement through the transverse screw rods between the portal frames and is guided and borne through the straight rails, the longitudinal screw rods below the nicking tool achieve longitudinal displacement of the nicking tool, and the springs and the hanging rods are arranged below the longitudinal screw rods to prevent the supporting plates from excessively rising to cause that the nicking tool is excessively fed deeply and the nicking tool is excessively damaged due to bearing.

Drawings

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

Fig. 2 is a schematic side view of the structure of fig. 1.

Fig. 3 is a schematic structural diagram of lifting of the supporting plate.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1 to 3, an apparatus for engraving patterns on the surface of a solid wood door includes a table plate 1, the two ends of the platform board 1 are symmetrically provided with portal frames 2, the middle of the top of the portal frame 2 is connected with a straight rail 3, the lower part of the straight rail 3 is symmetrically clamped with sliders 4, the sliders 4 are fixedly connected with the two ends of a threaded sliding sleeve 275, the threaded sliding sleeve 275 is in threaded fit with a transverse screw rod 6, the two ends of the transverse screw rod 6 are arranged on a transverse lining of the portal frame 2 through bearing seats, the lower part of the threaded sliding sleeve 275 is fixedly connected with a hanger 8, the lower surface of a bottom plate of the hanger 8 is symmetrically provided with longitudinal screw, a threaded sleeve 20 is sleeved on the suspension arm, a suspension seat 11 is sleeved outside the threaded sleeve 20, a suspension rod 12 is sleeved below the suspension seat 11, the lower end of the suspension rod 12 is connected with a suspension plate 14, a first spring 13 is sleeved on the suspension rod 12, a fourth servo motor 16 is arranged on the suspension plate 14, an output shaft of the device penetrates through the hanging plate 14 and then is sleeved with a clamp 18 through a pin rod 17, and a nicking tool is arranged in the clamp 18;

the supporting plate 19 is arranged on the platform plate 1, the lower plane of the supporting plate 19 is provided with a screw sleeve 25 through a bearing seat 24, the lower end of the screw sleeve 25 is movably connected to the supporting plate 28 in a penetrating manner, the lower end of the screw sleeve 25 is connected with the upper end of a screw rod 29 in a threaded manner, the lower end of the screw rod 29 is connected with an optical axis 34 through a coupling 30, the optical axis 34 penetrates through a lining plate 4141, the lower end of the optical axis 34 is connected with a bevel gear I31, the bevel gear I31 is meshed with a bevel gear II 32, the bevel gear II 32 is sleeved on a two-way double shaft of a servo motor III 33, the servo motor III 33 is arranged on the lower surface of the lining plate 4141, the supporting plate 28 is further sleeved with a guide pillar 36 through a.

As a further improvement to the above solution, the lower end of the suspension rod 12 is provided with a stop 39 for limiting, which is used to prevent the dead weight of the related components such as the servo motor four 16 from dropping off, and in addition, after the supporting plate 19 is lifted, the door panel is pressed against the graver to have a load force function, the suspension rod 12 also has a guiding function, and the spring one 13 sleeved on the suspension rod plays a role of buffering the load.

As a further improvement to the scheme, a servo motor I7 is mounted on the transverse screw rod 6, and stopping and displacement at any transverse position are achieved.

As a further improvement of the above scheme, one end of the longitudinal screw rod 10 is connected to one end of the bottom plate of the hanger 8 through a bearing seat 9, the other end of the longitudinal screw rod is connected to the other end of the bottom plate of the hanger 8 through a seat plate, a second servo motor 21 is installed on the outer vertical surface of the seat plate, and a stop column 22 and a limit switch 23 are arranged on the inner sides of the seat plate and the bearing seat, so that the second servo motor 21 is prevented from being out of control and the hanger 8 is protected.

As a further improvement to the above scheme, the lower end of the screw sleeve 25 is sleeved in the sliding sleeve 27, the sliding sleeve 27 is sleeved in the first bearing 26, and the first bearing 26 is installed in a hole formed in the supporting plate 28, so that the screw sleeve 25 can move up and down based on the sliding sleeve 27 and rotate spirally based on the first bearing 26.

As a further improvement to the above scheme, the second bearing 35 is sleeved on the optical axis 34, and the second bearing 35 is sleeved in the hole of the lining plate 41, so that the optical axis 34 can penetrate through the lining plate 41 to be fixed and limited, and can rotate.

As a further improvement of the above scheme, the screw sleeve 25 and the guide post 36 are symmetrically arranged on the lower surface of the supporting plate 19, the guide post 36 is arranged outside the screw sleeve 25, the screw sleeve 25 realizes the lifting of the supporting plate 19, and the guide post 36 ensures the horizontal displacement of the supporting plate 19 in the lifting process, so that the upper surface of the door panel placed on the supporting plate 19 is in a horizontal state.

As a further improvement of the scheme, a double-shaft servo motor III 33 is utilized to drive the screw 29 to rotate through bevel gear engagement, and then the screw sleeve 20 barrel is driven to move up and down, so that the height of the supporting plate 19 is suitable for the door panel taking and placing operation and the observation of the carving operation situation of an operator, the screw sleeve 20 barrel generates rotary lifting during the lifting and lowering movement, the sliding sleeve 27 fixedly connected outside the screw sleeve 20 barrel realizes the height linear lifting, the screw sleeve 20 barrel rotates along with the screw 29, and the bearing I26 arranged outside the sliding sleeve 27 realizes the rotation.

As a further improvement of the above scheme, two ends of a door panel to be engraved are fixed on a supporting plate 19, a third servo motor 33 is started, the third servo motor 33 works to realize that the door panel on the supporting plate 19 is contacted with a nicking tool, at the moment, the nicking tool automatically runs to one corner by finding the position, a second servo motor 21 works, the nicking tool is driven to rotate by a longitudinal lead screw 10 to perform longitudinal displacement engraving, meanwhile, a first servo motor 7 also works to drive a threaded sliding sleeve 275 to perform transverse displacement by a transverse lead screw 6, and displacement cutting of the nicking tool in the cutting process is realized by the transverse lead screw 6 and the longitudinal lead screw 10 in two directions; in addition, the sliding block 4 arranged on the threaded sliding sleeve 275 has a bearing function, so that the phenomenon that the transverse screw rod 6 is deformed due to bearing is avoided, the feeding force and the cutting force of the supporting plate 19 generated by lifting to the nicking tool and driven by the servo motor IV 16 to rotate are compensated through the spring sleeved on the hanging rod 12, and the nicking tool is prevented from being damaged due to too large load in the cutting displacement process.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A device for carving patterns on the surface of a solid wood door comprises a platform plate and is characterized in that portal frames are symmetrically arranged at two ends of the platform plate, a straight rail is connected in the middle of the top of the portal frame, sliders are symmetrically clamped and matched below the straight rail and fixedly connected with two ends of a threaded sliding sleeve, the threaded sliding sleeve is in threaded fit with a transverse lead screw, two ends of the transverse lead screw are mounted on a transverse lining of the portal frame through a bearing seat, a hanging bracket is fixedly connected below the threaded sliding sleeve, a longitudinal lead screw is symmetrically arranged on the lower surface of a bottom plate of the hanging bracket, a threaded sleeve is sleeved on the longitudinal lead screw, a hanging seat is sleeved outside the threaded sleeve, a hanging rod is sleeved below the hanging seat, the lower end of the hanging rod is connected with a hanging plate, a first spring is sleeved on the hanging rod, a fourth servo motor;

the supporting plate is arranged on the platform plate, the lower plane of the supporting plate is provided with a screw sleeve through a bearing seat, the lower end of the screw sleeve is communicated with the supporting plate in a loose joint mode, the lower end of the screw sleeve is connected with the upper end of a screw rod in internal thread connection mode, the lower end of the screw rod is connected with an optical shaft through a coupler, the optical shaft is communicated with the lining plate, the lower end of the optical shaft is connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear, the bevel gear is sleeved on a two-way double shaft of a third servo motor, the third servo motor is arranged on the lower surface of the lining plate, the supporting.

2. The device for engraving patterns on the surface of a solid wood door as claimed in claim 1, wherein the lower end of the suspension rod is provided with a baffle for limiting.

3. The apparatus for engraving patterns on the surface of a solid wood door according to claim 1, wherein the transverse screw rod is provided with a first servo motor.

4. The device for engraving patterns on the surface of the solid wood door as claimed in claim 1, wherein one end of the longitudinal screw rod is connected to one end of the bottom plate of the hanger through a bearing seat, the other end of the longitudinal screw rod is connected to the other end of the bottom plate of the hanger through a seat plate, a second servo motor is installed on the outer vertical surface of the seat plate, and a stop column and a limit switch are arranged on the inner sides of the seat plate and the bearing seat.

5. The device for engraving patterns on the surface of the solid wood door as claimed in claim 1, wherein the lower end of the screw sleeve is sleeved in the sliding sleeve, the sliding sleeve is sleeved in the first bearing, and the first bearing is installed in the hole formed in the supporting plate.

6. The device of claim 1, wherein the optical axis is sleeved with a second bearing, and the second bearing is sleeved in the hole of the lining plate.

7. The apparatus as claimed in claim 1, wherein the supporting plate has a screw sleeve and a guide post symmetrically disposed on the lower surface thereof, and the guide post is disposed outside the screw sleeve.

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