CN117944136A - Arc-shaped decorative plate processing device and technology - Google Patents

Abstract

The application relates to the technical field of plate processing, in particular to an arc-shaped decorative plate processing device and process, wherein the arc-shaped decorative plate processing process comprises the steps of processing grooves, forming notches, gluing, splicing decorative plates and bending and shaping; the arc-shaped plaque processing device comprises a machine table, a milling assembly, a grooving assembly and a rolling brush assembly; the milling assembly, the grooving assembly and the rolling brush assembly are sequentially matched and installed on the machine table along the length direction of the machine table, the milling assembly can process grooves, the grooving assembly can be provided with notches, and the rolling brush assembly can be used for gluing; the application can realize the continuous processing technology of processing grooves, forming notches and rolling glue in the arc-shaped decorative plate processing process, lighten the labor intensity of workers, avoid the problem that the quality of finished products is influenced by the process and experience of a woodworker when manual processing is adopted, effectively improve the working efficiency of arc-shaped decorative plate processing, and improve the beautiful appearance of the spliced decorative plate after the arc-shaped decorative plate processing.

Description

Arc-shaped decorative plate processing device and technology

Technical Field

The application relates to the technical field of plate processing, in particular to an arc-shaped decorative plate processing device and an arc-shaped decorative plate processing technology.

Background

Along with the continuous improvement of the life quality of people, the aesthetic requirements on furniture are further increased, the arc shape on the furniture can generate a soft effect, the psychological safety is brought to people, the smooth arc space also has the visual effect of extension improvement, and the arc shape has artistic quality when being applied to indoor decoration, so that the arc shape of the furniture is popular in the market.

The arc shape of furniture is manufactured by processing arc plate, and common arc plate manufacturing processes include steam method, lamination method, incision method, high-frequency mould pressing and cork self-bending process. Among them, the most common is a slitting method, i.e., a slitting bending process, which achieves the purpose of bending a plate material by making a slit in one side of the plate material. Notches with certain width and depth are arranged at intervals, and the smaller the curvature radius of the plate material which can be bent is along with the increase of the number of notches.

In the related art, when an arc plate is produced by adopting a notch bending method, a woodworker master cuts grooves one by one, then coats glue on the grooves, and bends and shapes the grooves; the processing mode of grooving one by one is long in time consumption, the quality of finished products is influenced by the process and experience of woodworking master, and the working efficiency is low; meanwhile, one side of the plate is damaged due to the fact that the grooving is carried out on one side of the plate, and the attractiveness of the plate is affected.

Therefore, how to improve the processing and manufacturing efficiency and the aesthetic degree of the arc-shaped plate is a problem to be solved by those skilled in the art.

Disclosure of Invention

In order to improve the processing and manufacturing efficiency and the aesthetic degree of the arc-shaped plate, the application provides a processing device and a processing technology of an arc-shaped decorative plate.

The application provides an arc-shaped plaque processing device and a process, which adopt the following technical scheme:

In a first aspect, the present application provides a processing technology for an arc-shaped plaque, specifically including the following steps:

s1, machining a groove on a side surface to be bent of a flat plate;

S2, forming a plurality of equidistant notches in the grooves of the flat plate;

S3, gluing on the notch inside the groove;

S4, splicing the decorative plate in the groove;

S5, positioning the flat plate in a die, and bending and shaping the flat plate by using the die.

By adopting the technical scheme, the groove is processed on the side surface to be bent of the flat plate, so that the thickness of the flat plate can be reduced, and the flat plate is easier to bend; the glue can be applied to the inside of the groove, so that the waste of glue solution caused by overlarge glue application area is avoided; the decorative plate can be spliced in the groove, so that the trace of the notch formed in the groove is shielded after the processing is finished, and the appearance of the finished plate is improved.

In a second aspect, the present application provides an arc-shaped plaque processing apparatus, comprising:

a machine table;

the milling component is arranged on the machine table and is used for processing a groove on the side surface to be bent of the flat plate;

the grooving assembly is arranged on the machine and is used for forming a plurality of equidistant notches in the grooves of the flat plate;

the rolling brush assembly is arranged on the machine table and used for gluing on the notch in the groove;

The milling assembly, the grooving assembly and the rolling brush assembly are sequentially arranged along the length direction of the machine table.

By adopting the technical scheme, the processing technology of processing the groove, forming the notch and rolling the glue in the arc-shaped decorative plate processing process can be realized continuously, the problem that the quality of a finished product is influenced by the master technology and experience of a woodworker during manual processing can be avoided, and the working efficiency of arc-shaped decorative plate processing is effectively improved.

Preferably, the machine comprises a frame, fixedly mounted with first mounting panel in the frame, be equipped with elevating gear on the first mounting panel, fixedly connected with second mounting panel on the elevating gear, correspond on the second mounting panel milling assembly has seted up first hole of dodging, correspond on the second mounting panel the grooving assembly has seted up the second hole of dodging, correspond on the second mounting panel the third hole of dodging has been seted up to the round brush subassembly.

Through adopting above-mentioned technical scheme, combine the technology process to milling subassembly, grooving subassembly, round brush assembly's mounted position to carry out reasonable arrangement, guaranteed stability and reliability of milling subassembly, grooving subassembly, round brush assembly in arc plaque course of working.

Preferably, the milling assembly comprises a milling cutter disc, the milling cutter disc is located in the first avoidance hole, a milling cutter blade is arranged at one end, close to the second mounting plate, of the milling cutter disc, an electric telescopic shaft is arranged at one end, close to the first mounting plate, of the milling cutter disc, and a driving device used for driving the electric telescopic shaft to rotate is connected to the outer side of one end, far away from the milling cutter disc, of the electric telescopic shaft in a transmission mode.

Through adopting above-mentioned technical scheme, when utilizing milling assembly to process the recess to the flat board, because the milling cutter piece sets up at the top of milling cutter dish, the smear metal and the dust that produce in the course of working will get into between first mounting panel and the second mounting panel through first dodging the hole, have reduced the probability that smear metal and dust are raised outward, are favorable to guaranteeing operational environment and staff's health.

Preferably, the milling cutter disc is close to one end of the second mounting plate and is provided with an installation groove which is symmetrical in center with the center of the milling cutter disc, a cutter seat which is connected with the milling cutter disc in a sliding mode is arranged in the installation groove, a milling cutter blade is fixedly installed inside the cutter seat, an adjusting disc is connected inside the milling cutter disc in a rotating mode, one side, which is close to the cutter seat, of the adjusting disc is provided with a spiral guide rail, one end, which is located inside the milling cutter disc, of the cutter disc is provided with a chute matched with the guide rail, the adjusting disc is located in a spiral shape, the center of the guide rail is fixedly connected with an adjusting column which penetrates through the outer end of the milling cutter disc, a blind hole is formed in the position, away from the end portion of the milling cutter disc, of the adjusting column, and the section shape of the blind hole is a regular hexagon matched with a wrench.

Through adopting above-mentioned technical scheme, utilize the spanner of standard to insert inside the blind hole and twist the adjusting column, the adjusting column will drive the regulating disk and rotate, just can drive the blade holder and slide along the mounting groove through the guide rail of volute when the regulating disk rotates to can realize adjusting the position of milling cutter piece, and then can be convenient realization adjust the width of recess processing.

Preferably, the driving device comprises a first motor, the first motor is fixedly arranged on the first mounting plate, a driving sprocket coaxially arranged is fixedly connected on an output shaft of the first motor, two symmetrically arranged vertical plates are fixedly connected on the first mounting plate, the vertical plates are arranged in the length direction of the first mounting plate, two rotatable tensioning wheels are arranged on the vertical plates, driven sprockets are fixedly connected on the outer sides of the electric telescopic shafts, chains are connected between the tensioning wheels in a driving mode, and the driving sprocket, the tensioning wheels and the driven sprockets are all arranged on the same plane and are in transmission connection with the chains.

Through adopting above-mentioned technical scheme, utilize first motor to drive through chain drive's mode electric telescopic shaft drive milling cutter dish rotates, make full use of chain drive's advantage, guaranteed drive arrangement's work high efficiency reliable, can work in adverse circumstances such as high temperature, humidity, dustiness, pollution, reduced the influence of the smear metal and the dust that produce in the course of working to drive arrangement.

Preferably, the outside rotation of electric telescopic handle is connected with the bearing housing, the bearing housing with be equipped with first electric telescopic handle between the riser, the stiff end fixed mounting of first electric telescopic handle is in on the riser, the flexible end fixed connection of first electric telescopic handle is in on the bearing housing, electric telescopic handle is close to the unsettled setting of one end of first mounting panel.

Through adopting above-mentioned technical scheme, when utilizing first electric telescopic handle to stretch out and draw back, can drive electric telescopic shaft and remove to can adjust electric telescopic shaft's position, and then the position of recess processing is adjusted in realization that can be convenient.

Preferably, the grooving assembly comprises a plurality of cutting pieces arranged at intervals in parallel, the cutting pieces are positioned inside the second avoidance holes, a first mounting shaft is connected to the center transmission of the cutting pieces, the first mounting shaft is rotationally connected to the vertical plates arranged in two symmetrical mode, one end of the first mounting shaft penetrates through the outer portions of the vertical plates, a first driven belt wheel is fixedly arranged on the outer side face of each of the outer portions of the vertical plates, a second motor is fixedly arranged on the frame, a driving belt wheel is fixedly connected to the outer side of an output shaft of the second motor, a first driving belt is arranged between the driving belt wheel and the first driven belt wheel, and the first driving belt is in transmission connection with the driving belt wheel and the first driven belt wheel.

Through adopting above-mentioned technical scheme, utilize a plurality of cutting pieces that set up side by side at intervals to set up the notch to the flat board, can realize seting up a plurality of notches simultaneously, further improved the work efficiency of arc plaque processing.

Preferably, the rolling brush assembly comprises a brush roller, the brush roller is arranged in the third avoidance hole, a second installation shaft in transmission connection with the brush roller is arranged in the center of the brush roller, the second installation shaft is rotationally connected to the second installation plate, one end of the second installation shaft penetrates through the outer portion of the vertical plate, a avoidance groove for the second installation shaft to move is formed in the vertical plate, a second driven belt pulley is fixedly arranged on the outer side face of the outer portion of the vertical plate and located, a second driving belt is arranged between the second driven belt pulley and the first driven belt pulley, and the second driving belt is in transmission connection with the second driven belt pulley and the first driven belt pulley.

Through adopting above-mentioned technical scheme, utilize the second drive belt can drive second driven pulley and brush roller through first driven pulley when seting up the notch and carry out the round brush operation, utilize same second motor can accomplish the required power of fluting, also guaranteed the required power when the rubber coating operation, effectually reduced the processing cost in the arc plaque course of working.

Preferably, the second mounting plate is fixedly connected with a glue solution box, the second mounting shaft is rotationally connected to the side wall of the glue solution box, glue solution is stored in the glue solution box, the opening of the glue solution box is in sealing connection with the outer side face of the third avoiding hole, the brush roller is arranged in the glue solution box, a placing groove is formed in the second mounting plate, a decorative plate can be fixedly placed in the placing groove, and the placing groove is communicated with the third avoiding hole.

By adopting the technical scheme, the glue solution is stored in the glue solution box, so that the glue solution can be automatically supplemented to the brush roller in the working process, and the automation degree in the arc-shaped decorative plate processing process is effectively improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. The application optimizes the notch bending process, and the groove is processed on the side surface to be bent of the flat plate, so that the thickness of the flat plate can be reduced, and the flat plate is easier to bend; the glue can be applied to the inside of the groove, so that the waste of glue solution caused by overlarge glue application area is avoided; the decorative plate can be spliced in the groove, so that the trace of the notch formed in the groove is shielded after the processing is finished, and the appearance of the plate after finishing is improved;

2. The application provides an arc-shaped plaque processing device, which can realize the processing technology of continuously finishing processing grooves, forming notches and rolling glue in the arc-shaped plaque processing process, can also avoid the problem that the quality of finished products is influenced by the process and experience of a woodworker during manual processing, and effectively improves the working efficiency of arc-shaped plaque processing;

3. According to the processing mode adopted by the application, when the flat plate is processed, whether the groove is processed, the notch is formed or the glue is coated on the notch is carried out in a state that the processing surface of the flat plate is downward, so that dust generated during the processing of the groove and the notch is introduced between the first mounting plate and the second mounting plate through the first avoiding hole and the second avoiding hole, and the probability of outward lifting of chips and dust is reduced; the glue can also effectively avoid the odor generated by the glue solution from being emitted in the air directly in a large range during the glue coating, thereby being beneficial to ensuring the health of working environment and staff.

Drawings

Fig. 1 is a flowchart of a process for manufacturing an arc-shaped plaque according to embodiment 1 of the present application.

Fig. 2 is a schematic view of the structure of the arc-shaped plaque before processing.

Fig. 3 is a schematic view of the structure of the arc-shaped decoration plate after being processed.

Fig. 4 is a schematic overall structure of an arc-shaped plaque processing apparatus according to embodiment 2 of the present application.

Fig. 5 is a schematic view showing the mounting structure of a milling assembly of an arc-shaped plaque processing apparatus according to embodiment 2 of the present application.

Fig. 6 is an enlarged schematic view of the portion a of fig. 5.

Fig. 7 is a schematic perspective view of a milling assembly of the arc-shaped plaque processing apparatus of embodiment 2 of the present application.

Fig. 8 is a schematic view showing a driving structure of a milling assembly of the arc-shaped plaque processing apparatus according to embodiment 2 of the present application.

Fig. 9 is a schematic view showing a mounting structure of a slot cutting assembly of an arc-shaped plaque processing apparatus according to embodiment 2 of the present application.

Fig. 10 is a schematic view showing the installation structure of a rolling brush assembly of an arc-shaped plaque processing apparatus according to embodiment 2 of the present application.

Reference numerals illustrate: 100. a flat plate; 101. a groove; 102. a notch; 103. a decorative plate; 200. a machine table; 201. a frame; 202. a first mounting plate; 203. a riser; 204. a lifting device; 205. a second mounting plate; 206. a first avoidance hole; 207. a second avoidance hole; 208. a third avoidance hole; 300. a milling assembly; 301. milling cutter disc; 302. a milling blade; 303. An electric telescopic shaft; 304. a mounting groove; 305. a tool apron; 306. an adjusting plate; 307. a guide rail; 308. a chute; 309. an adjusting column; 310. a blind hole; 400. a slot assembly; 401. cutting the sheet; 402. a first mounting shaft; 403. a first driven pulley; 500. a roller brush assembly; 501. a brush roller; 502. a second mounting shaft; 503. a second driven pulley; 504. a glue solution box; 505. a placement groove; 600. a first motor; 601. a drive sprocket; 602. a tensioning wheel; 603. a driven sprocket; 604. a chain; 605. a bearing sleeve; 606. a first electric telescopic rod; 700. a second motor; 701. a driving pulley; 702. a first belt; 703. and a second belt.

Detailed Description

The application is described in further detail below with reference to fig. 1-10.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

The embodiment of the application discloses a processing device and a processing technology of an arc-shaped decorative plate.

Example 1

Referring to fig. 1, fig. 2 and fig. 3 together, in one embodiment of the application, an arc-shaped decoration board processing technology specifically includes the following steps:

s1, machining a groove 101 on a side surface to be bent of a flat plate 100;

S2, forming a plurality of equidistant notches 102 in the groove 101 of the flat plate 100;

s3, gluing on the notch 102 in the groove 101;

S4, splicing the decorative plate 103 in the groove 101, wherein the decorative plate 103 is made of a material with bending performance, such as plastic material, the thickness of the decorative plate 103 is equal to the depth of the groove 101, the width of the decorative plate 103 is equal to the width of the groove 101, and the length of the decorative plate 103 is equal to the length of the groove 101;

S4, positioning the flat plate 100 in a mold, and bending and shaping the flat plate 100 by using the mold.

In the present embodiment, the groove 101 is formed on the side to be bent of the flat plate 100, so that the thickness of the flat plate 100 can be reduced, and the flat plate 100 is easier to bend; the glue can be applied to the inside of the groove 101, so that the waste of glue solution caused by overlarge glue application area is avoided; the decorative plate 103 can be spliced in the groove 101, so that the trace of the notch 102 formed in the groove 101 is shielded after the processing is finished, and the appearance of the finished plate is improved.

Example 2

Referring to fig. 4, in an embodiment of the present application, an arc-shaped plaque processing apparatus includes a machine 200, a milling assembly 300, a grooving assembly 400, and a rolling brush assembly 500; the milling assembly 300, the grooving assembly 400 and the rolling brush assembly 500 are all matched and installed on the machine table 200; the milling assembly 300, the grooving assembly 400 and the rolling brush assembly 500 are sequentially arranged along the length direction of the machine 200; the milling component 300 is used for machining a groove 101 on the side surface to be bent of the flat plate 100, the grooving component 400 can be used for forming a plurality of equidistant notches 102 in the groove 101 of the flat plate 100, and the rolling brush component 500 can be used for gluing the notches 102 in the groove 101; the milling assembly 300 and the grooving assembly 400 are arranged along the length direction of the machine 200 so that the grooving assembly 400 performs grooving on the flat plate 100 at the position where the milling assembly 300 processes the groove 101; the slot assembly 400 and the rolling brush assembly 500 are disposed along the length direction of the machine 200 such that the rolling brush assembly 500 is coated on the flat plate 100 at the position of the slot assembly 400 where the slot is cut.

In the present embodiment, the milling unit 300, the grooving unit 400, and the rolling brush unit 500 are sequentially provided in the longitudinal direction of the machine 200. In the working process, a worker only needs to place the flat plate 100 on the machine table 200 and push the flat plate along the length direction of the machine table 200, so that the processing technology of processing the groove 101, forming the notch 102 and rolling and brushing glue in the arc-shaped decorative plate processing process can be continuously completed, the labor intensity of the worker can be greatly reduced, the problem that the quality of a finished product is influenced by the master woodworking skill and experience in the manual processing can be avoided, and the working efficiency of arc-shaped decorative plate processing is effectively improved.

Referring to fig. 4 and fig. 5 together, in an embodiment of the application, a machine 200 includes a frame 201, a first mounting plate 202 is fixedly connected to an upper surface of the frame 201, and two vertical plates 203 symmetrically arranged are fixedly connected to two side surfaces of the first mounting plate 202 along a length direction thereof. The first mounting plate 202 is provided with a lifting device 204, the lifting device 204 is fixedly connected with a second mounting plate 205, and the second mounting plate 205 is in sliding connection with the vertical plate 203.

By providing the second mounting plate 205, the flat plate 100 can be placed on the second mounting plate 205 during the processing of the arc decoration plate, and the flat plate 100 can be smoothly pushed along the second mounting plate 205, so that the groove 101 and the notch 102 can be processed on the flat plate 100 through the milling assembly 300 and the grooving assembly 400. And the lifting device 204 is arranged between the second mounting plate 205 and the first mounting plate 202, the second mounting plate 205 can be conveniently controlled to slide up and down along the vertical plate 203 through the lifting device 204, and the machining depth of the milling assembly 300 and the grooving assembly 400 in the machining process can be correspondingly adjusted when the second mounting plate 205 is controlled to slide up and down.

In one embodiment of the present application, the lifting device 204 is configured as an electric telescopic rod electric push rod, because the electric push rod can be directly controlled in an electric control manner, and the lifting device has the advantages of convenience in installation and simplicity in control.

It is understood that in other embodiments of the present application, the lifting device 204 may also be configured as a hydraulic telescopic cylinder, a pneumatic telescopic cylinder, or other mechanical structure with lifting function.

Referring to fig. 4, in an embodiment of the present application, a first avoidance hole 206, a second avoidance hole 207, and a third avoidance hole 208 are formed in the second mounting plate 205, the first avoidance hole 206, the second avoidance hole 207, and the third avoidance hole 208 are sequentially disposed along a length direction of the second mounting plate 205, the first avoidance hole 206 corresponds to the milling assembly 300, the second avoidance hole 207 corresponds to the grooving assembly 400, and the third avoidance hole 208 corresponds to the rolling brush assembly 500.

In this embodiment, by providing the first avoidance hole 206 and the second avoidance hole 207, the milling assembly 300 and the grooving assembly 400 can be conveniently processed on the surface of the flat plate 100, and chips and/or dust generated by the milling assembly 300 and the grooving assembly 400 can be discharged through the first avoidance hole 206 and the second avoidance hole 207 in the processing process. The third avoiding holes 208 are formed, so that the rolling brush assembly 500 can conveniently and rapidly perform the gluing operation on the surface of the flat plate 100, and glue liquid required by gluing can be continuously supplemented through the third avoiding holes 208, so that the continuity of the processing process is ensured.

Referring to fig. 5, 6 and 7 together, in one embodiment of the present application, the milling assembly 300 includes a milling cutter 301, milling blades 302, an electric telescopic shaft 303 and a driving device, the milling cutter 301 is located in the first avoiding hole 206, one end of the milling cutter 301 near the second mounting plate 205 is provided with a plurality of milling blades 302 symmetrically arranged around a central axis of the milling cutter 301, one end of the milling cutter 301 near the first mounting plate 202 is fixedly connected with the electric telescopic shaft 303, the electric telescopic shaft 303 is coaxially arranged with the central axis of the milling cutter 301, and one end of the electric telescopic shaft 303 far away from the milling cutter 301 is in transmission connection with the driving device.

In this embodiment, the electric telescopic shaft 303 is driven by the driving device to rotate so as to drive the milling cutter 301 to rotate, and the milling cutter 301 can drive the milling cutter blade 302 to mill the groove 101 on the flat plate 100 when rotating, and when the milling cutter blade 302 mills the groove 101 on the flat plate 100, the milling cutter blade 302 is arranged at the top of the milling cutter 301, and the chips and dust generated in the processing process can enter between the first mounting plate 202 and the second mounting plate 205 through the first avoiding hole 206, so that the probability of outward lifting of the chips and dust is reduced, and the working environment and the health of staff are guaranteed.

Referring to fig. 6, in one embodiment of the present application, the electric telescopic shaft 303 is composed of a shaft barrel, a second electric push rod and a spline shaft, wherein one end of the shaft barrel is provided with an opening, the other end of the shaft barrel is closed, the inner side surface of the shaft barrel is provided with a spline groove, the spline shaft is slidably mounted inside the shaft barrel through the spline groove, the second electric push rod is fixedly mounted between one end of the spline shaft inside the shaft barrel and the closed end of the shaft barrel, and one end of the spline shaft outside the shaft barrel is fixedly connected with the milling cutter head 301 in a coaxial manner.

According to the embodiment, the spline shaft can be driven to stretch out and draw back by controlling the second electric push rod, and then the milling cutter disc 301 can be driven to lift, the heights of the milling cutter disc 301 and the milling cutter blade 302 can be independently adjusted through the design, and then the machining depth of the groove 101 can be conveniently adjusted.

It will be appreciated that in other embodiments of the present application, the motorized telescopic shaft 303 may also be implemented directly as a shaft that is capable of both controlled telescopic and torque transfer as is known in the art.

Referring to fig. 6 and 7 together, in one embodiment of the present application, a plurality of mounting slots 304 which are symmetrical about the center of the milling cutter 301 are provided at one end of the milling cutter 301 near the second mounting plate 205, a cutter holder 305 is slidably connected inside the mounting slots 304, a milling cutter blade 302 is fixedly mounted inside the cutter holder 305, an adjusting disk 306 is rotatably connected inside the milling cutter 301, a guide rail 307 is provided at one side of the adjusting disk 306 near the cutter holder 305, the guide rail 307 is in a spiral shape, a chute 308 matched with the guide rail is provided at one end of the cutter holder 305 inside the milling cutter 301, an adjusting column 309 penetrating to the outer end of the milling cutter 301 is fixedly connected at the center of the spiral guide rail 307, a blind hole 310 is provided at the end of the adjusting column 309 far from the milling cutter 301, and the cross section of the blind hole 310 is in a regular hexagon matched with a wrench.

In this embodiment, when in use, a worker can insert the inside of the blind hole 310 and twist the adjusting column 309 through a standard wrench, the adjusting column 309 can drive the adjusting disk 306 to rotate, and the adjusting disk 306 can drive the tool apron 305 to slide along the mounting groove 304 through the spiral guide rail 307 when rotating, so that the position of the milling cutter blade 302 can be adjusted, and the machining width of the groove 101 can be conveniently adjusted.

Referring to fig. 5 and 8 together, in one embodiment of the present application, the driving device includes a first motor 600, a driving sprocket 601, two symmetrically arranged tensioning wheels 602, a driven sprocket 603 and a chain 604, wherein the first motor 600 is fixedly mounted on the first mounting plate 202, the driving sprocket 601 is fixedly connected to an output shaft of the first motor 600, the two tensioning wheels 602 are rotatably mounted on the two risers 203 respectively through mounting brackets, the driven sprocket 603 is fixedly connected to the outer side of the electric telescopic shaft 303, the chain 604 is simultaneously in transmission connection with the driving sprocket 601, the tensioning wheels 602 and the driven sprocket 603, and the driving sprocket 601, the tensioning wheels 602 and the driven sprocket 603 are all disposed on the same plane.

In this embodiment, the first motor 600 is used to drive the electric telescopic shaft 303 to drive the milling cutter 301 to rotate in a chain transmission manner, so that the advantage of chain transmission is fully utilized, the high efficiency and reliability of the operation of the driving device are ensured, the driving device can operate in severe environments such as high temperature, humidity, dust, pollution and the like, and the influence of chips and dust generated in the processing process on the driving device is reduced.

Referring to fig. 5 and 8 together, in one embodiment of the present application, a bearing sleeve 605 rotatably connected to the outer side of the electric telescopic shaft 303 is provided, a first electric telescopic rod 606 is provided between the bearing sleeve 605 and the vertical plate 203, a fixed end of the first electric telescopic rod 606 is fixedly mounted on the vertical plate 203, a telescopic end of the first electric telescopic rod 606 is fixedly connected to the bearing sleeve 605, and one end of the electric telescopic shaft 303 close to the first mounting plate 202 is suspended.

The present embodiment can adjust the position where the groove 101 is machined by using the first electric telescopic rod 606. In the working process, when the first electric telescopic rod 606 stretches out and draws back, the electric telescopic shaft 303 can be driven to move, so that the position of the electric telescopic shaft 303 can be adjusted, and the machining position of the groove 101 can be conveniently adjusted.

It will be appreciated that in other embodiments of the present application, a sliding structure may be provided between the end of the electric telescopic shaft 303 near the first mounting plate 202 and the first mounting plate 202 to move in cooperation with the electric telescopic shaft 303.

Referring to fig. 4 and 9 together, in an embodiment of the present application, the slot assembly 400 includes a plurality of cutting blades 401, a first mounting shaft 402 and a first driven pulley 403, which are arranged in parallel at intervals, the cutting blades 401 are located inside the second avoidance holes 207, the first mounting shaft 402 is rotatably connected to two symmetrically arranged risers 203, the cutting blades 401 are detachably mounted on the outside of the first mounting shaft 402 and are in transmission connection with the first mounting shaft 402, one end of the first mounting shaft 402 penetrates to the outside of the riser 203, the first driven pulley 403 is fixedly mounted on the outer side surface of the first mounting shaft 402 located outside the riser 203, a second motor 700 is fixedly mounted on the frame 201, a driving pulley 701 is fixedly connected to the outer side of an output shaft of the second motor 700, a first driving belt 702 is arranged between the driving pulley 701 and the first driven pulley 403, and the first driving belt 702 is in transmission connection with the driving pulley 701 and the first driven pulley 403.

In this embodiment, the notch 102 is formed in the flat plate 100 by using the plurality of cutting pieces 401 arranged in parallel at intervals, so that a plurality of notches 102 can be formed simultaneously, and the working efficiency of processing the arc-shaped decorative plate is further improved.

Referring to fig. 4 and 10 together, in an embodiment of the present application, a rolling brush assembly 500 includes a brush roller 501, a second mounting shaft 502 and a second driven pulley 503, wherein the brush roller 501 is disposed inside the third avoidance hole 208 and is mounted outside the second mounting shaft 502, the brush roller 501 is coaxially connected with the second mounting shaft 502 in a transmission manner, the second mounting shaft 502 is rotatably connected to the second mounting plate 205, one end of the second mounting shaft 502 extends through to the outside of the riser 203, the riser 203 is provided with a avoidance groove 506 for the second mounting shaft 502 to move, the outer side surface of the second mounting shaft 502 outside the riser 203 is fixedly provided with the second driven pulley 503, a second driving belt 703 is disposed between the second driven pulley 503 and the first driven pulley 403, and the second driving belt 703 is in transmission connection with the second driven pulley 503 and the first driven pulley 403.

In this embodiment, the second driving belt 703 can drive the second driven belt pulley 503 and the brush roller 501 to perform the rolling brush operation through the first driven belt pulley 403 while the notch 102 is formed, and the same second motor 700 is utilized to complete the power required by slotting, so that the power required during the gluing operation is ensured, and the processing cost in the processing process of the arc-shaped decorative plate is effectively reduced.

Referring to fig. 4 and 10 together, in an embodiment of the present application, a glue solution box 504 is installed on a second installation plate 205, a second installation shaft 502 is rotatably connected to a side wall of the glue solution box 504, a glue solution is stored in the glue solution box 504, an opening of the glue solution box 504 is hermetically connected to an outer side surface of a third avoidance hole 208, a brush roller 501 is disposed in the glue solution box 504, a placement groove 505 is formed on the second installation plate 205, a decorative board 103 can be fixedly placed in the placement groove 505, and the placement groove 505 is communicated with the third avoidance hole 208.

According to the embodiment, the glue solution is stored in the glue solution box 504, so that the glue solution can be automatically supplemented to the brush roller 501 in the working process, and the automation degree in the arc-shaped decorative plate processing process is effectively improved.

The embodiment of the application relates to an arc-shaped plaque processing device and a process implementation principle thereof, wherein the arc-shaped plaque processing device comprises:

In the arc plaque processing process, the staff only needs to place the flat plate 100 on the second mounting plate 205 of the machine table 200 and push the flat plate along the length direction of the second mounting plate 205, so that the processing technology of processing the groove 101, forming the notch 102 and rolling and brushing glue in the arc plaque processing process can be continuously completed, the labor intensity of the staff can be greatly reduced, the problem that the quality of a finished product is influenced by the process and experience of a woodworker during manual processing can be avoided, and the working efficiency of arc plaque processing is effectively improved.

In the working process, when the position and the size of the groove 101 are required to be adjusted, only the first electric telescopic rod 606 is required to be controlled to stretch, and the electric telescopic shaft 303 can be driven to move, so that the positions of the electric telescopic shaft 303, the milling cutter disc 301 and the milling cutter blade 302 can be adjusted, and the position of the groove 101 for processing can be adjusted conveniently. The adjusting column 309 can be inserted into the blind hole 310 and screwed by a standard wrench, the adjusting column 309 can drive the adjusting disc 306 to rotate, and the adjusting disc 306 can drive the tool apron 305 to slide along the mounting groove 304 through the volute guide rail 307 when rotating, so that the position of the milling cutter blade 302 can be adjusted, and the processing width of the groove 101 can be adjusted conveniently. And the heights of the milling cutter disc 301 and the milling cutter blade 302 can be independently adjusted by controlling the electric telescopic shaft 303 to stretch, so that the machining depth of the groove 101 can be conveniently adjusted.

The machining depth of the groove 101 and the notch 102 can also be adjusted simultaneously by the lifting device 204 during the arc-shaped plaque machining process. Because, the second mounting plate 205 can be conveniently controlled to slide up and down along the riser 203 by the lifting device 204, and the machining depth of the milling assembly 300 and the grooving assembly 400 in the machining process can be correspondingly adjusted by controlling the second mounting plate 205 to slide up and down.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (10)

1. The arc plaque processing technology is characterized by comprising the following steps of:

s1, machining a groove (101) on the side surface to be bent of the flat plate (100);

s2, forming a plurality of equidistant notches (102) in the groove (101) of the flat plate (100);

S3, gluing on a notch (102) in the groove (101);

S4, splicing the decorative plate (103) in the groove (101);

s5, positioning the flat plate (100) in a mold, and bending and shaping the flat plate (100) by using the mold.

2. An arc decoration plate processing apparatus, characterized in that the arc decoration plate processing process according to claim 1 processes a flat plate (100), comprising:

A machine (200);

The milling assembly (300) is configured on the machine table (200) and is used for machining a groove (101) on the side surface to be bent of the flat plate (100);

the grooving assembly (400) is configured on the machine table (200) and is used for forming a plurality of equidistant notches (102) in the groove (101) of the flat plate (100);

The rolling brush assembly (500) is arranged on the machine table (200) and is used for gluing on the notch (102) in the groove (101);

The milling assembly (300), the grooving assembly (400) and the rolling brush assembly (500) are sequentially arranged along the length direction of the machine table (200).

3. The arc plaque processing apparatus of claim 2 wherein: the machine table (200) comprises a frame (201), a first mounting plate (202) is fixedly mounted on the frame (201), a lifting device (204) is arranged on the first mounting plate (202), a second mounting plate (205) is fixedly connected to the lifting device (204), a first avoiding hole (206) is formed in the second mounting plate (205) corresponding to the milling assembly (300), a second avoiding hole (207) is formed in the second mounting plate (205) corresponding to the grooving assembly (400), and a third avoiding hole (208) is formed in the second mounting plate (205) corresponding to the rolling brush assembly (500).

4. The arc plaque processing apparatus of claim 3 wherein: milling subassembly (300) are including milling cutter dish (301), milling cutter dish (301) are located in first dodge hole (206), milling cutter dish (301) are close to the one end of second mounting panel (205) is provided with milling cutter piece (302), milling cutter dish (301) are close to one end of first mounting panel (202) is provided with electric telescopic shaft (303), electric telescopic shaft (303) keep away from the one end outside transmission of milling cutter dish (301) is connected with and is used for the drive electric telescopic shaft (303) pivoted drive arrangement.

5. The arc plaque processing apparatus of claim 4 wherein: the milling cutter head (301) is close to one end of the second mounting plate (205) and is provided with a mounting groove (304), a cutter seat (305) is connected inside the mounting groove (304) in a sliding manner, a milling cutter blade (302) is fixedly installed inside the cutter seat (305), an adjusting disc (306) is rotationally connected inside the milling cutter head (301), one side, close to the cutter seat (305), of the adjusting disc (306) is provided with a spiral guide rail (307), one end, located inside the milling cutter head (301), of the cutter seat (305) is provided with a chute (308) matched with the guide rail, an adjusting column (309) is fixedly connected to the center of the adjusting disc (306), the adjusting column (309) penetrates through the outer end of the end portion of the milling cutter head (301) and is provided with a blind hole (310), and the cross section of the blind hole (310) is in a regular hexagon matched with a wrench.

6. The arc plaque processing apparatus of claim 4 wherein: the driving device comprises a first motor (600), the first motor (600) is fixedly arranged on a first mounting plate (202), a driving sprocket (601) which is coaxially arranged is fixedly connected on an output shaft of the first motor (600), two symmetrically arranged risers (203) are fixedly connected on the first mounting plate (202), the risers (203) are arranged along the length direction of the first mounting plate (202), rotatable tensioning wheels (602) are arranged on the two risers (203), driven sprockets (603) are fixedly connected on the outer side of an electric telescopic shaft (303), chains (604) are connected between the tensioning wheels (602) in a transmission mode, and the driving sprocket (601) and the driven sprockets (603) are arranged on the same plane and are in transmission connection with the chains (604).

7. The arc plaque processing apparatus of claim 6 wherein: the outside rotation of electric telescopic shaft (303) is connected with bearing housing (605), bearing housing (605) with be equipped with first electric telescopic handle (606) between riser (203), the stiff end fixed mounting of first electric telescopic handle (606) is in on riser (203), the flexible end fixed connection of first electric telescopic handle (606) is in on bearing housing (605), electric telescopic shaft (303) are close to the unsettled setting of one end of first mounting panel (202).

8. The arc plaque processing apparatus of claim 6 wherein: the grooving assembly (400) comprises a plurality of cutting blades (401) which are arranged at intervals in parallel, the cutting blades (401) are located inside the second avoidance holes (207), a first mounting shaft (402) is connected to the center transmission of the cutting blades (401), the first mounting shaft (402) is rotationally connected to the vertical plates (203) which are symmetrically arranged, one end of the first mounting shaft (402) penetrates through the outer parts of the vertical plates (203), the first mounting shaft (402) is located on the outer side face of the outer parts of the vertical plates (203) and is fixedly provided with a first driven belt pulley (403), a second motor (700) is fixedly arranged on the frame (201), a driving belt pulley (701) is fixedly connected to the outer side of an output shaft of the second motor (700), a first driving belt pulley (702) is arranged between the driving belt pulley (701) and the first driven belt pulley (403), and the first driving belt pulley (702) is in transmission connection with the first driven belt pulley (403).

9. The arc plaque processing apparatus of claim 8 wherein: the round brush subassembly (500) include brush roll (501), brush roll (501) set up in inside hole (208) is dodged to the third, the center of brush roll (501) is equipped with second installation axle (502) of being connected with it transmission, second installation axle (502) rotate and connect on second mounting panel (205), second installation axle (502) one end run through to the outside of riser (203), riser (203) are offered and are supplied dodged groove (506) of second installation axle (502) activity, second installation axle (502) are located outside lateral surface fixed mounting of riser (203) has second driven pulley (503), second driven pulley (503) with be equipped with second drive belt (703) between first driven pulley (403), second drive belt (703) with second driven pulley (503) with first driven pulley (403) transmission is connected.

10. The arc plaque processing apparatus of claim 9 wherein: fixedly connected with glue solution box (504) on second mounting panel (205), second installation axle (502) rotate to be connected on the lateral wall of glue solution box (504), glue solution is stored to inside the deposit of glue solution box (504), the opening part of glue solution box (504) with the lateral surface sealing connection of hole (208) is dodged to the third, brush roll (501) set up in the inside of glue solution box (504), standing groove (505) have been seted up on second mounting panel (205), decorative board (103) can be fixedly placed to inside standing groove (505), standing groove (505) with hole (208) intercommunication is dodged to the third.