CN114633320A - Dustproof type engraving and milling machine and working method thereof - Google Patents

Abstract

The invention discloses a dustproof type router and a working method thereof, and relates to the technical field of routers. According to the invention, the blocking mechanism is arranged outside the area for processing the template raw material and is communicated with the air draft mechanism, so that an air pressure area can be formed outside the processing table, and dust generated by processing can be blocked and recovered to prevent the dust from overflowing to the working area.

Description

Dustproof type engraving and milling machine and working method thereof

Technical Field

The invention relates to the technical field of routing machines, in particular to a dustproof routing machine and a working method thereof.

Background

The common processing timber of router, mainly used sheet material sculpture and the milling of shaping surface add man-hour to timber, can produce a large amount of dust, lead to causing the pollution to the processing environment to can cause the influence to staff's healthy.

Through retrieval, the Chinese patent discloses a gantry type milling machine (publication number: CN113427310A) with a dustproof function, which comprises a base, a working platform and a feeding system, wherein the working platform is fixed on the base, and the feeding system is positioned above the working platform; frames are arranged around the working platform and the feeding system, and transparent protection plates are arranged on the periphery of the frame where the working platform is located to enclose the working platform into a working area; a flexible protective cover is arranged above the working area, so that the working area is completely closed, and the working area is separated from the feeding area; a spindle box of the feeding system penetrates through the flexible protective cover, and a milling cutter at the bottom of the spindle box is positioned above a workpiece of the working platform in a working area; a dust collection system is arranged in the base below the working platform.

In prior art, the dustproof construction of router is comparatively single, adopts closed separation structure, causes the dust easily to pile up the problem inside the device to when adopting closed structure, inconvenient panel with the difference removes to the processing position, leads to machining efficiency to be lower.

Disclosure of Invention

The invention aims to provide a dustproof type router and a working method thereof, and the dustproof type router solves the following technical problems:

how to avoid the dust from overflowing to the working environment and prevent the dust from accumulating in the device when processing the raw materials;

how to improve the processing efficiency, in a closed area, a plurality of groups of raw materials are processed to improve the automation and mechanization of the device.

The purpose of the invention can be realized by the following technical scheme:

a dustproof type engraving and milling machine comprises a processing box, wherein a processing table is installed inside the processing box, a driving frame is installed on the upper side, close to the processing table, inside the processing box, the driving frame is provided with a engraving and milling mechanism at the output end of the driving frame and comprises an X-axis driving component and a Y-axis driving component, the engraving and milling mechanism comprises a longitudinal moving structure, so that the processing range of the device is improved, a plurality of positioning mechanisms which are distributed side by side are installed on the upper side, close to the processing table, inside the processing box, lifting mechanisms are installed on two sides, close to the processing table, inside the processing box, a first moving mechanism and a second moving mechanism are installed on the upper sides, close to the two groups of lifting mechanisms, inside the processing box, and used for moving raw materials inside the device, a blowing mechanism is installed between the outer side of the engraving and the processing box and used for blowing dust downwards to prevent the dust from floating in the air, the upper side of the processing table is provided with a blocking mechanism which is distributed in a rectangular shape, the processing table is internally provided with an air draft mechanism communicated with the blocking mechanism, and the air draft mechanism is used for forming an air channel outside a processing area of the processing table and recycling dust when the dust passes through the air draft mechanism.

As a further scheme of the invention: two sets of side sliding doors are installed on two sides of the front surface of the processing box, one set of side sliding door is opposite to one side of one set of lifting mechanism, when the lifting mechanism descends, processed raw materials can be taken out of the processing box, and the other set of side sliding door is located on the upper side of the other set of lifting mechanism and used for placing unprocessed raw materials into the processing box.

As a further scheme of the invention: first moving mechanism includes the first lead screw driver of level setting, the catch plate is installed to first lead screw driver's output, and the catch plate leans on the one side of processing incasement portion when not using, corresponds one side that the processing platform was kept away from to the lifting mechanism promptly to when starting, can promote the upside to the processing platform with the raw materials of corresponding the uppermost side in the lifting mechanism.

As a further scheme of the invention: the second moving mechanism comprises a second lead screw driver which is horizontally arranged, an assembly frame is installed at the output end of the second lead screw driver, a vacuum pump and an adsorption mechanism which are communicated are installed inside the assembly frame, and a longitudinal electric telescopic structure is arranged inside the adsorption mechanism and is used for being in contact with raw materials on the lower side.

As a further scheme of the invention: lifting mechanism installs the third lead screw driver including setting up the groove of accomodating in processing incasement portion, the one side of accomodating inslot portion, and opposite side fixedly connected with sliding tube, the movable plate that the level set up is installed to the output of third lead screw driver, and a pot head that the third lead screw driver was kept away from to the movable plate is established in the outside of sliding tube for drive raw materials carries out fore-and-aft horizontal migration.

As a further scheme of the invention: the air draft mechanism comprises an assembly groove arranged inside the processing table, a filter bag is arranged inside the assembly groove, a plurality of fans are fixedly connected to the lower side, close to the filter bag, of the assembly groove, and air outlets of the fans are communicated with the outside of the air draft mechanism.

As a further scheme of the invention: separation mechanism include with processing platform fixed connection's fixed frame, the both ends of fixed frame all are provided with the removal frame that distributes in two sets of lifting mechanism one sides, and are two sets of remove between the lower surface of frame and the processing platform fixedly connected with at least a set of third cylinder, the third cylinder is used for driving to correspond and removes the frame and descend to remove the frame after descending, highly not less than the height of processing platform upper surface of its upper surface, it is two sets of remove and be the rectangular distribution between frame and the fixed frame.

As a further scheme of the invention: the adsorption tanks that communicate with the air draft mechanism are seted up to the inside of fixed frame, and the fixed frame has all seted up the intercommunication mouth towards the one end of two sets of removal frames, and is two sets of the intercommunication groove has all been seted up to the inside of removal frame, the intercommunication groove is the same with the length of intercommunication mouth towards the one end length of fixed frame, drives to correspond at the third cylinder and removes the frame back that resets, and the intercommunication groove can communicate with fixed frame to the intercommunication groove passes through intercommunication mouth and adsorption tanks intercommunication, can add man-hour at the raw materials under the drive of air draft mechanism, retrieves the dust.

As a further scheme of the invention: the positioning mechanism comprises a first air cylinder fixedly connected with the processing box, the output end of the first air cylinder is fixedly connected with a pressing plate, the inner portion of the pressing plate is fixedly connected with a second air cylinder, the output end of the second air cylinder extends to one side, far away from the routing mechanism, of the pressing plate, and the output end of the second air cylinder is fixedly connected with a side baffle.

As a further scheme of the invention: the air blowing mechanism comprises an air blower fixedly connected with the processing box and a shielding structure fixedly connected with the routing mechanism, and the shielding structure is distributed on the outer side of the routing mechanism in an umbrella shape.

As a further scheme of the invention: the shielding structure comprises a plate body, wherein a plurality of ventilation grooves distributed concentrically are formed in the plate body, and the ventilation grooves are connected with the air outlet of the air blower through communicating pipes.

The invention also discloses a working method of the dustproof type router, which comprises the following steps:

the method comprises the following steps: placing the raw material stack on the upper side of the first group of lifting mechanisms, and closing the corresponding side push door;

step two: descending a moving frame in the separation mechanism, starting a first moving mechanism, pushing the uppermost raw material to the upper side of the processing table, resetting the moving frame, accommodating the raw material into the inner part surrounded by the separation mechanism, and starting a positioning mechanism to fix the part of the raw material which is not processed;

step three: starting the driving frame and the routing mechanism to process the raw materials, simultaneously starting the air draft mechanism and the air blast mechanism to form an air pressure area outside the processing part, and recovering dust generated by processing through the separation mechanism to prevent the dust from overflowing into the air;

step four: and resetting the positioning mechanism, starting the second moving mechanism, and moving the processed raw material to the upper side of the second group of lifting mechanisms.

The invention has the beneficial effects that:

according to the invention, the blocking mechanism is arranged outside the area processed by the template raw material, and is communicated with the air draft mechanism, so that an air pressure area can be formed outside the processing table, dust generated by processing can be blocked and recovered, and can be prevented from overflowing into a working area, and the air blast mechanism is arranged outside the routing mechanism, so that wind power flowing downwards can be generated, the dust can be blown downwards, and the quality and efficiency of blocking and recovering the dust can be further improved;

on the other hand, two groups of lifting mechanisms and corresponding first moving mechanisms and second moving mechanisms are arranged on two sides, close to the processing table, in the processing box, template raw materials to be processed and processed template raw materials are moved in a closed environment during device processing, so that the automation and the mechanization of processing can be improved, and two groups of moving frames in the blocking mechanism can be accommodated in the processing table when the raw materials are moved, so that the blocking of the template raw materials can be avoided;

furthermore, the inside of processing case is provided with the positioning mechanism that a plurality of distributes side by side at the upside of processing platform, adds man-hour, can push down in the unprocessed region of plank raw materials upside to improve the stability of plank raw materials when adding man-hour, and application scope is big, can adjust each positioning mechanism according to the position of required processing.

Drawings

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

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a top cross-sectional view of the processing box of the present invention;

FIG. 4 is a partial cross-sectional view of a blocking mechanism of the present invention;

FIG. 5 is a side cross-sectional view of the positioning mechanism of the present invention;

FIG. 6 is a cross-sectional view of a shielding structure according to the present invention;

in the figure: 1. a processing box; 2. a processing table; 3. a blocking mechanism; 4. an air draft mechanism; 5. a lifting mechanism; 6. a first moving mechanism; 7. a second moving mechanism; 8. a drive frame; 9. a routing mechanism; 10. a blower mechanism; 11. a positioning mechanism; 110. laterally pushing the door; 61. a first lead screw driver; 62. a push plate; 71. a second lead screw driver; 72. an assembly frame; 73. a vacuum pump; 74. an adsorption mechanism; 101. a blower; 102. a shielding structure; 41. a filter bag; 42. a fan; 111. a first cylinder; 120. pressing a plate; 130. a second cylinder; 140. a side dam; 31. a fixing frame; 32. an adsorption tank; 33. a communication port; 34. moving the frame; 35. a third cylinder; 36. a communicating groove; 1021. a plate body; 1022. a vent channel; 1023. a communicating pipe; 51. a third lead screw driver; 52. and (5) moving the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the invention is a dustproof router, comprising a processing box 1, a processing table 2 is installed inside the processing box 1, a driving frame 8 is installed inside the processing box 1 and close to the upper side of the processing table 2, a routing mechanism 9 is installed at the output end of the driving frame 8, the driving frame 8 comprises an X-axis driving member and a Y-axis driving member, the routing mechanism 9 comprises a longitudinal moving structure, so as to increase the processing range of the device, a plurality of positioning mechanisms 11 are installed inside the processing box 1 and close to the upper side of the processing table 2, a plurality of lifting mechanisms 5 are installed at both sides of the processing box 1 and close to the processing table 2, a first moving mechanism 6 and a second moving mechanism 7 are respectively installed inside the processing box 1 and close to the upper sides of the two groups of lifting mechanisms 5 for moving the raw material inside the device, a blowing mechanism 10 is installed between the outer side of the routing mechanism 9 and the processing box 1, the dust blowing device is used for blowing dust downwards to avoid the dust from overflowing into the air, the blocking mechanism 3 which is distributed in a rectangular shape is installed on the upper side of the processing table 2, the air draft mechanism 4 communicated with the blocking mechanism 3 is installed inside the processing table 2, an air channel is formed outside the processing area of the processing table 2, and the dust is recycled when passing through the air channel.

Two sets of side push doors 110 are installed on two sides of the front surface of the processing box 1, one set of side push doors 110 is over against one side of one set of lifting mechanism 5, when the lifting mechanism 5 descends, processed raw materials can be taken out of the processing box 1, and the other set of side push doors 110 are located on the upper side of the other set of lifting mechanism 5 and used for placing unprocessed raw materials into the processing box 1.

Referring to fig. 2-3, the first moving mechanism 6 includes a first screw driver 61 horizontally disposed, and a pushing plate 62 is installed at an output end of the first screw driver 61, and when the pushing plate 62 is not used, the pushing plate leans against one side of the interior of the processing box 1, that is, one side of the corresponding lifting mechanism 5 far away from the processing table 2, so that when the pushing plate is started, the uppermost raw material in the corresponding lifting mechanism 5 can be pushed to the upper side of the processing table 2.

The second moving mechanism 7 comprises a second screw driver 71 which is horizontally arranged, an assembly frame 72 is installed at the output end of the second screw driver 71, a vacuum pump 73 and an adsorption mechanism 74 which are communicated are installed inside the assembly frame 72, and a longitudinal electric telescopic structure is arranged inside the adsorption mechanism 74 and is used for contacting with the raw material on the lower side.

The lifting mechanism 5 comprises a containing groove arranged inside the processing box 1, a third screw driver 51 is installed on one side of the containing groove, a sliding pipe is fixedly connected to the other side of the containing groove, a horizontally arranged moving plate 52 is installed at the output end of the third screw driver 51, and a pot cover of the moving plate 52 far away from the third screw driver 51 is arranged on the outer side of the sliding pipe and used for driving raw materials to move horizontally.

The air draft mechanism 4 comprises an assembly groove group arranged inside the processing table 2, a filter bag 41 is arranged inside the assembly groove, a plurality of fans 42 are fixedly connected to the lower side, close to the filter bag 41, of the assembly groove, and air outlets of the fans 42 are communicated with the outside of the processing table.

The air blowing mechanism 10 comprises an air blower 101 fixedly connected with the processing box 1 and a shielding structure 102 fixedly connected with the routing mechanism 9, and the shielding structure 102 is distributed outside the routing mechanism 9 in an umbrella shape.

Referring to fig. 4, the blocking mechanism 3 includes a fixed frame 31 fixedly connected to the processing table 2, two ends of the fixed frame 31 are respectively provided with a movable frame 34 distributed on one side of the two sets of lifting mechanisms 5, at least one set of third cylinders 35 is fixedly connected between the lower surfaces of the two sets of movable frames 34 and the processing table 2, the third cylinders 35 are used for driving the corresponding movable frames 34 to descend, and after the movable frames 34 descend, the height of the upper surfaces of the movable frames 34 is not less than the height of the upper surface of the processing table 2, and the two sets of movable frames 34 and the fixed frame 31 are distributed in a rectangular shape.

The adsorption groove 32 that communicates with the air draft mechanism 4 is seted up to the inside of fixed frame 31, and the communicating opening 33 has all been seted up towards the one end of two sets of removal frames 34 to fixed frame 31, communicating groove 36 has all been seted up towards the inside of two sets of removal frames 34, communicating groove 36 is the same with the length of communicating opening 33 towards the one end length of fixed frame 31, drive corresponding removal frame 34 at third cylinder 35 and reset the back, communicating groove 36 can communicate with fixed frame 31, and communicating groove 36 passes through communicating opening 33 and adsorption groove 32 intercommunication, can be under the drive of air draft mechanism 4, add man-hour at the raw materials, retrieve the dust.

Referring to fig. 5, the positioning mechanism 11 includes a first cylinder 111 fixedly connected to the processing box 1, an output end of the first cylinder 111 is fixedly connected to a pressing plate 120, an inner portion of the pressing plate 120 is fixedly connected to a second cylinder 130, an output end of the second cylinder 130 extends to a side of the pressing plate 120 far away from the routing mechanism 9, and an output end of the second cylinder 130 is fixedly connected to a side baffle 140.

Referring to fig. 6, the shielding structure 102 includes a plate 1021, a plurality of concentrically distributed air channels 1022 are disposed inside the plate 1021, and the air channels 1022 are connected to an air outlet of the blower 101 through a communication pipe 1023.

The working principle of the invention is as follows:

the raw material is stacked on the upper side of the first group of lifting mechanisms 5, and during stacking, the third screw rod drivers 51 in the corresponding lifting mechanisms 5 are started to drive the movable plate 52 to descend, after stacking is completed, the bottom of the uppermost wood board raw material is higher than the upper surface of the processing table 2, so that the uppermost wood board raw material is conveniently pushed, and then the corresponding side push doors 110 are closed;

starting the third cylinder 35 of the separation mechanism 3 to lower the moving frame 34, wherein the moving frame 34 is not higher than the upper surface of the processing table 2, then starting the first screw driver 61 in the first moving mechanism 6 to drive the pushing plate 62 to move horizontally, pushing the uppermost board material of the first group of lifting mechanisms 5 to the upper side of the processing table 2, pushing the uppermost material to the upper side of the processing table 2, resetting the moving frame 34, wherein the fixing frame 31 and the moving frame 34 in the separation mechanism 3 are distributed in a rectangular shape, accommodating the materials into the region enclosed by the separation mechanism 3, starting the positioning mechanism 11 to fix the unprocessed part of the materials, starting the first cylinder 111 first to lower the pressing plate 120 to the upper side of the unprocessed part of the board material, starting the second cylinder 130 to attach the side baffle 140 to one side of the board material, that is to fix and limit the board material, the problem of shaking during processing is prevented.

Starting the driving frame 8 and the routing mechanism 9, processing the raw materials, simultaneously starting the air extracting mechanism 4 and the air blowing mechanism 10, forming an air pressure area outside the processed part, when the air blowing mechanism 10 works, the air blower 101 conveys air into an air channel 1022 in the shielding structure 102 through a communicating pipe 1023 to form air flowing downwards to push dust downwards, when the routing mechanism 9 moves, the shielding structure 102 synchronously moves along with the shielding structure 102, when the air extracting mechanism 4 works, the air blower 42 blows air to the filter bag 41 through the adsorption groove 32 and the communicating groove 36 in the shielding mechanism 3, the processed dust is recovered through the shielding mechanism 3, and the dust is prevented from overflowing into the air;

resetting the positioning mechanism 11, loosening the processed raw materials, starting the second moving mechanism 7, moving the processed raw materials to the upper side of the second group of lifting mechanisms 5, driving the assembling frame 72 to horizontally move to the upper side of the processing table 2 through the second lead screw driver 71 when the second moving mechanism 7 is started, starting the vacuum pump 73 and the adsorption mechanism 74 to perform adsorption connection on the wood board raw materials, then starting the second lead screw driver 71 again to move the wood board raw materials to the upper side of the second group of lifting mechanisms 5, then starting the third lead screw driver 51 in the second group of lifting mechanisms 5, and lowering the uppermost wood board raw materials to a height which is not higher than the upper surface of the processing table 2, so that the subsequent wood board raw materials can be conveniently stacked;

when the wood board raw material needs to be taken out, the moving plate 52 in the second group of lifting mechanisms 5 is lowered to the lowest position, and then the corresponding side push door 110 is opened.

Although one embodiment of the present invention has been described in detail, the description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (9)

1. A dustproof type engraving and milling machine comprises a processing box (1), wherein a processing table (2) is installed inside the processing box (1), a driving frame (8) is installed at the upper side, close to the processing table (2), inside the processing box (1), a plurality of positioning mechanisms (11) which are distributed side by side are installed at the upper side, close to the processing table (2), inside the processing box (1), lifting mechanisms (5) are installed at the two sides, close to the processing table (2), inside the processing box (1), a first moving mechanism (6) and a second moving mechanism (7) are installed at the upper side, close to the two groups of lifting mechanisms (5), inside the processing box (1), a blowing mechanism (10) is installed between the outer side of the engraving and milling mechanism (9) and the processing box (1), a blocking mechanism (3) is installed at the upper side of the processing table (2), and an air draft mechanism (4) communicated with the separation mechanism (3) is arranged in the processing table (2).

2. The dustproof type router according to claim 1, wherein the air draft mechanism (4) comprises an assembly groove arranged inside the processing table (2), the filter bag (41) is arranged inside the assembly groove, a plurality of fans (42) are fixedly connected to the lower side, close to the filter bag (41), of the assembly groove, and air outlets of the fans (42) are communicated with the outside.

3. The dust-proof routing machine according to claim 1, wherein the blocking mechanism (3) comprises a fixed frame (31) fixedly connected with the processing table (2), two ends of the fixed frame (31) are respectively provided with a movable frame (34) distributed on one side of the two sets of lifting mechanisms (5), and at least one set of third air cylinders (35) is fixedly connected between the lower surfaces of the two sets of movable frames (34) and the processing table (2).

4. The dust-proof router of claim 3, wherein the two sets of moving frames (34) and fixed frames (31) are arranged in a rectangular shape.

5. The dustproof router according to claim 4, wherein the fixed frame (31) is provided with an absorption groove (32) inside, the absorption groove is communicated with the air draft mechanism (4), the fixed frame (31) is provided with a communication port (33) towards one end of each of the two sets of movable frames (34), the two sets of movable frames (34) are provided with a communication groove (36) inside, and the length of the communication groove (36) towards one end of the fixed frame (31) is the same as that of the communication port (33).

6. The dustproof router according to claim 1, wherein the positioning mechanism (11) comprises a first air cylinder (111) fixedly connected with the processing box (1), a pressing plate (120) is fixedly connected to an output end of the first air cylinder (111), a second air cylinder (130) is fixedly connected to an inner portion of the pressing plate (120), an output end of the second air cylinder (130) extends to one side, away from the routing mechanism (9), of the pressing plate (120), and a side baffle (140) is fixedly connected to an output end of the second air cylinder (130).

7. The dust-proof router according to claim 1, wherein the blower mechanism (10) comprises a blower (101) fixedly connected to the processing box (1) and a shielding structure (102) fixedly connected to the router mechanism (9), and the shielding structure (102) is distributed outside the router mechanism (9) in an umbrella shape.

8. The dustproof type router according to claim 7, wherein the shielding structure (102) comprises a plate body (1021), a plurality of concentrically distributed ventilation grooves (1022) are formed in the plate body (1021), and the plurality of ventilation grooves (1022) are connected with an air outlet of the air blower (101) through a communication pipe (1023).

9. A method of operating a dust router as claimed in any one of claims 1 to 8, comprising the steps of:

the method comprises the following steps: placing the raw material pile on the upper side of the first group of lifting mechanisms (5), and closing the corresponding side push door (110);

step two: descending a moving frame (34) in the separation mechanism (3), starting a first moving mechanism (6), pushing the uppermost raw material to the upper side of the processing table (2), resetting the moving frame (34), accommodating the raw material into the inner part surrounded by the separation mechanism (3), starting a positioning mechanism (11), and fixing the part of the raw material which is not processed;

step three: starting a driving frame (8) and a routing mechanism (9) to process the raw materials, simultaneously starting an air draft mechanism (4) and an air blast mechanism (10), forming an air pressure area outside a processing part, and recovering dust generated by processing through a separation mechanism (3) to prevent the dust from overflowing into the air;

step four: and resetting the positioning mechanism (11), starting the second moving mechanism (7), and moving the processed raw material to the upper side of the second group of lifting mechanisms (5).

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