CN113352396B - Glass fiber ceiling puncher and processing technology of glass fiber ceiling - Google Patents

Abstract

The invention discloses a glass fiber ceiling puncher and a processing technology of a glass fiber ceiling, which comprise a punching mechanism and a dustproof mechanism, wherein the punching mechanism is used for processing a fiberboard; can drive the plastic slab upward movement through the second stay cord to make the seal cloth upwards arch, can make the piece landing on the seal cloth to the dust bag inside, this structure is through dustproof cloth, the connecting plate, rotor plate and seal cloth form and hold the cavity, when the drill bit holds the round hole that cavity inner work passed on the plastic slab downwards here and drills, can prevent that dust and piece from wafting to the outside air in, and make the dust on the plastic slab inside to both sides landing to the dust bag, environmental protection more in the in-service use.

Description

Glass fiber ceiling puncher and processing technology of glass fiber ceiling

Technical Field

The invention relates to the technical field of fiber ceiling perforation processing, in particular to a glass fiber ceiling perforating machine and a processing technology of a glass fiber ceiling.

Background

The ceiling is a place of the indoor top surface of a building. In the indoor design, the ceiling can be used for writing and painting, painting to beautify the indoor environment, and installing ceiling lamps, light pipes, ceiling fans, skylight opening and air conditioners to change the effects of indoor illumination and air circulation. Is a general term for materials used to decorate indoor roofs. In the past, the traditional people centered mostly takes straw mats, reed mats, wood boards and the like as main materials. More modern building materials are used as technology advances.

The Chinese patent CN 111251378A discloses a dustproof punching device for decorative boards, which belongs to the field of indoor decoration and comprises a workbench, wherein a protective frame is arranged on the workbench, a first lifting rod is arranged on the inner wall of the top end of the protective frame, a supporting plate is arranged at the bottom end of the first lifting rod, a second lifting rod is arranged on the top end of the protective frame, a rotating motor is arranged on the second lifting rod, a drill bit is detachably arranged on the rotating motor, a through hole is formed in the center of the workbench, a dust collector is arranged on a supporting leg, an expansion link is arranged on the inner wall of the protective frame, a clamping plate is arranged on the expansion link, a support is arranged on the side wall of one end of the workbench, a rotary drum is movably arranged on the support, one end of protective cloth is fixedly arranged on the rotary drum, and the protective cloth passes through a fixed pulley. The wood board pressing device tightly presses the wood board, avoids the skid of the wood board, facilitates the punching of the subsequent decorative wood board, facilitates the indoor decoration of the subsequent decorative wood board, avoids fine scraps from splashing to pollute air, ensures the safety of the respiratory tract of workers, improves the environment of indoor decoration work, and is convenient to use.

However, although the device can suck the debris in the process of punching, the device can bring the debris out when the drill bit moves upwards and stops working, the debris is accumulated on the wood board, the debris needs to be separately treated at a later stage, on one hand, the time and the labor are wasted, on the other hand, the debris is scattered into the air or can cause harm to the respiratory tract of a human body, and therefore, the device is not environment-friendly in practical use.

Therefore, it is necessary to provide a glass fiber ceiling perforating machine and a processing technique of glass fiber ceiling to solve the above technical problems.

Disclosure of Invention

The invention aims to provide a glass fiber ceiling perforating machine and a processing technology of a glass fiber ceiling, which aim to solve the problems that in the prior art, when a drill bit moves upwards and stops working, scraps are brought out and accumulated on a wood board, the scraps need to be separately processed in a later period, on one hand, time and labor are wasted, on the other hand, the scraps scatter in the air or harm the respiratory tract of a human body, and therefore, the glass fiber ceiling perforating machine is not environment-friendly in practical use.

In order to achieve the purpose, the invention provides the following technical scheme: the processing technology of the glass fiber ceiling perforating machine and the glass fiber ceiling comprises a perforating mechanism, is used for processing a fiber board, and further comprises a dustproof mechanism arranged outside the perforating mechanism, wherein the dustproof mechanism is internally provided with a containing cavity, the dustproof mechanism comprises a dust blocking component arranged at the bottom of the perforating mechanism, the input end of the dust blocking component corresponds to the output end of the perforating mechanism, the output end of the perforating mechanism is close to the synchronous flat laying of the dust blocking component on the fiber board in the process of the fiber board, and when the output end of the perforating mechanism is far away from the fiber board, the dust blocking component is synchronously far away from and upwards arched to lead out the chips falling to the top of the dust blocking component to two sides.

When specifically using, drive dustproof mechanism downstream through piercing mechanism, be close to the synchronous tiling of fibreboard in-process dust blocking part when the piercing mechanism output on the fibreboard, when the fibreboard was kept away from to the piercing mechanism output, the dust blocking part was kept away from in step and upwards arched and will drop to derive to both sides in the piece at dust blocking part top, and this mechanism is favorable to placing the piece departure when drilling to can collect the piece that the drill bit produced.

As a further scheme of the invention, the dustproof mechanism further comprises a connecting plate and a rotating plate which are arranged at the top of the dust blocking part; the dustproof cloth, the connecting plate, the rotating plate and the dust blocking component form a sealing unit.

When the dustproof cloth is used specifically, the dustproof cloth, the connecting plate, the rotating plate and the dust blocking component form a sealing unit, so that dust cannot spread outwards when the punching mechanism works in the sealing unit.

As a further scheme of the invention, a pressing unit is arranged in the sealing unit, the dust blocking component is synchronously paved on the fiber board by the pressing unit when the output end of the perforating mechanism is close to the fiber board, and the pressing unit resets when the output end of the perforating mechanism is far away from the fiber board, so that the dust blocking component is arched upwards.

During specific use, when perforating mechanism downstream perforates the fibreboard, can drive pressing unit downstream and press fender dirt part at the fibreboard top, the piece that the drill bit drilled out this moment can fall on the inside bottom surface of fender dirt part through the input on the fender dirt part, upwards mention after the work is accomplished to the drill bit, sealed unit is to the inboard shrink this moment, make pressing unit reset, keep off dirt part bottom surface and upwards arch this moment, make the dust can landing to both sides, thereby accomplish the collection of dust.

As a further scheme of the invention, the dust blocking component is sealing cloth arranged at the bottom of the rotating plate, a plastic plate is arranged on the sealing cloth, and a round hole corresponding to the output end of the perforating mechanism is arranged on the plastic plate.

When the plastic board is used specifically, the plastic board has certain deformation capacity and moderate hardness, and the plastic board and the dust blocking component on the outer side of the plastic board can be tightly pressed on the fiber board through the pressing unit.

In a further aspect of the present invention, a dust bag is disposed outside the sealing unit, and the dust blocking member is upwardly arched to guide the debris falling on the top of the dust blocking member to both sides of the dust bag.

When the dust collection bag is used specifically, dust on the dust blocking component can be collected through the dust collection bag.

As a further scheme of the invention, a cover plate is arranged on the inner side of the dust collection bag, and the cover plate is arranged on the inner side of the rotating plate and is in sliding connection with the rotating plate.

During specific use, when pressing the unit downstream and pressing the seal cloth on the fibreboard surface, can drive the apron at the inside downstream of spout through first stay cord, can drive the notch department to the rotor plate bottom with the apron through this structure to can shelter from the notch, be favorable to preventing that the inside dust of dust bag landing to seal cloth top when drilling.

As a further aspect of the present invention, the pressing unit includes a bracket disposed inside the rotating plate, a flexible rod is disposed on a side of the bracket away from the connecting plate, and a second pull rope is disposed between the flexible rod and the plastic plate.

During specific use, when the drill bit downstream drives the connecting plate downstream, can drive the connecting plate downstream, and then drive the rotor plate and rotate, can drive the flexible rod rotation of support and its one side, take place the extrusion with the fibreboard when the flexible rod rotates, can produce deformation, thereby make the bottom part of flexible rod press on the cover cloth parallelly, thereby compress tightly cover cloth and plastic slab on the fibreboard, thereby make the piece that the drill bit took out can fall to on the cover cloth, when the drill bit upward movement, the flexible rod resets, can drive the plastic slab upward movement through the second stay cord, thereby make the cover cloth arch up, can make the piece landing on the cover cloth inside to the dust bag.

As a further aspect of the present invention, a first pull cord is disposed between the flexible rod and the cover plate.

When specifically using, through being provided with first stay cord for flexible rod can drive downstream with the apron when pressing down the seal cloth, thereby carries out the shutoff to the notch, is favorable to avoiding the inside dust of dust bag to flow.

As a further scheme of the invention, the punching mechanism comprises an electric push rod, the output end of the electric push rod is provided with a protective cover, a motor is arranged in the protective cover, and the output end of the motor is provided with a drill bit.

The processing technology for processing the glass fiber ceiling by using the puncher comprises the following steps:

s1: placing the fiber board at the bottom of the perforating mechanism;

s2: the punching mechanism is started to drive the drill bit to move downwards to punch the fiber board, and the dustproof mechanism is driven by the punching mechanism to move downwards to be attached to the fiber board, so that dust is prevented from diffusing outwards;

s3: the punching mechanism is far away from the fiber board, debris generated by the drill bit is led out to the dust collection bag through the dustproof component, and the fiber board is taken out.

The working principle is as follows: the drill bit is driven by the electric push rod to move downwards, the connecting plate and the rotating plate at the bottom of the connecting plate can be driven to move downwards, so that the sealing cloth at the bottom of the connecting plate and the bottom edge of the connecting plate are tightly attached to the surface of the fiber board, the rotating plate can be extruded by continuing to move downwards at the moment, the rotating plate is driven to turn and rotate towards two sides, when the rotating plate moves towards two sides, the sealing cloth at the bottom and the dustproof cloth at the outer side can be stretched, so that the sealing cloth is tightly attached to the surface of the fiber board, when the drill bit moves downwards, the rotating plate can be driven to rotate, the support and the flexible rod at one side of the support are driven to rotate, when the flexible rod rotates, the flexible rod and the fiber board are extruded, deformation can be generated, so that the bottom end part of the flexible rod is pressed on the sealing cloth in parallel, the sealing cloth and the plastic board are tightly pressed on the fiber board, so that the scraps brought out by the drill bit can fall onto the sealing cloth, when the drill bit upward movement, the flexible rod resets, can drive the plastic slab upward movement through the second stay cord, thereby make the seal cloth arch up, can make piece landing on the seal cloth to the dust bag inside, this structure is through dustproof cloth, the connecting plate, rotor plate and seal cloth form and hold the cavity, when the drill bit holds cavity inner work here and passes the round hole on the plastic slab downwards and bore, can prevent that dust and piece from wafting to the outside air in, and because the fitting cloth is hugging closely the fibreboard, consequently, the piece of drill bit exhaust just in time falls to the top of plastic slab, when the drill bit upward movement, it can drive the plastic slab and the seal cloth of its outside upwards to press the unit to reset, thereby make the dust on the plastic slab inside to both sides landing to the dust bag, thereby collect dust and piece through the dust bag.

The invention relates to a glass fiber ceiling perforating machine and a processing technology of a glass fiber ceiling, wherein a support and a flexible rod on one side of the support are driven to rotate to generate deformation, so that the bottom end part of the flexible rod is pressed on a sealing cloth in parallel, the sealing cloth and a plastic plate are tightly pressed on a fiber plate, so that scraps brought out by a drill can fall onto the sealing cloth, when the drill moves upwards, the flexible rod resets, the plastic plate can be driven to move upwards through a second pull rope, so that the sealing cloth is arched upwards, the scraps on the sealing cloth can slide into a dust collection bag, an accommodating cavity is formed by dustproof cloth, a connecting plate, a rotating plate and the sealing cloth, when the drill works in the accommodating cavity and downwards passes through a round hole on the plastic plate to drill, dust and scraps can be prevented from scattering into the outside air, and the dust on the plastic plate can slide into the dust collection bag towards two sides, is more environment-friendly in actual use.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic view of the pressing unit structure of the present invention;

FIG. 4 is a schematic view of the construction of the rotating plate of the present invention;

FIG. 5 is a schematic view of the structure of the plastic panel of the present invention;

FIG. 6 is a schematic view of the internal structure of the sealing unit of the present invention;

FIG. 7 is a schematic view of a flexible rod construction of the present invention;

FIG. 8 is a schematic view of the circular hole configuration of the present invention;

FIG. 9 is an enlarged view of the portion A of FIG. 4 according to the present invention;

FIG. 10 is an enlarged view of the portion B of FIG. 6 according to the present invention.

In the figure: 1. a platen; 2. a fiberboard; 3. a clamping mechanism; 301. pressing a plate; 302. a screw; 303. a guide rod; 4. a punching mechanism; 5. a dust-proof mechanism; 6. a moving mechanism; 7. a protective cover; 8. a drill bit; 9. a sealing unit; 901. a connecting plate; 902. a rotating plate; 9021. a notch; 903. a dust-blocking component; 9031. sealing cloth; 904. a fixing plate; 905. a plastic panel; 906. a circular hole; 907. a dust cloth; 10. a pressing unit; 1001. a support; 1002. connecting blocks; 1003. an adapter; 1004. a flexible rod; 1005. a second draw cord; 11. a dust collection bag; 12. a cover plate; 13. a connecting frame; 14. a first pull cord; 15. a rebound assembly; 1501. an outer slide bar; 1502. an inner slide bar; 16. and (4) rebounding the rope.

Detailed Description

As shown in fig. 1-2, a glass fiber ceiling perforating machine and a processing technology of a glass fiber ceiling comprise a bedplate 1, a fiber board 2 arranged at the top of the bedplate 1, and a clamping mechanism 3 arranged at the outer side of the fiber board 2; a perforating mechanism 4 for perforating is arranged at the top of the fiber board 2; a dust-proof mechanism 5 disposed outside the piercing mechanism 4; the moving mechanism 6 disposed on the top of the perforating mechanism 4 can drive the perforating mechanism 4 to move in the horizontal direction along the X direction and the Y direction.

When the fiber board punching machine is used, a fiber board 2 to be processed is placed on the top of the bedplate 1, the fiber board 2 is clamped through the clamping mechanism 3 at the moment, the fiber board 2 is punched through the punching mechanism 4, dust during punching can be prevented from diffusing outwards through the dustproof mechanism 5 on the outer side of the punching mechanism 4, and dust remained on the fiber board 2 can be collected.

As shown in fig. 2, 3 and 6, the punching mechanism 4 comprises an electric push rod, the output end of the electric push rod is provided with a protective cover 7, a motor is arranged inside the protective cover 7, and the output end of the motor is provided with a drill bit 8.

During the use, drive the inside motor downstream of safety cover 7 through the electric putter output, the motor can drive drill bit 8 and rotate, can drill 2 to fibreboard through downstream drill bit 8 to moving mechanism 6 through 4 tops of perforating mechanism can drive perforating mechanism 4 and remove along X direction and Y direction on the horizontal direction, thereby the omnidirectional perforates fibreboard 2.

As shown in fig. 3 to 6, the dust-proof mechanism 5 includes a sealing unit 9 provided outside the drill 8; a pressing unit 10 provided inside the sealing unit 9; and the dust collecting bag 11 is arranged outside the sealing unit 9, the cover plate 12 is arranged inside the dust collecting bag 11, and the cover plate 12 is arranged inside the sealing unit 9 and is in sliding connection with the sealing unit 9.

When the sealing unit is used, when the electric push rod drives the drill bit 8 to move downwards, the sealing unit 9 on the outer side can be driven to move downwards, the sealing unit 9 moves downwards to gradually abut against the surface of the fiber board 2, at the moment, the sealing unit 9 forms a containing cavity for the drill bit 8 to work in the sealing unit 9, at the moment, when the drill bit 8 moves downwards to perforate the fiber board 2, dust can be prevented from splashing outwards, and when the sealing unit 9 is extruded, the sealing unit can expand towards two sides, so that the pressing unit 10 is driven to move downwards to press the bottom of the sealing unit 9 on the top of the fiber board 2, the bottom of the sealing unit 9 is tightly attached to the fiber board 2, so that debris drilled by the drill bit 8 can fall onto the inner bottom surface of the sealing unit 9, when the drill bit 8 finishes working, the sealing unit 9 is lifted upwards, at the moment, the sealing unit 9 shrinks inwards, so that the pressing unit 10 resets, at the bottom surface of the sealing unit 9 arches upwards, so that the dust can slide down to the inside of the dust bag 11, thereby completing the collection of the dust.

As shown in fig. 4, 5, 6, 8, 9 and 10, the sealing unit 9 includes a connecting plate 901 disposed outside the drill bit 8, rotating plates 902 disposed at the bottom of the connecting plate 901 and hinged to the connecting plate 901, a dust blocking member 903 is disposed between the two rotating plates 902, the dust blocking member 903 is disposed to be a sealing cloth 9031, an input end of the dust blocking member 903 is disposed on the dust blocking member 903, so that dust can fall from the bottom of the dust blocking member 903 to the bottom of the dust blocking member 903, fixing plates 904 are disposed on both sides of the sealing cloth 9031, the fixing plates 904 are fixed to the rotating plates 902 by bonding, a plastic plate 905 is disposed at the center of the sealing cloth 9031, a circular hole 906 through which the drill bit 8 passes is disposed at the center of the plastic plate 905, and the circular hole 906 corresponds to an output end of the piercing mechanism 4; the dustproof cloth 907 is arranged on the outer sides of the connecting plate 901 and the rotating plate 902, and the accommodating cavity is surrounded by the dustproof cloth 907, the connecting plate 901, the rotating plate 902 and the sealing cloth 9031;

further, the dust bag 11 is disposed outside the rotating plate 902, a through notch 9021 for passing debris is disposed at a bottom end of an outer side of the rotating plate 902, a connection frame 13 is disposed outside the notch 9021, the connection frame 13 is fixed to the rotating plate 902 by a screw, and the dust bag 11 is disposed outside the connection frame 13 and fixed to the connection frame 13.

When the device is used, when the drill 8 moves downwards, the connecting plate 901 and the rotating plate 902 at the bottom of the connecting plate 901 can be driven to move downwards, so that the sealing cloth 9031 at the bottom of the connecting plate 901 and the bottom edge of the connecting plate 901 are tightly attached to the surface of the fiber board 2, at the moment, the rotating plate 902 can be extruded by continuing to move downwards, so that the rotating plate 902 is driven to turn over and rotate towards two sides, when the rotating plate 902 moves towards two sides, the sealing cloth 9031 at the bottom and the dustproof cloth 907 at the outer side can be stretched, so that the sealing cloth 9031 is tightly attached to the surface of the fiber board 2, and when the rotating plate 902 rotates towards the outer side, the pressing unit 10 can be driven to move downwards, so that the pressing unit 10 presses the sealing cloth 9031 to the surface of the fiber board 2, and the dustproof cloth 907, the connecting plate 901, the rotating plate 902 and the sealing cloth 9031 form an accommodating cavity, when the drill 8 works in the accommodating cavity and downwards penetrates through the circular hole 906 on the plastic board 905 to drill, can prevent that dust and piece from wafting to the outside air in, and because the packing 9031 hugs closely fibreboard 2, consequently the piece of drill 8 exhaust just in time falls to the top of plastic slab 905 through the round hole 906 on the plastic slab 905, when drill 8 upward movement, press unit 10 and reset and to drive the plastic slab 905 and the packing 9031 in its outside and arch upwards to make the dust on the plastic slab 905 slide to both sides to inside the dust bag 11, thereby collect dust and piece through the dust bag 11.

Furthermore, a sliding groove is disposed inside the rotating plate 902, the cover 12 is disposed inside the sliding groove and is slidably connected to the rotating plate 902 through the sliding groove, a first pulling rope 14 is fixedly disposed between the pressing unit 10 and the cover 12, a resilient rope 16 is disposed on the top of the cover 12, the resilient rope 16 is disposed inside the sliding groove, and the resilient rope 16 is fixed between the cover 12 and the rotating plate 902.

During the use, when pressing unit 10 downstream and pressing seal cloth 9031 at fibreboard 2 surface, can drive apron 12 at the inside downstream of spout through first stay cord 14, can drive apron 12 to the notch 9021 department of rotor plate 902 bottom through this structure to can shelter from notch 9021, be favorable to preventing when drilling that the inside dust landing of dust bag 11 to seal cloth 9031 top, and can drive apron 12 through being provided with rebound rope 16 and reset.

As shown in fig. 7, the pressing unit 10 includes a bracket 1001 disposed inside the rotating plate 902, two ends of the bracket 1001 are rotatably connected with a connecting block 1002, one side of the connecting block 1002, which is away from the connecting plate 901, is provided with an adapter 1003, the adapter 1003 is in threaded connection with a flexible rod 1004, the flexible rod 1004 is disposed on the top of the sealing cloth 9031, the first pulling rope 14 is disposed between the flexible rod 1004 and the cover plate 12, and a second pulling rope 1005 is disposed between the flexible rod 1004 and the plastic plate 905.

During the use, when drill bit 8 downstream drives connecting plate 901 downstream, can drive connecting plate 901 downstream, and then drive rotor plate 902 and rotate, can drive support 1001 and the flexible rod 1004 rotation of its one side, take place the extrusion with fibreboard 2 when flexible rod 1004 rotates, can produce deformation, thereby make the bottom part of flexible rod 1004 press on the seal cloth 9031 parallelly, thereby compress tightly seal cloth 9031 and plastic slab 905 on fibreboard 2, thereby make the piece that 8 drills took out can fall on seal cloth 9031, when 8 drills upward movement, flexible rod 1004 resets, can drive plastic slab 905 upward movement through second stay cord 1005, thereby make seal cloth 9031 arch upwards, can make the piece on the seal cloth 9031 landing to inside the dust bag 11.

As shown in fig. 3 and 6, a rebound assembly 15 is arranged outside the connecting plate 901 and the rotating plate 902, the rebound assembly 15 comprises an outer sliding rod 1501 and an inner sliding rod 1502, a spring is arranged between the outer sliding rod 1501 and the inner sliding rod 1502, the bottom end of the outer sliding rod 1501 is fixedly connected with the rotating plate 902, and the top end of the inner sliding rod 1502 is fixedly connected with the connecting plate 901.

When the drill bit 8 moves upward, the rotating plate 902 is driven to reset under the action of the spring, so that the drill bit is convenient to use next time.

As shown in fig. 1, the clamping mechanism 3 includes a pressing plate 301 disposed on the outer side of the fiberboard 2, a vertical plate is disposed on the outer side of the pressing plate 301, the vertical plate is fixedly connected with the bedplate 1, a screw 302 is disposed on the outer side of the pressing plate 301, the screw 302 penetrates through the vertical plate and is in threaded connection with the vertical plate, one end of the screw 302 is rotatably connected with the pressing plate 301, a guide rod 303 is disposed on the outer side of the pressing plate 301, the guide rod 303 penetrates through the vertical plate and is in sliding connection with the vertical plate, and one end of the screw 302, which is far away from the pressing plate 301, is fixedly connected with a crank.

During the use, drive screw 302 through the crank and rotate, screw 302 can drive clamp plate 301 and move towards 2 directions of fibreboard to compress tightly fibreboard 2, can perforate fibreboard 2.

The processing technology for processing the glass fiber ceiling by using the perforating machine comprises the following steps:

s1: placing the fiber board 2 at the bottom of the perforating mechanism 4;

s2: the perforating mechanism 4 is started to drive the drill bit 8 to move downwards to perforate the fiberboard 2, and the perforating mechanism 4 drives the dustproof mechanism 5 to move downwards to be attached to the fiberboard 2, so that dust is prevented from diffusing outwards;

s3: the punching means 4 is away from the fiber sheet 2, and the dust generated by the drill 8 is guided out to the dust collecting bag 11 by the dust-proof member, and the fiber sheet 2 is taken out.

The working principle is as follows: the drill bit 8 is driven by the electric push rod to move downwards, the connecting plate 901 and the rotating plate 902 at the bottom of the connecting plate 901 can be driven to move downwards, so that the sealing cloth 9031 at the bottom of the connecting plate 901 and the bottom edge of the connecting plate 901 are tightly attached to the surface of the fiberboard 2, at the moment, the rotating plate 902 can be extruded by continuing to move downwards, the rotating plate 902 is driven to turn over and rotate towards two sides, when the rotating plate 902 moves towards two sides, the sealing cloth 9031 at the bottom and the dustproof cloth 907 at the outer side can be stretched, so that the sealing cloth 9031 is tightly attached to the surface of the fiberboard 2, when the drill bit 8 moves downwards, the rotating plate 902 can be driven to rotate, the support 1001 and the flexible rod 1004 at one side of the support are driven to rotate, when the flexible rod 1004 rotates, the flexible rod is extruded with the fiberboard 2, deformation can be generated, so that the bottom end of the flexible rod 1004 is pressed on the sealing cloth 9031 in parallel, so that the sealing cloth 9031 and the plastic board 905 are tightly pressed on the fiberboard 2, so that the chips brought out by the drill bit 8 can fall onto the sealing cloth 9031, when the drill bit 8 moves upwards, the flexible rod 1004 resets, the plastic plate 905 can be driven to move upwards through the second pull rope 1005, so that the sealing cloth 9031 arches upwards, the chips on the sealing cloth 9031 can slide into the dust collection bag 11, a containing cavity is formed through the dustproof cloth 907, the connecting plate 901, the rotating plate 902 and the sealing cloth 9031, when the drill bit 8 works in the containing cavity and downwards passes through the round hole 906 in the plastic plate 905 to drill, dust and chips can be prevented from scattering into the outside air, the chips discharged by the drill bit 8 just fall onto the top of the plastic plate 905 because the sealing cloth 9031 is tightly attached to the fiber plate 2, when the drill bit 8 moves upwards, the pressing unit 10 resets to drive the plastic plate 905 and the sealing cloth 9031 outside to arch upwards, so that the dust on the plastic plate 905 slides into the dust collection bag 11 towards two sides, so that dust and debris are collected by the dust bag 11.

Claims (3)

1. Glass fiber ceiling perforator, including piercing mechanism (4) for process fibreboard (2), its characterized in that: the dust-proof mechanism is characterized by further comprising a dust-proof mechanism (5) arranged on the outer side of the perforating mechanism (4), wherein an accommodating cavity is formed inside the dust-proof mechanism (5), the dust-proof mechanism (5) comprises a dust-blocking component (903) arranged at the bottom of the perforating mechanism (4), the input end of the dust-blocking component (903) corresponds to the output end of the perforating mechanism (4), the dust-blocking component (903) is synchronously paved on the fiberboard (2) in the process that the output end of the perforating mechanism (4) is close to the fiberboard (2), and when the output end of the perforating mechanism (4) is far away from the fiberboard (2), the dust-blocking component (903) is synchronously far away and arched upwards to lead out the chips falling onto the top of the dust-blocking component (903) to two sides;

the dustproof mechanism (5) further comprises a connecting plate (901) and a rotating plate (902) which are arranged at the top of the dust blocking component (903); the dustproof cloth (907) is arranged on the front side and the rear side of the top of the dust blocking component (903), and the dustproof cloth (907), the connecting plate (901), the rotating plate (902) and the dust blocking component (903) form a sealing unit (9);

the dust blocking component (903) is a sealing cloth (9031) arranged at the bottom of the rotating plate (902), a plastic plate (905) is arranged on the sealing cloth (9031), and a round hole (906) corresponding to the output end of the perforating mechanism (4) is formed in the plastic plate (905);

a dust collection bag (11) is arranged on the outer side of the sealing unit (9), and the dust blocking component (903) is arched upwards to guide the debris falling on the top of the dust blocking component (903) out to the inner part of the dust collection bag (11) towards two sides; a pressing unit (10) is arranged in the sealing unit (9), the dust blocking component (903) is synchronously paved on the fiber board (2) by the pressing unit (10) in the process that the output end of the perforating mechanism (4) is close to the fiber board (2), the pressing unit (10) resets when the output end of the perforating mechanism (4) is far away from the fiber board (2), and the dust blocking component (903) is arched upwards;

a cover plate (12) is arranged on the inner side of the dust collection bag (11), and the cover plate (12) is arranged on the inner side of the rotating plate (902) and is in sliding connection with the rotating plate (902);

the pressing unit (10) comprises a bracket (1001) arranged on the inner side of the rotating plate (902), a flexible rod (1004) is arranged on one side, away from the connecting plate (901), of the bracket (1001), and a second pull rope (1005) is arranged between the flexible rod (1004) and the plastic plate (905);

a first pull rope (14) is arranged between the flexible rod (1004) and the cover plate (12).

2. The glass fiber ceiling perforator of claim 1 wherein: perforating mechanism (4) includes electric putter, the electric putter output is provided with safety cover (7), safety cover (7) bottom is provided with the sleeve, connecting plate (901) set up in the sleeve outside and with sleeve threaded connection, the inside motor that is provided with of safety cover (7), the motor output is provided with drill bit (8).

3. A processing technology of a glass fiber ceiling is characterized in that: the glass fiber ceiling perforator as claimed in claim 1 or 2, comprising the steps of:

s1: placing the fiber board (2) at the bottom of the perforating mechanism (4);

s2: the punching mechanism (4) is started to drive the drill bit (8) to move downwards to punch the fiber board (2), and the punching mechanism (4) drives the dustproof mechanism (5) to move downwards to be attached to the fiber board (2) tightly, so that dust is prevented from diffusing outwards;

s3: the punching mechanism (4) is far away from the fiber board (2), debris generated by the drill (8) is led out to the dust collection bag (11) through the dustproof component, and the fiber board (2) is taken out.

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