CN115464460A - Rotary groove cutting machine - Google Patents

Abstract

The invention belongs to the technical field of cutting equipment, and relates to a rotary groove cutting machine which comprises two groups of longitudinal guide rails which are arranged in parallel, wherein a beam part is supported on the two groups of longitudinal guide rails and can reciprocate relative to the longitudinal guide rails; an air draft moving device is arranged below the cross beam part to realize the adsorption of harmful gas during working, the air draft moving device comprises a blowing component and an adsorption component, the blowing component and the adsorption component are respectively arranged on two sides of the cross beam part and are respectively fixedly connected with the cross beam part, and a blowing port of the blowing component corresponds to an air suction port of the adsorption component to promote smoke to be sucked by the air suction port; the beam part is provided with a moving part which can move transversely relative to the beam part, the top of the moving part is provided with a supporting wire rack assembly, the moving part is provided with a lifting part, and the lifting part is connected with a groove cutting head to perform online cutting. The cutting machine can realize efficient online cutting of large-scale non-plates, and is wide in application range.

Description

Rotary groove cutting machine

Technical Field

The invention belongs to the technical field of cutting equipment, and relates to a rotary groove cutting machine.

Background

In the current production activities related to cutting, grooves with various specifications are often encountered, particularly large plates, manual cutting is used, time and labor are wasted, the efficiency is extremely low, the cutting quality is poor, and toxic and harmful gases generated by manual cutting harm the health of operators.

Disclosure of Invention

Aiming at the problems, the invention provides a rotary groove cutting machine which can realize efficient online cutting on large non-plate pieces and has a wide application range.

According to the technical scheme of the invention: a rotary groove cutting machine comprises two groups of longitudinal guide rails which are arranged in parallel, and a cross beam part is supported on the two groups of longitudinal guide rails and can reciprocate relative to the longitudinal guide rails; the method is characterized in that: an air draft moving device is arranged below the cross beam part to realize the adsorption of harmful gas during working, the air draft moving device comprises a blowing component and an adsorption component, the blowing component and the adsorption component are respectively arranged on two sides of the cross beam part and are respectively fixedly connected with the cross beam part, and a blowing port of the blowing component corresponds to an air suction port of the adsorption component to promote smoke to be sucked by the air suction port;

the beam part is provided with a moving part which can move transversely relative to the beam part, the top of the moving part is provided with a supporting wire rack assembly, the moving part is provided with a lifting part, and the lifting part is connected with a groove cutting head to perform online cutting.

As a further improvement of the invention, the beam part comprises a beam, two first linear guide rail pairs, a beam rack and a lifting screw are arranged on the top surface of the beam, the moving part is arranged on the two first linear guide rail pairs, a transverse gear of the moving part is meshed with the beam rack, two ends of the beam corresponding to the length direction of the first linear guide rail pairs are respectively provided with a limiting structure so as to limit the moving part, the limiting structure comprises a collision block, a rubber block is arranged on the collision block, and the front part of the collision block is also provided with a travel switch collision block;

a plurality of supports are welded on the bottom surface of the middle of the cross beam, a groove plate is fixed on each support, a wire groove is fixed on each groove plate, a drag chain is arranged in each wire groove, and a wire groove cover plate is covered on each wire groove;

the bottom surfaces of two ends of the cross beam in the length direction are respectively provided with a first roller seat plate and a second roller seat plate, roller structures are respectively arranged on the first roller seat plate and the second roller seat plate, each roller structure comprises two supports arranged at any end of the first roller seat plate or the second roller seat plate in the length direction, a shaft sleeve is respectively arranged on each support, two ends of a roller shaft are respectively sleeved in the corresponding shaft sleeves, the roller is rotatably supported on the roller shaft through two first deep groove ball bearings, and the inner side surface of each first deep groove ball bearing is respectively provided with an elastic check ring for a hole in a matching manner;

two adjusting plates are respectively arranged on the lower inner sides of two ends of the beam in the length direction so as to be connected with a first roller seat plate and a second roller seat plate which correspond to each other in a positioning manner;

the bottom surfaces of two ends of the beam in the length direction are respectively fixed with a lower motor base through a pressing plate, a lower copper pad is arranged between the pressing plate and the lower motor base, a reduction box is arranged on the lower motor base, the input end of the reduction box is connected with the output end of a lower first servo motor, the output end of the reduction box is provided with a gear flange, a second deep groove ball bearing and a spacer sleeve are arranged in the gear flange, the lower end of the gear flange is fixedly provided with a through cover to fix the second deep groove ball bearing, a gear shaft of a longitudinal gear is connected with the output shaft of the reduction box, and a cover plate is fixed on the outer end surface of the longitudinal gear;

the bottom of the cross beam is also fixedly provided with a lower adjusting block, the lower adjusting block is arranged on the side part of the lower motor base, a lower belleville spring and a lower adjusting shaft are sequentially arranged in a side hole of the lower motor base, and a screw on the lower adjusting block props against the lower adjusting shaft so as to keep the longitudinal gear meshed with a guide rail rack on the longitudinal guide rail.

As a further improvement of the invention, the two sides in the width direction of any end in the length direction of the cross beam are respectively fixed with a base plate, each base plate is respectively provided with a cushion block capable of being adjusted in a lifting way, copper sheets are fixedly arranged on the cushion blocks through pressing blocks, the two sides of the cross beam are respectively fixed with a first cover plate and a second cover plate, the first cover plate covers the first servo motor part, the bottom surfaces of a first roller seat plate and a second roller seat plate are respectively provided with a side roller corresponding to the two sides of each roller, one side roller is arranged on the bottom surface of the first roller seat plate or the second roller seat plate through an eccentric shaft, the other side roller is arranged on the bottom surface of the first roller seat plate or the second roller seat plate through a concentric shaft, the concentric shaft and the eccentric shaft are respectively provided with a fifth deep groove ball bearing through hole, the bottom surface of the fifth deep groove ball bearing is supported and limited by an elastic retainer ring, and the fifth deep groove ball bearing realizes the rolling support of the side roller.

As a further improvement of the invention, the moving component comprises a transverse moving frame, the transverse moving frame is arranged on a first linear guide rail pair of the beam component in a matching manner, an upper motor base capable of performing position adjustment is arranged on the transverse moving frame, two sides of the upper motor base corresponding to the length direction of the transverse moving frame are respectively limited by an upper pressing plate and an upper copper pad, an upper adjusting block is fixed at the outer end of the upper motor base corresponding to the length direction of the transverse moving frame, an upper disc spring and an upper adjusting shaft are sequentially arranged in an adjusting hole of the upper motor base, the inner end of the upper adjusting shaft is pressed on the upper disc spring, the outer end of the upper adjusting shaft is abutted against a screw on the upper adjusting block, a limiting fixing seat is further arranged on the transverse moving frame and used for limiting the upper motor base, the limiting fixing seat comprises a limiting plate, and the limiting switch is arranged on the limiting plate;

a planetary reducer is installed in a center hole of an upper motor base, a second servo motor is arranged at the input end of the planetary reducer, a gear shaft of a transverse gear penetrates through a bottom plate of a transverse moving frame to be connected with an output shaft of the planetary reducer, the transverse gear is meshed with a transverse beam rack of a transverse beam component, a cover plate is arranged on the end face of the transverse gear, a first cover shell is covered on the bottom plate of the transverse moving frame, an upper cover plate is connected with a top opening of the first cover shell, and a side opening of the first cover shell is connected with a side cover plate.

As a further improvement of the invention, the wire supporting frame assembly comprises a base, a support is sleeved on the base, the support and the base are locked through screws, a lifting ring screw is fixed on a cross rod at the top of the support, and a spring exerciser is fixed on the lifting ring screw; two shafts are arranged at the outer end of a cross rod at the top of the support in parallel, a guide wheel, a bearing and an elastic retainer ring for the shafts are respectively arranged on each shaft, and lead-out wires of the chest expander penetrate through the two guide wheels and are connected to two clamping blocks fixed by bolts.

As a further improvement of the invention, the lifting component comprises a linear guide rail pair and a limit switch seat which are arranged on the surface of a vertical plate of the transverse moving frame of the moving component, a transition block is arranged on the linear guide rail pair, a lifting carriage is arranged on the transition block, and the lifting carriage can lift and move on the linear guide rail pair;

an upper bearing seat is installed on the surface of the upper portion of a vertical plate of a transverse moving frame of a moving component, a lower bearing seat is installed on the surface of the lower portion of the vertical plate, an angular contact ball bearing is installed in the upper bearing seat, a third deep groove ball bearing is installed in the lower bearing seat, a ball screw pair is rotatably supported in the angular contact ball bearing and the third deep groove ball bearing, a screw seat is connected with the upper screw pair in a threaded mode, the screw seat is fixedly connected with a lifting carriage, one end, located at the upper bearing seat, of the ball screw pair is sequentially installed in a shaft sleeve and an upper bearing cover, a round nut is connected with the outer axial end of the upper bearing cover in a threaded mode, a driven pulley is installed at the outer axial end, corresponding to the round nut, of the ball screw pair, the outer axial end of the driven pulley is limited and fixed on the ball screw pair through a cover plate, one end, located at the lower bearing seat, of the ball screw pair is embedded into an elastic check ring for a shaft, the lower bearing cover is installed on the lower bearing seat, and a spacer sleeve is installed at one end, corresponding to the lower bearing seat, of the ball screw pair;

a bottom plate is arranged on the lower portion of the lifting carriage, two side plates are fixed on the bottom plate, a mounting seat is fixed on the upper portion of the lifting carriage, an adjusting plate and a third servo motor are sequentially arranged on the mounting seat, a driving belt wheel is arranged on an output shaft of the third servo motor, and the driving belt wheel is connected with a driven belt wheel in a tensioning mode through a synchronous belt;

the top of the lifting carriage is provided with a drag chain, two sides of the lifting carriage are respectively provided with a side cover plate, and the side plates support a second housing.

As a further improvement of the invention, the groove cutting head comprises an installation plate, a hollow shaft rotating platform is installed on the installation plate, a swing flange is arranged on the hollow shaft rotating platform and is driven to rotate by a fourth servo motor, a vertical plate is arranged in a groove of the swing flange, and a third housing is covered at the joint of the vertical plate and the swing flange;

a fifth servo motor is arranged on the surface of one side of a vertical plate and drives a right-angle flange speed reducer, a fourth cover shell is arranged on the vertical plate and is arranged outside the fifth servo motor and the right-angle flange speed reducer, the right-angle flange speed reducer is arranged on the vertical plate, a rotating plate is arranged on the surface of the other side of the vertical plate, the output end of the right-angle flange speed reducer penetrates through a through hole in the vertical plate to be connected with the rotating plate, a limiting plate is arranged on the side surface of the rotating plate, a nylon sleeve is also arranged on the vertical plate, a first proximity switch is arranged in the nylon sleeve, and the vertical plate corresponds to the nylon sleeve;

the clamping plate is installed on the rotating plate, the transition plate is fixed on the clamping plate, the clamp is fixed on the transition plate, the clamp and the transition plate are positioned through the positioning pin, the first insulation sleeve is installed on the clamp, the second proximity switch is installed in the first insulation sleeve, the cylindrical head screw penetrates through the through hole of the clamp and is connected with the transition plate, the spring is arranged on the cylindrical head screw in a sleeved mode, the clamp can slightly move up and down, the second insulation sleeve is clamped in the clamp, the cutting torch is inserted into the second insulation sleeve, and the clamp is tightly held through the bolt to fix the cutting torch.

As a further improvement of the invention, the blowing assembly comprises a power frequency centrifugal fan, a connecting port of the power frequency centrifugal fan is hermetically connected with one end of a heat-resistant pipe, the other end of the heat-resistant pipe is a blowing port, the heat-resistant pipe is fixedly connected with a blowing bracket, and the blowing bracket and the power frequency centrifugal fan are fixed on one side of the inner wall of the beam part;

the adsorption assembly comprises a frame, a plurality of openings are uniformly distributed in the top of the frame along the length direction, a movable frame is arranged on the top of the frame in a sliding mode, the opening in the lower portion of the movable frame is communicated with the opening in the top of the frame, two support shafts are rotatably arranged at two ends of the movable frame in the length direction respectively, two ends of each support shaft are rotatably supported on the movable frame through a fourth deep groove ball bearing respectively, and the outer side of each fourth deep groove ball bearing is limited through a bearing cover;

the top of the frame is fixedly provided with a sealing rubber belt, two ends of the sealing rubber belt are respectively fixedly connected with the frame through a pressing plate, the sealing rubber belt is wound to the supporting shaft at the upper part of one side of the moving frame from the inner side of the supporting shaft at the lower part of the moving frame and is tensioned to the supporting shaft at the upper part of the other side of the moving frame after being reversed through the outer surface of the supporting shaft at the upper part of the other side of the moving frame, and the sealing rubber belt extends to the supporting shaft at the lower part of the side after being reversed through the supporting shaft at the upper part of the other side of the moving frame;

the support is fixed on one side of the inner wall of the cross beam part through the matched welding plate, the other side of the movable frame is provided with an air suction opening, a fifth housing is arranged on the movable frame, and the two sides of the fifth housing are respectively provided with a pressing frame.

As a further improvement of the invention, the upper drag chain part comprises an upper drag frame, a drag frame upright post, a drag chain groove, anti-skid strips and a drag chain, the drag frame upright post is arranged on the cross beam part, the upper drag frame is arranged on the upper part of the drag frame upright post, the drag chain groove is arranged below the upper drag frame, the two anti-skid strips are arranged in the drag chain groove, one end of the drag chain is arranged below the two anti-skid strips, and the other end of the drag chain is arranged on the upper drag frame.

As a further improvement of the invention, one side of the beam part is provided with a power supply, the other side of the beam part is provided with an operation box part, the operation box part comprises an electric control operation box, a cover plate, a double door plate, a bottom plate, a support, a control system mounting plate, a numerical control system fixing plate, a hanging ring and an operation panel, the support is welded inside the electric control operation box, the bottom plate is welded on the support, the double door plate, the door plate and the cover plate are fixed outside the electric control operation box, the control system mounting plate is fixed inside the electric control operation box, the numerical control system fixing plate is fixed on the control system mounting plate, and the operation panel is fixed on the support.

The invention has the technical effects that: the invention has simple, compact and reasonable structure, and can accurately and quickly realize the cutting of the grooves of different plates; the labor intensity of workers is greatly reduced, the automation degree is high, and the cutting precision is high; low cost and convenient and flexible use.

Drawings

FIG. 1 is a front view of the present invention.

Fig. 2 is a side view of the present invention.

FIG. 3 is a top view of the present invention.

Fig. 4 is a front view of the elevating member.

Fig. 5 is a top view of the elevating member.

Fig. 6 is a side view of the elevating member.

FIG. 7 is a front view of the rack assembly.

Fig. 8 is a top view at a in fig. 7.

Fig. 9 is an exploded view of a bevel cutting head.

FIG. 10 is an isometric view of the bevel cutting head.

Fig. 11 is an exploded view of the moving parts.

Fig. 12 is a front view of the moving part.

Fig. 13 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A of fig. 12.

FIG. 14 is an isometric view of a cross member.

Fig. 15 is an exploded view of the beam member.

FIG. 16 is a front view of the id mover.

FIG. 17 is an isometric view of the id mover.

FIG. 18 is an exploded view of the air draft mobile device.

FIG. 19 is a front view of the upper tow chain component.

FIG. 20 is a side view of the upper tow chain component.

Fig. 21 is an isometric view of the components of the console box.

Fig. 22 is an exploded view of the components of the console box.

Fig. 23 is an exploded view of the components of the console box.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings.

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As shown in fig. 1, the present invention is a rotary groove cutting machine, comprising two sets of longitudinal guide rails 9 arranged in parallel, wherein a beam member 5 is supported on the two sets of longitudinal guide rails 9 and can reciprocate relative to the longitudinal guide rails 9; the below of beam member 5 sets up convulsions mobile device 6 to realize the adsorption of during operation to harmful gas, convulsions mobile device 6 is including jetting subassembly and adsorption component, jetting subassembly and adsorption component divide arrange in beam member 5's both sides and respectively with beam member 5 fixed connection, the mouth of blowing 6.13 of jetting subassembly is corresponding with adsorption component's inlet scoop 6.9, makes the flue gas inhaled by inlet scoop 6.9.

A power supply 10 is installed on one side of a beam part 5, an operation box part 8 is installed on the other side of the beam part 5, a moving part 4 is installed on the beam part 5, the moving part 4 can move transversely relative to the beam part 5, a supporting wire frame assembly 2 is installed at the top of the moving part 4, a lifting part 1 is installed on the moving part 4, and the lifting part 1 is connected with a groove cutting head 3 for on-line cutting.

When the cutting machine works, the power supply 10 supplies power to the cutting machine, so that the cutting machine can work reliably, and the cross beam part 5 reciprocates on the longitudinal guide rail 9 in the working process to meet the machining requirement. Moving part 4 installs on beam member 5, and moving part 4 can carry out the removal of transverse direction for beam member 5 to drive lifting unit 1 and remove to suitable position in transverse direction, lifting unit 1 drives groove cutting head 3 along vertical direction lift removal, carries out reliable accurate processing operation in order to realize carrying out the part to needs processing. The poisonous flue gas that jetting subassembly can produce in the 3 working processes of groove cutting head blows to adsorption component department, carries out high-efficient absorption to harmful flue gas by adsorption component.

As shown in fig. 14 and 15, the beam member 5 includes a beam 5.1, two first linear guide rail pairs 5.4, a beam rack 5.5 and a hoisting screw 5.34 are disposed on a top surface of the beam 5.1, the moving member 4 is mounted on the two first linear guide rail pairs 5.4, a transverse gear 4.6 of the moving member 4 is engaged with the beam rack 5.5, two ends of the beam 5.1 in a length direction corresponding to the first linear guide rail pairs 5.4 are respectively provided with a limiting structure for limiting the moving member 4, the limiting structure includes a collision block 5.36, a rubber block 5.37 is mounted on the collision block 5.36, and a stroke switch collision block 5.35 is further disposed at a front portion of the collision block 5.36.

A plurality of first supports 5.3 are welded on the bottom surface in the middle of the cross beam 5.1, a groove plate 5.2 is fixed on the first supports 5.3, a wire groove 5.6 is fixed on the groove plate 5.2, a drag chain 5.46 is arranged in the wire groove 5.6, and a wire groove cover plate 5.7 is covered on the wire groove 5.6.

The bottom surfaces of two ends of a cross beam 5.1 in the length direction are respectively provided with a first roller seat plate 5.48 and a second roller seat plate 5.19, the first roller seat plate 5.48 and the second roller seat plate 5.19 are respectively provided with a roller structure, the roller structure comprises two supports 5.8 arranged at any end of the first roller seat plate 5.48 or the second roller seat plate 5.19 in the length direction, each support 5.8 is respectively provided with a shaft sleeve 5.9, two ends of a roller shaft 5.10 are respectively sleeved in the corresponding shaft sleeves 5.9, the roller 5.11 is rotatably supported on the roller shaft 5.10 through two first deep groove ball bearings 5.12, and the inner side surface of each first deep groove ball bearing 5.12 is respectively provided with a hole elastic retainer ring 5.17 in a matching manner.

Two adjusting plates 5.47 are respectively arranged at the lower inner sides of the two ends of the beam 5.1 in the length direction so as to be connected with a first roller seat plate 5.48 and a second roller seat plate 5.19 correspondingly in a positioning way.

The bottom surfaces of two ends of the cross beam 5.1 in the length direction are respectively fixed with a lower motor base 5.31 through a pressing plate 5.29, a lower copper pad 5.28 is arranged between the pressing plate 5.29 and the lower motor base 5.31, a reduction box 5.26 is arranged on the lower motor base 5.31, the input end of the reduction box 5.26 is connected with the output end of a lower first servo motor 5.27, the output end of the reduction box 5.26 is provided with a gear flange 5.25, a second deep groove ball bearing 5.23 and a first spacer sleeve 5.24 are arranged in the gear flange 5.25, a transparent cover 5.22 is fixed at the lower end of the gear flange 5.25 to fix the second deep groove ball bearing 5.23, the gear shaft of a longitudinal gear 5.20 is connected with the output shaft of the reduction box 5.26, and a third cover plate 5.21 is fixed on the outer end surface of the longitudinal gear 5.20.

The bottom of the cross beam 5.1 is also fixed with a lower adjusting block 5.30, the lower adjusting block 5.30 is arranged at the side part of the lower motor base 5.31, a lower disk spring 5.33 and a lower adjusting shaft 5.32 are sequentially arranged in a side hole of the lower motor base 5.31, and a screw on the lower adjusting block 5.30 props against the lower adjusting shaft 5.32 so as to keep the engagement of the longitudinal gear 5.20 and a guide rail rack on the longitudinal guide rail 9.

Backing plates 5.43 are respectively fixed on two sides of the width direction of any end of the length direction of the cross beam 5.1, a cushion block 5.44 capable of being adjusted in a lifting mode is respectively installed on each backing plate 5.43, a copper sheet 5.41 is fixedly installed on each cushion block 5.44 through a pressing block 5.42, a first cover plate 5.38 and a second cover plate 5.45 are respectively fixed on two sides of the cross beam 5.1, and the first cover plate 5.38 covers the lower portion of the first servo motor 5.27 in a sealing mode.

The bottom surfaces of the first roller seat plate 5.48 and the second roller seat plate 5.19 are respectively provided with a side roller 5.16 corresponding to two sides of each roller 5.11, one side roller is arranged on the bottom surface of the first roller seat plate 5.48 or the bottom surface of the second roller seat plate 5.19 through an eccentric shaft 5.15, the other side roller is arranged on the bottom surface of the first roller seat plate 5.48 or the bottom surface of the second roller seat plate 5.19 through a concentric shaft 5.14, the concentric shaft 5.14 and the eccentric shaft 5.15 are respectively provided with a fifth deep groove ball bearing 5.13, the bottom surface of the fifth deep groove ball bearing 5.13 is supported and limited through a hole by an elastic collar 5.17, and the fifth deep groove ball bearing 5.13 realizes the rolling support of the side roller 5.16. Two fifth deep groove ball bearings 5.13 are supported at two sides of the longitudinal guide rail 9, so that the beam part 5 can reliably and stably walk relative to the longitudinal guide rail 9, and the rollers 5.11 are supported on the longitudinal guide rail 9.

As shown in fig. 11 to 13, the moving part 4 includes a traverse frame 4.2, the traverse frame 4.2 is cooperatively disposed on a first linear guide pair 5.4 of the beam part 5, an upper motor base 4.11 capable of adjusting the position is disposed on the traverse frame 4.2, two sides of the upper motor base 4.11 corresponding to the length direction of the traverse frame 4.2 are respectively limited by an upper pressing plate 4.12 and an upper copper pad 4.13, the upper motor base 4.11 is fixed at an outer end of the upper motor base 4.11 corresponding to the length direction of the traverse frame 4.2, an upper belleville spring 4.14 and an upper adjusting shaft 4.15 are sequentially mounted in an adjusting hole of the upper motor base 4.11, an inner end of the upper adjusting shaft 4.15 is pressed against the upper belleville spring 4.14, an outer end of the upper adjusting shaft 4.15 abuts against a screw on the upper adjusting block 4.16, a limiting fixing seat 4.10 is further mounted on the traverse frame 4.2, the limiting fixing seat 4.10 is used for realizing the upper motor base 4.11, the limiting switch 4.10, and the limiting switch is mounted on a limiting plate 4.8.

A planetary reducer 4.5 is installed in a center hole of an upper motor base 4.11, a second servo motor 4.4 is arranged at an input end of the planetary reducer 4.5, a gear shaft of a transverse gear 4.6 penetrates through a bottom plate of a transverse moving frame 4.2 to be connected with an output shaft of the planetary reducer 4.5, the transverse gear 4.6 is meshed with a transverse beam rack 5.5 of a transverse beam component 5, a third cover plate 4.7 is arranged on an end face of the transverse gear 4.6, a first housing 4.1 covers the bottom plate of the transverse moving frame 4.2, an upper cover plate 4.17 is connected with an opening at the top of the first housing 4.1, and a side opening of the first housing 4.1 is connected with a side cover plate 4.3.

The moving part 4 moves on the cross beam part 5 to achieve real-time adjustment of the machining needs.

As shown in fig. 7 to 8, the wire support frame assembly 2 includes a base 2.1, a second support 2.2 is sleeved on the base 2.1, the second support 2.2 and the base 2.1 are locked by screws, a lifting ring screw 2.3 is fixed on a cross bar at the top of the second support 2.2, and a tension device 2.4 is fixed on the lifting ring screw 2.3; two shafts 2.8 are arranged at the outer end of a cross bar at the top of the second support 2.2 in parallel, a guide wheel 2.6, a bearing 2.7 and an elastic collar 2.9 for the shaft are respectively arranged on each shaft 2.8, and leading-out wires of the chest expander 2.4 penetrate through the two guide wheels 2.6 and are connected to two clamping blocks 2.5 fixed by bolts.

As shown in fig. 4 to 6, the lifting component 1 includes a linear guide rail pair 1.1 and a limit switch base 1.17 which are mounted on the surface of a vertical plate of a cross frame 4.2 of the moving component 4, a transition block 1.20 is mounted on the linear guide rail pair 1.1, a lifting carriage 1.2 is mounted on the transition block 1.20, and the lifting carriage 1.2 can move up and down on the linear guide rail pair 1.1.

As shown in fig. 11 to 13, an upper bearing seat 1.9 is installed on the upper surface of a vertical plate of a cross frame 4.2 of a moving component 4, a lower bearing seat 1.13 is installed on the lower surface of the vertical plate, wherein an angular contact ball bearing 1.8 is installed in the upper bearing seat 1.9, a third deep groove ball bearing 1.14 is installed in the lower bearing seat 1.13, a ball screw pair 1.10 is rotatably supported in the angular contact ball bearing 1.8 and the third deep groove ball bearing 1.14, a screw seat 1.11 is screwed on the ball screw pair 1.10, the screw seat 1.11 is fixedly connected with a lifting carriage 1.2, a driven pulley 1.29 is installed on one end of the ball screw pair 1.10, which is located at the upper bearing seat 1.9, a shaft sleeve 1.6 and an upper bearing cover 1.7 are sequentially installed at one end of the ball screw pair 1.10, a first round nut 1.5 is screwed at the axial outer end of the upper bearing cover 1.7, a ball screw pair 1.10 is correspondingly to the axial outer end of the first round nut 1.5, a driven pulley 1.29 is fixed at a limit position at the lower end of the lower bearing seat 1.13, a limit of the ball screw pair 1.13 is installed at the lower bearing seat, a ball screw pair 13.13.13 is installed at one end of the lower bearing seat, a ball screw pair 1.13.13, and a lower bearing 1.13.13.13, and a ball screw pair is installed at the lower bearing seat 1.13.

The lower part of the lifting planker 1.2 is provided with a surface mounting base plate 1.21, two side plates 1.22 are fixed on the base plate 1.21, the upper part of the lifting planker 1.2 is fixedly provided with a mounting base 1.26, an adjusting plate 1.25 and a third servo motor 1.24 are sequentially arranged on the mounting base 1.26, an output shaft of the third servo motor 1.24 is provided with a driving belt pulley 1.27, and the driving belt pulley 1.27 is connected with a driven belt pulley 1.29 in a tensioning way through a synchronous belt 1.28.

The top of the lifting planker 1.2 is provided with a drag chain 1.4, two sides of the lifting planker 1.2 are respectively provided with a side cover plate 1.3, and a second housing 1.23 is supported on the side plate 1.22.

As shown in fig. 9 and 10, the groove cutting head 3 includes a mounting plate 3.3, a hollow shaft rotating platform 3.2 is mounted on the mounting plate 3.3, a swing flange 3.4 is arranged on the hollow shaft rotating platform 3.2, the swing flange 3.4 is driven by a fourth servo motor 3.1 to rotate, a vertical plate 3.5 is arranged in a groove of the swing flange 3.4, and a third housing 3.8 covers a joint between the vertical plate 3.5 and the swing flange 3.4.

The surface of one side of a vertical plate 3.5 is provided with a fifth servo motor, the fifth servo motor drives a right-angle flange speed reducer 3.6, the vertical plate 3.5 is provided with a fourth housing 3.7, the fourth housing 3.7 is covered on the outer sides of the fifth servo motor and the right-angle flange speed reducer 3.6, the right-angle flange speed reducer 3.6 is arranged on the vertical plate 3.5, the surface of the other side of the vertical plate 3.5 is provided with a rotating plate 3.9, the output end of the right-angle flange speed reducer 3.6 penetrates through a through hole in the vertical plate 3.5 to be connected with the rotating plate 3.9, the side surface of the rotating plate 3.9 is provided with a limiting plate 3.19, the vertical plate 3.5 is also provided with a nylon sleeve 3.17, a first proximity switch 3.18 is arranged in the nylon sleeve 3.17, and the vertical plate 3.5 corresponds to the nylon sleeve 3.17.

The rotary plate 3.9 is provided with a clamping plate 3.13, the clamping plate 3.13 is fixedly provided with a transition plate 3.14, the transition plate 3.14 is fixedly provided with a clamp holder 3.15, the clamp holder 3.15 and the transition plate 3.14 are positioned through a positioning pin 3.12, the clamp holder 3.15 is provided with a first insulating sleeve 3.10, a second proximity switch 3.11 is arranged in the first insulating sleeve 3.10, a cylindrical head screw 3.21 penetrates through a through hole of the clamp holder 3.15 to be connected with the transition plate 3.14, the cylindrical head screw 3.21 is sleeved with a spring 3.20 so that the clamp holder 3.15 can slightly move up and down, the clamp holder 3.15 is internally used for clamping a second insulating sleeve 3.16, a cutting gun 3.22 is inserted into the second insulating sleeve 3.16, and the clamp holder 3.15 is tightly held through a bolt to fix the cutting gun 3.22.

A fourth servo motor 3.1 in the groove cutting head 3 drives a swing flange 3.4 to rotate, and the swing flange 3.4 drives a vertical plate 3.5 to rotate; the fifth servo motor drives the right-angle flange speed reducer 3.6, the right-angle flange speed reducer 3.6 drives the rotating plate 3.9 to rotate, and the cutting gun 3.22 is driven to rotate in the rotating process of the rotating plate 3.9, so that reliable processing is realized.

As shown in fig. 16 to 18, the blowing assembly comprises a power frequency centrifugal fan 6.16, a connecting port 6.15 of the power frequency centrifugal fan 6.16 is hermetically connected with one end of a heat-resistant pipe 6.14, the other end of the heat-resistant pipe 6.14 is a blowing port 6.13, the heat-resistant pipe 6.14 is fixedly connected with a blowing third support 6.12, and the blowing third support 6.12 and the power frequency centrifugal fan 6.16 are fixed on one side of the inner wall of the cross beam component 5.

The adsorption component comprises a frame 6.17, a plurality of openings are uniformly distributed at the top of the frame 6.17 along the length direction, a movable frame 6.4 is arranged at the top of the frame 6.17 in a sliding mode, the lower opening of the movable frame 6.4 is communicated with the top opening of the frame 6.17, two supporting shafts 6.8 are respectively arranged at two ends of the movable frame 6.4 in a rotating mode, two ends of each supporting shaft 6.8 are respectively supported on the movable frame 6.4 in a rotating mode through a fourth deep groove ball bearing 6.7, and the outer side of the fourth deep groove ball bearing 6.7 is limited through a bearing cover 6.6.

The top of the frame 6.17 is fixedly provided with a sealing rubber belt 6.10, two ends of the sealing rubber belt 6.10 are fixedly connected with the frame 6.17 through a pressing plate 6.11 respectively, the sealing rubber belt 6.10 is wound on the supporting shaft at the upper part of one side of the moving frame 6.4 from the inner side of the supporting shaft 6.8 at the lower part of the one side, and is tensioned to the supporting shaft at the upper part of the other side of the moving frame 6.4 after being changed by the outer surface of the supporting shaft at the upper part, and the sealing rubber belt 6.10 is extended to the supporting shaft at the lower part of the one side after being changed by the supporting shaft at the upper part of the other side of the moving frame 6.4.

The fixed third support 6.1 in one side of removing frame 6.4, third support 6.1 is fixed in inner wall one side of crossbeam part 5 through joining in marriage welding plate 6.2, and the opposite side of removing frame 6.4 sets up inlet scoop 6.9, removes to set up fifth housing 6.3 on the frame 6.4, and the pressure frame 6.5 is installed respectively to the both sides of fifth housing 6.3. When the dust-collecting device works, the moving frame 6.4 is driven by the cross beam part 5 to reciprocate relative to the upper surface of the frame 6.17 under the limitation of the sealing rubber belt 6.10, and the air suction opening 6.9 realizes real-time online adsorption of dust, smoke and the like generated in the operation process in the moving process of the moving frame 6.4.

Jetting subassembly and adsorption component both install respectively in the both sides of crossbeam part 5, and at the during operation, the jetting subassembly realizes carrying out the jetting operation to dust, the flue gas in the course of working, mainly is to the dust, the flue gas jetting to adsorption component position department, realizes the absorption to dust, flue gas etc. by adsorption component to ensure that the pollution of workplace is less.

As shown in fig. 19 and 20, the upper tow chain component 7 comprises an upper tow frame 7.1, a tow frame upright post 7.2, a tow chain groove 7.3, anti-skid strips 7.4 and a tow chain 7.5, the tow frame upright post 7.2 is installed on the cross beam component 5, the upper tow frame 7.1 is installed on the upper portion of the tow frame upright post 7.2, the tow chain groove 7.3 is arranged below the upper tow frame 7.1, the two anti-skid strips 7.4 are installed inside the tow chain groove 7.3, one end of the tow chain 7.5 is installed below the two anti-skid strips 7.4, and the other end of the tow chain 7.5 is installed on the upper tow frame 7.1.

As shown in fig. 14 and 15, the power source 10 is attached to one side of the beam member 5, and the console box member 8 is attached to the other side. As shown in fig. 21 to 23, the operation box component 8 includes an electric control operation box 8.1, a fourth cover plate 8.2, a double-door plate 8.3, a door plate 8.4, a bottom plate 8.5, a fourth bracket 8.6, a control system mounting plate 8.7, a numerical control system fixing plate 8.8, a hanging ring 8.9, and an operation panel 8.10, the fourth bracket 8.6 is welded inside the electric control operation box 8.1, the bottom plate 8.5 is welded on the fourth bracket 8.6, the double-door plate 8.3, the door plate 8.4, and the fourth cover plate 8.2 are fixed outside the electric control operation box 8.1, the control system mounting plate 8.7 is fixed inside the electric control operation box 8.1, the numerical control system fixing plate 8.8 is fixed on the control system mounting plate 8.7, and the operation panel 8.10 is fixed on the fourth bracket 8.6. In the working process, the working condition of the invention is adjusted in real time through the operation of the operation box component 8.

The control system in the operation box adopts a PLC system to control the rotary groove cutting machine to work.

The working principle of the invention is as follows: crossbeam part 5 is adorned on longitudinal rail 9, be equipped with convulsions mobile device 6 below crossbeam part 5, convulsions mobile device 6 follows crossbeam part 5 synchronous motion, realize adsorbing the flue gas that produces in the cutting process in real time, the right side is equipped with tow chain part 7 and control box part 8, the left side is equipped with plasma power supply 10, the top is equipped with mobile component 4, be equipped with branch shelf subassembly 2 at mobile component 4 top, preceding lifting component 1 that is equipped with, and lifting component 1 links to each other with groove cutting head 3, according to the pattern and the board thickness of the required groove of plate, set up at control box part 8 by personnel, make lifting component 1 descend the burning torch to apart from the plate suitable position, then through mobile component 4 and crossbeam part 5 in horizontal and longitudinal removal, and the rotation of groove cutting head self, accomplish the cutting of various grooves.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make various changes, modifications, additions and substitutions within the spirit and scope of the present invention.

Claims (10)

1. A rotary groove cutting machine comprises two groups of longitudinal guide rails (9) which are arranged in parallel, wherein a beam part (5) is supported on the two groups of longitudinal guide rails (9) and can reciprocate relative to the longitudinal guide rails (9); the method is characterized in that: an air draft moving device (6) is arranged below the cross beam component (5) to adsorb harmful gas in working, the air draft moving device (6) comprises an injection component and an adsorption component, the injection component and the adsorption component are respectively arranged on two sides of the cross beam component (5) and are respectively fixedly connected with the cross beam component (5), and an air blowing opening (6.13) of the injection component corresponds to an air suction opening (6.9) of the adsorption component to promote smoke to be sucked by the air suction opening (6.9);

the movable part (4) is installed on the beam part (5), the movable part (4) can move transversely relative to the beam part (5), the wire support frame assembly (2) is installed at the top of the movable part (4), the lifting part (1) is installed on the movable part (4), and the lifting part (1) is connected with the groove cutting head (3) so as to perform online cutting.

2. The rotary groove cutting machine according to claim 1, wherein: the beam component (5) comprises a beam (5.1), two first linear guide rail pairs (5.4), a beam rack (5.5) and a lifting screw (5.34) are arranged on the top surface of the beam (5.1), the moving component (4) is installed on the two first linear guide rail pairs (5.4), a transverse gear (4.6) of the moving component (4) is meshed with the beam rack (5.5), two ends, corresponding to the length direction of the first linear guide rail pairs (5.4), of the beam (5.1) are respectively provided with a limiting structure to limit the moving component (4), each limiting structure comprises a collision block (5.36), a rubber block (5.37) is installed on each collision block (5.36), and the front part of each collision block (5.36) is also provided with a travel switch collision block (5.35);

a plurality of supports (5.3) are welded on the bottom surface of the middle of the cross beam (5.1), a groove plate (5.2) is fixed on the first support (5.3), a wire groove (5.6) is fixed on the groove plate (5.2), a drag chain (5.46) is arranged in the wire groove (5.6), and a wire groove cover plate (5.7) is covered on the wire groove (5.6);

the bottom surfaces of two ends of a cross beam (5.1) in the length direction are respectively provided with a first roller seat plate (5.48) and a second roller seat plate (5.19), the first roller seat plate (5.48) and the second roller seat plate (5.19) are respectively provided with a roller structure, each roller structure comprises two supports (5.8) arranged at any end of the first roller seat plate (5.48) or the second roller seat plate (5.19) in the length direction, each support (5.8) is respectively provided with a shaft sleeve (5.9), two ends of a roller shaft (5.10) are respectively sleeved in the corresponding shaft sleeves (5.9), a roller (5.11) is rotatably supported on the roller shaft (5.10) through two first deep groove ball bearings (5.12), and the inner side surface of each first deep groove ball bearing (5.12) is respectively matched with a hole elastic check ring (5.17);

two adjusting plates (5.47) are respectively arranged on the lower inner sides of two ends of the beam (5.1) in the length direction so as to be connected with a first roller seat plate (5.48) and a second roller seat plate (5.19) correspondingly in a positioning way;

the bottom surfaces of two ends of the cross beam (5.1) in the length direction are respectively fixed with a lower motor base (5.31) through a pressing plate (5.29), a lower copper pad (5.28) is arranged between the pressing plate (5.29) and the lower motor base (5.31), a reduction box (5.26) is installed on the lower motor base (5.31), the input end of the reduction box (5.26) is connected with the output end of a lower first servo motor (5.27), the output end of the reduction box (5.26) is provided with a gear flange (5.25), a second deep groove ball bearing (5.23) and a spacer bush (5.24) are installed in the gear flange (5.25), a through cover (5.22) is fixed at the lower end of the gear flange (5.25) to fix the second deep groove ball bearing (5.23), the gear shaft of the longitudinal gear ball bearing (5.20) is connected with the output shaft of the reduction box (5.26), and a cover plate (5.21) is fixed on the outer end surface of the longitudinal gear (5.20);

the bottom of the cross beam (5.1) is also fixed with a downward-adjusting block (5.30), the downward-adjusting block (5.30) is arranged at the side part of the lower motor base (5.31), a lower disc spring (5.33) and a lower adjusting shaft (5.32) are sequentially arranged in a side hole of the lower motor base (5.31), and a screw on the downward-adjusting block (5.30) abuts against the lower adjusting shaft (5.32) so as to realize the keeping engagement of the longitudinal gear (5.20) and a guide rail rack on the longitudinal guide rail (9).

3. The rotary groove cutting machine according to claim 2, wherein: backing plates (5.43) are respectively fixed on two sides of the width direction of any end of the length direction of the cross beam (5.1), a cushion block (5.44) capable of being adjusted in a lifting mode is respectively installed on each backing plate (5.43), a copper sheet (5.41) is fixedly installed on each cushion block (5.44) through a pressing block (5.42), a first cover plate (5.38) and a second cover plate (5.45) are respectively fixed on two sides of the cross beam (5.1), and the first cover plate (5.38) covers the lower first servo motor (5.27) part in a sealing mode; the bottom surfaces of the first roller seat plate (5.48) and the second roller seat plate (5.19) are respectively provided with a side roller (5.16) corresponding to two sides of each roller (5.11), one side roller is arranged on the bottom surface of the first roller seat plate (5.48) or the second roller seat plate (5.19) through an eccentric shaft (5.15), the other side roller is arranged on the bottom surface of the first roller seat plate (5.48) or the second roller seat plate (5.19) through a concentric shaft (5.14), the concentric shaft (5.14) and the eccentric shaft (5.15) are respectively provided with a fifth deep groove ball bearing (5.13), the bottom surface of the fifth deep groove ball bearing (5.13) is supported and limited by an elastic retainer ring (5.17), and the fifth deep groove ball bearing (5.13) realizes rolling support of the side roller (5.16).

4. The rotary groove cutting machine according to claim 1, wherein: the movable component (4) comprises a transverse moving frame (4.2), the transverse moving frame (4.2) is arranged on a first linear guide rail pair (5.4) of the beam component (5) in a matched mode, an upper motor base (4.11) capable of adjusting the position is arranged on the transverse moving frame (4.2), the two sides, corresponding to the length direction of the transverse moving frame (4.2), of the upper motor base (4.11) are limited by an upper pressing plate (4.12) and an upper copper pad (4.13), the upper motor base (4.11) is fixed on the outer end, corresponding to the length direction of the transverse moving frame (4.2), of the upper motor base (4.16), an upper disc-shaped spring (4.14) and an upper adjusting shaft (4.15) are sequentially arranged in an adjusting hole of the upper motor base (4.11), the inner end of the upper adjusting shaft (4.15) is tightly pressed on the upper disc-shaped spring (4.14), the outer end of the upper adjusting shaft (4.15) abuts against a screw in contact with the upper adjusting block (4.16), the transverse moving frame (4.2) is also provided with a limiting switch (10), and the upper limiting plate (4.9) is arranged on a limiting plate (10) and comprises a limiting plate (10.9);

a planetary speed reducer (4.5) is installed in a center hole of an upper motor base (4.11), a second servo motor (4.4) is arranged at the input end of the planetary speed reducer (4.5), a gear shaft of a transverse gear (4.6) penetrates through a bottom plate of a transverse moving frame (4.2) to be connected with an output shaft of the planetary speed reducer (4.5), the transverse gear (4.6) is meshed with a transverse beam rack (5.5) of a transverse beam component (5), a third cover plate (4.7) is arranged on the end face of the transverse gear (4.6), a first cover shell (4.1) is covered on the bottom plate of the transverse moving frame (4.2), an upper cover plate (4.17) is connected to an opening at the top of the first cover shell (4.1), and a side cover plate (4.3) is connected to an opening at the side of the first cover shell (4.1).

5. The rotary groove cutting machine according to claim 1, wherein: the wire support frame assembly (2) comprises a base (2.1), a second support (2.2) is sleeved on the base (2.1), the second support (2.2) and the base (2.1) are locked through screws, a lifting bolt (2.3) is fixed on a cross rod at the top of the second support (2.2), and a chest expander (2.4) is fixed on the lifting bolt (2.3); two axles (2.8) are installed in parallel to the outer end of the top cross rod of the second support (2.2), guide wheels (2.6), bearings (2.7) and elastic check rings (2.9) for the axles are installed on each axle (2.8) respectively, and the outgoing lines of the chest expander (2.4) penetrate through the two guide wheels (2.6) and are connected to the two clamping blocks (2.5) fixed by bolts.

6. The rotary groove cutting machine according to claim 1, wherein: the lifting component (1) comprises a linear guide rail pair (1.1) and a limit switch seat (1.17) which are arranged on the surface of a vertical plate of a transverse moving frame (4.2) of the moving component (4), a transition block (1.20) is arranged on the linear guide rail pair (1.1), a lifting carriage (1.2) is arranged on the transition block (1.20), and the lifting carriage (1.2) can move on the linear guide rail pair (1.1) in a lifting way;

an upper bearing seat (1.9) is installed on the surface of the upper portion of a vertical plate of a transverse moving frame (4.2) of a moving component (4), a lower bearing seat (1.13) is installed on the surface of the lower portion of the vertical plate, an angular contact ball bearing (1.8) is installed in the upper bearing seat (1.9), a third deep groove ball bearing (1.14) is installed in the lower bearing seat (1.13), a ball screw pair (1.10) is rotatably supported in the angular contact ball bearing (1.8) and the third deep groove ball bearing (1.14), a screw seat (1.11) is in threaded connection with a screw base on the ball screw pair (1.10), the screw seat (1.11) is fixedly connected with a lifting planker (1.2), a shaft sleeve (1.6) and an upper bearing cover (1.7) are sequentially installed at one end, corresponding to the outer end of the upper bearing seat (1.9), of the ball screw pair (1.10), a driven nut (1.5) is connected with an axial thread of the upper bearing cover (1.7) on the upper bearing cover (1.7), a driven screw pair (1.10) is installed on the lower bearing seat (1.13.13), a lower pulley (13.13) and a limit stop ring is installed on the lower bearing (1.13.13.13) corresponding to the lower bearing (1.13.13) and a lower bearing seat (1.13);

a bottom plate (1.21) is installed on the lower portion of a lifting carriage (1.2), two side plates (1.22) are fixed on the bottom plate (1.21), an installation base (1.26) is fixed on the upper portion of the lifting carriage (1.2), an adjusting plate (1.25) and a third servo motor (1.24) are sequentially installed on the installation base (1.26), a driving belt wheel (1.27) is installed on an output shaft of the third servo motor (1.24), and the driving belt wheel (1.27) is connected with a driven belt wheel (1.29) in a tensioning mode through a synchronous belt (1.28);

the top of the lifting planker (1.2) is provided with a drag chain (1.4), the two sides of the lifting planker (1.2) are respectively provided with a side cover plate (1.3), and the side plates (1.22) are provided with a second housing (1.23).

7. The rotary groove cutting machine according to claim 1, wherein: the groove cutting head (3) comprises a mounting plate (3.3), a hollow shaft rotating platform (3.2) is mounted on the mounting plate (3.3), a swing flange (3.4) is arranged on the hollow shaft rotating platform (3.2), the swing flange (3.4) is driven by a fourth servo motor (3.1) to rotate, a vertical plate (3.5) is arranged in a groove of the swing flange (3.4), and a third housing (3.8) is covered at the joint of the vertical plate (3.5) and the swing flange (3.4);

a fifth servo motor is arranged on the surface of one side of a vertical plate (3.5) and drives a right-angle flange speed reducer (3.6), a fourth cover shell (3.7) is arranged on the vertical plate (3.5), the fourth cover shell (3.7) covers the outer side of the fifth servo motor and the right-angle flange speed reducer (3.6), the right-angle flange speed reducer (3.6) is arranged on the vertical plate (3.5), a rotating plate (3.9) is arranged on the other side surface of the vertical plate (3.5), the output end of the right-angle flange speed reducer (3.6) penetrates through a through hole in the vertical plate (3.5) to be connected with the rotating plate (3.9), a limiting plate (3.19) is arranged on the side surface of the rotating plate (3.9), a nylon sleeve (3.17) is also arranged on the vertical plate (3.5), a first proximity switch (3.18) is arranged in the nylon sleeve (3.17), and the vertical plate (3.5) corresponds to the nylon sleeve (3.17);

the clamp plate (3.13) is installed on the rotating plate (3.9), the transition plate (3.14) is fixed on the clamp plate (3.13), the clamp holder (3.15) is fixed on the transition plate (3.14), the clamp holder (3.15) and the transition plate (3.14) are positioned through the positioning pin (3.12), the first insulating sleeve (3.10) is installed on the clamp holder (3.15), the second proximity switch (3.11) is installed in the first insulating sleeve (3.10), the cylindrical head screw (3.21) penetrates through a through hole of the clamp holder (3.15) to be connected with the transition plate (3.14), the spring (3.20) is sleeved on the cylindrical head screw (3.21) to enable the clamp holder (3.15) to move up and down, the second insulating sleeve (3.16) is clamped in the clamp holder (3.15), the cutting gun (3.22) is inserted into the second insulating sleeve (3.16), and the clamp holder (3.15) is tightly held by the bolt to fix the micro-moving cutting gun (3.22).

8. The rotary groove cutting machine according to claim 1, wherein: the blowing assembly comprises a power frequency centrifugal fan (6.16), a connecting port (6.15) of the power frequency centrifugal fan (6.16) is hermetically connected with one end of a heat-resistant pipe (6.14), the other end of the heat-resistant pipe (6.14) is a blowing port (6.13), the heat-resistant pipe (6.14) is fixedly connected with a blowing support (6.12), and the blowing support (6.12) and the power frequency centrifugal fan (6.16) are fixed on one side of the inner wall of the beam component (5);

the adsorption assembly comprises a frame (6.17), a plurality of openings are uniformly distributed in the top of the frame (6.17) along the length direction, a moving frame (6.4) is arranged at the top of the frame (6.17) in a sliding mode, the opening in the lower portion of the moving frame (6.4) is communicated with the opening in the top of the frame (6.17), two supporting shafts (6.8) are respectively rotatably arranged at two ends of the moving frame (6.4) in the length direction, two ends of each supporting shaft (6.8) are respectively rotatably supported on the moving frame (6.4) through a fourth deep groove ball bearing (6.7), and the outer side of each fourth deep groove ball bearing (6.7) is limited through a bearing cover (6.6);

a sealing rubber belt (6.10) is fixedly arranged at the top of the frame (6.17), two ends of the sealing rubber belt (6.10) are fixedly connected with the frame (6.17) through a pressing plate (6.11), the sealing rubber belt (6.10) is wound to the supporting shaft at the upper part of one side of the moving frame (6.4) from the inner side of the supporting shaft (6.8) at the lower part of the side and is tensioned to the supporting shaft at the upper part of the other side of the moving frame (6.4) after being reversed by the outer surface of the supporting shaft at the upper part, and the sealing rubber belt (6.10) is extended to the supporting shaft at the lower part of the side after being reversed by the supporting shaft at the upper part of the other side of the moving frame (6.4);

remove fixed third support (6.1) in one side of frame (6.4), third support (6.1) are fixed in inner wall one side of beam part (5) through joining in marriage welding plate (6.2), and the opposite side of removing frame (6.4) sets up inlet scoop (6.9), removes to set up fifth housing (6.3) on frame (6.4), and the both sides of fifth housing (6.3) are installed respectively and are pressed frame (6.5).

9. The rotary groove cutting machine of claim 1, wherein: go up tow chain part (7) including last tow frame (7.1), tow frame stand (7.2), tow chain groove (7.3), antislip strip (7.4), tow chain (7.5), tow frame stand (7.2) are installed on crossbeam part (5), go up tow frame (7.1) and install in tow frame stand (7.2) upper portion, tow chain groove (7.3) set up the below in last tow frame (7.1), two antislip strip (7.4) of tow chain groove (7.3) internally mounted, the one end of tow chain (7.5) is installed below two antislip strip (7.4), the other end is installed on last tow frame (7.1).

10. The rotary groove cutting machine according to claim 1, wherein: crossbeam part (5) one side installation power (10), opposite side installation control box part (8), control box part (8) include automatically controlled control box (8.1), fourth apron (8.2), two door plant (8.3), door plant (8.4), bottom plate (8.5), fourth support (8.6), control system mounting panel (8.7), numerical control system fixed plate (8.8), rings (8.9), operating panel (8.10), fourth support (8.6) welding is inside automatically controlled control box (8.1), bottom plate (8.5) welding is on fourth support (8.6), two door plant (8.3), door plant (8.4) and fourth apron (8.2) are fixed in automatically controlled control box (8.1) outside, control system mounting panel (8.7) are fixed inside automatically controlled control box (8.1), numerical control system fixed plate (8.8) are fixed on control system mounting panel (8.7), operating panel (8.10) are fixed on fourth support (8.6).

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