CN203265731U - Main machine of double-sided upper and lower bevel edge milling machine of steel plate - Google Patents

Abstract

The utility model relates to a main machine of a double-sided upper and lower bevel edge milling machine of a steel plate, particularly relates to a main machine for synchronously machining double-sided upper and lower bevels opened on a steel plate according to welding line welding requirements before the steel plates with different plate thicknesses and different plate widths are spliced and welded, and belongs to the technical field of mechanical equipment. The main machine comprises a bevel milling slide seat, a rack, bevel milling devices, upper pressing head devices, lower supporting devices and scrap iron recycling devices, wherein the bevel milling slide seat is fixedly provided with the rack; one bevel milling device is respectively arranged at each one of left and right sides of the rack. Each one of two sides of the upper part of one side of the rack is respectively connected with one upper pressing head device; each one of the two sides of the lower part of the same side of the rack is respectively connected with one lower supporting device. The scrap iron recycling devices are fixed at the lower part of the rack; scrap iron recycling devices are located below the bevel milling devices. The main machine disclosed by the utility model is simple, compact and reasonable in structure; the labor intensity of workers is greatly reduced and the automation degree is high; the working precision is high, the cost is lower and the utilization is convenient and flexible.

Description

The bilateral up and down of steel plate groove edge milling machines main frame

Technical field

The utility model relates to a kind of steel plate bilateral up and down groove edge milling machines main frame, be used for different thicknesss of slab, the wide steel plate of different plate, before splice joint, according to the weld seam welding requirements specifically, steel plate is opened bilateral upper and lower groove synchronous processing, belong to mechanical equipment technical field.

Background technology

Along with the fast development of China's shipbuilding, bridging industry, the sheet material processing that is used for splice joint is also progressively developed to meticulous type by extensive style.This variation highlights all the more relatively lagging behind of present stage China's sheet machining apparatus, before heavy-gauge sheeting is for splice joint, in order to satisfy growth requirement, should improve the machining accuracy of edge various shape especially, improves again working (machining) efficiency.How to improve sheet material machining accuracy and working (machining) efficiency, become the technical barrier that shipbuilding, bridging industry must overcome together.

Before the utility model is made, generally adopt and as flame cutting, end face edge milling machines, edge planer etc., steel plate is processed.In traditional way or have the poor problem of machining accuracy, or automaticity is low, and production cost is too high.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned weak point, thereby a kind of steel plate bilateral up and down groove edge milling machines main frame is provided, can realizes accurately and quickly different thicknesss of slab, wide four sides, the steel plate weld seam both sides processing simultaneously of different plate, efficient is high, precision is high, and cost is low.

The technical scheme that provides according to the utility model, the bilateral up and down of steel plate groove edge milling machines main frame comprises that groove mills slide, frame, groove milling attachment, seaming chuck device, lower support device and iron filings retracting device, groove mills fixed frame on slide, it is characterized in that: a groove milling attachment is installed respectively in the frame left and right sides.The both sides, top of frame one side connect respectively a seaming chuck device, and the both sides, bottom of frame the same side connect respectively a lower support device.Described frame lower is the iron filings retracting device fixedly, and the iron filings retracting device is positioned at below the groove milling attachment.

Described groove mills slide and comprises base, ram and ball screw, and base two ends are fixed respectively one and milled the slide bearing block, and the two ends of ball screw are arranged on respectively mills in the slide bearing block, ball screw and mill to be provided with between the slide bearing block and mill the slide bearing.Base one end fixedly mills the slide reductor, mills to connect on the slide reductor and mills the slide drive motors.One end end of ball screw connects and mills the slide reductor by milling the slide coupling band.Described ram is slidably mounted on base, and the ram inboard is bolted nut seat, and nut seat is threaded connection ball screw.

Described groove milling attachment comprises the vertical reductor that is fixed on the frame upper end, and the input of vertical reductor connects motor vertical, and the output of vertical reductor connects vertical ball screw by vertical shaft coupling.Vertical ball screw is arranged in the vertical axis bearing by the vertical bearing that the two ends, up and down connect, and the vertical axis bearing is fixed on frame.The frame of described vertical ball screw both sides is provided with vertical guide rail, is threaded connection vertical nut seat on vertical ball screw, connects vertical sliding on vertical nut seat, the vertical sliding both sides vertical guide rail that is slidably connected.The vertical sliding side connects horizontal reducer pedestal, fixing horizontal reductor on horizontal reducer pedestal, and the input of horizontal reductor connects horizontal motor, and the output of horizontal reductor connects horizontal ball screw by horizontal shaft coupling.Horizontal ball screw is arranged in the trunnion axis bearing by the horizontal bearing that the two ends, left and right connect, and the trunnion axis bearing is fixed on vertical sliding.Be threaded connection horizontal nut seat on horizontal ball screw, connect horizontal slide on horizontal nut seat.Horizontal slide front end connects the rotation fluted disc, the fixing rotation fluted disc rotating shaft of rotary teeth disk center, rotation fluted disc rotating shaft front end connects the milling head base plate by rotation fluted disc bearing, can be tightened in together by a T shape fang bolt that is located on the milling head base plate between milling head base plate and rotation fluted disc.Described milling head base plate side is the rotary teeth disc decelerator fixedly, and the input of rotary teeth disc decelerator connects the milling head handwheel, and the output of rotary teeth disc decelerator connects rotation fluted disc gear, and rotation fluted disc gear is connected with a joggle with the rotation fluted disc.Described milling head base plate is bolted milling head, and the milling head front end connects facing cutter.

Described seaming chuck device comprises front base, rear base and pinch roller seat, connects by a plurality of bolts between front base and rear base.The pinch roller seat is positioned at front base, and front base upper end is the seaming chuck oil cylinder fixedly, and the piston-rod lower end of seaming chuck oil cylinder connects the pinch roller seat, and the piston rod of seaming chuck oil cylinder and pinch roller seat are by seaming chuck the first round nut locking.Described pinch roller seat lower end from left to right is provided with a plurality of idler wheel mechanisms successively.Frame is connected side and is connected with lower linkwork by upper linkwork with rear base, upper linkwork is positioned at directly over lower linkwork.Frame is connected upper bindiny mechanism and is connected with lower bindiny mechanism with the rear base opposite side, upper bindiny mechanism is positioned at directly over lower bindiny mechanism.

Described upper linkwork comprises seaming chuck the first shaft seating that is fixed on frame and seaming chuck the second shaft seating that is fixed on rear base, seaming chuck the first shaft seating and seaming chuck the second shaft seating are articulated and connected by seaming chuck the first rotating shaft, are provided with the seaming chuck clutch shaft bearing between seaming chuck the first rotating shaft and seaming chuck the first shaft seating, seaming chuck the second shaft seating.Seaming chuck the first rotating shaft upper end is provided with the seaming chuck bearing (ball) cover.Lower linkwork structure is identical with upper linkwork.

Described upper bindiny mechanism comprises the seaming chuck handwheel seat and the bearing that is fixed on frame that is fixed on the rear base side, and bearing and seaming chuck attaching nut are articulated and connected by seaming chuck the 3rd rotating shaft.Connect the seaming chuck handwheel on seaming chuck handwheel seat, seaming chuck handwheel front end is provided with the seaming chuck connecting bolt, and seaming chuck connecting bolt and attaching nut are threaded connection.The structure of described lower bindiny mechanism is identical with upper bindiny mechanism.

Described lower support device comprises the bracing frame that is fixed on frame, laterally fixes successively a plurality of back-up roller wheel shafts on bracing frame, connects a support roller by spring bearing on each back-up roller wheel shaft.

Described iron filings retracting device comprises the processing machine that is horizontally installed on frame, processing machine comprises the stirring cage housing, be provided with the stirring cage main shaft in the stirring cage housing, stirring cage main shaft one end connects stirring cage reductor output by the stirring cage shaft coupling, and the input of stirring cage reductor connects the stirring cage drive motors.The stirring cage main shaft other end connects the stirring cage housing by the stirring cage bearing.Be provided with vertically the stirring cage blade of spiral distribution on described stirring cage main shaft.Described processing machine one end is provided with discharging opening, is provided with the iron filings bucket under discharging opening, and both sides, iron filings bucket lower end connect the stirring cage idler wheel mechanism, and the iron filings bucket is by the be slidably connected line slideway of lower end of stirring cage idler wheel mechanism.

Further, the ram lower end is bolted pressing plate, and an end of pressing plate is positioned at the base below, connects base by lock-screw on pressing plate.

Further, frame comprises mainframe and side frame, and mainframe both sides connect respectively a side frame by bolt.

Further, connect vertical pressing plate on vertical sliding, be provided with the vertical adjusting plate between vertical pressing plate and vertical guide rail.

Further, connect horizontal pressure foot on horizontal slide, be provided with the Level tune plate between horizontal pressure foot and vertical sliding.

Further, idler wheel mechanism comprises seaming chuck the second rotating shaft that is fixed on the pinch roller seat, connects roller by seaming chuck the second bearing in seaming chuck the second rotating shaft, and the pinch roller seat is provided with baffle plate, and baffle plate is positioned at the idler wheel mechanism side.

Further, in front base, the left and right sides is respectively equipped with a seaming chuck fairlead, and a seaming chuck guide post is slidably connected in each seaming chuck fairlead.Each seaming chuck guide post lower end connects the pinch roller seat jointly, between each seaming chuck guide post and pinch roller seat by the second round nut locking of a seaming chuck.

Further, connect backup washer on bracing frame, backup washer is positioned at back-up roller wheel shaft one end.

Further, the stirring cage idler wheel mechanism comprises the stirring cage rolling wheel support, and the stirring cage roller shaft is installed on the stirring cage rolling wheel support, connects the stirring cage roller on the stirring cage roller shaft.

Further, the back-up roller wheel shaft is provided with the support spacer, and the spring bearing outer end is provided with backup washer.

Compared with the prior art the utility model has the following advantages:

The utility model is simple in structure, compact, reasonable, can realize different thicknesss of slab, wide four sides, the steel plate weld seam both sides processing simultaneously of different plate; Greatly reduce labor strength, automaticity is high; Machining accuracy is high, and cost is lower, easy to use and flexible.

Description of drawings

Fig. 1 is the utility model front view.

Fig. 2 is the utility model side view.

Fig. 3 is that groove mills the slide front view.

Fig. 4 is that groove mills the slide side view.

Fig. 5 is the rack construction schematic diagram.

Fig. 6 is groove milling attachment front view.

Fig. 7 is groove milling attachment top view.

Fig. 8 is groove milling attachment side view.

Fig. 9 is seaming chuck device front view.

Figure 10 be in Fig. 9 A to view.

Figure 11 is seaming chuck device side view.

Figure 12 is B place enlarged drawing in Fig. 9.

Figure 13 is lower support device front view.

Figure 14 is lower support device side view.

Figure 15 is iron filings retracting device front view.

Figure 16 is iron filings retracting device side view.

description of reference numerals: the 1-groove mills slide, 1.1-base, 1.2-ram, 1.3-ball screw, 1.4-nut seat, 1.5-mill the slide bearing block, 1.6-mill the slide bearing, 1.7-mill the slide coupling band, 1.8-mill the slide reductor, 1.9-mill the slide drive motors, 1.10-pressing plate, 1.11-lock-screw, the 2-frame, 2.1-mainframe, 2.2-side frame, 3-groove milling attachment, 3.1-facing cutter, 3.2-milling head, 3.3-milling head base plate, 3.4-rotation fluted disc, 3.5-milling head handwheel, 3.6-rotary teeth disc decelerator, 3.7-rotation fluted disc gear, 3.8-rotation fluted disc rotating shaft, 3.9-rotation fluted disc bearing, a 3.10-T shape fang bolt, 3.11-motor vertical, 3.12-vertical reductor, 3.13-vertical shaft coupling, 3.14-vertical axis bearing, 3.15-vertical bearing, 3.16-vertical ball screw, 3.17-vertical nut seat, 3.18-vertical guide rail, 3.19-vertical adjusting plate, 3.20-vertical pressing plate, 3.21-vertical sliding, 3.22-horizontal reducer pedestal, 3.23-horizontal reductor, 3.24-horizontal motor, 3.25-horizontal shaft coupling, 3.26-trunnion axis bearing, 3.27-horizontal bearing, 3.28-horizontal nut seat, 3.29-horizontal slide, 3.30-horizontal ball screw, 3.31-Level tune plate, 3.32-horizontal pressure foot, 4-seaming chuck device, 4.1-front base, 4.2-rear base, 4.3-pinch roller seat, 4.4-attaching nut, 4.5-seaming chuck oil cylinder, 4.6-seaming chuck the first round nut, 4.7-seaming chuck the second round nut, 4.8-seaming chuck guide post, 4.9-seaming chuck fairlead, 4.10-upper linkwork, 4.11-lower linkwork, 4.12-seaming chuck the first shaft seating, 4.13-seaming chuck the first rotating shaft, 4.14-seaming chuck the second shaft seating, 4.15-seaming chuck bearing (ball) cover, 4.16-seaming chuck clutch shaft bearing, 4.17-idler wheel mechanism, 4.18-roller, 4.19-seaming chuck the second bearing, 4.20-seaming chuck the second rotating shaft, 4.21-baffle plate, 4.22-upper bindiny mechanism, 4.23-lower bindiny mechanism, 4.24-seaming chuck handwheel, 4.25-seaming chuck connecting bolt, 4.26-seaming chuck handwheel seat, 4.27-bearing, 4.28-seaming chuck the 3rd rotating shaft, 5-lower support device, 5.1-bracing frame, 5.2-support roller, 5.3-back-up roller wheel shaft, 5.4-support spacer, 5.5-support fixed head, 5.6-spring bearing, 5.7-backup washer, 6-iron filings retracting device, 6.1-processing machine, 6.2-iron filings bucket, 6.3-line slideway, 6.4-discharging opening, 6.5-stirring cage drive motors, 6.6-stirring cage reductor, 6.7-stirring cage shaft coupling, 6.8-stirring cage main shaft, 6.9-stirring cage blade, 6.10-stirring cage housing, 6.11-stirring cage bearing, 6.12-stirring cage roller, 6.13-stirring cage roller shaft, 6.14-stirring cage rolling wheel support.

The specific embodiment

Following the utility model is further described in connection with the embodiment in accompanying drawing:

As shown in Fig. 1 ~ 2, the utility model comprises that mainly groove mills slide 1, frame 2, groove milling attachment 3, seaming chuck device 4, lower support device 5 and iron filings retracting device 6, groove mills fixed frame 2 on slide 1, and a groove milling attachment 3 is installed respectively in frame 2 left and right sides.The both sides, top of frame 2 one sides connect respectively a seaming chuck device 4, and the both sides, bottom of frame 2 the same sides connect respectively a lower support device 5.Described frame 2 bottoms are iron filings retracting device 6 fixedly, and iron filings retracting device 6 is positioned at groove milling attachment 3 belows.

As Fig. 3 ~ 4, described groove mills slide 1 and comprises base 1.1, ram 1.2 and ball screw 1.3, base 1.1 two ends are fixed respectively one and are milled slide bearing block 1.5, the two ends of ball screw 1.3 are arranged on respectively mills in slide bearing block 1.5, ball screw 1.3 and mill to be provided with between slide bearing block 1.5 and mill slide bearing 1.6.Base 1.1 1 ends fixedly mill slide reductor 1.8, mill to connect on slide reductor 1.8 and mill slide drive motors 1.9.One end end of ball screw 1.3 connects and mills slide reductor 1.8 by milling slide coupling band 1.7.Described ball screw 1.3 drives rotation by the slide drive motors 1.9 that mills that the one end connects.

Described ram 1.2 is slidably mounted on base 1.1, and ram 1.2 inboards are bolted nut seat 1.4, and nut seat 1.4 is threaded connection ball screw 1.3.Described ram 1.2 upper end fixed frames 2.

Described ram 1.2 lower ends are bolted pressing plate 1.10, and pressing plate 1.10 is L shaped, and an end of pressing plate 1.10 is positioned at base 1.1 belows, by being received in base 1.1 belows in pressing plate 1.10, prevent that ram 1.2 breaks away from base 1.1 because of disequilibrium.Connect base 1.1 by lock-screw 1.11 on described pressing plate 1.10, by the gap between lock-screw 1.11 adjustment pressing plates 1.10 and base 1.1.

As shown in Figure 5, described frame 2 comprises mainframe 2.1 and side frame 2.2, and mainframe 2.1 both sides connect respectively a side frame 2.2 by bolt.

As shown in Fig. 6 ~ 8, described groove milling attachment 3 comprises the vertical reductor 3.12 that is fixed on frame 2 upper ends, the input of vertical reductor 3.12 connects motor vertical 3.11, and the output of vertical reductor 3.12 connects vertical ball screw 3.16 by vertical shaft coupling 3.13.Vertical ball screw 3.16 is arranged in vertical axis bearing 3.14 by the vertical bearing 3.15 that the two ends, up and down connect, and vertical axis bearing 3.14 is fixed on frame 2.The frame 2 of described vertical ball screw 3.16 both sides is provided with vertical guide rail 3.18, be threaded connection vertical nut seat 3.17 on vertical ball screw 3.16, connect vertical sliding 3.21 on vertical nut seat 3.17, the vertical sliding 3.21 both sides vertical guide rail 3.18 that is slidably connected.Connect vertical pressing plate 3.20 on described vertical sliding 3.21, be provided with vertical adjusting plate 3.19 between vertical pressing plate 3.20 and vertical guide rail 3.18.Vertical sliding 3.21 sides connect horizontal reducer pedestal 3.22, fixing horizontal reductor 3.23 on horizontal reducer pedestal 3.22, the input of horizontal reductor 3.23 connects horizontal motor 3.24, and the output of horizontal reductor 3.23 connects horizontal ball screw 3.30 by horizontal shaft coupling 3.25.Horizontal ball screw 3.30 is arranged in trunnion axis bearing 3.26 by the horizontal bearing 3.27 that the two ends, left and right connect, and trunnion axis bearing 3.26 is fixed on vertical sliding 3.21.Be threaded connection horizontal nut seat 3.28 on horizontal ball screw 3.30, connect horizontal slide 3.29 on horizontal nut seat 3.28.Connect horizontal pressure foot 3.32 on described horizontal slide 3.29, be provided with Level tune plate 3.31 between horizontal pressure foot 3.32 and vertical sliding 3.21.Horizontal slide 3.29 front ends connect rotation fluted disc 3.4, the fixing rotation in rotation fluted disc 3.4 centers fluted disc rotating shaft 3.8, rotation fluted disc rotating shaft 3.8 front ends connect milling head base plate 3.3 by rotation fluted disc bearing 3.9, can be tightened in together by a T shape fang bolt 3.10 that is located on milling head base plate 3.3 between milling head base plate 3.3 and rotation fluted disc 3.4.Described milling head base plate 3.3 sides are rotary teeth disc decelerator 3.6 fixedly, the input of rotary teeth disc decelerator 3.6 connects milling head handwheel 3.5, the output of rotary teeth disc decelerator 3.6 connects rotation fluted disc gear 3.7, and rotation fluted disc gear 3.7 is connected with a joggle with rotation fluted disc 3.4.Described milling head base plate 3.3 is bolted milling head 3.2, and milling head 3.2 front ends connect facing cutter 3.1.

As shown in Fig. 9 ~ 12, described seaming chuck device 4 comprises front base 4.1, rear base 4.2 and pinch roller seat 4.3, connects by a plurality of bolts between front base 4.1 and rear base 4.2.Pinch roller seat 4.3 is positioned at front base 4.1, and front base 4.1 upper ends are seaming chuck oil cylinder 4.5 fixedly, and the piston-rod lower end of seaming chuck oil cylinder 4.5 connects pinch roller seat 4.3, and the piston rod of seaming chuck oil cylinder 4.5 and pinch roller seat 4.3 are by seaming chuck the first round nut 4.6 lockings.

Described pinch roller seat 4.3 lower ends from left to right are provided with a plurality of idler wheel mechanisms 4.17 successively, idler wheel mechanism 4.17 comprises seaming chuck the second rotating shaft 4.20 that is fixed on pinch roller seat 4.3, connects roller 4.18 by seaming chuck the second bearing 4.19 in seaming chuck the second rotating shaft 4.20.Described pinch roller seat 4.3 is provided with baffle plate 4.21, and baffle plate 4.21 is positioned at idler wheel mechanism 4.17 sides, prevents that by baffle plate 4.21 idler wheel mechanism 4.17 breaks away from.

Frame 2 is connected a side by upper linkwork 4.10 and lower linkwork 4.11 connections with rear base, upper linkwork 4.10 is positioned at directly over lower linkwork 4.11.Frame 2 is connected opposite side by upper bindiny mechanism 4.22 and 4.23 connections of lower bindiny mechanism with rear base, upper bindiny mechanism 4.22 is positioned at directly over lower bindiny mechanism 4.23.

Described upper linkwork 4.10 comprises seaming chuck the first shaft seating 4.12 that is fixed on frame 2 and seaming chuck the second shaft seating 4.14 that is fixed on rear base 4.2, seaming chuck the first shaft seating 4.12 and seaming chuck the second shaft seating 4.14 are articulated and connected by seaming chuck the first rotating shaft 4.13, are provided with seaming chuck clutch shaft bearing 4.16 between seaming chuck the first rotating shaft 4.13 and seaming chuck the first shaft seating 4.12, seaming chuck the second shaft seating 4.14.Seaming chuck the first rotating shaft 4.13 upper ends are provided with seaming chuck bearing (ball) cover 4.15, by 4.15 seal protection seaming chuck the first rotating shafts 4.13 of seaming chuck bearing (ball) cover.Described lower linkwork 4.11 structures are identical with upper linkwork 4.10.

Described upper bindiny mechanism 4.22 comprises the seaming chuck handwheel seat 4.26 and the bearing 4.27 that is fixed on frame 2 that is fixed on rear base 4.2 sides, and bearing 4.27 is articulated and connected by seaming chuck the 3rd rotating shaft 4.28 with seaming chuck attaching nut 4.29.Connect seaming chuck handwheel 4.24 on seaming chuck handwheel seat 4.26, seaming chuck handwheel 4.24 front ends are provided with seaming chuck connecting bolt 4.25, and seaming chuck connecting bolt 4.25 is threaded connection with attaching nut 4.29.The structure of described lower bindiny mechanism 4.23 is identical with upper bindiny mechanism 4.22.

The interior left and right sides of described front base 4.1 is respectively equipped with a seaming chuck fairlead 4.9, and a seaming chuck guide post 4.8 is slidably connected in each seaming chuck fairlead 4.9.Each seaming chuck guide post 4.8 lower ends connect pinch roller seat 4.3 jointly, between each seaming chuck guide post 4.8 and pinch roller seat 4.3 by the second round nut 4.7 lockings of a seaming chuck.

As shown in Figure 13 ~ 14, described lower support device 5 comprises the bracing frame 5.1 that is fixed on frame 2, laterally fixes successively a plurality of back-up roller wheel shafts 5.3 on bracing frame 5.1, connects a support roller 5.2 by spring bearing 5.6 on each back-up roller wheel shaft 5.3.Described back-up roller wheel shaft 5.3 is provided with and supports spacer 5.4, and spring bearing 5.6 outer ends are provided with backup washer 5.7.Connect backup washer 5.7 on support frame as described above 5.1, backup washer 5.7 is positioned at back-up roller wheel shaft 5.3 1 ends.

As shown in Figure 15 ~ 16, described iron filings retracting device 6 comprises the processing machine 6.1 that is horizontally installed on frame 2, processing machine 6.1 comprises stirring cage housing 6.10, be provided with stirring cage main shaft 6.8 in stirring cage housing 6.10, stirring cage main shaft 6.8 1 ends connect stirring cage reductor 6.6 outputs by stirring cage shaft coupling 6.7, and the input of stirring cage reductor 6.6 connects stirring cage drive motors 6.5.Stirring cage main shaft 6.8 other ends connect stirring cage housing 6.10 by stirring cage bearing 6.11.Be provided with vertically the stirring cage blade 6.9 of spiral distribution on described stirring cage main shaft 6.8, drive 6.9 rotations of stirring cage blade by stirring cage main shaft 6.8, thereby realized the conveying of iron filings.

Described processing machine 6.1 1 ends are provided with discharging opening 6.4, are provided with iron filings bucket 6.2 under discharging opening 6.4, and iron filings bucket 6.2 both sides, lower end connect the stirring cage idler wheel mechanisms, and iron filings bucket 6.2 is by the be slidably connected line slideway 6.3 of lower end of stirring cage idler wheel mechanism.

Described stirring cage idler wheel mechanism comprises stirring cage rolling wheel support 6.14, and stirring cage roller shaft 6.13 is installed on stirring cage rolling wheel support 6.14, connects stirring cage roller 6.12 on stirring cage roller shaft 6.13.

Operation principle of the present utility model is:

The distance wide according to the plate of steel plate, that the side frame 2.2 of coarse adjustment mainframe 2.1 both sides, groove milling attachment 3, seaming chuck device 4, lower support device 5 and iron filings retracting device are 6.After steel plate entered lower support device 5, seaming chuck device 4 compressed steel plate.The milling head of the groove milling attachment 3 of both sides is used for each monolateral groove up and down processing, can adjust separately.According to steel plate endface position, steel plate thickness and milling angle, the whole facing cutter of accurate adjustment 3.1 positions (front and back, short transverse numerical control are adjusted, and the milling angle is manually adjusted).The iron filings that processing produces fall into iron filings retracting device 6, are convenient to reclaim.

Certainly; above-mentioned explanation is not to be restriction of the present utility model; the utility model also is not limited to above-mentioned giving an example, and the variation that those skilled in the art make in essential scope of the present utility model, remodeling, interpolation and replacement also should belong to protection domain of the present utility model.

Claims (10)

1. steel plate bilateral up and down groove edge milling machines main frame, comprise that groove mills slide (1), frame (2), groove milling attachment (3), seaming chuck device (4), lower support device (5) and iron filings retracting device (6), groove mills the upper fixed frame (2) of slide (1), it is characterized in that: a groove milling attachment (3) is installed respectively in frame (2) left and right sides; The both sides, top of frame (2) one sides connect respectively a seaming chuck device (4), and the both sides, bottom of frame (2) the same side connect respectively a lower support device (5); Described frame (2) bottom is iron filings retracting device (6) fixedly, and iron filings retracting device (6) is positioned at below groove milling attachment (3);

Described groove mills slide (1) and comprises base (1.1), ram (1.2) and ball screw (1.3), base (1.1) two ends are fixed respectively one and are milled slide bearing block (1.5), the two ends of ball screw (1.3) are arranged on respectively mills in slide bearing block (1.5), ball screw (1.3) and mill to be provided with between slide bearing block (1.5) and mill slide bearing (1.6); Base (1.1) one ends fixedly mill slide reductor (1.8), mill upper connection of slide reductor (1.8) and mill slide drive motors (1.9); One end end of ball screw (1.3) connects and mills slide reductor (1.8) by milling slide coupling band (1.7); Described ram (1.2) is slidably mounted on base (1.1), and ram (1.2) inboard is bolted nut seat (1.4), and nut seat (1.4) is threaded connection ball screw (1.3);

Described groove milling attachment (3) comprises the vertical reductor (3.12) that is fixed on frame (2) upper end, the input of vertical reductor (3.12) connects motor vertical (3.11), and the output of vertical reductor (3.12) connects vertical ball screw (3.16) by vertical shaft coupling (3.13); Vertical ball screw (3.16) is arranged in vertical axis bearing (3.14) by the vertical bearing (3.15) that the two ends, up and down connect, and vertical axis bearing (3.14) is fixed on frame (2); The frame (2) of described vertical ball screw (3.16) both sides is provided with vertical guide rail (3.18), be threaded connection vertical nut seat (3.17) on vertical ball screw (3.16), the upper vertical sliding (3.21) that connects of vertical nut seat (3.17), vertical sliding (3.21) the both sides vertical guide rail (3.18) that is slidably connected; Vertical sliding (3.21) side connects horizontal reducer pedestal (3.22), the upper fixing horizontal reductor (3.23) of horizontal reducer pedestal (3.22), the input of horizontal reductor (3.23) connects horizontal motor (3.24), and the output of horizontal reductor (3.23) connects horizontal ball screw (3.30) by horizontal shaft coupling (3.25); Horizontal ball screw (3.30) is arranged in trunnion axis bearing (3.26) by the horizontal bearing (3.27) that the two ends, left and right connect, and trunnion axis bearing (3.26) is fixed on vertical sliding (3.21); Be threaded connection horizontal nut seat (3.28) on horizontal ball screw (3.30), the upper horizontal slide (3.29) that connects of horizontal nut seat (3.28); Horizontal slide (3.29) front end connects rotation fluted disc (3.4), the fixing rotation fluted disc rotating shaft (3.8) of rotation fluted disc (3.4) center, rotation fluted disc rotating shaft (3.8) front end connects milling head base plate (3.3) by rotation fluted disc bearing (3.9), can be tightened in together by a T shape fang bolt (3.10) that is located on milling head base plate (3.3) between milling head base plate (3.3) and rotation fluted disc (3.4); Described milling head base plate (3.3) side is rotary teeth disc decelerator (3.6) fixedly, the input of rotary teeth disc decelerator (3.6) connects milling head handwheel (3.5), the output of rotary teeth disc decelerator (3.6) connects rotation fluted disc gear (3.7), and rotation fluted disc gear (3.7) is connected with a joggle with rotation fluted disc (3.4); Described milling head base plate (3.3) is bolted milling head (3.2), and milling head (3.2) front end connects facing cutter (3.1);

Described seaming chuck device (4) comprises front base (4.1), rear base (4.2) and pinch roller seat (4.3), connects by a plurality of bolts between front base (4.1) and rear base (4.2); Pinch roller seat (4.3) is positioned at front base (4.1), front base (4.1) upper end is seaming chuck oil cylinder (4.5) fixedly, the piston-rod lower end of seaming chuck oil cylinder (4.5) connects pinch roller seat (4.3), and the piston rod of seaming chuck oil cylinder (4.5) and pinch roller seat (4.3) are by seaming chuck the first round nut (4.6) locking; Described pinch roller seat (4.3) lower end from left to right is provided with a plurality of idler wheel mechanisms (4.17) successively; Frame (2) is connected 4.2 with rear base) side is by upper linkwork (4.10) and lower linkwork (4.11) connection, and upper linkwork (4.10) is positioned at directly over lower linkwork (4.11); Frame (2) is connected 4.2 with rear base) opposite side is by upper bindiny mechanism (4.22) and lower bindiny mechanism (4.23) connection, and upper bindiny mechanism (4.22) is positioned at directly over lower bindiny mechanism (4.23);

Described upper linkwork (4.10) comprises seaming chuck the first shaft seating (4.12) that is fixed on frame (2) and is fixed on seaming chuck the second shaft seating (4.14) on rear base (4.2), seaming chuck the first shaft seating (4.12) and seaming chuck the second shaft seating (4.14) are articulated and connected by seaming chuck the first rotating shaft (4.13), are provided with seaming chuck clutch shaft bearing (4.16) between seaming chuck the first rotating shaft (4.13) and seaming chuck the first shaft seating (4.12), seaming chuck the second shaft seating (4.14); Seaming chuck the first rotating shaft (4.13) upper end is provided with seaming chuck bearing (ball) cover (4.15); Lower linkwork (4.11) structure is identical with upper linkwork (4.10);

Described upper bindiny mechanism (4.22) comprises the seaming chuck handwheel seat (4.26) that is fixed on rear base (4.2) side and is fixed on bearing (4.27) on frame (2), and bearing (4.27) is articulated and connected by seaming chuck the 3rd rotating shaft (4.28) with seaming chuck attaching nut (4.29); The upper seaming chuck handwheel (4.24) that connects of seaming chuck handwheel seat (4.26), seaming chuck handwheel (4.24) front end is provided with seaming chuck connecting bolt (4.25), and seaming chuck connecting bolt (4.25) is threaded connection with attaching nut (4.29); The structure of described lower bindiny mechanism (4.23) is identical with upper bindiny mechanism (4.22);

Described lower support device (5) comprises the bracing frame (5.1) that is fixed on frame (2), laterally fix successively a plurality of back-up roller wheel shafts (5.3) on bracing frame (5.1), each back-up roller wheel shaft (5.3) is upper connects a support roller (5.2) by spring bearing (5.6);

Described iron filings retracting device (6) comprises the processing machine (6.1) that is horizontally installed on frame (2), processing machine (6.1) comprises stirring cage housing (6.10), be provided with stirring cage main shaft (6.8) in stirring cage housing (6.10), stirring cage main shaft (6.8) one ends connect stirring cage reductor (6.6) output by stirring cage shaft coupling (6.7), and the input of stirring cage reductor (6.6) connects stirring cage drive motors (6.5); Stirring cage main shaft (6.8) other end connects stirring cage housing (6.10) by stirring cage bearing (6.11); Be provided with vertically the stirring cage blade (6.9) of spiral distribution on described stirring cage main shaft (6.8); Described processing machine (6.1) one ends are provided with discharging opening (6.4), be provided with iron filings bucket (6.2) under discharging opening (6.4), iron filings bucket (6.2) both sides, lower end connect the stirring cage idler wheel mechanism, and iron filings bucket (6.2) is by the be slidably connected line slideway (6.3) of lower end of stirring cage idler wheel mechanism.

2. the bilateral up and down of steel plate as claimed in claim 1 groove edge milling machines main frame, it is characterized in that: described ram (1.2) lower end is bolted pressing plate (1.10), one end of pressing plate (1.10) is positioned at below base (1.1), and pressing plate (1.10) is upper connects base (1.1) by lock-screw (1.11).

3. the bilateral up and down of steel plate as claimed in claim 1 groove edge milling machines main frame, it is characterized in that: described frame (2) comprises mainframe (2.1) and side frame (2.2), mainframe (2.1) both sides connect respectively a side frame (2.2) by bolt.

4. the bilateral up and down of steel plate as claimed in claim 1 groove edge milling machines main frame, it is characterized in that: the upper vertical pressing plate (3.20) that connects of described vertical sliding (3.21) is provided with vertical adjusting plate (3.19) between vertical pressing plate (3.20) and vertical guide rail (3.18).

5. the bilateral up and down of steel plate as claimed in claim 1 groove edge milling machines main frame, it is characterized in that: the upper horizontal pressure foot (3.32) that connects of described horizontal slide (3.29) is provided with Level tune plate (3.31) between horizontal pressure foot (3.32) and vertical sliding (3.21).

6. the bilateral up and down of steel plate as claimed in claim 1 groove edge milling machines main frame, it is characterized in that: described idler wheel mechanism (4.17) comprises seaming chuck the second rotating shaft (4.20) that is fixed on pinch roller seat (4.3), seaming chuck the second rotating shaft (4.20) is upper connects roller (4.18) by seaming chuck the second bearing (4.19), pinch roller seat (4.3) is provided with baffle plate (4.21), and baffle plate (4.21) is positioned at idler wheel mechanism (4.17) side.

7. the bilateral up and down of steel plate as claimed in claim 1 groove edge milling machines main frame, it is characterized in that: described front base (4.1) the interior left and right sides is respectively equipped with a seaming chuck fairlead (4.9), and a seaming chuck guide post (4.8) is slidably connected in each seaming chuck fairlead (4.9); Each seaming chuck guide post (4.8) lower end connects pinch roller seat (4.3) jointly, between each seaming chuck guide post (4.8) and pinch roller seat (4.3) by seaming chuck second round nut (4.7) locking.

8. the bilateral up and down of steel plate as claimed in claim 1 groove edge milling machines main frame is characterized in that: the upper backup washer (5.7) that connects of support frame as described above (5.1), backup washer (5.7) is positioned at back-up roller wheel shaft (5.3) one ends.

9. the bilateral up and down of steel plate as claimed in claim 1 groove edge milling machines main frame, it is characterized in that: described stirring cage idler wheel mechanism comprises stirring cage rolling wheel support (6.14), the upper stirring cage roller shaft (6.13) of installing of stirring cage rolling wheel support (6.14), the upper stirring cage roller (6.12) that connects of stirring cage roller shaft (6.13).

10. the bilateral up and down of steel plate as claimed in claim 1 groove edge milling machines main frame is characterized in that: described back-up roller wheel shaft (5.3) is provided with and supports spacer (5.4), and spring bearing (5.6) outer end is provided with backup washer (5.7).

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